P-600 service manual

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1

Edition Notes

This is the first edition of the 300 System Service Manual. Subsequent updates or revisions will be announced on this page.

Copyright Notice

Copyright (c) 2001 Ioline Corporation

All Rights Reserved

Printed in the United States of America

P/N 107571

REV 0

April 2001

Trademarks

Ioline, System 300, and 301 Software are trademarks of the Ioline Corporation

All registered and unregistered trademarks mentioned in this publication are the sole property of their respective owners.

Your Comments Are Requested

This manual is provided for informational purposes only. Ioline has made every effort to make the system 300 easy to operate, maintain, and repair. The contents are subject to change without notice and the Ioline Corporation assumes no responsibility for any errors that may be contained herein.

No part of this manual may be copied, disseminated, or distributed without the express written consent of the Ioline Corporation.

Ioline Corporation values your comments on our equipment and documentation. Please send your corrections or suggestions to:

Ioline Corporation

14140 NE 200th St.

Woodinville, WA. 98072

USA

ATTENTION: CUSTOMER SERVICE MANAGER

Or contact us by phone:

Phone: (425) 398-8282

FAX: (425) 398-8383

2

Table of Contents

Chapter 1 Introduction and Overview ............................................... 9

How To Use This Manual ..................................................................... 10

Safety ................................................................................................. 11

Warnings And Cautions ....................................................................... 11

Basic Safety Guidelines ........................................................................ 11

Product Overview ................................................................................ 12

Specifications ...................................................................................... 13

How The 300 System Works ................................................................ 13

Table Movement: ................................................................................ 14

Blade Movement: ................................................................................ 15

Limit Of Liability Statement .................................................................. 16

Ioline Warranty Policy .......................................................................... 16

Serial Number Identification ................................................................ 17

Glossary.............................................................................................. 17

Chapter 2 Nomenclature .................................................................. 18

Chapter 3 Setup & Operation ........................................................... 25

Keypad Controls .................................................................................. 26

Arrow Keys.......................................................................................... 26

Set Origin ........................................................................................... 27

Cutting Speed ..................................................................................... 27

Blade Force ........................................................................................ 27

Start/Stop ........................................................................................... 27

Power LED .......................................................................................... 27

Test Cut .............................................................................................. 28

Repeat ............................................................................................... 28

Software Installation ........................................................................... 29

Installing the 301, and Control Center Software ................................... 29

Windows 95/98/ME installation ............................................................ 30

Windows NT/2000 Installation.............................................................. 30

Installing the Hardlock Key .................................................................. 31

Using the 301 software ........................................................................ 32

3

Control Center Software ...................................................................... 36

Screen Options ................................................................................... 36

Measurement Units ............................................................................. 37

Acceleration ........................................................................................ 37

Up/Down Delays ................................................................................. 37

HPGL Default ...................................................................................... 37

Send Settings to the 300 ..................................................................... 37

Force .................................................................................................. 38

Panel Size ........................................................................................... 38

Scale .................................................................................................. 38

Blade Overcut ..................................................................................... 38

Menu Bar Items .................................................................................. 39

File ..................................................................................................... 39

Send Cut/Plot File................................................................................ 39

Open Settings File ............................................................................... 39

Save Settings As... .............................................................................. 39

Setup ................................................................................................. 39

Plotter Setup ....................................................................................... 40

Com Port Setup................................................................................... 40

Display ............................................................................................... 40

Plotter Settings ................................................................................... 40

Factory Defaults .................................................................................. 40

ROM Version ....................................................................................... 40

Memory Buffer .................................................................................... 40

Blade Holder Status............................................................................. 40

Motor Voltage ..................................................................................... 40

Options ............................................................................................... 41

Filtering .............................................................................................. 41

HPGL Setting... ................................................................................... 41

Install New Firmware version ............................................................... 41

Calibration .......................................................................................... 42

Calibrate Plotter .................................................................................. 42

4

Test .................................................................................................... 42

Serial Test ........................................................................................... 42

Computer Port Test. ............................................................................ 42

Plotter Port Test................................................................................... 42

Help ................................................................................................... 43

Contents ............................................................................................. 43

About ................................................................................................. 43

Chapter 4 Troubleshooting and Testing .......................................... 44

Basic Operational Difficulties ................................................................ 45

Common Problems .............................................................................. 45

Error Messages ................................................................................... 46

Software Errors:.................................................................................. 46

L.E.D Codes ........................................................................................ 47

No Power When The 300 System is Turned On ..................................... 48

The 300 Won’t Respond to the Computer ............................................. 48

Communication Problems .................................................................... 48

Serial Communication Test: ................................................................. 49

Testing the 300 Plotter Port: ................................................................ 49

Testing the Computer Port:.................................................................. 49

Cutting Quality Problems ..................................................................... 50

Mechanical, and Electronic Diagnostic Process ..................................... 51

Expanded LED Codes .......................................................................... 52

External Inspection ............................................................................. 53

Required Tools: ................................................................................... 53

Inspecting the Outside of the Unit: ...................................................... 53

Internal Cabling and Connection Inspection ......................................... 54

Tools Required: ................................................................................... 54

Initial Internal Inspection: ................................................................... 54

Testing the Power Supply .................................................................... 55

Tools Required: ................................................................................... 55

Inspecting the Fuse and Output Terminals: .......................................... 55

Testing the Power Supply Output Voltage: ........................................... 55

5

Reference Information for the Power Supply Test Fixture: .................... 56

Testing the Logic Board ....................................................................... 57

Tools Required: ................................................................................... 57

Testing the FETs (Transistors): ............................................................. 57

Testing and Replacing the Other Logic Components ............................. 58

Testing the Motors .............................................................................. 58

Tools Required: ................................................................................... 58

Initial Motor Inspection: ...................................................................... 58

Likely Modes of Motor Failure:.............................................................. 58

Tray (X Axis) Motor Replacement: ........................................................ 58

Carriage (Y Axis) Transmission ............................................................. 59

Carriage (Y Axis) Motor Replacement: .................................................. 59

Testing the New Motor: ....................................................................... 59

Contacting Ioline Customer Service ...................................................... 60

Diagnostic Record ............................................................................... 60

Re-Packing the 300 ............................................................................. 61

Chapter 5 Repair and Maintenance................................................. 62

List Of Recommended Tools And Equipment ........................................ 63

Cleaning And Regular Maintenance ..................................................... 64

Cleaning the Traverse Extrusion and Carriage Wheels ........................... 64

General Disassembly Procedures.......................................................... 65

Removing the End Covers ................................................................... 65

Removing the Bottom Cover for Internal Access ................................... 67

Tools Required: ................................................................................... 67

Y Axis Subsystem ................................................................................ 69

CARRIAGE .......................................................................................... 69

Carriage Replacement: ........................................................................ 69

Replacing the Carriage Ribbon Cable: .................................................. 70

Y Axis Transmission ............................................................................. 72

Y-Axis Transmission Replacement: ....................................................... 72

Y Axis Motor Replacement: .................................................................. 74

Y-Axis Belt Replacement:..................................................................... 75

6

X Axis Subsystem ................................................................................ 77

X-Axis Transmission Assembly Replacement: ........................................ 77

X Axis Motor Replacement: .................................................................. 78

Table Assembly Replacement ............................................................... 79

Power Supply...................................................................................... 82

Power Supply Replacement ................................................................. 82

Rear Panel Replacement .................................................................... 83

Electronic Sub-Systems ....................................................................... 84

Main Logic Board Replacement ............................................................ 84

Resetting the Factory Defaults ............................................................. 85

Keypad Replacement........................................................................... 85

Installing new Firmware ...................................................................... 86

Chapter 6 Drawings, and Bulletins .................................................. 87

Belt Tensioner (“Y” Axis) ...................................................................... 88

Belt Tensioner (Bill of materials) ........................................................... 89

“Y” Axis Transmission .......................................................................... 90

“Y” axis Transmission (Bill of Materials)................................................. 91

Table Assembly ................................................................................... 92

Table Assembly (Bill of Materials) ......................................................... 93

Tray Belt Idler Assy (Right Side)........................................................... 94

Tray Belt Idler Assembly - Right side (Bill of Materials) .......................... 95

Tray Belt Idler Assy (Left Side) ............................................................. 96

Tray Belt Idler Assembly - Left Side (Bill of Materials) ............................ 97

Carriage Assembly............................................................................... 98

Carriage Assembly (Bill of Materials) ..................................................... 99

Shaft Assembly ..................................................................................100

Shaft Assembly (Bill of Materials) ........................................................101

System 300 Chassis Assembly .............................................................102

System 300 - Chassis Assembly (Bill of Materials) .................................103

System 300 - Chassis Assembly (Bill of Materials) Cont... ......................104

System 300 Wrapping Procedure ........................................................105

System 300 - Wrapping Procedure (Bill of Materials)............................106

7

System 300 Boxing procedure ............................................................107

System 300 - Boxing Procedure (Bill of Materials) ................................108

Service Bulletins .................................................................................109

Installation Error/301 Software ...........................................................109

Creating Barudin Files/301 Software ...................................................110

Run Time Error Codes/301 Software ...................................................110

Stitches Overlap to Wrong Side / 301 Software ...................................110

How to “KISS-CUT” ............................................................................111

8

Chapter 1 Introduction and Overview

9

Chapter 1 - Introduction and Overview

Chapter One provides an overview of the Service Manual and important background information about the 300 System Cutter. The following information is covered here:

How to Use This Manual

Safety

Product Overview

Limit of Liability Statement

Ioline Warranty Policy

Serial Number Identification

Glossary

How To Use This Manual

This Service Manual explains most aspects of the Ioline 300 System Cutter including product specifications, installation directions, and testing and repair procedures.

Chapter 1 of the manual provides introductory information and general specifications.

Chapter 2 provides descriptive drawings showing part names for the 300 System

cutter. This section is intended to supplement the 300 System User’s Guide.

Chapter 3 familiarizes the user with how the 300 System operates and how to use

the software to maximum benefit. This section also supplements the 300 System

User’s Guide.

Chapter 4 is a troubleshooting and testing guide.

Chapter 5 provides details for repair and maintenance of the 300 System.

Appendix sections contain technical drawings and reference material

.

10

Chapter 1 - Introduction and Overview

Safety

Warnings And Cautions

Please read the safety guidelines that are explained below before beginning the testing and replacement procedures explained in chapters 5 and 6.

WARNING

Warnings call attention to safety procedures that must be followed in order to avoid potential personal injury.

Cautions call attention to procedures that are required to maximize equipment performance.

Basic Safety Guidelines

Comply with the following safety guidelines in order to prevent electrical shock and other injuries.

Only qualified service personnel should attempt any of the subsystem testing or replacement procedures that are described in this manual.

Unless otherwise noted, all subsystem testing or replacement procedures must be performed with the 300 System turned off and the power cord removed from the rear panel. This will avoid the possibility of electrical shock.

Before beginning any subsystem testing or replacement procedure, make sure that the 300 System is on a flat, stable, clean, and dry surface.

Keep fingers, hair, and clothing well clear of the 300 System whenever moving parts are being tested.

When working on electronic components use a grounding wrist strap to prevent electrostatic damage. If a wrist strap is not available Ioline can provide one.

11

Chapter 1 - Introduction and Overview

Product Overview

The Ioline 300 System Cutter can handle many different plotting, and cutting operations up to 30 inches wide and 18 inches long. Three industry standard plotter languages (HPGL 7475, HPGL 7596, and DMPL) are supported. It is most commonly used in conjunction with the Ioline 301 software for cutting applique patterns, and producing embroidery stitch files for those appliques to be output to the most common embroidery machines. The 300 System also comes with Control Center software that allows adjustment of a variety of cutter settings from the computer.

Figure 1-1. Ioline 300 System Cutter.

12

Chapter 1 - Introduction and Overview

Specifications

Plotting Speed

Max Plotting Acceleration

Blade Force

Cutting Area

Scale

Pens / Tools

Power Requirement

Overall Physical Dimensions

Shipping Weight

Environmental Range

Hardware Interface

Command Languages

24 in/second

1.0 g

10g to 700g

18.25" x 30.25" (.463m x .768m)

1% to 999%

Accomodates Markers, Pens, Pencils to 22.2mm

(.875"). Minimum size: .30" (7.6mm)

90-264 VAC, 47-66 Hz, 200 or 300 Watts

Height: 12" (.30m)

Width: 24" (.61m)

Depth: 45" (1.14m)

124 lbs (56 Kgs)

Temperature: 0-35 C (32-95 F) Relative

Humidity: 30% 85% (Non-Condensing)

Standard RS-232C Serial interface:9600, Baud rate, No parity, 8 Data bits, 1 stop bit Hardware or Software (XON / XOFF) Handshaking, DB-25S connector, requires. DB-25P mating connector.

Parallel communication: IEEE-1284

DM/PL, HP/GL: HP-7475 & HP-7596

How The 300 System Works

The 300 System combines media and Blade motion to create vector cuts. Vector files are sent to the cutter via a serial or parallel connection with a computer or file server.

When a file is sent to the cutter the electronic logic system translates the vectors into instructions for the X Axis (material motion) and Y Axis (Blade motion) motors.

13

Chapter 1 - Introduction and Overview

Table Movement:

Tray motion is accomplished by mounting the material to be cut on an adhesive sheet that is mounted to a removable tray. The tray is then fastened to a fixed table on the machine. The X-Axis transmission rotates a shaft which in turn rotates a gear assembly.

Belts on the right and left underside of the fixed table wraps around the gear assembly which in turn moves the fixed table in and out.

Fig. 1-2

Table (X Axis) Motion

14

Chapter 1 - Introduction and Overview

Blade Movement:

The Y-Axis transmission powers a timing belt that transports a V wheel carriage along the Y-Axis traverse extrusion. The Blade is attached to the carriage and is made to contact the material by actuating a voice coil. When not cutting the Blade is held above the paper by spring action.

Fig. 1-3

Carriage (Y Axis) Motion

15

Chapter 1 - Introduction and Overview

Limit Of Liability Statement

It is the responsibility of the operator to monitor the performance of the 300 system and maintain it in proper working condition by following the operating and regular maintenance instructions. It is also the responsibility of the operator to follow all safety precautions and warnings that are described in this manual. Ioline is not responsible for injuries that may occur as a result of unsafe operating procedures or for degraded performances as a result of failure to maintain the 300 System.

This Service Manual is provided for informational purposes only. The contents are subject to change without notice and Ioline Corporation assumes no responsibility for any errors that may be contained herein. No part of this

Service Manual may be copied, disseminated, or distributed without the express written consent of Ioline Corporation.

Ioline Warranty Policy

Ioline Corporation provides a 12 month parts and labor warranty on all new equipment and 90 days on repaired units, unless specifically noted otherwise. Every unit is recorded by serial number when it leaves the factory. The warranty period is based on the serial number of the unit and extends from the date of manufacture up to 12 months, plus an extra 3 months for self life. Making the total warranty period 15 months from the date of manufacture. See Fig. 1-4 on page 17 for an explanation of

how to read the serial number of the machine.

For warranty service, the end user must work through their dealer. Ioline Customer

Service is available to assist Authorized Dealers in the performance of their equipment support.

16

Chapter 1 - Introduction and Overview

Serial Number Identification

Identification of Ioline Corporation products is accomplished by use of a serial number located on the back of the plotter (See fig. 2-2 on Pg 17). You can determine the model and date of manufacture by interpreting this serial number.

Figure 1-4. Ioline Serial Number Indications.

1 .

B O M

2 .

B O T T O M P A N

3 .

C A R R I A G E

4 .

K E Y P A D

5 .

T R A V E R S E A S S E M B L Y

6 .

X A X I S

7 .

Y A X I S

Glossary

B i l l ( s ) o f m a t e r i a l s f o r a n a s s e m b l y

M e t a l h o u s i n g p r o t e c t i n g t h e c u t t e r .

u n d e r s i d e o f t h e

T h e c o m p o n e n t t h a t h o l d s t h e k n i f e .

I t t r a v e l s a l o n g t h e Y A x i s o n t h e t r a v e r s e a s s e m b l y .

f

W h e r e t h e u n c t i o n s .

u

C s e r a r r i c o n t r o l s a g e a n d s i m p l e m e d i a p l o t t e r m o t i o n i s a c c e s s i b l e f r o m h e r e d u r i n g s t o p m o d e .

S t r u c t u r e c a r r i a g e .

t h a t s u p p o r t s a n d g u i d e s t h e

D i r e c t i o n o f t r a y m o v i n g i n a n d m a c h i n e .

o u t o f t h e

D i r e c t i o n o f k n i f e w i t h t h e c a r r i a g e .

m o t i o n .

U s u a l l y a s s o c i a t e d

17

Chapter 2

Nomenclature

18

Left

Cover

Chapter 2 - Nomenclature

Nomenclature

(Defining the different parts of the 300 System)

Traverse

Adhesive Sheet

(On Removable Tray)

Carriage Assembly

(See detailed drawing on Pg. 20)

Keypad

Right

Cover

Serial Number Plate

Figure 2-1

. 300 System (With Removable Tray) Front View

Table Assembly

(Without Removable Tray)

Rear Panel Assembly

(See Detailed drawing on Pg. 21)

Figure 2-2

. 300 System (Without Removable Tray) Rear View

19

Front

Chapter 2 - Nomenclature

Power Supply

Logic Board

(See Detail Below)

“X” Axis Motor

Assembly

Fig 2-3

300 Cutter (Bottom View with bottom cover removed)

Tray strip

(Keeps the removable tray down)

Adhesive Sheet

“Y” Axis drive belt

Removable tray thumb screws

Fig 2-4

300 Cutter (Top View)

20

Keypad Assembly

Chapter 2 - Nomenclature

“X” Axis Transmission

Assembly

Right End Plate

“Y” Axis

Transmission

Assembly

Rear Panel

Assembly

(See detailed drawing on Pg. 21)

Fig. 2-5

300 Cutter (Right view with cover removed)

Belt Tensioner

Assembly

Left End Plate

Fig. 2-6

300 Cutter (Left view with cover removed)

21

5v Regulator

Fan

Connectors

Power

Supply

Connection

Servo

Motor

Connection

Carriage

Ribbon

Cable

Connection

Chapter 2 - Nomenclature

Parallel Port

Connection

“Y” Axis

Motor ENC

“X” Axis

Motor ENC

Keypad &

Serial

Connection

Fig. 2-7

Logic Board

Programmable ROM

Removable Tray Assembly

Table Assembly

(Non-Removable)

Fig. 2-8

Tray & Table Assembly

22

“Y” Axis Belt

Voice-coil Wires

Chapter 2 - Nomenclature

Top Spring

Wheel

Main Voice-coil

Secondary Voice-coil

“Y” Axis Belt

Blade holder thumb screw

Blade Holder

(See detailed drawing on Pg. 21)

Blade holder

Sensor

Blade Jaw

Fig. 2-9

Carriage Assembly (With Blade installed)

Top Traverse Wheel

(Spring Loaded)

Flex

Cable socket

Carriage PCB

Belt “T” Connector

Belt “T” Connector

Traverse Wheel

Traverse Wheel

Fig. 2-10

Carriage Assembly (Rear View)

23

Chapter 2 - Nomenclature

Blade removal pin

(Push to remove blade)

Blade holder body

Jaw Flange

Foot “O” Ring

Foot

Blade

Fig. 2-11

Blade Holder Assy 1) With foot 2) With foot removed 3) Removing blade

Right side cover

Power switch

Power cord plug in

Parallel cable receptacle

IEEE-1284

(Commonly called the “Printer” port)

Parallel port

“Cable Clip”

Serial cable receptacle

RS-232

(Commonly called the “COM” port)

Fig. 2-12

Rear Panel Assembly

24

Chapter 3

Setup & Operation

25

Chapter 3 - Setup & Operation

This section contains guidelines for basic operation of the 300 System Cutter. The following primary topics are explained and illustrated:

300 Keypad Controls

301 Software Screen Options

301 Software Menu Items

Control Center Screen Options

Control Center Menu Items

Keypad Controls

The keypad on the 300 provides control of the motion systems on the cutter as well as access to speed, and force control. Blade depth can be adjusted by using the “Test-

Cut” button, and repeatability is performed by pressing the repeat button. Communication can also be interrupted and restored and the initial plotting point can be set from the keypad.

Test Cut

Repeat Start/Stop

Fig. 3-1

The 300 Keypad

Arrow Keys

The arrow keys control paper (vertical arrows “X”) and Blade carriage (horizontal arrows “Y”) movement within the parameters of the 300’s frame setting. The plotter must be in stop mode (red LED) to use the keypad arrow keys. The Blade and media speeds become greater the longer the key is depressed. The Blade carriage has a safety feature that will not allow it to collide with the end plates. The tray will not allow forward motion outside of the frame during cutting operations. Diagonal motion is possible by pressing a vertical and horizontal arrow key simultaneously.

26

Chapter 3 - Setup & Operation

Set Origin

You have to set an origin point before sending a cut file to the 300. When the Set Origin key is pressed the plotter logic will use the current X-Axis position of the tray, and

Y-Axis position of the Blade carriage as the starting point of the next plot. When the

Set Origin key is pressed the LED will turn green and the 300 will accept a plot file.

Cutting Speed

You can set the speed of cutting by adjusting the knob on the keypad. If the knob is put in the “Minimum” position (6:00), this puts the cutter in “Crawl Mode” which allows the blade to move very slowly for precise positioning. Different materials require different speeds for cutting accuracy, and correct depth. For more information, see

Chapter 4: Cutting quality problems.

Blade Force

You can set the Blade force by using the knob on the keypad. The minimum value (10

Grams) and maximum value (175 Grams) of the available force can be set from the 300

Control Center if you are plotting with a pen. If you are using a blade, then the force is set at 700 grams, and is not adjustable from the control center software. Material type and thickness determines the correct force setting range on the keypad force knob.

Start/Stop

The Start/Stop key controls serial or parallel communication between the plotter and the computer. When the communication line is open the LED will be green (Start mode). The LED turns red when communication is stopped (Stop mode). Plot files, and Control Center settings can only be sent to the cutter when communication line is open (green LED).

Power LED

The light emitting diode (LED) immediately above the Start/Stop switch indicates the state of communication and provides error codes. LED error codes can be found in

Chapter 4 in the LED Codes section. The LED is red after power is turned on and the carriage resets. A red LED also indicates that the communication line is interrupted between the cutter and the computer. When communication is open between the cutter and the computer the LED will be green.

27

Chapter 3 - Setup & Operation

Test Cut

Pressing Test Cut on the keypad will cut a small square with a circle cut into 4 pie pieces (See drawing below). This internal cut is designed for adjusting the correct blade depth on the blade holder. For a diagram showing correct blade depth, see the

300 User’s Guide under “Setting up the blade”. Pressing the test cut key for approximatelly 2-3 seconds will cut the Ioline logo. This is designed as a further test to see how the blade is cutting with more complex shapes, and letters.

Fig. 3-2

Test Cut

Repeat

The repeat button serves two purposes.

1) To repeat the same cut over and over again on a new piece of material without

having to re-send the file from the computer.

2) To repeat the same cut on the same piece of material if the material is hard to

cut such as Leather, or Felt.

When a file is sent to the 300 to be cut, the file is stored in the memory buffer of the

300 system cutter. After loading the tray with a new piece of material, press the “Start/

Stop” button so the keypad light is “Red”. After setting the blade in the starting position, you can press the repeat button. The same file will then cut out on the new piece of material without having to re-send the cut file from the computer. Note: It is only neccessary to press the “Star/Stop” button after sending the file from the computer.

Pressing the repeat button will leave the light red when it is finished.

If you are cutting “Hard to cut” material such as Leather, or Felt then the repeat button serves a valuable function. When the file is done cutting, press the “Start/Stop” button so the keypad light is “Red”. Press the repeat button, and it will “Re-cut” the same file directly over the previous cut. This technique is good for thick material that doesn’t cut right the first time, and may take several “Repeats” to cut through fully.

28

Chapter 3 - Setup & Operation

Software Installation

The Ioline 301 Embroidery software is a Microsoft Windows 95/98/ME/2000 compatible program that comes on a CD ROM disk with the cutter or is available online at www.ioline.com. A Macintosh version of the 301 software is not available. The 301 software will perform the following:

1.Import some of the most popular embroidery files including Tajima, Toyota, PLT, DXF, and Baraudan.

2. Export in some of the most popular file formats like Tajima, Toyota, PLT, DXF, and Baraudan.

3.Cut out multiple appliques in multiple layers.

4.Create multiple stitch files in multiple layers.

5.Stitch editor program for editing all facets of a stitch.

6.Design Setup window for easy shape duplication, rotation, and layer selection.

Installing the 301, and Control Center Software

The 301 software can use either a mouse or the keyboard of the computer to change the default plotter settings. If using the keyboard, note the following guidelines:

· Use the Tab key to cycle through the screen fields.

· Use the up/down cursor movement or numeric keypad keys to change a numeric value within a highlighted menu field.

· Use the Alt key to toggle between the screen fields and the pull down menus.

Fig. 3-3

301 and Control Center installation screen

29

Chapter 3 - Setup & Operation

· Use the Enter key to select a highlighted field when a pull down menu is open.

Windows 95/98/ME installation

1. Place the disk in your CD ROM drive.

2. The CD should Autorun once it is placed in the drive, and the drive door is closed.

The install wizard will now start the installation process. Follow the prompts until the installation of the Ioline

301 and Control Center software is finished (See Fig. 3-2 on the previous page).

3. If the CD does not Autorun, click on the “Start” button and then “Run”.

4. In the Run window click on “Browse”, and select your CD ROM drive in the box labeled “Look in”.

5. Select the file “IOSETUP.EXE”, and click “OK”.

6. In the Run box, click “OK”.

The install wizard will now start the installation process. Follow the prompts until the installation of the Ioline

Control center is finished.

Windows NT/2000 Installation

Installation of the CD ROM is the same for Windows NT/2000 as for Windows 95/98/ME. The difference is in the “Hardlock Driver” (See the next section “Installing the Hardlock”). Windows 95/98/ME uses a different hardlock driver that will not work with Windows NT/2000. To obtain this driver go to www.ealaddin.com/hardlock/downloads.asp and download the file “HLDRV32.EXE”. This file is a self extracting file, so when the download is complete, “Run...” the file from the Run dialog box. After installation is complete, you can use the 301 software in Windows NT/2000. If you can not obtain this driver over the internet, contact Ioline Tech Support for a disk, or e-mailed file.

30

Chapter 3 - Setup & Operation

Installing the Hardlock Key

The Hardlock key is a device that allows you to use the 301 software (A common name for this device is a

“Dongle”). Without it, the software will not work. The Hardlock key comes with the 300 system cutter in the accessory kit, and plugs into your computers printer port. (See drawing below)

Directional Arrow

(This shows the end to plug into the printer port)

Printer Pass-Through

(Allows the printer to be used)

Printer port Receptacle

Fig. 3-4

301 Software Hardlock Key

Back of computer

Ioline 301 Hardlock “Dongle”

(Be sure to plug in the arrow side to the printer port)

Printer Cable

(If you have a printer, or another

Dongle you can plug it into the other end of the Hardlock)

Fig. 3-5

Rear view of computer showing correct installation of the Hardlock and printer

31

Chapter 3 - Setup & Operation

Using the 301 software

The 301 software is very easy to use, and anyone can learn to use it in just a few minutes. The first thing to remember is that the 301 software is a tool to help you cut appliques, and create stitches for those pieces. It is not an “Automatic” process, so some learning on your behalf is required. The 301 software uses many different input file types such as Tajima (.DST), Melco (.EXP), Toyota (.10o), Barudan (.DAT), Autocad (.DXF), and Hewlet

Packard (.PLT). These files can contain plot and stitch coordinates at the same time allowing you to create a stitch disk from another embroidery software package. The 301 software can import the file, and cut the applique piece or pieces out, while keeping the stitch file intact for your embroidery machine to sew.

Using the 301 software

1. Double click on the “301” icon on the desktop. (Seen below)

2. The first window to open is the main import screen. This window allows you to choose the type of file, and location of the file you wish to open.

Fig. 3-6

301 Software Main Window

Select the type of file, and it’s location, and click on “Load import file”.

32

Chapter 3 - Setup & Operation

Fig. 3-7

301 design view

Zoom Function

Choose whether to display the cut file, or the stitch file

In stitch display mode, clicking on “Single Step” shows the order that the embroidery machine will stitch the file

“Design setup” allows the user to change certain parameters of the cut file. It also allows easy changing of the layers. (See detail on Pg. 34)

Sends the file to be cut

Saves the stitch file for your embroidery machine to sew

“Create Stitches” allows the user to create stitches, and modify them to the users liking.

(See detail on Pg. 34)

Prints the current view to a standard Windows printer

If you are cutting out a DXF file, this option allows the user to rescale the file to work better in the 301 software. Also you can choose to use the mouse button to “Pan” the drawing

“Port Setup” allows the user to change the port the cutter is plugged into

“Edit Design” allows the user to edit the stitches manually, to fix problems (See detail on Pg. 35)

Help using the 301 software

Close the design view

Fig. 3-8

301 Display Options buttons defined

33

Chapter 3 - Setup & Operation

Adjust Imported Design

Allows the user to adjust

Rotation, Mirror, and units of measure for the design

Color Setup

Allows the user to work on individual layers, and create a different stitch file for each layer. Or work on all the layers and create stitches for all the layers at once.

Margins and Copies

Allows the user to easily duplicate a single shape to fill the tray of fabric

Material Dimensions

Allows the user to change the dimensions of the fabric to be cut.

K-C ALL

This is a specialty function for

“KISS-Cutting”. Turn K-C ALL on if you intend to cut multiple layers that must be on top of one another after cut.

Cutter Size

Allows the user to change easily back and forth from 18”x24” and 18”x30”

Fig. 3-9

Design setup window

Outline Running Stitch

Makes an outline around the letter or shape for accurate placement on the garment

Tackdown Running Stitch

Makes a stitch that is indented on the fabric to “Tack-Down” the letter or shape to the garment before applying the Zig Zag, or

Satin stitch

Extra filtering for troublesome stitches

Zig Zag Column Stitch

Creates a zig zag stitch around the letter or shape. Allows easy adjustablity of the stitch to accommodate many embroidery styles

Satin Column Stitch

Creates a satin stitch around the letter or shape. Allows easy adjustability of the stitch to accommodate many embroidery styles

Fig. 3-10

Create Stitches Window (See below for the four types of stitches)

Fig. 3-11

1) Placement Stitch 2) Tackdown Stitch 3) Zig Zag Stitch 4) Satin Stitch

34

Chapter 3 - Setup & Operation

Fig. 3-12

Edit Design Window

Fig. 3-13

Edit Stitches Window

35

Chapter 3 - Setup & Operation

Control Center Software

The Control Center Software provides and interface that allows detailed changes to the 300 cutting parameters.

Screen Options

The main Control Center screen provides control over the primary plotting parameters. Any changes that are made must be sent as temporary or permanent settings before they take affect. Press the Start/Stop key and make sure the green LED (Start mode) is on before attempting to send any changes to the plotter.

Fig. 3-14

Ioline Control Center Window

36

Chapter 3 - Setup & Operation

Measurement Units

English or Metric unit systems may be used for length and speed settings.

Acceleration

The acceleration setting determines how quickly the blade will change speed when starting or ending a line. The factory default acceleration setting is 1.0 g (1 g = 32.2 ft/ s

2

). The setting range is 0.1 to 1.0 g.

Up/Down Delays

Up/down delay controls how long the blade hesitates when actuated. Zero delay makes the blade rise instantly when line drawing is finished. By default it takes the blade 6 milliseconds to lower onto the paper when the logic powers the voice coil.

Longer blade delay settings make the Blade move more slowly but may improve the quality of the cut line. The setting range is 0 to 250 ms (milliseconds).

HPGL Default

Your 300 cutter supports three industry standard plotter languages; HPGL 7475,

HPGL 7596, and DMPL. Your 300 will automatically switch between DMPL and

HPGL. The plotter cannot distinguish between HPGL 7475 and HPGL 7596 so the version number must be set in Control Center before a plot file is sent.

HPGL stands for Hewlett Packard Graphics Language and DMPL stand for Digital

Microprocessor Plotter Language. HPGL 7475 is the default plotting language and is most common in the industry. It has a lower left origin which means the 300 begins plotting from the lower left (keypad side) and measures everything from this location.

HPGL 7596 uses a center origin and is much less common. A center origin means the

300 begins cutting from the center of the panel and measures everything from this location.

Send Settings to the 300

When changes are made in the screen dialog boxes the plotter logic has to be updated via the serial, or parallel link. Three options exist to make the changes take effect.

Sending the settings with the Temporary button will replace the current plotter parameters until the power is turned off or new settings are sent from the control center. If the Permanent button is used to send the settings they remain in the plotter (even after the power is turned off) until they are changed from the Control Center. The update

Display button displays the “Current” status of the cutter. If your unsure about the settings currently setup on the plotter, pressing the Update Display button will show you what they are.

37

Chapter 3 - Setup & Operation

Force

The Force settings control in the 300 Control Center is not adjustable when you are using a Blade. The ability to cut fabric takes a lot of grams of force, and therefore does not need adjusting.

Panel Size

The default panel size for the 300 System is 18.25” long by 32.25” wide. This size is the cutting area of the 300 cutter, and can not be set any bigger than the default size.

Scale

By default the 300 will produce a cut at 100% the size of the specified in the plot file

(no scaling). If the X and Y scale is set to 50% the 300 will produce an applique that is half the specified size. You can set either or both the X and Y scaling of the plot from

1% to 999%.

Blade Overcut

Because of the angle of the blade, the machine must perform an Overcut to meet up with another line. If you picture dragging a stick in the sand behind you, the angle of the stick is the angle of the blade. Your body represents the center (or pivot) point of the blade, and the tip of the stick represents the tip of the blade. If you draw a box in the sand with your feet, it will look fine. But if you draw the same box with the stick behind you, the corners will be rounded. This is where the overcut comes in. It extends the tip of the blade past the corner point so it makes the corners square instead of rounded.

Blade Steering Arc

The blade steering arc is simply the rotational angle of the blade around a corner. If the blade is cutting a box, each corner is a 90 degree angle. In order for the angle to be cut right by an angled blade, the machine must perform a rotation around the 90 degree angle for it to look good. Typically the Blade Steering Arc is 30 degrees for a 45 degree blade, and 15 degrees for a 60 degree blade. These are good standards for cutting out most materials.

38

Chapter 3 - Setup & Operation

Menu Bar Items

The menu items along the top of the screen allow adjustment of a variety of settings for computer control of the Ioline plotter. File management, plotter setup and serial port testing can all be accessed from the menu bar.

File

Fig. 3-15

File Menu

Send Cut/Plot File

Use this option to send plot files (.plt format) to the 300.

Open Settings File

Opens custom settings for the 300 that have been stored with the Save Settings As... option below. When the 300 is shut off these settings will be lost. The factory default settings will be in effect the next time the plotter is powered up.

Save Settings As...

Allows custom settings to be saved to a file so that they can be sent to the 300 at a later time. To retrieve these files use Send Settings File explained above.

Setup

Figure 3-16

Setup Menu

39

Chapter 3 - Setup & Operation

Plotter Setup

Allows selection of the plotter model and COM port.

Com Port Setup

Provides a list of COM ports to select from.

Display

Figure 3-17

Display Menu.

Plotter Settings

Replaces all of the screen values with the current settings stored in the logic.

Factory Defaults

Replaces all of the screen values with the factory defaults. A dialog box will appear that allows these values to be sent to the plotter.

ROM Version

Displays the current ROM version installed in the plotter.

Memory Buffer

Displays the amount of buffer memory on the logic board. This value should be 12 K

(kilobytes)

Blade Holder Status

Displays weather or not the blade holder is installed.

Motor Voltage

Displays the voltage of the motors that are installed in the 300 cutter. This option will only work with ROM version 106882 r0 and higher.

40

Chapter 3 - Setup & Operation

Options

Figure 3-18

Options Menu

Filtering

Displays the filtering dialog window. Some files don’t produce quality curves, and line structure, enabling the filtering option helps to smooth out some of these lines.

HPGL Setting...

Allows the 300 cutter to switch between HPGL/7475 (Corner origin), and HPGL/7596

(Center origin).

Install New Firmware version

1) Copy the file that was sent to you by Ioline Tech Support or downloaded off the

Ioline web site to the hard drive of the computer that is connected to the 300 System

Cutter.

2) Click on “Install New Firmware Version”.

3) Click on “Begin Version Install”.

4) The next window shows the file structure on your computer. Find the file that was

sent to you (.BIN file). Click on the file, and click on “OK”.

5) The plotter will make a beep sound, and the light will turn off. The new firmware will

now start to load into the plotter. When it’s done, close the Ioline Control Center,

and turn the plotter off.

6) Reset the plotter by turnning it back on while pressing and holding the “UP” arrow

key on the keypad of the 300 System.

41

Chapter 3 - Setup & Operation

Calibration

Figure 3-19

Options Menu

Calibrate Plotter

Provides methods to calibrate the cutter for maximum accuracy. The 300 System is calibrated at the factory, and does not need dimensional calibration. If you feel the cutter is not dimensionally accurate, contact Ioline Tech Support.

Test

Figure 3-20

Options Menu

Serial Test

Tests the serial connection between the plotter and the computer. See Chapter 4,

Communications Problems for further information.

Computer Port Test.

Tests the serial port on the computer with a special tool available from Ioline. See

Chapter 4, Communications Problems for further information.

Plotter Port Test.

Tests the serial port on the plotter with a special tool available from Ioline. See

Chapter 4, Communications Problems for further information.

42

Chapter 3 - Setup & Operation

Help

Figure 3-21

Help Menu

Contents

Lists the contents of the help screen.

About

Provides revision information about the Ioline Control Center software.

43

Chapter 4 Troubleshooting and Testing

44

Chapter 4 - Troubleshooting and Testing

This section contains guidelines and testing procedures for resolving most cutting difficulties. Some of this information coincides with repair procedures located in

Chapter 5. The following primary topics are explained and illustrated:

Basic Operational Difficulties

Mechanical, Electrical, and Electronic Diagnostic Processes

Contacting Ioline Customer Service

Basic Operational Difficulties

If the system isn’t working correctly it is very important to determine which component is causing the problem. Likely difficulties may involve the computer, the power cord, parallel or serial cable, the design software, or the 300. If the problem appears to be with the computer or design software consult the appropriate documentation or an

Ioline dealer first.

The information in the following sections has been organized to eliminate minor problems with easy solutions first. If these remedies do not fix the problem more complex and invasive resolutions are provided. If a solution cannot be found in this manual or by changing the software and computer setup, fill out the Diagnostic

Record at the end of this chapter and contact Ioline customer service.

Common Problems

Problem

The cut file doesn't start in the correct place on the tray.

A file has been sent from the software, but the 300 won't cut.

Cause

The "Origin" has not been set.

A communication problem has occurred or the 300 is in "Stop" mode (Red LED).

Solution

Press the "Set Origin" button on the keypad with the knife positioned where the cut file should start.

Make sure the serial or parallel ports on the computer and the

300 are configured properly.

Or press the "Start/Stop" button on the keypad to obtain a Green LED.

45

Chapter 4 - Troubleshooting and Testing

Error Messages

Error messages that are specific to the 300 are divided into two categories; software errors and LED codes. Software errors present themselves on the computer screen and usually indicate a communication problem. LED codes are visible below the keypad on the front panel of the 300 and can be green, red or a combination of both.

The LED code table in this section is for finding the cause of obvious external or communication problems. Later in the chapter a more comprehensive LED index is available for complex mechanical and electronic difficulties. Other errors can occur with the operating system or the design software and should be resolved with the software vendor.

Software Errors:

Error Message Problem Solution

Could not open COMx or LPTx

Green light not on or cutter not connected to COMx or LPTx

The software could not locate the cutter Verify the cutter is connected to that on the specified COM or LPT port. port, or check that the operating system

The software opened the port but could not get a response from the cutter.

recognizes the port.

Be sure the cutter is connected to the selected port, that the cutters green LED is on, and that the cable connecting the computer to the cutter is functioning.

Due to the nature of serial and parallel communication, it is possible to get this message if an attempt is made to interact with the cutter while it's cutting. If this is the case, wait for the 300 to finish cutting and send the file again.

Setup COM port and check plotter present. The last operation requires that the plotter be connected to the port but the software could not find it.

Be sure the cutter is connected to the selected port, that the cutters green LED is on, and that the cable connecting the computer to the cutter is functioning.

The plotter that you selected is not the same as the one connected to your computer.

The Control Center cannot match the cutter that was chosen at the start up with the one found during initialization.

Select the correct plotter from the list.

46

Chapter 4 - Troubleshooting and Testing

L.E.D Codes

LED Sequence Problem

1. Buffer Overflow

3+ Second pause then repeat

2. Communication Problems

3. Defective RS-232 Chip.

Outdated Firmware.

3+ Second pause then repeat

Plotter Language syntax error

Constantly

Repeating

Solution

1. Perform cutter reset.as outlined later in this chapter.

2. Perform communication test as outlined later in this chapter.

3. Replace the RS-232 chip.

Check the Firmware version, install firmware if needed. Contact Ioline

Tech Support

Carriage ("Y" axis) jam.

3+ Second pause then repeat

3+ Second pause then repeat

Table ("X" Axis) jam

Logic Board Error

2 Red Flash

2 Green Flash repeat

The file being sent to the cutter is not of the same language that the cutter is looking for. Open the Ioline Control

Center, and run a test file. If the error doesn't happen again, check the original file for problems.

Check to make sure the carriage moves side to side freely, and remove all objects causing the jam to occur.

Chack to make sure the tray moves in and out freely, and remove any objects causing the jam to occur.

Call Customer Service

L e g e n d

S o l i d G R E E N L i g h t E m i t t i n g D i o d e ( L E D ) o n t h e k e y p a d

B l i n k i n g G R E E N L i g h t E m i t t i n g D i o d e ( L E D ) o n t h e k e y p a d

B l i n k i n g R E D L i g h t E m i t t i n g D i o d e ( L E D ) o n t h e k e y p a d

47

Chapter 4 - Troubleshooting and Testing

No Power When The 300 System is Turned On

If the 300 does not initialize or the fan does not spin when the power is turned on there are a few simple steps to follow to determine if a serious problem has occurred.

1.

Check the power cord. Make sure that it is firmly plugged into the wall and into the back of the plotter.

2.

Check the voltage at the wall outlet and verify that it is within the operating limits as specified in Chapter 1, Specifications.

If there are no problems with the power to the 300 System proceed to the Mechanical,

Electrical, and Electronic Diagnostic Process later in this chapter.

The 300 Won’t Respond to the Computer

If there is a problem getting the 300 to accept commands from the computer, perform these procedures:

Verify that the communications cable is correctly connected to the plotter and to the proper communications port on the computer.

Check to see that the computer LPT, or COM port that is being used is configured to match the 300’s serial, or parallel port settings.

• Χψχλε τηε ποωερ οφφ ανδ ον αγαιν το ρεσετ τηε χοµµυνιχατιον πορτσ

ον τηε 300 σψστεµ.

Make certain that the file and the 300 are set to the same plotter language.

If the connection is good and the port assignments appear to be correct, proceed to the next section.

Communication Problems

Many plotting problems can be resolved by testing and adjusting the communications between the plotter and the computer. There are three diagnostic tests that can be run from the 300 Control Center. These tests are designed to help determine if there are communications problems and isolate where the difficulty is occurring.

The last two tests require a diagnostic module (available from an Ioline dealer) connected to the serial port on the computer or the 300. If the following tests do not resolve the problem and the computer and software are working properly, proceed to the

Mechanical/ Electrical Diagnostic Process later in this chapter.

48

Chapter 4 - Troubleshooting and Testing

Serial Communication Test:

Run this test from the 300 Control Center. The diagnostic module will NOT be needed to run this test.

1.

Connect the serial ports on the 300 and the computer with a serial cable.

2.

From the 300 Control Center screen, select Test.

3.

Select Serial Test.

4.

Turn on the 300 while holding down the Test cut key on the keypad until the 300 beeps and the LEDs flash three times.

5.

Press the Start/Stop key on the keypad to verify that the handshake line (CTS), displayed on the computer, toggles ON and OFF. Leave the handshake lines ON.

Press the Repeat key to switch the 300 into ECHO mode. The green LED will come on.

6.

Press any key on the computer and verify that the character transmitted equals the character received. If the 300 and the computer pass all these tests there should not be any problems producing appliques from plot files.

7.

Select Exit after completing the serial test.

8.

Turn off the 300 at the end of the test. Normal communications will be restored when the power is turned back on.

9.

If this test is successful the next two tests are not necessary.

Testing the 300 Plotter Port:

Run this test from the 300 Control Center. The diagnostic module WILL be needed to run this test.

1. Connect the diagnostic module directly to the 300 serial port.

2. Turn on the 300 while holding down the Test Cut key on the keypad. Hold down the Test Cut key until the 300 beeps and LEDs flash three times.

3. Press any arrow key to transmit and receive characters. Verify the 300 beeps and the green LED flashes.

4. Turn off the 300 at the end of the test. Normal communications will be restored when the power is turned back on.

Testing the Computer Port:

Run this test from the 300 Control Center. The diagnostic module WILL be needed to run this test.

49

Chapter 4 - Troubleshooting and Testing

1. Connect the diagnostic module directly to the serial port on the computer.

2.

From the 300 Control Center, select Test.

3.

Select Computer Port Test.

4.

Verify that the COM port displayed is the correct one. If it is not, press the ESC key twice and select the correct COM port from the Setup, COM Port Setup menu. If any key other than ESC is pressed the computer serial test screen will be displayed.

5.

Press any key on the computer keyboard and verify that the character transmitted is the same as the character received.

Cutting Quality Problems

Good cutting quality is dependent upon a number of different factors. The type of material, environmental conditions, and operator habits are only a few of the variables that can affect the quality of a cut. It is important that the 300 is loaded and maintained according to the guidelines in the 300 User’s Guide and in Chapters 2 and 5 of this manual. The table below is a summary of the most common difficulties:

Problem Cause Solution

If a cut file has been sent, and the output is

The file was sent with the wrong plotter Make sure the file was created with the

erratic.

language setting.

correct plotter language, or the cutter,

If the corners of lines on the completed applique are not completelly meeting.

1. Knife Offset is not set correctly and the Ioline Control Center are setup correctly.

1. Knife offset can be changed in the

2. Knife overcut is set too low.

Ioline Control Center. See Chapter 3

setup & operation of Ioline Control

Center

2. Overcut should be set to 20 for

3. Loose set screw, or loose belt on the cutter.

standard twill

3. See chapter 5 for procedures on how to fix a loose setscrew, or belt.

If a cut file has been sent, and the output is

The cut file has too many "Nodes" in If you are using Corel Trace to

VERY slow no matter how fast the speed is set.

it.

create applique files, the output will take a long time, and won't cut very nice. Instead, hand trace the file to reduce the amount of Nodes in the file.

Common Cut Quality Problems

50

Chapter 4 - Troubleshooting and Testing

Mechanical, and Electronic Diagnostic Process

The diagnostic processes that follow are detailed and invasive. Do not attempt to service the 300 until it has been determined that simpler solutions (see above) will not resolve the problem. It is recommended that the sequence represented in the following diagram be followed when troubleshooting the 300 System cutter. Make sure to record the results of any diagnostic examination on the Diagnostic Record at the end of the chapter.

Computer

Software

Resolution

LED Codes

(Pg. 47, 52)

Communication

Problems

Computer

Software

Resolution

Begin Recording Diagnostic

Information (Pg. 60)

Examine The External

Components (Pg. 53)

Logic

Problem

Disassemble, Check Cabling and Connections (Pg. 54)

Test, Chapter 4

Communicationl Test (Pg. 48)

Examine Power

Supply (Pg. 55)

Power On Test

Examine

Logic Board (Pg. 57)

Power On Test

Examine

Motors (Pg. 58)

Power On Test

Contact Ioline Customer

Support (If required)

Pg. 60

Figure 4-1.

Mechanical, Electrical, and Electronic Diagnostic Flow Chart

.

51

Chapter 4 - Troubleshooting and Testing

Expanded LED Codes

LED Sequence

Dark or erratic flashing LED

3+ Second pause then repeat

3+ Second pause then repeat

Less than 2 second pause then repeat

Alternating

Red & Green

Probable Cause

300 System not plugged in

Cycling power supply due to:

Incorrect power supply or defective power supply

Defective transistor(s) on the logic board

Short or other problem with motor

Defective power supply

Defective transistor(s) on the logic board

Defective keypad

Carriage ("Y" Axis) jam due to:

Media or mechanical jam

Transmission failure

Defective power supply

Defective transistor(s) on the logic board

Defective motor encoder

Short or other problem with motor

Tray ("X" Axis) jam due to:

Media or mechanical jam

Defective transistor(s) on the logic board

Defective power supply

Defective motor encoder

Short or other problem with motor

Cycling power supply due to:

Incorrect power supply sequence or defective power supply

Defective transistor(s) on the logic board

Short or other problem with motor

Syntax Error due to:

Defective power supply

Incompatible Syntax in plot file.

Solution

Plug unit into wall outlet

Check internally for damaged cabling and loose plugins

Replace defective transistor, or replace logic board.

Replace the defective motor

Replace defective transistor, or replace logic board.

Replace defective keypad

Clear any media causing the jam

Check internally for damaged cabling or loose wires

Replace power supply

Replace defective transistor or entire logic board

Replace defective motor

Clear any media causing the jam

Check internally for damaged cabling or loose wires

Replace power supply

Replace defective transistor or entire logic board

Replace defective motor

Clear any media causing the jam

Check internally for damaged cabling or loose wires

Replace power supply

Replace defective transistor or entire logic board

Replace defective motor

Replace the defective power supply

Remake the plot file, or plot a file from the Ioline Control

Center to verify the cutter is working properly.

52

Chapter 4 - Troubleshooting and Testing

External Inspection

Use these procedures if:

The 300 did not initialize (dark LED, fan not running, carriage did not move or made small jerking movements at power on) after it was unpacked from the box and setup following the procedure outlined in the 300 User’s Guide.

The 300 has been working but did not initialize after being reset by turning the power off then on.

Jam messages occur without media or other objects obstructing normal operation.

The carriage is making loud or unusual sounds.

Required Tools:

Multimeter capable of reading AC voltage.

Phillips head screw driver.

Allen wrenches: 1/16” and 5/64”.

Nut driver or socket wrench with extension: 11/32”.

Inspecting the Outside of the Unit:

1. Turn the plotter off.

2. Inspect the unit for damage or obvious signs of mechanical malfunction.

3. Measure the voltage at the wall outlet to verify that it is between 100 and 250

VAC.

4. Clear all media paths and ensure that nothing is obstructing the movement of the tray.

5. Move the carriage from side to side by hand. If the carriage resists easy movement then a short is probably present on the logic board or in the motor. Follow the disassembly procedures in Chapter 5, General Disassembly Procedures then consult Testing the Logic Board and Testing the Motors later in this chapter.

Perform the following disassembly:

1. Unplug the power cord from the wall outlet and the data cable from the computer.

2. Remove the plastic end covers from the end plates following the procedures outlined in Chapter 5.

53

Chapter 4 - Troubleshooting and Testing

Internal Cabling and Connection Inspection

WARNING

The 300 cutter is very heavy and could cause an injury if it falls. Make sure that another person assists with moving the cutter .

When the bottom cover of the 300 is removed and the power is on there is an electric shock hazard. These diagnostic procedures should only be performed by qualified technical personnel or individuals that are aware of safe practices with 110 VAC and 220 VAC devices.

Use this procedure if:

The procedures in External Inspection did not resolve the difficulty.

Tools Required:

Phillips head screw driver.

5/32” allen wrench (supplied).

Two people capable of lifting 50 pounds each.

Grounding strap (optional).

Initial Internal Inspection:

1. Fully disassemble the 300 as described in Chapter 5, General Disassembly Proce-

dures.

2. Many components in the 300 are sensitive to static discharge. Make sure that any static electricity is discharged before attempting any service procedures. A grounding wrist strap works the best and can be provided by Ioline on request.

3. Inspect all of the connectors on the power supply, logic board and at the motors to determine if anything came loose during shipping or from rough handling. Gently push on all plugs and socketed logic chips to ensure that they are properly seated.

WARNING

When the plotter is connected to a wall outlet there are high voltages on the power supplies that could cause an injury. Be extremely careful!

4. Plug the cutter back into the wall and turn it on. Check to see if the plotter resets.

If these procedures are not effective in solving the problem continue to Testing the

Power Supplies for the next step in the diagnostic process.

54

Chapter 4 - Troubleshooting and Testing

Testing the Power Supply

Tools Required:

Multimeter capable of reading DC voltage.

Ioline power supply test fixture..

Soldering apparatus (optional).

Insulating material (electrical tape, mylar strips, etc.)

Inspecting the Fuse and Output Terminals:

1. Turn the power off.

2. Inspect the onboard power supply fuse. If it is defective it can be replaced with a

3/4” x 3/16”, 3 AMP, GFE, fast blow fuse or equivalent.

3. Examine the metal terminals at the +24 V, +5 V and ground output wires. The insulation for these wires is colored red for +5 V, yellow for +24 V, and black or brown for ground. They should be flush against the board and unable to touch each other.

4. If it looks like they could short or if arcing has occurred, re-solder as necessary and/or insulate the wires so that they can no longer contact each other.

5. The power supply may also be returned to Ioline for a replacement.

If this does not isolate a power supply problem continue to the next step.

Testing the Power Supply Output Voltage:

1. Turn the power off.

2. Mark the power supply connectors with their associated socket number (J3 or J7).

3. Unplug both power supplies from the logic board. It is very important that they be disconnected from the logic board for correct voltage readings.

4. Connect one of the power supplies to the Ioline Power Supply Test Fixture *. The plug will only fit on one way.

* If the Ioline test fixture is not available insert a 20

, 5W resistor into the plug between one of the red (+5V) wires and one of the black or brown ground wires. The voltages are labeled on the logic board at the J3 and J7 connectors.

55

Chapter 4 - Troubleshooting and Testing

5. The fixture provides labeled test points for all output voltages. Turn the power on and measure the voltages. All of them should be tested relative to the associated ground pin (the +5 V shares a common ground) and should read as labeled (

±

10%). Repeat this procedure for the other power supply.

6. If any voltage fluctuates wildly or is not within 10% of the specified value then replace the power supply. If the voltages are within the tolerances continue to the next step.

If these procedures are not effective in solving the problem read Testing the Logic

Board for the next step in the diagnostic process.

Reference Information for the Power Supply Test Fixture:

The information below describes the resistive loads imposed on the power supply when the Ioline Power Supply Test Fixture is used. While not as effective, a 20

,

5W resistor between +5V (red) and ground (black or brown) will also work for testing.

R

5vload

R

12vload

R

= 20

, 3 watt (I

5vload

-12vload

R

24vload

= 500

250 ma)

= 500

, 1/2 watt (use 2 X 1K

res. for I

+12vload

, 1/2 watt (use 2 X 1K

for I

All load resistors should be within a

±

20% tolerance

24 ma)

-12vload

24 ma)

= 1 K

,1/2 watt (use 2 X 2K

1/4 watt resistor for I

24vload

24 ma)

56

Chapter 4 - Troubleshooting and Testing

Testing the Logic Board

Use this procedure if:

The procedures in Testing the Power Supplies did not resolve the difficulty.

The carriage was difficult to move during external inspection.

Tools Required:

Phillips head screw driver.

Multimeter capable of reading resistance in Ohms (

).

Soldering apparatus and grounding strap (both optional).

Testing the FETs (Transistors):

1. Turn the power off. Discharge any static electricity as described above.

2. Find the motor power transistors (FETs) on the logic board. They are located near the power input plugs J3 and J7 and are labeled Q1-Q8 and Q10-Q11.

3. If any of FETs have melted, smell acrid or burnt, or have discolored the logic board they should be replaced.

4. Using a multimeter test the resistance between the source (S) and drain (D) leads and between the gate (G) and drain (D) leads on each of the transistors.

5. If any of the resistance measurements are less than 500 k

the part is suspect. If any readings are below 1

there is an internal short and a definite FET failure.

6. If the FETs are defective and the logic board is revision 0 the entire board should be replaced with the newest version. If the logic board is revision 1 the defective

FETs can be replaced with exact duplicates The transistors at locations Q1, Q3,

Q5, Q7, and Q10 are p-channel FETs and can be replaced with Ioline part number

105858. The transistors Q2, Q4, Q6, Q8, and Q11 are n-channel FETs and require

Ioline part number 102807 for replacement.

7. If replacing a FET is not possible remove and replace the entire logic board.

8. Before the plotter is re-tested with a new logic board and/or new transistors make sure that any media or mechanical jams have been cleared so that the FETs are not damaged in the same manner that might have caused their original failure.

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Chapter 4 - Troubleshooting and Testing

Testing and Replacing the Other Logic Components

1. If all of the other diagnostic procedures have been exhausted and the FETs are testing good, change the logic board. Communications problems may indicate that the RS-232 chip may need to be replaced. This socketed component is located at U25. No other logic board components can be field tested.

If these procedures are not effective in solving the problem read Testing the Motors for the next step in the diagnostic process.

Testing the Motors

Use this procedure if:

The procedures in Testing the Logic Board did not resolve the difficulty.

Tools Required:

Phillips head screw driver.

Allen wrenches: 1/16”, 5/64”.

Initial Motor Inspection:

1. Move the tray in and out, and move the carriage side to side while listening to the associated motor.

2. If there is any grinding, squeaking, or clicking from within the motor it is probably defective. Return the motor to Ioline for a replacement.

Likely Modes of Motor Failure:

1. An internal short has occurred. This malfunction exhibits itself as a jam and causes the motor to be more difficult to turn by hand. To determine if a carriage motor has shorted, unplug the input power leads and move the carriage by hand.

If the motion has a high resistance the motor is probably shorted.

2. The motor encoder has failed. The encoder allows the plotter logic to keep track of axis positions and speeds. When an encoder fails the motor may work at low speeds but during acceleration it speeds up abnormally then jams.

Tray (X Axis) Motor Replacement:

If the tray quickly accelerates and jams and the FETs are not defective, or if unexplainable X axis jams occur the motor may be defective. See Chapter 5, X-Axis Motor

Replacement section for the replacement procedure.

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Chapter 4 - Troubleshooting and Testing

Carriage (Y Axis) Transmission

1. Turn the power off.

2. Make sure that the carriage (Y axis) transmission belts are not damaged, mistracking or loose. Closely check the belt teeth for excessive wear.

3. Loosen the transmission retaining nuts (there are four) with the 11/32” nut driver and retighten them.

4. Tighten the allen set screws on the pulleys with the 1/16” and 5/64” allen wrenches.

5. Ensure that the three allen screws (5/64” allen wrench) holding the motor to the transmission bracket are not loose.

6. Actuate the transmission by depressing the left and right keypad arrows with the power on. Test both directions for at least 5 seconds.

7. If unusual noises or mechanical malfunctions are present remove the transmission and return it to Ioline for a replacement.

If these procedures are not effective read Internal Cabling and Connection Inspection for the next step in the diagnostic process.

Carriage (Y Axis) Motor Replacement:

If the carriage quickly accelerates and jams and the FETs are not defective or if unexplainable jams occur the motor may be defective. See Chapter 5, Y-Axis Motor Re-

placement section for the replacement procedure.

Testing the New Motor:

1. After installation, test the new motor(s) with the keypad arrow keys for five to ten seconds.

2. It is important that care be taken when changing the motor and that proper belt tensions and alignment be attained after the new unit is installed. Never separate the motor and encoder assembly.

3. If replacing and adjusting the motor cannot be accurately accomplished contact a qualified service dealer or Ioline customer service for assistance.

If the difficulty persists and the Diagnostic Record (see next page) is completed, contact an Ioline dealer Ioline Customer Service for further help.

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Chapter 4 - Troubleshooting and Testing

Contacting Ioline Customer Service

If the suggestions and guidelines in this manual cannot help resolve the difficulty contact Ioline Customer Service. When speaking with a customer service representative they will ask a number of questions regarding the results of the diagnostic investigation.

Use the following form to record the observations so Ioline can expedite solving the difficulties.

Diagnostic Record

What is the serial number for this unit? _______________ Logic board revision # ? _____

Who was the dealer that sold it to you? _________________________

Has the unit been working properly up to the point of the recent failure?

YES_____ NO_____

Are there any blinking LEDs or beeping sounds associated with this problem?

YES_____ NO_____

If yes, please describe them. ________________________________________

Were there communication or computer software problems?

If yes, please describe them. ________________________________________

When the plotter is first turned on, does the pen carriage move fully to the right?

Does the fan come on?

With the power off, slide the carriage from side-to-side.

YES_____ NO_____

YES_____ NO_____

Does the carriage slide easily to each side?

YES_____ NO_____

Is there more resistance to move the carriage to the left _____, the right _____, or is it equal? ______

Were all of the cable connections securely fastened to the logic board.

YES_____ NO_____

Were all logic components seated in the logic board.

Was the power supply shorting at the terminals?

Was the power supply voltages within the tolerances?

Record the power supply voltage readings here:

YES_____ NO_____

YES_____ NO_____

YES_____ NO_____

J3, VMOT(+24V)__________ J7, VMOT(+24V)__________

J3, +12V__________

J3, -12V__________

J7, +12V__________

J7, -12V__________

J3, +5 (1)__________ J7, +5 (1)__________

J3, +5 (2)__________ J7, +5 (2)__________

Were any of the transistors on the logic board defective?

YES_____ NO_____

If yes, which ones?

Q1___ Q2___ Q3___ Q4___ Q5___ Q6___ Q7___ Q8___

Were any of the motors or encoders bad?

If yes, which ones? X motor/encoder__ Y motor/encoder__

Please list any other difficulties. Be very specific about the nature of the problem and any symptoms associated with it.

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Chapter 4 - Troubleshooting and Testing

Re-Packing the 300

If the 300 must be returned to Ioline for repair it must be shipped in the original packaging supplied with the plotter. To repackage the 300 use the plotter Boxing Procedure

Diagram in Chapter 6. Contact Ioline Customer Service for shipping instructions.

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Chapter 5 Repair and Maintenance

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Chapter 5 - Repair and Maintenance

Repair and Maintenance

This section contains instructions for replacing failed assemblies and maintaining the

300 system cutter. The testing procedures for determining if an assembly is causing difficulties are located in Chapter 4. The following subsystems and procedures are explained and illustrated:

Cleaning and Regular Maintenance

General Disassembly Procedures

Y-Axis Subsystem

X-Axis Subsystem

Electrical Subsystem

Electronic Subsystem

List Of Recommended Tools And Equipment

All of the tools and equipment that are needed to perform the repair and adjustment procedures are listed below:

1.

Number 2 Phillips magnetic head screwdriver

2.

Precision Pull Scale 1 kg x 20 g (36 oz x 1/2 oz)

3.

9/64”, 5/64”, 5/32” (supplied), 1/16”, and 1/8” Hex Wrenches

4.

Socket Wrench Driver

5.

9” Socket Wrench Extension

6.

3/8” Socket or Nut Driver

7.

11/32” Socket

8.

11/32”, 1/2”, and 9/16” Open End Wrenches

9.

Exacto Blade

10. Double back tape

11. Needle nose pliers

12. Volt/Ohm Meter

13. Static Grounding Strap (supplied on request)

14. Ioline Power Supply Test Fixture (available from Ioline)

15. Ioline Serial Port Test Fixture (available from Ioline)

16. Plastic Cable Ties

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Chapter 5 - Repair and Maintenance

Cleaning And Regular Maintenance

Cleaning the Traverse Extrusion and Carriage Wheels

As dust and debris accumulate on the traverse extrusion it will have to be wiped off with an isopropyl (pharmacy) alcohol dampened, lint-free cloth.

1. With a clean cloth dampened with Isopropyl alcohol wipe the traverse extrusion where the carriage wheels ride on the rail. Move the carriage side to side while wiping the traverse so as to clean the entire surface. See chapter 2 Nomenclature for the location of the traverse.

Figure 5-1.

Cleaning the Traverse Extrusion

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Chapter 5 - Repair and Maintenance

General Disassembly Procedures

The following procedures describe the basic disassembly of the 300 system cutter to gain access to the keypad, power, and drive components. Please pay close attention to the Warning and Caution notes.

Removing the End Covers

1. Turn off the 300 and unplug the computer data, and power cables.

2. Remove the two black phillips head screws, and the single silver phillips head screw on the bottom of the cover, then remove the right cover. To access the rear black screw, you may have to move the tray forward. See figure 5-2 below.

3. Remove the two black phillips head screws, and remove the left cover. See figure

5-3 on the next page.

Rear cover screw

(Right side)

Front cover screw

(Right side)

Fig. 5-2

Right side cover screws (Black Phillips head)

65

Front cover screw

(left side)

Chapter 5 - Repair and Maintenance

Rear cover screw

(left side)

Fig. 5-3

Left side cover screws (Black Phillips head)

Move cover to the right, and rotate to the front when it reaches the keypad control knobs

Fig. 5-4

Removing the right side cover

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Chapter 5 - Repair and Maintenance

Removing the Bottom Cover for Internal Access

WARNING

The 300 system cutter is very heavy and could cause an injury if it falls. Make sure that another person assists with moving the cutter.

When the bottom cover of the 300 is removed and the power is on there is an electric shock hazard. These diagnostic procedures should only be performed by qualified technical personnel or individuals that are aware of safe practices with 110 VAC and 220 VAC devices.

Do not lift the 300 by its top dust cover, or the tray assembly. Use the bottom surfaces of the end plates for lifting and moving the plotter.

Tools Required:

Phillips head screw driver.

Two people capable of lifting 50 pounds each.

Grounding strap (optional).

Perform the Following Disassembly:

1. Turn the power off, and disconnect the computer data, and power cables.

2. Move the carriage assembly to the right side of the cutter.

3. Remove the right side cover. See Removing the covers earlier in this chapter.

4. Use your assistant to help you flip the 300 cutter over onto it’s top dust cover. Use the right side cover to place under the tray so it doesn’t fall over while it’s on it’s top. See figure 5-5

5. Remove the phillips screws along the bottom cover’s edge. See figure 5-6

6. While removing the bottom cover, take care in unplugging the fan wire from the logic board

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Chapter 5 - Repair and Maintenance

Bottom Cover

Right side cover under the tray

Fig. 5-5

Turn 300 over, and place right side cover under tray

Bottom cover screws

Fig. 5-6

Bottom cover screws

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Chapter 5 - Repair and Maintenance

Y Axis Subsystem

CARRIAGE

Carriage Replacement:

1.

Shut off the cutter and remove the power and computer data cables.

2.

Remove the right (3 screws) and left (2 screws) end covers. See Removing the

End Covers earlier in this chapter.

3.

Loosen the allen screw on the belt tensioner (left side of the machine) until the the bracket is flat against the end plate. Do not remove the screw.

4.

Grasp one of the metal “T”-connectors on the end of the Y Axis belt and pull it out and toward the center of the carriage until it pops free. Make sure that the tensioner assembly is not tangled in the belt. Remove the other end of the belt.

5.

Remove the carriage from the machine by pushing down on the belt attachment brackets, and pulling out on the bottom wheels.

6.

Mount the new carriage on the traverse extrusion by aligning the upper wheel with the upper rail, push down on the belt attachment brackets, then slip the lower wheels onto the bottom rail and let the carriage rest.

7.

Insert one of the metal “T”-connectors into the grooves on the front of the carriage body.

8.

Align the tensioner assembly with the indentations on the end plate and apply light tension to the belt by tightening the allen screw.

9.

Move the carriage to the far right closest to the keypad.

10. Adjust the belt tension by tightening the belt tensioner until the spring scale measurement at the center with the belt pulled 1” out from the normal position is 320

+/-20 grams. See “Y” axis belt replacement on Pg. 74.

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Chapter 5 - Repair and Maintenance

11. Plug the power cord into the 300 and into a wall outlet. Move the carriage back and forth across the traverse extrusion with the keypad keys while watching the Y

Axis belt. If there is excessive noise or if the belt is badly misaligned the 11/32” nuts can be loosened and the transmission can be adjusted slightly to achieve proper alignment.

12. Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures

earlier in this chapter.

13. If problems arise contact Ioline customer service.

Replacing the Carriage Ribbon Cable:

1.

Shut off the plotter and remove the power and computer data cable.

2.

Remove the right (3 screws) and left (2 screws) end covers. See Removing the

End Covers and Dust Cover earlier in this chapter.

3.

Perform the procedures in Removing the Bottom Cover for Internal Access earlier

in this chapter.

4.

Perform the procedures in Replacing and removing the carriage earlier in this

chapter.

5.

Disconnect the ribbon cable from the carriage by sliding the rectangular locking collar away from the socket. The collar is fragile so be very careful when loosening it.

6.

Gently pull the ribbon cable out of the channel. A piece of two sided foam tape holds the cable on the channel bottom so do not pull hard. Feed the cable through the top slot in the end plate. Another piece of foam tape holds the ribbon cable to the end plate so take care in removing the ribbon cable from the slot.

7.

Discharge any static electricity that has accumulated and remove all of the plugs and connections on the power supplies. Use the Interconnect Diagram in the

Appendix section as a location guide.

8.

Remove the power supply (2 screws in the removable metal pan) by loosening the phillips head screws and pulling the unit out of the track in the platen.

9.

Disconnect the ribbon cable from the logic board by sliding the rectangular locking collar away from the socket. The collar is fragile so be very careful when loosening it.

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Chapter 5 - Repair and Maintenance

Ribbon cable replacement cont...

10. Feed the ribbon cable out of the plastic retainers on the underside of the platen and through bottom slot in the end plate.

11. Feed the new ribbon cable through bottom slot in the end plate and into the plastic retainers on the underside of the platen. Make sure that the exposed metal leads face up (toward the bottom of the platen).

12. Connect the ribbon cable to the logic board by inserting the cable into the rectangular connector until it stops (the locking collar must be pulled out). Make sure that the exposed metal leads face up (toward the bottom of the platen). Slide the locking collar toward the socket until it snaps shut. The collar is fragile so be very careful when closing it.

13. Replace the power supply plug using the chassis assembly diagrams in the Appen-

dix as a guide. Connect all of the plugs using the Interconnect Diagram in the

Appendix section.

14. Rotate the 300 back so that it is in normal operating position. Feed the ribbon cable through the top slot in the end plate. The exposed metal leads should face up toward the top of the plotter. Make sure that the cable is stuck to the foam tape on the end plate.

15. Gently pull the ribbon cable taut and press it onto the two sided foam tape on the channel bottom.

16. Connect the ribbon cable to the carriage by inserting the cable into the rectangular connector until it stops (the locking collar must be pulled out). Make sure that the exposed metal leads face down (toward the bottom of the channel). Slide the locking collar toward the socket until it snaps shut. The collar is fragile so be very careful when closing it.

17. Remount the carriage to the traverse following the carriage removal instructions in reverse.

18. Plug the power cord into the 300 and into a wall outlet. Move the carriage back and forth with the keypad keys while watching the ribbon cable in the track. If the cable snags in the channel check for proper alignment where the cable is stuck to the foam tape.

18. Reconnect the computer data cable and perform test plots. If the carriage does not function check that the cable is oriented correctly in the rectangular connectors. Reassemble the 300 in the reverse order that it was disassembled. See

General Disassembly Procedures above.

19. If problems arise contact Ioline customer service.

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Y Axis Transmission

Chapter 5 - Repair and Maintenance

Y-Axis Transmission Replacement:

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cables.

2.

Remove the Right & left end covers. See Removing the End Covers.

3.

Loosen the allen screw on the belt tensioner until the screw is not exposed. Do not remove the screw.

4.

Grasp one of the metal “T”-connectors on the end of the Y-Axis belt and pull it out and toward the center of the carriage until it pops free. Make sure that the tensioner assembly is not tangled in the belt. Remove the other end of the belt from the carriage.

5.

Pull the Y Axis belt through the holes in the right end plate. The belt may have to be threaded through the pulleys in the Y Axis transmission.

6.

Disconnect the motor power cables (Red and black), and the encoder plug-in

(Black connector at the bottom of the motor) from the base of the motor. See Fig.

5-7.

7.

Loosen and remove the four 11/32” nuts that hold the Y Axis transmission onto the end plate.

8.

Install the new transmission on the end plate with the motor body pointing down.

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Chapter 5 - Repair and Maintenance

Secure the assembly with the 11/32” nuts from the previous step.

9.

Reconnect the power cables with the red wire attached at 1 and the black wire attached at 2, and the encoder plug-in at the base of the motor.

10. Thread the Y Axis belt through the access slots in the end plate and around the empty pulley in the transmission. It is very important to make sure that there are no twists in the belt and that the belt teeth properly engage the pulley.

11. Insert one of the metal “T”-connectors into the grooves on the back of the carriage body.

12. Align the tensioner assembly with the indentations on the end plate and apply light tension to the belt by tightening the allen screw.

13. Move the carriage to the far right.

14. Adjust the belt tension by tightening the belt tensioner until the spring scale measurement at the center with the belt pulled 1” out from the normal position is 320

+/-20 grams.

15. Plug the power cord into the 300 and into a wall outlet. Move the carriage back and forth across the traverse extrusion with the keypad keys while watching the Y

Axis belt. If there is excessive noise or if the belt is badly misaligned the 11/32” nuts can be loosened and the transmission can be adjusted slightly to achieve proper alignment.

16. Cable tie the wire bundles together to ensure that they do not interfere with moving parts and end cover replacement.

17. Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

18. If problems arise contact Ioline customer service.

Motor power wires

Motor encoder plug

Fig. 5-7

Motor wires (Power & Encoder)

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Chapter 5 - Repair and Maintenance

Y Axis Motor Replacement:

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cable.

2.

Remove the right (3 screws) end cover. See Removing the End Covers above.

3.

Disconnect the motor power, and motor encoder wires from the base of the motor. See Fig. 5-5

4.

With a 9/64” HEX wrench, loosen the two HEX setscrews on the motor gear pulley. See fig. 5-6

5.

With a 1/8” HEX wrench, remove the three black HEX screws at the base of the gear pulley. See fig. 5-6

6.

Carefully slide the gear pulley off the motor shaft, and remove the motor from the transmission housing. Sometimes the pulley can be hard to remove, you may need to pry the pulley off the motor shaft.

7.

Follow the procedures in reverse order to remount the new motor, then adjust the belt tension. See Fig. 5-9 & 5-10 on Pg. 76

8.

If problems arise contact Ioline customer service.

Gear Pulley

Setscrews

Motor Mounting screws

Fig. 5-8

Motor mounting screws, and gear setscrews

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Chapter 5 - Repair and Maintenance

Y-Axis Belt Replacement:

1.

Shut off the cutter and remove the power and computer data cables.

2.

Remove the right (3 screws) and Left (2 screws) end covers. See Removing the

End Covers.

3.

Loosen the allen screw on the belt tensioner until the screw is not exposed. Do not remove the screw.

4.

Grasp one of the metal “T”-connectors on the end of the Y-Axis belt and pull it out and toward the center of the carriage until it pops free. Make sure that the tensioner assembly is not tangled in the belt. Remove the other end of the belt from the carriage.

5.

Pull the Y Axis belt through the holes in the left end plate. The belt will have to be threaded through the tensioner assembly. Once the belt is removed the tensioner assembly will have to be set aside because it is not attached to the end plate.

6.

Pull the Y Axis belt through the holes in the right end plate. The belt may have to be threaded through the pulleys in the Y Axis transmission.

7.

Thread the new Y Axis belt through the access slots in the right end plate and around the empty pulley in the transmission. It is very important to make sure that there are no twists in the belt and that the belt teeth properly engage the pulley.

Continue to thread the belt through the holes in the left end plate and through the belt tensioner. Make sure that the belt teeth face the pulley wheel and that there are still no twists.

8.

Insert one of the metal “T”-connectors into the grooves on the back of the carriage body.

9.

Align the tensioner assembly with the indentations on the end plate and apply light tension to the belt by tightening the allen screw.

10. Move the carriage to the right side of the machine (Closest to the keypad).

11. To make sure the belt has the proper tension, use a fish scale that measures in

Grams. place the hook (on the fish scale) around the belt. See fig 5-9.

12. Place a ruler on the bottom of the traverse extrusion, See fig 5-9.

13. Pull the fish scale to the 1” (One inch) mark on the ruler. The reading on the fish scale should read from 300 to 360 Grams. See fig 5-10.

14. Adjust the belt tensioner until the belt tension is correct.

15. If you can’t find a fish scale, the belt can be adjusted by hand. Tighten the tensioner until you feel there is enough tension on the belt.

16. Slide the carriage back and forth by hand. If you feel slipping the belt is too loose.

If you hear “Clicking”, the belt is too tight.

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Chapter 5 - Repair and Maintenance

Ruler

“Y” Axis Belt Assembly

Fig. 5-9

Tensioning the “Y” axis belt assembly

Fish Scale

Fig. 5-10

Pulling the belt to 1”, and measuring 300 to 360 Grams

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Chapter 5 - Repair and Maintenance

X Axis Subsystem

X-Axis Transmission Assembly Replacement:

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

It is important to note that the X Axis transmission consists of two pulleys, a motor, and the table assembly along with it’s belts. There is no assembly to replace but the components can be changed if necessary.

2.

Shut off the cutter and remove the power and computer data cable.

3.

Remove the right (3 screws) end cover. See Removing the End Covers above.

4.

To change either pulley loosen the set screws (See Fig. 5-11) pull the pulley off and replace with a new part. Reuse the set screws from the old pulley because there is Loctite residue on the threads. When tightening the set screws in the motor pulley make sure that one set screw contacts the shaft on the flat machined surface.

5.

Plug the power cord into the 300 and into a wall outlet. Move the tray back and forth with the keypad keys while watching the X Axis belt. If there is excessive noise or if the belt is loose the phillips head screws that retain the motor can be

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Chapter 5 - Repair and Maintenance

loosened and the motor can be adjusted slightly to achieve proper belt tension.

6.

If the motor needs to be changed use the procedure below.

7.

Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

“X” Axis servo motor

Gear

Setscrews

“X” Axis belt

Motor Gear

Fig. 5-11

“X” Axis motor, gears, and belt

X Axis Motor Replacement:

1.

Shut off the cutter and remove the power and computer data cable.

2.

Remove the right (3 screws) end cover. See Removing the End Covers above.

3.

Perform the procedures in Removing the Bottom Cover for Internal Access above.

4.

Discharge any static electricity that has accumulated and remove all of the plugs on the logic board. Use the Interconnect Diagram in the Appendix section to find all of the connections.

5.

Remove the logic board by loosening the phillips head screws and pulling the unit out of the track in the platen.

6.

Disconnect the motor power cables (Red and black) from the base of the motor, and the black encoder plug with 4 wires at the base of the motor.

7.

Remove the motor pulley and belt. Loosen and remove the three phillips head screws that hold the motor on the end plate.

8.

Replace the motor and attach the pulley and belt. When tightening the set screws make sure that one set screw contacts the shaft on the flat machined surface.

9.

Reconnect the power cables to the base of the motor with the red wire attached at

1 and the black wire attached at 2. Make sure to route the wiring through the plastic clips so that it is held away from moving parts and is accessible after the logic board is installed.

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Chapter 5 - Repair and Maintenance

10. Install the logic board making sure that the rear edge fits into the proper track in the platen. Secure with the phillips screws.

11. Connect all of the plugs on the logic board. Use the Interconnect Diagram in the

Appendix section to properly make all of the connections.

12. Plug the power cord into the 300 and into a wall outlet. Turn the power to the cutter on. Move the tray back and forth with the keypad keys while watching the

X Axis belt. If there is excessive noise or if the belt is loose the phillips head screws that retain the motor can be loosened and the motor can be adjusted slightly to achieve proper belt tension.

13. Cable tie the wire bundles together to ensure that they do not interfere with moving parts and end cover replacement.

14. Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

15. If problems arise contact Ioline customer service.

Table Assembly Replacement

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cable.

2.

Remove the right (3 screws) and left (2 screws) end covers. See Removing the

End Covers above.

3.

Loosen the (2) 11/32” nuts located on either side of the “X” axis tray gear. See

Fig. 5-12

Tray belt adjustment nuts

Right end plate

Left end plate

Tray belt nuts

Nut w/ slotted hole

Fig. 5-12

Right and left end plates showing tray adjustment nuts

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Chapter 5 - Repair and Maintenance

4.

Unclip the belts under the right, and left side of the tray (One on each corner of the table). See Fig. 5-13

Belt “T” clip

Left side table belt

Table Assembly

(Bottom view)

Fig. 5-13

Tray clip

(Right front clip shown with nuts removed).

5.

With all four belt ends detached from the underside of the table, slide the table out the front of the cutter.

6.

Install the new table in reverse order. Be sure to get the sides of the table locked into the side wheels. The wheels should rest on the gray plastic rails located on the right and left.

7.

Reattach the belt clips on all four corners of the underside of the table.

8.

Tighten the belts by tightening the tray adjustment nuts on the right, and left end plates. Refer to Fig. 5-12. The nut with the slotted hole is the main tightening nut. Before tightening fully, push the nut in the direction of the back of the 300 cutter, then tighten.

9.

Be sure the belts are “Taught” similar to a cars fan belt. If the belts are loose, cut quality will be affected.

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Chapter 5 - Repair and Maintenance

10.

Plug the power cord into the 300 and into a wall outlet. Turn the power to the

300 cutter on. Move the tray back and forth with the keypad keys while watching the X Axis belt. If there is excessive noise or if the belt is loose, the tray adjust ment nuts can be adjusted slightly to achieve proper belt tension.

13.

Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Proce

dures above.

14.

If problems arise contact Ioline customer service.

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Chapter 5 - Repair and Maintenance

Power Supply

Power Supply Replacement

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cable.

2.

Perform the procedures in Removing the Bottom Cover for Internal Access above.

3.

Discharge any static electricity that has accumulated and remove the power connector (brown and blue wires) from power supply. Unplug the output cable

(J3 or J7) on the logic board. Use the Interconnect Diagram in the Appendix section as a location guide.

4.

Remove the 4 screws that hold the unit in the metal pan and pull the assembly out.

5.

Install the new assembly with the same hardware removed above. Make sure that the output cable (Big plug) face the logic board. Hint: The screw holes only line up one way on the bracket.

6.

Connect the power plug to the supply and the output cable to the logic board.

They only fit on one way. Use the Interconnect Diagram in the Appendix.

7.

Plug the power cord into the 300 and into a wall outlet. Test all of the functions with the keypad.

8.

Reconnect the computer data cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

9.

If problems arise contact Ioline customer service.

82

Chapter 5 - Repair and Maintenance

Rear Panel Replacement

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cable.

2.

Remove the right (3 screws) end cover by following the Removing end covers

earlier in this chapter.

3.

Perform the procedures in Removing the Bottom Cover for Internal Access above.

4.

Cut plastic cable ties around wires.

5.

Remove the gray ribbon cable (blue socket at J2 near the right end plate) by pushing the blue tabs away from the center of the connector. The plug should be easy to pull out. Remove the Light blue ribbon cable (Light blue socket at J12 ). Unplug the power supply cable (Brown and Blue wires) located on the side away from the logic board.

6.

Pull the wires through the hole in the end plate. The encoder wires may have to be moved out of the way.

7.

Disconnect the gray ribbon cable from keypad circuit board connector. Cut the cable tie that holds the wire bundle to the ground wire.

8.

Loosen and remove the two nuts holding the rear panel assembly to the right end plate.

9.

Attach the new rear panel assembly making sure that the power switch faces the rear of the plotter.

10. Connect the gray ribbon cable to the keypad assembly with the red stripe (pin 1) on the edge closest to the mounting holes. Hint: The cable is keyed to fit one way in the socket.

11. Push the logic board plug through the hole in the end plate. The encoder wires may have to be moved out of the way.

12. Open the blue tabs away from the center of the connector before inserting the gray ribbon cable into the blue socket at J2. Gently push the plug into the slot. The tabs will snap closed when the plug is properly seated. The red stripe (pin 1) on the edge should be closest to front of the machine. Reattach the light blue ribbon cable with the red stripe (pin 1) on the closest edge to the keypad.

83

Chapter 5 - Repair and Maintenance

13. Cable tie the wire bundles together to ensure that they do not interfere with moving parts and end cover replacement.

14. Plug the power cord into the 300 and into a wall outlet. Test all of the keypad keys and make sure that all of the functions are working.

15. If problems arise, contact Ioline Customer Service.

Electronic Sub-Systems

Main Logic Board Replacement

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cable.

2.

Perform the procedures in Removing the Bottom Cover for Internal Access above.

3.

Mark all of the main logic board connectors with a felt tip pen before disconnecting them. This will make it easier to correctly install the connectors after inserting the new logic board.

4.

Discharge any static electricity that has accumulated and remove all of the plugs and connections on the logic board. Use the Interconnect Diagram in the Appen-

dix section as a location guide.

84

Chapter 5 - Repair and Maintenance

5.

Remove the logic board by loosening the four phillips head screws and pulling the unit out of the track in the platen.

6.

Replace the new logic board making sure to insert the top edge into the support track in the platen. Insert and tighten the four phillips screws from above. The fasteners only need to be snug and can damage the logic board if over tightened.

7.

Connect all of the plugs on the logic board. Use the Interconnect Diagram in the

Appendix section and the notes from step 4 as a guide.

8.

Plug the power cord into the 300 and into a wall outlet. Power the machine on using the reseting procedure below. Test all of the functions of the keypad.

9.

Reconnect the serial cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

10. If problems arise contact Ioline customer service.

Resetting the Factory Defaults

If you have replaced the logic board, or the 300 System is acting wierd, the machine should be reset to factory defaults. There are two ways to restore the factory default system parameters.

D e f a u l t R e s e t F u n c t i o n s

H o l d d o w n t h e S t a r t t u r n i n g o n t h e p o w e r

/ S t o p k e y w h i l e

H t u r o l n i d n d o w n t h e g o n t h e

U p A p o w e r r r o w k e y w h i l e

R e s u l t

R e s e t s a l l f a c t o r y p a r a m e t e r d e f a u l t s b u t k e e p s t h e X / Y c a l i b r a t i o n v a l u e s .

R e s e t s a l l f a c

R t o

O r y

M p c a r h i a m p .

e t e r d e f a u l t s a n d

T h i s c l e a r s o p t i o n t h e X / Y s h o u l d o c a l i b r a t i o n n l y b e u s v e d a l u e s .

w h e n r e p l a c i n g a

Keypad Replacement

Electrostatic discharge preventative measures must be adhered to during all assembly replacement procedures.

1.

Shut off the plotter and remove the power and computer data cables.

2.

Remove the right (3 screws) end cover. See Removing the End Covers above.

3.

Loosen and remove the two nuts holding the keypad assembly to right end plate.

85

Chapter 5 - Repair and Maintenance

4.

Disconnect the gray ribbon cable from keypad circuit board connector.

5.

Remove keypad assembly.

6.

Connect the gray ribbon cable to the new keypad assembly with the red stripe

(pin 1) on the edge closest to the mounting holes.

7.

Fasten the new keypad assembly to the end plate with the hardware from above.

8.

Plug the power cord into the 300 and into a wall outlet. Test all of the keypad keys and make sure that all of the functions are working. When the carriage moves on the traverse extrusion watch the Y Axis belt.

9.

Reconnect the serial cable and perform test plots. Reassemble the 300 in the reverse order that it was disassembled. See General Disassembly Procedures above.

10. If problems arise contact Ioline customer service.

Installing new Firmware

Failure to follow these directions explicitly may cause permanent damage to the Logic Board and may cause the plotter to malfunction.

1.

Make sure the 300 cutter is powered on, and the computer data cable is plugged in. Press the “Set Origin” button on the keypad of the cutter.

2.

Start the Ioline Control Center. See Chapter 3 Setup & Operation for help with

the Ioline Control Center.

3.

When the Control Center window is open, click on the “Options” drop down menu, and click “Install New Firmware Version”.

4.

When the Install new firmware window opens, click on the “Install” button.

5.

A dialog box will open asking for the location of the “BIN” file (This file is available through the Ioline webs ite at www.ioline.com, or through Ioline Customer

Service). Locate the file, and click “OK”.

6.

The LED on the keypad of the cutter will blink Red as the new firmware installs.

7.

After installation is complete, the Control Center will close automatically, and the

300 cutter should be turned off, and reset back to factory defaults before sending any files to it. See Reseting the factory defaults on Pg. 85.

8.

If a problem should arise, and the cutter won’t power up after installation of the new firmware contact Ioline Customer Service for instructions.

86

Chapter 6 Drawings, and Bulletins

87

Belt Tensioner (“Y” Axis)

106708

88

Belt Tensioner (Bill of materials)

Drawing Number Component Part Number

2

5

8

3

4

6

7

106698

106696

106431

103825

100316

102222

100046

Component Description

BRACKET, TENSIONER, SC98

IDLER, TENSIONER, I/S

SHAFT, .25OD, TENSIONER, SC98

SPACER, SHAFT

BEARING, BALL, .25ID, .625OD, .196

RING, RETAINING, E-CLIP, 1/4

SCREW #8-32, 1.25 LG, SHC, FULL THD

Quantity Used

1

2

2

1

1

2

1

89

“Y” Axis Transmission

106817

90

“Y” axis Transmission (Bill of Materials)

Drawing Number Component Part Number

8

9

6

7

10

11

5

5

3

4

1

2

3

105935

105953

105933

107346

105934

106816

107347

100317

104830

104730

100080

100111

104975

Component Description

BRACKET, Y TRANS, SUMMIT 97

BELT, .080 X 1/4 X 110T

PULLEY, 16T X .080 X 1/4

PULLEY, 5MM BORE, 16T X .080 X 1/4

PULLEY, 60T X .080 X 1/4

MOTOR, SERVO, 24V

MOTOR, 5MM SHAFT, SERVO, 24V

BEARING, BALL, .25ID, .625OD, .196

PIN, Y DRIVE

PULLEY, .080 X 3/8 X 25T

WSHR, #6, LOCK, EXT STAR

SPACER, .254ID, .375OD, .030LG, GOL

SCREW #6-32, .375 LG, BTN HD

Quantity Used

1

3

2

1

2

3

1

1

1

1

1

1

1

91

Table Assembly

106894

92

Table Assembly (Bill of Materials)

Drawing Number Component Part Number

7

8

5

6

1

2

4

106895

106893

106080

106909

106252

106130

106892

Component Description

RULER, 30 INCH

TRAY, 300

WEATHERSTRIPPING

SHEET, ADHESIVE, HT, 18.5 X 30.5

STRIP, PROTECTIVE

NUT, #10-32, ROUND THUMB

TABLE, APPLI-K 99

Quantity Used

2

1

32.5

1

48

2

1

93

Tray Belt Idler Assy (Right Side)

106901

94

Tray Belt Idler Assembly - Right side (Bill of Materials)

Drawing Number Component Part Number

5

5

6

3

4

1

2

106821

106890

106891

103852

106530

106626

106896

Component Description

BRACKET, IDLER, X-DRIVE, RIGHT

IDLER, X-DRIVE, APPLI-K 99

SHAFT, IDLER, X-DRIVE, APPLI-K 99

RING, RETAINING, E-CLIP, 3/16

WSHR, .195 ID, .245 OD, .03 THK

WSHR, .195 ID, .245OD, .02 THK

BEARING, .187 ID, .375 OD, .125 W

Quantity Used

1

1

1

2

2

2

2

95

Tray Belt Idler Assy (Left Side)

106902

96

Tray Belt Idler Assembly - Left Side (Bill of Materials)

Drawing Number Component Part Number

5

5

6

3

4

1

2

106822

106890

106891

103852

106530

106626

106896

Component Description

BRACKET, IDLER, X-DRIVE, LEFT

IDLER, X-DRIVE, APPLI-K 99

SHAFT, IDLER, X-DRIVE, APPLI-K 99

RING, RETAINING, E-CLIP, 3/16

WSHR, .195 ID, .245 OD, .03 THK

WSHR, .195 ID, .245OD, .02 THK

BEARING, .187 ID, .375 OD, .125 W

Quantity Used

1

1

1

2

2

2

2

97

Carriage Assembly

106905

98

Carriage Assembly (Bill of Materials)

Drawing Number Component Part Number

46

47

8

9

40

43

44

45

33

34

36

39

26

27

28

32

14

17

18

25

7

11

12

13

6

7

4

5

1

2

3

31

35

37

38

42

22

23

24

29

30

15

16

20

21

106073

105860

106115

106214

106208

106210

106933

106906

106996

101581

107274

104560

107327

107328

104712

104337

105554

106934

106998

106213

106230

105859

106462

107178

104716

106526

105546

105545

105543

105544

106041

106626

106530

104008

100037

103726

101860

104471

105547

100333

106314

103896

100074

106353

106532

Component Description

COVER, MOLDED, MACHINED

STANDOFF, F/F, #8-32, 1.0 LG

ARM, CARRIAGE, APPLI-K 99

JAW, MOLDED, MACH., APPLI-K

WHEEL, CARRIAGE, SC98

SPRING, EXTENSION, SHORT

SPRING, EXTENSION, .25 OD, .037 DIA

SPRING, EXT, .25 OD, .04 ID, 75 LG

SCREW, THUMB, 1/4-20, 1.00

SCREW, SHOULDER, .187 DIA, .5625 LG

PIN, CARRIAGE, SHORT

PIN, CARRIAGE, LONG

BUSHING, BALL, .25"

BUSHING, BALL, PREC,.25"

SCREW, #4-40, .875 LG, PHP

SCREW, SHOULDER, .187 DIA, .375 LG

BRACKET, CALIBRATION, CARRIAGE

SPACER, .188 ID, .313 OD, .188 LG

SCREW #4-40, .250 LG, HEX

BRACKET, LOWER VCM

BRACKET, UPPER, VCM

PCB ASSY, CARRIAGE, APPIL-K 99

BASE, MOLDED, MACHINED, APPLI-K 99

BASE, CARRIAGE, APPLI-K 99

SCREW #8-32, .375 FHP, BLACK

WSHR, .5 OD, .145 ID, .010 T, PTFE

SCREW #4-40, .250 PHP, SEMS

COVER, CARRIAGE, TOP, 200/300

SCREW #4-40, .187 LG, PHP SEMS

SCREW #4-40, .312, PHP NYLON

SCREW #4-40, .375 PHP, SEMS

WSHR, .195 ID, .245OD, .02 THK

WSHR, .195 ID, .245 OD, .03 THK

SCREW #8-32, .375 LG, PHP SEMS

SCREW #8-32, .187 LG, SH SET, CUP

TYRAP, .1 IN X 3 IN, BLACK

SCREW #2-56, .312 LG, PHP

TAPE, UHMW, .43 WIDE

SCREW #4-40, .375 LG, FHS

RING, RETAINING, 1/2IN.

SCREW, #4-40, .25 LG, PHP, NYLON

WSHR, #2, FLAT, STEEL

WSHR, #4, LOCK, INT STAR

SCREW, 2-56 X .188 PHP, SEMS

NUT, #6-32, HEX, NYLOCK

Quantity Used

2

3

1

4

1

4

1

5

1

1

1

1

1

1

2

1

2

1

1

1

1

1

1

1

1

1

1

3

1

3

1

1

3

3

6

1

4

6

1.25

1

6

1

1

3

6

99

Shaft Assembly

106903

100

Shaft Assembly (Bill of Materials)

Drawing Number Component Part Number

5

6

7

3

4

1

2

106898

106908

100316

105934

100823

104820

106221

Component Description

SHAFT, .250 OD, 37.00 LG

PULLEY, 18 X .080 X 3/8

BEARING, BALL, .25ID, .625OD, .196

PULLEY, 60T X .080 X 1/4

SPACER, .255ID, .38OD, .250LG

CLIP, BEARING

WSHR, .25 ID, .375 OD, .03 THK

Quantity Used

1

2

5

1

5

5

1

101

System 300 Chassis Assembly

106882

102

System 300 - Chassis Assembly (Bill of Materials)

Drawing Number Component Part Number

61

62

1

49

50

51

1

3

27

38

44

48

48

4

5

5

6

21

22

26

18

19

20

13

14

15

42

45

46

16

17

36

37

39

30

30

32

40

41

4

15

23

29

30

106241

106530

103726

105068

102726

107042

100089

106252

106528

103973

106507

106867

106511

104753

106816

107347

105259

106902

106904

106905

100705

103026

100026

104013

103027

100279

104152

103740

104180

104590

106652

104753

104713

103388

106714

106716

104754

106849

106813

106230

106894

106897

106900

106901

Component Description

POWER SUPPLY

SCREW #6-32, .375, PHP SEMS

SPRING, COMPRESSION, .240 OD, .032

COVER, DUST, SC98, 30

PLATE, POWER SUPLY, SC98, 30

PLATE, POWER SUPPLY

BRACKET, POWER SUPPLY, I/S-600/28

STRIP, TEFLON, 22.25 X .500 X.04THK

WHEEL, CARRIAGE, SC98

TABLE ASSY, APPLI-K 99

SHAFT, .187 OD, .77 LG

TENSIONER ASSY, APPLI-K 99

IDLER ASSY, X-DRIVE, RIGHT

IDLER ASSY, X-DRIVE, LEFT

BELT ASSY, X-DRIVE

CARRIAGE ASSY, 300/200

PAD, PEN CAP, 1/4 DIA

CONN, CABLE CLIP, .18 DIA

SCREW #6-32, .5 LG, PHP, SEMS

NUT, #8-32, KEP

TYRAP, .1 IN X 5 3/4 LG

CONN, CABLE CLIP

CLIP, CABLE, .50 DIA

TAPE, FOAM, .5 IN, .025 THICK

SCREW, #8, .50 LG, SLF TAP, PHP, SE

SCREW #8, .50 LG, ST, FHP

RIVET, PLASTIC, .2 GR X .169 OD

WSHR,#8-32,.190 ID,.416 OD,.080THK

WSHR, .195 ID, .245 OD, .03 THK

TYRAP, .1 IN X 3 IN, BLACK

SCREW #10-32, .625 LG, SHC

SETSCREW #10-32, .75 LG, STEEL

STRIP, FILLER, RUBBER

NUT, #8-32, HEX, NYLOCK

STRIP, PROTECTIVE

TAPE, DOUBLE COATED, 1.25 W

WSHR, .170 ID, .375 OD, .035TH, SS

ASSY, REAR PANEL, SC98

REAR I/O PANEL ASSY, I/S-600

ASSY, Y-BELT, SC98, 30

POWER SUPPLY

MOTOR, SERVO, 24V

MOTOR, 5MM SHAFT, SERVO, 24V

CABLE, FLEX, 88/30

Quantity Used

2

1

1

2.6

9

36

1

1

4

2

1

5

5

1

1

1

1

23

7

4

3

1

12

1

4

7

2

2

1

12

13

1

1

1

1

2

1

1

3

2

7

1

1

1

103

System 300 - Chassis Assembly (Bill of Materials) Cont...

31

33

34

24

25

28

35

43

47

10

10

11

12

12

7

8

9

10

106665

106708

106713

106695

106815

106818

106819

106903

106717

104745

106549

106550

106930

107305

107379

106817

105933

107346

FAN ASSY, W/ CABLE

ASSY, CABLE, MOTOR POWER, SC98

BELT, .080 X 1/4 X 100T

PCB ASSY, 68331, APPLI-K, PROG

PCB ASSY, 68331, 300, PROG

PCB ASSY, 68331, V-REG, PROG, 300

TRANS ASSY, Y DRIVE, 24V

PULLEY, 16T X .080 X 1/4

PULLEY, 5MM BORE, 16T X .080 X 1/4

KEYPAD ASSY, SC98

TENSIONER ASSY, SC98

TRAVERSE EXTRUSION, SC98, 30

FERRITE, SPLIT, 100MHZ, .74IDX1.6L

PLATEN, APPLI-K 99

PLATE, END, RIGHT, APPLI-K 99

PLATE, END, LEFT, APPLI-K 99

SHAFT ASSY, APPLI-K 99

COVER, BOTTOM, SC98, 30

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

104

System 300 Wrapping Procedure

106881

Wrapped Level

105

System 300 - Wrapping Procedure (Bill of Materials)

Drawing Number

15

16

17

11

12

13

14

6

7

4

5

1

2

3

8

9

10

Component Part Number

106882

106619

106618

104926

104725

106241

105762

106558

101581

105921

101031

104008

100044

104013

107076

107086

107088

Component Description

CHASSIS, 300

COVER, RIGHT END, SC98

COVER, LEFT END, SC98

STANDOFF, #8-32, 5.25 LG

STANDOFF, #8-32, 1.75 LG

WSHR,#8-32,.190 ID,.416 OD,.080THK

LABEL, REAR PANEL, FCC/CE

LABEL, FRONT, SC98

SCREW #8-32, .375 FHP, BLACK

TYRAP, 28" CABLETIE NAT. NYLON

FOAM BLOCK, 2 IN X 2 IN X 2 IN

SCREW #8-32, .375 LG, PHP SEMS

SCREW #8-32, .75 PHP

NUT, #8-32, KEP

SHEET, ADHESIVE, HT, 18.5X30.5, 3PK

MATERIAL, BACKING, 18X30, 1 SIDED

MATERIAL, BACKING, 18X30, 2-SIDED

Quantity Used

1

2

2

4

4

2

1

8

1

2

2

1

1

1

1

4

1

106

System 300 Boxing procedure

106880

FGI Level

107

System 300 - Boxing Procedure (Bill of Materials)

Drawing Number Component Part Number

8

9

6

7

10

10

3

4

5

1

2

106881

107072

107073

107074

107079

107075

107076

107086

107088

100278

107077

Component Description

WRAPPED, 300

LABEL, SHIPPING BOX, 300

PACKING LIST, 300

KIT, ACCESSORY, 300

BOX, SHIPPING, 300

BOX LABEL, UNPACKING, 300 SYSTEM

SHEET, ADHESIVE, HT, 18.5X30.5, 3PK

MATERIAL, BACKING, 18X30, 1 SIDED

MATERIAL, BACKING, 18X30, 2-SIDED

TYRAP, .15 IN X 9 IN

GUIDE, QUICK START, 200/300

Quantity Used

2

2

2

1

4

1

1

1

1

1

2

108

Service Bulletins

Installation Error/301 Software

This bulletin pertains to versions 9-17 or higher of the Ioline 301 Software that do not install successfully.

Error Message: “could not install to C:\windows or c:\windows\system”

Error Message: “a required file, MSVBVM50.dll was not found”.

1.

Make sure that any virus-checking program (that might prevent writing to the Windows system area) is disabled.

2.

Close all Windows application programs.

3.

Using Windows Explorer, make sure that Windows is installed in the standard directory C:\windows\system.

If not, note the Windows path for use in step 7.

4.

If you have not already done so, copy the attached programs WSUP.EXE

kette. Use these diskettes for steps 5 and 6.

and WSUPE.EXE to a dis-

5.

Place the disk with WSUP in drive A. Click on the Windows “Start” button, then click on “Run”. Enter the following path into the “Open” field A:\WSUP. Click the Unzip button.

6.

Place the disk with WSUPE in drive A. Click on the Windows “Start” button, then click on “Run”. Enter the following path into the “Open” field A:\WSUPE.

7.

If Windows was found in a nonstandard location, enter that location in the box when prompted “Unzip to

Folder”. If Windows is in the standard location, leave the entry I “Unzip to Folder” as is.

8.

Click the Unzip button.

9.

Reboot system.

10. Click on the 301-software icon. If any error messages are displayed, write them down and call Ioline

Technical Support.

109

Creating Barudin Files/301 Software

Barudin files can be created in several different formats:

1. The Ioline Bridge/301 software reads Barudin .DAT files on DOS diskettes

2. If a customer can only create Barudin FMC diskettes, which are a CPM format disk, the customer must convert these by means of a conversion utility such as the one available from Sydex (541) 683-6033. It is called the “Barudin Only” version of “22 disks”, and costs $50.00. It runs on DOS not Windows and will read an FMC disk and create .DAT files on a DOS disk.

3. If a customer can only create Barudin FDR diskettes, there is no conversion path. The customer must replace his software with software that creates disks that are Barudin DOS, Tajima DOS, etc.

Run Time Error Codes/301 Software

Run-time error #5 – “Invalid Procedure Call”

Occurs only when the file name you are exporting exceeds 16 characters (prefix), and export in Tajima format.

Other formats are not affected. To solve, rename the file to something less than 16 characters, then import into the design view of the 301 software and export in Tajima format as normal.

Run-time error #6 - “Overflow”

Occurs when a design is imported into the design view containing coordinates greater than 32,760. This is never a problem with designs appropriate for embroidery (rarely coordinates greater than 15,000). However, there are plot (.plt) designs that do contain larger coordinates (for sign cutters, etc.). This error should not occur when running 301 version 02-4 or higher on Win 95/98. However it will occur with Windows NT and

2000. Beta version 02-7 solves the problem (301CD8-1.exe and 301CD8-2.exe).

Run-time error #13 – “Type Mismatch”

Unknown circumstances.

Run-time error #57 – “Device I/O”

Involves Printer or Serial Port. Usually this error will be trapped within 301, but sometimes not.

Run-time error #75 – “Path/File Access Error”

File location or path does not exist.

“.DLL Not Found” or “Procedure in .DLL Not Found”

Occurs if a .dll file was not properly installed. Verify Hardlock.vxd (Win95/98) Hardlock.sys (Windows NT),

IolineLPT.dll and Tiffw32.dll exist in either C:\windows\system or C:\winnt\system folder.

Stitches Overlap to Wrong Side / 301 Software

Occurs most often when converting an ‘outline’ which is from an embroidery file (versus outlines generated from Corel Draw or the like). This is because the stitch segments are small and more irregular. Also, when a portion of the outline overlaps, the algorithm gets confused. Best results occur when there is no overlapping or doubling of outline segments.

110

How to “KISS-CUT”

Kiss cutting is the process of cutting through one layer of a stack of material and not cutting through the layer(s) below. Typically the upper layer(s) has a pressure sensitive backside which adheres to the lower layer of material.

Kiss cutting creates more scrap material for the upper layer(s), (compared to cutting individual layers and hand placing them on the lower layers) but can result in a considerable time savings since multiple layers do not need to be aligned and the placement stitch for the upper layer may be eliminated from the embroidery process.

1. Place Background material onto adhesive sheet and smooth it flat. Place the foreground material on top of the background material making sure the sticky side is down.

2. Load Blade Holder into Carriage Jaw.

3. Adjust Blade Holder as described in the quick start guide. (Test with single button test cut.) Adjust blade exposure and cutting force so that only the material is cut. Adhesive sheet may be scored lightly.

Note: It is recommended that the materials are of similar type and thickness so the blade does not need readjustment.

4. Once blade is adjusted, use the Keypad Arrow keys to position the Table and Carriage so that the Blade

Holder is over the lower right corner of the material (lower left origin of plot file).

5. Press Set Origin on the Keypad to obtain a green Keypad light.

6. Open the 301 software.

7. Select the directory and file you wish to open (See “301 Main Window” on the next page). Double click on the file or select the file and click on Load Import File.

8. Select Design Setup.

9. Under the Color Setup heading, select K-C ALL (Kiss Cut All). (See “Design Setup” window on the next page)

10. Under the Color Setup heading, select the color that corresponds to the “Top” layer of the design to be cut. This should be the profile with the Smallest perimeter. (See “Design setup” window on the next page)

11. Select OK.

12. Select Send to Cutter.

13. Select OK.

14. When the first cut is done, press the Start/Stop button (the light should turn “Red”) and move the tray forward. Weed away the excess material around the top letter.

15. Press Start/Stop button on the cutters keypad, the light should turn back to green, and the tray and head will move back to the original starting point.

16. Under the Color Setup heading, select the color that corresponds to the next layer of the design to be cut and deselect the color that was just cut. This profile should have a larger perimeter than the one previously cut.

17. Select OK.

18. Select Send to Cutter.

19. After it has finished cutting, weed away the excess material.

Note: As an alternative method, you can also cut the pieces in reverse order. For example, cut out the background piece(s) first, then lay the top piece of fabric on and cut those pieces out. This method allows you to cut a whole tray of Kiss-Cuts, and weed the two pieces of fabric together.

111

301 “Main” Window

Ioline 301 “Design Setup” Window

112

Step 10.

& Step

16.

Step 9

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