BINKS MAGIC-MIX Electronic Mixing and Metering System Service Manual
The MAGIC-MIX is a system designed to meter two volume flows with the primary component being opened while the hardener is injected based on the metered volume flow according to the chosen mixture ratio. This system uses a length measuring technique metering the movement of two piston pumps (paint and hardener) to adjust the mixture ratio through the control of two solenoid valves.
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Service Manual
Electronic Mixing and Metering System for Paints and Lacquers
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Table of Contents
1 Identification Data
1.1 Preface
1.2 Identification of the System
1.3 Reference
1.4 Limited Warranty
1.5 Contact
2 General
2.1 Notes
2.2 General Safety Standards
2.3 Chemical Reaction Hazard
2.4 Fire and Explosion Hazard
2.5 Toxic Solvents
2.6 Injection Hazard
2.7 Hazard by Escaping Liquids
2.8 Emergency Shutdown
2.9 Residual Pressure
3 Description of the System
3.1 Functional Characteristics
3.2 Mixing
3.3 Material Supply
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Page 7
Page 7
Page 8
Page 8
Page 12
Page 14
Page 15
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Page 9
Page 10
Page 10
Page 10
Page 11
Page 11
Page 11
Page 11
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4 Installation
4.1 Transportation
4.2 Storage
4.3 Installation
4.4 Electric Connections
4.5 Pneumatic Connections
4.6 Hydraulic Connections
5 Operation of the System
5.1 General
5.1.1 Starting the System
5.2 Main Menu
5.2.1 Input of Paint Data
5.2.2 Start Spraying Procedure
5.2.3 Start Flushing Procedure
5.2.4 Adjust Settings
5.3 Painting / Mixing
5.4 Flushing
5.5 Settings
5.5.1 V.O.C. Values
5.5.2 Alarm Signal Memory
5.5.3 Security Codes
5.5.4 System Settings
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Page 16
Page 16
Page 17
Page 17
Page 18
Page 19
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Page 21
Page 21
Page 22
Page 24
Page 25
Page 26
Page 27
Page 28
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5.5.5 To Calibrate / To Adjust K- Factors
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5.5.5.1 Manual Adjustment of K-Factors
5.5.5.2 To Determine K-Factors
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Page 32
5.5.6 Container Control
5.5.7 Printer Configuration
5.5.8 Reports
5.5.9 Set Clock
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Page 35
Page 36
Page 37
6 Preventive Maintenance
6.1 Cleaning and Maintenance of Fluid Part Page 38
6.1.1 Cleaning of Hoses and Tubes Page 38
6.1.2 Maintenance of Valves Page 38
6.2 Cleaning of Control Module/ Touch Screen Page 38
7 Pumps
7.1 Purpose of Use
8 Troubleshooting
Page 40
Page 43
9 Spare Parts Lists
Page
9.1 Spare Parts and General Options Page 46
9.2 Structural Components with Spare Parts Page 47
9.2.1 Fluid Valve CCV 250/500 Page 47
9.2.2 Valve Attachment Block CCV 250/500 Page 48
9.2.3 Pumps Page 50
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10 To Shut-Off the System
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11 Annex
11.1 Characteristics
Personal Notes
Page 51
Page 53
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•
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EC D eclarat tion of
C Rules mpatibility 89/336/EC
EC
allation / e
tering Syst tem Electronic 2- Compo
Magi c-Mix Type:
Year of f Construct tion: 2010 onstructed, , and manu n accordan mentio ned rules, bility of
Applie d Harmon
•
Applie d Nationa
•
•
•
•
•
EN 50081-2-1993
EN 50082-2-1995
The co mplete Te and Speci ifications: on is avail able. ual for the Installatio n / Machin
October 2 010 ____ e Smith
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1 Identification Data
1.1 Preface
Dear Customer,
May we congratulate you for having purchased this new Electronic Multi Component
System.
Please be assured that design and manufacture of the system have been carried out according to state-of-the-art and with the intention of greatest possible user comfort, highest safety level, and selection of the best material.
May we point out that careful study and continued use of this manual will provide a better understanding of the equipment and process, resulting in more efficient operation, longer trouble-free service and faster, easier troubleshooting. Please make sure that this system must only be operated by adequately trained personnel. For your safety also refer to the service manuals of peripheral equipment, i.e. pumps, guns, and electrostatic equipment.
If you do have questions regarding the equipment, please contact us or our distributors. We will be pleased to help you.
1.2 Identification of the System
If you do have any questions regarding the product please note the exact type identification of the system. You will find it on the type plate of the system. This will help to identify the system regarding modification and equipment, so that we can offer qualified help to you.
1.3 Reference
You will find the following notes regarding component parts or structural components in this Service Manual:
Part (aa-xx)
„Part“ is describing the name of the component part or the structural component
„aa“ is listing the number of a depiction / drawing / illustration
„xx“ is listing the number of the component part or structural component in the drawing
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1.4 Limited Warranty
All BINKS equipment and spare parts are manufactured of the best materials, applying the most modern production procedure. Should you still have reason for a claim send the faulty part or the faulty component directly to BINKS or the distributor responsible for you. Please understand that we cannot accept any unfranked parcels.
If your warranty claim is legitimate, we will refund shipment costs to you.
We will check, replace, or repair faulty component parts that fall within the warranty.
The repair will be made in our house. If you wish the repair to be carried out at your site, you will be charged for any eventually arising travel costs.
If the warranty component in question, or other parts damaged by this component, were improperly installed, operated, or maintained, we will assume no responsibility for repair or replacement of the component or parts.
Excluded from the warranty are normal wear parts, i.e. gaskets, packings, and nozzles.
Warranty period will be twelve months at one-shift operation, respectively six months at two-shift and three-shift operation, starting from the date of initial operation, latest
30 (thirty) days after delivery. Any other agreements must be drawn up in writing.
1.5 Contact:
ITW Oberflächentechnik GmbH
Justus-von-Liebig-Strasse 31
63128 Dietzenbach / Germany
Tel: +49 (0) 6074-403-233
Fax: +49 (0) 6074-403-281
Email: [email protected]
Please contact us if you wish to have the name and address of our authorized distributors in Germany and abroad.
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2 General
2.1 Notes
The safety precautions and safety standards of this section have been compiled for your safety and in your own interest. For safe operation it is necessary that the user reads and understands all of the technical and safety literature. The user must be familiar with the function of the installation and must be aware of the hazards and risks that may occur with pressurized pumps, hoses, and equipment.
2.2 General Safety Standards
- The following instructions provide the necessary information for the proper operation and preventive maintenance of the equipment. It is the customer’s responsibility to have all operators and service personnel read and understand this manual. If you do have any doubt or problem, contact your superior or our representative.
- NEVER leave tools or other mechanical components in the system when it is in operation or when it shall be started.
- NEVER exceed the maximum pressure of the system. The maximum pressure of the system is defined by the component with the lowest pressure rating.
You will find the maximum pressure of the system at the type plate.
- When replacing components ALWAYS exercise care that the new parts comply with the technical requirements regarding material and maximum pressure.
- ALWAYS ensure that the spray area is properly ventilated according to legal requirements.
- The equipment must ONLY be operated by authorized and adequately trained personnel who have read and understood local codes, appropriate legal requirements, and this service manual. The personnel must wear personal protection clothes and use appropriate tools during operation and maintenance.
- Before attempting any work ALWAYS make sure that the pressure is relieved from all air hoses and fluid hoses. Shut off pressure air supply to the system and relieve all pumps connected to the system.
- Before attempting any work at the electrical cabinet you must ALWAYS make sure that the cabinet is currentless. It is not sufficient that the main switch is in
OFF position. You must interrupt the complete current supply to the cabinet.
- When working with high pressure spray equipment ensure that the guns are
NEVER operated without protection against accidental contact. ALWAYS activate the safety locking lever when not using the gun, in order to prevent from unintended opening.
- When finishing maintenance and repair works replace ALL protection covers that have been removed from movable parts.
- The use of other than genuine spare parts and accessory parts will void warranty.
- After a long period of shutdown check ALL components for leakage and proper function.
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- For proper and trouble free operation you MUST only use electrically conductive fluid lines which have to be grounded.
Optionally EEx-Protection is available for Zone 2, Category 3 (for fluid part only). The EEx-Protection Version includes 5m connecting line between the fluid part and the control. Optionally a distance of up to 40m can be realized.
2.3 Chemical Reaction Hazard
All fluid conducting parts of the system are made of stainless steel in order to avoid possible chemical reaction. However, in individual cases a chemical reaction might occur if aggressive or chemically active materials are being used, which might lead to dissolution or, in the worst case, to an explosion. If you want to use such materials contact the fluid manufacturer prior to operation in order to check the compatibility of the fluid with different kinds of stainless steel.
2.4 Fire and Explosion Hazard
High flow rates of non conductive materials may lead to an electrostatic charging.
This phenomenon frequently appears with airless systems because the flow rate is very high and the material will be sheared and burst off at a small gap. In order to avoid charging and spark discharge, all components must be electrically connected with each other and grounded. Use suitable clamps and clean the contact parts of spray mist, if necessary. Connect the clamps via suitable cable with sufficient mass potential (permanently installed tubes etc.). If an electrostatic charging occurs, check for proper grounding.
2.5 Toxic Solvents
Toxic and harmful vapours may be set free by the spray and spray mist of paints and other materials. Follow all safety instructions of the manufacturer, keep to the relevant lower toxic limit values, and maintain adequate ventilation.
2.6 Injection Hazard
- DO NOT allow anybody to come in contact with the tip of the spray gun.
- Never aim high pressure spray guns at any part of the body or at other persons.
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- A high pressure stream produced by this equipment can pierce the skin and underlying tissues, leading to a serious injury. See a physician immediately and inform him or her about the penetrated material (see material data sheet).
NEVER allow any part of the body to touch the fluid stream.
2.7 Hazard by Escaping Liquids
Never modify the connections of the system without prior contact with a responsible person.
Regularly check the condition of hoses and connections. Take care that hoses are not crushed and bent below the allowed radius
Never overstrain hoses and connections by high mechanical load. Immediately replace damaged hoses!
Check all connections prior to operation.
Never try to stop or deflect leaking material with your hands or other parts of the body.
2.8 Emergency Shutdown
In case of an accident or a hazardous situation turn the main switch in OFF position.
This will set all components of the panel currentless and will close all valves.
2.9 Residual Pressure
Even after interruption of the air supply to the pumps, the lines fed by the pumps are still not depressurized, as pressure can only be relieved into one direction. In order to depressurize the complete system, open the spray gun and the relevant valves via the control device (if no relief device is installed at the pumps).
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3 Description of the System
3.1 Functional Characteristics
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Description
Mixture Ratio
Pressure Range
Flow Rate (Per Pump)
Basic Unit
0,50:1 to 20,00:1
3-250 bar (LP/HP)
1,5 l / min
Number of Fluid Valves 2 (1 Main Paint, 1
Hardener)
Automatic Colour
Change no (1 Main Paint)
Serial Connection
Communication
Installation Server
Remote Control
RS 232,SUB-D, 9 PIN
Touch-Screen, 240 x
128 Pixel no
No
No
2,5 l / min
3 (1 Flushing) or 4 (2
Flushing) no no no
Option
Level Control
VOC Evaluation
Number of Recipes
Principle of Mixing yes yes
1
Alternating injection of main paint and hardener
EEx-Protection (ATEX) no yes (Start, Stop,
Flushing)
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- no no
Calibration Possibility yes yes (Category 3, Zone
2)
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The system is designed to meter two volume flows, in which the main component will be opened and the hardener will be injected on basis of the metered first volume flow according to the mixture ratio of the chosen recipe. During the period when the hardener valve is opened, the main paint valve will be closed. All parameters and tolerance values which are necessary for the calculation will be deposited in the system settings. In order to guarantee highest degree of safety, the function of the metering sensors will be controlled, and the installation will be shutdown if the demanded mixture ratio has not been achieved (e. g. insufficient material).
On the basis of the high precision of the mixing and the controlled and economic treatment with solvents and paint materials the electronic mixing and metering system is clearly superior to the mechanical metering system.
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The system includes a length measuring technique metering the movement of the two piston pumps (paint and hardener). Depending on the size of the pumps, each sensor is sending a certain number of impulses per material flow to the PLC. The
PLC counts these impulses and calculates the material consumption and the mixture ratio. The adjustment of the mixture ratio will be effected by the control of two solenoid valves which inject alternately paint and hardener.
3.2 Mixing
In order to obtain a good mixing degree after the confluence of main paint and hardener, a static mixer will be topped.
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3.3 Material Supply
Material supply will be made by the piston pumps of the MagicMix system. The basic design includes a piston pump for main paint and hardener. Optionally a third pump for flushing solvent can be used. For the low pressure installation this pump will be a diaphragm pump, whereas for the high pressure version it will be a piston pump (for further information regarding these pumps please see the service manual of the pumps).
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4 Installation
4.1 Transportation
The system consists – depending on the design – of one or two modules which can be transported separate from each other. The transportation will be done on pallets.
For the handling two persons are needed.
4.2 Storage
If the system shall be stored, the control part must be protected against heat and humidity. In order to avoid condensation of water the system must not be exposed to high temperature changes, otherwise the system must be exposed to the new ambient temperature with flaps open for several hours prior to operation.
The fluid part is extensively resistant against external influence, however, for a long period of storage it should be filled with preservative oil in order to take care of the packings and to guarantee proper operation.
Operate the supply pumps according to the relevant service manuals of the pumps.
4.3 Installation
Generally the industrial installations of Company ITW Industrial Finishing will be installed by our service technicians or service technicians of our representatives. This is to avoid faults at the very beginning caused by inadequate installation or operation.
If installation shall not be made by an ITW service technician, check the completeness and the correct function of all components of the scope of delivery.
For installation always take care of the usability of the system, the ambient conditions
(e. g. EEx explosion proof), and the safety of the operators.
ATTENTION: The control cabinet cannot be located in the EEx area. If operation in the EEx area is necessary, a remote control panel is optionally available (functions are: Start, Stop, Flush).
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4.4 Electric Connections
The system will be supplied via a central electric input at the control cabinet. Lead the three-core supply cable (minimum 0.75 mm²) to the terminal screws at the electrical control panel as defined in the wiring diagram.
4.5 Pneumatic Connections
The system (standard version) will be supplied via a central air connection. The pressure must not exceed 8 bar! Please provide clean industrial air, proper filtration, and condensate separator. Use oil-free pressure air.
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4.6 Hydraulic Connections
The fluid part must at least be supplied with main paint, hardener, and optionally flushing agent – depending on the number of components. The outlet of the static mixer must be connected to the gun with a suitable fluid hose (please refer to length and nominal pressure).
The hoses must be equipped with adequate hose connections according to the system. The threads must be in proper condition and must seal tightly under pressurized condition.
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5 Operation of the System
5.1 General
5.1.1 Starting the System
Turn on the system by turning the main switch into position „ON“. Only turn the system on if the control cabinet is closed (mains voltages). The opening of the control cabinet during “ON” condition must only be carried out by qualified personnel.
Generally it is not necessary to turn off the system. If the system is operating in the main menu and has been cleaned, the screen will independently turn off after an adjustable period of time (see system settings, value “Standby”).
Do not turn off the system in filled condition. The control of pot life will then not be possible, resulting in the danger of material hardening inside the system.
5.1.2 Input of Numbers
To set the different parameters it is necessary to be able to enter numbers.
Generally this will be done by the input field shown below.
The value to be set is shown at the upper part on the left side. The value will be deleted by pressing the “DEL” key (one decimal place each per key depression). The value will be entered into the system by pressing the number fields and by pressing the field “ENT”.
The name of the value (here „recipe“, i.e. recipe number) is described below the value.
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5.2 Main Menu
5.2.1 Input of Paint Data
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By pressing the field „A: XXX“ (here „100“) you will be asked to enter the relative quantity of paint. Possible input values are all values between 0.00 to 200.00.
In the same way you will enter the value for hardener. For example, if you want to enter a mixing ratio of 4:1, you can do this by different methods which will all lead to the same result. Possible variances are 4.00: 1.00, but also 100.00 : 25.00.
By pressing the field „t = XX:XX:XX“ you can enter the pot life for the paint. This will be controlled during the spraying procedure and only be reset to the initial value after corresponding material removal. If the pot life will be exceeded without spraying or flushing, the system will give an alarm signal.
5.2.2 Start Spraying Procedure -
Press the icon „Spray“- the icon will activate the mixing procedure, provided that an active recipe has been chosen before.
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5.2.3 Start Flushing Procedure -
Press the icon „Flush“– the icon will activate the flushing procedure. However, only on condition that you have chosen a version with flushing pump. The flushing procedure may be repeated as often as you wish. If the icon is flashing, the system was not cleaned after the last mixing procedure, and the remaining pot life continues to count down.
5.2.4 Adjust Settings -
This icon will lead you to the system settings. Here you can change operating parameters and safety settings. Also you can read consumption data. According to the setting the different sections may eventually be entered via passwords only.
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5.3 Painting / Mixing
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[1] The bar at the left side will display the flow rate of the components. The higher the deflection of the bars, the higher is the flow rate. If the flow rate is displayed by a flat curve, a constant, calm flow is indicated. If the bars display great deflections, pulsations are indicated (e.g. pressure difference between the components too high).
[2] The bar for the incremental size (see system settings) displays the interval between the two last hardener injections. If the hardener valve remains in one position (permanently open because of lack of hardener, respectively permanently closed because of too much hardener), an alarm signal will be given. If the valve was opened once and closed once (i.e. the set mixture ratio has run twice), the bar will be reset. A general principle is: the lower the bar is, the better is the mixing, because the hardener valve is cycling faster.
[3] The display „FLOW RATE“: indicating the actual volume flow in ml/min.
[4] Remaining Pot Life. The basic pot life will be deposited in the recipe. If not sufficient material has been removed, the pot life will approach 0:00:00 and will release an alarm signal. In case you do not acknowledge this signal in good time
(within 5 minutes) an automatic flushing procedure will be started. However, only on condition that you have chosen the version with flushing pump. IMPORTANT: in order to reset the pot life automatically, twice as much filling quantity of paint must be removed from the system, in order to guarantee a complete material exchange.
Example: if the filling quantity is determined to be 200 ml and has been deposited in the system (system settings), the pot life will reset to the initial value after removal of
400 ml.
[5] Consumption in millilitres of the corresponding component.
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[6].Actual Mixture Ratio in Percent. The main component (the component with the greater portion) will always be determined with 100%, the metering component will be adjusted accordingly. For example if in the recipe side A will be adjusted for 4 portions and side B for 1 portion, side A will show 100%, whereas the metering value of side B will be around 25%.
[7] Press the - key to finish the mixing procedure and to close all valves.
[8] Total Quantity of Removal. This total results from the addition of the two volume flows.
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5.4 Flushing
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[1] Alternating side „A“ and side „B“ are being displayed. If an automatic mixer head has been connected, the two flushing valves will open according to the display. If you have manual mixer heads with ball valves, the display will be of help to remind you to clean the two ball valves
[2] Press the „STOP“-key to break off the flushing procedure and to close all valves.
WARNING: If the flushing procedure has been broken off, the system may be incompletely flushed.
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5.5 Settings
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In the Tool Menu all system parameters can be set. All settings can influence the mixing result and should, therefore, be carried out by trained personnel or by service technicians only! There is also the possibility to protect all sub-menus by passwords and to inform only selected persons of these passwords. (See the chapter Security
„Codes“).
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5.5.1 V.O.C.-Values
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With the keys [1] and [2] you can chose the valve, respectively the component in order to set the VOC-value.
The VOC-value will be displayed in the middle (in %). By pressing the [V.O.C.]-key you can set this value for each valve separately. This value will be needed in order to calculate the VOC emission for your consumption reports and the reported material consumption.
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5.5.2 Alarm Signal Memory
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The mixing system stores up to 100 alarm messages in order of occurrence.
You can scroll through the alarm history with the keys [ Å] and [Æ]. If more than 100 errors have been registered, the last 100 messages will still be available.
Each alarm message is listed showing date and time, as well as the reason for the alarm.
The significance of the alarm icons are explained in the Chapter “Troubleshooting”.
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5.5.3 Security Codes
At state of delivery all menus are available without code input (input „0“). For security reasons all settings should be protected by passwords after installation and initial operation.
The set up of passwords will be carried out in the same manner as an eventually necessary adjustment of the codes.
In order to set up a code you press the above shown key icon. You will be asked to enter the master code. For security reasons the master code is not part of this
Service Manual. You will be informed about it by ITW / Binks separately. After having entered the master code you have to press the field, the menu of which you want to protect by a new password. The input mask “new code” will be displayed. Enter here your new secret number. The code will be stored automatically.
Should it happen that you forget or lose your entry code, you can also use this procedure in order to find out the deposited code. However, carefully keep the master code because this is an invariable part of the control software.
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5.5.4 System Settings
In system settings important and security relating settings for the operation of the system can be entered. The correct setting of these parameters is of great importance to the finish result and a trouble free operation of the system.
Filling Quantity in ml: On the one hand the filling quantity is important for the external signal „filling“, to which a signal light can be connected.
This signal light indicates the operator that the filling procedure has not been finished. On the other hand the filling quantity is needed to control the pot life. After removal of twice as much filling quantity the pot life will be reset to initial value.
Removal of twice as much filling quantity is necessary in order to prevent from mixing of already reacting material and fresh material in the system and in the hoses.
Incremental Size: The incremental size is necessary to control the accurate mixing of the materials. The deposited value indicates the maximum interval between two hardener metering injections in millilitres. Important: this value has no
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Generally the incremental size should be set up in such a way that mixing of the material in the mixer can just be carried out. An incremental size of 100 ml for a static mixer with filling volume of 20 ml may have the result that the material will not be mixed accurately, but that the system still operates without error signal.
Control of the Metering Cell (Optionally): The value deposited here indicates how long the spray gun may be opened without a metering cell having to move. For manual installations the control of the gun opening is generally carried out by the air flow control which is integrated into the atomizing air. For automatic installations this signal can directly be given by an external control.
When the painter opens the gun, the material flow should start shortly afterwards and deliver the meter pulses of the pumps. As long as a movement will be recognized and impulses from the metering cells to the control of the mixing system are given, the control of the metering cells will be reset. If no meter pulses of the pump are being delivered, the system will give an alarm signal after the here deposited time.
The time should be in the range of 5 – 10 seconds in order to guarantee that no unmixed material can escape the gun. However, the time should not be chosen too short (less than 3 seconds) since the painter is using the gun sometimes to blow dust from the object.
Display Brightness: Enter the value for the relative display brightness in percent (0 – 100%). Attention: If the value is too low you might not be able to read the display and will then not be able to increase the value!
Standby Time: The standby time in seconds indicates after which period of time the display turns off in order to reach a longer service life of the lightning cathode. The system only switches into standby mode, if it is flushed and if it
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5.5.5 To Calibrate / To Adjust K-Factors
5.5.5.1 Manual Adjustment of K-Factors
For quick operation of the system and for general control of functions it is generally sufficient to enter the construction wise determined K-factors of the voltmeters into the system. Generally these have been entered when the system is delivered.
To take account of the different physical characteristics of the fluids to be metered, an own K-factor can be entered for each valve and for each connected fluid. Metered at the same volumeter a solvent based paint of high viscosity will cause another Kfactor than a cleaning thinner, or a water based paint.
Press the number fields (1 – 32) to read the deposited value. If you wish to change this value (e.g. after retrofit to another volumeter), you can do this by pressing the number input icon: ( )
5.5.5.2 To Determine K-Factors
To increase the accuracy of the mixing system it is recommended to calibrate all fluids. Perform the following steps:
1. Chose component „1“ or component „2“, the one which shall be calibrated.
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2. Press the icon with the metering cup: (
3. Carry out the metering:
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)
- The bar on the left side indicates the flow rate. If the bar does not deflect upwards when removing material, you have either selected the wrong component, or the metering cell is mechanically blocked, respectively the length sensor of the piston pump is damaged, or the pump does not move itself.
- The number on the right side on top indicates the count of impulses. Open the spray gun at first and remove material. The pulse counter must now display an increasing value.
- With the „START / RESET“- key you can reset the pulse counter to Zero.
Press the key after having filled the system with material, wait for some seconds without removing material, and then start the actual metering.
- Remove a readable quantity of material into a metering cup. Close the spray gun and wait for some seconds until the pulse counter has come to standstill.
- Finally press the „OK“- key. You will then be asked to enter he volume of the removed material.
- The resulting K-factor will be displayed and will then be entered into the system.
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5.5.6 Container Control
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The integrated container control serves the control of the container level without additional sensory mechanism. If a container shall be controlled, it is necessary to deposit into the menu its filling level prior to use.
Starting from the metered material consumption, the system can give an alarm signal if a defined minimum level is reached. This is to avoid no-load operation of the pumps resulting in faulty mixtures and failures.
With the buttons [1] and [2] the container will be selected which shall be adjusted or controlled.
With the button [MAX LEVEL] the size of the container will be determined, which it had at state of delivery.
[ACTUAL CONTENT] displays the actual container level. Press the button to refill the container numerically or to enter any new level.
[MIN LEVEL] displays the minimum level. An alarm signal will be given if the level falls under this value. Press the button to adjust the level.
[ACTIVE] respectively [NOT ACTIVE] will display whether the control shall be activated. If the button is in [ACTIVE] mode, an alarm signal will be given. If the button is in [NOT ACTIVE] mode, the container level will be calculated, but the minimum level will be ignored.
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5.5.7 Printer Configuration
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[UNIT ID] displays the name of the mixing system which appears on the prints. It is, therefore, possible to distinguish between the prints of different systems. The name can have up to 10 characters.
[PRINTING AFTER …ml] displays the intervals when the process information shall be printed. In the above shown case a print would be started after every removal of one litre material.
[PRINTING AFTER …sec] displays the time intervals when print shall be printed during the mixing procedure.
It is possible to activate the two print versions, but also only one or none of them. If no prints are wanted, set the values to „0“.
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5.5.8 Reports
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Use the keys [1] and [2] to select the valve, respectively the component of which you wish to read the consumption.
[TOTAL] displays the total consumption of the component since installation of the system. It is not possible to reset this value.
[JOB] displays the consumption since the last reset of this value. It is, therefore, possible to collect weekly consumption data. The operator can reset this value with the key [RESET JOB].
With total consumption and with job consumption also the consumption of the component and its VOC content is listed. The relative VOC content in percent can be set in the VOC Menu.
Press the key [PRINT ALL] in order to print the consumption values of all components, as far as the optionally available printer is connected.
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5.5.9 Set Clock
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Press the key [SET CLOCK] in order to set the internal clock of the system. The clock has a movement reserve of approximately 10 – 14 days. The clock is necessary to print reports and to store alarm messages.
To change values you press the keys [+] / [-]. To store the change you press the key
[OK].
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6 Preventive Maintenance
6.1 Cleaning and Maintenance of the Fluid Part
Protect the fluid part from spray mist. In case it is necessary to clean the external part with thinner, the power of the system must be turned off because the metering sensors of the standard version are not EEx-proof.
Generally the system must be cleaned by a complete flushing procedure after end of operation or during a long spray interval, in order to avoid hardening of the paint material in the system.
Æ See 5.2.3 Chapter „Start Flushing Procedure“
6.1.1 Cleaning of Hoses and Tubes
If the flushing procedures have been carried out properly, special cleaning of hoses and tubes is not necessary. However, if reactions have occurred inside the system, replacement is recommendable in order to avoid that solid particles come off and enter into the system gradually.
Clean the spray gun as usual at the end of work (nozzle, air cap, etc.).
6.1.2 Maintenance of Valves
If a colour change valve has not been used for a long period it is recommendable to disassemble the colour supply unit and to flush the valve. Otherwise solid particles might settle inside the valve.
In case the valves do not work properly, or in case air or fluid leaks occur, the seals must be replaced. As the hardener valves are activated more frequently, a regular control of the valves is absolutely necessary. It is recommended to service the valves in regular intervals.
You will find further details in Annex 9.2.
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6.2 Cleaning of Control Module /Touch Screen
Just clean the control module with a soft cleaning agent. There are no internal components or assembly groups which need cleaning or maintenance.
Do not clean the touch-screen-display with solvents. If you expect high grade contamination of the display, you might use a self-sticking transparent protection foil which can easily be exchanged.
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7 Pumps
7.1 Purpose of Use
BINKS Piston Pumps are exclusively designed to deliver and apply spray material. They serve as feed pumps to deliver the following materials:
•
Water soluble paints and lacquers.
•
Solvent based paints and lacquers.
•
Filling material and primer.
•
Micaceous iron ore (with restriction, see below).
•
Zinc dust paints.
•
Epoxy and Polyurethane lacquers.
•
Oil.
•
Liquid plastic.
•
Water based under seal materials.
•
Solvent-free spray material or spray material with small portion of solvent.
•
Please refer to the data sheet and safety instructions of the paint manufacturers.
Avoid the application of abrasive and grained spray material. Application of this material might lead to early wear of valves and packings of the fluid pump and of the spray gun nozzle.
The following application modes are not allowed:
-Delivery of acid and corroding fluids
-Delivery of material with a temperature higher than 40°C
-Location of the unit in non-frost-proof area
-Operation in dry condition
WARNING!
Fill in Stripping Agent prior to Initial Operation:
FOR WATER SOLUBLE PAINT: 0114-014871
FOR SOLVENT BASED PAINT: 0114-009433
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Depending on the MagicMix version, the following pumps are available:
High Pressure
Variant 1:
MX4/32 (1 off Pump for Hardener and 1 off Pump for Main Paint)
Optionally :
MX4/32 (1 off Flushing Pump)
Variant 2:
MX12/31 (1 off Pump for Hardener and 1 off Pump for Main Paint)
Optionally :
MX4/32 (1 off Flushing Pump)
Low Pressure
MX4/32 (1 off Pump for Hardener and 1 off Pump for Main Paint)
Optionally :
DVP 510 (1 off Flushing Pump)
For more detailed information please refer to the Pump Service
Manuals
In order to guarantee reproducibility, different mixing ratios of components A and B may be stored in one recipe.
The metering of flow rate will be effected by magnetic inquiry of piston stroke.
The consumption of each component will be controlled and stored permanently.
The system MagicMix of Binks can be used for the following application procedures:
• Low
• Airless
• AirCombi
• Electrostatic Application (HP & LP) for Solvent Based Paint
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8 Troubleshooting
General Problem
Alarm Message:
Alarm Message:
Possible Cause
Atomizing air is open, but does not spray
Solution
Increase activating time for metering cell control
Do not open atomizing air unnecessarily
Tip clogged (no fluid flow when gun is open)
Lack of material
Defective feed pump
Defective sensor
Cable rupture, or cable wrongly connected
Atomizing air is open, but does not spray
Clean tip, replace if necessary
Check material supply system on side A (empty container?)
Check proper functioning of pump. (Refer to pump service manual)
Contact service technician. Replace metering cell
Meter cable, replace if necessary
Increase activating time for metering cell control
Do not open atomizing air unnecessarily.
Hardener pressure too low
Tip clogged (no fluid flow when gun is open)
Lack of material
Defective feed pump
Defective sensors
Cable rupture, or cable wrongly connected
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Adjust hardener pressure according to pressure of main paint + 10%
Clean tip, replace if necessary
Check material supply system on side B (empty container?) (Alternatively side C)
Check proper functioning of pump. (Refer to pump service manual)
Contact service technician. Replace metering cell
Meter cable, replace if necessary
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General Problem
Alarm Message!
Possible Cause
Difference of pressure too high (injections too large)
Solution
Slowly reduce hardener pressure. Reduce needle stroke at metering valve.
Alarm Message!
Uneven operation of feed pumps
Selected incremental size too small
Flow rate too high (for example by filling without spray tip)
Check pumps, clean and replace packings if necessary
Adapt incremental size within the given possibilities
Adapt incremental size within the given possibilities
Lack of material. Pump is going down in down stroke
System has not been flushed in good time
Use tip for filling
Finish mixing procedure.
Fill pump again
Start flushing procedure
Not sufficient material removed from the system within pot life period
Start flushing procedure
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9 Spare Parts Lists
9.1 Spare Parts and General Options
46
46
47
Ref f. No.
9
10
5
6
7
8
1
2
3
4
Magic Mix
Har p
Flui id Pump
Pre ssure Regula bar
500
Stat x2
Mat terial Pressu
Car incl. Cable
Flat 32 g Sensors
Tra DR‐20 omponent pare Parts
0/500
Part No.
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48
15
16
17
18
19
20
21
22
23
24
24
8
9
10
11
12
13
14
3
4
5
6
7
1
2
Ref. No. Description
Valve CCV 250/500
O Ring (Ø 10x2)
Valve Seat
Packing C/S 1,7x1,5
Front Valve Housing
Front Needle Packing
Needle Packing
Packing Spread
Piston Plate Housing 1
Packing
Air Seal
Piston Plate Housing 2
Piston Seal
Piston Plate 2
Nut (M6x1)
Spring
Spring Housing
Screw (M5x65)
Nut (M12x0,5)
Stopper
Valve Cap
O Ring 1
Needle
O Ring 2
Piston Place 1
Washer E6
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Part No. Qty.
1
1
1
1
1
4
1
1
1
1
1
1
2
1
2
1
4
2
1
1
1
1
1
1
1
1
2K-5913
2K-5914
2K-5915
2K-5916
2K-5917
2K-5918
2K-5919
2K-5303
2K-5920
2K-5921
2K-5922
2K-5101
2K-5901
2K-5902
2K-5903
2K-5904
2K-5301
2K-5302
2K-5905
2K-5906
2K-5907
2K-5908
2K-5909
2K-5910
2K-5911
2K-5912
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9.2.2 Valve Attachment Block CCV 250/500
1
5.4
6
7
7.1
5
5.1
5.2
5.3
7.2
2
2.1
2.2
2.3
3
4
Ref. No. Description
Valve Attachment Block for Valve CCV
250/500
Rear Plate Flushing Valve Assy.
Rear Plate
Screw M4x40
Washer (ID 10 x 1,5)
Screwed Connection with O Ring
Connector Fitting with O Ring
Add‐On Block Assy.
Add‐On Block
Screw M4x40
Washer (ID 10 x 1,5)
Screw (M6x57)
Screwed Connection with O Ring
Rear Plate Outlet Assy.
Rear Plate
Screw M6x30
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Part No.
2K-5101
2K-5102
2K-5201
2K-5923
2K-5924
2K-5925
2K-5926
2K-5103
2K-5202
2K-5927
2K-5928
2K-5929
2K-5930
2K-5104
2K-5203
2K-5931
Qty.
1
4
1
1
1
1
1
4
1
4
1
1
2
1
1
1
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9.2.3 Pumps
Spare Parts List for Magnetic Inquiry of Piston Stroke
Ref. No. Qty.
4
5
1
2
3
Description
1
1
1
1
Seal Housing Assy.
Seal Housing Assy.
Modified Cylinder 85 mm
Magnetic Signal Transmitter
1
1
Piston for Magnets Ø 12 mm
Piston for Magnets Ø 20 mm
20 Magnets Ø 10 x 5 mm
20 Magnets Ø 15 x 5 mm
7
8
2
2
1
1
Supporting Screwed Connection 85
Supporting Screwed Connection 140
Top Sealing Washer
Top Sealing Washer
Part-No.
EXP-4212-402
EXP-4212-404
0115-010613
0115-010601
0115-010618
0115-010609
0115-010617
For Air Motor
AX 85 AX 140 x x x x x x x x x x
0115-010603
0115-010621
0115-010607
0115-010620 x x x x
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10 Shut-Off the System
When the system shall be shut-off for some time, the following steps must be carried out:
1. Perform at least one complete flushing procedure, in order to remove mixed material from the system.
2. Depressurize all fluid supply systems.
3. Open all connected valves manually via the relevant menu, in order to relieve residual pressure.
4. Remove all supply hoses from the colour change valves.
5. Connect the flushing agent supply system to each valve in succession, open the valve manually and flush it via the gun or via a hose which is connected to the outlet.
6. Remove the flushing agent supply system.
7. Fill into each valve some millilitres of preservative agent and close it with a screw plug.
8. Remove the electric and pneumatic supply connections.
9. Store the system at a dry location.
11 Annex
11.1 Characteristics
General Characteristics:
System of protection of the control unit: IP 52
System of protection of the fluid part: IP 65
Optionally:
Materials used for fluid contacting parts:
EEx-proof for operation in Zone EEx-Class 1
Stainless Steel, PTFE (Teflon), Polyamide
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Special Characteristics:
Depositable Parameters: Mixture Ratio
Pot Life
Tolerance
Storage of Consumption of all Components, incl. VOC-Calculation
Mixture Ratio: 0.5:1 – 20:1 (Volumetric Mixture Ratio)
Hardware:
Mixing Accuracy:
Volume Flow:
Exacter than 5% (according to calibration)
Depending on feed pump and viscosity
Pressure Range:
1.5 – 2.5 l/min (flow rate per pump)
3 - 250 bar (Low Pressure / High Pressure – depending on kind of pump)
Dimensions (Without Pump):
Height: 1600 mm (incl. set of rolls and stand post)
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Personal Notes:
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Advertisement
Key features
- Precisely meters two volume flows
- Controlled and economical treatment with solvents and paint materials
- High degree of safety with mixture ratio control
- Length measuring technique metering piston pump movement
- Solenoid valve control for accurate mixture ratio adjustment