Bosch 11320VS - SDS+ Chipping Hammer 6.5 Amp Specifications

Technical Bulletin Index
Page
Bulletin #
Topic
2
1001
Power Cord Requirements
3–4
1002
Proper Skiving Techniques
5–17
1003
Mechanical Fasteners
18
1004
RNEH-1 Hammer Care
19
1005
RNBH-1 Hammer Care
20
1006
Non-Corrosive Rivet Material
21
1007
Heat Treated Plates Durgard
22–24
1008
FCT Splicing Instructions
25–30
1009
Riv-Nail Fastener Instructions
31–32
1010
Riv-Nail Compression of Fasteners
33–34
1011
Riv-Nail Application Tools
35–37
1012
Belt Transition — Troughing
Conveyor Accessories, Inc.
7/22/2014
RIV-NAIL
Technical Bulletin
Bulletin # 1001
Power Cord Requirements
Please be cautious when using power cords to supply the new RNEH-1 electric
hammers made by Bosch. The voltage and amps required are 120vac with a 6.5
amp draw. That is about 780 watts.
If you are using 2 tools, then the amp requirement is double or about 1600 watts.
A 20-amp circuit would be considered minimum.
What is considered suitable? Bosch provides a chart in their manual. Although
at 150 feet, they say 14 gauge wire is OK, it is best to stay 100 feet or less with a
power cord having at least 12 gauge wire.
How do I know if I have low voltage? One symptom would be the rivet does not
penetrate through the belt and clinch on the back. The rivet tries to drive through,
but will start clinching on the inside of the belt. This is not a rivet problem, but a
power supply problem.
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Technical Bulletin
Bulletin # 1002
Proper Skiving Techniques
Belt Type: Heavy Duty
Composition: Typically made up of rubber top and bottom covers protecting the
carcass or fabric of the belt. In most cases the rubber top side is thicker than the
bottom side.
Skiving:
When preparing heavy duty belting for mechanical belt splicing it has been found that
skiving the top of the belt provide two advantages.
1. The belt splice will be stronger. This splice strength has been verified through
static pull tests and dynamic running tests under controlled tensile testing. The
skived area now allows for a shorter rivet. The shorter the rivet the less moment
arm or torque can be applied to the rivet to pull it out.
That is why rivet selection is so important. Mechanical belt splices like the RC6
Riv-Nail Splice is a compressive fastener. The top and bottom of the fastener
are compressed by the action of the setting of the rivets. Rubber is like a solid
fluid mass and can be compressed. It is subject to significant shear force as the
carry side of the belt stretches as it goes over pulleys and the underside is
placed into compression. It is a proven fact that the top side of a belt 1’ thick
going over a 60” head pulley with a 180°wrap will be stretched 1 ½” longer as
the underside of the belt is compressed. That is a lot of shear force in motion!
2. Skiving also allows the fastener to sit lower in the belt, allowing the cleaners to
pass easier over the belt splice.
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Note: when skiving, always allow at least 1/32” to 1/16” of rubber over the fabric. This
will help protect the fabric from being cut by the belt fastener.
Finally, always measure the skived section of the belt end when selecting the rivet
size. If the skive is more or less uniform, use the longest rivet size for the skived area.
CAI anvil plates will allow the excess to flow out and become fully set. If the skive has
low and high places, try to use the correct rivet in each area of the skived portion of
the belt.
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Technical Bulletin
Bulletin # 1003
Mechanical Fasteners
The following information has been provided by:
NIBA-The Belting Association
Mechanical fasteners offer an economical, reliable and long lasting belt splice
method. They are the most common belt splicing method in use today, for both light
and heavy duty conveyor belt applications. Mechanical belt fasteners are easily
installed with only a modest amount of mechanical skills and tools. The purpose of
this section of the NIBA ENGINEERING HANDBOOK is intended to acquaint the
reader with some of the mechanical fasteners available today. The information
contained herein is intentionally general in nature. It is recommended that the
fastener manufacturers be consulted for specific product and application information
and recommendations.
The majority of belts being manufactured today are made of synthetic materials which
lend themselves to mechanical attachment and most modern conveyor belts are
designed for use with mechanical fasteners. This coupled with constantly improving
designs and materials in mechanical belt fasteners provide belt operators with a
reliable, long-lasting and quite inexpensive way to splice belts. The combination of
belts designed for mechanical fastener splices and improved fastener designs has
extended the use of mechanical fastener splices to service at higher tensions, and
this trend will continue with further fastener and belt developments.
Mechanical fastener splices today offer a permanence once considered not available
with them. This is due to the combination of fasteners designed and made with
improved materials and modern belts that are designed for fastener splices. It also is
due to other features designed for fastener splices such as countersinking which
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permits maintaining the belt profiles. All belt fastener processes, fastener installation,
countersinking, etc. are designed for short notice rather than waiting for outside
contractors. This translates into significant cost savings as downtime is minimized
and production may continue without substantial interruption.
In summary, some of the benefits of using mechanical fasteners are:
Cost — Typically, mechanical fasteners offer the lowest cost approach to belt
splicing. This is due to lower splice material cost for the mechanical fastener splice
components and the fact that the work can be done in-house.
Speed of Installation — Typical splices can be installed in minutes, reducing
downtime.
Ease of Installation — Splicing requires relatively simple and inexpensive tooling
which is readily available and can usually be kept on site. While some mechanical
skill is needed, it is relatively simple to splice with mechanical fasteners.
Safe to Use — There is little or no exposure to chemicals, sharp instruments or heat
when installing mechanical fasteners.
Ease of Inspection — Splices are visible and give signs of impending failure.
Little Extra Belt Length Required — The only belting cut off and discarded is that
generated in squaring the belt ends when making mechanical fastener belt splices.
The extra length of belt required for mechanical fastener splices is measured in
inches.
No Shelf Life Limitation — Mechanical fastener splice materials do not deteriorate
while in storage.
Mechanical fasteners are in use today in many applications involving conveyor belts.
Some specific applications where belt fasteners are used include coal mining,
hardrock mining, including quarrying and sand and gravel facilities, package handling
and distribution centers, as well as agricultural harvesting and food processing.
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Types of Mechanical Fasteners
Mechanical conveyor belt fasteners are manufactured in two styles, solid plate and
hinged. Each has its particular advantages and the selection of fasteners should
begin with this basic understanding. Solid plate fasteners span opposing belt ends
that have been butted together, forming a tight, sift-free splice. Hinged belt fasteners
are applied as individual segments to each belt end and then brought together and
connected by means of a connecting hinge pin.
Solid plate fasteners are generally employed where a sift-free splice is required, such
as bulk conveying applications. The two belt ends, having been brought firmly
together, prevent fines from sifting through the splice area. Generally, solid plate
fasteners are considered as a permanent attachment and are seldom used where the
belt or the conveyor must be frequently taken apart. For the most part, solid plate
fasteners require larger minimum pulley diameters than hinged fasteners.
Hinged fasteners, as implied above, can be operated on systems employing smaller
pulley diameters. This inherent design feature allows for a broader range of
applications than is available with corresponding solid plate fastener styles. Hinged
fastener splices can be separated for belt removal or maintenance by removing the
hinge pins. Some hinged fasteners have a sift preventing component and thus can be
used on belts conveying fines, but they are more frequently applied in other
applications.
As the "working" part of a hinged fastener splice, the hinge pin should be selected as
carefully as the fastener itself. Quite often it makes sense to select a pin of the same
material as the fastener. For example, a stainless steel pin would be chosen for a
stainless steel fastener. Solid (single) wire pins are the easiest to insert and are most
often used on non-troughing applications. Stranded cable wire pins are
recommended for troughing conveyors given their greater flexibility.
Both solid wire pins and stranded cable pins are offered either with or without an
external polymer covering. This polymer "jacket" serves as a lubricant when
positioned between the loops of the hinged fasteners. As such, this pin style is less
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likely to wear or corrode. However, they are not the preferred choice where fine
abrasive materials are being conveyed, wherein a solid wire or unjacketed cable pin
is a better selection.
Other hinge pin choices include nonmetallic pins for smooth running at lower belt
operating tensions as well as notched or corrugated pins which reduce the likelihood
of pin migration.
Hinge pin selection is as important as proper hinged fastener selection. Properly
selected and installed, they contribute to maximum splice life and performance. As
with selecting hinged fasteners, the fastener manufacturers should be consulted for
hinge pin recommendations.
The market for conveyor belt fasteners generally breaks down into two major
segments, light duty and heavy duty. NIBA designates light duty belts as those having
a tension rating of 160 PIW or less, and heavy duty belts as those with tension ratings
over 160 PIW. Light duty conveyor belt fasteners include wire hooks, common bar
lacing, stapled plate fasteners, plastic hinged plate fasteners and plastic spiral loop
fasteners. Heavy duty conveyor belt fasteners include bolted and riveted plate
fasteners and stapled, bolted and riveted hinge fasteners. Heavy duty fasteners are
available for operating tensions up to 1500 PIW. While it is suggested that the
individual manufacturer’s fastener catalogs be consulted for application information, a
representative sampling of fastener types is illustrated in the following pages for
reference.
Notable Features:
Bolted Hinge
Heavy duty bolt hinge fastener for bulk haulage applications. Commonly used in low
to medium tension industrial belts requiring a hinged splice. The fastener plates are
compressed into the belt by special bolts and nuts. Only simple hand tools needed for
installation.
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Riveted Hinge Plate
Heavy duty riveted hinge fastener for medium to high tension bulk haulage
applications. Available in several types of rivets and fasteners. Special rivets are
driven through the belts, without pre-punching holes, to compress the fastener plates
into the belt.
Heavy Stapled Plate
Heavy duty stapled hinged fastener for medium to high tension bulk haulage
applications. High strength staples are driven through the belts without pre-punching
holes, to compress the fastener plates into the belt. Provides a very flexible splice.
Bolted Solid Plate
Solid plate butt joint compression belt splice. Like the bolt hinge, special bolts and
nuts are used to compress the plates into the belt surfaces. These fasteners are
generally used for the heavier bulk haulage applications where a sift-free, more
permanent belt installation is needed. Only simple hand tools needed for installation.
Riveted Solid Plate
Solid plate butt joint compression belt splice for medium to high tension bulk haulage
applications. Special rivets are driven through the belts without pre-punching holes.
These fasteners are generally used for applications where a sift-free, more
permanent belt installation is needed.
Mechanical Fastener Selection
Mechanical fasteners for belting are to be selected in much the same process as
belting. To properly select a mechanical belt fastener both the physical and
environmental factors must be considered, but not to be forgotten are the experience
factors. Many belting manufacturers provide a recommended belt fastener style
based on working tension, pulley size and construction of the belting. Mechanical belt
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fastener manufacturers provide tables which are to be used as a guideline
based on belt thickness and pulley diameters.
While the user/installer should refer to the belting and fastener selection guides, the
decision process must then include product based on type of service desired (Hinged
- Solid Plate), type of material (Carbon Steel - Stainless Steel - Plastic - Other),
installation techniques (Hand or Power Tools, or Specialized Machines).
The technical manual has provided a description of the various types of mechanical
fasteners, the notable features and a chart entitled Fastener Selection which
summarizes the range of specifications they may fit. In addition, a Fastener Materials
chart is shown that illustrates the "normal use" of each material.
Description of Metals
Mild Carbon Steel
General service where corrosion, sparking or magnetic attraction is not a
consideration, sometimes plated to prevent rusting.
High Carbon Steel
Same as above, except for improved tensile strength and abrasion resistance.
Hardened Alloy Steel
Highly abrasion resistant, providing several times service life of regular steel in highly
abrasive situations. Not recommended for corrosive environments.
Stainless Steel
400 Series
Provides some corrosion and chemical resistance when compared with carbon steel;
is magnetic and can be used with magnetic tramp removal devices.
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300 Series
Non-rusting and provides extra resistance to corrosion from acids and chemicals;
excellent where sanitation requirements are high; basically non-magnetic.
Others
Ask your fastener manufacturer for other special materials, metallic and non-metallic,
for operating environments.
Mechanical Fastener Installation Recommendations
Whenever a mechanical fastener is installed, the steps required (which could include
pulling slack, squaring, cutting, skiving, lacing, installing hinge pin, etc.) can be made
easy and safe by the use of proper tools and procedures. It is recommended that you
contact a NIBA member with the specifics of your application. They can make an
appropriate recommendation regarding the products and techniques available to
meet your need.
Squaring Belt Ends
Having carefully selected the best fastener style suited to the application, properly
installing these fasteners will greatly improve the splice service life. The first step
towards ensuring that the fasteners and belt will work effectively in tandem with each
other, and the supporting framework, is to install the fasteners square to the belt
centerline. With any mechanical splice, the most common installation error is not
applying the splice straight.
Although there are many suggested methods of accomplishing this, placing a
carpenter's square along an average centerline of the belt (taken at several points
along its length) is the simplest. Using the belt edge as a squaring guide is not
generally recommended. Preparation of the belt ends is important and operators
should be sure they have the right tools for doing the job properly. These include
cutters, pull-up clamps and any special equipment for recessing fasteners in the belt
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cover. This procedure is generally helpful to extend fastener life and avoid operating
problems. Splice life may also be prolonged through a good program of preventive
maintenance, including periodic inspection and, where necessary, replacement of
worn splice sections or entire splices.(Refer to Tech Note #14 Establishing
Centerlines and Squaring Belt Ends for Splicing noted on last two pages of bulletin.)
Counterskiving / Skiving
While mechanical conveyor belt fasteners can be readily applied directly to the belt
covers, there are some instances where it is advantageous to lower the fasteners into
the belt. Countersinking the fasteners lowers the overall profile of the splice and is
most frequently done on the carrying side of the belt. Depending on the belt
construction, fasteners may also be countersunk into the bottom covers.
When fasteners have been countersunk, less material is left exposed to contact with
the contents being conveyed, scrapers, plows, idlers and other related conveyor
hardware. Wear through abrasion is greatly minimized thereby extending splice
service life. Under running conditions there is also less abusive impact wear to both
the splice and the belt.
Countersinking is equally suited to light or heavy-duty belts, although generally there
are subtly different reasons for choosing to install belt fasteners in this fashion. In the
greater number of instances, light-duty belts are more apt to be suspended on slider
beds. In these cases, countersinking will reduce abrasive wear of both the fastener
and the slider bed.
"Hidden" splices are a form of countersunk fastener. After the belt ends have been
prepared and the fasteners installed, replacement cover stock is laid over the
fasteners and cured. This replacement cover stock may be from such materials as
two component systems or uncured rubber stock. The replacement top cover that
hides the splice also serves to protect the fasteners from impact and abrasive wear.
Preparing a belt for countersinking is readily accomplished using only some additional
portable tooling. The options range from small hand held tools to larger, more
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mechanical, devices. All are designed for field use by company personnel. The
fastener manufacturers offer these tools, and should be consulted for information
relating to them.
Belt Notching
In hinge fastener splices, it is often important to notch or chamfer the corners of the
belt ends in the splice, usually at an approximate 60º angle. This will help prevent
hang-up of the belt corners on conveyor structure should such contact arise. In onedirectional belts, it is only necessary to notch the trailing belt end.
Mechanical Fastener Troubleshooting Guide
Problem Solution Code
Fastener "comb-out" through end of belt without opening
6,2,3,4,5
Fasteners open up and release from belt
2,1,3,7
Belt breaks behind fastener
2,4,6
Splice failing at edges
3,1,5
Fastener parts fracture and fail
5,3,2,4,7
Belt fails under splice
6,3,1
Fastener wears out prematurely
7,8
Solution Codes
1=Improper fastener installation, including splice not in squarely.
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2=Improper fastener selection, particularly in the choice of too large a fastener.
3=Tension excessive and/or counterweight excessive.
4=Pulley problems, worn lagging, dual pulley speed differential, too small pulleys,
material buildup on pulleys.
5=Splice "hang-up" on worn idlers or other parts of the conveyor.
6=Conveyor drive under belted.
7=Improper metal selection.
8=Failure to recess splice
Most Common Types of Failure Associated With Mechanical
Fasteners
Tensile failure of belt. (Warp yarns fracture with fasteners intact.)
Tensile failure of fasteners. (Fasteners open or break with belt intact.)
"Comb through" tensile failure of belt. (Fill yarns comb out of end of belt with warp
yarns and fasteners left intact.)
Fatigue/wear failure of belt. (Used belt fractures warps and ruptures behind fasteners.
Differentiated from tensile failure of belt by fact that failure occurs only after extended
running time.)
Fatigue/wear failure of fasteners. (Fasteners break or open up after extended running
time.)
Wrong size fastener selected. User tries to standardize one size for all belts.
"Bigger is better" mentality. User has failure, so he goes to next size bigger fastener
for more strength.
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Fastener Selection Chart
Bolted Hinge
Riveted Hinge
Plate
Heavy Stapled
Hinge Plate
Bolted Solid
Plate
Riveted Solid
Plate
Recommended Minimum
Pulley Diameter for
6” or 150mm
9” or 225mm
6” or 150mm
12” or 300mm
18” or 450mm
7/32” –11/16”
3/16” – 7/8”
3/16” – 1-3/16”
7/32” – 15/16”
Smallest Size
Belt Thickness Range
(after countersinking,
if used)
¼” – 7/8”
or
or
5.6mm –
4.8mm –
17.5mm
22.2mm
Steel
Steel
Stainless
Stainless
or
or
4.8mm –
30.2mm
5.6mm –
23.8mm
Steel
Steel
Steel
Stainless
Stainless
Stainless
Bronze
Bronze
Alloy steel wear
plates
Alloy steel wear
plates
Nickel Alloy
6.4mm 22.2mm
Materials Offered
or
Alloy steel wear
plates
Maximum Belt Rating
Contact
Contact
Contact
Contact
Contact
Fastener
Fastener
Fastener
Fastener
Fastener
Mfg.
Mfg.
Mfg.
Mfg.
Mfg.
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TECH NOTE #14
Establishing Centerlines and Squaring Belt Ends For Splicing
Crooked flat belt splices cause a number of operational problems that probably could
be avoided if accurate centerlines or square lines had been established when the
splices were made. All flat belt splicing requires careful establishment of reference or
cut lines that ensure that the belt alignment will be straight through the splices. In
vulcanized splices, this applies to a number of lines on both belt ends, all of which are
referenced to a centerline or transverse line that is truly accurate. In mechanical
fastener splices, this applies to the transverse cut line on the two ends to be joined.
There are some mechanical fastener splices that are made at an angle, and these
also require establishment of an accurate transverse line.
There are several methods for establishing accurate reference and cut lines in belt
splices. NIBA recommends the method illustrated on the next page. This involves
measuring across the belt width on both belt ends at five points spaced one to two
feet apart, starting from the belt ends, and marking the center at each point. Then, a
centerline is marked through the five points, using a long straightedge or a chalk line.
In most cases, the center marks will not be perfectly aligned, so the centerline mark
will have to be that line that lies closest to the most center marks. Having marked the
two centerlines, mark a transverse line at the desired location on each belt end by
laying one leg of a carpenters square along the centerline, and a straightedge along
the transverse leg of the carpenters square, and apply a mark across the belt. This
will be the cut line for mechanical fastener splices, and the reference line for
laying out the cut and other reference lines for vulcanized splices.
The other methods of establishing cut and reference lines are the centerline arc
method, squaring off the existing belt edges method, and the triangulation method. All
of these methods are either more complex than the NIBA recommended method, or
they depend on straight, undamaged belt edges, a condition that probably exists in
new belting, but rarely does in used belting. The NIBA method minimizes the effect of
damaged or worn belt edges.
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Technical Bulletin
Bulletin # 1004
Riv-Nail RNEH-1 Hammer Care
 Please refer to the Bosch Operating / Safety Instructions for Model 11320VS.
 The only modification to this product is the trigger lock. It has been
disabled to meet code.
 Follow all safety instructions and use PPE as required by your firm and or
regulatory guidelines.
 This is a tool designed for demolition, thus it is quite powerful. Inspection of the
tool and the components should be conducted each shift.
 Installing the SDS+ Drive Punch requires that the shank end be cleaned and
greased with a light grease before each use.
 Follow the guidelines on page 7 of the manual to install or remove the tool from
the Hammer.
 The service interval is approximately 800 hours. Contact your local CAI
distributor or call Bosch directly for service.
 After belt splicing, always inspect your tools for wear or fatigue. Take
appropriate action so your tools will be ready and available for the next belt
splicing job.
 If extension cords are required, follow the National Electrical code for
guidelines. A sample table is found on page 14.
 Remove the SDS+ Drive Punch prior to storage. Pull and hold locking sleeve
backward, then pull the Drive Punch forward. Wipe clean after removal so dirt
will not adhere to the grease.
 Always clean your tools before storing them in the case provided.
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Technical Bulletin
Bulletin # 1005
Riv-Nail RNBH-1 Hammer Care
 Please refer to the Bosch Operating / Safety Instructions for Model 11536VSR.
 Follow all safety instructions and use PPE as required by your firm and or
regulatory guidelines.
 This is a tool designed for demolition, thus it is quite powerful. Inspection of the
tool and the components should be conducted each shift. Use in hammering
mode only. (See page 10)
 Installing the SDS+ Drive Punch requires that the shank end be cleaned and
greased with a light grease before each use.
 Follow the guidelines on page 9 of the manual to install or remove the tool from
the Hammer.
 The service interval is approximately 800 hours. Contact your local CAI
distributor or call Bosch directly for service.
 After belt splicing, always inspect your tools for wear or fatigue.
 Take appropriate action so your tools will be ready and available for the next
belt splicing job.
 Follow the instructions on pages 11–12 when charging the battery pack.
 If extension cords are required, follow the National Electrical code for
guidelines. A sample table is found on page 14.
 Remove the SDS+ Drive Punch prior to storage. Pull and hold locking sleeve
backward, then pull the Drive Punch forward. Wipe clean after removal so dirt
will not adhere to the grease.
 Always clean your tools before storing them in the case provided.
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Technical Bulletin
Bulletin # 1006
Non-Corrosive (430SS) Rivet Material
Advantages
In order to attain the longest splice wear life in highly corrosive applications, the use
of stainless splices should always be used in conjunction with stainless rivets.
The wall thickness of a rivet is about 1/32” thick and the RC6 fastener is about 7/64”
thick. In comparison, the fastener is 3.5 times thicker than the rivet. Given these
factors, a carbon steel rivet would corrode in 20–25% of the time it takes to corrode a
steel fastener strip.
The end result:
 The acid will attack the rivet causing the rivet to fail
 If used, the high quality CAI stainless alloy fastener strip would not be affected
 The belt will pull apart due to corroding rivets
With regard to the rivets, Conveyor Accessories, Inc. uses 430 stainless steel
composed of 50% more carbon and chrome content.
The use of this material composition produces:
 A higher yield of strength when compared to 409SS
 Considerable corrosion resistance to mine acid water
The benefits:
 Longer splice wear life
 Less downtime
 Reduced maintenance intervals
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Technical Bulletin
Bulletin # 1007
Heat Treated Plates Durgard
Durgard is a special heat-treated steel with abrasion resistant characteristics that
provides several times the life of standard steel.
Durgard Plategrip fasteners are not recommended for use in corrosive environments,
but are specially designed for abrasive situations.
Durgard fasteners are heat treated to file hard — “Rockwell C 60 Plus” surface to
provide longer service life through improved abrasion resistance.
Hardness:*
Color:
Available:
Sizes:
Rockwell C 60+
Black Mottled
Tops only or Top & Bottom Plates
1, 140, 190, 1–1/2, 1–1/4, 2–1/2, 3
Heat Treated Plates Cross Reference
CAI-DURGARD
NOMENCLATURE
DESCRIPTION
COMPETITOR
NOMENCLATURE
EDT
25 Set/BX — Heat Treated Tops
Remainder Steel
EMA
CDT
100 Set/BX — Heat Treated Tops
Remainder Steel
CMA
ED
25 Set/BX — Heat Treated Top
& Bottom Plates
EMAP
CD
100 Set/BX — Heat Treated Top
& Bottom Plates
CMAP
*Competitive parts are Rockwell C 35 (Approx.)
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Technical Bulletin
Bulletin #1008
FCT Splicing Instructions
1. Be sure to wear the proper personal safety equipment required when making a belt
splice.
2. Once the belt is spotted in the desired location, be sure to lock and tag out the power to
the unit.
3. Mark and cut the belt as square as possible.
4. For visual reference, using a belt marking pen, crayon, or chalk, mark on the belt where
the Kevlar® is located. This will help orientation of the belt on the application tool later in
the process. Note that the Kevlar® may NOT be located in the exact center of the belt.
5. Take one half of the CAI belt splice, RC-6-42, and position it on one side of the FCT
belt, making sure it is centered. DO NOT SPREAD THE CLIPS APART. Rather, starting
at one end, gently tap the splice onto the belt using a hammer, until the belt is up
against the stops. Then, hammer the clips down onto the belt to keep it from slipping
out of the clips.
6. The CAI application tool, RNAT-48-MDA1-FCT, has two rods. The larger pin is used
when setting the rivets. The smaller pin is used for pre-drilling the Kevlar® section of the
belt for the rivets.
7. After removing the two rods, position the splice onto the application
tool, making certain that the clips around the Kevlar® section of the
belt align with the template holes beneath. Use the R-STOP to
correctly position the belt on the application tool. Insert the smaller
diameter rod back through the guides and the splice loops.
R-STOP
8. Position the drill guide, R-DG, over the Kevlar® section of the belt.
Using the specially made bit, R-BIT, drill a hole into the belt through
the twenty guide holes. The collar on the bit is made to stop just short
of passing all the way through the belt, so as to not damage the rivet
sets on the application tool.
9. After all the holes are drilled, set the center rivet in the two predrilled holes on the two
outside clips over the Kevlar® section of the belt to prevent it from moving. When those
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rivets are set, remove the small pin, and insert the large pin. The splice is now ready for
the rest of the rivets to be set.
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Technical Bulletin
Bulletin # 1009
Installation Instructions Riv-Nail Belt Fasteners
CAI Riv-Nail fasteners can be installed on conveyor belt using several methods. The
most basic method is the “Single Driving” method using a RNAT (Riv-Nail Application
Tool), see figure 1.
The belt ends are prepared; the belt thickness is then gauged to determine the
appropriate rivet size. See figure 2. Always use a rivet long enough to go through the
belt, never use a rivet that may be too short.
In figure 3, samples of R2, R3, TR4 and R5 are shown. The “U” shaped rod in the
center of the table is used to lift the Gauge Rod Guides if there is a need to change
from the basic R5 setting to the R5 ½ or R6.
A rapid install option is available as shown in figure 4. There is a 1kg hammer, a 2 kg
sledge hammer, the belt gauge to select rivet sizes, a single driver punch and a 5prong multi driver punch. These are used in conjunction with a RN500, 20 rivet block or
a RN500DW that will hold 40 rivets.
In addition to the selection of hammers and drivers, 2 sizes of gauge rods are
available. The basic 6.4 mm rod can be used on fasteners from R2 through R6 by
setting the RN24 and RN25 to the proper selection as engraved on the anvil plates.
See figure 5. When looking at figure 6 note the gauge rod is much larger and used
exclusively with R5 ½ and R6. The advantage of the larger gauge rod is to help control
the loop of the fastener and to make it easier to install the hinge pins for thicker belts.
When using this option, a gauge rod of 11 mm is used along with the RN716 gauge rod
guide. These are shown in figure 6.
The basic requirement of the tooling is again shown in figure 7. This time you see the
application tool that has a wider platform compared to the single driver tool. The
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purpose of the wider platform is to support the guide pins of the RN500 or RN500DW.
These are blocks of UHMW with a captive o-ring to keep the rivet blocks stable. Note,
use some light oil or grease to lubricate the o-rings.
All Rapid Install Tools can use both the RN500 and RN500DW rivet blocks.
Figure 8 shows using the gauge rod guide lifter to set the guides to the proper size of
fasteners. Always double check this setting prior to placing the fastener strip on the
tool. Figure 9 shows the belt fastener and belting in place, before the rivet guide block
is set in place.
The rivets are loaded, as shown in figure 10. Load all rivets in the block before driving
the rivets. A single driver may seem like a slow process, see figure 11, but lighter
hammers can be used just as effectively as heavy hammers. By working the fastener
and rivets from the loop to the outer edge, the job is completed in one pass. Figure 11
shows a .5 kg hammer whereas figure 12 shows a 1.0 kg hammer. Both yield
excellent results.
A 2.2 kg hammer is shown, in figure 13, driving a 5 prong driver. Strong heavy blows
are required. After all rivets are driven through the guide block, the rivets must be
hammered several more times to fully set the rivets into the belt splice. Figure 14
shows the RN500 with the 5 prong multi-driver.
After the rivets are driven through the rivet guide block, the block is removed from the
tool as shown in figure 15. The RN500 is shown being removed in figure 16.
Figure 17 illustrates a multi-driver tool can be used as a single driver tool. Note the
Riv-Nail is driven straight, not at an angle.
The finished belt splice is removed from the tool by pulling the gauge rod and lifting the
belt. See figure 18. Figure 19 shows the bottom of the belt splice. Note the flare of
the rivets, indicating the rivets are fully clinched.
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Figures 20 and 21 show the pilot nails from below the tool and the need to drive them
from the tool. The pilot nails are quite sharp; please always complete the process of
removing the pilot nails before storing the tool.
Fig. 1
Fig. 2
Fig. 3
Fig. 4
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Fig. 5
Fig. 6
Fig. 7
Fig. 8
Fig. 10
Fig. 9
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Fig. 11
Fig. 12
Fig. 13
Fig. 14
Fig. 16
Fig. 15
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Fig. 17
Fig. 18
Fig. 19
Fig. 20
Fig. 21
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Technical Bulletin
Bulletin # 1010
Riv-Nail Compression of Fasteners
The comparative advantage of the CAI design yields superior compression of
fastener strips on conveyor belt. As a practical matter, conveyor belt thickness
varies in thickness in both length and width of the belt. A new belt may have a
variance as small as 1/32”; however, belt in service may have differences as
great as 1/8”. A rivet and installation systems to install rivets must
accommodate such large variances, yet compress and maintain compression of
the fastener on the belt throughout the service life.
CAI recognized this need when designing the tooling to build the fastener strips,
rivets and pilot nails used when splicing conveyor belts. A unique installation
system was designed and patented (US Patent 5,680,790 date October 28,
1997) to assist in yielding the strongest possible fastener holding ability.
Drawings included with this bulletin illustrate cross sectional views of the CAI
splice and a competitive product. The upper plate design is coined to a depth to
allow the rivet head to sit with the dome of the head just above the surface of
the upper side of the plate. Every rivet will be struck on the dome of the head to
concentrate the driving force through the central axis of the rivet and pilot nail.
The leading edge of the fastener and the rivet coin are pulled into the top cover
of the belting.
The lower plate has a deeper coin to allow more space for the rivet to form and
retain the fastener. The lower coining punch strikes the strip .015 deeper,
yielding a deeper, under cavity for the rivet to flow as it is set. A side benefit is
that the aperture creates a funnel shape hole to help the pilot nail and rivet to
enter during initial driving. The second benefit is that because the vortex is
slightly larger than the upper plate hole, the rivet can enter the cavity prior to
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beginning to swell into a larger diameter as the semi tubular rivet receives its
final clinching blows.
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Technical Bulletin
Bulletin # 1011
Riv-Nail Application Tools
The June 2008 catalog, GP2008, dedicated 8 pages to Riv-Nail tools and accessories
to install Riv-Nail fasteners.
CAI innovations include:
1993 — First air powered tool
1993 — First collated rivets
1995 — First improved anvil to set rivets
1995 — First aluminum light weight tool
2005 — First electric driver system
2006 — First battery driver system
2007 — First aluminum Skiver/Cutter
Recently, a competitor has introduced their first ever aluminum rivet installation tool,
one that weighs 48% more than our tool. I believe they will be promoting this tool, not
because of its weight advantage over steel, but because they designed a feature to
“nest” with the scalloped edge of their fastener. The design could be a detriment to the
fastener as the scalloped tab on the tool can become distorted and prevent the
scalloped edge of their fastener from fitting with the tool correctly.
Perhaps part of the intent was also to keep the superior edge design of CAI fasteners
from fitting the tool.
Modifications require only a few minutes. As part of the aluminum base, a machined
tab of the base is designed to allow the competitive fastener strip to nest. See Fig. 1.
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Observe Fig. 2 and Fig. 3, and you will see that the machined tab can be easily
modified or removed with a chisel, a flat punch or a grinder. If using a flat punch, strike
the machined tab on an angle and the aluminum will readily conform. If using a
grinder, grind the machined tab so the beveled edge will match with the edge of the
fastener.
A 60” tool can be modified in less than 5 minutes.
Fig. 1
Fig. 2
Close-in view illustrates a machined tab directly
in front of the center rivet setting hole to
conform to the scalloped edge of the fastener.
This photo illustrates a technique that can be
used to create an angle or bevel on the
machined tab. Two to four strikes may be
required to bevel the tab so the fastener will lay
flat on the tool.
Fig. 3
A simple angle grinder is shown grinding an
angle/bevel on the machined tab. A fast and
easy technique to modify the tab for use with
all rivet fasteners.
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Technical Bulletin
Bulletin # 1012
Belt Transition in a Troughing Application
Most bulk haulage utilizes troughing idlers to carry loads. Conveyor idlers support the
belt as it conforms to the angle of the outside rolls. When the belt goes from “flat to
troughed” or “troughed to flat”, the geometric line of travel of the outer edges of the
belt exceeds the central line of travel. As edge tensions of the belt are increased, the
belt and belt fabric must either stretch or travel at a much higher speed to complete
the transition.
This edge tension can be kept within safe limits if proper transitions are used with the
conveyor systems. Both manufacturers of conveyor belting and conveyor idlers
recommend and provide data to follow when designing conveying systems. Included
in that data are recommendations for Terminal Pulley Locations, Minimum Transition
Distances, and Locations of Transition Idler Arrangements. While the data and
recommendations are provided, seldom are the reasons given to explain “why” the
recommendation should be followed.
An example is the best way to illustrate the dynamics of a transition. First some
assumptions:
Belt Speed
800 feet per minute
Belt Width
60”
Troughing Idler
35°
Transition
None, Full trough depth
Distance Idler
to Terminal Pulley
5’
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Under these conditions the center of the belt will travel at the rate of 800 feet/minute
and the two outer edges will travel at the average rate of 968 feet/minute in the
transition. The fact is that the belt cannot change from 800 to 968 instantly as it
leaves the troughing idler. In a like manner, the belt edge must slow down as it
reaches the terminal pulley.
Therefore, if the average speed is 968 feet per minute, as the speed increases from
800 fpm and slows to 800 fpm, the speed is significantly higher at the outer edges.
The actual speed may be 1,000 fpm, or more. The total time to travel 5 feet is only
.375 seconds.
The stress on the belt edge is huge. It is also true that the two points of the junction
from flat to troughing are subject to stress and longitudinal flexure. The first condition
contributes to intense elongation of the belt fabric. As the belt stretches and then
returns to its original length, shear develops between the fabric and the rubber plies
and covers. This will weaken the bond, if not totally destroy the bond. The result will
be to have the belting fail within the splice.
The second condition is idler junction fatigue or failure. The belt and or belt splice
must flex both vertically and longitudinally simultaneously. The “whip-saw”
action/reaction accelerates in very short transitions. If recommended transition
distances are followed, the “whip-saw” phenomenon is minimized.
The example used is found in typical applications, creating excessive wear and tear
on hinge pins and belt fasteners. Hinge pin failure at the idler junction is common.
Fastener failure is also common at the idler junction and conveyor belt outer edges.
The best remedy is to follow the recommended guidelines of transitions. In this case,
the recommendation would have had a transition of 15–16 feet with reduced angle
idlers. The result would be the edge and center would both travel at essentially the
same speed, minimizing stress at the idler junctions and belt edges.
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