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- Speed Reducer Tapered and Short Shaft Metric Bushing Assemblies
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Dodge Speed Reducer Tapered and Short Shaft Metric Bushing Assemblies Owner's Manual
Dodge Speed Reducer Tapered and Short Shaft Metric Bushing Assemblies are designed for mounting reducers on driven shafts, accommodating both standard and short shaft lengths. They consist of tapered bushings, screws, washers, backup plates, retaining rings, and shaft keys. These assemblies ensure proper alignment and secure attachment of the reducer to the driven shaft. Their versatility makes them suitable for various industrial applications requiring reliable power transmission.
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Installation and Instruction Manual for DODGE
®
Speed Reducer
Tapered and Short Shaft Metric Bushing Assemblies
TA0107L-M
TA1107H-M
TA2115H-M
TA3203H-M
TA4207H-M
TA5215H-M
TA6307H-M
TA7315H-M
These instructions must be read thoroughly before installing or operating this product.
WARNING: To ensure that drive is not unexpectedly started, turn off and lock out or tag power source before proceeding.
Remove all external loads from drive before removing or servicing drive or accessories. Failure to observe these precautions could result in bodily injury.
BUSHING INSTALLATION
The Dodge Torque-Arm II Reducer is designed to fit both standard and short length driven shafts. The Standard Taper
Bushings series is designed where shaft length is not a concern.
The Short Shaft Bushing series is to be used where the driven shaft does not extend through the reducer.
Standard Taper Bushings
MINIMUM SHAFT LENGTH
A
TA8407H-M
TA9415H-M
TA10507H-M
TA12608H-M
1. One bushing assembly is required to mount the reducer on the driven shaft. An assembly consists of two tapered bushings, bushing screws and washers, two bushing backup plates and retaining rings, and necessary shaft key or keys.
The driven shaft must extend through the full length of the reducer. If the driven shaft does not extend through the reducer do not use the standard tapered bushings; instead use the short shaft bushings as described in the Short Shaft
Bushings section that follows. The minimum shaft length, as measured from the end of the shaft to the outer edge of the bushing flange (see Figure 1), is given in Table 1 and shown in Figure 1.
Table 1 – Minimum Mounting Dimensions and Bolt Torque
Minimum Required Shaft Length
Tapered Bore Straight Bore
Reducer Size
TA0107LM
TA1107HM
TA2115HM
TA3203HM
TA4207HM
TA5215HM
TA6307HM
TA7315HM
Standard
Length Shaft
173
177
198
219
227
263
275
301
Short Length
Shaft
110
113
122
139
144
162
171
194
Two Collars
150
148
165
193
204
228
239
270
One Collar
131
129
146
167
172
196
207
232
TA8407HM
TA9415HM
TA10507HM
TA12608HM
326
325
393
465
206
217
246
295
294
311
355
425
256
270
299
346
Figure 1 - Minimum Recommended Dimensions
WARNING: Because of the possible danger to person(s) or property from accidents which may result from the improper use of products, it is important that correct procedures be followed. Products must be used in accordance with the engineering information specified in the catalog. Proper installation, maintenance and operation procedures must be observed. The instructions in the instruction manuals must be followed. Inspections should be made as necessary to assure safe operation under prevailing conditions. Proper guards and other suitable safety devices or procedures, as may be desirable, or as may be specified in safety codes should be provided, and are neither provided by Baldor
Electric Company, nor are the responsibility of Baldor
Electric Company. This unit and its associated equipment must be installed, adjusted and maintained by qualified personnel who are familiar with the construction and operation of all equipment in the system and the potential hazards involved. When risks to persons or property may be involved, a holding device must be an integral part of the driven equipment beyond the speed reducer output shaft.
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Bushing Screw Information and Minimum Clearance for Removal
Reducer Size Fastener Size Torque in N-m A
TA0107LM M8x1.25
23 - 27 30
TA1107HM
TA2115HM
TA3203HM
TA4207HM
TA5215HM
M8x1.25
M10x1.5
M10x1.5
M10x1.5
M12x1.75
23 - 27
23 - 27
23 - 27
31 – 35
90 - 105
30
36
36
36
48
TA6307HM
TA7315HM
TA8407HM
TA9415HM
TA10507HM
TA12608HM
M12x1.75
M12x1.75
M12x1.75
M16x2
M16x2
M16x2
90 - 105
90 - 105
90 - 105
100 – 115
100 - 115
100 - 115
48
53
53
60
60
60
2. Install one bushing backup plate on the end of the hub and secure with the supplied retaining ring. Repeat procedure for other side.
3. Place one bushing, flange end first, onto the driven shaft and position per dimension “A”, as shown in Table 1. This will allow the bolts to be threaded into the bushing for future bushing and reducer removal.
4. Insert the output key in the shaft and bushing. For ease of installation, rotate the driven shaft so that the shaft keyseat is at the top position.
5. Mount the reducer on the driven shaft and align the shaft key with the reducer hub keyway. Maintain the recommended minimum distance “A” from the shaft bearing.
6. Insert the screws, with washers installed, in the unthreaded holes in the bushing flange and align with the threaded holes in the bushing backup plate. If necessary, rotate the bushing backup plate to align with the bushing screws. Tighten the screws lightly. If the reducer must be positioned closer than dimension “A”, place the screws with washers installed, in the unthreaded holes in the bushing before positioning reducer making sure to maintain at least 3mm between the screw heads and the bearing.
7. Place the second tapered bushing in position on the shaft and align the bushing keyway with the shaft key. Align the unthreaded holes in the bushing with the threaded holes in the bushing backup plate. If necessary, rotate the bushing backup plate to align with the bushing holes. Insert bushing screws, with washers installed in the unthreaded holes in the bushing. Tighten screws lightly.
8. Alternately and evenly tighten the screws in the bushing nearest the equipment to the recommended torque given in
Table 1. Repeat procedure on outer bushing.
Short Shaft Bushings
1. One bushing assembly is required to mount the reducer on the driven shaft. An assembly consists of one long tapered bushing, one short tapered bushing, one tapered bushing wedge, bushing screws and washers, two bushing backup plates and retaining rings, and necessary shaft key or keys. The driven shaft does not need to extend through the reducer for the short shaft bushing to operate properly.
The minimum shaft length, as measured from the end of the shaft to the outer edge of the bushing flange (see Figure 1), is given in Table 1.
2. The long bushing is designed to be installed from the side of the reducer opposite the driven equipment as shown in Figure 2. The long bushing when properly installed is designed to capture the end of the customer shaft that does not extend through the reducer. Normally the reducer would be mounted such that the input shaft extends from the side of the reducer opposite the driven equipment however the reducer design allows installation of the reducer to be mounted in the opposite direction.
3. Install the tapered bushing wedge into the hollow bore of the reducer from the same side as the long bushing will be installed. When installing the tapered bushing wedge into the reducer hub, install the flange end first so that the thin taper is pointing outwards towards the long bushing as shown in Figure 2. The wedge is properly installed when it snaps into place in the reducer hub.
Tapered Bushing Wedge
Driven Equipment
Figure 2 - Short Shaft Bushing and Output Assembly
4. Align the tapered bushing wedge keyway with the reducer hub keyway. The keyway in the wedge is slightly wider than the keyway in the reducer hub allowing for easier installation.
5. Install one bushing backup plate on the end of the hub and secure with the supplied retaining ring. Repeat procedure for other side.
6. Install the short bushing; flange first, on the driven shaft and position per dimension “A”, as shown in Table 1. This will allow the bolts to be threaded into the bushing for future bushing and reducer removal.
7. Insert the output key in the shaft and bushing. For ease of installation, rotate the driven shaft so that the shaft keyseat is at the top position.
8. Mount the reducer on the driven shaft and align the shaft key with the reducer hub keyway. Maintain the recommended minimum distance “A” from the shaft bearing.
9. Insert the screws, with washers installed, in the unthreaded holes in the bushing flange and align with the threaded holes in the bushing backup plate. If necessary, rotate the bushing backup plate to align with the bushing screws. Tighten the screws lightly. If the reducer must be positioned closer than dimension “A”, place the screws with washers installed, in the unthreaded holes in the bushing before positioning reducer making sure to maintain at least 3mm between the screw heads and the bearing.
10. Place the long bushing in position on the shaft and align the bushing keyway with the shaft key. Use care to locate the long bushing with the tapered bushing wedge installed earlier. Align the unthreaded holes in the bushing with the threaded holes in the bushing backup plate. If necessary, rotate the bushing backup plate to align with the bushing holes. Insert bushing screws, with washers installed in the unthreaded holes in the bushing. Tighten screws lightly.
11. Alternately and evenly tighten the screws in the bushing nearest the equipment to the recommended torque given in
Table 1. Repeat procedure on outer bushing.
Straight Bore Reducer Installation:
1. Install reducer on the driven shaft as close to the equipment as practical.
2. It is not necessary for the shaft to extend through the full length of the bore. Minimum shaft lengths are provided in Table 1. It is preferred that both retaining collars are used; however, if shaft length will not permit the use of both retaining collars, one collar is sufficient for locking the reducer onto the shaft.
3. Tighten the set screws provided in each retaining collar. If the outer retaining collar is not being used, remove from the reducer to avoid retaining collar from dislodging and jamming the reducer during operation.
2
Bushing Removal for Standard Taper or Short Shaft
Bushings:
1. Remove bushing screws.
2. Place the screws in the threaded holes provided in the bushing flanges. Tighten the screws alternately and evenly until the bushings are free on the shaft. For ease of tightening screws make sure screw threads and thread holes in the bushing flanges are clean. If the reducer was positioned closer than the recommended minimum distance “A” as shown in Table 1, loosen the inboard bushing screws until they are clear of the bushing flange by 3mm. Locate two
(2) wedges at 180 degrees between the bushing flange and the bushing backup plate. Drive the wedges alternately and evenly until the bushing is free on the shaft.
3. Remove the outside bushing, the reducer, and then the inboard bushing.
Straight Bore Reducer Removal:
1. Loosen screws in retaining collars as applicable.
2. If both retaining collars are installed, remove the outer retaining collar. This will expose three puller holes in the output hub.
3. Install a three-jaw puller and remove reducer from shaft.
Use caution not to damage the output hub during reducer removal.
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P.O. Box 2400, Fort Smith, AR 72902-2400 U.S.A., Ph: (1) 479.646.4711, Fax (1) 479.648.5792, International Fax (1) 479.648.5895
Dodge Product Support
6040 Ponders Court, Greenville, SC 29615-4617 U.S.A., Ph: (1) 864.297.4800, Fax: (1) 864.281.2433
www.baldor.com
© Baldor Electric Company
MN16005
All Rights Reserved. Printed in USA.
5/12 Trophy 1000
*16005-0512*
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