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www.fennerdrives.com

For technical assistance,  

please call +1-717-665-2421

B-LOC

® Keyless Bushings provide a high capacity, zero-backlash shaft/hub or 

coupling connection by means of a mechanical interference fit. Please follow 

these INSTALLATION AND REMOVAL INSTRUCTIONS carefully to ensure 

proper performance of this 

B-LOC

® unit.

 

WARNING 

When installing or removing 

B-LOC

®

 products, always adhere to the following 

safety standards:

1.  Be  sure  that  the  system  is  de-energized  using  proper  lockout/tagout 

procedures.

2.  Wear proper personal protective equipment.

INSTALLATION 

(Refer to Figure 1)

B-LOC

® Keyless Bushings are supplied lightly oiled and ready for installation. 

When reinstalling a used unit, make sure that all slits are aligned and that front 

and rear clamp collars are not reversed. The frictional torque capacity of these 

devices is based on a coefficient of friction of 0.12 for lightly oiled screw, taper, 

shaft and bore contact areas.

Therefore, it is important not to use Molybdenum Disulfide (e.g., Molykote, 

Never-Seeze or similar lubricants) in any Keyless Bushing installation.

1.  Make sure that locking screw, taper, shaft and bore contact areas are clean 

and lightly oiled and that all collar slits are aligned.

2.  Loosen all locking screws by a minimum of four (4) turns and transfer at least 

three (3) screws to equally spaced push-off threads in clamp collar Item 1 

to disengage this part from center collar Item 3.  To disengage collar Item 

2 from taper interface, lightly tap heads of three (3) equally spaced locking 

screws that have been engaged at least four (4) turns into collar Item 2 (see 

Figure 1).

3.  Completed  assembly  can  now 

be placed on shaft and inserted 

into hub bore by pushing against 

face of collar Item 1 and heads of 

locking screws threaded into collar 

item 2. This ensures collar Item 2 

is not engaged at tapers during 

this phase.

4.  After  placement  of  Keyless 

Bushing, relocate locking screws 

used for separation of collars.

5.  Hand  tighten  connection  and 

confirm  that  clamp  collar  Item  1 

is parallel with face of part to be 

attached to shaft and/or with the 

front facing edge of center collar Item 3.

6.  Use torque wrench and set it approximately 5% higher than specified tightening 

torque  (Ma). Tighten  screws  in  either  a  clockwise  or  counterclockwise 

sequence (it is not necessary to tighten in a diametrically opposite pattern), 

using only 1/4 (i.e., 90°) turns for several passes until 1/4 turns can no longer 

be achieved.

7.  Continue to apply overtorque for 1 to 2 more passes. This is required to 

compensate for a system-related relaxation of locking screws since tightening 

of a given screw will always relax adjacent screws. Without overtorquing, 

an infinite number of passes would be needed to reach specified tightening 

torque.

8.  Reset torque wrench to specified torque (Ma) and check all locking screws. 

No screw should turn at this point, otherwise repeat Steps 7 and 8. 

NOTES:

  1. It is not necessary to re-check tightening torque after equipment has 

been in operation.

 

2. In installations subjected to extreme corrosion, the slits in clamp 

collars Item 1 and Item 2, as well as in center collars, should be sealed 

with a suitable caulking compound or equivalent.  Likewise, push-off 

threads should also be protected from corrosion.

INSTALLATION OF B-LOC® KEYLESS BUSHING  

OVER SHAFT KEYWAYS

The Keyless Bushing should be positioned so that slits in Keyless Bushing 

collars that contact the shaft are located approximately opposite the keyway. 

In addition, a locking screw should be centered directly over the keyway.
When tightening locking screws, it is important to follow the installation 

procedure outlined above, which specifies equal 1/4 turns of each locking 

screw. Failure to follow these instructions could result in excessive tightening 

of the screw over the keyway, possibly causing permanent deformation of 

the Locking Assembly collars. 

REMOVAL  

(Refer to Figures 2 and 3)

Prior to initiating the following removal procedure, check to 

ensure that no torque or thrust loads are acting on the Keyless 

Bushing, shaft or any mounted components.

IMPORTANT!

    Make  sure  ends  of  locking  screws  used  for  removal 

are ground flat and are slightly chamfered to eliminate 

damage to screw and collar threads during push-off.

1.  Check to ensure that axial movement of clamp collars — necessary for 

release of connection — is not restricted. Likewise, ensure that push-off 

threads are in 

good condition.

2.  R e m o v e   a l l 

locking screws. 

T r a n s f e r 

r e q u i r e d 

n u m b e r   o f 

s c r e w s   i n t o 

a l l   p u s h - o ff 

t h r e a d s   o f 

clamp collar 

Item 1 (see 

Figure 2).

3.  Release  collar 

Item 1 by progressively tightening all push-off screws. Typically, the 

push-off screws appear to be completely tight after just one pass of 

tightening without any noticeable separation of clamp collars. Although 

it  seems  that  the  screws  cannot  be  tightened  further,  several  more 

rounds of torquing in either a clockwise or counterclockwise sequence 

will increase the push-off force in the system and ultimately release part 

of the front collar. Afterwards, only the screws which are still tight should 

be tightened further until complete dismounting is achieved. Remove 

collar Item 1 and cover 

plate Item 4 (cover plate 

Item  4  is  supplied  with 

multiple smaller threads 

at the collar face for this 

purpose).

4.  Transfer  locking  screws 

used for dismounting of 

collar Item 1 into all push-

off threads in center collar 

Item  3  (see  Figure  3). 

Release  collar  Item  2 

by repeating procedures 

outlined in Step 3.

 ©2012 Fenner Drives   B-PR-015   9/17/2012

INSTALLATION AND REMOVAL INSTRUCTIONS 

FOR B-LOC

®

 KEYLESS BUSHING SERIES B113

B113

LOCKING SCREW SIZES AND  

SPECIFIED TIGHTENING TORQUE M

a

B113 KEYLESS BUSHINGS

Metric Series

Tightening 

Torque

Ma

(ft lb)

Screw Size

Din 912 

Grade 12.9

Hex 

Key 

Size 

(mm)

180 X 285 to 220 X 325

675

M22 x 180

17

240 X 355 to 300 X 425

870

M24 x 180

19

320 X 455 to 560 X 695

1300

M27 x 220

19

Summary of Contents for B-LOC B103

Page 1: ...ons Engineering Group ae fennerdrives com B103 2 B PR 014 B106 2 B PR 014 B109 3 B PR 018 B112 4 B PR 012 B113 5 B PR 015 B115 6 B PR 013 B117 7 B PR 022 B400 8 B PR 016 B800 9 B PR 017 Shrink Discs 1...

Page 2: ...t has been in operation 2 The torque capacity of these units can be increased by approximately 25 by thoroughly cleaning the shaft and Keyless Bushing bore of any lubricant In applications subject to...

Page 3: ...n at this point otherwise repeat Steps 6 and 7 NOTE 1 It is not necessary to re check tightening torque after equipment has been in operation 2 The torque capacity of these units can be increased by a...

Page 4: ...aft hub or coupling connection by means of a mechanical interference fit Please follow these INSTALLATION AND REMOVAL INSTRUCTIONS carefully to ensure proper performance of this B LOC unit WARNING Whe...

Page 5: ...rn at this point otherwise repeat Steps 7 and 8 NOTES 1 It is not necessary to re check tightening torque after equipment has been in operation 2 In installations subjected to extreme corrosion the sl...

Page 6: ...d torque Ma and check all locking screws No screw should turn at this point otherwise repeat Steps 7 and 8 NOTES 1 It is not necessary to re check tightening torque after equipment has been in operati...

Page 7: ...ler screws 8 Reset torque wrench to specified torque Ma and check all large locking screws and then reset torque wrench Ma and check all small locking screws No screw should turn at this point otherwi...

Page 8: ...shaft are located approximately opposite the keyway In addition a locking screw should be centered directly over the keyway When tightening locking screws it is important to follow the installation p...

Page 9: ...t least three 3 screws into push off threads in order to keep Parts 1 and 2 separated during assembly see Figure 2 3 After inserting Keyless Bushing into hub bore relocate locking screws used for sepa...

Page 10: ...turns even if initially some locking screws require a very low tightening torque to achieve 1 4 turns for several passes until 1 4 turns can no longer be achieved 5 Continue to apply overtorque for 1...

Page 11: ...set it approximately 5 higher than specified tightening torque Ma Tighten locking screws in either a clockwise or counterclockwise sequence using approx 1 4 i e 90 turns even if initially some locking...

Page 12: ...respectively Hand tighten remaining locking screws 5 Use torque wrench and set it approximately 5 higher than specified tightening torque Ma Tighten locking screws in either a clockwise or counterclo...

Page 13: ...out over torquing an infinite number of passes would be needed to reach specified tightening torque 6 Reset torque wrench to specified torque Ma and check all locking screws No screw should turn at th...

Page 14: ...0 Reset torque wrench to specified torque Ma and check all locking screws No screw should turn at this point Otherwise repeat Steps 9 and 10 REMOVAL Refer to Figure 2 Prior to initiating the following...

Page 15: ...components Loosen all locking screws in several stages by using approximately 1 2 turns following either a clockwise or counterclockwise sequence until the WK Rigid Coupling can be moved on the shafts...

Page 16: ...respectively Hand tighten remaining locking screws 5 Use torque wrench and set it approximately 5 higher than specified tightening torque Ma Tighten locking screws in either a clockwise or counterclo...

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