Buffer Rotation Motor Retrofit Kit Installation Instructions - Envoy/MAX

  • Updated

These instructions will support the installation of Brunswick Part Number 14-860593-000 which replaces 14-100744-000 as the service Buffer Rotation Motor for Envoy and early MAX lane machines. This new kit includes an adapter plate for those machines 

14-860593-000 Kit Contents:

QTY

Part Number

Item Description

4

11-051743-001

HEX NUT - M6, SELF LOCKING

4

11-052956-001

SCREW - M6 X 1.0 X 14MM LG., SOCKET FLAT HEAD

1

14-101593-051

ADAPTER PLATE - BUFFER ROTATION MOTOR

1

14-100744-000

MOTOR - BUFFER ROTATION

 

Installation Steps: 

  1. Disconnect hood shock from 7-pin side of machine and remove lane machine battery: 

    2. Remove frame support and conditioner tank. NOTE - only remove bolts from conditioner tank, it is not necessary to remove oil from the tank or the tubing. 

    3. Remove vent hose, disconnect vent, and disconnect both vent and buffer up/down electrical connectors.

    4. Remove conditioner pump mount/assembly. NOTE - you should not have to disconnect the tubing. Simply rotate assembly out of the way, temporarily. 

    5. Remove buffer up/down motor, disconnect linkage. NOTE - the link attachment to the bolt is threaded. Remove the jam nut from the end of the screw, then unthread the screw from the link. 

    6. Disconnect & remove old buffer rotation motor, secured by 4 bolts on lower frame of machine. 

    7. Install new adaptor plate and transfer the drive pulley from the old motor to the new motor. NOTE - take special note of the pully gap distance on older motor. Secure to new motor with the same gap.  

    8. Position the new rotation motor and belt, but DO NOT tighten down hardware yet. Install the up/down motor and linkage. 

    9. Secure the motor retaining nuts. Ensuring it's straight, now tighten down all fasteners. Check the belt tension and tighten remaining hardware. 

    10. Continue to re-install all parts in the reverse order, beginning at Step 4. Test machine for function and return to operation. 

     

     

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