Dismantling & assembly instructions, Safety rules for a screwdriver, Reassembly – Universal Air Tools UT5964 User Manual

Operating

Select the correct screwdriver bit or fastener driver to suit

the screw or fastener to be tightened or loosened. Slide

back the sleeve (4) and insert appropriate drive bit.

Model UT5964 has an adjustable clutch so that the torque

applied to the fastener can be adjusted to give the required

tightness within the torque range of the tool. To set the tool

to give a particular torque output, first remove the clutch

housing - left hand thread and pull out the clutch assembly

being careful not to lose guide pin and spring (23) and (24).

Hold the clutch carrier or insert a 1/4 hex Allen key in cam

spindle (14) and with a spanner rotate adjustment nut (7)

until it just touches sleeve bearing (6). This is the clutch set

at its lowest output level. Reassemble the tool, try it on the

joint to be fastened. If more torque is required to place the

fastener repeat the process but rotate the adjustment nut

(7) until there is a gap between it and the sleeve bearing

proceeding at approximately one turn of the nut at a time

until the correct tightness is achieved. If too high a setting

is reached rotate the adjustment nut back a part of a turn

at a time.

If the adjustment nut (7) is rotated too far along the cam

spindle (14) it is possible that the clutch will not slip and a

reaction torque against the hands will be felt. In this situation,

if the fastener is not sufficiently tightened or cannot be

loosened then the tool in adjustable clutch mode has

insufficient capacity. Select a more powerful tool. The person

setting up the tool must be aware of this torque reaction at

high setting levels of the clutch and that the tool will try to

turn against the hand. All that is required is a firm grip.

The tool, when the stall torque position has been reached,

can still be used to set or loosen fasteners, provided the

operator is aware of the need to resist the torque reaction

of the tool. Further adjustment of adjusting nut (7) at this

point will not increase the output of the tool. The only thing

that will affect the output is a change in the air supply

pressure. The output can be increased up to the use of the

maximum allowed supply pressure and decreased with a

reduction in supply pressure until the tool fails to operate.

It must also be understood that even if the clutch is set to

slip it may not do so if the supply air pressure falls below

the pressure at which the clutch was set. It is therefore

strongly recommended that a pressure control valve is used.

Information as to suitable equipment can be obtained from

your supplier.

Dismantling & Assembly Instructions

Disconnect tool from the air supply.

Grip the tool in a vice fitted with soft jaws on housing (36)

and unscrew (left hand thread) clutch housing (5) from internal

gear (22). Pull out clutch assembly being careful not to lose

spring guide (23) and spring (24). Grip the clutch assembly

and with a needle pointed tool prise out retaining ring (1)

and remove washer (2) spring (3) and ball retainer (4) being

careful not to lose screwdriver bit retaining ball (13). Again

with a needle pointed tool remove second retaining ring (1)

and pull off sleeve bearing (6). Unscrew adjusting nut (7)

and pull off washer (8), clutch spring (9) and washer (10).

Remove from vice and tap the front end to remove 4 off

balls (11). Remove retaining ring (15) and separate cam

spindle (14) from clutch carrier (12). Remove a third retaining

ring (1) and pull off drive dog (16).

Unscrew internal gear (22) from housing (36). Grip the internal

gear (22) and push out the internal gear assembly and

separate bearing (21), 3 off planet gears (26) and gear carrier

(25) with 3 off pins. Do not remove the 3 off pins. Drive

out pin (37). Drive out pin and unscrew set screw to be

able to pull off trigger (47) and remove valve spring (46).

Grip throttle valve (40) and pull out the complete valve

assembly. Separate reverse valve (43) with ball (44), O-ring

(42), reverse valve bushing (41), O-ring (39), throttle valve

(40) and O-ring (38). O-ring (39) may be taken off of throttle

valve (40). Unscrew air inlet (51) and remove two screws

(50) and take out exhaust diffuser (49). Carefully grip the

splined end of the rotor (29) and pull out the complete motor

assembly from housing (36). Remove pin (32). Remove

retaining ring (28P) and grip bearing case (28) and with a

non metallic or soft metal (lead or aluminium) hammer tap

the splined end of rotor (29) to drive it through bearing (27)

and bearing case (28). Remove cylinder (31) and 4 off rotor

blades (30) from rotor (29). Support the cylinder side face

of end plate (33) and tap the non splined end of the rotor

(29) to separate it from end plate (33) and bearing (34). Tap

out bearing (27) from bearing case (28).

Reassembly

Clean all components and examine for wear. Look in

particular for cuts on O-rings and wear on rotor blades and

clutch parts. Replace parts only with parts obtained from the

manufacturer or an authorised distributor. Coat all parts with

a pneumatic tool lubricating oil and grease all bearings, gears

and clutch parts with a molybdenum or lithium based general

purpose grease and reassemble in the reverse order. Before

reassembling make sure that the faces of end plates (28)

and (33) that abut cylinder (31) are flat and free from burrs

and surface marking. If necessary lap on a flat very fine

grade of abrasive paper. When refitting the complete motor

assembly in the housing (36) first make sure the assembly

is clamped tightly together and the rotor (29) spins freely.

Slide the assembly with pin (32) into the housing (36)

ensuring that the motor locating pin (32) locates in the hole

in the bottom of the main bore of housing (36) situated

between the two main ports. Reassemble in the reverse

order.

Reset the clutch and/or the air pressure as required - see

Section Operating.

trigger on the tool. Disconnect the air line and pour into the

intake bushing a teaspoonful (5ml) of a suitable pneumatic

motor lubricating oil preferably incorporating a rust inhibitor.

Reconnect tool to air supply and run tool slowly for a few

seconds to allow air to circulate the oil. If tool is used

frequently lubricate on daily basis and if tool starts to slow

or lose power.

It is recommended that the air pressure at the tool whilst

the tool is running is 90 p.s.i./6.3 bar. The tool can run at

lower and higher pressures with the maximum permitted

working air pressure of 100 p.s.i./7.0 bar.

Page No 2

Safety Rules For A Screwdriver

1) Read all the instructions before using this tool. All operators

must be fully trained in its use and aware of these safety

rules.

2) Do not exceed the maximum working air pressure.

3) Use personal safety equipment.

4) Use only compressed air at the recommended conditions.

5) If the tool appears to malfunction remove from use

immediately and arrange for service and repair.

6) If the tool is used with a balancer or other support device

ensure that it is fixed securely.

7) Always keep hands away from the working attachment

fitted to the tool.

8) The tool is not electrically insulated. Never use the tool

if there is any chance of it coming into contact with live

electricity.

9) Always when using the tool adopt a firm footing and/or

position and grip the tool firmly to be able to counteract

any forces or reaction forces that may be generated whilst