Flowserve MARK 3 GROUP 4 User Manual

MARK 3 GROUP 4 USER INSTRUCTIONS ENGLISH 71569286 08-12

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required and repeat the procedure until the angular

alignment is within 0.0005 mm (T.I.R.) per mm

(0.0005 in. per in.) of maximum hub diameter.

Repeat the checks on parallel and angular alignment,

ensuring the mounting bolts are secure, until the unit

is properly aligned. Note that correction in one

direction may affect the alignment in another

direction. Re-check the gap between the coupling

hubs.

If any difficulty is encountered in achieving the

recommended alignment tolerances, the run-out of

the pump and driver shafts and each coupling hub

diameter and face should be checked. Occasionally,

due to practical and unavoidable manufacturing

tolerance build-up associate with the pump, coupling

and driver, it may be necessary to match up the two

coupling hubs in the most advantageous relative

angular position in order to achieve an acceptable

alignment.

Do not install the coupling spacer or sleeve until

grouting is complete and cured and the alignment is

re-checked.

When the electric motor has sleeve bearings it is

necessary to ensure that the motor is aligned to run

on its magnetic centreline. A button (screwed into

one of the shaft ends) is normally fitted between the

motor and pump shaft ends to fix the axial position.

If the motor does not run in its

magnetic centre the resultant additional axial force

may overload the pump thrust bearing.

4.5.5

Check for soft foot

This is a check to ensure that there is no undue

stress on the driver holding down bolts; due to non-

level baseplate or twisting. To check, remove all

shims and clean surfaces and tighten down driver to

the baseplate. Set a dial indicator as shown in

sketch and loosen off the holding down bolt while

noting any deflection reading on the dial test Indicator

- a maximum of 0.05 mm (0.002 in.) is considered

acceptable but any more will have to be corrected by

adding shims. For example, if the dial test indicator

shows the foot lifting 0.15 mm (0.006 in.) then this is

the thickness of shim to be placed under that foot.

Tighten down and repeat the same procedure on all

other feet until all are within tolerance.

Complete piping as below and see sections

4.8,

Final shaft alignment check

up to and including

section 5,

Commissioning, start-up, operation and

shutdown

before connecting driver and checking

actual rotation.

4.6 Grouting

The purpose of grouting is to provide rigid support to

the pump and driver by increasing the structural

rigidity of the baseplate and making it an integral

mass with the foundation. Grouting should only be

completed after baseplate has been levelled (4.4)

and initial pump alignment (4.5).

Clean the roughed foundation surface and build a

wooden form around the baseplate. For initial

grouting forms should be placed to isolate shims and

levelling nuts. The foundation surface should be

thoroughly saturated with water before grouting. A

typical mixture for grouting-in a pump base is

composed of one part pure Portland cement and two

parts of clean building sand with sufficient water to

provide the proper consistency. The grout should

flow freely but not be so wet as to cause the sand

and cement to separate.

Thoroughly puddle the grout while pouring to

eliminate air pockets and low spots. Pour sufficient

grouting to ensure that the bottom surface of the

baseplate is completely submerged. Do not fill

isolated areas around the shims or levelling nuts.

Once the grout has set sufficiently, remove the

wooden forms and finish off the sides and top as

desired. At the same time, roughen the grout surface

inside the baseplate. Cover with wet burlap and

allow the grout to cure for at least 40 hours.

After grouting has cured, shims and levelling nuts

should be removed or backed off. Tighten down

baseplate to the new grout to put bolts in tension and

ensure rigidity of structure. Install jam nuts and cut

the bolts to the desired length. Finish grouting

isolated areas. Fill the baseplate including pump and

driver support pedestals with concrete. Trowel and

slope the surface to give suitable drainage.