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Armstrong Design Envelope 4300 Installations- und Betriebsanleitung

2.2.6

Where required, additional floor support may be used as shown

in Fig. 2.6. Note that the pump should not be rigidly attached

to the column. Leave a small gap between pump and column or

install a 'waffle' isolation pad under the pump. It is critical that

piping be installed in such a manner that the pump does not

become a pipe support.

2.2.7

Fig. 2.7 illustrates stanchion plates at the pump inlet and outlet

ports that may be supplied for installation convenience.

Isolation pads must be used under the legs and monitored as

pipe hangers are adjusted to ensure the pump flanges are not

supporting the piping. Bolting to the floor or housekeeping pad

is not recommended. If the stanchions are bolted down the

bolts must be isolated from the stanchion or an inertia base

and flexible pipe connectors should be used.

2.2.8

Fig. 2.8 illustrates installations with stanchion plates for seismi-

cally active regions. Seismically rated isolation pads or snub-

bers with bolts isolated from the stanchion plates are installed

to restrain the pump during a seismic event. Pipe hangers carry

the weight of the equipment as seismic components are

designed only to restrain the equipment during a seismic event.

2.2.9

Close coupled in-line units (Series 4360 & 4380) up to 15 hp /

11 kW may be installed with the shaft horizontal. (Fig. 2.9) For

horizontal mounting of large units or Series 4300 Split-Coupled

style consult the factory. (Fig. 2.9)

2.2.10

Many Vertical In-Line pumps are piped successfully into

grooved piping systems. In-line pumps are supported well by

grooved piping however flange adapter locking devices or a

welded flange at the pump should be used to prevent the possi-

bility of pipe mounted pumps rotating in the piping. Armstrong

offers grooved suction guides with cast-in outlet flanges and

triple function Flo-Trex valves with inherent locking devices to

prevent this possibility. (Fig. 2.10)

2.2.11

Do not support the unit by the motor eye bolts (Fig. 2.11) or by

any other part of the motor.

2.2.12

Connecting the pump to a permanent rigid base (Fig. 2.12). is

not recommended unless isolated from the piping by flexible

Commercial pumps Series 4300, 4360 and 4380

Vertical In–Line pump

connectors and the base isolated from the building structure

on an inertia base. (Fig. 2.12 is generally acceptable when using

plastic piping).

important:

All Series 4300 pumps contain a tapped hole in the motor

bracket above the discharge flange (see Fig. 2.13) for draining

the well. Pipe this drain hole to a floor drain to avoid overflow

of the cavity caused by collecting chilled water condensate or

from seal failure.

2 .3 pump piping – gener al

Never connect a pump to piping, unless extra care is taken to

measure and align the piping flanges well. Always start piping

from pump.

Use as few bends as possible and preferably long

radius elbows.

Do not use flexible connectors on the suction or discharge of a

Vertical In-Line pump, unless the pump is rigidly mounted to

a foundation.

Ensure piping exerts no strain on pump as this could distort

the casing causing breakage or early failure due to pump

misalignment.

All conecting pipe flanges must be square to the pipework and

parallel to the pump flanges.

Suction and discharge pipes may be increased or decreased at

pump nozzle to suit pump capacity and particular conditions of

installation. Use eccentric reducers on suction connection with

flat side uppermost.

Layout the suction line with a continual rise towards the pump

without high points, thus eliminating possibility of air pockets

that may prevent the pump from operating effectively.

A strainer of three or four times the area of the suction pipe,

installed in the suction line, will prevent the entrance of foreign

materials into the pump. C/af" (5 mm) diameter perforations in

the strainer is typical.

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