Xylem IM190 R00 Ag-Flo User Manual

5

SAE flywheel Housing Size

1

2

3

4

5

A

20

1

⁄

8

17

5

⁄

8

16

1

⁄

8

14

1

⁄

4

12

3

⁄

8

B

20

7

⁄

8

18

3

⁄

8

16

7

⁄

8

15

13

1

⁄

8

C

No.

12

12

12

12

8

Size

7

⁄

16

-14

3

⁄

8

-16

3

⁄

8

-16

3

⁄

8

-16

3

⁄

8

-16

InSTAllATIon
• The pump may be installed horizontally, with the discharge

rotated to any position allowed by the casing bolt pattern

(13). It is recommended that the discharge be located

horizontally, above the suction.

• The casing must be supported on all pumps by a rigid

support which is anchored to the unit base or foundation.

• It is recommended that this support is bolted to the motor

adapter ring using  or more of the casing bolts (13). It is

likely that longer bolts will be required for the additional

support thickness. Use SAE grade 5 bolts, torqued as

indicated in this manual.

• For pumps with 1

5

⁄

8

" Ø shafts, it is recommended that the

pump is supported beneath the two feet cast into the motor

adapter (3). These feet must be bolted to the support.

PUmP To EnGInE ASSEmBly (SPlInE CoUPlInG)
Preparation for Assembly of Pump on Engine

• Clean face and register fit of flywheel housing and flywheel

as necessary to remove all grease, dirt, or rust (and all traces

of rust preventative) which would interfere with installation

of pump and/or prevent correct alignment. If flywheel is fit-

ted with a pilot bearing for a transmission shaft, remove and

discard. The pilot bearing is not required for installation of

the pump end, and could interfere with the pump shaft.

• Examine shaft spline closely. Use a file, if necessary, to

remove any burrs that would prevent coupling from sliding

freely onto the shaft.

• Lubricate pump shaft spline sparingly with light grease.

Don’t lubricate straight keyed shaft.

• Slide the coupling onto shaft until it is stopped against the

shaft (refer to page 5 for straight shaft installation).

• Measure the distance from the engine side of the flywheel

coupling adapter ring to the mounting face of the pump

bracket. Refer to Figure 4 below, Dimension “A”.

• Next, measure depth from face of flywheel housing on

engine, to face on flywheel against which coupling will be

bolted. Refer to Figure 4 below, Dimension “B”.

• Pump measurement must be less than engine measurement

or axial interference will result in thrust force on engine

crank shaft bearings. Simply stated, Dimension “A” must be

less than Dimension “B”.

flywHEEl CoUPlInG
• The flywheel coupling transmits power from the engine

flywheel to the pump shaft. The maximum power that a

coupling can safely handle is shown by a rating number, “R”,

which is listed in the coupling dimensions tables.

• When selecting a flywheel coupling for a pump and engine,

first determine the power rating that the pump will demand.

On the pump performance curve, find the RPM and BHP

values required to produce the spplication head-capacity

point.

• Divide the BHP by the RPM, then multiply the result times

100. The result will be the demand number for the pump.

For example, a 0BFSAE1AO can deliver 800 GPM at 70

feet Total Head when running at 1800 RPM. The power

required by the pump will be 75 BHP. The demand number

will be: (75 / 1800) x 100 = 4.16

• Next, select a coupling that can safely transmit the power,

and which will fit the flywheel dimensions. For a coupling to

be suitable, it must have an “R” rating number GREATER

THAN the pump demand number. In the above example,

the minimum coupling “R” number whould be 5.

• Torsional compatibility of the engine, pump, and coupling is

the responsibility of the assembler. Goulds Pumps will supply

data for the pump and coupling for use by the assembler for

a torsional analysis.

NOTE: If the flywheel is fitted with a pilot bearing pressed

into a bore at the center, remove it to avoid interference with

the pump shaft.

flywheel

Housing

Dimensions

Figure 3

Table 1

Figure 4

Figure 5