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Q. How can I find the RPM needed to get specific GPM

(Gallons Per Minute) I want?

Rated RPM

A. Desired RPM = Desired GPM x

Rated GPM

Q. I have to run my pump at a certain RPM. How do I figure

the GPM I’ll get?

Rated GPM

A. Desired GPM = Desired RPM x

Rated RPM

Q. Is there a simple way to find the approximate horsepower

I’ll need to run the pump?

A. Electric Brake

GPM x PSI

(Standard 85%

Horsepower Required 

=

1460

Mech. Efficiency)

Q. What size motor pulley should I use?

Pump RPM

A. Pump Pulley (Outer Diameter) x

Motor/Engine RPM

Q. How do I calculate the torque for my hydraulic drive

system?

GPM x PSI

A. Torque (ft. lbs.) = 3.6

RPM

(       )

One or several of the conditions shown in the chart below may
contribute to cavitation in a system resulting in premature wear,
system downtime and unnecessary operating costs.

CONDITION

SOLUTION

Inadequate inlet

Increase line size to the inlet port or one size

line size

larger

Water hammering

Install C.A.T. Tube

liquid acceleration/

Move pump closer to liquid supply

deacceleration

Rigid Inlet Plumbing

Use flexible wire reinforced hose to absorb
pulsation and pressure spikes

Excessive Elbows in

Keep elbows to a minimum and less than 90°

Inlet Plumbing

Excessive Liquid

Use Thermo Valve in bypass line

Temperature

Do not exceed pump temperature specifications

Substitute closed loop with baffled holding tank

Adequately size tank for frequent or high
volume bypass

Pressure feed high temperature liquids

Properly ventilate cabinets and rooms

Air Leaks in Plumbing

Check all connections

Use PTFE thread tape or pipe thread sealant

Agitation in Supply

Size tank according to pump output —

Tank

Minimum 6-10 times system GPM

Baffle tank to purge air from liquid and
separate inlet from discharge

High Viscosity Liquids

Verify viscosity against pump specifications
before operation

Elevate liquid temperature enough to reduce
viscosity

Lower RPM of pump

Pressure feed pump

Increase inlet line size

Clogged Filters

Perform regular maintenance or use clean
filters to monitor build up

Use adequate mesh size for liquid and pump
specifications

Handy Formulas to Help You

(Consult

Engine Mfr.)

TYPICAL RESERVOIR TANK

RECOMMENDED 6 TO 10 TIMES SYSTEM CAPACITY

Avoid Cavitation Damage

1/4

5/16

3/8

1/2

5/8

3/4

1"

0.5

16

5

2

1

54

20

7

2

2

180

60

25

6

2

3

380

120

50

13

4

2

4

220

90

24

7

3

5

320

130

34

10

4

6

220

52

16

7

1

8

300

80

25

10

2

10

450

120

38

14

3

15

900

250

80

30

7

20

1600

400

121

50

12

25

650

200

76

19

30

250

96

24

40

410

162

42

50

600

235

62

60

370

93

*At a fixed flow rate with a given size hose, the pressure drop across a given hose length
will be directly proportional. A 50 ft. hose will exhibit one-half the pressure drop of a 100
ft. hose. Above values shown are valid at all pressure levels.

PRESSURE DROP IN PSI PER 100 FT OF HOSE

WITH TYPICAL WATER FLOW RATES

Hose Inside Diameters, Inches

Water*

Flow

Gal/Min

HOSE FRICTION LOSS

Water

GPM

1

2

3

5

8

10

15

25

40

60

80

100

Steel Pipe—Nominal Dia.

1/4 3/8 1/2 3/4

1 1

1

/

4

1

1

/

2

8.5 1.9

30 7.0 2.1

60 14 4.5 1.1

150 36

12 2.8

330 86

28 6.7 1.9

520 130

43 10 3.0

270

90 21 6.2 1.6

670 240 56

16 4.2 2.0

66

17 8.0

37

17

52

29

210 107

48

Brass Pipe—Nominal Dia.

1/4 3/8 1/2 3/4

1

1

1

/

4

1

1

/

2

6.0 1.6

20 5.6 1.8

40 11 3.6

100 28 9.0 2.2

220 62

21 5.2 1.6

320 90

30 7.8 2.4

190

62 16 5.0 1.5

470 150 40

12 3.8 1.7

39

11 5.0

23

11

40

19

61

28

Copper Tubing O.D. Type L
1/4 3/8 1/2 5/8 3/4 7/8

120 13 2.9 1.0

400 45

10 3.4 1.3

94

20 6.7 2.6

230

50 17 6.1 3.0

500 120 40

15 6.5

180 56

22

10

120

44

20

330 110

50

550 200

88

WATER LINE PRESSURE LOSS

PRESSURE DROP IN PSI PER 100 FEET

1/2

0.622

0.41

18.5

9.3

0.78

1.67

3.71

0.93

3.33

3/4

0.824

0.54

24.5

12.3

1.03

2.21

4.90

1.23

4.41

1

1.049

0.69

31.2

15.6

1.31

2.81

6.25

1.56

5.62

1

1

/

4

1.380

0.90

41.0

20.5

1.73

3.70

8.22

2.06

7.40

1

1

/

2

1.610

1.05

48.0

24.0

2.15

4.31

9.59

2.40

8.63

2

2.067

1.35

61.5

30.8

2.59

5.55

12.30

3.08

11.60

2

1

/

2

2.469

1.62

73.5

36.8

3.09

6.61

14.70

3.68

13.20

3

3.068

2.01

91.5

45.8

3.84

8.23

18.20

4.57

16.40

4

4.026

2.64

120.0

60.0

5.03

10.80

23.90

6.00

21.60

Nominal

Pipe 

Size

Inches

Inside

Diameter

Inches

RESISTANCE OF VALVES AND FITTINGS

Gate

Valve

Globe

Valve

Angle

Valve

45˚

Elbow

90˚

Elbow

180˚

Close

Ret

Tee

Thru

Run

Arriving at a total line pressure loss, consideration should then be given to
pressure loss created by valves, fittings and elevation of lines.

If a sufficient number of valves and fittings are incorporated in the system to
materially affect the total line loss, add to the total line length, the equivalent
length of line of each valve or fitting.

Tee

Thru

Branch

Equivalent Length of Standard Pipe in Feet

Bypass Line

(from regulator or unloader)

Level Sensing

Device

Bypass Line

(from regulator or

unloader)

MIN. 4"

1.5 x D (Min.)

Minimum Two Baffles

Sealed at Bottom

Minimum

Liquid

Level

FILTER

MIN. 4"

Flexible Hose
to Pump

Supply Line

(Dia of pipe)

T
X

D

Summary of Contents for 6760

Page 1: ...ead at the discharge manifold of the pump NOT AT THE GUN OR NOZZLE Use PTFE thread tape or pipe thread sealant sparingly to connect accessories or plumbing Exercise caution not to wrap tape beyond the last thread to avoid tape from becoming lodged in the pump or accessories This condition will cause a malfunction of the pump or system PRESSURE REGULATION All systems require both a primary pressure...

Page 2: ...alve and Seat with O Ring and Back up Ring and snap together securely 5 Lubricate the O D of the Valve Assembly and the I D of the valve chamber and press Valve Assembly squarely into chamber until completely seated 6 Replace Washer over top of Retainer then Coil Spring 7 Examine the O Ring on the Valve Plug and replace if cut or worn Lubricate new O Ring before installing on Valve Plug Exercise c...

Page 3: ... separate V Packing Spacer from V Packing Cylinder by inserting two screwdrivers on opposite sides of the groove formed between components and pry apart Remove one Male Adapter two V Packings and one Female Adapter from each V Packing Cylinder 5 On the models 6760 6761 6767 remove one Spacer w Coil Spring one Male Adapter two V Packings and one Female Adapter from each seal chamber 6 Place Inlet M...

Page 4: ...gued Coil Springs and replace as needed 10 Examine V Packings for frayed edges or uneven wear and replace as needed 11 Place Inlet Manifold on flat work surface with crankcase side down 12 On the model 6747 install O Ring on grooved end of V Packing Cylinder Place V Packing Cylinder with large opening facing up on work surface 13 Place Female Adapter with flat side down V side up inside each V Pac...

Page 5: ...ace if cut or worn Lubricate O Ring for ease of installation and to avoid damaging O Rings First install Gasket O Ring then Back up Ring 4 Apply a small amount of Loctite 242 to exposed threaded end and thread Plunger Retainer onto Plunger Rod Torque per chart 5 Slip Seal Retainers over Plungers Insert smaller diameter first NOTE Line up Wicks with the oil holes in the Crankcase and tabs down towa...

Page 6: ... to eliminate air bubbles and turbulence install diffusers on all return lines to the tank INLET LINE SIZE should be adequate to avoid starving the pump Line size must be a minimum of one size larger than the pump inlet fitting Avoid tees 90 degree elbows or valves in the inlet line of the pump to reduce the risk of flow restriction and cavitation The line MUST be a FLEXIBLE hose NOT a rigid pipe ...

Page 7: ...34 10 4 6 220 52 16 7 1 8 300 80 25 10 2 10 450 120 38 14 3 15 900 250 80 30 7 20 1600 400 121 50 12 25 650 200 76 19 30 250 96 24 40 410 162 42 50 600 235 62 60 370 93 At a fixed flow rate with a given size hose the pressure drop across a given hose length will be directly proportional A 50 ft hose will exhibit one half the pressure drop of a 100 ft hose Above values shown are valid at all pressu...

Page 8: ...eck precharge If low recharge or install a new dampener Foreign material trapped in inlet discharge valves Clean inlet discharge valves or install new valve kit Water leak Under the manifold Worn V Packings or Lo Pressure Seals Install new seal kit Increase frequency of service Worn adapter o rings Install new o rings Into the crankcase Humid air condensing into water inside the crankcase Install ...

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