background image

Installation

Ground

Ground

Ground The

The

The System

System

System

The equipment must be grounded to reduce the
risk of static sparking. Static sparking can cause
fumes to ignite or explode. Grounding provides an
escape wire for the electrical current.

• Always

Always

Always ground the entire fluid system as
described below.

• Polypropylene and PVDF pumps are not

not

not

conductive and are not for use with flammable
fluids.

• Follow your local fire codes.

Before operating the pump, ground the system as
explained below.

• Pump:

Pump:

Pump: Always

Always

Always ground the entire fluid system by

making sure the fluid has an electrical path to a
true earth ground.

• Air

Air

Air and

and

and fluid

fluid

fluid hoses:

hoses:

hoses: Use only grounded hoses

with a maximum of 500 ft (150 m) combined hose
length to ensure grounding continuity.

• Air

Air

Air compressor:

compressor:

compressor: Follow manufacturer’s

recommendations.

• Fluid

Fluid

Fluid supply

supply

supply container:

container:

container: Follow local code.

• Solvent

Solvent

Solvent pails

pails

pails used

used

used when

when

when flushing:

flushing:

flushing: Follow local

code. Use only conductive metal pails, placed
on a grounded surface. Do not place the pail
on a nonconductive surface, such as paper or
cardboard, which interrupts grounding continuity.

Check your system electrical continuity after the
initial installation, and then set up a regular schedule
for checking continuity to be sure proper grounding
is maintained.

Air

Air

Air Lines

Lines

Lines

1.

Install an air filter/regulator assembly (C). The
regulator controls the fluid pressure. The fluid
stall pressure will be the same as the setting of
the air regulator. The filter removes harmful dirt
and moisture from the compressed air supply.

2.

Locate a bleed-type master air valve (B) close to
the pump and use it to relieve trapped air. Be
sure the valve is easily accessible from the pump
and located downstream from the regulator.

Trapped air can cause the pump to cycle
unexpectedly, which could result in serious
injury from splashing.

3.

Locate another master air valve (D) upstream
from all air line accessories and use it to isolate
them during cleaning and repair.

4.

Install a grounded, flexible air hose (A) between
the accessories and the 1/2 npt(f) pump air inlet.

10

3A2888C

Tel:  866-777-6060 
Fax: 866-777-6383

Springer Pumps, LLC

Website: www.springerpumps.com 

Int'l: +001 267 404 2910

Summary of Contents for Husky 15120

Page 1: ...Not Not Not for for for use use use in in in European European European explosive explosive explosive atmosphere atmosphere atmosphere locations locations locations Important Important Important Safet...

Page 2: ...12 Flange Connections 13 Operation 14 Pressure Relief Procedure 14 Tighten Fasteners 14 Flush the Pump Before First Use 14 Start and Adjust the Pump 14 Pump Shutdown 14 Maintenance 15 Maintenance Sch...

Page 3: ...es Hold gun firmly to side of grounded pail when triggering into pail Do not use pail liners unless they are antistatic or conductive Stop Stop Stop operation operation operation immediately immediate...

Page 4: ...r the environment in which you are using it Use equipment only for its intended purpose Call your distributor for information Route hoses and cables away from traffic areas sharp edges moving parts an...

Page 5: ...ZARD HAZARD Equipment surfaces and fluid that s heated can become very hot during operation To avoid severe burns Do not touch hot fluid or equipment PERSONAL PERSONAL PERSONAL PROTECTIVE PROTECTIVE P...

Page 6: ...r Distributor Distributor Distributor Note Note Note 1 To find part numbers for new pumps or kits use the Online Online Online Husky Husky Husky Selector Selector Selector Tool Tool Tool 2 To find par...

Page 7: ...Material Material Material For For For Use Use Use With With With Fluid Fluid Fluid Covers Covers Covers and and and Manifolds Manifolds Manifolds 15120 15120 15120 P P P Polypropy lene P P P Pneumati...

Page 8: ...hat fittings add friction length to the piping Reduce the number of fittings to reduce the friction length c Increase the size of the suction piping NOTE NOTE NOTE Be sure the inlet fluid pressure doe...

Page 9: ...quired for your pump installation K Air outlet port and muffler C Air filter regulator assembly L Fluid inlet port D Master air valve to isolate the filter regulator for service M Fluid outlet port E...

Page 10: ...shing Follow local code Use only conductive metal pails placed on a grounded surface Do not place the pail on a nonconductive surface such as paper or cardboard which interrupts grounding continuity C...

Page 11: ...the muffler to the other end of the hose The minimum size for the air exhaust hose is 1 in 26 mm ID If a hose longer than 15 ft 4 57 m is required use a larger diameter hose Avoid sharp bends or kinks...

Page 12: ...a 0 21 0 34 bar should be adequate for most materials 3 For maximum suction lift wet and dry see Technical Data page 22 For best results always install the pump as close as possible to the material so...

Page 13: ...s Be sure to lubricate the threads of the bolts and torque to 10 15 ft lb 14 20 N m Follow the bolt tightening sequence and do do do not not not over torque over torque over torque KEY KEY KEY L 1 5 i...

Page 14: ...ounded See Ground The System page 10 2 Check fittings to be sure they are tight Use a compatible liquid thread sealant on male threads Tighten fluid inlet and outlet fittings securely 3 Place the suct...

Page 15: ...steners Tighten or retorque as necessary Although pump use varies a general guideline is to retorque fasteners every two months See Torque Instructions page 16 Flushing Flushing Flushing and and and S...

Page 16: ...king in a crisscross pattern to specified torque 3 Repeat for manifolds Fluid Fluid Fluid cover cover cover and and and manifold manifold manifold fasteners fasteners fasteners 190 to 220 in lb 21 to...

Page 17: ...i 0 48 MPa 4 8 bar D D D 40 psi 0 28 MPa 2 8 bar Air Air Air Consumption Consumption Consumption Approximate Approximate Approximate Cycles Cycles Cycles per per per Minute Minute Minute How How How t...

Page 18: ...si 0 28 MPa 2 8 bar Air Air Air Consumption Consumption Consumption Approximate Approximate Approximate Cycles Cycles Cycles per per per Minute Minute Minute How How How to to to Read Read Read the th...

Page 19: ...bar Air Air Air Consumption Consumption Consumption Approximate Approximate Approximate Cycles Cycles Cycles per per per Minute Minute Minute How How How to to to Read Read Read the the the Charts Ch...

Page 20: ...ylene or or or PVDF PVDF PVDF Pumps Pumps Pumps Ref Ref Ref Inches Inches Inches Centimeters Centimeters Centimeters A A A 20 6 52 3 B B B 23 8 60 4 C C C 26 8 68 1 D D D 3 2 8 1 E E E 9 9 25 1 F F F...

Page 21: ...Pumps Pumps Pumps Ref Ref Ref Inches Inches Inches Centimeters Centimeters Centimeters A A A 20 6 52 3 B B B 23 8 60 4 C C C 26 8 68 1 D D D 3 2 8 1 E E E 9 9 25 1 F F F 21 0 53 3 Ref Ref Ref Inches I...

Page 22: ...0 gpm 1 2 m3 min at 0 48 MPa 4 8 bar 227 lpm Maximum Air Consumption 85 scfm 2 4 m3 min Noise Noise Noise dBa dBa dBa Sound power measured per ISO 9614 2 Sound pressure was tested 3 28 ft 1 m from equ...

Page 23: ...e or or or PVDF PVDF PVDF Non wetted external parts stainless steel polypropylene Fluid Fluid Fluid Temperature Temperature Temperature Range Range Range US US US Metric Metric Metric Diaphragm Ball S...

Page 24: ...AND AND AND DISCLAIMS DISCLAIMS DISCLAIMS ALL ALL ALL IMPLIED IMPLIED IMPLIED WARRANTIES WARRANTIES WARRANTIES OF OF OF MERCHANTABILITY MERCHANTABILITY MERCHANTABILITY AND AND AND FITNESS FITNESS FIT...

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