Pumptec ELECTRIC SPRAYER 12V User Manual

10

Version 110112

Pumptec Operating Instructions and Parts Manual

12V ELECTRIC SPRAYER

iNLEt coNditioN chEckLiSt

Inadequate inlet conditions can cause serious malfunctions in

the best designed pump. Surprisingly, the simplest of things

can cause the most severe problems or go unnoticed to the

unfamiliar or untrained eye. REVIEW THIS CHECKlIST BEFORE

OPERATIOn OF AnY SYSTEM. Remember, no two systems are

alike so there can be no OnE best way to setup a system. All

factors must be carefully considered.

iNLEt SUPPLy

should exceed the maximum flow being

delivered by the pump to assure proper performance.

• Open inlet shut-off valve and turn on water supply to avoid

starving the pump. DO nOT RUn PUMP DRY.

• Avoid closed loop systems especially with high temperature,

ultra-high pressure or large flows. Conditions vary with

regulating/unloader valve.

• When using an inlet supply reservoir, size it to provide

adequate liquid to accommodate the maximum output of the

pump, generally a minimum of 6-10 times the gPM (however,

a combination of system factors can change this requirement).

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

cavitations.

• The line MUST be a FlEXIBlE hose, nOT a rigid pipe, and

reinforced on SUCTIOn systems to avoid collapsing.

• The simpler the inlet plumbing the less the potential for

problems. Keep the length to a minimum, the number of

elbows and joints to a minimum (ideally no elbows) and the

inlet accessories to a minimum.

• Use pipe sealant to assure airtight, positive sealing pipe joints.

iNLEt PrESSUrE

should fall within the specifications of the

pump.

• High RPM, high temperatures, low vapor pressures or high

viscosity may increase acceleration loss of liquids.

• Optimum pump performance is obtained with +20 PSI (1.4

BAR) inlet pressure. With adequate inlet plumbing, most

pumps will perform with flooded suction.

• After prolonged storage, pump should be purged of air to

facilitate priming. Disconnect the discharge port to allow liquid

to pass through pump and measure flow.

USiNG chEMicaLS

Chemicals can be mixed into the fluid and it is necessary to

understand whether these chemicals will damage the pump or

other system components. Another way to put chemicals into

the fluid is with a downstream injector.
An injector works as a result of the difference of pressure

between the inlet side of injector and discharge side. In most

cases, the pressure on the discharge side cannot exceed 1/2

of the inlet pressure. For example, 1000 PSI into an injector

should allow up to 500-600 PSI spray pressure on discharge

side. There are dual-function nozzles that permit high pressure,

chemical free rinse and low pressure, chemical spray. These

are convenient for the operator and will not harm a properly

designed system.
The advantages of an injector are:
Fewer items touching chemical, the chemical injection rate can

be controlled, and applying chemical at lower pressure increases

chemical use efficiency.

hEatiNG FLUid

The pumps may sometimes be used with downstream heaters

and precautions need to be taken to protect the system and

persons from harm. Refer to the skilled staff at the equipment

manufacturer for guidance and proper system care. Please

be aware that heated water expands and additional pressure

release safety devices may be required.

SyStEM dESiGN

A pump is the heart of every system and proper selection is

critical to equipment function and durability. If a pumping set

with excess flow is chosen, then energy and fluid is wasted.

If excess pressure results, then equipment effectiveness can

decrease and so can pump life.

tyPicaL aPPLicatioNS aNd thEir

PerforMANce coNSIderAtIoNS

PRESSURE ClEAnIng

The optimal combination of PSI and gPM for cleaning is a ratio

of 1 gPM for every 300-400 PSI. This combination maintains

sufficient droplet size for cleaning force and distance. If the flow

is increased without an increase in pressure, the cleaning impact

does not increase with the increased use of fluid. If pressure

increases, and flow does not, then the water droplet size reduces

and has less impact force, requiring closer cleaning distances and

increased risk of surface damage.
lInE lOSS
When choosing a pump for spraying, pressure loss in the hose

must be considered. The pressure is greatest at pump and

decreases over the length of the hose. Typically, these systems

utilize very long hoses, 200-300 ft. is common, and requires

a certain minimum amount of performance to move the flow