Warning – SANDPIPER RS20 Metallic User Manual

rs30mdl1sm_haz duty-rev0614

Model RS30 Hazardous Duty Metallic Page 7

PRINCIPLE OF PUMP OPERATION

This ball valve fitted pump has been equipped with IDEX’s patented AirVantage equipment. To fully understand the

operation of the AirVantage, one must first understand the basics of Air Operated Double Diaphragm (AODD) pumps.

AODD’s are powered by compressed air. The compressed air is directed behind each of the flexible diaphragms by a

Main Air Valve. Once the diaphragm has reached the end of its stroke, a Pilot Valve is mechanically actuated, sending

an air signal back to the Main Air Valve which redirects air to the opposite diaphragm. This causes the diaphragm

assemblies, which are connected by a common Diaphragm Rod, to move in a reciprocating action.

Air is directed to the inboard side of the diaphragm, which is closest to the center of the pump. This is referred to

as the air side of the diaphragm. The opposite side is commonly called the fluid side. Most AODD pumps have a 1:1

ratio design. This means, when the discharge of the pump is closed completely (dead headed), the maximum pressure

the pump will create will be equal to the air pressure being applied to the pump. At this point, and only at this point, the

diaphragm will be completely balanced. The air pressure is equivalent to the fluid pressure and there will be no movement

of the diaphragm. If the pump is stroking, then the system is not balanced. There will be more pressure applied to the air

side than fluid pressure on the fluid side.

During each stroke of the pump there are two distinct operations that happen. One diaphragm is moving away

from the center of the pump, moving fluid out of the Discharge Manifold, while the other diaphragm is moving toward the

center, bringing fluid into the Suction Manifold. Considering that the pump has a common suction and discharge port,

these two operations are separated from each other through a series of Check Valves.

PRINCIPLE OF AIRVANTAGE

AirVantage is a special air side device which uses equipment that can accurately monitor the operation of the pump.

Based on the monitored information, meter the correct amount of air needed to perform the work required, and

NOTHING MORE.

Once the pump starts up, and the AirVantage is turned on, the LED indicator light will go through a series of patterns.

Initially the light will be solid green. This indicates the AirVantage is allowing the pump to reach a steady state. Next,

the light will pulse at a very rapid rate. This is called the learn phase. Learn is where the AirVantage monitors the pump

in non-AirVantage mode. This will set the parameters for operation in AirVantage mode. In less than one minute, the

pump will change tones. The LED indicator light will start an uneven blink when optimization has started. Optimization

will be completed once the LED light is blinking in unison with the stroke rate of the pump. All this is completed without

sacrificing a significant amount of flow.

INSTALLATION AND START-UP

The pump should be located near the product being pumped, keeping the suction line as short as possible. Keep

the number of fittings between the product and the pump to a minimum and maintain the line size, if possible. Better

results will always be realized if the line size of the suction line is increased by one size. It's not recommended to hook

up rigid pipe directly to the pump. Some method of expansion joint or vibration isolator should be used. A Warren Rupp

Tranquilizer

®

is recommended to reduce the pulsation in the flow. If the fluid level is more than 10 feet (3 meters) above

the level of the pump, a pressure regulating device may need to be added to the exhaust of the pump (Consult the factory

for recommendations).

AIR SUPPLY

The air supply pressure cannot exceed 125 psi (8.6 bar). The air line and associated components (filters,

regulators, solenoids valves, etc.) should not be less than ½” (13 mm). Though, 3/4" (19mm) or greater is preferred. An

air line filter-regulator is necessary for the AirVantage installation. The required component (PN: 020.107.000) is available

through the distributor. Rigid pipe should not be hooked directly to the air inlet of the AirVantage. A flexible hose should be

installed to reduce the strain. Do not let the weight of the air line components be supported by the air inlet of the pump.

Failure to provide a means of supporting the weight may result in damage to the pump. If the pump is going to be shut

down for any extended length of time It is recommended that the air supply to the pump should be shut off.

SPECIAL CONDITIONS FOR SAFE USE

For the safe operation of the equipment, it is necessary for the air supply to come from a safe area, therefore,

the supplied air shall be clean.

AIR LINE MOISTURE

Water in the compressed air supply can create problems such as icing and freezing of the exhaust air. The

formation of ice in the exhaust can cause the pump to cycle erratically, degrade efficiency, or even stop the pump. Fitting

the pump with the AirVantage technology reduces the exhaust temperature. This is due to more energy being extracted

from every pulse of air. When more energy is extracted, the temperature of the air is reduced. Some method of air drying

will be necessary. Most refrigerant dryers installed on compressors can reduce the dewpoint to about 40° F. This is

normally adequate for most pumping applications. If further drying needs to occur due to internal ice build-up, a desiccant

dryer can be installed. These air line dryers can lower the dewpoint to around -40° F.

AIR VALVE LUBRICATION

The air valve and pilot valve are designed to operate without lubrication. There may be instances of personal

preference or when extremely dry air is being used (instrument quality or nitrogen) that a small amount of lubrication will

improve the life of the rubber components being used on the air side of the pump. The lubrication may be added using an

air line lubricator (¾” PN: 020.051.001 – 1” PN: 020.052.001). At the point of operation use SAE 10 weight, non detergent

oil at a maximum rate of 1 drop per hour for every 20 scfm (9.4 liters/sec) of air consumption. Consult the pump curve to

determine this value. The smallest amount needed is preferred.

AIR INLET AND PRIMING

To start the pump, make sure the AirVantage switch is in the off position. Increase the pressure until the pump starts

to cycle. The pump stroke rate should slow slightly when the pump is primed. Once the pump is fully primed, increase

the pressure at the regulator until the desired flow rate is achieved. Again, the pump curve can be used to derive this

value. If increasing the pressure to the pump does not generate a higher flow rate, then cavitation has occurred. Back the

regulator off slightly. To gain the most efficiency from the pump, try to run the pump fully primed at all times.

BETWEEN USES

When the pump is being used to move materials that tend to settle out or solidify, the pump should be flushed to

prevent damage. The product that remains in the pump could dry and settle out. This could potentially cause damage

to the diaphragms and/or check valves during restart. In freezing temperatures the pump must be completely drained

between uses. Due to the addition of the new technology, it is recommended the air supply to the pump be shut off if the

pump is going to be shut down for an extended length of time.

WARNING

Hazardous Duty Rating
This pump is certified to be

operated in the hazardous areas

listed on the front cover. To

maintain this certification, only genuine, approved

parts must be used and assembled in accordance to

the instructions detailed in this manual by a competent

person. Any deviation or modification to this will invalidate

certification and may result in serious injury or death.