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Maximator® air amplifiers are designed to boost plant air pressure or increase the supply air pressure at work stations and pneumatically operated machinery when the available working pressure is insufficient.
Air operated tools become more efficient when coupled with air amplifiers. These amplifiers are capable of generating pressures from 30 psi to 4,350 psi.
Air amplifiers do not need electrical power, since they use the same compressed air source for both driving and amplifying. This ensures quick installation and cost effective operation.
Air amplifiers can be controlled to automatically stop once the desired end pressure has been reached. The amplifier will restart when a drop of only 1% from the stall pressure has been detected.
Single stage - single acting and single stage - double acting air amplifiers are available to satisfy most pressure and flow demands. Amplifiers are ideal for intermittent pressure requirements.
MAXPRO® offers complete turn-key systems for easy installation. In addition, technical application and service support is available for all air amplifiers and turn-key systems.
Air operated tools become more efficient when coupled with air amplifiers. These amplifiers are capable of generating pressures from 30 psi to 4,350 psi.
Air amplifiers do not need electrical power, since they use the same compressed air source for both driving and amplifying. This ensures quick installation and cost effective operation.
Air amplifiers can be controlled to automatically stop once the desired end pressure has been reached. The amplifier will restart when a drop of only 1% from the stall pressure has been detected.
Single stage - single acting and single stage - double acting air amplifiers are available to satisfy most pressure and flow demands. Amplifiers are ideal for intermittent pressure requirements.
MAXPRO® offers complete turn-key systems for easy installation. In addition, technical application and service support is available for all air amplifiers and turn-key systems.
Unit of Measure
Style |
N/A Double Acting |
Minimum Supply Pressure |
N/A 100 psi |
Maximum Supply Pressure |
N/A 4,350 psi |
Maximum Rated Pressure |
N/A 4,350 psi |
Stall Pressure |
N/A 15Pa + Ps |
Inlet Connection |
N/A 1/4 in. FNPT |
Outlet Connection |
N/A 1/4 in. FNPT |
Maximum Temperature |
N/A 210 ºF |
Weight |
N/A 48 lb |
Length |
N/A 24.25 in |
Width |
N/A 9.00 in |
Height |
N/A 9.00 in |
Mounting A |
N/A 9.00 in |
Mounting B |
N/A 3.13 in |
Mounting C |
N/A 0.44 in |
Features |
N/A
|
How an Air Amplifier Works |
N/A
Air Amplifiers are intended for use in boosting existing plant air to higher pressures. Each amplifier has a spool valve that acts like a 4-way directional control valve. Plant air is supplied to this spool valve which automatically cycles back and forth. The plant air that is fed into the spool valve is alternately directed, as the spool cycles, to the main air drive piston in the air drive cylinder. This causes the piston to cycle back and forth in the amplifier. There is also a high pressure section where the air, that is to be pressurized, is supplied. The air flows into the amplifier pressure chamber, through the inlet check valve(s), on the suction stroke and is pressed out of the chamber, through the outlet check valve(s), on the discharge stroke. The reciprocating movement of the air drive section, connected directly to the high pressure section, creates a positive displacement of air through the inlet and outlet check valves. There are single and double acting models available. The single acting amplifiers displace air once per full cycle. The double acting amplifiers displace air every stroke, or twice per full cycle, providing higher and more constant flows These amplifiers can be installed in any position, but vertical mounting is best for longest seal life. All connections to the amplifier must be run with equal to, or greater than, the connection size in the amplifier. |
How to Use Curves |
N/A To find output flow rate from graphs below, locate desired outlet pressure on bottom axis. Move vertically from that point until you intersect the solid curve for the inlet air pressure you have available. At this point, move horizontally to the left axis. That point is the value of the outlet flow rate. To obtain the air consumption value to drive the amplifier, move vertically up from the desired outlet pressure until you intersect the dashed curve for the inlet air pressure available. From this point move horizontally to the right axis. That point is the air consumed. The total air flow required to the amplifier is the sum of the outlet flow plus the air drive flow. |
Note |
N/A
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