Pressures from 165 to 23200 PSI

LSF series pumps are rugged and designed for chemical service applications. These pumps are available as single acting pumps with single or double air drive head and distance piece which provides a separation between the liquid and air drive sections.
Unit of Measure

Pump Type

N/A LSF Single Air Drive Head and Distance Piece

Pressure Ratio

N/A 1:28

Maximum Outlet Pressure

N/A 4,060 psi

Displacement Per Cycle

N/A 2.15 in³

Inlet Connection

N/A 1/2 in

Outlet Connection

N/A 1/2 in

Weight

N/A 42 lb

Dimension A

N/A 15.50 in

Dimension AS

N/A 13.63 in

Dimension B

N/A 12.13 in

Dimension C

N/A 3.63 in

Dimension D

N/A 6.88 in

Dimension E

N/A 7.81 in

Dimension F

N/A 3.19 in

Air Drive Pressure

N/A 15 to 145 psi

Body Material

N/A Stainless Steel

Plunger Material

N/A Stainless Steel

Seal Material

N/A Polytetrafluoroethylene (PTFE)

Features

N/A
  • Easy to install and operate
  • Pressure maintained without energy consumption
  • Explosion proof, no electrical power required
  • Pilot air control for remote operation standard on many models
  • External spool valve for quick maintenance on most models
  • Dry air spool valve option available for severe service applications
  • Chemical service pumps are standard with separation fitting
  • Optional seal materials, port connections, double acting, multiple air heads, single stroke, adjustable stroke, special pumps, just ask
  • LSF pumps have stainless steel bodies and plungers.
  • LSF pumps have PTFE seals with Fluorocarbon (FKM)2 O-rings.
  • Pumps come standard with a bottom inlet. For side inlet add - S.
  • Maximum air drive pressure 145 psi.
  • Minimum air drive pressure 15 psi.
  • For air control option, add - ACP to LSF catalog number.

Maximator® Liquid Pumps

N/A Air Driven from 60 PSI to 60000 PSI
Maximator® high efficiency pumps are ideal for a broad variety of oil, water and chemical applications. They feature a large air piston joined to a smaller diameter plunger. The pressure ratio is the ratio of these two areas and is the method of determining maximum output pressure. Higher pressures are obtained by using higher pressure ratios. Maximator® model numbers reflect the pump's nominal pressure ratios, while the technical data indicates exact ratios

Maximator® hydraulic pumps cycle automatically. The pump stops automatically when the output pressure forces and the air drive forces are equal. The pump restarts with a slight drop in the outlet pressure or an increase in the air drive pressure.

How to Select a Maxpro Pump

N/A
  1. Consider the type of fluid to be pumped and compatible materials.
  2. Know the available minimum plant air pressure.
  3. Determine the required outlet pressure.
  4. Determine the required flow rate.
  5. Feel free to consult your distributor or MAXPRO for application assistance.
Flow rates for each pump, at various air drive pressures and outlet pressures, are provided in the catalog. These pumps run very rapidly at no load and slow down as pressure increases. The pump will eventually come to a stop at the "stall" pressure, which is the air drive pressure times the pressure ratio of the pump. At this "stall" point there is no flow and no air consumption. The pump will hold the outlet pressure indefinitely and will only stroke if the outlet pressure drops or the air drive pressure is increased.

Installation and Maintenance

N/A
  • Maximator® pumps can be installed in any position, but vertical is best for longest seal life.
  • All connections to the pump, both liquid (inlet and outlet) and air drive lines, must be run with equal or greater size than the connections to the pump.
  • The maximum recommended height of a pump suction above the fluid level is 10 ft. for LO and L pumps, 7 ft. for S pumps, and 3 ft. for PPO and PP pumps. Operate pump slowly during initial prime.
  • Drive air should be filtered between 5µ and 4µ and have a maximum dew point of 50ºF. Very wet air will wash out lubricant and cause exhaust icing. Very dry air (dew point below 0ºF) will dry out lubricant and cause premature failure of spool o-rings and requires the use of Dry Air Spool option.
  • Pumped liquids should be filtered at 100µ or better, viscosity between 1-100 est.
  • Pump performance is affected by many operating conditions. Extreme temperatures, pressures, and high duty cycles will increase maintenance frequency.
  • All units are lubricated at the factory with silicone free semi-synthetic grease. After 2-3 months of normal (50% duty) operation, the standard spool seals should be inspected for wear and relubricated. Based on this inspection, future maintenance intervals can be planned and further disassembly and lubrication of other moving seals may be necessary. Optional Dry Air Spool seals require less maintenance.
  • MAXPRO® offers complete technical and service support for all Maximator® pumps. Customer service is our priority

Note

N/A
  • Air drive inlet connection on all LSF pumps is 1/2" FNPT.
  • Air pilot connection on all LSF pumps is 1/8" FNPT.
  • All connections are FNPT unless otherwise noted.
  • The 9/16 - 18 is a 1/4" O.D. tubing, high pressure coned and threaded connection.
  • Maximum allowable liquid temperature is 140ºF.
  • Air section temperature rating: 0ºF to 140ºF.
  • 2Fluorocarbon (FKM) is a registered trademark of E.I. DuPont de Nemours & Co., Inc.