pneumatic powered hydraulic pump manufacturer

... alkitronic hydraulic pumps with electric or pneumatic drive provide fast operating speed, reliability, and safety. They are designed for permanent operation. Our hydraulic ...

Compressed air operated double diaphragm pumps for the Food and Beverage, Cosmetic and Trichological sectors. The pumps are certified ATEX, CE, MOCA, FDA Compliant.

Compressed air operated double diaphragm positive displacement pumps for the Food and Beverage, Cosmetic and Trichological sectors. The pumps are certified ATEX,

Compressed air operated double diaphragm positive displacement pumps for the Food and Beverage, Cosmetic and Trichological sectors. The pumps are certified ATEX, CE, MOCA, FDA Compliant.

These mini-pumps are driven by an air-powered motor and can be connected to any supply source of compressed air. These compact low-cost pumps can operate all single-acting or double-acting ...

Like all the pumps of the HP Series, it is suitable for any hydraulic application which require very high hydraulic output pressures and a moderate and controllable oil flow, to ensure ...

The HP-AP pump, like all HP Series pumps, can be installed in any hydraulic applications which requires high working pressures and moderate and controllable oil flow. Our HP Series air-hydraulic ...

Occupying a limited workspace, the portable P801 pump runs on compressed air that has a pressure capacity ranging from 2 to 7 bar. It is commonly utilized in the supply of systems that ...

Precision-matched cylinder and pump set for wide range of applications. Four styles of cylinders within the CPS/RPS Series with each set featuring single or two-speed hydraulic hand pumps. ...

... lightweight and portable the Power Team PA6D series pumps are single-speed pumps for driving double-acting cylinders. The PA6D series pumps operate at 40-100 psi (3-8 bar) shop air ...

A two-speed pump, the Power Team PA60 series pumps are designed for rapid oil delivery at low pressure to quickly advance cylinder or tool. Equipped with air pressure regulator, air ...

... to access. For these applications ITH developed the pneumatic pump Aero-MAX series and Travel-MAX. All the pumps can be used with standard air pressure systems. Typical ...

... electric power supplies can be difficult to access. For these applications ITH developed the pneumatic pump Aero-MAX series and Travel-MAX. All ITH pneumatic pumps ...

Double-acting, single-stage air-powered compact pump. Standard with a 3/8” NPT female thread and compressed air connector. Excluding coupler, hoses and pressure gauge.

The WL is a series of air-hydraulic pumps manufactured by Werner Weitner GmbH. Their aluminum framework operates in a single speed, and enables a pressure of up to 700bar with an air ...

Air hydraulic pumps are applied in all kinds of contexts. Although some hydraulic pumps use the momentum of moving water to continue operation, all need an initial force to begin the process. Compressors, which can be automatic or hand operated, work by increasing the amount of air in an enclosed space. This in turn increases the air pressure, which creates a force that can be used directly or as a means of powering other tools and mechanical devices such as pumps.

Compressed air is a common source of movement in hydraulic systems as it is an economical and compact option that can be installed in most pre-existing pump configurations. Construction, transportation, automotive, military, marine, excavation and manufacturing industries utilize both heavy duty and light-duty variations of air hydraulic pumps. Cranes, motors, lifts, excavators and generators all make use of these devices as they enable workers to greatly multiply workforce.

Even a small hydraulic hand pump, which uses a foot or hand pump to compress the air needed to operate the pump, can convert as little as 4.5 pounds of pedal force into 100 pounds of load moving force. Electronic air compressor pumps demonstrate capacities much greater than this.

Like all hydraulic pumps, air pumps have the same initial components. A reservoir is needed to hold the hydraulic fluids, which are usually oil or water-based composites. Hoses or tubes attached to this reservoir allow the fluid to move from the holding tank to the hydraulic cylinder, which houses a piston mechanism and two valves. An intake valve allows the hydraulic fluid to enter and then closes to trap it. The discharge valve is where the high pressure stream is released.

In addition to the hydraulic cylinder that houses one end of the piston, air hydraulic pumps also have an attached air cylinder. Compressed air in this cylinder, or air compressor, acts upon the protruding end of the piston. The air cylinder, when empty, allows a spring mechanism in the hydraulic cylinder to push the piston out. This creates a vacuum that draws the fluid from the reservoir into the hydraulic cylinder. When air is pressurized in the air compressor it engages the piston, pushing it further into the hydraulic cylinder and compressing the fluids.

This pumping action continues until the pressure in the hydraulic cylinder is great enough to force the fluid out through the discharge check valve. In some cases this is attached to hoses and a nozzle with the pressurized stream being the useful component. Other uses utilize the energy of this stream to push, pull and lift heavy loads.

Pistons with O-ring seals operate in, fiberglass wrapped cylinders. The cylinder diameter is constant for a particular pump series. The driving medium pushes the piston down on the compression stroke and lifts it on the suction stroke (the M series has a spring return). No drive air lubricant is required as the piston is pre-lubricated during assembly.

In the hydraulic section, the drive piston connects to the hydraulic plunger/piston. Hydraulic pistons have different sizes depending on their nominal ratio. The higher ratio pumps can achieve higher pressures, but have smaller displacements, which translates to less flow per stroke.

During the down stroke, the inlet check valve keeps the liquid in the pump from flowing back into the suction line while it is compressed by the plunger. On the return or suction stroke, fresh liquid is drawn in through the inlet check valve, while the outlet check valve closes.

These check valves control the flow of liquid through the hydraulic section. They are spring-loaded and have a very low cracking pressure, which allows maximum flow during suction. Inlet check valves are closed by the hydraulic fluid pressure on downstrokes. At the same time, the outlet check valves open when the hydraulic pressure in the pump exceeds the pressure in the system after the pump.

A hydraulic seal is one of the few parts that wear out. Basically, it prevents fluid from flowing into the actuator while the hydraulic piston is moving back and forth. Seal specifications are determined by the fluid, its pressure and temperature. Most Haskel pumps can be operated without contamination by use of a vent or distance piece between the pump section and the air drive.

Air hydraulic pumps are hydraulic power units that use compressed air to activate a pump mechanism, creating useful energy from the pressurization of various liquids. Also known as pneumatic hydraulic pumps, these devices are used in a number of industries to aid in transporting materials and lifting heavy loads with minimal initial force.

Air hydraulic pumps are applied in all kinds of contexts. Although some hydraulic pumps use the momentum of moving water to continue operation, all need an initial force to begin the process. Compressors, which can be automatic or hand operated, work by increasing the amount of air in an enclosed space. This, in turn, increases the air pressure, which creates a force that can be used directly or to power other tools and mechanical devices such as pumps. Compressed air is a common source of movement in hydraulic systems as it is an economical and compact option that can be installed in most pre-existing pump configurations. Construction, transportation, automotive, military, marine, excavation, and manufacturing industries utilize both heavy duty and light-duty variations of air hydraulic pumps. Cranes, motors, lifts, excavators, and generators all make use of these devices as they enable workers to greatly multiply the workforce. Even a small hydraulic hand pump, which uses a foot or hand pump to compress the air needed to operate the pump, can convert as little as 4.5 pounds of pedal force into 100 pounds of load moving force. Electronic air compressor pumps demonstrate capacities much greater than this.

Like all hydraulic pumps, air pumps have the same initial components. A reservoir is needed to hold the hydraulic fluids, which are usually oil or water-based composites. Hoses or tubes attached to this reservoir allow the fluid to move from the holding tank to the hydraulic cylinder, which houses a piston mechanism and two valves. An intake valve allows the hydraulic fluid to enter and then closes to trap it. The discharge valve is where the high pressure stream is released. In addition to the hydraulic cylinder that houses one end of the piston, air hydraulic pumps also have an attached air cylinder. Compressed air in this cylinder, or air compressor, acts upon the protruding end of the piston. The air cylinder, when empty, allows a spring mechanism in the hydraulic cylinder to push the piston out. This creates a vacuum that draws the fluid into the hydraulic cylinder from the reservoir. When air is pressurized in the air compressor, it engages the piston, pushing it further into the hydraulic cylinder and compressing the fluids. This pumping action continues until the pressure in the hydraulic cylinder is great enough to force the fluid out through the discharge check valve. In some cases, this is attached to hoses and a nozzle, with the pressurized stream being the useful component. Other uses utilize the energy of this stream to push, pull and lift heavy loads.

Air-driven hydraulic power packs are pneumatically driven, reciprocally acting plunger pumps. They operate as pneumatic pressure amplifiers with oscillating movement and automatic stroke reversal control.

Our HY-AIR is a 4-stage pump designed to reduce cycle time and improve productivity. A compact design with an optional one or two-gallon reservoir alleviates weight restrictions and offers the operator efficient mobility. Simple controls make for short set-up times and the semi-automatic feature allows the operator to experience faster and easier bolting.

IDI has provided multiple valves to assist with actuating the enormous hydraulic cylinders that lift the SpaceX Falcon 9 rocket into launch position. SpaceX intends to launch the largest rocket ever built next year, powering its "Falcon Heavy" with 27 engines (compared to the 9 on the current Falcon 9). These rockets are a reusable means of providing supplies to the International Space Station, with aspirations for more space exploration uses in the future.

As a longstanding supplier of highly specialized power units and valves for Hurst"s product lines, IDI has custom built units that allow first responders to use available air bottles (commonly known as "Scot Packs") to power the hydraulics on the Jaws of Life® tools. This eliminates the need for gas-driven engines that have limitations in portability and range of operation.

IDI has a lengthy standing relationship with Lanmar Logistics in Canada, a company that developed a system allowing personnel on offshore oil rigs to be safely evacuated to the ocean during emergencies. The "PROD" System is essentially a large arm powered and stabilized by hydraulics that keeps transportation and emergency boats from being destabilized during deployment, particularly under inclement weather conditions.

IDI manufactures a line of purpose-built equipment for servicing aircraft, including gas boosters used for on-board systems and portable hydraulic "mules" used for testing functions such as landing gear. IDI ground support systems have been used all over the world, including Iraq and Afghanistan. Major aircraft companies such as FedEx, United and McDonnell Douglas have used IDI-manufactured GSE.

Ideal all-around power source develops 10,000 PSI at 100 PSI air. 2-stage release mechanism; internal relief valve. Pump, hold, or release load with pedal control.

Manufacturers of air driven hydraulic pumps, hydraulic power units, air driven fluid pumps, pressure boosters and intensifiers offering pressures up to 840 bar (12,000psi).

Various mounting configurations are available which include a wall mounting bracket and tank mounting flange. The pump can be mounted on our 2.5, 4.5, 10 and 30 litre reservoirs. We also manufacture custom reservoirs to order, in various capacities and materials.

"Q max" is defined as the maximum pump flow at 250 cycles per minute - intermittent duty only. One cycle is defined as one down stroke plus one up stroke.

Various mounting configurations are available which include a wall mounting bracket and tank mounting flange. The pump can be mounted on our 2.5, 3, 10 and 30 litre reservoirs. We also manufacture custom reservoirs to order, in various capacities and materials.

"Q max" is defined as the maximum pump flow at 250 cycles per minute - intermittent duty only. One cycle is defined as one down stroke plus one up stroke.

You guys at Pneumatic and Hydraulic were kind and helpful well beyond anything necessary – and in a very short time – made me feel like I was doing business with people who really care about what we are doing – no matter that it was a tiny o-ring in a t-shirt gun.  Blake and Alex both took great interest in my business – as if it were theirs. You guys made me look like a winner in my hallways.

I wanted to take the time to let you know what a pleasure it has been working with you, Neil, and the rest of the team at Pneumatic and Hydraulic Company. I am very pleased to have found a company that is very professional, knowledgeable, and willing to go the extra mile just to achieve customer satisfaction! Again, thank you for your excellent service and professional attitude! I look forward to working with you in the future!

I recently found a great hydraulic and pneumatic parts and service contact. Loella is very knowledgeable and has a very extensive department behind her.  We were still looking for a valve for one of our CNC machines and she already has one in transit to our facility. In all of the years you and I worked together I can testify that no one that helped us at Wyman Gordon was better.

Thanks for taking time out from your busy schedule to visit and for the personal tour of Pneumatic and Hydraulic. I was taken back by how much Pneumatic & Hydraulic has to offer for different aspects of the oil and gas industry. The organizational health is very obvious, your team is well focused, energized and obviously dedicated, which marks good leadership.

I have been working with PHC over the years. In that time I have been helped out with any request I put forth. Truly a great company to do business with now and in the future for all my hydraulic needs. Thanks guys!

Just recently had two hydraulic pumps serviced by P&H. They had a quick turnaround and kept me informed on their status while being repaired. Will definitely be working with these guys again!

We appreciate the help you and the people at Pneumatic and Hydraulic have given us over the past few months. Your prompt responses to our questions and your ability to get what we need quickly and at low prices, is something we do not get from most of our vendors. We are very impressed with the knowledge of your sales and technical team. I look forward to conducting business with you in the future.

High Pressure air operated hydraulic pumping systems are complete, self-contained units and ready to operate. Just hook up standard shop air supply (maximum 100 psi) to connection supplied on the side of the console. Discharge capacities range to 64 in3/min.

System includes hydraulic oil reservoir, oil filter, air operated hydraulic pump, pressure gauge, panel mounted high pressure valves, safety head assembly, panel mounted air regulator and gauge and air line filter and lubricator. All components are enclosed in a steel console with only the back exposed. Dimensions of standard systems are 26" wide, 24" deep and 40" high.

Sprague offers a variety of air driven pumps designs, each with specific pressure ranges and design configurations to meet the demands of the high pressure pump market.

The Sprague positive-displacement pump converts air-drive pressure into hydraulic discharge pressure. The pump uses low pressure air or gas to drive a large area piston,

which then drives a small area liquid piston that produces high hydraulic pressure. As the ratio between the air drive piston and the liquid piston increases, higher pressures can be achieved.

In operation, the Sprague pump reciprocates rapidly until the system"s liquid pressure nears the desired level, as determined by the air regulator setting, and then slows to a stop when the liquid discharge and air-drive forces reach equilibrium. This liquid-air balance is maintained indefinitely in a holding condition with minimal energy consumption and with no increase in fluid temperature or parts movement. The pump will automatically restart if the liquid discharge pressure degrades or the inlet air-drive pressure is increased.

Boosting ratio can be selected from 9.4 to 95 times in 6 models in OPG63 series & from 9.4 to 140 times in 6 models in OPG100 series. Secure and high speed reciprocation of air and hydraulic piston generates a repetitive suction and discharge of air and oil. As the hydraulic pressure becomes close to the designated level, the reciprocation becomes slower.

At the balanced condition, there is no air consumption so that there is no power loss or temperature rise compared to an electric pump. In the event of an air supply failure, the hydraulic pressure shall be retained by the check valve built-in the discharge side.