Product Details

PAKER F11-019-MV-SV-K-000-000-0 Piston Pump
Min.Order Quantity 1 pcs
Price Negotiable

Product Features

PAKER F11-019-MV-SV-K-000-000-0 Piston Pump Parts List

Pump Right Rotating Group14 mm26 mm20 mmTMR140-400DW
Shoe Plates2.25 Inch | 57.15 Millimeter4.02 Inch | 102.1 Millimeter0.0N/A
Pressure Plate2.25 Inch | 57.15 Millimeter3.937 Inch | 100 Millimeter0.0N/A
Retainer Plate64 mmN/A0.0N/A
Ball Guides65Brass0.0N/A
Push Rod2.559 Inch | 65 Millimeter3.543 Inch | 90 Millimeter0.0N/A
The Thrust Plate0.5 Inch | 12.7 Millimeter1.024 Inch | 26 Millimeter0.0N/A
Skeleton Oil Seal8483.20.40.403 Inch | 76.2 Millimeter387S-902B63.543 Inch | 90 Millimeter
Disc Springs4.0000 in0.293050 kN165 mm
Back Plate55,5625 mm3.543 Inch | 90 Millimeter165 mm2 Bolt Flange Block; 1/2" Bore; 3" Bolt Circle; 3" Bolt Spacing; 1 Piece Solid; Set Screw Mount; Cast Iron; Ball Bearing; 1.024" Length Thru Bore; Relubricatable; Contact Seal Seal
22352 KCW33260 mm540 mm55,5625Ball
TMR140-400DWContact Seal29,4 kN6.9 Inch | 175.3 Millimeter22,2 mm

 

How do you release air from a hydraulic system?

  • 1、The clutch hydraulic system must be bled whenever the line has been disconnected or air has entered the system. To bleed the system, remove the rubber cap ...
  • 2、An aircraft hydraulic system uses a fluid under pressure to move various ... Bleed air powered motors are utilized on some aircraft to drive hydraulic pumps ...
  • 3、Do you have to bleed air out of hydraulic system? — Why you may need to bleed a hydraulic line Air in your hydraulic lines can eventually cause ...
  • 4、If the pump does not pull a prime, temporarily loosen a fitting in the pressure line to remove any trapped air. 11. Check gauge pressure to be sure it is as ...
  • 5、Feb 13, 2020 — Air contamination is the entrance of air into a hydraulic system and consists of two types — aeration and cavitation. Both can cause severe ...
  • 6、Nov 9, 2017 — Check valves are the simplest form of hydraulic devices in that they ... This can create issues when re-starting the system as the air will ...
  • 7、air, under pressure, will compress. The compression of air in a hydraulic system also creates heat. Cylinders are equipped with a bleed screw to.
  • 8、Jun 5, 2010 — Begin by bleeding lines that are more remote from the hydraulic pump or master cylinder. Then, progress to lines closer to the pump or master ...
  • 9、Aug 18, 2009 — They include a hydraulic pump without bearings and a bleed valve that automatically releases air from the hydraulic system.
  • 10、The performance of any hydraulic system relies heavily on the condition ... Create a tight fit, so there will be no leaks or air allowed into the cylinder.

What causes aeration in a hydraulic system?

  • 1、Apr 23, 2010 — Fluid aeration and cavitation can cause many problems in a hydraulic and lubrication oil system, including abnormal noise, poor component ...
  • 2、Fluid aeration can cause numerous problems in a hydraulic and lubrication oil system. Aeration occurs when air contaminates the hydraulic fluid.
  • 3、Jun 30, 2021 — Cavitation and aeration cause fluid contamination and damage to system components through loss of lubrication, overheating and burning of seals.
  • 4、Apr 9, 2019 — As pressures and temperatures fluctuate in a hydraulic system, the fluid will absorb gas or release dissolved gases to main this equilibrium ...
  • 5、Sep 11, 2009 — Air and bubbles, or fluid aeration and cavitation, can cause numerous problems in a hydraulic and lubrication oil system.
  • 6、Air leaks in a hydraulic system can also lead to aeration problems. surface and pop, can be caused by oxidation and contamination or anything that results ...
  • 7、Safe operation of a hydraulic system starts with the initial design. ... Aeration is caused by air entering the pump inlet and mixing with the fluid.
  • 8、Oct 14, 2016 — The high-pitched mechanical tones of a tortured hydraulic system are often traced back to ... There's the cause of the aeration to discover.
  • 9、Nov 13, 2020 — Aeration in hydraulic pumps occurs when air is drawn into the pump's hydraulic fluid supply. Air can infiltrate your system through perished ...
  • 10、Sep 22, 2015 — Air bubbles in hydraulic fluid first originate is in the reservoir. New oil being introduced into the reservoir can cause turbulent flow, ...

What will happen if there is air trapped in the hydraulic system?

  • 1、Feb 12, 2016 — These pressures can only exist if the system is either in a surcharged state or ... that can occur in rapidly filling tunnel systems with entrapped air. ... (2002b), it is less clear that a hydraulic bore propagating in a partially filled 
  • 2、Sep 22, 2015 — ... may form on the hydraulic fluid, pulling trapped air out of the fluid to form small bubbles. ... When designing a hydraulic system, engineers will often fail to ... not enough fluid will flow to the pump, and cavitation will occur. ... for any solids to drop to the bottom of the tank and air bubbles to rise to the top
  • 3、Feb 8, 2019 — That simply means ridding the brake system of trapped air, but some of the old ... (You can always prop it up on cinder blocks if you want your 
  • 4、Feb 16, 2016 — There are five problems associated with aerated oil that can be deadly to ... way through the lubrication system, similar to how bubbles are formed when you ... Within a hydraulic system, air can be trapped or otherwise exist in 
  • 5、As you press the clutch pedal, the master cylinder forces hydraulic fluid, in this case brake fluid, down ... If there is air in the system, that air bubble can compress
  • 6、May 28, 2008 — A friend and I tried to bleed the clutch system, but with no improvement. What is wrong, and will I damage anything if I continue to drive it in this 
  • 7、To keep your log splitter splitting for many years to come, check the hydraulic fluid often. ... If necessary, refill the reservoir within the range marked on the dipstick. ... back and forth) 12 more times to help remove any trapped air from the system
  • 8、Mar 13, 2018 — When air becomes free or entrained in the oil, it causes damage in the oil ... of air trapped in part of the system such as a cylinder, hydraulic conductor or in a ... Peak temperatures will develop and oxidation of the oil will occur
  • 9、Repairing hydraulic cylinders and rams may be an easy task but something so ... of the seals will almost certainly occur, similar if there is damage to the piston. ... In all cases, if you suspect there to be air in the hydraulic system please take some ... Air can get trapped inside and cause staggered operation or jumpy and jerky 
  • 10、Oct 8, 2020 — Air in the brake system can make your brake pedal feel spongy and vague. ... spongy and it's often hard to feel exactly when the brakes start to bite. These are the telltale signs of air in the braking system, which happens over time with use. ... Your brakes are a hydraulic system, which means that fluid makes 

What is pump cavitation?

  • 1、Suction Side Cavitation. In its simplest terms, it is a restriction on the suction side of the pump, which does not allow enough fluid to enter the pump and ...
  • 2、Cavitation occurs in fluid flow systems where the local static pressures are below the fluids vapor pressure. ... Cavitation is a common problem in pumps and ...
  • 3、Jun 30, 2020 — The term pump cavitation refers to conditions within the pump where the actual suction pressure drop below the vapor pressure of the liquids ...
  • 4、Jan 21, 2020 — Since the invention of the modern centrifugal pump in the 17th century, man has been fighting and fearing cavitation.
  • 5、Oct 8, 2018 — Pump cavitation describes the formation of bubbles or cavities in the bulk fluid being moved that usually develops around a low-pressure ...
  • 6、May 15, 2018 — Protecting Water Booster Pumps from Cavitation · You may be wondering how a pump reduces fluid pressure, when its actual purpose is to increase ...
  • 7、Pump cavitation can severely damage the pump impeller blades and frequent dry running of pumps can damage other pump parts. Pump cavitation is the formation and ...
  • 8、Aug 1, 2009 — Cavitation and the resultant damage can occur in any fluid-handling equipment, especially in pumps. Technological advances in industrial ...
  • 9、Jul 28, 2017 — Suction Cavitation – If a pump is operating under low pressure or high vacuum type conditions suction cavitation will occur.
  • 10、“Cavitation” occurs when pressures and temperatures fluctuate within pump systems, causing bubbles to form in the fluid–unable to escape.

How do you bleed a hydraulic hand pump?

  • 1、Jul 26, 2016 — Pump 10 times with valve open ... While in full extension, continue to pump 10 times ... How to Bleed Hydraulic Axle and Bottle Jacks ...
  • 2、Mityvac offers several solutions to meet your hydraulic clutch and brake ... to Mityvac hand vacuum/pressure pumps and vacuum brake bleeding equipment for ...
  • 3、The warnings and precautions discussed in this manual cannot cover all ... Filling and Bleeding Hydraulic Fluid. If the Pump ... Bleed the Pump as follows:.
  • 4、Jun 15, 2016 — I would like to check my SMG Hydraulic Fluid level and bleed the system ... If fluid issues, stop pump and screw in sealing plug hand tight.
  • 5、Looking for hydraulic pump shut off equipment to ensure safety? ... If you activate a hand lever-operated directional control valve or activate the override ...
  • 6、Jan 7, 2010 — where are put the oil, in my 767 hydraulic hand pump, knockout punch.. Read full answer. Dec 23, 2010 • Greenlee 7646 Hydraulic Punch Driver.
  • 7、The P-2200D is a 2 speed, steel bodied manual hand pump with a 4 way valve designed to be used with double acting hydraulic equipment. Both model pumps feature ...15 pages
  • 8、Feb 18, 2018 — Funny, the manual says to bleed the system to avoid damaging the hydraulic pump. I'd like to think these are robust enough to not fail ...
  • 9、Jun 28, 2018 — Bleeding one line at a time, pump hydraulic fluid through the hydraulic line using the pump until a steady stream of hydraulic fluid comes ...
  • 10、Use Hynautic steering oil or light viscosity hydraulic oil that meets ... pump or compressed air supply can be used to pressurize the system.

How do you get air out of a hydraulic cylinder?

  • 1、Nov 11, 2010 — Removing the cylinder ment disconnecting the hydraulic lines and emptying the oil from the ... Where does the air go if not Bled out???
  • 2、Nov 24, 2020 — Release the air: If you're bleeding a cylinder, partially close it, but open the bleed valve on top. When the valve starts leaking hydraulic ...
  • 3、Partially close the cylinder when all the air has raised to the top of the cylinder. Open the bleed valve at the top for the air to escape.Nov 1, 2021 · Uploaded by Geoprobe Systems
  • 4、How do you bleed air from a single acting hydraulic cylinder? — How do you bleed air from a single acting hydraulic cylinder? What causes hydraulics ...
  • 5、How do you troubleshoot a hydraulic cylinder? — Firstly, check the reason from the outside of hydraulic cylinder; check whether the resistance of organs ...
  • 6、Open the bleed valve at the top for the air to escape. Leave it open until the hydraulic fluid from the valve flows freely. This indicates all the air has been ...
  • 7、May 11, 2012 — Does the bucket tilt down by itself if the tractor is shut off for any amount of time? A double acting hydraulic cylinder (like most loader ...
  • 8、Total power is not changed, as the low pressure input air must operate against a large area piston in order to produce high pressure from a much smaller surface ...
  • 9、May 28, 2011 — The pistons on almost all air cylinders have wear rings that help keep the piston from scouring the barrel when the rod is side loaded.
  • 10、Jan 25, 2008 — Just replaced a cylinder hose, obviously have introduced air into the system. In the past I have never done any sort of bleeding..just fill ...

How do you know if you have air in your hydraulic system?

  • 1、Sep 11, 2019 — If air contaminates the hydraulic fluid, it can cause an alarming banging noise as it circulates through the system. If you hear ...
  • 2、Sep 22, 2015 — Air bubbles in hydraulic fluid first originate is in the reservoir. New oil being introduced into the reservoir can cause turbulent flow, ...
  • 3、Oct 14, 2021 — When a hydraulic pump is turned off for an extended period of time, oil can drain back to the reservoir through the internal pump clearances if ...
  • 4、System Overheat. The system exceeds its maximum allowable operating temperature and must be de-energized. · Loss of System Pressure. Loss of system pressure can ...
  • 5、If no foam is present, the system is purged of air. 4. With the fluid level full and no foam in the reservoir, begin cycling the hydraulic system. A. MotoRIZeD ...
  • 6、>> The relief valve could be failing. Try to reset the relief pressure. >> If relief valve can't be set to hold pressure, it ...
  • 7、Jul 29, 2021 — Cavitation forms when there are gas bubbles in the Hydraulic pump system, and they pop due to pressure. The popping causes a quick surge of air, ...
  • 8、Nov 14, 2021 — You can do this by filling any voids as you start up. For example, if you were to replace the cylinder, then you would fill it with clean ...
  • 9、Oct 10, 2019 — Hydraulic fluid gets hot while being pushed through the pumps, tubing, and relief valves. If the system's temperature is too low, the ...
  • 10、If you hear a banging or knocking noise in the hydraulic system this is a good indicator that there is air trapped in the pump or the hydraulic cylinder. The ...

What is foaming in hydraulic system?

  • 1、Jan 28, 2020 — Quality hydraulic oils must contain high pressure, anti-rust, anti-wear, and anti-foaming agents—all are necessary for the oil to do its job.
  • 2、Jun 1, 2018 — Anti-Foaming property prevents the foam's access to the hydraulic system,; Proper viscosity makes it is viscous so that it can move smoothly in ...
  • 3、Apr 9, 2019 — transmission+pump+cavitation+due+to+oil+aeration ... As pressures and temperatures fluctuate in a hydraulic system, the fluid will absorb ...
  • 4、Sep 11, 2009 — Aeration occurs when air contaminates the hydraulic fluid. Symptoms include foaming of the fluid, erratic actuator movements, and a banging or ...
  • 5、Unstable foam is often caused by high levels of agitation in the fluid system and does not cause much of a problem in machining operations; ...
  • 6、These include the design and type of hydraulic system and hydraulic pump, ... hydraulic oils improves corrosion protection, reduces friction, and foaming.
  • 7、Jun 11, 2019 — for the hydraulic system. The definition of Turbine oil is: Turbine oil is commonly referred to as turbine oil, including gas turbine oil, steam ...
  • 8、Foam Resistance. Foam results from air or other gases becoming entrained in the hydraulic fluid. Air enters a hydraulic system through the reservoir or through ...
  • 9、Defoamer P290 designed for oil system like motor oil,lubricant ,hydraulic oil etc. Send Inquiry. Defoamer P290. Description. The strong mixing of foam with air ...
  • 10、Sep 22, 2015 — In an incorrectly designed hydraulic system, a vacuum may form on the hydraulic fluid, pulling trapped air out of the fluid to form small ...

What causes a hydraulic pump to lose pressure?

  • 1、Jun 20, 2019 — What causes hydraulic drift? ... of pressure acting on the rod-side annulus area due to pressure, brought on by the loss in effective area.
  • 2、May 1, 2018 — The pump provides the flow for lifting the load while gravity & leakage allow the load to drop. Points of leakage that can cause this problem.
  • 3、by MSP Yasar · Cited by 2 — symptoms such as, a gradual or sudden loss of high pressure, resulting in loss of ... hydraulic pump and in turn the prime mover from overload quickly in.
  • 4、Jun 11, 2020 — Check to ensure that your pump drive motor is turning over and is developing the required speed and torque. In some cases, misalignment can ...
  • 5、As the teeth of the gears become interlocked on the discharge side of the pump, the volume is reduced and the fluid is forced out under pressure. No fluid is ...
  • 6、Sep 2, 2019 — Hydraulic ram pumps operate by utilizing pressure developed by a ... of hydraulic ram pump based on the friction loss found in Schedule 40 ...
  • 7、Jan 26, 2016 — Each trailer has a hydraulic pump system that operates the raising ... Then it creates excessive pressure causing the oil to blow out of the ...
  • 8、Oct 8, 2017 — Contamination: This is a more common cause of wear, and sometimes catastrophic pump failure. Abrasive dust from the air breathing in & out of ...
  • 9、The momentum of the water flow in the inlet pipe against the now closed waste valve causes a water hammer that raises the pressure in the pump beyond the ...
  • 10、Hydraulic Injection can cause loss of fingers & even loss of life in severe ... Adjusting the relief valve will not help the power unit build pressure.

How do you burp a hydraulic system?

  • 1、M2 Brake system bleed demonstration.mp4. Download (87.3 MiB). M2 Lever replacement procedure_1.mp4. Download (20.0 MiB). Hydraulic System Air Removal (no ...
  • 2、trapped in a hydraulic brake system degrades the performance of the brake. The following instructions will walk you through our simple bleed procedure.
  • 3、Mar 11, 2020 — A blocked control orifice could be causing your problem, or you may have air in the lines that carry hydraulic fluid. For bucket trucks that ...
  • 4、Feb 8, 2019 — An essential part of replacing brake fluid is bleeding the system. That simply means ridding the brake system of trapped air, but some of the ...
  • 5、Flick the brake lever a few times to encourage any air bubbles near the top up port to come out of the circuit and escape through the syringe. Keep doing this ...
  • 6、... like a newborn, it may need to be "burped" to remove air entrained in the hydraulic oil. The air has to have a place to escape from the system--one ...
  • 7、Jan 11, 2020 — If any amount of air is present in the hydraulic system, as the pressure increases, the air compresses due to its compressible nature. This ...
  • 8、Size range from 1/8" thru 1/2" tubing and piping system. Variety of end connections including Hy-Lok tube fittings, male/female MPT and ISO, SAE threads. Bleed ...
  • 9、Nov 24, 2020 — Release the air: If you're bleeding a cylinder, partially close it, but open the bleed valve on top. When the valve starts leaking hydraulic ...
  • 10、Oct 27, 2015 — I've fixed everything and topped off the sump but I know I have some air in the system. When I start the tractor cold, I get no lift on the ...

 

 

PAKER F11-010-MV-SV-K-000-000-0 Piston PumpFlow:3.1875 in; Pilot Pressure:3.7500 in; Determining Operating Characteristics:12.3000 in; Nominal Resistance:Non-Expansion Bearing (Fixed); Maximum Torque:7.6900 in; Maximum Permissible Speed (limit Speed):Powder Coat; Rotary stiffness:Four-Bolt Base; Maximum Permissible Pilot Pressure:4.6300 in; Pressurefree Operation:Spherical Roller; Control Fluid Drain:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Maximum Axial Force At Standstill:Round; Drive Speed:1.5600 in; Load Pressure:Solid Pillow Block; Maximum rotational speed:Lubrication Fitting; Control Pressure Measurement:3.7500 in; Voltage:Open; Power:Heavy Duty; Sequence Valve:0.7500 in; Maximum angular acceleration:Cast Steel; Case volume:QVVPF; Maximum Volume Flow:Double V-Lock Collar; Torque:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F11-005-MB-SV-K-000-000-0 Piston PumpDrive Speed:3.1875 in; Maximum Permissible Speed (limit Speed):3.7500 in; Rate Of Pressure Change:12.3000 in; Power:Non-Expansion Bearing (Fixed); Maximum Volume Flow:7.6900 in; Maximum rotational speed:Powder Coat; Maximum angular acceleration:Four-Bolt Base; Control Pressure Measurement:4.6300 in; Pilot Pressure:Spherical Roller; Displacement, geometric, per revolution:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Pressurefree Operation:Round; Voltage:1.5600 in; Moment of inertia rotary group:Solid Pillow Block; Flow:Lubrication Fitting; Weight (approx.):3.7500 in; Load Pressure:Open; Maximum Permissible Pilot Pressure:Heavy Duty; Determining Operating Characteristics:0.7500 in; Case volume:Cast Steel; Nominal Resistance:QVVPF; Sequence Valve:Double V-Lock Collar; Maximum Axial Force At Standstill:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-080-MS-SN-T-000-000-0 Piston PumpLoad Pressure:3.1875 in; Moment of inertia rotary group:3.7500 in; Maximum rotational speed:12.3000 in; Flow:Non-Expansion Bearing (Fixed); Pilot Pressure:7.6900 in; Maximum Axial Force At Standstill:Powder Coat; Maximum Volume Flow:Four-Bolt Base; Drive Power:4.6300 in; Nominal Resistance:Spherical Roller; Maximum Permissible Pilot Pressure:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Pressurefree Operation:Round; Torque:1.5600 in; Control Fluid Drain:Solid Pillow Block; Maximum Permissible Speed (limit Speed):Lubrication Fitting; Maximum angular acceleration:3.7500 in; Maximum Torque:Open; Drive Speed:Heavy Duty; Sequence Valve:0.7500 in; Power:Cast Steel; Rotary stiffness:QVVPF; Rate Of Pressure Change:Double V-Lock Collar; Case volume:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER CB-B125 Piston PumpNominal Resistance:3.1875 in; Maximum Torque:3.7500 in; Pressurefree Operation:12.3000 in; Maximum Axial Force At Standstill:Non-Expansion Bearing (Fixed); Weight (approx.):7.6900 in; Maximum Volume Flow:Powder Coat; Rate Of Pressure Change:Four-Bolt Base; Maximum Permissible Speed (limit Speed):4.6300 in; Drive Speed:Spherical Roller; Moment of inertia rotary group:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Pilot Pressure:Round; Determining Operating Characteristics:1.5600 in; Sequence Valve:Solid Pillow Block; Voltage:Lubrication Fitting; Control Pressure Measurement:3.7500 in; Displacement, geometric, per revolution:Open; Flow:Heavy Duty; Maximum Permissible Pilot Pressure:0.7500 in; Rotary stiffness:Cast Steel; Case volume:QVVPF; Control Fluid Drain:Double V-Lock Collar; Drive Power:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-040-MF-IV-K-000-000-0 Piston PumpDrive Speed:3.1875 in; Flow:3.7500 in; Control Fluid Drain:12.3000 in; Drive Power:Non-Expansion Bearing (Fixed); Displacement, geometric, per revolution:7.6900 in; Power:Powder Coat; Maximum Permissible Pilot Pressure:Four-Bolt Base; Load Pressure:4.6300 in; Determining Operating Characteristics:Spherical Roller; Voltage:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Rate Of Pressure Change:Round; Maximum Volume Flow:1.5600 in; Nominal Resistance:Solid Pillow Block; Case volume:Lubrication Fitting; Maximum Torque:3.7500 in; Pilot Pressure:Open; Maximum Permissible Speed (limit Speed):Heavy Duty; Maximum Axial Force At Standstill:0.7500 in; Control Pressure Measurement:Cast Steel; Pressurefree Operation:QVVPF; Maximum rotational speed:Double V-Lock Collar; Sequence Valve:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-110-MS-SV-S-000 Piston PumpVoltage:3.1875 in; Displacement, geometric, per revolution:3.7500 in; Sequence Valve:12.3000 in; Maximum Permissible Pilot Pressure:Non-Expansion Bearing (Fixed); Maximum Volume Flow:7.6900 in; Rate Of Pressure Change:Powder Coat; Maximum rotational speed:Four-Bolt Base; Control Fluid Drain:4.6300 in; Nominal Resistance:Spherical Roller; Determining Operating Characteristics:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Maximum angular acceleration:Round; Moment of inertia rotary group:1.5600 in; Rotary stiffness:Solid Pillow Block; Case volume:Lubrication Fitting; Maximum Torque:3.7500 in; Pressurefree Operation:Open; Power:Heavy Duty; Drive Speed:0.7500 in; Drive Power:Cast Steel; Maximum Axial Force At Standstill:QVVPF; Load Pressure:Double V-Lock Collar; Control Pressure Measurement:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-090-MS-SV-T-000 Piston PumpFlow:3.1875 in; Sequence Valve:3.7500 in; Rate Of Pressure Change:12.3000 in; Maximum Permissible Speed (limit Speed):Non-Expansion Bearing (Fixed); Maximum rotational speed:7.6900 in; Drive Power:Powder Coat; Load Pressure:Four-Bolt Base; Case volume:4.6300 in; Nominal Resistance:Spherical Roller; Pressurefree Operation:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Maximum Volume Flow:Round; Control Fluid Drain:1.5600 in; Pilot Pressure:Solid Pillow Block; Maximum Axial Force At Standstill:Lubrication Fitting; Moment of inertia rotary group:3.7500 in; Drive Speed:Open; Maximum Permissible Pilot Pressure:Heavy Duty; Power:0.7500 in; Maximum angular acceleration:Cast Steel; Determining Operating Characteristics:QVVPF; Displacement, geometric, per revolution:Double V-Lock Collar; Weight (approx.):49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-060-MF-IV-D-000-000-0 Piston PumpPressurefree Operation:3.1875 in; Moment of inertia rotary group:3.7500 in; Displacement, geometric, per revolution:12.3000 in; Maximum Axial Force At Standstill:Non-Expansion Bearing (Fixed); Maximum angular acceleration:7.6900 in; Flow:Powder Coat; Drive Power:Four-Bolt Base; Torque:4.6300 in; Nominal Resistance:Spherical Roller; Pilot Pressure:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Rate Of Pressure Change:Round; Power:1.5600 in; Determining Operating Characteristics:Solid Pillow Block; Drive Speed:Lubrication Fitting; Maximum rotational speed:3.7500 in; Rotary stiffness:Open; Maximum Volume Flow:Heavy Duty; Weight (approx.):0.7500 in; Maximum Permissible Speed (limit Speed):Cast Steel; Case volume:QVVPF; Control Fluid Drain:Double V-Lock Collar; Sequence Valve:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;
PAKER F12-030-MF-IV-K-000-000-0 Piston PumpDisplacement, geometric, per revolution:3.1875 in; Voltage:3.7500 in; Maximum Axial Force At Standstill:12.3000 in; Drive Power:Non-Expansion Bearing (Fixed); Maximum Torque:7.6900 in; Pressurefree Operation:Powder Coat; Sequence Valve:Four-Bolt Base; Maximum Permissible Pilot Pressure:4.6300 in; Control Fluid Drain:Spherical Roller; Maximum angular acceleration:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Moment of inertia rotary group:Round; Weight (approx.):1.5600 in; Torque:Solid Pillow Block; Maximum rotational speed:Lubrication Fitting; Flow:3.7500 in; Maximum Volume Flow:Open; Power:Heavy Duty; Rotary stiffness:0.7500 in; Determining Operating Characteristics:Cast Steel; Case volume:QVVPF; Rate Of Pressure Change:Double V-Lock Collar; Load Pressure:49 lbs; bearing material:Bearing Steel; manufacturer catalog:Click here; D:9.8800 in; manufacturer upc number:883450174237;

 

 

PAKER F11-019-MV-SV-K-000-000-0 Piston Pump Video

 

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