Product Details

PAKER PV080 R1K1T1NMMC Piston Pump

Min.Order Quantity 1 pcs
Price Negotiable

Product Features

PAKER PV080 R1K1T1NMMC Piston Pump Parts List

Central Shaft75 mm40 mm11 mm20 mm
Friction Plate540 mm320 mm218 mm3740 kN
Ball Guide29 mm220.24411,1 kN
Saddle Bearing0,9 kg / Weight6300 r/min37 mmC0-Medium
Variable Piston3.29 Inch | 83.566 Millimeter2.938 Inch | 74.625 Millimeter3.5 Inch | 88.9 Millimeter16.5
Cylinder1.938 Inch | 49.225 Millimeter1.5 Inch | 38.1 Millimeter16,4 kN0.244
Swash Plate Assemblies76715518060x110x221490
The Ball Hinge Spring17.5 Inch | 444.5 Millimeter9.5 Inch | 241.3 Millimeter7500 r/min163000 N / Static load rating (axial)
Regulator21.26 Inch | 540 Millimeter14.173 Inch | 360 Millimeter3.228 Inch | 82 Millimeter22216
Coil Spring4.0000 in1.0000 in1.3281 in3150 lbf
F-56752385 mm35 mm36 mm4.52
NU212ECM/HC5C3110 mm60 mm22 mm22 mm
6915DDU105 mm75 mm16 mm16 mm

 

What causes aeration in a hydraulic system?

  • 1、Nov 1, 2021 — Air contamination is the entrance of air into a hydraulic system and consists of two types — aeration and cavitation. Both can cause severe ...
  • 2、Jan 2, 2020 — Cavitation can also occur when air is trapped within the hydraulic fluid (a phenomenon known as aeration). As pressure increases (e.g., as the ...
  • 3、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 ...
  • 4、by S Gullapalli — when localized pressures in a hydraulic system drop below the saturation pressure of air in oil, causing the formation of bubbles in the fluid. Cavitation ...
  • 5、Dec 12, 2015 — Although aeration and cavitation are very similar, they are caused by completely different situations. Cavitation occurs when air cavities are ...
  • 6、Cavitation, Aeration, Heat and Pressure are also major factors in hydraulic system failures. Cavitation is caused when air molecules are ingested into ...
  • 7、This video is a demonstration of Cavitation in a hydraulic system. ... This causes overheating in the hydraulic pump and damages the seals.
  • 8、Other situations which can cause the hydraulic system to fail include: Aeration: Air in the hydraulic fluid can create problems when put under pressure by ...
  • 9、Oct 15, 2019 — Aeration causes damages to the system components through overheating, burning of seals, and loss of lubrication.
  • 10、There are several things that can disrupt a hydraulic system and lead to pump ... worn seals and blocked filters are all common causes for cavitation.

What causes a hydraulic pump to lose pressure?

  • 1、Sep 1, 2021 — In a fixed displacement pump system, the flow rate is directly ... To overcome the friction, we need to generate pressure to cause the oil ...
  • 2、Dec 16, 2019 — hydraulic pump strainer maintenance ... hydraulic fluid levels and keep in mind that leaks can lead to significant loss of hydraulic fluid.
  • 3、Jun 28, 2015 — If your hydraulic system loses pressure, don't blame the gear pump until you try this simple test to confirm that the pump really is causing ...
  • 4、Mar 28, 2019 — Irregular pressure can also have several causes: First check the suction line, if pipes or fittings are sucking air the pressure inside the pump ...
  • 5、MAIN HYDRAULIC PUMP. 5. FAILS TO DELIVER REQUIRED VOLUME AND PRESSURE. [PROBABLE CAUSES & CORRECTIVE ACTIONS]. · ENGINE SPEED TOO LOW – (a) adjust throttle ...
  • 6、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.
  • 7、Feb 25, 2021 — Excessive heat/low fluid viscosity. A system running excessively hot can affect pump performance. · Aeration. · Cavitation. · Speed lower than ...
  • 8、Jan 31, 2019 — Symptoms & Causes of Hydraulic and Mechanical Pump Failures, ... Pump does not deliver sufficient pressure, Pump delivers flow ...
  • 9、Feb 13, 2020 — Aeration: Aeration occurs when air enters the pump cavity from an outside source. Usually, loose connections or leaks in the system cause this ...
  • 10、In this system, there is a suction strainer, pump, and a relief valve. Any one of these components could cause a loss of pressure. Is there a whining sound? If ...

What is pump cavitation?

  • 1、Sep 19, 2019 — Pumps cavitation: what is cavitation in centrifugal pump? · Erosion of the mechanical parts in direct contact with the fluid; A drop in ...
  • 2、What Causes Pump Cavitation? Consider a typical case: a water pump with bronze wear rings that is experiencing cavitation damage. If it is a new installation, ...
  • 3、Cavitation occurs at the inlet of a pump impeller when small bubbles rapidly and repeatedly form and then almost immediately collapse sending a shock wave ...
  • 4、What is pump cavitation? Simply defined, cavitation is the formation of bubbles or cavities in liquid, developed in areas of relatively low pressure...
  • 5、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 ...
  • 6、Oct 10, 2017 — The word “cavitation” should be quite familiar to those who work around pumps. ... pump vibration is erratic, with lots of noise in the spectrum.
  • 7、Aug 1, 2009 — Cavitation and the resultant damage can occur in any fluid-handling equipment, especially in pumps. Technological advances in industrial ...
  • 8、Oct 1, 2021 — Cavitation in pumps is the rapid creation and subsequent collapse of air bubbles in a fluid. Bubbles might not seem very powerful, ...
  • 9、Simply defined, cavitation is the formation of bubbles or cavities in liquid, developed in areas of relatively low pressure around an impeller. The imploding or ...24 answers  ·  29 votes: Let me explain you in simple words. Cavitation is a process in pump where cavities are formed ...
  • 10、Frequently occurring in pumping applications, cavitation creates bubbles or vapor cavities in a liquid as a result of rapid changes in ...May 16, 2017 · Uploaded by Manufascinating

What is foaming in hydraulic system?

  • 1、Mar 2, 2015 — This can cause aeration of the oil and as that bubbly or foamy ... Why is fluid coming out of the filler or vent cap of my hydraulic system, ...
  • 2、Dec 7, 2017 — Sometimes it can be misdiagnosed if there is pressure on an oil system and you take that pressure off too rapidly then the gas wants to escape ...
  • 3、Sep 15, 2020 — Foam causes spongy hydraulics, leading to loss of performance. Foam is also detrimental to hydraulic pumps and can decrease lubricant life, so ...
  • 4、Jul 5, 2001 — Foam causes problems when it overflows the reservoir. In such cases, the problem may be easily solved by adding ester or silicon oil to the ...
  • 5、A hydraulic system with a poorly matched fluid may operate but will deliver ... Foaming tendency - Foaming is a common problem in hydraulic systems.
  • 6、Fluid aeration can cause numerous problems in a hydraulic and lubrication oil system. Aeration occurs when air contaminates the hydraulic fluid. Symptoms ...
  • 7、The hydraulic oil in the Husky System is filtered through a 10-micron cleanable filter located in the hydraulic block. Though this filter can be cleaned up ...
  • 8、Feb 7, 2021 — The causes of foaming are many, but the most common include water contamination, solids contamination, mechanical issues (causing excessive ...
  • 9、How to Bleed Air from a Hydraulic System ... Bleeding only works for “free” air pockets where the air has not mixed with the fluid. For dissolved air, you can ...
  • 10、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 ...

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

  • 1、Apr 24, 2018 — If you're noticing yourself grinding gears or missing shifts more often, there's a darn good chance your clutch isn't engaging properly. If your ...
  • 2、Oct 26, 2016 — Noise is usually related to air entering the system, which leads to aeration or cavitation. When air bubbles contaminate the fluid, it's ...
  • 3、If you do not bleed air out of a hydraulic system, the air in the system will compress as the fluid goes down into the tank. This causes the system to ...
  • 4、While running the bed up view the hydraulic fluid through the breather cap opening, you may see the fluid returning into the tank. If you see any air ...
  • 5、Mar 16, 2020 — Like brake systems clutch hydraulics don't spontaneously or intermittently let air in. If you have air in your clutch system you've got ...
  • 6、Feb 2, 2020 — Aeration occurs when air contaminates the hydraulic fluid. Aeration accelerates degradation of the fluid and causes damage to system ...
  • 7、You may have heard about the need to "bleed the air out of the brake lines" of you car. If there is an air bubble in the system, then the force applied to the ...
  • 8、Apr 9, 2018 — Banging and knocking sounds usually indicate air in the system or cavitation caused by insufficient pressure, which can have serious ...
  • 9、Blow out hose debris after terminating hose with fittings and before installing hose onto system;. • Remove installed plumbing loop (if you used one). • Air ...
  • 10、Sep 2, 2021 — Ingressed contamination: These contaminants are unavoidable if you're working with earthmoving machinery. Your hydraulic system takes in dirt ...

How do you bleed a hydraulic hand pump?

  • 1、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.
  • 2、Jun 5, 2010 — First, bleed the hydraulic line that's farthest from the master cylinder of the hydraulic pump, and then continue to bleed the other lines.
  • 3、checking and filling Hand pump Hydraulic ... Bleeding air from the Hydraulic system. . .27 ... install the hand pump and stabilizer assembly in.
  • 4、The Dake Service Technician walks through how to bleed the 50-101 pump on the 5-Series Elec-Draulic ... Dake 50H Press 50-Ton Hand-Operated Hydraulic Press.Dake Corp · Dake Corporation · Jul 17, 2018
  • 5、Jun 29, 2018 — On the other hand, a bi-rotational pump has the ability to operate in either direction. Gear Pumps. For truck-mounted hydraulic systems, the ...
  • 6、Why bleed a hydraulic cylinder? When air enters a hydraulic cylinder via the hydraulic pump, it will contaminate the hydraulic fluid which can cause ...
  • 7、Fill with Greenlee hydraulic oil or Mobil DTE-13 only. Purpose of this Manual. This instruction manual is intended to familiarize operators and maintenance.
  • 8、Sep 2, 2011 — 3.1 It is recommended not to paint the hydraulic hand pump. ... the bottom of each stroke to allow air to bleed out of the valve block (7).
  • 9、Instructions for Bleeding Air from a Piston-Type Hydraulic Pump ... Air may enter the hydraulic system of a machine when changing the fluid or replacing a ...
  • 10、Jan 1, 2020 — Pull the recoil until the ram moves. The pump should suck oil even if it's dry. Then fire the engine and run the ram back and forth, ...

How do you burp a hydraulic system?

  • 1、Mar 27, 2008 — I need to know how to replace 2 lines to the front jacks and how to bleed the system. Yes, I have contacted Chris at Heartland and he ...
  • 2、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 ...
  • 3、Q. How Do You Bleed Air From a Hydraulic Jack? — The process of bleeding a hydraulic jack is the same ... This will push air out of the system.
  • 4、... 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 ...
  • 5、How do you bleed air out of a hydraulic system? — What is the bleeder valve? How do I reduce the pressure in my hydraulic system? How do you bleed ...
  • 6、Apr 8, 2021 — Before the installation: Before you install your double-acting hydraulic cylinder it is necessary to bleed the cylinder. This is because the air ...
  • 7、Jan 16, 2018 — I need to get instructions to my shop for depressurizing the system and bleed process...? What is the best program to use, ISTA, Rheinhold, ...
  • 8、Pump internals are metal to metal so any air in the system can ... Do NOT use hydraulic fluid as hydraulic fluid does not contain the.
  • 9、Watch the following video for instructions on how to burp your hydraulic brakes if using a full brake bleeding kit: If you are using...
  • 10、In those cases, individual bleed screws on each radiator, or high pipe run, are opened manually. The valves are installed at a high point of the system, where ...

How do you get air out of a hydraulic cylinder?

  • 1、Jan 11, 2020 — The detailed procedure is discussed below. Check the fluid level in the hydraulic cylinder. Extend the hydraulic cylinder completely to ...
  • 2、Bleed - The process by which air is removed from a hydraulic system. ... In a hydraulic cylinder, it is the product of the pressure on the fluid, ...
  • 3、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 ...
  • 4、Solution for Explain why bleeding air out of a hydraulic system is so important. ... Q: A piston-cylinder assembly contains 10 kg of refrigerant 134a.1 answer  ·  Top answer: Introduction: If air enters a hydraulic system, it can cause the system to fail as t compromises the power outp...
  • 5、Topic: Air bleeding a hydraulic cylinder by allowing the cylinder rod to ... air out of the system by repeatedly extending and retracting the cylinder rod.
  • 6、Mar 29, 2019 — Air in your hydraulic lines can eventually cause damage to the ... new hydraulic fluid and bottles or containers to store fluid from the ...
  • 7、In combination with off-the-shelf air valves, air-oil tanks enable precise, smooth cylinder motion with absolute control using basic shop air pressure.
  • 8、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 ...
  • 9、This is ready to use right out of the box. They ship assembled with air pump and hose. This cylinder is power extend ONLY. Our M600 bender includes a custom ...
  • 10、In contrast to strictly pneumatic or strictly hydraulic cylinders, these hybrid cylinders rely on the surface area differential of an internal pneumatic piston- ...

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

  • 1、Apr 30, 2014 — For instance, when running across a lake where you have to run ... the hydraulic fluid will ooze out and allow air to replace it in the system. When that happens, the motor will usually tilt all the way down and will not go up or will stick. ... it's non-foaming so you don't get any air trapped in it, and it's made to 
  • 2、May 23, 2008 — I have lost more than 5 gallons of fluid and it's starting to get expensive. I am new to all this hydraulic pressure. ... I started loosening fittings here and there to try and bleed the trapped air and I have spent four hours ... if the system worked before you replaced hoses then you MUST have two hoses crossed
  • 3、Please contact Hurst Emergency Products if damage has occurred. Instruction Sheet ... design and operator manuals are provided to promote their safe use. Additionally ... Removing air from the hydraulic system will help the cylinder to advance and retract smoothly. 1. ... trapped air to move up to the pump reservoir. 6
  • 4、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 
  • 5、When is it Appropriate to bleed your brake System? ... The purpose of bleeding the brakes is to remove any trapped air from the brake lines. ... What happens when air gets into the brake lines and if you don't bleed the brake system? ... The caliper pistons need enough hydraulic pressure to clamp the brake pads against the 
  • 6、Fluid aeration can cause numerous problems in a hydraulic and lubrication oil ... if the bubbles which are flowing with the fluid as it passes through the system ... When an air-ignitable mixture is present within the bubble, ignition may occur from ... Small bubbles are trapped, creating an air column in the vicinity of the central 
  • 7、If there's air in your brake lines, air bubbles will be in the fluid. Seeing these bubbles is ... If that happens, you have to go back and bleed your master cylinder until you suck the air out of that end of the system. Who needs the extra work? If you 
  • 8、Jul 27, 2020 — Air that enters a hydraulic system can cause many problems that could ... as dieseling can occur when the hydraulic cylinder oil mixes with the air, ... bleeding trapped air in a system, will prevent any long-term damage or 
  • 9、The effects of air inside the system do depend on where the air is trapped, ... the fluid in the reservoir is foaming, this is a clear indication there is air in the system. ... is when hydraulic hoses are porous on the suction side of the pump, the air is 
  • 10、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

How do you release air from a hydraulic system?

  • 1、The normal source is engine 1, but if pressure becomes low bleed air is taken ... The yellow hydraulic system may also be pressurized by an electric pump.
  • 2、Air will always go to the highest point in the system. This includes the inside of the cylinder plunger. That is why the cylinder must be turned upside down ( ...
  • 3、How do you burp a hydraulic system? Can hydraulic cylinders get air locked? How do you bleed air from a single acting hydraulic cylinder? What causes hydraulics ...
  • 4、Mar 17, 2017 — Once you have partially closed the cylinder, you can open the bleed valve at the top, providing an escape for the air that has become trapped ...
  • 5、It is with these goals in mind that the new Lee Air Bleed Orifices and Vent Valves ... When air is present in a hydraulic system, the desired instant system ...
  • 6、Trouble, problem with hydraulic system. ... Air leaks in pump suction line. ... Check all components, particularly the relief valve for proper settings.
  • 7、Q. How Do You Bleed Air From a Hydraulic Jack? — The process of bleeding a hydraulic jack is the same as that ... This will push air out of the system.
  • 8、air, under pressure, will compress. The compression of air in a hydraulic system also creates heat. Cylinders are equipped with a bleed screw to.
  • 9、Instructions for Bleeding Air from a Piston-Type Hydraulic Pump ... Air may enter the hydraulic system of a machine when changing the fluid or replacing a ...
  • 10、Due to the manner in which the hydraulic system is. remains stationary, cycling may not remove the air. designed, air entering the hydraulic oil will ...

 

 

PAKER F11-019-MV-SV-K-000-000-0 Piston PumpMaximum Torque:30 mm; Control Pressure Measurement:10 N/mm2; Torque:40 mm; Rate Of Pressure Change:Dry 0.85;Periodic Lubrication 1.65 m/s; Pressurefree Operation:20 mm; Case volume:Cermet M; Voltage:Plain Sleeve; Load Pressure:RoHS; Power:Sintered Material with Dispersed Solid Lubricant; Pilot Pressure:54B; Drive Speed:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Rotary stiffness:Lead Free; Moment of inertia rotary group:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F11-010-MV-SV-K-000-000-0 Piston PumpFlow:30 mm; Pilot Pressure:10 N/mm2; Maximum Permissible Pilot Pressure:40 mm; Case volume:Dry 0.85;Periodic Lubrication 1.65 m/s; Maximum angular acceleration:20 mm; Voltage:Cermet M; Maximum rotational speed:Plain Sleeve; Power:RoHS; Torque:Sintered Material with Dispersed Solid Lubricant; Displacement, geometric, per revolution:54B; Maximum Permissible Speed (limit Speed):Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Weight (approx.):Lead Free; Load Pressure:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F11-005-MB-SV-K-000-000-0 Piston PumpMaximum Torque:30 mm; Determining Operating Characteristics:10 N/mm2; Rotary stiffness:40 mm; Maximum Permissible Speed (limit Speed):Dry 0.85;Periodic Lubrication 1.65 m/s; Maximum Axial Force At Standstill:20 mm; Voltage:Cermet M; Torque:Plain Sleeve; Control Pressure Measurement:RoHS; Nominal Resistance:Sintered Material with Dispersed Solid Lubricant; Displacement, geometric, per revolution:54B; Drive Power:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Load Pressure:Lead Free; Drive Speed:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-110-MS-SV-S-000 Piston PumpDrive Speed:30 mm; Rate Of Pressure Change:10 N/mm2; Moment of inertia rotary group:40 mm; Displacement, geometric, per revolution:Dry 0.85;Periodic Lubrication 1.65 m/s; Case volume:20 mm; Control Fluid Drain:Cermet M; Determining Operating Characteristics:Plain Sleeve; Pilot Pressure:RoHS; Maximum angular acceleration:Sintered Material with Dispersed Solid Lubricant; Weight (approx.):54B; Maximum Axial Force At Standstill:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Power:Lead Free; Maximum rotational speed:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-080-MS-SN-T-000-000-0 Piston PumpDrive Power:30 mm; Torque:10 N/mm2; Pressurefree Operation:40 mm; Maximum Permissible Speed (limit Speed):Dry 0.85;Periodic Lubrication 1.65 m/s; Rotary stiffness:20 mm; Flow:Cermet M; Determining Operating Characteristics:Plain Sleeve; Maximum Torque:RoHS; Maximum rotational speed:Sintered Material with Dispersed Solid Lubricant; Control Pressure Measurement:54B; Nominal Resistance:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Power:Lead Free; Maximum Permissible Pilot Pressure:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-030-MF-IV-K-000-000-0 Piston PumpDrive Power:30 mm; Maximum Permissible Pilot Pressure:10 N/mm2; Weight (approx.):40 mm; Case volume:Dry 0.85;Periodic Lubrication 1.65 m/s; Maximum angular acceleration:20 mm; Sequence Valve:Cermet M; Displacement, geometric, per revolution:Plain Sleeve; Pressurefree Operation:RoHS; Rotary stiffness:Sintered Material with Dispersed Solid Lubricant; Determining Operating Characteristics:54B; Power:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Moment of inertia rotary group:Lead Free; Maximum Axial Force At Standstill:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-060-MF-IV-D-000-000-0 Piston PumpCase volume:30 mm; Pressurefree Operation:10 N/mm2; Rotary stiffness:40 mm; Load Pressure:Dry 0.85;Periodic Lubrication 1.65 m/s; Control Pressure Measurement:20 mm; Nominal Resistance:Cermet M; Weight (approx.):Plain Sleeve; Rate Of Pressure Change:RoHS; Maximum rotational speed:Sintered Material with Dispersed Solid Lubricant; Pilot Pressure:54B; Power:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Determining Operating Characteristics:Lead Free; Torque:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-090-MS-SV-T-000 Piston PumpVoltage:30 mm; Maximum Permissible Pilot Pressure:10 N/mm2; Drive Power:40 mm; Maximum Volume Flow:Dry 0.85;Periodic Lubrication 1.65 m/s; Control Pressure Measurement:20 mm; Pressurefree Operation:Cermet M; Maximum Axial Force At Standstill:Plain Sleeve; Determining Operating Characteristics:RoHS; Drive Speed:Sintered Material with Dispersed Solid Lubricant; Maximum Torque:54B; Maximum angular acceleration:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Maximum Permissible Speed (limit Speed):Lead Free; Rotary stiffness:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER F12-040-MF-IV-K-000-000-0 Piston PumpPilot Pressure:30 mm; Pressurefree Operation:10 N/mm2; Weight (approx.):40 mm; Displacement, geometric, per revolution:Dry 0.85;Periodic Lubrication 1.65 m/s; Case volume:20 mm; Determining Operating Characteristics:Cermet M; Power:Plain Sleeve; Rate Of Pressure Change:RoHS; Maximum Torque:Sintered Material with Dispersed Solid Lubricant; Control Pressure Measurement:54B; Maximum Axial Force At Standstill:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Maximum Permissible Pilot Pressure:Lead Free; Voltage:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;
PAKER CB-B125 Piston PumpDetermining Operating Characteristics:30 mm; Sequence Valve:10 N/mm2; Voltage:40 mm; Drive Power:Dry 0.85;Periodic Lubrication 1.65 m/s; Maximum Torque:20 mm; Maximum rotational speed:Cermet M; Maximum angular acceleration:Plain Sleeve; Weight (approx.):RoHS; Pressurefree Operation:Sintered Material with Dispersed Solid Lubricant; Power:54B; Flow:Dry -40 to +392, Periodic Lubrication -40 to +302 °F; Displacement, geometric, per revolution:Lead Free; Load Pressure:Dry 1.65, Periodic Lubrication 3.25 N/mm2 x m/s;

 

 

PAKER PV080 R1K1T1NMMC Piston Pump Video

 

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