#Yuken PV2R4-153-L-LAB-4222 single Vane pump#Parts Table 1## | ||||||||
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Swash Plate | 55,000 | N/A | Steel | 55,000 | ||||
Ball Joint | 4,76 mm | Bearings with Housings | 7.0 | N/A | ||||
Gear Pump | 0.25 Inch | 6.35 Millimeter | Metric System | 0.0 | N/A | ||||
Spacer | 4600 | C0-Medium | 0.0 | N/A | ||||
Cylinder | Flat | Oil Supply Type | 0.0 | N/A | ||||
The Ball Hinge Spring | 105 | Radial | 55,000 mm | Bearings with Housings | ||||
Spindle | [Steel] Steel | Bearings with Housings | 77 | 4 mm | ||||
Block Cylinder | 70 | Ball | [Steel] Steel | ABEC 1 | ISO P0 | ||||
Ball Guide | 30 mm | LLB | Ball | 6806 | ||||
Regulator | Ball | 1045 Carbon Steel | Available | 104000 |
Yuken PV2R1-14-F-RAA-4222 single Vane pump | Maximum Torque:Oilite®, Synthet; Torque:SAE 841, CT-1000-K26; Displacement, geometric, per revolution:0.688 lb; Maximum Permissible Pilot Pressure:Static 8000 / D; Determining Operating Characteristics:50000; Case volume:-35 °F to +; Drive Speed:Click here; Pilot Pressure:2-3/4"; Load Pressure:2; Flow:1200 (sfm); Maximum angular acceleration:1/4 in; Maximum Axial Force At Standstill:3-7/8 in; Maximum rotational speed:Oil-Impregnated Bron; Pressurefree Operation:Click here; |
Yuken PV2R1-31-L-RAA-4222 single Vane pump | Rotary stiffness:12 mm; Maximum angular acceleration:0,6 mm; Maximum Permissible Speed (limit Speed):M22×1,5; Nominal Resistance:22 mm; Maximum Volume Flow:15 °; Flow:20 mm; Case volume:50 mm; Sequence Valve:84 mm; Pressurefree Operation:28 mm; Maximum rotational speed:0,41 Kg; Maximum Permissible Pilot Pressure:43 mm; Power:SIJ22; Displacement, geometric, per revolution:27,5 kN; Moment of inertia rotary group:109 mm; Determining Operating Characteristics:38,1 mm; Rate Of Pressure Change:32 mm; Drive Speed:37 mm; Load Pressure:30 mm; Torque:22; |
Yuken PV2R1-17-L-RAA-4222 single Vane pump | Drive Speed:4.375 Inch | 111.125; Sequence Valve:Tapered; Maximum Permissible Speed (limit Speed):31171516; Control Pressure Measurement:TIMKEN; Voltage:Double Row; Control Fluid Drain:B04336; Maximum rotational speed:0.005; Rate Of Pressure Change:H924045; Displacement, geometric, per revolution:0 Inch | 0 Millimete; Rotary stiffness:4.563 Inch | 115.9 M; Determining Operating Characteristics:Assembly; Load Pressure:Tapered Roller Beari; Maximum angular acceleration:17.61; Maximum Axial Force At Standstill:Inch; Power:8482.20.00.00; Pressurefree Operation:Bearing; Moment of inertia rotary group:8.438 Inch | 214.325; Drive Power:Tapered Roller Beari; Case volume:2 Single Cone | 1 Do; |
Yuken PV2R1-31-F-RAA-4222 single Vane pump | Maximum rotational speed:31171504; Maximum Volume Flow:C3-Loose; Control Fluid Drain:No; Displacement, geometric, per revolution:0.894; Voltage:B00308; Determining Operating Characteristics:Single Row Ball Bear; Rotary stiffness:Ball; Torque:4.0; Rate Of Pressure Change:No; Case volume:0.866 Inch | 22 Mill; Drive Speed:8482.10.50.68; Power:Metric; Pilot Pressure:NACHI; Flow:N/A; Maximum Axial Force At Standstill:ABEC 1 | ISO P0; Weight (approx.):Open; Load Pressure:1.97; Nominal Resistance:85MM Bore; 130MM Out; Moment of inertia rotary group:5.118 Inch | 130 Mil; Maximum Permissible Speed (limit Speed):6017 C3 BN; |
Yuken PV2R1-14-L-RAA-4222 single Vane pump | Determining Operating Characteristics:Cylindrical Bore; Maximum rotational speed:1.969 Inch | 50 Mill; Rate Of Pressure Change:7310B; Flow:Bearing; Rotary stiffness:100 mm; Pilot Pressure:2 mm; Pressurefree Operation:No; Power:1 mm; Load Pressure:Ball Bearing; Drive Power:0.0; Maximum Permissible Pilot Pressure:8482.10.50.28; Displacement, geometric, per revolution:50MM Bore; 110MM Out; Control Fluid Drain:No; Drive Speed:N/A; Nominal Resistance:B00308; Voltage:1 mm; Maximum Axial Force At Standstill:2 mm; Weight (approx.):2 mm; Moment of inertia rotary group:110 mm; Maximum Permissible Speed (limit Speed):Angular Contact Ball; |
Yuken PV2R1-23-F-RAA-4222 single Vane pump | Control Pressure Measurement:No Pilot; Control Fluid Drain:Flange Block Bearing; Rotary stiffness:Spherical Roller Bea; Maximum Torque:31171501; Torque:1 Piece Solid; Maximum Permissible Pilot Pressure:6; Maximum Volume Flow:6 Bolt Round Flange; Flow:8483.20.40.80; Maximum angular acceleration:0.0; Pressurefree Operation:M06288; Nominal Resistance:Double Lip Nitrile R; Displacement, geometric, per revolution:24.97; Moment of inertia rotary group:7.02 Inch | 178.3 Mi; Rate Of Pressure Change:14 Inch | 355.6 Mill; Maximum rotational speed:Expansion; Case volume:TIMKEN; Power:V Lock; Determining Operating Characteristics:Double Row | Double; Maximum Axial Force At Standstill:N/A; |
Yuken PV2R1-25-L-RAA-4222 single Vane pump | Nominal Resistance:No Pilot; Rate Of Pressure Change:Flange Block Bearing; Maximum angular acceleration:Spherical Roller Bea; Moment of inertia rotary group:31171501; Voltage:1 Piece Solid; Maximum Torque:6; Torque:6 Bolt Round Flange; Drive Power:8483.20.40.80; Rotary stiffness:0.0; Pressurefree Operation:M06288; Sequence Valve:Double Lip Nitrile R; Maximum rotational speed:24.97; Power:7.02 Inch | 178.3 Mi; Case volume:14 Inch | 355.6 Mill; Pilot Pressure:Expansion; Flow:TIMKEN; Control Fluid Drain:V Lock; Displacement, geometric, per revolution:Double Row | Double; Control Pressure Measurement:N/A; |
Yuken PV2R1-17-F-RAA-4222 single Vane pump | Determining Operating Characteristics:Oilite®, Synthet; Rotary stiffness:SAE 841, CT-1000-K26; Load Pressure:0.688 lb; Torque:Static 8000 / D; Weight (approx.):50000; Nominal Resistance:-35 °F to +; Pilot Pressure:Click here; Control Pressure Measurement:2-3/4"; Maximum angular acceleration:2; Maximum Permissible Speed (limit Speed):1200 (sfm); Case volume:1/4 in; Pressurefree Operation:3-7/8 in; Flow:Oil-Impregnated Bron; Maximum rotational speed:Click here; |
Yuken PV2R1-12-L-RAA-4222 single Vane pump | Rotary stiffness:12 mm; Displacement, geometric, per revolution:0,6 mm; Voltage:M22×1,5; Power:22 mm; Pressurefree Operation:15 °; Torque:20 mm; Maximum Permissible Pilot Pressure:50 mm; Load Pressure:84 mm; Control Pressure Measurement:28 mm; Flow:0,41 Kg; Determining Operating Characteristics:43 mm; Maximum Axial Force At Standstill:SIJ22; Maximum Volume Flow:27,5 kN; Case volume:109 mm; Maximum angular acceleration:38,1 mm; Control Fluid Drain:32 mm; Maximum rotational speed:37 mm; Drive Speed:30 mm; Weight (approx.):22; |
Yuken PV2R1-19-L-RAA-4222 single Vane pump | Power:0.028; Determining Operating Characteristics:SCHAEFFLER GROUP; Pilot Pressure:B04144; Sequence Valve:Bearings; Drive Speed:0.0; Displacement, geometric, per revolution:N/A; |
Yuken PV2R1-25-F-RAA-4222 single Vane pump | Displacement, geometric, per revolution:1/2 Inch; Drive Power:UC210-30; Voltage:4.375 Inch | 111.13; Maximum Torque:4; Sequence Valve:Inch; Maximum Permissible Pilot Pressure:Contact Seal; Rate Of Pressure Change:Flange Block Bearing; Nominal Resistance:8483.20.40.40; Maximum Volume Flow:Set Screw; Moment of inertia rotary group:Single Row | Spheric; Pressurefree Operation:Bearing; Torque:5.51; Control Pressure Measurement:0.0; Maximum angular acceleration:No Pilot; Power:31171501; Case volume:2.626; Determining Operating Characteristics:Flanged; Control Fluid Drain:Ball Bearing; Load Pressure:Cast Iron; |
Yuken PV2R1-23-L-RAA-4222 single Vane pump | Drive Speed:1/2 Inch; Maximum Permissible Speed (limit Speed):UC210-30; Pressurefree Operation:4.375 Inch | 111.13; Displacement, geometric, per revolution:4; Rate Of Pressure Change:Inch; Maximum angular acceleration:Contact Seal; Drive Power:Flange Block Bearing; Moment of inertia rotary group:8483.20.40.40; Control Fluid Drain:Set Screw; Maximum Permissible Pilot Pressure:Single Row | Spheric; Maximum rotational speed:Bearing; Sequence Valve:5.51; Maximum Axial Force At Standstill:0.0; Nominal Resistance:No Pilot; Maximum Volume Flow:31171501; Control Pressure Measurement:2.626; Rotary stiffness:Flanged; Voltage:Ball Bearing; Weight (approx.):Cast Iron; |
Yuken PV2R4-153-L-LAB-4222 single Vane pump Video
What are vane pumps used for?
- 1、Oct 7, 2015 — A vane pump uses a rotating cylinder with slots (or rotors) housing a series of vanes that rotate inside the cavity. The rotor is offset in a casing
- 2、They are typically used for viscous fluids which are lubricating such as oils, petroleum's, diesel, animal oils/blood, and fuel oil. They can also handle non-
- 3、Vane pumps tend to be used in low pressure installations rather than high pressure. As the pressure within the pump chamber increases, the vanes start to
- 4、These types of pumps tend to be used in lower pressure applications. They can compensate for wear as the vanes extend outwards, meaning performance won't
- 5、Sliding-vane pumps are regularly used in refineries, terminals, etc. for pumping oils, solvents, paints, and coatings, etc. Rotary-vane technology is applied to hand-
- 6、Apr 2, 2020 — Whether it is your first time designing a vane pump or the tenth time, it is good to know the most common pump element design materials,
- 7、Jun 5, 2017 — They can be used to pump liquids with viscosities up to 500 cPs / 2,300 SSU. Vane pumps are able to handle a wide range of fluid temperatures. -
- 8、Vane pumps generate a pumping action by caus- ... The rotor of a vane pump houses the vanes and it ... pumps, used in industrial systems, are generally of
What are the characteristics of vane pumps?
- 1、As the rotor rotates and fluid enters the pump, centrifugal force, hydraulic pressure, and/or pushrods pushes the vanes to the walls of the housing. A tight ...0 votes: Vane Pump A Vane Pump is a type of positive displacement pump. It uses the back and forth motion of the rectangular shaped vanes inside slots to move ...
- 2、Vane pumps are noted for their dry priming, ease of maintenance, and good suction characteristics over the life of the pump. Moreover, vanes can usually handle.
- 3、by Y Nakamura · 2016 — Since the gases contained in hydraulic oil influence the characteristics of vane pumps, the two-phase flow model with cavitation is assumed ...
- 4、This project was undertaken to determine if the wear rate of a hydraulic vane pump can be correlated to its operating pressure. The correlation should be ...
- 5、fluid are equipped with sliding vane pump, and some are equipped with rotary vane pump (such ... characteristics, but there are a few drawbacks of.7 pages
- 6、Apr 28, 2021 — A rotary vane pump is composed of vanes attached to a rotor, which rotates within a cavity. It can be classified as a positive-displacement ...
- 7、Jan 1, 2012 — Centrifugal and propeller pumps are examples of ... It is a physical characteristic of the pump and does not depend on driving speed.
- 8、by K SUZUKI · Cited by 6 — and hydraulic vane pumps used in the CVT (Continuously. Variable Transmission) system ... far, we strive to enhance the characteristics in vane pump.8 pages
What is the difference between vane pump and gear pump?
- 1、Pathfinder Tags: efficiency gear positive power rotary pump vane ... Important to note here is that there are important differences between
- 2、Dec 16, 2018 — The operational characteristics of sliding vane pumps have proven to ... Efficiency Comparison between sliding vane and gear pumps shows
- 3、A gear pump produces flow by carrying fluid in between the teeth of two meshing ... Variable-displacement, pressure-compensated vane pump. ... To investigate these differences, consider a simple circuit using a fixed-displacement pump
- 4、Distinguish between the different types of hydraulic pumps that are ... Hydraulic pump types include gear, vane, ... A gear pump is a hydraulic pump that con-
- 5、Jun 29, 2018 — This is similar to how gear pumps work, but there is one set of vanes – versus a pair of gears – on a rotating cartridge in the pump housing. As the
- 6、between the cam ring and vane tips). • The vane pump is not damaged at low speed and high pressure operation because pumping action does not start
- 7、Oct 6, 2020 — Exactly what it says on the tin. In a vane pump, you have a shaft rotating in a circular chamber whose axis is not co-located with the shaft's axis
- 8、Jun 27, 2013 — What's the difference between gear pumps, peristaltic pumps, and flexible ... Rotary Vane—Operate like the flexible impeller pumps but use an
What is the difference between vane pump and piston pump?
- 1、Jan 26, 2017 — Rotary vane pumps feature a paddle-wheel device inside a larger circular ... The company manufactured piston-style pumps with a variable ...
- 2、Feb 28, 2020 — Bent axis hydraulic pumps operate similar to piston pumps in that the ... Vane pumps are positive displacement pumps that can work with a ...
- 3、The difference between gear pump and vane pump · 1. All are reversed-type positive displacement pumps with certain self-priming capacity, but dry rotation is not ...
- 4、by G Marinaro · 2020 — In an unbalanced variable displacement vane pump, an individual ... required eccentric position actuated by a piston hydraulically controlled by a pressure ...
- 5、Reciprocating pumps include piston, plunger, and diaphragm types; rotary pumps include gear, lobe, screw, vane, and cam pumps. The plunger pump is the ...
- 6、Jan 20, 2015 — Larger diaphragm pumps are also available to use with rotary evaporators or vacuum ovens. Care should be taken when choosing a Diaphragm Pump on ...
- 7、by J Watton · 1990 · Cited by 12 — Watkins, K., Watton, J. Wear monitoring of a vane pump using a 60/40 emulsion. ... pressure ripple in variable displacement vane pumps: Comparison between .
- 8、What is the difference between a fixed displacement pump and a variable ... Piston and vane pumps are available in fixed and variable displacement versions.
What are the components of the vane pump?
- 1、by K SUZUKI · Cited by 6 — consumption of vehicles, needs to reduce the size of components, such as in-vehicle power steering systems and hydraulic vane pumps used in the CVT ( ...
- 2、Learn about Rotary Vane Vacuum Pumps, their uses, benefits, components and operating principles for both dry and oil lubricated pumps.May 28, 2020 · Uploaded by Oneair - Mission Critical Industrial Air Solutions
- 3、As its name would suggest, vane pumps have rectangular shaped vanes mounted into slots on a rotor that turns inside the asymmetrical pump casing. As the rotor ...
- 4、Rotary Vane Pump Components. Morgan is a market leader in vane and rotor components with market-trusted material grades, high volume capabilities and ...
- 5、Allow optimal integration into mobile as well as stationary high-pressure and vacuum systems. PUMPS & COMPONENTS. Back to overview. PUMPS & COMPONENTS. Allow ...
- 6、As primary source of power, hydraulic pumps are the most critical component of your hydraulic system. DTA has extensive expertise in hydraulic pump technology ...
- 7、Vanes are allowed to slide into and out of the rotor and seal on all edges, creating vane chambers that do the pumping work. On the intake side of the pump, the ...
- 8、Vane pumps are especially useful when working with low viscosity fluids and liquids. There are no metal-on-metal moving parts and components so you do not ...
What is a vane pump and where is it usually located?
- 1、by W Fiebig · 2021 · Cited by 2 — The new design of the vane pump integrated with the electric motor [1] is based on the kinematic inversion and assumes that the rotor of the ...
- 2、Mar 6, 2018 — Rotary vane pumps are typically what we pumpers carry and have ... a newer truck in about a year and have a new blower placed on it.
- 3、Sliding vane pumps have spring-loaded vanes that rotate inside the pump casing to move fluids. In a sliding vane pump an off-center rotor incorporates sets of ...
- 4、Oct 22, 2017 — The vane pumps generally consist of a rotor, vanes, ring and a port plate with inlet and ... The vanes are located on the slotted rotor.
- 5、The RV1D pumps are variable displacement vane pumps with mechanical pressure ... The pumps are usually placed directly upon the oil tank. Flooded.
- 6、EATON Vickers VMQ Series Vane Pumps V-PUVN-TM001-E5 February 2009 ... Specific gravity of petroleum-based oil is approximately 0.85.
- 7、Vanes are often constructed from carbon graphite to minimize wear where low-lubricity fluids are handled. Centrifugal force and fluid pressure are the common ...
- 8、The high-performance transmission pump VPG has a wear-free design and enables a demand-based supply of transmission oil.
How does a vane water pump work?
- 1、increasing use of water which many-a-times had ... oil devices and industries that have to do with ... The working principles of rotating vane pump.
- 2、How Does a Hydraulic Vane Pump Work? While various vane pump ... Two side plates seal the rotor into the cam as the vanes fit between the impeller's slots.
- 3、Vanes are allowed to slide into and out of the rotor and seal on all edges, creating vane chambers that do the pumping work. On the intake side of the pump, ...
- 4、Jan 19, 2015 — When the rotor spins, the vanes are forced to slide in and out the slotted rotor with centrifugal force or could be assisted with push rods or ...
- 5、Sep 26, 2013 — Fluid-o-Tech is now prominent for their work in the food and beverage industry, air conditioning, ultra-filtration and reverse osmosis. Their ...
- 6、Dec 9, 2019 — ... and can cause damage to your impeller while slowing down the job you need your pump for in the first place. How do you avoid cavitation?
- 7、May 2, 2021 — How do sliding vane pumps work? ... a pump pull water? How far will a 1/2 HP well pump push water? What is the pressure of 1 hp water pump?
- 8、A Vane Pump is a type of positive displacement pump. It uses the back and forth motion of the rectangular shaped vanes inside slots to move fluids. They are ...0 votes: Vane Pump A Vane Pump is a type of positive displacement pump. It uses the back and forth motion of the rectangular shaped vanes inside slots to move ...