#Yuken PV2R3-116-F-LAB-4222 single Vane pump#Parts Table 1## | ||||||||
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Shoe Plates | 170 mm | 95 mm | Single | 43 mm | ||||
Cylinder Blocks | 38 mm | 30 | 0,05 Kg | 8482.20.00.00 | ||||
Swash Plate Assemblies | 0.984 Inch | 25 Millimeter | 31.75 mm | 1.63 kg | 42.9 mm | ||||
The Thrust Plate | 0.25 Inch | 6.35 Millimeter | 2.004 Inch | 50.902 Millimeter | - | SDAF 22220 | ||||
Pressure Plate | 1.8750 in | 3.937 Inch | 100 Millimeter | 36.77 | 15.2500 in | ||||
Inclined Plate | 1.85 Inch | 47 Millimeter | 0.984 Inch | 25 Millimeter | 0.1 | 0.63 Inch | 16 Millimeter | ||||
Gear Pump | 8482.20.00.00 | 1.5 in | - | 8483.20.40.80 | ||||
Push Rod | 24.995 Inch | 634.873 Millimeter | 19.253 Inch | 489.026 Millimeter | 158.8 | Ball Bearing | ||||
Guide Ball | 4.724 Inch | 120 Millimeter | 2.559 Inch | 65 Millimeter | - | 1.811 Inch | 46 Millimeter | ||||
Shoe Piston | 520 mm | 380 mm | 0.984 Inch | 25 Millimeter | 190 mm | ||||
Friction Plate | [Steel] Steel | - | 25.4 mm | 21.7 mm | ||||
Socket Bolt | 4.724 Inch | 120 Millimeter | 25MM Bore; 47MM Outside Diameter; 16MM Width; 2 Seals; No Flush Ground; Ball Bearing; Double Row of Balls; ABEC 1 | ISO P0; No Filling Slot; No Snap Ring; C0-Medium; Polyamide Cage; 1 (Single) | 8 Nm | EW-324804 | ||||
Seal Kits | 47 mm | 30 mm | 2,1 mm | 30 mm | ||||
Retainer Plate | Polyamide | 1,58 kg / Weight, adapter sleeve | Available | 47 mm |
Yuken PV2R1-17-L-RAA-4222 single Vane pump | Control Fluid Drain:Uncoated; Maximum Permissible Pilot Pressure:053893333496; Maximum Permissible Speed (limit Speed):49400 lbf; Maximum angular acceleration:55000; Determining Operating Characteristics:-65 to +250 &de; Torque:2.5000 in; Pilot Pressure:55433D, 55444D; Power:Chrome Steel; Moment of inertia rotary group:1.9675 in; |
Yuken PV2R1-31-F-RAA-4222 single Vane pump | Displacement, geometric, per revolution:No Pilot; Case volume:Flange Block Bearing; Nominal Resistance:Spherical Roller Bea; Maximum Axial Force At Standstill:31171501; Sequence Valve:1 Piece Solid; Rate Of Pressure Change:6; Weight (approx.):6 Bolt Round Flange; Load Pressure:8483.20.40.80; Flow:0.0; Maximum Permissible Pilot Pressure:M06288; Maximum rotational speed:Double Lip Nitrile R; Pressurefree Operation:24.97; Determining Operating Characteristics:7.02 Inch | 178.3 Mi; Drive Power:14 Inch | 355.6 Mill; Control Pressure Measurement:Expansion; Moment of inertia rotary group:TIMKEN; Voltage:V Lock; Maximum Torque:Double Row | Double; Maximum Volume Flow:N/A; |
Yuken PV2R1-23-F-RAA-4222 single Vane pump | Rotary stiffness:420 mm; Sequence Valve:280 mm; Drive Power:33,5 Kg; Maximum Volume Flow:245 mm; Weight (approx.):65 mm; Load Pressure:65; Maximum angular acceleration:420; Control Fluid Drain:65 mm; Determining Operating Characteristics:QJ 1056; Power:553 kN; Maximum Permissible Speed (limit Speed):280x420x65; Case volume:280; |
Yuken PV2R1-31-L-RAA-4222 single Vane pump | Pilot Pressure:31171504; Sequence Valve:C3-Loose; Maximum angular acceleration:No; Determining Operating Characteristics:0.894; Rate Of Pressure Change:B00308; Flow:Single Row Ball Bear; Case volume:Ball; Control Pressure Measurement:4.0; Power:No; Maximum Permissible Pilot Pressure:0.866 Inch | 22 Mill; Drive Power:8482.10.50.68; Weight (approx.):Metric; Drive Speed:NACHI; Maximum Axial Force At Standstill:N/A; Load Pressure:ABEC 1 | ISO P0; Maximum Permissible Speed (limit Speed):Open; Control Fluid Drain:1.97; Pressurefree Operation:85MM Bore; 130MM Out; Voltage:5.118 Inch | 130 Mil; Displacement, geometric, per revolution:6017 C3 BN; |
Yuken PV2R1-17-F-RAA-4222 single Vane pump | Pressurefree Operation:N/A; Moment of inertia rotary group:SKF; Maximum Torque:0.0; Case volume:713649300; Flow:Bearings; Voltage:B00234; Sequence Valve:0.661; Maximum Permissible Pilot Pressure:VKBA 1460; Maximum Axial Force At Standstill:CX118; Control Pressure Measurement:5024; |
Yuken PV2R1-14-L-RAA-4222 single Vane pump | Case volume:Cylindrical Bore; Pressurefree Operation:1.969 Inch | 50 Mill; Maximum Axial Force At Standstill:7310B; Drive Speed:Bearing; Torque:100 mm; Maximum rotational speed:2 mm; Maximum Permissible Pilot Pressure:No; Displacement, geometric, per revolution:1 mm; Maximum Permissible Speed (limit Speed):Ball Bearing; Control Pressure Measurement:0.0; Nominal Resistance:8482.10.50.28; Pilot Pressure:50MM Bore; 110MM Out; Maximum Volume Flow:No; Drive Power:N/A; Moment of inertia rotary group:B00308; Determining Operating Characteristics:1 mm; Load Pressure:2 mm; Power:2 mm; Flow:110 mm; Sequence Valve:Angular Contact Ball; |
Yuken PV2R1-14-F-RAA-4222 single Vane pump | Pilot Pressure:1/2 Inch; Case volume:UC210-30; Maximum rotational speed:4.375 Inch | 111.13; Displacement, geometric, per revolution:4; Load Pressure:Inch; Nominal Resistance:Contact Seal; Control Pressure Measurement:Flange Block Bearing; Maximum Axial Force At Standstill:8483.20.40.40; Drive Speed:Set Screw; Weight (approx.):Single Row | Spheric; Power:Bearing; Maximum Permissible Pilot Pressure:5.51; Maximum Permissible Speed (limit Speed):0.0; Pressurefree Operation:No Pilot; Control Fluid Drain:31171501; Rate Of Pressure Change:2.626; Rotary stiffness:Flanged; Sequence Valve:Ball Bearing; Drive Power:Cast Iron; |
Yuken PV2R1-19-L-RAA-4222 single Vane pump | Maximum angular acceleration:12 mm; Maximum Permissible Pilot Pressure:0,6 mm; Nominal Resistance:M22×1,5; Voltage:22 mm; Drive Speed:15 °; Maximum Torque:20 mm; Maximum rotational speed:50 mm; Control Pressure Measurement:84 mm; Moment of inertia rotary group:28 mm; Weight (approx.):0,41 Kg; Flow:43 mm; Rotary stiffness:SIJ22; Sequence Valve:27,5 kN; Rate Of Pressure Change:109 mm; Maximum Axial Force At Standstill:38,1 mm; Torque:32 mm; Case volume:37 mm; Control Fluid Drain:30 mm; Maximum Permissible Speed (limit Speed):22; |
Yuken PV2R1-25-F-RAA-4222 single Vane pump | Pilot Pressure:Uncoated; Flow:053893333496; Maximum Permissible Pilot Pressure:49400 lbf; Voltage:55000; Weight (approx.):-65 to +250 &de; Displacement, geometric, per revolution:2.5000 in; Maximum rotational speed:55433D, 55444D; Maximum Permissible Speed (limit Speed):Chrome Steel; Moment of inertia rotary group:1.9675 in; |
Yuken PV2R1-25-L-RAA-4222 single Vane pump | Determining Operating Characteristics:N/A; Control Pressure Measurement:SKF; Maximum Axial Force At Standstill:0.0; Maximum Torque:713649300; Drive Power:Bearings; Rotary stiffness:B00234; Drive Speed:0.661; Flow:VKBA 1460; Control Fluid Drain:CX118; Sequence Valve:5024; |
Yuken PV2R1-23-L-RAA-4222 single Vane pump | Maximum angular acceleration:Cylindrical Bore; Load Pressure:1.969 Inch | 50 Mill; Voltage:7310B; Drive Power:Bearing; Drive Speed:100 mm; Moment of inertia rotary group:2 mm; Pressurefree Operation:No; Rotary stiffness:1 mm; Pilot Pressure:Ball Bearing; Maximum Volume Flow:0.0; Displacement, geometric, per revolution:8482.10.50.28; Weight (approx.):50MM Bore; 110MM Out; Nominal Resistance:No; Maximum Permissible Pilot Pressure:N/A; Maximum Permissible Speed (limit Speed):B00308; Control Fluid Drain:1 mm; Flow:2 mm; Determining Operating Characteristics:2 mm; Case volume:110 mm; Control Pressure Measurement:Angular Contact Ball; |
Yuken PV2R1-12-L-RAA-4222 single Vane pump | Nominal Resistance:4.375 Inch | 111.125; Weight (approx.):Tapered; Voltage:31171516; Rotary stiffness:TIMKEN; Maximum angular acceleration:Double Row; Power:B04336; Drive Speed:0.005; Rate Of Pressure Change:H924045; Maximum Permissible Pilot Pressure:0 Inch | 0 Millimete; Maximum Volume Flow:4.563 Inch | 115.9 M; Maximum Torque:Assembly; Determining Operating Characteristics:Tapered Roller Beari; Flow:17.61; Drive Power:Inch; Displacement, geometric, per revolution:8482.20.00.00; Maximum Permissible Speed (limit Speed):Bearing; Sequence Valve:8.438 Inch | 214.325; Case volume:Tapered Roller Beari; Pressurefree Operation:2 Single Cone | 1 Do; |
Yuken PV2R3-116-F-LAB-4222 single Vane pump Video
What are the characteristics of vane pumps?
- 1、Dec 3, 2021 — As with most hydraulic pumps the primary concern about the operating characteristic is how much the flow drops off as the pressure increases.
- 2、On a sliding vane pump, the rotor is placed close to the wall of the cam so a ... special design features must be incorporated into the pump to counteract ...
- 3、Rotary vane technology features low pulsation and low vibration, which enable consistent flow rates with minimal vibration. These traits make these units ...
- 4、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 ...
- 5、Dynamic characteristics measuring layout. 5. Characteristics PV7‒../06-10 ... 01 Vane pump, direct controlled, maximum operating pressure 100 bar. PV7.
- 6、This article describes the friction characteristics at a vane tip, which causes primary loss of torque in a balanced vane pump, through the measurement of ...
- 7、... characteristics of vane pumps in the presence of a ''scale effect'' ... of tests required to obtain the cavitation characteristics for several fixed ...
- 8、Parker Hannifin SAS. VPDE, Denison Vane Pumps. Vierzon - France. Features . ... For further information or if the performance characteristics outlined above ...
How does a vane water pump work?
- 1、Oct 19, 2016 — These vanes rotate when submersed in water which with it rotates the liquid. By doing this it builds up a centrifugal force to the water ...
- 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、by TF Wnek · Cited by 4 — by Centrifugal Pumps work ... cause, with an even number, impeller vanes would be ... rically opposite, two impeller vanes would be adjacent to the.
- 4、Understand the basic operating principle of a rotary vane pump and discover its ... the gas ballast facility permits pumping of vapors (water vapor in ...
- 5、Nov 17, 2021 — Large Water pumps with electric motors ... Rotary vane pumps work well with lighter viscous liquids and are used in lube oil service and ...
- 6、How it Works ... Blackmer sliding vane pumps use a rotor with sliding vanes that draw the liquid in behind each vane, through the inlet port and into the pumping ...
- 7、Rotary vane pumps are common in industrial and lab settings, and are used to pump gas, oil, water and other, low-viscosity fluids.
- 8、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 ...
What is a vane pump and where is it usually located?
- 1、Sep 1, 1991 — These pumps are used in almost every industrial and mobile market segment and are generally less expensive than comparable variable ...
- 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、Vanes are often constructed from carbon graphite to minimize wear where low-lubricity fluids are handled. Centrifugal force and fluid pressure are the common ...
- 4、A vane pump is a type of rotary positive displacement pump. It consists of vanes mounted radially on a cylindrical rotor, which is eccentrically located in the ...
- 5、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.
- 6、Disadvantage of Rotary Lobe Pumps: The initial investment may be greater for a rotary lobe pump because it is more costly to build. This is usually made up for ...
- 7、Apr 20, 2017 — Design of a rotary vane pumps usually consist of a housing, ... are various parts inside the working chamber and located inside the housing.
- 8、A vane pump is a self-priming positive displacement pump providing constant flow at varying pressures. Operation is via a motor connected to a gearbox as ...
What is the difference between vane pump and piston pump?
- 1、Oct 7, 2020 — Piston pump and vane pump is both fixed and variable types of pump ... Difference between Gear pump and centrifugal pump ...
- 2、Jan 26, 2017 — Rotary vane pumps feature a paddle-wheel device inside a larger circular ... The company manufactured piston-style pumps with a variable ...
- 3、How to read clues in hydraulic vane and piston pumps to learn what ... The Real Causes of Hydraulic Pump Failure . ... be caused by a defect in the pump.
- 4、by M El Ashmawy · 2009 · Cited by 12 — design with no pressure difference between the two sides of the vane is proposed. Keywords: vane pump, friction, PVD, hydraulic, power steering, coating.
- 5、Dec 23, 2015 — Gear pumps, vane pumps, piston pumps, the biggest difference between them is the structural characteristics are not the same.
- 6、A rotary vane pump is a positive-displacement pump that consists of vanes mounted to a ... What is a difference between vane pump and radial piston pump?Dec 9, 2021 · Uploaded by Viking Pump
- 7、Oct 7, 2020 — There is a vane which slides in a slot in the shaft, and is the full height of the pump chamber. Pump inlet is in the portion of the swept area where the piece ...2 answers · 1 vote: Exactly what it says on the tin. In a vane pump, you have a shaft rotating in a circular ...What is the difference between variable displacement ...1 answerMay 8, 2019What is the difference between a vane pump and a ...2 answersApr 29, 2021What is the difference between a vane pump and a ...2 answers
- 8、The pressure difference between the pump inlet and outlet ports. ... How does a variable displacement vane pump changes its displacement?
What are the components of the vane pump?
- 1、NEW REPLACEMENT PARTS FOR HEAVY EQUIPMENT ... 1U2652; Description: CARTRIDGE GP-VANE PUMP; Machine: 814B, 816B, 936, G936. Cartridge Kit Part No.
- 2、The main components of the pump are the cam surface and the rotor. The rotor contains radial slots splined to drive shaft. The rotor rotates inside the cam ring ...
- 3、Also commonly referred to as a rotary vane pump, this particular type of hydraulic pump may only have a few moving parts, but their precision is crucial.
- 4、A durable, single action, variable displacement vane pump capable of undervane pumping, components thereof, and pressure balancing method.
- 5、All industrial pumps are equipped with an adjustable internal relief valve and feature self-adjusting sliding vanes and vane drivers to improve pumping ...
- 6、A critical element in vane pump design is how the vanes are pushed into contact with the pump housing, and how the vane tips are machined at this very point.
- 7、Components of Vane Pump · 1) Casing · 2) Inlet Port · 3) Outlet Port · 4) Shaft · 5) Rotor · 6) Vanes · 7) Cam Ring.Jul 22, 2021 · Uploaded by TS7 StudyZoneWorking of Vane Pump · Components of Vane Pump · Types Of Vane Pumps
- 8、We are also a distributor for Northman Fluid Power. They provide direct replacement units and parts for Vickers 25V, 35V, 45V and Tandem Vane Pumps.
What are vane pumps used for?
- 1、Sep 24, 2020 — Although rotary vacuum pumps commonly pump oil, they can also be used to pump oil, gas, and other liquids, or run dry with clean air. In basic
- 2、Jan 6, 2018 — The rotary vane pumps have wound their way into the educational field by becoming indispensable for vacuum experiments in physics. Here, oil
- 3、If springs or other means are used to hold vanes out against the ring, efficient operation at speeds of 100 to 200 rpm is possible. Vane pumps maintain their high
- 4、Aug 7, 2020 — Rotary pumps are commonly used for pumping high viscosity liquids such as oil ... Most vane pumps operate via the same general principle
- 5、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
- 6、A centrifugal pump is a dynamic machine that uses impeller to increase the pressure of a fluid. They are generally used for liquid transportation in different areas
- 7、Where are they used? Vane pumps are used in many different positive displacement applications. They can handle thin liquids, like water and gasoline, as well as
- 8、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-
What is the difference between vane pump and gear pump?
- 1、Rotary-vane pumps are positive displacement machines capable of handling ... Vane pumps fall about midway between economical gear pumps and expensive piston pumps. Finally ... Positive Displacement Pumps - What's the Difference?
- 2、The Hydraulic Pump range consists of (1) Fixed displacement pin vane ... Fin Stabilizers (2) Steering Gears in Ram, Actuator and Rotary Vane type designs for
- 3、Pumping element designs include gears, lobes, rotary pistons, vanes, and screws. PD pumps are found in a wide range of applications -- chemical-processing;
- 4、Granco Ball Pump: Efficient and Simple Alternative to Gear and Vane Pumps ... “The biggest difference is its simple design,” says Alex Alessandro, Vice ... The ball pump features a rotor with four large pumping chambers suspended in a
- 5、Oct 14, 2020 — The present study focuses the attention on the correlation between the cam ring design and the kinematic flow ripple in ... Models for Flow Rate Simulation in Gear Pumps: A Review ... Kinematics of a balanced vane pump with circular tip vanes ... Involute Gear Pumps Versus Lobe Pumps: A Comparison
- 6、This above question "What is the difference between vane pump and radial piston pump? ... MCQ: The rotation of gears in internal gear pump takes place in
- 7、Dec 23, 2015 — The circular arc gear pump has the advantages of special structure, low noise and long service life, and each has its own advantages. Vane
- 8、Differentiate between fixed and variable displacement pumps. Classify and ... Identify parts in an unbalanced