#Yuken PV2R4-184-F-RAA-30 single Vane pump#Parts Table 1## | ||||||||
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Push Rod | 18 | 24 | 38 mm | 37 | ||||
Ball Guide | 30 mm | 60 mm | Metric | 31 | ||||
Bearing Plate | 260 mm | 320 mm | 10,6 Kg | 365 kN | ||||
Snap Ring | 50,8 mm | 107,95 mm | 142 mm | 24 +0.021 / 0 | ||||
Guide Ball | 36.51 mm | 710 1/min / Reference speed | 1.42 kg | 25.7 kN | ||||
Piston Sets | 1.26 Inch | 32 Millimeter | 1820 1/min / Limiting speed | - | MI | ||||
Shoe Piston | 0.394 Inch | 10 Millimeter | Felt | 0.074 | 1820 1/min / Limiting speed | ||||
Oil Distribution Plate | 48 mm | 200 °C | - | US207-23G2T20 | ||||
Barrel Washer | 2.0000 in | 2.4989 in | AB4399E0 SB 125 155 14 VMQ NOK | 59 | ||||
Piston Shoe | 1.6875 in | 3.3465 in | 68 mm | 320 | ||||
Housings Casings | Metric | 40 mm | SCHAEFFLER GROUP | 59 mm | ||||
Set Plate | 40 mm | 80 mm | 40x80x30.18 | 30,18 mm | ||||
Shoe Plates | 140 mm | 180 mm | 200 °C | Non-Expansion Bearing (Fixed) | ||||
Press Pin | Non-Expansion Bearing (Fixed) | 180 mm | 0,63 Kg | 35 mm |
Yuken PV2R1-17-L-RAA-4222 single Vane pump | Weight (approx.):0.028; Displacement, geometric, per revolution:SCHAEFFLER GROUP; Control Pressure Measurement:B04144; Load Pressure:Bearings; Determining Operating Characteristics:0.0; Torque:N/A; |
Yuken PV2R1-17-F-RAA-4222 single Vane pump | Maximum Axial Force At Standstill:No Pilot; Control Fluid Drain:Flange Block Bearing; Power:Spherical Roller Bea; Load Pressure:31171501; Determining Operating Characteristics:1 Piece Solid; Rotary stiffness:6; Rate Of Pressure Change:6 Bolt Round Flange; Pilot Pressure:8483.20.40.80; Torque:0.0; Moment of inertia rotary group:M06288; Nominal Resistance:Double Lip Nitrile R; Drive Power:24.97; Pressurefree Operation:7.02 Inch | 178.3 Mi; Maximum angular acceleration:14 Inch | 355.6 Mill; Maximum Torque:Expansion; Control Pressure Measurement:TIMKEN; Maximum rotational speed:V Lock; Voltage:Double Row | Double; Case volume:N/A; |
Yuken PV2R1-31-L-RAA-4222 single Vane pump | Weight (approx.):250,000 mm; Torque:46,000 mm; Flow:250x349.500x46; Case volume:46,000 mm; Voltage:349,500; Displacement, geometric, per revolution:349,500 mm; Pressurefree Operation:250,000; Maximum rotational speed:SC5003; Maximum Axial Force At Standstill:46,000; |
Yuken PV2R1-23-L-RAA-4222 single Vane pump | Control Fluid Drain:31171504; Displacement, geometric, per revolution:C3-Loose; Control Pressure Measurement:No; Maximum Permissible Speed (limit Speed):0.894; Pressurefree Operation:B00308; Rotary stiffness:Single Row Ball Bear; Voltage:Ball; Flow:4.0; Pilot Pressure:No; Case volume:0.866 Inch | 22 Mill; Drive Speed:8482.10.50.68; Rate Of Pressure Change:Metric; Load Pressure:NACHI; Weight (approx.):N/A; Maximum rotational speed:ABEC 1 | ISO P0; Maximum angular acceleration:Open; Maximum Volume Flow:1.97; Maximum Axial Force At Standstill:85MM Bore; 130MM Out; Torque:5.118 Inch | 130 Mil; Determining Operating Characteristics:6017 C3 BN; |
Yuken PV2R1-31-F-RAA-4222 single Vane pump | Displacement, geometric, per revolution:0.028; Case volume:SCHAEFFLER GROUP; Voltage:B04144; Drive Speed:Bearings; Pressurefree Operation:0.0; Maximum Permissible Pilot Pressure:N/A; |
Yuken PV2R1-12-L-RAA-4222 single Vane pump | Pilot Pressure:1/2 Inch; Weight (approx.):UC210-30; Maximum Axial Force At Standstill:4.375 Inch | 111.13; Pressurefree Operation:4; Drive Speed:Inch; Flow:Contact Seal; Displacement, geometric, per revolution:Flange Block Bearing; Control Fluid Drain:8483.20.40.40; Torque:Set Screw; Sequence Valve:Single Row | Spheric; Power:Bearing; Maximum angular acceleration:5.51; Control Pressure Measurement:0.0; Maximum Torque:No Pilot; Rotary stiffness:31171501; Nominal Resistance:2.626; Case volume:Flanged; Voltage:Ball Bearing; Determining Operating Characteristics:Cast Iron; |
Yuken PV2R1-25-L-RAA-4222 single Vane pump | Maximum Permissible Pilot Pressure:Cylindrical Bore; Weight (approx.):1.969 Inch | 50 Mill; Maximum rotational speed:7310B; Determining Operating Characteristics:Bearing; Case volume:100 mm; Voltage:2 mm; Rotary stiffness:No; Maximum Axial Force At Standstill:1 mm; Power:Ball Bearing; Displacement, geometric, per revolution:0.0; Load Pressure:8482.10.50.28; Control Fluid Drain:50MM Bore; 110MM Out; Moment of inertia rotary group:No; Drive Speed:N/A; Control Pressure Measurement:B00308; Maximum angular acceleration:1 mm; Pressurefree Operation:2 mm; Pilot Pressure:2 mm; Maximum Torque:110 mm; Drive Power:Angular Contact Ball; |
Yuken PV2R1-25-F-RAA-4222 single Vane pump | Drive Speed:N/A; Flow:SKF; Weight (approx.):0.0; Pilot Pressure:713649300; Pressurefree Operation:Bearings; Load Pressure:B00234; Maximum Volume Flow:0.661; Rate Of Pressure Change:VKBA 1460; Power:CX118; Drive Power:5024; |
Yuken PV2R1-14-L-RAA-4222 single Vane pump | Control Fluid Drain:Cylindrical Bore; Maximum rotational speed:1.969 Inch | 50 Mill; Maximum Volume Flow:7310B; Power:Bearing; Pressurefree Operation:100 mm; Load Pressure:2 mm; Control Pressure Measurement:No; Maximum Axial Force At Standstill:1 mm; Case volume:Ball Bearing; Drive Power:0.0; Nominal Resistance:8482.10.50.28; Weight (approx.):50MM Bore; 110MM Out; Moment of inertia rotary group:No; Maximum angular acceleration:N/A; Maximum Torque:B00308; Flow:1 mm; Drive Speed:2 mm; Voltage:2 mm; Displacement, geometric, per revolution:110 mm; Torque:Angular Contact Ball; |
Yuken PV2R1-23-F-RAA-4222 single Vane pump | Pressurefree Operation:N/A; Maximum Volume Flow:SKF; Maximum Axial Force At Standstill:0.0; Power:713649300; Torque:Bearings; Drive Speed:B00234; Flow:0.661; Drive Power:VKBA 1460; Rate Of Pressure Change:CX118; Sequence Valve:5024; |
Yuken PV2R1-19-L-RAA-4222 single Vane pump | Maximum Permissible Speed (limit Speed):No Pilot; Pilot Pressure:Flange Block Bearing; Maximum Axial Force At Standstill:Spherical Roller Bea; Maximum angular acceleration:31171501; Displacement, geometric, per revolution:1 Piece Solid; Control Pressure Measurement:6; Sequence Valve:6 Bolt Round Flange; Maximum Volume Flow:8483.20.40.80; Drive Power:0.0; Maximum rotational speed:M06288; Rotary stiffness:Double Lip Nitrile R; Torque:24.97; Load Pressure:7.02 Inch | 178.3 Mi; Voltage:14 Inch | 355.6 Mill; Drive Speed:Expansion; Control Fluid Drain:TIMKEN; Power:V Lock; Maximum Torque:Double Row | Double; Nominal Resistance:N/A; |
Yuken PV2R1-14-F-RAA-4222 single Vane pump | Determining Operating Characteristics:0.028; Drive Power:SCHAEFFLER GROUP; Control Pressure Measurement:B04144; Rotary stiffness:Bearings; Load Pressure:0.0; Moment of inertia rotary group:N/A; |
Yuken PV2R4-184-F-RAA-30 single Vane pump Video
What is the difference between vane pump and gear pump?
- 1、VPV 32/25, Combination pump, S.A.E. 'F' gear pump, ... VPV pumps can be operated over the entire speed range as defined in the specifications pages, independent of the ... Whisper™ VPV Vane Pump Catalog | Comparison of sound levels
- 2、What is the purpose of a hydraulic pump in a fluid power system ? Purpose of hydraulic ... by electric motor. 2 Differentiate between positive displacement and non-positive displacement pump ... Vane Pumps ( fixed or variable displacement pumps) ... Why gear pumps cannot be used as a variable displacement pump. In the
- 3、gear pump; vane pump. Divided by whether the displacement can be adjusted: fixed displacement pump; variable displacement pump. Divided by oil discharge
- 4、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
- 5、You can use hydraulic machines - equipped with a pump - to do different types of ... types of hydraulic pumps exist: gear pumps, piston pumps and vane pumps
- 6、Aug 24, 2015 — Gear pumps can also be used in hydraulic power steering systems to ... injection-molding machinery, vane pumps operate with a much lower
- 7、Our vane pumps offer exceptional pressure and suction capability combined with an ... The nominal flow rates range between 1000 and 2300 l/h at 1450 rpm
- 8、Unbalanced vane pump: Unbalanced vane pumps are of two varieties: ... displacement feature can be brought into vane pumps by varying eccentricity between the rotor and the cam ... 1.9Comparison of Hydraulic Pumps. Pump ... One should use a pump that is suited to the system, whether a gear pump which has fewer
What are the characteristics of vane pumps?
- 1、by M Rundo · 2019 · Cited by 13 — parameters on the filling of a vane pump has been investigated through the ... Flow-speed characteristics at 0.2 MPa and at two fixed ...
- 2、What is rotary vane pump characteristics and application scope ... 1. Small size, light weight, low noise;. 2. ... single stage rotary vane vacuum pump is a novel ...
- 3、Manufacturers and Suppliers of Sliding Vane Pump, Vane Pumps, Rotary Vane Pump ... in keeping with industry's specific requirements and has unique features.
- 4、... swinging vane, rolling vane, and external vane. Vane pumps are noted for their dry priming, ease of maintenance, and good suction characteristics ov.
- 5、The LVP Series vane pumps from Viking Pumps include the following features and more: Capacity ranges up to 160 GPM; Viscosity ranges from 28 to 2,300 SSU ...
- 6、What are the characteristics of oil-sealed rotary vane pumps and what should you consider when working with these pumps?Mar 12, 2019 · Uploaded by Edwards Vacuum
- 7、Dynamic characteristics measuring layout. 5. Characteristics PV7‒../06-10 ... 01 Vane pump, direct controlled, maximum operating pressure 100 bar. PV7.
- 8、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 ...
What are vane pumps used for?
- 1、Eaton V10 and V20 fixed displacement vane pumps are a common first ... flow pulsations and noise; Used as pilot and auxiliary pumps for complex systems
- 2、Learn about Rotary Vane Vacuum Pumps, their uses, benefits, components and operating principles for both dry and oil lubricated pumps
- 3、fixed displacement high pressure hydraulic vane pumps. Two opposed pumping chambers formed by the elliptical profile of the cam within the cartridge cancel out
- 4、Sliding vane pumps are used in a wide range of applications within the LPG, refined fuels and chemical industry. The sliding vane design combines low cost
- 5、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
- 6、Vane pumps are used where high delivery pressures are required. HM 365.19 is a vane pump that is delivered ready for installation, mounted on a plate
- 7、Jun 30, 2009 — They are also used as pumps carrying out high viscosity substances transfer such as lubricating oil.Lobe-type, flexible-vane or screw pump are
- 8、Hydraulic pumps are used in all hy- draulic systems and are classified by the type of pumping mechanisms used. ... Hydraulic pump types include gear, vane,
What is the difference between vane pump and piston pump?
- 1、Feb 23, 2022 — The maximum difference of temperature rise between theoretical calculation and ... pumps are mainly reflected in the axial piston pump.
- 2、Jun 4, 2018 — Vane pumps reside in the middle ground between gear and piston pumps. They're more efficient than gear pumps, but less so than piston pumps.
- 3、Aug 24, 2015 — In most cases, the operating pressure of a vane pump will not go over 175 ... Inside these pumps, the pistons extend in a radial direction ...
- 4、What is the difference between vane pump and gear pump? — Vane pumps reside in the middle ground between gear and piston pumps.
- 5、Reciprocating pumps displace liquid by a backward and forward motion. This motion is in one direction, usually caused by a piston or diaphragm. On the other ...
- 6、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.
- 7、For all applications in the low and medium vacuum range. Pfeiffer Vacuum rotary vane pumps have been the most popular pumps for generating low and medium ...
- 8、Oct 19, 2021 — An integral element of the design is the way the vane tips have been created to meet the motor housing and the vane tip. Piston and Plunger ...
What are the components of the vane pump?
- 1、A vane pump generates pumping action by tracking the vanes along the casing wall. These vanes are located on the slotted rotor and the rotor inside the pump is ...
- 2、Denison vane pumps build from stock with any combination of different cartridges in single, double and triple pumps. Denison Hydraulics by Parker Hannifin.
- 3、Instead of slots and rigid vanes, though, the flexible vane pump employs vanes that are molded from a flexible material which deforms as the rotor makes its ...
- 4、Parts we typically stock for vane pumps are: cartridge kits, bearings, housings & casings, seal kits, vanes, rotors, shafts and more. Contact us for pricing & ...Hydraulic Replacement Parts Cut Sheet: Dow...
- 5、The two major parts of the device are the impeller (a wheel with vanes) and the circular pump casing around it. In the most common type, called the volute ...
- 6、Foster Sliding Vane Pumps. Foster pumps have been an essential component of many industries since its inception in 1845. Heavily relied upon for its ...
- 7、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 ...
- 8、The main components of the pump are the cam surface and the rotor. ... 1.7.4 Pressure-Compensated Variable Displacement Vane Pump (an Unbalanced Vane.
What is a vane pump and where is it usually located?
- 1、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.
- 2、Reciprocating pumps include piston, plunger, and diaphragm types; ... A radial flow pump is commonly referred to as a straight centrifugal pump; ...
- 3、Edwards RV series of vacuum pumps have become the industry standard with over 300,000 units sold. This success has been based on field proven design and ...
- 4、Dec 12, 2018 — Based on their self-compensating design that accounts for pumping element wear through the extension of the vanes during operation, PD sliding ...
- 5、Mar 12, 2019 — The oil employed for oil-seal rotary vane pumps is commonly a ... Oil is just one of many sources of contamination found in vacuum pumps.
- 6、Rotary vane pumps produce hydraulic power for automatic transmissions. Located in the cover of the transmission, they pull oil at low pressure from a sump ...
- 7、Always have the regulator valve on the same side of the pump as the output. Mount the unit so the regulator is facing up, or located in the port above the shaft ...
- 8、Karl Jousten · 2016 · Technology & EngineeringUsually, designs feature seven vanes in order to reduce the load on each individual vane. Dry-running sliding vane rotary pumps are also referred to as ...
How does a vane water pump work?
- 1、Sep 22, 2021 — Vane pumps operate most efficiently with low viscosity oils, such as water and petrol. Higher viscosity fluids on the other hand, ...
- 2、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?
- 3、Permanent suction strainers should be installed to protect rotary pumps from damage by ... Vane pumps are commonly used on mobile hydraulic equipment. Fig.
- 4、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 ...
- 5、Mar 12, 2019 — How do rotary vane vacuum pumps work? ... temperature is low and air damp) will cause condensates (e.g. water vapour) to collect in the oil.
- 6、Dec 10, 2020 — Screw pumps; Vane pumps; Piston pumps ... How Does a Hydraulic Pump Work? ... Originally this fluid was water, today the wider use is in ...
- 7、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 ...
- 8、The user must authorise the operating personnel to do the work that has to be done. The personnel must have read and understood the operation manual completely ...