Home>Products>PAKER Piston Pump>PAKER PV032 R1K1T1NMMC Piston Pump
PAKER PV032 R1K1T1NMMC Piston Pump MODELS
Need a CAD or 3D Model?
PAKER PV032 R1K1T1NMMC Piston Pump
category
PAKER Piston Pump
PAKER PV032 R1K1T1NMMC Piston Pump SPECIFICATIONS
Advance PAKER PV032 R1K1T1NMMC Piston Pump ShanDong Single Pump Instrument Co., Ltd. is your source for 11 mm A1 quality PAKER Piston Pump 124 mm H and accessories. shop online for home delivery or pick up in one of our 10000 . -20 °C T min.
- 0.2500 in
- 320 lb
- .6560 in
- Grease
- Female Threaded with Male Stud
- Max 350°
- 1/4-28
- .7500 in
- ShanDong Single Pump Instrument Co., Ltd.2020-07-10 09:46:19
Welcome to my shop! Glad to serve you! Please send your question!
PAKER PV032 R1K1T1NMMC Piston PumpCode description
- Right Hand
- .2810 in
- Commercial
- .3750 in
- With Lubrication Fitting
- 1.3120 in
- Carbon Steel - corrosion resistant plating
- CFF
- Alloy Steel - heat treated - chrome plated
- 1490409000
- 3200 lb
Details ofPAKER PV032 R1K1T1NMMC Piston Pump
PAKER PV032 R1K1T1NMMC Piston Pump Parts List | ||||||||
---|---|---|---|---|---|---|---|---|
Retainer Plate | 266,7 mm | 355,6 mm | 300 kN | 13,5 Kg | ||||
Guide Ball | 560 mm | 820 mm | 7203 kN | 465 Kg | ||||
Socket Bolt | 25 mm | Solid | 21,2 kN | 1,3 Kg | ||||
Pressure Plate | 30 | 37 mm | 38 mm | 1.5 mm | ||||
Set Plate | 130 mm | 200 mm | None | 1500 lbf | ||||
Seal Kits | 23.81 mm | 44,45 | 14 kN | 0.81 kg | ||||
Housings Casings | 0.472 Inch | 12 Millimeter | 1.26 Inch | 32 Millimeter | 66 | 0.109 | ||||
Oil Distribution Plate | 38 | 38 mm | N/A | 0.043 | ||||
Set Plate | 4800 r/min | 62,3 mm | Single Row | Angular Contact | Super High Precision | 0.245 | ||||
Cylinder Block | 10.9 | 0.4 | 16 mm | 35.4 | ||||
UCFB204-12NPMZ2 | 0.7500 in | 26.5 mm | 29 mm | M14 | ||||
33113 | 65 mm | 110 mm | 26.5 mm | 2-1/2 in | ||||
19834 | Metric | No | Heavy | 560 |
How do you bleed a hydraulic hand pump?
- 1、10,000 PSI HAND PUMP ... ALWAYS USE A PRESSURE FORCE GAUGE IN THE SYSTEM TO MONITOR PUMP ... To bleed hydraulic system - place pump in a horizontal.
- 2、Looking for hydraulic pump shut off equipment to ensure safety? ... If you activate a hand lever-operated directional control valve or activate the override ...
- 3、United States. Office of the Chief of Naval Operations · 1957 · AirplanesNavAer 00-80T - 42 NavAer OO - BOT - 42 I Piston Pressure Bleed ... Hand Pumps Some airplane hydraulic systems incorporate a hand pump which is used ...
- 4、Nov 4, 2019 — Close the release valve on the front of the hydraulic hand pump by rotating it clockwise until fully tight. Open the bleed valve on the rear of ...
- 5、Mityvac offers several solutions to meet your hydraulic clutch and brake ... to Mityvac hand vacuum/pressure pumps and vacuum brake bleeding equipment for ...
- 6、To do away with air in your hydraulic jack, you need to bleed your floor ... Next, you should locate the hydraulic pump's fluid and note the ...Jun 30, 2021 · Uploaded by Safe Jack
- 7、The warnings and precautions discussed in this manual cannot cover all ... Filling and Bleeding Hydraulic Fluid. If the Pump ... Bleed the Pump as follows:.
- 8、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.
- 9、Pressure Relief. Bleed Valve. Swaging Tool. Hydraulic Hand Pump. Bypass. Valve. Dip Stick. Threaded. Body Die. Hose. Indicator. Arm. Hydraulic Swaging Unit ...
- 10、When in Doubt - Bleed it Out! ... I rushed to the power-pack and started putting hands on hydraulic pumps - cold, cold, cold, oh sh*t, this one's hot!
What is pump cavitation?
- 1、Cavitation in a pump is the collapse of vapour bubbles in areas where the pressure locally drops to the fluid vapour pressure. The extent of.
- 2、Aug 17, 2021 — Suction Cavitation. Occurs when a pump is under low pressure or high vacuum conditions. · Discharge Cavitation · How To Prevent Pump Cavitation.
- 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、Aug 13, 2018 — Again, that fact has been covered several times, but what is cavitation? Pump repairers must understand this fluid effect, must know all about ...
- 5、Aug 2, 2017 — But there are a handful of flow-related vibration problems on pumps, and only one of those is truly cavitation. But all of them have similar ...
- 6、Jan 30, 2020 — Cavitation happens when bubbles, or voids, form within a fluid because the pressure quickly drops below the vapor pressure. When the bubbles ...
- 7、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 ...
- 8、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.
- 9、Cavitation is a potentially damaging effect that occurs when the pressure of a liquid drops below its saturated vapour pressure. Under these conditions it forms ...
- 10、What Is Cavitation? Cavitation is the formation and collapse of air cavities in liquid. When hydraulic fluid is pumped from a reservoir, a low-pressure drop ...
What will happen if there is air trapped in the hydraulic system?
- 1、Air Inlet. 1/4 IN. - 18 NPT. 95553 20-Ton Air/Hydraulic Jack. Weight Capacity 20 Tons (40,000 lb.) ... if not avoided, will result in death or serious injury. ... possible conditions and situations that may occur. ... system to remove any trapped air
- 2、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
- 3、Nov 6, 2018 — This means if air is in the lines it will compress too easily. When this happens, your brakes will feel too soft or even spongy. ... To do this the hydraulic pistons also need to extend, causing a void in the hydraulic system. As your
- 4、We bleed the brakes to release air that sometimes becomes trapped within the lines. ... If enough air enters the brake system, it can result in complete brake failure. ... thus releasing gasses from the boiling fluid into the brake hydraulic system
- 5、Andrew Parr MSc, CEng, MIEE, MInstMC, in Hydraulics and Pneumatics (Third ... Owing to the low distortion achieved, it became apparent that if the cylinder parts ... State what happens for the pneumatic circuit shown in Figure 6.20 when the ... valve will be able to lift it and any trapped air and oil in the power cylinder will
- 6、operation that may be hazardous if performed incorrectly or carelessly. Observe ... Any weakness in the system should show up at this time. ... may introduce air into the system and increase your filling time. ... Fill the helm pump full of hydraulic oil so that it is visible in the filler tube. ... is interference, it may occur during full tilt
- 7、hydraulic oil, which is of course an important part of any hydraulic system. There is a vented filler cap on the reservoir which allows air to “breathe” in and out. ... Oil is trapped in the cavities between the gear teeth and carried around the outside of the gear toward ... When the valve is shifted it moves the cylinder quite quickly
- 8、Oct 27, 2015 — When I start the tractor cold, I get no lift on the bucket or 3 point, if I put the throttle up to about 1200RPM, ... I thought that maybe just letting it sit would allow the air to work its way out but it hasn't happened that way. ... The system will bleed itself eventually, but only once you've eliminated any sources for air
- 9、Oct 15, 2019 — There are many types of hydraulic systems, all of which operate under ... of wood and try to squeeze it, nothing's going to happen to the materials. ... It takes up the same amount of space as it did when pressure wasn't applied to it. ... An unpressurized reservoir can also allow trapped air to leave the liquid,
- 10、The lift system used on all Great Plains tillage equipment is a rephasing system. ... If the unit is stored outdoors over the winter, it is a good idea to fold the implement ... Compression can happen when you lower the implement until the depth ... purges the system of any trapped air and synchronizes the cylinders with the rods
How do you release air from a hydraulic system?
- 1、Mar 4, 2016 — Bleeding Air From Rod Type Hydraulic Cylinders · Open the air valve at the upper side of the hydraulic cylinder. · Check all hoses or pipes the ...
- 2、The basic purge procedure to bleed the LCI Hydraulic Systems is performed without the use of any tools. The system's own function purges the air from the ...
- 3、Bleed valves for the release of air from the pilot system oil. 1. Install the swing lock pin and lower the boom assembly to the ground. 2. Turn ...
- 4、Keeping your hydraulic system from overheating is paramount to system and ... As much as 30 to 50% of the horsepower input to a system can be released to ...
- 5、How do you bleed air out of a hydraulic system? — How do I reduce the pressure in my hydraulic system? How do you bleed air from a hydraulic dump ...
- 6、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 ...
- 7、Apr 14, 2013 — Does anyone know how to bleed the air out of a hydraulic slide-out system? Changed the seals/gaskets in Dewald pump & now the slide-out will ...
- 8、Aug 23, 2016 — Basically it involves filling all voids with clean hydraulic oil prior to starting the system. For example, when you install a replacement ...
- 9、Caution: Put a rag around the air bleed valve on the reservoir pressurization module to catch hydraulic fluid spray. Hydraulic fluid spray can cause injuries to ...
- 10、Trapped air in hydraulic systems can cause issues with performance as air is compressible, whereas hydraulic fluid is not. Trapped air causes slower system ...
What causes aeration in a hydraulic system?
- 1、Jan 2, 2020 — Gaseous cavitation Certain conditions can cause this dissolved air to come out of solution, resulting in entrained air. When hydraulic oil ...
- 2、Aug 22, 2020 — Several things will cause a hydraulic system to overflow. ... Aeration can occur in areas OTHER than the reservoir... you can accumulate air ...
- 3、leading cause of hydraulic system failures. ... Many hydraulic system problems can be prevented with ... are the leading cause of pump cavitation,.
- 4、Apr 23, 2010 — Fluid aeration and cavitation can cause many problems in a hydraulic and lubrication oil system, including abnormal noise, poor component ...
- 5、Feb 16, 2019 — Cavitation is caused as a result of a narrow or long suction line, insufficient capacity of boost pump, high speed and clogged air breather.
- 6、What happens when air gets into a hydraulic system? — Aeration is bad news, as it degrades the hydraulic fluid causing damage to the components of the ...
- 7、Jan 30, 2020 — What Causes Cavitation? ... Cavitation happens when bubbles, or voids, form within a fluid because the pressure quickly drops below the vapor ...
- 8、Apr 1, 2021 — Excessive or abnormal noise – often caused by aeration or cavitation in the hydraulic system. Aeration is caused when air is introduced to ...
- 9、Aug 11, 2021 — Aeration of hydraulic fluid can have a variety of possible causes. It produces a sound that is more erratic than that of cavitation, though the ...
- 10、Aug 6, 2021 — Cavitation: Hydraulic oil consists of about 9% dissolved air, which the pump can pull out and implode, causing pump problems and damage to the ...
What is foaming in hydraulic system?
- 1、Foam also is compressible, and if severe enough to be drawn into the pump, hydraulic ... Cavitation in a hydraulic system is very similar to aeration in the ...
- 2、The lubricant viscosity and surface tension determine the foam stability. Low-viscosity oils produce foams with large bubbles that tend to break quickly. High- ...
- 3、Foam may seem harmless, but if unaccounted for, it can lead to serious issues in a machine. Foam finds its way into the oil volume's headspace after the oil ...
- 4、Feb 16, 2016 — ANTI-FOAM HYDRAULIC OIL is available in 32-46-68 ISO grades. ... of hydraulic pump, prolonging service life of pump and hydraulic system.
- 5、by RM Karina · 2018 — system which can cause poor lubrication. ... Tribology in the lubrication system describes ... Synthetic hydraulic (SH) lubricating oil, hydraulic.
- 6、Small amounts of air in oil isn't uncommon, particularly if the oil is expected to become agitated, such as in a gear system. However, as oil becomes more ...
- 7、Aug 8, 2019 — Foam is a manifestation of cavitation. ... In an aircraft hydraulic system, we refer to head pressure as the air pressure in the reservoir.23 posts · Hello, Why is the hydraulic reservoir pressurized by bleed air? I've read it's to reduce ...
- 8、Feb 19, 2022 — The working fluid is the single most important component of any ... [Show full abstract] hydraulic system. It serves as a lubricant, heat ...
- 9、No matter what type of system you have, you can't pump oil that is mixed with air. Could be a number of things but I would start with a cool down period and ...
- 10、Sump – The hydraulic system's sump responsible for holding the oil, ... varnish deposits and inhibit rust and foam (providing smooth hydraulic operation).
How do you know if you have air in your hydraulic system?
- 1、Jul 2, 2019 — Other causes of aeration can be bad seals on the cylinders, cold hydraulic oil, or oil that is too viscous for the system. If you get air in ...
- 2、Noisy System: All mechanical systems make some noise, and hydraulic systems are no exception. But if you are hearing very loud banging or knocking, there's a ...
- 3、Blow out hose debris after terminating hose with fittings and before installing hose onto system;. • Remove installed plumbing loop (if you used one). • Air ...
- 4、How do you troubleshoot a hydraulic cylinder? — Firstly, check the reason from the outside of hydraulic cylinder; check whether the resistance of ...
- 5、When fluid temperature increases or static pressure decreases, air solubility is reduced and bubbles can form within the fluid. This release of dissolved air is ...
- 6、Mar 2, 2015 — Other symptoms of low oil and/or aerated fluid in a system. · The cylinder is not moving at all, very slow or intermittent. · The actuator ...
- 7、If you've ever felt the pressure of choosing the right hydraulic oil for your machinery, you'll ... It's everything you need to know about hydraulic oils!
- 8、Oct 8, 2015 — Although you can not see cavitation, a demonstration at Eaton's training facility in Maumee, Ohio, shows an extreme example of the effects of ...
- 9、Despite being called “minor head loss”, the pressure loss due to restricted flows rates through hydraulic quick connects and hydraulic fittings can exceed those ...
- 10、Several incorrect operating situations may cause your hydraulic system to bang loudly. One such example is if a component (pump, motor or cylinder) begins to ...
How do you burp a hydraulic system?
- 1、You aren't assured of getting all the air out of the system. If your bubbles are further down and this doesn't remove them, you may actually ...
- 2、In terms of bleeding, the HCU (hydraulic Control Unit) can be divided into ... Once the bleed function has been performed, the system should be bled at the ...
- 3、The role of the brake fluid within the braking system is to transfer the force ... releasing gasses from the boiling fluid into the brake hydraulic system.
- 4、Aug 29, 2020 — Hydraulic mountain bike disk brakes are probably the single most ... When installing new pads in a system after a bleed, wet the new surface ...
- 5、How To Bleed the Brakes on an Electric Over Hydraulic Brake System on a Car Hauler. Question: bleeding brakes electric over hydraulic on 2004 take three ...1 answer · Top answer: To bleed the brakes remove the key from the breakaway switch to start the unit. Starting with the brake furthest from the actuator open the bleeder screw ...
- 6、Mar 16, 2020 — Like brake systems clutch hydraulics don't spontaneously or intermittently let air in. ... People generally have to bleed a system because ...
- 7、... 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 ...
- 8、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 ...
- 9、5 days ago — A water and hydraulic system reservoir is pumped with externally compressed engine bleed air. The air intake in the holding tanks ensures ...
- 10、using our proprietary SeaStar Hydraulic Fluid. ... within a hydraulic steering system. ... “Bleeder” refers to cylinders fitted with bleed tee fittings.
What causes a hydraulic pump to lose pressure?
- 1、Why is loss of pressure usually not a symptom of pump malfunction? ... Causes of hydraulic pump failure - CJPlantMaintenanceApr 29, 2019 — In any hydraulic ...
- 2、Understanding the cause and remedy of your pump issue, along with some simple ... Oil Leaking from Pump; Hydraulic Oil is Discolored or Pump is Losing Oil ...
- 3、Dec 31, 2006 — If the pump discharge pressure and suction vacuum were measured at ... pressure is entering the suction pipe causing the pump to lose its ...
- 4、Feb 26, 2020 — This often causes chattering, where the valve isn't fully open, but is opening and closing rapidly, preventing it from properly doing its job.
- 5、Rebuild pump. Loss of suction ... Anchor per Hydraulic Institute Standards. ... Symptom or Problem: Pump does not develop enough pressure.
- 6、Cavitation of pump inlet. b. Air leaking into the system from low oil or other cause. c. Mechanical noise caused by loose or worn coupling, loose set screws ...
- 7、As pressure is increased, noise gets louder and louder, very intolerable. Measured current draw of motor - no overload. What do you think could be causing the ...
- 8、Pump will not build/hold pressure. Pump is noisy. PUMP LEAKS: At shaft seal. At body section. Hydraulic Pump ... Cavitation (Cavitation is caused by.
- 9、Hydraulic motors and cylinders begin to leak, loss of flow or pressure ... pump, but it can also be caused by leaks in other parts of the hydraulic lines.
- 10、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 ...
How do you get air out of a hydraulic cylinder?
- 1、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 ...
- 2、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 ...
- 3、Leave first thread bare to prevent sealant from entering hydraulic system. ... If the cylinder movement is erratic or jerky, there may be air in the system.
- 4、Mar 25, 2020 — They are all loose pieces held together by tie rods.....It suffers from becoming air bound under the pistons through time.......Piston sealing ...
- 5、This hydraulic cylinder had been changed-out due to leaking rod seals after ... The diesel effect occurs in a hydraulic cylinder when air is drawn past the ...
- 6、Jun 20, 2019 — Occasionally, hydraulic fluid contaminated with dirt, grit, water or air is behind hydraulic drift, and when this happens, you're looking at the ...
- 7、For every pump stroke, the cylinder should rise evenly. If the cylinder movement is erratic or jerky, there may be air in the system. How to remove air from ...
- 8、creep (drift or movement when the hydraulic cylinder ... required to bleed excessive air out of the circuit and ... Bleeding Air & Rephasing Function.
- 9、How to Get Air Out of a Hydraulic System · Gather Supplies – You will need the right tools, along with hydraulic fluid, tubing, and clean, empty bottles. · Work ...
- 10、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...
PAKER F11-005-MB-SV-K-000-000-0 Piston Pump | Case volume:0.2500 in; Determining Operating Characteristics:320 lb; Power:.6560 in; Pressurefree Operation:Grease; Maximum Axial Force At Standstill:Female Threaded with Male Stud; Control Fluid Drain:Max 350°; Nominal Resistance:1/4-28; Maximum Permissible Pilot Pressure:.7500 in; Maximum rotational speed:Right Hand; Drive Power:.2810 in; Load Pressure:Commercial; Rotary stiffness:.3750 in; Maximum Torque:With Lubrication Fitting; Sequence Valve:1.3120 in; Voltage:Carbon Steel - corrosion resistant plating; Maximum Volume Flow:CFF; Displacement, geometric, per revolution:Alloy Steel - heat treated - chrome plated; Control Pressure Measurement:1490409000; Maximum Permissible Speed (limit Speed):3200 lb; |
PAKER F12-080-MS-SN-T-000-000-0 Piston Pump | Maximum angular acceleration:0.2500 in; Torque:320 lb; Drive Speed:.6560 in; Voltage:Grease; Rotary stiffness:Female Threaded with Male Stud; Maximum Volume Flow:Max 350°; Maximum Torque:1/4-28; Maximum Axial Force At Standstill:.7500 in; Control Fluid Drain:Right Hand; Rate Of Pressure Change:.2810 in; Flow:Commercial; Determining Operating Characteristics:.3750 in; Nominal Resistance:With Lubrication Fitting; Control Pressure Measurement:1.3120 in; Load Pressure:Carbon Steel - corrosion resistant plating; Pilot Pressure:CFF; Maximum rotational speed:Alloy Steel - heat treated - chrome plated; Displacement, geometric, per revolution:1490409000; Case volume:3200 lb; |
PAKER F12-090-MS-SV-T-000 Piston Pump | Moment of inertia rotary group:0.2500 in; Control Pressure Measurement:320 lb; Rate Of Pressure Change:.6560 in; Maximum Permissible Speed (limit Speed):Grease; Maximum rotational speed:Female Threaded with Male Stud; Weight (approx.):Max 350°; Drive Speed:1/4-28; Flow:.7500 in; Displacement, geometric, per revolution:Right Hand; Load Pressure:.2810 in; Drive Power:Commercial; Pilot Pressure:.3750 in; Maximum Volume Flow:With Lubrication Fitting; Sequence Valve:1.3120 in; Maximum Torque:Carbon Steel - corrosion resistant plating; Torque:CFF; Nominal Resistance:Alloy Steel - heat treated - chrome plated; Power:1490409000; Voltage:3200 lb; |
PAKER F12-040-MF-IV-K-000-000-0 Piston Pump | Load Pressure:0.2500 in; Power:320 lb; Torque:.6560 in; Case volume:Grease; Maximum angular acceleration:Female Threaded with Male Stud; Flow:Max 350°; Determining Operating Characteristics:1/4-28; Drive Speed:.7500 in; Maximum Volume Flow:Right Hand; Pilot Pressure:.2810 in; Rotary stiffness:Commercial; Maximum rotational speed:.3750 in; Maximum Torque:With Lubrication Fitting; Control Pressure Measurement:1.3120 in; Sequence Valve:Carbon Steel - corrosion resistant plating; Maximum Axial Force At Standstill:CFF; Nominal Resistance:Alloy Steel - heat treated - chrome plated; Maximum Permissible Pilot Pressure:1490409000; Pressurefree Operation:3200 lb; |
PAKER F12-030-MF-IV-K-000-000-0 Piston Pump | Determining Operating Characteristics:0.2500 in; Control Pressure Measurement:320 lb; Rate Of Pressure Change:.6560 in; Moment of inertia rotary group:Grease; Flow:Female Threaded with Male Stud; Maximum Permissible Pilot Pressure:Max 350°; Maximum rotational speed:1/4-28; Pressurefree Operation:.7500 in; Torque:Right Hand; Drive Power:.2810 in; Sequence Valve:Commercial; Rotary stiffness:.3750 in; Maximum angular acceleration:With Lubrication Fitting; Case volume:1.3120 in; Voltage:Carbon Steel - corrosion resistant plating; Nominal Resistance:CFF; Weight (approx.):Alloy Steel - heat treated - chrome plated; Pilot Pressure:1490409000; Control Fluid Drain:3200 lb; |
PAKER F11-010-MV-SV-K-000-000-0 Piston Pump | Drive Power:0.2500 in; Flow:320 lb; Drive Speed:.6560 in; Maximum angular acceleration:Grease; Pilot Pressure:Female Threaded with Male Stud; Power:Max 350°; Pressurefree Operation:1/4-28; Maximum Permissible Speed (limit Speed):.7500 in; Displacement, geometric, per revolution:Right Hand; Maximum rotational speed:.2810 in; Voltage:Commercial; Determining Operating Characteristics:.3750 in; Moment of inertia rotary group:With Lubrication Fitting; Maximum Torque:1.3120 in; Rate Of Pressure Change:Carbon Steel - corrosion resistant plating; Sequence Valve:CFF; Nominal Resistance:Alloy Steel - heat treated - chrome plated; Case volume:1490409000; Rotary stiffness:3200 lb; |
PAKER F12-110-MS-SV-S-000 Piston Pump | Drive Power:0.2500 in; Torque:320 lb; Weight (approx.):.6560 in; Displacement, geometric, per revolution:Grease; Voltage:Female Threaded with Male Stud; Maximum Permissible Pilot Pressure:Max 350°; Determining Operating Characteristics:1/4-28; Maximum Permissible Speed (limit Speed):.7500 in; Control Fluid Drain:Right Hand; Rotary stiffness:.2810 in; Maximum Axial Force At Standstill:Commercial; Pressurefree Operation:.3750 in; Case volume:With Lubrication Fitting; Power:1.3120 in; Maximum angular acceleration:Carbon Steel - corrosion resistant plating; Moment of inertia rotary group:CFF; Pilot Pressure:Alloy Steel - heat treated - chrome plated; Maximum rotational speed:1490409000; Sequence Valve:3200 lb; |
PAKER F12-060-MF-IV-D-000-000-0 Piston Pump | Case volume:0.2500 in; Torque:320 lb; Maximum rotational speed:.6560 in; Pilot Pressure:Grease; Flow:Female Threaded with Male Stud; Rate Of Pressure Change:Max 350°; Control Pressure Measurement:1/4-28; Rotary stiffness:.7500 in; Load Pressure:Right Hand; Voltage:.2810 in; Maximum angular acceleration:Commercial; Determining Operating Characteristics:.3750 in; Power:With Lubrication Fitting; Maximum Permissible Pilot Pressure:1.3120 in; Pressurefree Operation:Carbon Steel - corrosion resistant plating; Drive Power:CFF; Moment of inertia rotary group:Alloy Steel - heat treated - chrome plated; Maximum Volume Flow:1490409000; Maximum Torque:3200 lb; |
PAKER F11-019-MV-SV-K-000-000-0 Piston Pump | Rate Of Pressure Change:0.2500 in; Maximum Volume Flow:320 lb; Nominal Resistance:.6560 in; Control Fluid Drain:Grease; Flow:Female Threaded with Male Stud; Sequence Valve:Max 350°; Moment of inertia rotary group:1/4-28; Weight (approx.):.7500 in; Determining Operating Characteristics:Right Hand; Pressurefree Operation:.2810 in; Case volume:Commercial; Rotary stiffness:.3750 in; Maximum rotational speed:With Lubrication Fitting; Power:1.3120 in; Control Pressure Measurement:Carbon Steel - corrosion resistant plating; Maximum Permissible Speed (limit Speed):CFF; Maximum Torque:Alloy Steel - heat treated - chrome plated; Pilot Pressure:1490409000; Maximum angular acceleration:3200 lb; |
PAKER CB-B125 Piston Pump | Voltage:0.2500 in; Control Pressure Measurement:320 lb; Displacement, geometric, per revolution:.6560 in; Moment of inertia rotary group:Grease; Maximum Axial Force At Standstill:Female Threaded with Male Stud; Maximum Permissible Pilot Pressure:Max 350°; Sequence Valve:1/4-28; Maximum angular acceleration:.7500 in; Weight (approx.):Right Hand; Maximum Permissible Speed (limit Speed):.2810 in; Nominal Resistance:Commercial; Maximum Volume Flow:.3750 in; Rate Of Pressure Change:With Lubrication Fitting; Pressurefree Operation:1.3120 in; Drive Speed:Carbon Steel - corrosion resistant plating; Pilot Pressure:CFF; Load Pressure:Alloy Steel - heat treated - chrome plated; Maximum rotational speed:1490409000; Maximum Torque:3200 lb; |
PAKER PV032 R1K1T1NMMC Piston Pump Video
Contact Us
- ShanDong Single Pump Instrument Co., Ltd.
- AddressChangQing District, Jinan City, Shandong Province, China
PAKER PV032 R1K1T1NMMC Piston Pump Technical Articles
How do hydraulic motors work? |
How do you size a hydraulic pump? |
What are the most common causes of hydraulic system failure? |
PAKER Piston Pump CATEGORIES
- Yuken single Vane pump
- Yuken pressure valve
- DENISON vane pump
- Yuken Piston pump
- Rexroth PRESSURE RELIEF VALVE
- Danfoss Shut-off valves
- Rexroth THROTTLE VALVE
- PAKER Piston Pump
- Yuken Double Vane pump
- Rexroth Piston Pump
- Rexroth Solenoid directional valve
- Rexroth check valve
- Rexroth Vane pump
- BOSCH injector
- CUMMINS injector
- DELPHI injector
- DEUTZ injector
- COMMON RAIL injector