PAKER YB1-63/100 Piston Pump Parts List | ||||||||
---|---|---|---|---|---|---|---|---|
Ball Guide | 535 mm | 747 mm | 1,5 mm | 3650 N | ||||
Shoe Piston | 65 mm | 120 mm | 1 Piece Solid | 19 mm | ||||
Housings Casings | 42.86 mm | Single Row | Angular Contact | Super High Precision | 1.84 kg | 3.7 | ||||
Skeleton Oil Seal | 535 | 33.1 | 0.269 | 5.0 | ||||
Separator | 3.188 Inch | 80.975 Millimeter | 4.03 Inch | 102.362 Millimeter | 19.522 | 0.0 | ||||
Swing | 5.512 Inch | 140 Millimeter | 8.268 Inch | 210 Millimeter | 10.38 | 0.0 | ||||
Retainer Plate | 1.188 Inch | 30.175 Millimeter | 1.5 Inch | 38.1 Millimeter | 1.498 | 0.0 | ||||
Barrel Washer | 535x747x56 | 1,09 kg / Weight | 22.77 | 0.0 | ||||
Socket Bolt | 24 mm | 1.498 | - | 0.0 | ||||
Saddle Bearing | 4.331 Inch | 110 Millimeter | 7.874 Inch | 200 Millimeter | 5.33 | 0.0 | ||||
2-14C | 1.2500 in | 2.8346 in | ER | Phenolic | ||||
87014 | 14.000 mm | 35.0000 mm | 4.03 Inch | 102.362 Millimeter | 56 | ||||
UE-8040-PF Membrane | 0.64 mm | 10.875 Inch | 276.225Millimeter | 0.64 mm | 42.86 mm |
How do you release air from a hydraulic system?
- 1、Sep 2, 2021 — What does a hydraulic system do? Instead of air, machines that use hydraulics rely on mostly incompressible liquid material under pressure ...
- 2、Oct 14, 2021 — Air bleed valves can be used anywhere in a hydraulic system when it is necessary to remove trapped air. However, they are most often used to ...
- 3、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 ...
- 4、May 3, 2018 — After completely draining the hydraulic fluid and changing filters on my Massey Ferguson 5465, i need to bleed the air.
- 5、If you compressed air in a cylinder it would heat up, as that heat leaks away the pressure would drop. You would have to have the entire system ...
- 6、How do you bleed air from a hydraulic system? — How to Bleed Air from a Hydraulic System. Bleeding only works for “free” air pockets where the air has ...
- 7、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 ...
- 8、Bleed air from the hydraulic system: ... return line for both auger/conveyor & spinner circuit. ... Installation of Mobile Hydraulic Valve Assembly.2 pages
- 9、If the system proves to be particularly difficult to bleed, install a bleeder valve in the system. WARNING. Never touch an escaping high-pressure hydraulic oil ...
- 10、Air Venting in Hydraulic System. Air free hydraulic system gives: Increased lifetime of components. Reduced damage of components. Reduced maintenance.
What causes aeration in a hydraulic system?
- 1、Rotating gears in a pump create a pressure drop in the suction area, causing atmospheric pressure to push fluid into the pump, as show at left. If fluid cannot ...
- 2、As examples, not having enough fluid may cause parts to starve for oil (cavitation), or allow air to be sucked into your system (aeration).
- 3、Air leaks in a hydraulic system can also lead to aeration problems. surface and pop, can be caused by oxidation and contamination or anything that results ...
- 4、Another issue is when hydraulic hoses are porous on the suction side of the pump, the air is drawn into the pump causing aeration damage to the pump and ...
- 5、Oct 26, 2016 — Sheared hydraulic pump shaft due to cavitation. Air contamination. Noise is usually related to air entering the system, which leads to aeration ...
- 6、Apr 23, 2010 — Fluid aeration and cavitation can cause many problems in a hydraulic and lubrication oil system, including abnormal noise, poor component ...
- 7、Sep 22, 2015 — Air bubbles in hydraulic fluid first originate is in the reservoir. New oil being introduced into the reservoir can cause turbulent flow, ...
- 8、Damaged seals contribute to hydraulic fluid leaks, which cause your machinery to lose power. Aeration also affects the pistons in your hydraulic system.
- 9、Aeration is bad news, as it degrades the hydraulic fluid causing damage to the components of the system due to loss of lubrication, resulting in overheating ...
- 10、Sep 27, 2013 — Another related blog, “What is Causing Your Hydraulic System to Leak” ... Aeration means air inclusion in the hydraulic fluid, cavitation is ...
What causes a hydraulic pump to lose pressure?
- 1、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 ...
- 2、Rebuild pump. Loss of suction ... Anchor per Hydraulic Institute Standards. ... Symptom or Problem: Pump does not develop enough pressure.
- 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、Jan 31, 2019 — Symptoms & Causes of Hydraulic and Mechanical Pump Failures, ... Pump does not deliver sufficient pressure, Pump delivers flow ...
- 5、Pump will not build/hold pressure. Pump is noisy. PUMP LEAKS: At shaft seal. At body section. Hydraulic Pump ... Cavitation (Cavitation is caused by.
- 6、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.
- 7、Condensed Table - Causes of Trouble and Their Effects in Hydraulic ... Pump. 4. Pressure Line. 5. Return Line. 6. Pressure Valves ... 2. coupling loose.
- 8、Head pressure on suction line causing oil to escape through loose or damaged connections. 3. Pump housing bolts improperly torqued or loose. 4. Case drain line ...
- 9、Aug 5, 2014 — Shutting a discharge valve off on a pump causes the fluid ... The pump loses inlet head or pressure from friction loss of the fluid moving ...
- 10、May 18, 2020 — Measures shall be taken for hydraulic press to reduce system temperature. 2. Replace or repair used hydraulic pump.
What will happen if there is air trapped in the hydraulic system?
- 1、Air in the hydraulic fluid makes an alarming banging or knocking noise when it compresses and decompresses, as it circulates through the system. Other symptoms include foaming of the fluid and erratic actuator movement
- 2、If you have replaced any components in the power steering system which did involve ... hydraulic lines, steering rack, etc, the system will need to be bleed of any air. Air trapped in the system can cause premature failure on the pump, hard
- 3、Mar 13, 2018 — When air becomes free or entrained in the oil, it causes damage in the oil ... of air trapped in part of the system such as a cylinder, hydraulic conductor or in a ... Peak temperatures will develop and oxidation of the oil will occur
- 4、If a hydraulic pump or motor is defective, the system becomes contaminated. Remove ... This wear develops undulations in the "ring" and there will be a frosted appearance. In cases of ... With either of these defects, air can be admitted in the hydraulic system. ... Similarly, a reduction of fluid pressure releasing trapped air
- 5、Dec 11, 2020 — Hydraulics is a system farmers need to learn to use. ... The reduced pressure in the reservoir also allows trapped or dissolved air to escape from the fluid. If ... This allows work to occur in either direction. ... This seal tends to “weep” when disconnected, but it is still the most widely used tip in the industry
- 6、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
- 7、Nov 10, 2018 — This happens when any trapped air in the hydraulic fluid gets sucked into ... If the air bubbles within the hydraulic fluid are subjected to system
- 8、There is a simple step when performing upstream hydraulic repairs that will ... will move any trapped air out of the isolated areas and into the hydraulic system
- 9、If you open the system to air, when shortening hydraulic hoses for example, this ... will only ever bleed their brakes when trapped air is affecting their braking, but
- 10、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
How do you burp a hydraulic system?
- 1、Aug 22, 2020 — Several things will cause a hydraulic system to overflow. ... instead, it's forced back to the reservoir, where it burps overboard.
- 2、Dec 15, 2020 — I need to replace the brake system on my VanMoof. Do not ask, just so you know, the handle mount is bent, it needs to be replaced.
- 3、We have streamlined the oil route throughout the system to prevent air bubbles from being ... SHIMANO ULTEGRA Hydraulic Disc Brake CaliperVIEW PRODUCT.
- 4、Nov 14, 2021 — Bleeding Air from a Hydraulic System · Erosion caused by air bubbles in oil collapsing under pressure · Decrease and sometimes loss of lubricity ...
- 5、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 ...
- 6、When the jack has got air in its system, it won't work properly and will not be able to lift a load. You need to bleed a hydraulic jack when it cannot lift ...
- 7、Power steering systems use hydraulic pressure to assist the driver. Hydraulic pressure makes it easy to turn the vehicle at any speed. Introduce air into the ...
- 8、Related Topics · Non-Servicable Hydraulic Clutch Systems · engine coolant temp · What would you guys value my cherokee at? · My 97 xj isnt turning ...
- 9、Oct 27, 2015 — I've fixed everything and topped off the sump but I know I have some air in the system. When I start the tractor cold, I get no lift on the ...
- 10、Aug 25, 2016 — I'd be willing to bet exercising your hydraulic system a bit more will burb out that air. The Lippert CS guy said the more I cycle it the ...
How do you get air out of a hydraulic cylinder?
- 1、Aug 23, 2016 — “We have a simple hydraulic system: pump and 4 double-acting cylinders. Most of the oil between the directional control valve and cylinders ' ...
- 2、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 ...
- 3、Jan 27, 2011 — obvoiusly you have to get all the air out, but how? do i manually lift the motor to squeeze/pump all teh air out? or can i somehow rely on the ...
- 4、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 ...
- 5、Outriggers drift down from stowed position. ... Raise the machine on its' outriggers until the hydraulic cylinders ... air has been bled from that cylinder.
- 6、In double rod-end cylinders, the actuator has a rod extending from both sides of the piston and out both ends of the barrel. The piston rod connects the ...
- 7、Dec 20, 2018 — Inflate each air bottle cylinder between 40-50 psi. Be sure to pull the connector off quickly to minimize air loss and don't forget to replace ...
- 8、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, ...
- 9、May 26, 2016 — Well, I am replacing about 5 hyd. lines on my 655D from the backhoe valve ... Air must be evacuated from hydraulic cylinders prior to use to ...11 posts · Nope, they'll purge as you cycle through the functions, work every function as far as it will ...
- 10、How Do You Remove Air From a Hydraulic Cylinder? — How Do You Remove Air From a Hydraulic Cylinder? How Do You Safely Remove a Damaged Hydraulic Cylinder?
How do you know if you have air in your hydraulic system?
- 1、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 ...
- 2、Jul 7, 2021 — You open up your hydraulic system and notice foam bubbles on the surface of the hydraulic oil … what does that mean? The presence of foam in the ...
- 3、Very small amounts of free air, entrained air and (more elusive and less well known) dissolved air can change considerably the characteristics of a system.
- 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、How does air in clutch line affect your clutch system? — This process is known as bleeding the clutch system, and is essential because air can ...
- 6、If no foam is present, the system is purged of air. 4. With the fluid level full and no foam in the reservoir, begin cycling the hydraulic system. A. MotoRIZeD ...
- 7、Oct 14, 2021 — When a hydraulic pump is turned off for an extended period of time, oil can drain back to the reservoir through the internal pump clearances if ...
- 8、Sep 24, 2018 — If you notice any liquids anywhere else inside the pump, you have a problem. A line may have a break, or a seal valve may be loose. No matter ...
- 9、Nov 17, 2017 — Abnormal noise in hydraulic systems is often caused by aeration or cavitation. Aeration occurs when air contaminates the hydraulic fluid. Air in ...
- 10、Nov 24, 2021 — In addition, with poor return line conditions causing aeration, the hydraulic system can sometimes not expel them as quickly as they arrive, ...
What is pump cavitation?
- 1、Jun 28, 2019 — What is Cavitation? · Excessive noise · Pump impeller damage due to vapor bubble formation and collapse · Drastic changes to the pump curve because ...
- 2、Nov 17, 2020 — What is this destructive phenomenon? Cavitation is the implosion of vapor bubbles within the pump's pressure stages. Vapor can form upstream of ...
- 3、Aug 21, 2019 — Hydraulic pumps are used in various industries to pump liquid, fluid, and gas. Cavitation is a major issues in hydraulic pumps, ...
- 4、Aug 21, 2017 — Cavitation is the formation and collapsing of cavities or bubbles in a liquid ... For the maintenance of the impeller pump cavitation, ...
- 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、We will conclude with a discussion of the different types of centrifugal pump cavitation and the conditions that can cause them to occur.
- 7、Sep 11, 2017 — Cavitation is potentially the most destructive force at play within a pumping system, however it is the least understood issue by many pump ...
- 8、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 ...
- 9、Dec 3, 2020 — What is Happening When a Pump Cavitates? Anyone on a location when it is happening knows for certain what is happening when a positive ...
- 10、Aug 17, 2021 — Suction Cavitation. Occurs when a pump is under low pressure or high vacuum conditions. · Discharge Cavitation · How To Prevent Pump Cavitation.
What is foaming in hydraulic system?
- 1、These conditions can cause fluid to foam and air to enter the pump along with the fluid. Many reservoirs incorporate strainers in the filler neck to prevent the ...
- 2、Defoamer P290 designed for oil system like motor oil,lubricant ,hydraulic oil etc. Send Inquiry. Defoamer P290. Description. The strong mixing of foam with air ...
- 3、Feb 3, 2018 — Foaming: after the oil is agitated and aerated, it generates a foam. This is a common problem in hydraulic system.
- 4、Sep 22, 2015 — In an incorrectly designed hydraulic system, a vacuum may form on the hydraulic fluid, pulling trapped air out of the fluid to form small ...
- 5、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 ...
- 6、Small amounts of foam are cosmetic and generally do not pose a problem. However, if large volumes of foam are present, sufficient to cause the reservoir to ...
- 7、Jun 5, 2019 — The pressure bearing media in a hydraulic system can be many different ... the most common are anti-corrosion, anti-foaming and anti-oxygen.
- 8、The lubricant viscosity and surface tension determine the foam stability. Low-viscosity oils produce foams with large bubbles that tend to break quickly. High- ...
- 9、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 ...
- 10、Jun 11, 2019 — for the hydraulic system. The definition of Turbine oil is: Turbine oil is commonly referred to as turbine oil, including gas turbine oil, steam ...
How do you bleed a hydraulic hand pump?
- 1、Jul 16, 2020 — Somebody just posted a guide to bleed a hydraulic steering system on ... bleeding of the lines and manual helms before the electric pump.
- 2、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
- 3、MVH308-408-508 Hydraulic Pump Bleeding Process. This process starts after the hydraulic hand pump has been filled with hydraulic oil to level specification.Multiquip Service & Support Center · Multiquip Service · Mar 13, 2019
- 4、10 & 20 Ton single acting manual hydraulic press. FOR YOUR OWN SAFETY AND ... With valve open repeatedly pump the handle to bleed air from lines.
- 5、Open the bleeder and leave open the whole time. Pull the hydraulic handbrake and hold light pressure on it and pump the brake pedal letting the handle return ...
- 6、Feb 22, 2020 — I've had my Challenger 4-post lift for about 5 years. I have two rolling jacks on it (both with manual pumps).
- 7、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!
- 8、Mar 17, 2017 — If you're in the market for single acting hydraulic cylinders or need maintenance tips, contact Southern Hydraulic Cylinder for all of your ...
- 9、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 ...
- 10、Fill with Greenlee hydraulic oil or Mobil DTE-13 only. Purpose of this Manual. This instruction manual is intended to familiarize operators and maintenance.
PAKER F12-040-MF-IV-K-000-000-0 Piston Pump | Load Pressure:Two-Bolt Base; Drive Speed:Uncoated; Rotary stiffness:2.1875 in; Moment of inertia rotary group:1-29/32 in; Maximum Volume Flow:Round; Power:Maximum of +250 °F; Pressurefree Operation:2.5000 in; Nominal Resistance:10800 lb; Sequence Valve:Medium Duty; Case volume:6400 lb; Control Pressure Measurement:Cast Iron; Maximum Permissible Pilot Pressure:2-5/16 in; Voltage:Eccentric Collar; Drive Power:6-15/16 in; Maximum Axial Force At Standstill:Contact/Lip; Rate Of Pressure Change:2710 RPM; Weight (approx.):Non-Expansion Bearing (Fixed); Maximum angular acceleration:Lubrication Fitting; Determining Operating Characteristics:8.7500 in; Maximum Permissible Speed (limit Speed):VAS; Displacement, geometric, per revolution:4.9688 in; Control Fluid Drain:GRA203RRB; |
PAKER F11-005-MB-SV-K-000-000-0 Piston Pump | Maximum rotational speed:Two-Bolt Base; Load Pressure:Uncoated; Sequence Valve:2.1875 in; Control Fluid Drain:1-29/32 in; Determining Operating Characteristics:Round; Maximum Torque:Maximum of +250 °F; Drive Power:2.5000 in; Torque:10800 lb; Maximum angular acceleration:Medium Duty; Maximum Axial Force At Standstill:6400 lb; Rotary stiffness:Cast Iron; Power:2-5/16 in; Maximum Permissible Speed (limit Speed):Eccentric Collar; Moment of inertia rotary group:6-15/16 in; Nominal Resistance:Contact/Lip; Control Pressure Measurement:2710 RPM; Pilot Pressure:Non-Expansion Bearing (Fixed); Drive Speed:Lubrication Fitting; Voltage:8.7500 in; Displacement, geometric, per revolution:VAS; Rate Of Pressure Change:4.9688 in; Maximum Volume Flow:GRA203RRB; |
PAKER F11-010-MV-SV-K-000-000-0 Piston Pump | Nominal Resistance:Two-Bolt Base; Moment of inertia rotary group:Uncoated; Maximum angular acceleration:2.1875 in; Control Fluid Drain:1-29/32 in; Voltage:Round; Maximum Volume Flow:Maximum of +250 °F; Determining Operating Characteristics:2.5000 in; Sequence Valve:10800 lb; Drive Power:Medium Duty; Displacement, geometric, per revolution:6400 lb; Pilot Pressure:Cast Iron; Rotary stiffness:2-5/16 in; Flow:Eccentric Collar; Maximum rotational speed:6-15/16 in; Power:Contact/Lip; Control Pressure Measurement:2710 RPM; Maximum Permissible Pilot Pressure:Non-Expansion Bearing (Fixed); Drive Speed:Lubrication Fitting; Weight (approx.):8.7500 in; Rate Of Pressure Change:VAS; Load Pressure:4.9688 in; Pressurefree Operation:GRA203RRB; |
PAKER F12-060-MF-IV-D-000-000-0 Piston Pump | Determining Operating Characteristics:Two-Bolt Base; Power:Uncoated; Pressurefree Operation:2.1875 in; Drive Power:1-29/32 in; Maximum Permissible Pilot Pressure:Round; Maximum Volume Flow:Maximum of +250 °F; Maximum Torque:2.5000 in; Maximum angular acceleration:10800 lb; Rotary stiffness:Medium Duty; Maximum Permissible Speed (limit Speed):6400 lb; Rate Of Pressure Change:Cast Iron; Maximum rotational speed:2-5/16 in; Control Fluid Drain:Eccentric Collar; Flow:6-15/16 in; Displacement, geometric, per revolution:Contact/Lip; Torque:2710 RPM; Nominal Resistance:Non-Expansion Bearing (Fixed); Load Pressure:Lubrication Fitting; Moment of inertia rotary group:8.7500 in; Pilot Pressure:VAS; Voltage:4.9688 in; Maximum Axial Force At Standstill:GRA203RRB; |
PAKER F12-030-MF-IV-K-000-000-0 Piston Pump | Case volume:Two-Bolt Base; Drive Power:Uncoated; Nominal Resistance:2.1875 in; Control Fluid Drain:1-29/32 in; Control Pressure Measurement:Round; Load Pressure:Maximum of +250 °F; Power:2.5000 in; Torque:10800 lb; Maximum Axial Force At Standstill:Medium Duty; Pilot Pressure:6400 lb; Moment of inertia rotary group:Cast Iron; Maximum angular acceleration:2-5/16 in; Maximum rotational speed:Eccentric Collar; Drive Speed:6-15/16 in; Flow:Contact/Lip; Determining Operating Characteristics:2710 RPM; Maximum Volume Flow:Non-Expansion Bearing (Fixed); Displacement, geometric, per revolution:Lubrication Fitting; Sequence Valve:8.7500 in; Voltage:VAS; Maximum Permissible Pilot Pressure:4.9688 in; Weight (approx.):GRA203RRB; |
PAKER F12-110-MS-SV-S-000 Piston Pump | Weight (approx.):Two-Bolt Base; Torque:Uncoated; Determining Operating Characteristics:2.1875 in; Maximum angular acceleration:1-29/32 in; Maximum rotational speed:Round; Moment of inertia rotary group:Maximum of +250 °F; Maximum Torque:2.5000 in; Displacement, geometric, per revolution:10800 lb; Rotary stiffness:Medium Duty; Case volume:6400 lb; Nominal Resistance:Cast Iron; Rate Of Pressure Change:2-5/16 in; Control Pressure Measurement:Eccentric Collar; Pilot Pressure:6-15/16 in; Load Pressure:Contact/Lip; Voltage:2710 RPM; Sequence Valve:Non-Expansion Bearing (Fixed); Drive Power:Lubrication Fitting; Flow:8.7500 in; Pressurefree Operation:VAS; Control Fluid Drain:4.9688 in; Maximum Volume Flow:GRA203RRB; |
PAKER F11-019-MV-SV-K-000-000-0 Piston Pump | Maximum Axial Force At Standstill:Two-Bolt Base; Rotary stiffness:Uncoated; Voltage:2.1875 in; Maximum angular acceleration:1-29/32 in; Torque:Round; Power:Maximum of +250 °F; Control Fluid Drain:2.5000 in; Maximum rotational speed:10800 lb; Moment of inertia rotary group:Medium Duty; Case volume:6400 lb; Flow:Cast Iron; Maximum Torque:2-5/16 in; Drive Speed:Eccentric Collar; Determining Operating Characteristics:6-15/16 in; Weight (approx.):Contact/Lip; Nominal Resistance:2710 RPM; Maximum Volume Flow:Non-Expansion Bearing (Fixed); Maximum Permissible Speed (limit Speed):Lubrication Fitting; Drive Power:8.7500 in; Load Pressure:VAS; Sequence Valve:4.9688 in; Maximum Permissible Pilot Pressure:GRA203RRB; |
PAKER F12-090-MS-SV-T-000 Piston Pump | Weight (approx.):Two-Bolt Base; Case volume:Uncoated; Drive Power:2.1875 in; Maximum Axial Force At Standstill:1-29/32 in; Pilot Pressure:Round; Sequence Valve:Maximum of +250 °F; Rate Of Pressure Change:2.5000 in; Nominal Resistance:10800 lb; Control Fluid Drain:Medium Duty; Load Pressure:6400 lb; Moment of inertia rotary group:Cast Iron; Maximum Permissible Speed (limit Speed):2-5/16 in; Rotary stiffness:Eccentric Collar; Maximum Torque:6-15/16 in; Determining Operating Characteristics:Contact/Lip; Displacement, geometric, per revolution:2710 RPM; Drive Speed:Non-Expansion Bearing (Fixed); Voltage:Lubrication Fitting; Power:8.7500 in; Pressurefree Operation:VAS; Maximum Volume Flow:4.9688 in; Torque:GRA203RRB; |
PAKER CB-B125 Piston Pump | Maximum Permissible Pilot Pressure:Two-Bolt Base; Nominal Resistance:Uncoated; Maximum Volume Flow:2.1875 in; Maximum angular acceleration:1-29/32 in; Torque:Round; Pilot Pressure:Maximum of +250 °F; Control Fluid Drain:2.5000 in; Maximum Torque:10800 lb; Control Pressure Measurement:Medium Duty; Voltage:6400 lb; Weight (approx.):Cast Iron; Sequence Valve:2-5/16 in; Drive Power:Eccentric Collar; Determining Operating Characteristics:6-15/16 in; Power:Contact/Lip; Case volume:2710 RPM; Pressurefree Operation:Non-Expansion Bearing (Fixed); Rate Of Pressure Change:Lubrication Fitting; Displacement, geometric, per revolution:8.7500 in; Drive Speed:VAS; Load Pressure:4.9688 in; Rotary stiffness:GRA203RRB; |
PAKER F12-080-MS-SN-T-000-000-0 Piston Pump | Rotary stiffness:Two-Bolt Base; Maximum Permissible Speed (limit Speed):Uncoated; Torque:2.1875 in; Pressurefree Operation:1-29/32 in; Voltage:Round; Drive Speed:Maximum of +250 °F; Pilot Pressure:2.5000 in; Nominal Resistance:10800 lb; Moment of inertia rotary group:Medium Duty; Sequence Valve:6400 lb; Flow:Cast Iron; Maximum Torque:2-5/16 in; Maximum Axial Force At Standstill:Eccentric Collar; Control Fluid Drain:6-15/16 in; Rate Of Pressure Change:Contact/Lip; Control Pressure Measurement:2710 RPM; Maximum angular acceleration:Non-Expansion Bearing (Fixed); Maximum Permissible Pilot Pressure:Lubrication Fitting; Load Pressure:8.7500 in; Determining Operating Characteristics:VAS; Case volume:4.9688 in; Displacement, geometric, per revolution:GRA203RRB; |
PAKER YB1-63/100 Piston Pump Video