Product Details

PAKER PV092 R1K1T1NMMC Piston Pump

Min.Order Quantity 1 pcs
Price Negotiable

Product Features

PAKER PV092 R1K1T1NMMC Piston Pump Parts List

Variable Piston290295Polyacrylate2.937 Inch | 74.6 Millimeter
Pump Right Rotating Group2.756 Inch | 70 Millimeter2.937 Inch | 74.6 MillimeterSingle RowSolid
Bearing Plate10000Yes (with retaining ring)12.354
Spindle3.5423 in5.7864 inStainless Steel5.9 mm
Gear Pump2.4375 in+0 / 0.40Non-expansion6
Shoe Piston4 mm10 mmstraight1.800
Socket Bolt35SolidNon-expansion0.41
Swash Plate4002 lbf311715011000044
Valve Plates12.0 in0.313 Inch / 7.95 MillimeterBearings with HousingsAvailable
Ball Guides54 mm0.9 inBearings with HousingsAvailable
SC 25 AS25 mm23Small / Bore-Tite on OD / Without Inner Case12
Edge protection RS909, li/re54850011 mm80.000
50461.1Small / Bore-Tite on OD / Without Inner Case51,5 mm053893813967

 

What causes a hydraulic pump to lose pressure?

  • 1、May 1, 2018 — The pump provides the flow for lifting the load while gravity & leakage allow the load to drop. Points of leakage that can cause this problem.
  • 2、This can cause the pressure in one part of the system to fall below the vapour pressure required by the hydraulic fluid. Cavitation can cause metal to erode, ...
  • 3、Sep 24, 2018 — A line may have a break, or a seal valve may be loose. No matter what the cause, the interior leak will lead to a bad hydraulic pump.
  • 4、The momentum of the water flow in the inlet pipe against the now closed waste valve causes a water hammer that raises the pressure in the pump beyond the ...
  • 5、Jan 31, 2019 — Symptoms & Causes of Hydraulic and Mechanical Pump Failures, ... Pump does not deliver sufficient pressure, Pump delivers flow ...
  • 6、Apr 9, 2018 — With proper maintenance, most hydraulic pumps will operate smoothly for years, but eventually, the pressure inside these devices will cause ...
  • 7、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 ...
  • 8、Mar 28, 2019 — Irregular pressure can also have several causes: First check the suction line, if pipes or fittings are sucking air the pressure inside the pump ...
  • 9、A PTO driven pump is obvious but gas motor, electric motor or hydraulic motor drive ... This is the most common reason pressure is suddenly not being built.
  • 10、Oct 16, 2021 — For a hydraulic pump, the primary duty is to pressurize the fluid in the reservoir and pumping it to other components at the required pressure.

What is foaming in hydraulic system?

  • 1、Jan 19, 2016 — Is there not a dipstick near the filler tube for the lift system? If you follow the pump supply line back from the hydraulic filter base, ...
  • 2、Find the right Sea Foam Hydraulic Fluid Treatment for your vehicle at O'Reilly Auto Parts. Place your order online and pick it up at your local store for ...
  • 3、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 ...
  • 4、Mar 16, 2018 — Jensen 530 vari-track, checked the hydraulic oil level (when very cold) and ... Once air is in the system it cannot settle out and hence ...8 posts  ·  Two things mate. 1) you hdo is english stuff not designed to be viscous at low temps. Drain ...
  • 5、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 ...
  • 6、Why is ASTM D3427 Air Release different from ASTM D892 Foaming ... resulting in poor hydraulic system performance or potentially even a mechanical failure.
  • 7、C10M171/004 Foam inhibited lubricant compositions ... When the hydraulic oil being pumped in a hydraulic system enters the pump inlet the pressure is ...
  • 8、Unstable foam is often caused by high levels of agitation in the fluid system and does not cause much of a problem in machining operations; ...
  • 9、The foam in oil is typically considered to be an undesirable property in a metalworking fluid. As we know, water-based cutting fluids are comprised of surface- ...
  • 10、Sep 11, 2009 — Aeration occurs when air contaminates the hydraulic fluid. Symptoms include foaming of the fluid, erratic actuator movements, and a banging or ...

How do you bleed a hydraulic hand pump?

  • 1、Hand vacuum pump is easy to bleed your car brakes. ... Can bleed a motorcycle hydraulic clutch, this was notably smaller, simpler and cheaper ...
  • 2、Jul 26, 2016 — Pump 10 times with valve open ... While in full extension, continue to pump 10 times ... How to Bleed Hydraulic Axle and Bottle Jacks ...
  • 3、The 755 Hydraulic Hand Pump develops 10,000 psi (68,950 kPa) and is in- tended to be used with the following Greenlee conduit benders, tubing bender,.
  • 4、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 ...
  • 5、The 767 Hydraulic Hand Pump develops 6500 psi. (44,818 kPa) at 0.0823 in3 (1.3 cm3) per stroke ... Fill with Greenlee hydraulic oil or Mobil DTE-13 only.
  • 6、How do you bleed a clutch with a hand pump? — Use a hand-operated vacuum pump to bleed a clutch Remove air bubbles from the slave cylinder – Open ...
  • 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、2) Engage spreader circuit (electrical or manual over-ride) at ... Hose and fittings sizing must match the port size of the pump and valve:.
  • 9、below fluid level in reservoir); bleed air from system; replace pump shaft seal (and shaft if worn at seal journal). c. Align unit and check condition of.
  • 10、Pump the hydraulic piston control a few times to help initiate the flow. For example, if you are trying to bleed brake lines on your car, you should pump the ...

What will happen if there is air trapped in the hydraulic system?

  • 1、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 
  • 2、products, manufacturing by process filtration, air ... Parker's Handbook of Hydraulic Filtration is intended to ... If any one of these functions is impaired, the ... that is trapped within the ... can occur as it passes through system components. There 
  • 3、Oct 4, 2016 — It is the normal operation of the coolant in your cooling system to expand when it gets hot. The purpose of the overflow tank is simply that
  • 4、Fluid aeration can cause numerous problems in a hydraulic and lubrication oil ... if the bubbles which are flowing with the fluid as it passes through the system ... When an air-ignitable mixture is present within the bubble, ignition may occur from ... Small bubbles are trapped, creating an air column in the vicinity of the central 
  • 5、There is also a ground interconnect switch to allow system A to be powered when ... Note also that the EDPs are always working when the engine is turning, they can ... back to the pneumatic manifold giving hydraulic fumes in the air-conditioning and ... The latter is due to water trapped in the reservoir pressurisation system 
  • 6、Aug 2, 2016 — Assessing the ways air can enter a liquid system & how to remove it ... This typically happens where vacuum conditions occur, such as the suction ... release air from a piping system and prevent many, if not all, of the ... Valves also should be placed along long piping ascents below the hydraulic grade line
  • 7、Feb 11, 2020 — Today, we're talking about air lock in pipe systems. Put simply, air lock is a constriction in flow that happens when a gas gets trapped in a pipe. ... You might be thinking, “Big Deal - air gets trapped where it's not ... The hydraulic grade line slopes downward along pipes as the fluid loses energy to friction. It 
  • 8、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
  • 9、Repairing hydraulic cylinders and rams may be an easy task but something so ... of the seals will almost certainly occur, similar if there is damage to the piston. ... In all cases, if you suspect there to be air in the hydraulic system please take some ... Air can get trapped inside and cause staggered operation or jumpy and jerky 
  • 10、Just to clarify: Hydraulics, which is the principle your brake system uses, works so well because liquids are *not* compressible. ... directed to the brakes; a portion is lost in compressing the trapped air. Also, air tends to have moisture in it. ... air is compressible if pressure or force applied by one side what will happen air get 

How do you release air from a hydraulic system?

  • 1、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 ...
  • 2、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 ...
  • 3、Description: The 2510A air/hydraulic pump is designed to have a maximum capacity of ... Release pressure and disconnect the pump from other hydraulic system ...
  • 4、1) Loosen air bleeder (1) and check that oil oozes out from. the air bleeder. · 2) If the oil does not ooze out, remove the drain hose from. the hydraulic pump ...
  • 5、Cavitation occurs when air is released from the hydraulic oil during momentary depressurization at the pump suction and then imploded onto metal surfaces upon ...
  • 6、Remove the breather cap with dip stick, so you may view the hydraulic fluid ... steps more than once to completely purge all of the air out of the system.
  • 7、The performance of any hydraulic system relies heavily on the condition ... Create a tight fit, so there will be no leaks or air allowed into the cylinder.
  • 8、The air bleed valve should be connected vertical, at the highest point of the hydraulic system or in places where air accumulation may occur. ELA air-bleed ...
  • 9、Nov 9, 2017 — Check valves are the simplest form of hydraulic devices in that they ... This can create issues when re-starting the system as the air will ...
  • 10、air, under pressure, will compress. The compression of air in a hydraulic system also creates heat. Cylinders are equipped with a bleed screw to.

How do you know if you have air in your hydraulic system?

  • 1、Nov 14, 2021 — You can do this by filling any voids as you start up. For example, if you were to replace the cylinder, then you would fill it with clean ...
  • 2、Oct 18, 2018 — The easiest way to determine the health of your complete hydraulic circuit is to check the filter. Every system should have a hydraulic oil ...
  • 3、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 ...
  • 4、Apr 24, 2018 — If you're noticing yourself grinding gears or missing shifts more often, there's a darn good chance your clutch isn't engaging properly. If your ...
  • 5、Apr 14, 2013 — check your fluid level is it low or kind of milky looking if it is the fluid is full of air bubbles . if it is just let it set for an hour or ...
  • 6、If your oil appears foamy or milky, you may have a leak that is causing air to enter the system. Air will cause jerky and slow operation of the hydraulics.
  • 7、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 ...
  • 8、Check the hydraulic fluid level by looking at the sight glass on the side of the hydraulic tank (a Geoprobe® Model 54LT is shown), or on some units, by checking ...
  • 9、Jul 29, 2020 — Brake pedal feels spongy when you press down · Brakes feel soft and not as effective as they usually are · Brake pedal depressed too much or goes ...
  • 10、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 ...

What is pump cavitation?

  • 1、Jan 24, 2020 — Cavitation is usually suspected when there is a loud noise in the pump. It is often described as a loud grinding noise or gravel in the pump ...
  • 2、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 ...
  • 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、Suction recirculation cavitation, in which turbulence of the fluid releases entrained gases into the suction piping. Vaporization of the liquid within the pump ...
  • 5、Mar 15, 2017 — “Pump cavitation is, by definition, the formation and subsequent collapse or implosion of vapor bubbles in a pump. This usually occurs when ...
  • 6、Frequently occurring in pumping applications, cavitation creates bubbles or vapor cavities in a liquid as a result of rapid changes in ...May 16, 2017 · Uploaded by Manufascinating
  • 7、Cavitation is the formation of bubbles when the pressure in certain spots of a pump begins to reach the vapor pressure of the fluid inside. When the pressure ...
  • 8、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 ...
  • 9、Simply defined, cavitation is the formation of bubbles or cavities in liquid, developed in areas of relatively low pressure around an impeller. The imploding or ...24 answers  ·  29 votes: Let me explain you in simple words. Cavitation is a process in pump where cavities are formed ...
  • 10、Major places where cavitation occurs are in pumps, on impellers, or propellers. In centrifugal pumps, cavitation results from a reduction in suction pressure, ...

How do you burp a hydraulic system?

  • 1、Jul 9, 2021 — The power steering pump operates by hydraulics, and anything that operates by ... Locate the power steering bleed valve on the steering box.
  • 2、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 ...
  • 3、... 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 ...
  • 4、Jan 23, 2015 — I have a question about burping or bleeding Giant Root hydraulic ... not found a kit for Giant Root or any instructions for that system.
  • 5、Ensure both your syringes are threaded and that the brake lever is above the caliper. Begin to flush fluid through the system while keeping an eye on air ...
  • 6、Q. How Do You Bleed Air From a Hydraulic Jack? — The process of bleeding a hydraulic jack is the same ... This will push air out of the system.
  • 7、Oct 12, 2008 — Sometimes it doesn't and it turns into a leak when the hydraulic pressures go up with actual application of the brakes in a real life stopping ...
  • 8、Jul 28, 2014 — my hydraulic disc brakes arent working to well but what dose bleeding and burping ... cleaner fluid and removing all the air in the system.10 posts  ·  A burp is where you just expel the uppermost fluid with bubbles on top. A bleed is replacing ...
  • 9、Jul 26, 2016 — How to Bleed Hydraulic Axle and Bottle Jacks. 1. Open release valve. Hydraulic1.jpg. 2. Depress jack trigger ...
  • 10、Nov 24, 2020 — Release the air: If you're bleeding a cylinder, partially close it, but open the bleed valve on top. When the valve starts leaking hydraulic ...

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、The hydraulic tank is pressurized to 65 psi (4.5 bars) in order to avoid pump cavitation. Its maximum volume is 7.1 US gal (5.9 Imp. gal, 27 litres) and its ...
  • 3、Oct 10, 2019 — The noise may be a sign of cavitation. Cavitation is the formation of bubbles or so-called cavities in the hydraulic fluid and is caused by the ...
  • 4、Cavitation can be caused when the demand for fluid exceeds the ability of ... What problems do they cause in a hydraulic system, and how can they be solved?3 answers  ·  2 votes: Cavitation is a phenomenon in which the static pressure of a liquid reduces to below the ...
  • 5、Damaged seals contribute to hydraulic fluid leaks, which cause your machinery to lose power. Aeration also affects the pistons in your hydraulic system.
  • 6、Jul 28, 2015 — Other causes of air ingestion include faulty or incorrectly adjusted load control valves, which can result in air being drawn past the gland of ...
  • 7、Jul 15, 2021 — Improper bleeding of the hydraulic system; Leaks that cause a vacuum (i.e., suction line); Contamination by surface-active compounds ...
  • 8、Nov 17, 2017 — Abnormal noise in hydraulic systems is often caused by aeration or cavitation. Aeration occurs when air contaminates the hydraulic fluid.
  • 9、Sep 27, 2013 — Another related blog, “What is Causing Your Hydraulic System to Leak” ... Aeration means air inclusion in the hydraulic fluid, cavitation is ...
  • 10、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 ...

How do you get air out of a hydraulic cylinder?

  • 1、Partially close the cylinder when all the air has raised to the top of the cylinder. Open the bleed valve at the top for the air to escape.Nov 1, 2021 · Uploaded by Geoprobe Systems
  • 2、Here you may to know how to bleed double acting hydraulic cylinder. ... far it pumps out when you feed oil or. 00:26 your hydraulic ... or air driven pump.
  • 3、How do you troubleshoot a hydraulic cylinder? — Firstly, check the reason from the outside of hydraulic cylinder; check whether the resistance of organs ...
  • 4、Topic: Air bleeding a hydraulic cylinder by allowing the cylinder rod to ... air out of the system by repeatedly extending and retracting the cylinder rod.
  • 5、Jan 11, 2020 — The detailed procedure is discussed below. Check the fluid level in the hydraulic cylinder. Extend the hydraulic cylinder completely to ...
  • 6、I have a hydraulic cylinder for my saw that I made, but I installed mine vertically. in ... You should be fine once you bleed the air out.
  • 7、We didn't use a hydraulic pump, just an “oil over air” setup, where oil in two reservoirs was pressurized, and sent from there to the cylinders, ...5 answers  ·  4 votes: No. While you can make the piston stroke with air, there are a lot of differences between ...
  • 8、... a step by step guide to bleeding the air out of your hydraulic bottle jack. ... level in the jack, before placing the oil plug back into the cylinder.
  • 9、Aug 15, 2018 — Hydraulic Slide-out Cylinder - Retract Test ... Plug opening on manifold to prevent drawing air into the system.
  • 10、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 ...

 

 

PAKER F12-060-MF-IV-D-000-000-0 Piston PumpMaximum Axial Force At Standstill:Pillow Block Bearings; Determining Operating Characteristics:0.0; Case volume:ABB MOTORS AND MECHANICAL INC; Weight (approx.):N/A; Drive Power:63.56; Rate Of Pressure Change:M06288; Maximum Volume Flow:4; Drive Speed:Concentric Collar; Control Pressure Measurement:4 Bolt Pillow Block; Sequence Valve:Tapered Roller Bearing; Load Pressure:Cast Iron; Voltage:Non-expansion; Pressurefree Operation:7/8 Inch; Torque:Yes; Flow:S1U-TAF-408R; Maximum rotational speed:Land Riding Rubbing Single Lip Contact; Maximum Permissible Speed (limit Speed):2 Piece Split; Power:Inch; Pilot Pressure:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Control Fluid Drain:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Moment of inertia rotary group:Pillow Block; Maximum angular acceleration:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F12-030-MF-IV-K-000-000-0 Piston PumpTorque:Pillow Block Bearings; Maximum angular acceleration:0.0; Maximum Torque:ABB MOTORS AND MECHANICAL INC; Sequence Valve:N/A; Drive Power:63.56; Voltage:M06288; Pressurefree Operation:4; Maximum Volume Flow:Concentric Collar; Case volume:4 Bolt Pillow Block; Flow:Tapered Roller Bearing; Determining Operating Characteristics:Cast Iron; Maximum Axial Force At Standstill:Non-expansion; Pilot Pressure:7/8 Inch; Drive Speed:Yes; Rate Of Pressure Change:S1U-TAF-408R; Rotary stiffness:Land Riding Rubbing Single Lip Contact; Power:2 Piece Split; Maximum rotational speed:Inch; Nominal Resistance:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Maximum Permissible Pilot Pressure:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Displacement, geometric, per revolution:Pillow Block; Load Pressure:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F11-005-MB-SV-K-000-000-0 Piston PumpDetermining Operating Characteristics:Pillow Block Bearings; Control Fluid Drain:0.0; Drive Power:ABB MOTORS AND MECHANICAL INC; Maximum Axial Force At Standstill:N/A; Nominal Resistance:63.56; Drive Speed:M06288; Maximum Permissible Speed (limit Speed):4; Load Pressure:Concentric Collar; Control Pressure Measurement:4 Bolt Pillow Block; Case volume:Tapered Roller Bearing; Maximum Torque:Cast Iron; Maximum Permissible Pilot Pressure:Non-expansion; Displacement, geometric, per revolution:7/8 Inch; Maximum Volume Flow:Yes; Moment of inertia rotary group:S1U-TAF-408R; Voltage:Land Riding Rubbing Single Lip Contact; Maximum angular acceleration:2 Piece Split; Maximum rotational speed:Inch; Rate Of Pressure Change:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Rotary stiffness:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Flow:Pillow Block; Weight (approx.):31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F12-080-MS-SN-T-000-000-0 Piston PumpControl Fluid Drain:Pillow Block Bearings; Pressurefree Operation:0.0; Maximum Permissible Speed (limit Speed):ABB MOTORS AND MECHANICAL INC; Flow:N/A; Rate Of Pressure Change:63.56; Weight (approx.):M06288; Drive Power:4; Drive Speed:Concentric Collar; Maximum Torque:4 Bolt Pillow Block; Power:Tapered Roller Bearing; Sequence Valve:Cast Iron; Torque:Non-expansion; Maximum angular acceleration:7/8 Inch; Nominal Resistance:Yes; Moment of inertia rotary group:S1U-TAF-408R; Maximum Volume Flow:Land Riding Rubbing Single Lip Contact; Case volume:2 Piece Split; Determining Operating Characteristics:Inch; Voltage:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Pilot Pressure:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Displacement, geometric, per revolution:Pillow Block; Maximum Permissible Pilot Pressure:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F12-090-MS-SV-T-000 Piston PumpPilot Pressure:Pillow Block Bearings; Maximum rotational speed:0.0; Load Pressure:ABB MOTORS AND MECHANICAL INC; Maximum Axial Force At Standstill:N/A; Maximum Volume Flow:63.56; Rate Of Pressure Change:M06288; Case volume:4; Maximum Torque:Concentric Collar; Nominal Resistance:4 Bolt Pillow Block; Control Fluid Drain:Tapered Roller Bearing; Voltage:Cast Iron; Flow:Non-expansion; Power:7/8 Inch; Torque:Yes; Sequence Valve:S1U-TAF-408R; Maximum Permissible Pilot Pressure:Land Riding Rubbing Single Lip Contact; Displacement, geometric, per revolution:2 Piece Split; Maximum angular acceleration:Inch; Determining Operating Characteristics:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Rotary stiffness:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Weight (approx.):Pillow Block; Drive Speed:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F12-040-MF-IV-K-000-000-0 Piston PumpWeight (approx.):Pillow Block Bearings; Voltage:0.0; Drive Power:ABB MOTORS AND MECHANICAL INC; Maximum rotational speed:N/A; Load Pressure:63.56; Torque:M06288; Maximum Axial Force At Standstill:4; Pressurefree Operation:Concentric Collar; Nominal Resistance:4 Bolt Pillow Block; Maximum Torque:Tapered Roller Bearing; Rotary stiffness:Cast Iron; Power:Non-expansion; Maximum angular acceleration:7/8 Inch; Control Pressure Measurement:Yes; Maximum Volume Flow:S1U-TAF-408R; Maximum Permissible Speed (limit Speed):Land Riding Rubbing Single Lip Contact; Moment of inertia rotary group:2 Piece Split; Control Fluid Drain:Inch; Sequence Valve:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Rate Of Pressure Change:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Pilot Pressure:Pillow Block; Maximum Permissible Pilot Pressure:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F11-010-MV-SV-K-000-000-0 Piston PumpControl Pressure Measurement:Pillow Block Bearings; Maximum Permissible Pilot Pressure:0.0; Case volume:ABB MOTORS AND MECHANICAL INC; Power:N/A; Nominal Resistance:63.56; Pressurefree Operation:M06288; Maximum angular acceleration:4; Drive Speed:Concentric Collar; Rate Of Pressure Change:4 Bolt Pillow Block; Determining Operating Characteristics:Tapered Roller Bearing; Maximum Axial Force At Standstill:Cast Iron; Maximum rotational speed:Non-expansion; Maximum Torque:7/8 Inch; Load Pressure:Yes; Sequence Valve:S1U-TAF-408R; Maximum Volume Flow:Land Riding Rubbing Single Lip Contact; Moment of inertia rotary group:2 Piece Split; Control Fluid Drain:Inch; Pilot Pressure:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Flow:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Rotary stiffness:Pillow Block; Displacement, geometric, per revolution:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F11-019-MV-SV-K-000-000-0 Piston PumpDetermining Operating Characteristics:Pillow Block Bearings; Control Pressure Measurement:0.0; Flow:ABB MOTORS AND MECHANICAL INC; Drive Speed:N/A; Maximum Permissible Speed (limit Speed):63.56; Drive Power:M06288; Voltage:4; Case volume:Concentric Collar; Maximum Axial Force At Standstill:4 Bolt Pillow Block; Maximum Permissible Pilot Pressure:Tapered Roller Bearing; Rotary stiffness:Cast Iron; Power:Non-expansion; Rate Of Pressure Change:7/8 Inch; Maximum Volume Flow:Yes; Nominal Resistance:S1U-TAF-408R; Torque:Land Riding Rubbing Single Lip Contact; Maximum Torque:2 Piece Split; Sequence Valve:Inch; Pressurefree Operation:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Pilot Pressure:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Maximum rotational speed:Pillow Block; Weight (approx.):31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER CB-B125 Piston PumpMaximum Axial Force At Standstill:Pillow Block Bearings; Maximum Volume Flow:0.0; Load Pressure:ABB MOTORS AND MECHANICAL INC; Maximum Permissible Pilot Pressure:N/A; Case volume:63.56; Control Pressure Measurement:M06288; Maximum rotational speed:4; Drive Power:Concentric Collar; Flow:4 Bolt Pillow Block; Determining Operating Characteristics:Tapered Roller Bearing; Drive Speed:Cast Iron; Moment of inertia rotary group:Non-expansion; Nominal Resistance:7/8 Inch; Weight (approx.):Yes; Voltage:S1U-TAF-408R; Displacement, geometric, per revolution:Land Riding Rubbing Single Lip Contact; Torque:2 Piece Split; Control Fluid Drain:Inch; Rotary stiffness:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Maximum Torque:4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Power:Pillow Block; Maximum angular acceleration:31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;
PAKER F12-110-MS-SV-S-000 Piston PumpMoment of inertia rotary group:Pillow Block Bearings; Torque:0.0; Maximum Axial Force At Standstill:ABB MOTORS AND MECHANICAL INC; Case volume:N/A; Maximum Torque:63.56; Maximum Permissible Pilot Pressure:M06288; Power:4; Maximum rotational speed:Concentric Collar; Sequence Valve:4 Bolt Pillow Block; Maximum angular acceleration:Tapered Roller Bearing; Nominal Resistance:Cast Iron; Maximum Volume Flow:Non-expansion; Control Fluid Drain:7/8 Inch; Drive Power:Yes; Pilot Pressure:S1U-TAF-408R; Control Pressure Measurement:Land Riding Rubbing Single Lip Contact; Load Pressure:2 Piece Split; Voltage:Inch; Pressurefree Operation:Double Row | Optional E-Tect Seal | Double Collar | With Set Screw; Maximum Permissible Speed (limit Speed):4 Bolt Pillow Block; 4-1/2" Bore; 6" Base to Center Height; Concentric Collar Mount; Tapered Roller Bearing;; Determining Operating Characteristics:Pillow Block; Weight (approx.):31171511; Harmonized Tariff Code:8483.20.40.80; Noun:Bearing; Keyword String:Pillow Block; Manufacturer Item Number:P4B526-TAF-408R; Manufacturer Internal Number:037615; Weight / LBS:140; Nominal Bolt Center to Center:15 Inch | 381 Millimeter; d:4.5 Inch | 114.3 Millimeter; Bolt Spacing Minimum:14.5 Inch | 368.3Millimeter; B:6 Inch | 152.4 Millimeter; D:6.75 Inch | 171.45 Millimeter; Bolt Spacing Maximum:16 Inch | 406.4Millimeter; Actual Bolt Center to Center:0 Inch | 0Millimeter;

 

 

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