PAKER 150T-61-FR Piston Pump Parts List | ||||||||
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Cylinder Blocks | 100 mm | 180 mm | N/A | 0.0 | ||||
Valve Plate | 1.188 Inch | 30.175 Millimeter | 3.188 Inch | 80.975 Millimeter | N/A | 0.0 | ||||
Oil Distribution Disc Plug | 3.543 Inch | 90 Millimeter | 5.512 Inch | 140 Millimeter | N/A | 0.0 | ||||
Piston Sets | Double Row | Heavy Duty | http://www.nachiamerica.com | N/A | 0.0 | ||||
Swing | 0.984 Inch | 25 Millimeter | 2.441 Inch | 62 Millimeter | N/A | 0.0 | ||||
Rod | 0,023 Kg | 20 | N/A | 0.0 | ||||
Barrel Washer | 0,025 | 8-1/2 Shaft Dia | N/A | 0.0 | ||||
Gear Pump | 20 mm | 67400 | N/A | 0.0 | ||||
Block Cylinder | 70 | 16.5 mm | 0.005 to 0.020 mm | Bearing Steel | ||||
Pressure Plate | 7 mm | 19 mm | 15 Degree | 68 mm | ||||
5206ZZ | 30 mm | 62 mm | 8483.20.40.80 | 8 | ||||
E-RR2232 | 109,100 mm | 125,058 mm | 5.0 | 5.0 | ||||
NAF 72012 | 7 mm | 20 mm | ABEC 5 | ISO P5 | 20 mm | ||||
593167 | 0.937 Inch | 23.8 Millimeter | 30MM Bore; 62MM Outside Diameter; 23.8MM Width; 2 Metal Shields; No Flush Ground; Ball Bearing; Double Row of Balls; ABEC 1 | ISO P0; No Filling Slot; No Snap Ring | 24 mm | C0-Medium |
How do you know if you have air in your hydraulic system?
- 1、Apr 6, 2017 — There are two simple ways to determine on-site if engine oil or hydraulic fluid contains water: 1) Look at the system and if the fluid is milky ...
- 2、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, ...
- 3、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 ...
- 4、System Overheat. The system exceeds its maximum allowable operating temperature and must be de-energized. · Loss of System Pressure. Loss of system pressure can ...
- 5、Jun 30, 2021 — Air bubbles in the system undergo extreme compression and decompression. Cavitation is a related phenomenon that happens when there's not enough ...
- 6、Oct 12, 2020 — Check your hydraulic levels by using either the sight glass or dipstick. If you need to add fluid, be sure to cycle the hoist several times.
- 7、How does oil get into a hydraulic system? — Releasing the Air Once you have partially closed the cylinder, you can open the bleed valve at the top, ...
- 8、Mar 4, 2016 — Open the air valve at the upper side of the hydraulic cylinder. · Check all hoses or pipes the sure they are connected properly. · Set up the ...
- 9、It is rare that a valve becomes worn so badly that the pump cannot build up full pressure but it can happen. Symptoms of excessive leakage are a loss of ...
- 10、Despite being called “minor head loss”, the pressure loss due to restricted flows rates through hydraulic quick connects and hydraulic fittings can exceed those ...
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、Article explains three common pump problems - including cavitation, air entrainment and recirculation - and provides tips on how to fix them. | PumpScout.
- 3、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 ...
- 4、Aug 8, 2019 — Cavitation happens when pumped liquid entering the low-pressure region of the pump near the impeller vane entrances falls below the vapor ...
- 5、Major places where cavitation occurs are in pumps, on impellers, or propellers. In centrifugal pumps, cavitation results from a reduction in suction pressure, ...
- 6、Mar 9, 2021 — Risks of vacuum pump cavitation include decreased pressure or flow, damage to the impeller, vibration, excessive power consumption, ...
- 7、Pump cavitation is the formation and subsequent collapse or implosion of vapor bubbles in a pump. It occurs when gas bubbles are formed in the pump due to ...
- 8、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 ...
- 9、Pump cavitation is defined as the phenomenon when pressure variances in the working fluid causes air pocket implosions. As defined by Bernoulli's Law, pressure ...
- 10、The pump cavitation can be defined as it is the formation of a vapor bubble within the pump otherwise cavities in the fluid around an impeller at low pressure.
How do you release air from a hydraulic system?
- 1、Mar 20, 2014 — Running a hydraulic system to 10,000 psi has little detrimental effect on ... when compressed air energy is released, it expands with vigor.
- 2、Dec 16, 2019 — Check for restrictions in the hydraulic lines; restrictions often take the form of a collapsed or clogged line. Make sure there are no air leaks ...
- 3、Feb 13, 2020 — Air contamination is the entrance of air into a hydraulic system and consists of two types — aeration and cavitation. Both can cause severe ...
- 4、Mar 24, 2021 — Q: How can I remove water from my hydraulics system? ... Air in the hydraulic system is called aeration, which is caused by a leak on the ...
- 5、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 ...
- 6、Jul 2, 2019 — If the oil is low in the tank, you may start to draw air into the system, causing the pump to cavitate and the pressure in the system to drop ...
- 7、Jan 25, 2008 — Just replaced a cylinder hose, obviously have introduced air into the system. In the past I have never done any sort of bleeding..just fill ...
- 8、Air will always go to the highest point in the system. This includes the inside of the cylinder plunger. That is why the cylinder must be turned upside down ( ...
- 9、May 3, 2018 — After completely draining the hydraulic fluid and changing filters on my Massey Ferguson 5465, i need to bleed the air.
- 10、Description: The 2510A air/hydraulic pump is designed to have a maximum capacity of ... Release pressure and disconnect the pump from other hydraulic system ...
What causes aeration in a hydraulic system?
- 1、Apr 24, 2018 — Hydraulic system maintenance is critical to efficient machinery operation ... Causes of aeration include: low fluid levels; air leaks in the ...
- 2、Jun 11, 2019 — Causes of aeration include low fluid levels; air leaks in the suction line; low fluid temperature; fluid is too viscous to release air or ...
- 3、Apr 29, 2019 — In any hydraulic system, the hydraulic pump is usually the most ... sign of aeration as the air exiting the system will cause foam to form.
- 4、Jun 30, 2021 — Cavitation and aeration cause fluid contamination and damage to system components through loss of lubrication, overheating and burning of seals.
- 5、Nov 25, 2017 — The ability of the hydraulic system in lifting and actuating heavy ... and vibration (and noise) caused by pump cavitation/aeration, motor, ...
- 6、A sticking or malfunctioning bleed valve in a dry valve pump system is another common cause of cavitation in refuse packer hydraulic systems. A dry valve pump ...
- 7、Aug 17, 2020 — Hydraulic pumps are full of fluids that course through the system at high ... Three common causes that make pumps noisy include cavitation, ...
- 8、Cavitation, Aeration, Heat and Pressure are also major factors in hydraulic system failures. Cavitation is caused when air molecules are ingested into ...
- 9、Cavitation in Hydraulic Systems · bad suction line (too narrow, too long, too "elbowy" or too high above oil level) - bad design · clogged or undersized suction ...
- 10、Jan 30, 2020 — What Causes Cavitation? ... Cavitation happens when bubbles, or voids, form within a fluid because the pressure quickly drops below the vapor ...
How do you bleed a hydraulic hand pump?
- 1、3/2021. Hydraulic Hand Pump & Jack. Manual. (PM-5250). Table of Contents. Introduction & Description . ... Air Bleed Procedure for Hydraulic Jack .
- 2、The P-2200D is a 2 speed, steel bodied manual hand pump with a 4 way valve designed to be used with double acting hydraulic equipment. Both model pumps feature ...15 pages
- 3、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 ...
- 4、Fluid flows from the reservoir to the pump, where it is forced through the ... The manual bleed valve also needs to be actuated if hydraulic components need ...
- 5、If replacing the pump and contamination of the hydraulic fluid is suspected flush the old ... Several steering systems/helms can be bled easily, by hand.
- 6、Definition: A hydraulic hand pump delivers hydraulic fluid under pressure by ... or after refilling the pump's reservoir it may be necessary to bleed any.
- 7、Filling and bleeding LS hydraulic steering system with Speedy Purge ... Bleeding of a linear drive for internal installation with fixed flow.Lecomble & Schmitt · Lecomble & Schmitt Service Communication · Dec 13, 2018
- 8、Learn how to remove the air from a hydraulic power steering system on a vehicle after replacing a steering pump or flushing the steering system.
- 9、Mar 18, 2021 — How do you bleed a hydraulic hand pump? · What would cause hydraulic pump cavitation? · How do you fix pump cavitation? · Why is my sewage pump ...
- 10、Feb 18, 2018 — Funny, the manual says to bleed the system to avoid damaging the hydraulic pump. I'd like to think these are robust enough to not fail ...
What causes a hydraulic pump to lose pressure?
- 1、o Pump severely overloaded with water – Causes groaning and hydraulic noise. ... o Pressure loss in piping increases – Check the pressure difference between ...
- 2、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.
- 3、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 ...
- 4、Note: If press leaks around the ram but holds pressure the reservoir has been overfilled. SYMPTOM. CAUSE. SOLUTION. Oil leaking from piston oil seal. Reservoir ...
- 5、The mill had to replace the pump, cylinder and valve O-rings. This is just one example of how improper pressure settings can lead to temperature changes and ...
- 6、As the teeth of the gears become interlocked on the discharge side of the pump, the volume is reduced and the fluid is forced out under pressure. No fluid is ...
- 7、Dec 19, 2011 — To adjust reliev valve you will need a tester., Also for checking pump. Do not force the valve without a pressure gauge, as it can cause a great ...
- 8、Other situations which can cause the hydraulic system to fail include: Aeration: Air in the hydraulic fluid can create problems when put under pressure by the ...
- 9、If the valves are too small, a problem is created where their pressure drop causes a horsepower loss. Merely changing the system's pump to a variable ...
- 10、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.
How do you burp a hydraulic system?
- 1、Feb 7, 2022 — The manual method is the old-style variant of bleeding the cooling system. Some cars have one or more air bleed valves to get the air out from ...
- 2、using our proprietary SeaStar Hydraulic Fluid. ... within a hydraulic steering system. ... “Bleeder” refers to cylinders fitted with bleed tee fittings.
- 3、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 ...
- 4、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 ...
- 5、Mar 17, 2017 — In order to do so, you will need to open up the single acting hydraulic cylinder to its full extension and leave it extended for several minutes ...
- 6、We have streamlined the oil route throughout the system to prevent air bubbles from being ... SHIMANO ULTEGRA Hydraulic Disc Brake CaliperVIEW PRODUCT.
- 7、Nov 1, 2021 — How do you bleed air from a double acting hydraulic cylinder? ... Partially close the cylinder when all the air has raised to the top of the ...
- 8、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 ...
- 9、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 ...
- 10、BKM-1 Hydraulic Brake Bleed Kit (Mineral) · Appropriate mineral oil for the system · Hex wrenches · PP-1.2 Piston Press, tire lever or cone wrench ...Mar 13, 2020 · Uploaded by Park Tool
What will happen if there is air trapped in the hydraulic system?
- 1、To keep your log splitter splitting for many years to come, check the hydraulic fluid often. ... If necessary, refill the reservoir within the range marked on the dipstick. ... back and forth) 12 more times to help remove any trapped air from the system
- 2、May 23, 2008 — I have lost more than 5 gallons of fluid and it's starting to get expensive. I am new to all this hydraulic pressure. ... I started loosening fittings here and there to try and bleed the trapped air and I have spent four hours ... if the system worked before you replaced hoses then you MUST have two hoses crossed
- 3、An air lock is a restriction of, or complete stoppage of liquid flow caused by vapour trapped in a high point of a liquid-filled pipe system. The gas, being less dense than the liquid, rises to any high points. ... Air lock problems often occur when one is trying to recommission a system after it has been deliberately (for servicing) or
- 4、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
- 5、Jul 27, 2020 — Air that enters a hydraulic system can cause many problems that could ... as dieseling can occur when the hydraulic cylinder oil mixes with the air, ... bleeding trapped air in a system, will prevent any long-term damage or
- 6、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
- 7、May 28, 2008 — A friend and I tried to bleed the clutch system, but with no improvement. What is wrong, and will I damage anything if I continue to drive it in this
- 8、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
- 9、Before you attempt to air-bleed a hydraulic cylinder by allowing the cylinder rod ... air out of the system by repeatedly extending and retracting the cylinder rod. When he activated the directional control valve to extend the cylinder rod, there ... with the intention of allowing the cylinders to "free-travel" to purge the trapped air
- 10、Aug 23, 2016 — Even trapped air will dissolve into the oil and be transported back to the tank ... But if you get injured while bleeding air from the system on their
What is foaming in hydraulic system?
- 1、by S Ahmed · 2019 · Cited by 14 — Hydraulic fracturing of shale gas reservoir [ 1 ]. Furthermore, different types of fluids and treatments have been used and continuously developed for ...
- 2、Jul 5, 2001 — Foam causes problems when it overflows the reservoir. In such cases, the problem may be easily solved by adding ester or silicon oil to the ...
- 3、by RM Karina · 2018 — system which can cause poor lubrication. ... Tribology in the lubrication system describes ... Synthetic hydraulic (SH) lubricating oil, hydraulic.
- 4、The key role of hydraulic oil in a hydraulic system is to transfer power from one ... Anti-foaming – An anti-foaming agent for hydraulic oil reduces foaming ...
- 5、Jan 28, 2020 — Quality hydraulic oils must contain high pressure, anti-rust, anti-wear, and anti-foaming agents—all are necessary for the oil to do its job.
- 6、Repair or replace. Reservoir too small. Recommended size is 1 1/2 times pump gpm. FOAMING OF OIL. Incorrect, low or dirty oil.
- 7、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.
- 8、Sep 23, 2015 — Foaming in oil is mainly due to the accumulation of small air bubbles at the surface of the lubricant. It is caused by excessive agitation, ...
- 9、The presence of air bubbles in the fluid can lead to excessive oxidation, cavitation, the reduction of lubricating properties of the oil and hydraulic system ...1 answer · 2 votes: Overheating: Too high temperatures cause faster breakdown of frying oil causing premature ...
- 10、Jan 21, 2013 — Everything else on the tractor runs fine I use a Melrose 2500 series hydraulic breaker with this Bobcat. Thank you, Ed. Reply.
How do you get air out of a hydraulic cylinder?
- 1、Aeration occurs when air contaminates the hydraulic fluid. ... This could be anything from a cylinder that is leaking high-pressure fluid past its piston ...
- 2、Mar 4, 2016 — Open the air valve at the upper side of the hydraulic cylinder. · Check all hoses or pipes the sure they are connected properly. · Set up the ...
- 3、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 ...
- 4、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.
- 5、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, ...
- 6、OPERATING INSTRUCTIONS FOR BOSSRAM DOUBLE-ACTING HYDRAULIC. CYLINDERS. NOTE: Repair parts sheets for this product are available from the Duff Norton Air ...
- 7、It is the variability of compressed air (that air can be compressed at all, and the energy stored in tanks) that prevents an air cylinder from operating with ...
- 8、Sep 4, 2018 — How do I bleed my two-post lift hydraulic cylinders? · Run the lift up and down a few times with no vehicle. · Lower arms to about 1 foot off the ...
- 9、Hints on Maintenance of Hydraulic Fluid in the System ... All cylinder, valve, pump and hose ... air from system; replace pump shaft.
- 10、Jan 11, 2020 — Check the fluid level in the hydraulic cylinder. · Extend the hydraulic cylinder completely to bring air towards the top of the cylinder. · The ...
PAKER F11-010-MV-SV-K-000-000-0 Piston Pump | Pressurefree Operation:3.9375 in; Load Pressure:Non-Expansion Bearing (Fixed); Maximum Volume Flow:6.6300 in; Drive Speed:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Nominal Resistance:9.3800 in; Maximum rotational speed:8.1250 in; Voltage:Four-Bolt Piloted; Maximum Permissible Pilot Pressure:Open; Control Pressure Measurement:Spherical Roller; Maximum angular acceleration:Lubrication Fitting; Pilot Pressure:Solid Housing; Drive Power:0.7500 in; Displacement, geometric, per revolution:Round; Maximum Torque:Powder coat; Weight (approx.):Heavy Duty; Rotary stiffness:883450184755; Torque:Cast Steel; Control Fluid Drain:Click here; Power:4.9900 in; Flow:43 lbs; Sequence Valve:Double V-Lock; |
PAKER CB-B125 Piston Pump | Voltage:3.9375 in; Drive Speed:Non-Expansion Bearing (Fixed); Pressurefree Operation:6.6300 in; Maximum Axial Force At Standstill:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Pilot Pressure:9.3800 in; Load Pressure:8.1250 in; Maximum Torque:Four-Bolt Piloted; Maximum rotational speed:Open; Weight (approx.):Spherical Roller; Maximum angular acceleration:Lubrication Fitting; Flow:Solid Housing; Determining Operating Characteristics:0.7500 in; Displacement, geometric, per revolution:Round; Case volume:Powder coat; Sequence Valve:Heavy Duty; Control Pressure Measurement:883450184755; Moment of inertia rotary group:Cast Steel; Torque:Click here; Power:4.9900 in; Maximum Volume Flow:43 lbs; Nominal Resistance:Double V-Lock; |
PAKER F11-019-MV-SV-K-000-000-0 Piston Pump | Load Pressure:3.9375 in; Nominal Resistance:Non-Expansion Bearing (Fixed); Displacement, geometric, per revolution:6.6300 in; Control Fluid Drain:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Rate Of Pressure Change:9.3800 in; Power:8.1250 in; Weight (approx.):Four-Bolt Piloted; Moment of inertia rotary group:Open; Maximum Torque:Spherical Roller; Maximum rotational speed:Lubrication Fitting; Maximum Volume Flow:Solid Housing; Sequence Valve:0.7500 in; Determining Operating Characteristics:Round; Flow:Powder coat; Pressurefree Operation:Heavy Duty; Maximum angular acceleration:883450184755; Torque:Cast Steel; Voltage:Click here; Drive Power:4.9900 in; Case volume:43 lbs; Maximum Permissible Pilot Pressure:Double V-Lock; |
PAKER F12-060-MF-IV-D-000-000-0 Piston Pump | Pressurefree Operation:3.9375 in; Displacement, geometric, per revolution:Non-Expansion Bearing (Fixed); Moment of inertia rotary group:6.6300 in; Drive Speed:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Control Fluid Drain:9.3800 in; Control Pressure Measurement:8.1250 in; Maximum Axial Force At Standstill:Four-Bolt Piloted; Pilot Pressure:Open; Maximum Permissible Pilot Pressure:Spherical Roller; Rotary stiffness:Lubrication Fitting; Power:Solid Housing; Maximum Permissible Speed (limit Speed):0.7500 in; Determining Operating Characteristics:Round; Weight (approx.):Powder coat; Rate Of Pressure Change:Heavy Duty; Maximum rotational speed:883450184755; Maximum Volume Flow:Cast Steel; Drive Power:Click here; Load Pressure:4.9900 in; Flow:43 lbs; Maximum angular acceleration:Double V-Lock; |
PAKER F12-110-MS-SV-S-000 Piston Pump | Load Pressure:3.9375 in; Drive Speed:Non-Expansion Bearing (Fixed); Maximum rotational speed:6.6300 in; Control Fluid Drain:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Torque:9.3800 in; Displacement, geometric, per revolution:8.1250 in; Power:Four-Bolt Piloted; Rotary stiffness:Open; Moment of inertia rotary group:Spherical Roller; Maximum angular acceleration:Lubrication Fitting; Weight (approx.):Solid Housing; Nominal Resistance:0.7500 in; Drive Power:Round; Sequence Valve:Powder coat; Pilot Pressure:Heavy Duty; Maximum Torque:883450184755; Rate Of Pressure Change:Cast Steel; Pressurefree Operation:Click here; Maximum Volume Flow:4.9900 in; Determining Operating Characteristics:43 lbs; Flow:Double V-Lock; |
PAKER F11-005-MB-SV-K-000-000-0 Piston Pump | Voltage:3.9375 in; Determining Operating Characteristics:Non-Expansion Bearing (Fixed); Maximum Torque:6.6300 in; Maximum rotational speed:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Rate Of Pressure Change:9.3800 in; Load Pressure:8.1250 in; Torque:Four-Bolt Piloted; Sequence Valve:Open; Control Fluid Drain:Spherical Roller; Maximum Permissible Speed (limit Speed):Lubrication Fitting; Control Pressure Measurement:Solid Housing; Displacement, geometric, per revolution:0.7500 in; Weight (approx.):Round; Maximum angular acceleration:Powder coat; Maximum Volume Flow:Heavy Duty; Power:883450184755; Rotary stiffness:Cast Steel; Maximum Permissible Pilot Pressure:Click here; Nominal Resistance:4.9900 in; Drive Power:43 lbs; Pressurefree Operation:Double V-Lock; |
PAKER F12-040-MF-IV-K-000-000-0 Piston Pump | Pilot Pressure:3.9375 in; Flow:Non-Expansion Bearing (Fixed); Pressurefree Operation:6.6300 in; Nominal Resistance:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Displacement, geometric, per revolution:9.3800 in; Rate Of Pressure Change:8.1250 in; Torque:Four-Bolt Piloted; Maximum rotational speed:Open; Maximum Volume Flow:Spherical Roller; Drive Speed:Lubrication Fitting; Maximum Permissible Speed (limit Speed):Solid Housing; Determining Operating Characteristics:0.7500 in; Weight (approx.):Round; Sequence Valve:Powder coat; Control Pressure Measurement:Heavy Duty; Power:883450184755; Case volume:Cast Steel; Maximum Torque:Click here; Rotary stiffness:4.9900 in; Maximum Axial Force At Standstill:43 lbs; Maximum angular acceleration:Double V-Lock; |
PAKER F12-030-MF-IV-K-000-000-0 Piston Pump | Maximum Volume Flow:3.9375 in; Sequence Valve:Non-Expansion Bearing (Fixed); Control Fluid Drain:6.6300 in; Determining Operating Characteristics:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Weight (approx.):9.3800 in; Maximum angular acceleration:8.1250 in; Maximum Axial Force At Standstill:Four-Bolt Piloted; Case volume:Open; Voltage:Spherical Roller; Maximum rotational speed:Lubrication Fitting; Control Pressure Measurement:Solid Housing; Drive Power:0.7500 in; Rotary stiffness:Round; Rate Of Pressure Change:Powder coat; Drive Speed:Heavy Duty; Flow:883450184755; Torque:Cast Steel; Moment of inertia rotary group:Click here; Displacement, geometric, per revolution:4.9900 in; Maximum Torque:43 lbs; Maximum Permissible Pilot Pressure:Double V-Lock; |
PAKER F12-090-MS-SV-T-000 Piston Pump | Maximum Axial Force At Standstill:3.9375 in; Drive Power:Non-Expansion Bearing (Fixed); Maximum Volume Flow:6.6300 in; Pressurefree Operation:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Rate Of Pressure Change:9.3800 in; Moment of inertia rotary group:8.1250 in; Rotary stiffness:Four-Bolt Piloted; Case volume:Open; Control Fluid Drain:Spherical Roller; Flow:Lubrication Fitting; Power:Solid Housing; Control Pressure Measurement:0.7500 in; Torque:Round; Drive Speed:Powder coat; Maximum Torque:Heavy Duty; Sequence Valve:883450184755; Displacement, geometric, per revolution:Cast Steel; Maximum Permissible Pilot Pressure:Click here; Nominal Resistance:4.9900 in; Maximum angular acceleration:43 lbs; Maximum Permissible Speed (limit Speed):Double V-Lock; |
PAKER F12-080-MS-SN-T-000-000-0 Piston Pump | Maximum Permissible Speed (limit Speed):3.9375 in; Sequence Valve:Non-Expansion Bearing (Fixed); Maximum angular acceleration:6.6300 in; Drive Speed:Labyrnith non-contacting, non-purging seal with DuPont™ Teflon®; Weight (approx.):9.3800 in; Drive Power:8.1250 in; Displacement, geometric, per revolution:Four-Bolt Piloted; Pressurefree Operation:Open; Maximum Permissible Pilot Pressure:Spherical Roller; Case volume:Lubrication Fitting; Maximum Torque:Solid Housing; Maximum Axial Force At Standstill:0.7500 in; Maximum rotational speed:Round; Power:Powder coat; Load Pressure:Heavy Duty; Rate Of Pressure Change:883450184755; Control Fluid Drain:Cast Steel; Moment of inertia rotary group:Click here; Determining Operating Characteristics:4.9900 in; Rotary stiffness:43 lbs; Torque:Double V-Lock; |
PAKER 150T-61-FR Piston Pump Video