Ev>Ürünler>Dansion P110 pump>Dansion P110 series pump P110-06L1C-J8P-00
Dansion P110 series pump P110-06L1C-J8P-00
Dansion P110 pump
Dansion p110 Bearing SPECIFICATIONS
- Dansion
p110
- kamenzhang2020-07-10 09:46:19
Welcome to my shop! Glad to serve you! Please send your question!
Dansion p110 Ürün Açıklaması
Dansion P110 series pump P110-06L1C-J8P-00 Features – For use in mobile and stationary applications – The output speed is dependent on the flow of the pump and the displacement of the motor. – The output torque increases with the pressure differential between the high-pressure and the low-pressure side. – Finely graduated sizes permit far-reaching adaptation to thedrive case – High power density – Small dimensions – High total efficiency – Good starting characteristics – Economical design Dansion P110 series pump P110-06L1C-J8P-00 has a number of pistons (usually an odd number) arranged in a circular array within a housing which is commonly referred to as a cylinder block, rotor or barrel. This cylinder block is driven to rotate about its axis of symmetry by an integral shaft that is, more or less, aligned with the pumping pistons (usually parallel but not necessarily). Mating surfaces. One end of the cylinder block is convex and wears against a mating surface on a stationary valve plate. The inlet and outlet fluid of the Dansion P110 series pump P110-06L1C-J8P-00 pass through different parts of the sliding interface between the cylinder block and valve plate. The valve plate has two semi-circular ports that allow inlet of the operating fluid and exhaust of the outlet fluid respectively. Protruding pistons. The pumping pistons protrude from the opposite end of the cylinder block. There are numerous configurations used for the exposed ends of the pistons but in all cases they bear against a cam. In variable displacement units, the cam is movable and commonly referred to as a swashplate, yoke or hanger. For conceptual purposes, the cam can be represented by a plane, the orientation of which, in combination with shaft rotation, provides the cam action that leads to piston reciprocation and thus pumping. The angle between a vector normal to the cam plane and the cylinder block axis of rotation, called the cam angle, is one variable that determines the displacement of the pump or the amount of fluid pumped per shaft revolution. Variable displacement units have the ability to vary the cam angle during operation whereas fixed displacement units do not. Reciprocating pistons. As the cylinder block rotates, the exposed ends of the pistons are constrained to follow the surface of the cam plane. Since the cam plane is at an angle to the axis of rotation, the pistons must reciprocate axially as they precess about the cylinder block axis. The axial motion of the pistons is sinusoidal. During the rising portion of the piston's reciprocation cycle, the piston moves toward the valve plate. Also, during this time, the fluid trapped between the buried end of the piston and the valve plate is vented to the pump's discharge port through one of the valve plate's semi-circular ports - the discharge port. As the piston moves toward the valve plate, fluid is pushed or displaced through the discharge port of the valve plate. Effect of precession. When the piston is at the top of the reciprocation cycle (commonly referred to as top-dead-center or just TDC), the connection between the trapped fluid chamber and the pump's discharge port is closed. Shortly thereafter, that same chamber becomes open to the pump's inlet port. As the piston continues to precess about the cylinder block axis, it moves away from the valve plate thereby increasing the volume of the trapped chamber. As this occurs, fluid enters the chamber from the pump's inlet to fill the void. This process continues until the piston reaches the bottom of the reciprocation cylinder - commonly referred to as bottom-dead-center or BDC. At BDC, the connection between the pumping chamber and inlet port is closed. Shortly thereafter, the chamber becomes open to the discharge port again and the pumping cycle starts over. Dansion P110 series pump P110-06L1C-J8P-00 are used to power the hydraulic systems of jet aircraft, being gear-driven off of the turbine engine's main shaft, The system used on the F-14 used a 9-piston pump that produced a standard system operating pressure of 3000 psi and a maximum flow of 84 gallons per minute. They are also used in some pressure washers. For example Dansion P110 pump has several models powered by axial piston pumps with three pistons. Axial reciprocating motors are also used to power many machines. They operate on the same principle as described above, except that the circulating fluid is provided under considerable pressure and the piston housing is made to rotate and provide shaft power to another machine. A common use of an axial reciprocating motor is to power small earthmoving plant such as skid loader machines. Another use is to drive the screws of torpedoes. Hydraulic Equipment Distributor Supplier is the global leader in motion and control technologies, providing precision-engineered solutions for a wide variety of mobile, industrial and aerospace markets. Hydraulic Equipment Distributor Supplier can be found on and around everything that moves. At Hydraulic Equipment Distributor Supplier we have an unmatched breadth and depth of products that originate from a global leadership position in nine core Motion and Control technologies that include aerospace, climate control, electromechanical, filtration, fluid and gas handling, hydraulics, pneumatics, process control, sealing and shielding. We can apply these products and technologies individually to solve customer challenges that are simpler, or we can combine them to develop systems that address challenges that are complex.
Dansion p110 INTERCHANGE
Dansion P110 pump Part series p110 is a potential replacement for these common bearing part numbers:
p110
p110
p110
p110
p110
p110
p110
p110
Bizimle iletişime geçin
- Email[email protected]
- Adres
- iş telefonu(Çalışma zamanı)
- Faks
Dansion P110 pump CATEGORIES
- PVV
- PV7 - Direct Operated
- Vickers vane pump
- T6CC vane pump
- PV pump
- PVT6 pump
- yuken Hydraulic Pump
- siemens
- Gold cup P7 pump
- Gold cup P8 pump
- PVT10 PUMP
- PVT15 PUMP
- PVT20 PUMP
- daikin Hydraulic Pump
- Worldcup P8W Pump
- Gold cup P6P series pump
- Gold cup P7P series pump
- Gold cup P8P series pump
- Gold cup P6R series piston pump
- filteration filter elements
- Vickers Hydraulic Pump
- Denison Hydraulic Pump
- Gold cup P6 pump
- Gold cup P11 pump
- Gold cup P14 pump
- Gold cup P24 pump
- Gold cup P30 pump
- parker gear pump
- Rexroth Hydraulic Pump
- Bosch Hydraulic Pump
- A10V(S)O & (A)A10VSO (Series 31)
- A1VO (Series 10)
- A10V(S)O (Series 52)
- A10VSO (Series 32)
- (A)A4VSO (Series 10 & 30)
- A15VSO (Series 10)
- AA4VG (Series 32)
- AA10VG (Series 10)
- Hitachi Hydraulic Pump
- Eaton
- Sauer Danfoss
- vane pumps
- gear pumps
- check valves
- relief valves
- AZPF and AZPN
- AZPG
- PGH
- piston pumps
- Other Pump
- Komatsu Hydraulic Pump
- Linde Hydraulic Pump
- operated directional valves
- PVT47 PUMP
- PVT64 PUMP
- Dansion P080 pump
- Dansion P110 pump
- Dansion P140 pump
- Dansion P200 pump
- Dansion P260Q pump
- WorldcupP6W Pump
- Worldcup P7W Pump
- fans cooling
- piston motors
- pressure swithes
- accessories
- mitsubishi
- Sumitomo Hydraulic Internal Gear Pump
- VPV
- PSV
- A11V
- Vickers
- PVT29 PUMP
- PVT38 PUMP
- Gold cup P7R series piston pump
- Gold cup P8R series piston pump
- NACHI Hydraulic Pump
- rexroth pump
- rexroth linear
- rexroth valve
- pressure valves
- solenoid directional valves
- control valves