Parker TE Series Hydraulic Torqmotor TE0165CN410AAAB, 2-Bolt Flange, 1" SAE Parallel Key Shaft, Manifold Mount Port Threads

Parker TE Series Motor TE0165CN410AAAB, 2 bolt flange shaft, 1" SAE Parallel key, manifold port threads

Quick review:

Model number: BME2-165-HM-A
Displacement:165 ml/r
Speed, 283-355 rpm
Torque, 307-422 Nm
Output, 8.9-15.7 Kw
Pressure Drop, 14 - 29 MPa
Flange, square mount
Shaft, 25.4mm key shaft
Rotation, CCW
Features, suit Parker TE0165CN410AAAB

Composition of a Hydraulic System: Five Core Components

1. Power Components

   Serving as the heart of a hydraulic system, power components primarily refer to hydraulic pumps. Their core function is to convert mechanical energy output from prime movers (e.g., electric motors, internal combustion engines) into hydraulic energy carried by the working fluid.
2. Actuators

   Actuators convert the hydraulic energy of the working fluid into mechanical energy to drive loads. The two mainstream types are hydraulic cylinders and hydraulic motors: cylinders deliver linear motion, while motors generate rotary motion.
3. Control Components

   This category covers a full range of hydraulic control valves, including pressure control valves, flow control valves and directional control valves. These valves regulate and adjust the pressure, flow rate and flow direction of the working fluid to satisfy the system’s power transmission and performance requirements.
4. Auxiliary Components

   Auxiliary parts comprise hydraulic reservoirs, oil filters, coolers, heaters, accumulators, tubing, pipe fittings, sealing rings, quick couplings, high-pressure ball valves, hose assemblies, pressure test ports, pressure gauges, oil level indicators and fluid temperature gauges. These auxiliary and protective parts guarantee stable and reliable system operation.
5. Working Media

   Typical working media include hydraulic oil and emulsions. They act not only as energy transfer carriers, but also enable system condition monitoring and fault diagnosis. Common options are mineral-based oils, animal & vegetable oils, and water-oil emulsions.

Operating Principle of Hydraulic Systems

A hydraulic pump draws fluid from the reservoir and pressurizes it before feeding the fluid into hydraulic control valves. The valves govern fluid pressure and flow direction, then route pressurized fluid to hydraulic cylinders or hydraulic motors. These actuators convert fluid pressure into usable mechanical power to drive equipment and complete operational tasks. Once the work cycle finishes, fluid is redirected via control valves back to the reservoir to restart the circulation process.

Industrial Applications of Hydraulic Systems

• Defense: Hydraulic drive & control systems are standard onboard army, navy and air force military hardware.

• Machine Tools: Widely integrated into grinders, drill presses, milling machines and planers.

• Automotive: Deployed on hydraulic off-road vehicles, hydraulic tipper trucks and more.