附录A
Hydraulic system
C.J.Sexton,S.M.LewisandC.P.Please
University of Southampton,UK
Abstract:A complete hydraulic system consists of five parts, namely, power components, actuators, control components, auxiliary components (accessories) and hydraulic oil. The function of hydraulic system is to help human work, mainly through the implementation of components into the pressure of rotation or reciprocating movement. Other advantages of the hydraulic system include bi-directional movement, overload protection, and variable speed control. In any of the existing powertrain systems, the hydraulic system also has the largest unit mass power ratio. Seals and seals are an important part of hydraulic equipment. Its reliability and service life is an important index to measure the quality of hydraulic system.
Keywords:    A power element; an actuating element; a control element; an auxiliary element; hydraulic fluid
retractable
Generally, there are only three basic ways to transmit power: electrical, mechanical, and hydraulic. Most applications actually combine the three methods into the most efficient and comprehensive system. In order to reasonably determine which method to take, it is important to understand the salient features of the various methods. For example, the hydraulic system transmits power more economically over a long distance than a mechanical system. The hydraulic system, however, has a shorter transmission distance than the electrical system.
Hydraulic transmission there are many outstanding advantages, it is widely used, such as the general industrial use of plastics processing machinery, pressure machinery, engineering machinery, machine tools and other mechanical equipment; application of construction machinery, agricultural machinery, automobile and other metallurgical machinery; iron and steel industry, lifting machinery, a roller adjustment device; control gate device in the water conservancy project, riverbed lifting device, bridges and other operating mechanism; high speed turbine power plant equipment, such as nuclear power
plants; ship deck with crane (winch), bow door, bulkhead valve stern thruster; special technology giant antenna with control devices measurement buoys movements such as rotating stage; military industrial control devices used in artillery ship anti rolling devicesaircraft simulation aircraft retractabl
e landing gear and rudder control device device. Special antenna technology control device, measuring buoy, lifting and rotating stage; military artillery unit, ship antirolling device, flight simulation, device and other equipment for rudder control of landing gear and steering device.
The function of hydraulic system is to increase the force by changing the pressure. The quality of a hydraulic system depends on the rationality of the system design, the performance of the system components, the pollution prevention and treatment of the system, and the last point is particularly important. In recent years, China's domestic hydraulic technology has greatly improved, and no longer only the use of foreign hydraulic technology for processing.
A complete hydraulic system consists of five parts, namely, power components, actuators, control components, auxiliary components (accessories) and hydraulic oil.
The function of the power element is to convert the mechanical energy of the prime mover into the pressure energy of the liquid, the oil pump in the hydraulic system, which provides power to the entire hydraulic system. The structure of hydraulic pumps usually include gear pumps, vane pumps and piston pumps.
The actuating elements (such as hydraulic cylinders and hydraulic motors) are used to convert the pr
essure energy of the fluid into mechanical energy and to drive the load in linear reciprocating or slewing motion.
Control elements (i.e. hydraulic valves) control and regulate the pressure, flow, and direction of the liquid in the hydraulic system. According to different control functions, the hydraulic valve can be divided into pressure control valve, flow control valve and directional control valve. Pressure control valves are divided into benefits flow valve (An Quanfa), pressure relief valve, sequence valve, pressure relays etc.; flow control valves including throttle valve, regulating valve, diversion valve; directional control valve includes a one-way valve one-way fluid control valve, shuttle valve, reversing valve, etc.. According to different control methods, the hydraulic valve can be divided into switching control valve, fixed value control valve and proportional control valve.
The auxiliary components include oil tank, oil filter, oil pipe and pipe joint, sealing ring, quick change joint, high pressure ball valve, hose assembly, pressure measuring joint, pressure gauge, oil level, oil temperature gauge and so on.
Hydraulic oil is the medium of transmission of energy in hydraulic system. There are several kinds of mineral oil, emulsion and synthetic hydraulic oil.
The function of hydraulic system is to help human work, mainly through
the implementation of components into the pressure of rotation or reciprocating movement. Hydraulic principle: it is composed of two different sizes of the cylinder is filled with water or oil. Full of water, known as "hydraulic press", full of oil known as "hydraulic press."". Each of two hydraulic cylinders have a movable piston, if put in the small piston on the pressure, according to Pascal's law, the small piston pressure to the piston through the pressure of liquid, the top of the piston will move long distances. The cross-sectional area of the basic small piston is S1, plus a small piston with a downward force F1. Thus, the pressure on the liquid of the small piston, P=F1/S1, can be transmitted equally in all directions. The pressure through the big piston is also P. If the cross sectional area of the piston is S2, pressure F2=P*S2 P pressure piston upward, the cross-sectional area of the small piston is several times, in addition to the small piston small piston force, there will be great pressure, the hydraulic press for pressing plywood, oil, lifting, forging steel.
The secret of the hydraulic system's success and versatility lies in its versatility and ease of operation. Hydraulic power transmission will not be restricted, the geometry of the machine as a mechanical system that in addition, hydraulic system is not limited by the physical properties of materials like electrical system, it is almost no amount of power transfer limit. For example, the perfor
mance of an electromagnet by steel magnetic saturation limit, on the contrary, the power of hydraulic system only limited by material intensity.
In order to increase productivity, enterprises will increasingly rely on automation, which includes remote and direct control of production operations, processing and material handling. The hydraulic power has become an important part of automation, because it has the following four main advantages:
1. convenient control, accurate operation by a joystick and a simple button, the hydraulic system operator can immediately start, stop, speed and can provide arbitrary power, position accuracy of 1/10000 inches of position control. A hydraulic system that causes the pilot to lift and drop the landing gear. When the pilot moves the control valve in one direction, the pressure oil flows into a cavity of the hydraulic cylinder and thus falls.
2. force, a hydraulic system without the use of heavy gear, pulley lever can simply and effectively less than an ounce of force amplification, produce hundreds of tons of force output.
3. constant or constant torque, hydraulic system can not only provide constant change with speed changing or constant torque, it can drive the mobile object per hour from a few inches to several hun
dred inches per minute per hour. From a few to thousands of revolutions per minute.
4. Simple, safe, economical, and in general, hydraulic systems use fewer moving parts than mechanical or electrical systems, so they are easy to run and maintain. This makes the system compact, safe and reliable. For example, a new type of power steering device for vehicles has been phased out of other types of steering power units, which include manual controls
Direction control valve and distributor. Because the steering component is fully hydraulic, there is no universal joint, bearings, gear reducer and other mechanical connections, which makes the system simple and compact. In addition, only very little input torque can produce control force needed to meet the extremely harsh working conditions. It is very important to the operation of space limitations and need a small steering wheel which is necessary to reduce the occasion, operator fatigue.
Other advantages of the hydraulic system include bi-directional movement, overload protection, and variable speed control. In any of the existing powertrain systems, the hydraulic system also has the largest unit mass power ratio.
The hydraulic system has three disadvantages:
1. because the transmission medium (hydraulic oil) in the course of flow, part of the flow velocity is different, resulting in liquid friction, and at the same time, liquid and pipe wall also friction, this is the hydraulic oil temperature rise reasons. Excessive temperature results in more internal and external leakage and reduces mechanical efficiency. At the same time, the hydraulic oil will expand due to the higher temperature. Resulting in an increase in compressibility so that the operation cannot control transmission very well. Solution: high temperature is the hydraulic system's own problems, can only be the biggest mitigation, can not eradicate. The use of better quality hydraulic oil, hydraulic pipe layout, as far as possible to avoid bending, the use of high-quality pipe and pipe fittings, hydraulic valve.
2. the vibration of hydraulic system is one of the weak points. The impact of hydraulic oil in the pipeline on the high speed impact and control valve opening and closing is the cause of system vibration. Strong vibrations can cause system control errors, and can cause errors in some of the more complex, sophisticated devices in the system, leading to system failures. Solution: the hydraulic pipe should be fixed, to avoid sharp bends. In order to avoid frequent flow direction changes can not be avoided, shock absorption measures should be done best. The whole hydraulic system should have good vibration reduction measures, while avoiding the influence of the oscillator outside the system.
3. the hydraulic system has internal leakage and external leakage, internal leakage refers to the leakage process occurs in the system, such as leakage of hydraulic piston - cylinder, control valve spool and valve leakage between both sides, such as. Although there is no loss of hydraulic oil, but the leakage, the control action has been determined until the system failure. Disclosure refers to the leakage that occurs between the system and the external environment. Hydraulic oil leaks directly into the environment, and in addition to affecting the working environment, there is not enough power to cause system failure. Hydraulic oil leaking into the environment is also dangerous to fire. Solution: use better quality seals to improve the machining accuracy of the equipment.
In hydraulic systems and systems, seals are used to prevent leakage of the
working medium and invasion of foreign dust and foreign matter. A sealed element, that is, a seal. Outside leakage will cause waste of working medium, pollute machine and environment, even cause mechanical malfunction and personal accident of equipment. Leakage can cause a drastic drop in volumetric efficiency of hydraulic systems, resulting in insufficient working pressure and even failure to perform work. The small dust particles in the invading system can cause or aggravate the wear of the friction pairs of hydraulic components, and further lead to leakage.
As a result, seals and seals are an important part of hydraulic equipment. Its reliability and service life is an important index to measure the quality of hydraulic system. In addition to the clearance seal, the seal is used to control the clearance between the two adjacent surfaces to be below the minimum clearance required for the sealing liquid to pass. In contact sealing, it is divided into two types: self sealing type and self sealing type (i. e. lip seal).

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