气压传动毕业设计外文翻译

气压传动毕业设计外文翻译内容摘要：

when the piston is moved by applying air on either side, the load connected to the external mounting is moved. The problem of providing a continuous and moving seal between the piston and sign handle long strikes effectively but can also accept lateral loading at the mounting point. This is an illustration of the construction of one type of rodless cylinder. The drive from the piston to the carriage is via a substantial drive tongue which passes through the barrel slot. This drive tongue forms the center part of this yoke which is incorporated in the carriage extrusion. The piston halves are pinned to the lower part of this yoke, joining the piston to the 大连交通大学信息工程 学院 2020 届本科生毕业设计（论文）外文翻译 5 carriage. The volume between the piston seals, containing the yoke, is at atmospheric pressure. The pressure and dust slot seals are unclipped and parted by cam shapes in the yoke within this nonpressurized section and by the advancing movement of the piston carriage assembly along the cylinder. After unclipping, the internal pressure seal slides under the lower part of the yoke adjacent to the piston halves, while the external dust seal slides over the upper part of the yoke within the carriage. The pressure and dust slot seals are then pressed together and reclipped by the spring roller assembly in the carriage and the ramp shape of the piston and by the retreating movement of the piston carriage assembly along the cylinder body. Thus the drive is taken up from the piston to the carriage through the slot as this assembly traverses the cylinder. (4) Impact cylinders: An impact cylinder is one arranged so that the speed developed is high enough for impact work, such as fing, piercing, etc. It converts the pressure energy of the pressed air into piston’s high speed (more than ten meters per second) motion energy in a very short time. This is an impact cylinder design. Compared with mon cylinders, there is an extra middle lid (fitted with the cylinder body) with nozzle and exhausting small orifice. The cylinder is divided into three chambers by this middle lid and piston. For the sake of analysis, the working process can be simply divided into three steps. 1) Reset. The piston rod chamber is charged with air and the air in energy storing chamber exhausts out. The piston moves up until the seal gasket on the piston seals nozzle on middle lid. Piston chamber connects with the atmospheric via exhausting port. The pressure in chamber builds up to air source pressure, while the pressure in chamber falls down to atmospheric pressure. 2) Energy storage. When air enters chamber, it passes through the nozzle and acts on the piston. The area of the nozzle is so small that the air pressure cannot overe the resultant of the up thrust (produced by air exhausting in the piston rod chamber) and the friction against the cylinder. The nozzle is still closed and the pressure in chamber builds up gradually. 3) Impacting. When the ratio of the pressure in chamber to that in the piston rod chamber surpasses the ratio of the acting area in the piston rod chamber to the nozzle area the piston moves down to open the nozzle. Immediately this happens the pressed air accumulated in chamber acts on the whole of the piston via the nozzle, causing the piston to move down rapidly due to the high pressure difference of the piston rid. Because of the large 大连交通大学信息工程 学院 2020 届本科生毕业设计（论文）外文翻译 6 thrust produced by this high pressure difference, the piston accelerates rapidly and moves down with an extremely high speed, which develops high shock kiic energy. Air motors Air motors are pneumatic actuators which convert pressed air energy into rotating motion. Based on arrangement, they can be divided into vane type, piston type, gear type, diaphragm type, etc. Operation and characteristics of air motors (1)Vane motors: This is a simple vane motor operation. The rotor and the vanes are the only moving parts. The rotor is mounted offset in the casing, as can be seen. Air is admitted when the crescent shaped chamber is increasing in volume and delivered when decreasing. Torque is developed by pressure difference on the vanes, driving the rotor to turn in a counter clockwise direction for this motor. The air exhausts through orifices C and B. This direction of the rotor can be changed by merely changing the inlet port, ., air is admitted from orifice B for this motor. This is the soft characteristics of a vane motor under a certain working pressure. Small size motors are used for hand tools such as drills, grinders and screwdrivers. Larger sizes are used for winches, pump drivers, and drive motors on pneumatic drill rigs and general industrial applications. (2)Radial piston motors: Piston motors operate at much lower speeds than vane motors because of the greater inertia of the reciprocating parts. The typical radial motor has all connecting rids mounted on a mon crank (crank and connecting rod mechanism). The pressed air passes through the distribution valve from the inlet port and then enters the cylinder, driving part。