SU953283A1 - Displacement pneumatic drive with automatic control - Google Patents

Description

The invention relates to pneumatic control systems, namely to a pneumatic actuator of movement with an automatic control system.

A pneumatically operated pneumatic conveyor with a power source, a pneumatic cylinder with working cavities communicated through a distribution device connected to the control cavities, a power source and the atmosphere, a starting distributor, one of the inputs of which is connected to the power source, and the other - with the atmosphere, two final two-way distributors of one-way action, with one of the inputs of one of the final two-way distributors being connected to the output of the starting distribution body, the other with the atmosphere, and the output with the control chamber of the switchgear, the other control cavity of which is communicated via a time relay with the output of another final two-position distributor, whose inputs are connected to the power source and the atmosphere 1.

A disadvantage of the known pneumatic actuator is an increase in the supply pressure — after the piston of the cylinder reaches one of its extreme positions, which leads to excessive consumption of compressed air, as well as the absence of braking at the end of the stroke of the piston.

The purpose of the invention is to save compressed air.

This goal is achieved by the fact that the distribution device is made in the form of two spring-loaded two-position pneumatic distribution valves, one of the inputs of which are interconnected, the others with a power source, and each of the outlets with one of the cavities of the pneumatic cylinders.

The drawing shows a schematic diagram of an automatic control pneumatic actuator.

The pneumatic actuator contains a power source 1, an air cylinder 2 with workers

25 cavities 3 and 4, communicated via switchgear 5, made with control cavities 6. and 7, with power supply 1 and the atmosphere, starting distributor 8,

Claims (1)

30 input 9 of which is connected to the source 1 of the power supply, input 10 - with the atmosphere, two final two-position distributors 11 and 12 of unilateral action. In this case, the inlet 13 of the distributor 11 is connected to the outlet 14 of the distributor 8, the inlet 15 of the distributor 11 to the atmosphere, and the outlet 16 to the control cavity b. The control cavity 7 communicates via a time relay 17 with an output 18 of the distributor 12, whose inputs 19 and 20 are connected to the power supply 1 and the atmosphere, respectively. The distribution device 5 is made in the form of two spring-loaded two-position pneumatic distributors 21 and 22, entrances 23 and 24 of which are interconnected, inputs 25 and 26 - with the power source 1, output 27 - with the cavity 3 of the pneumatic cylinder 2, and the output - with the cavity 4. Cavities 3 and 4 are formed by a piston 29 with a rod 30. The pneumatic actuator operates as follows. When the start-up distribution of bodies 8 is turned on, compressed air from power supply 1 flows through distribution valve 11 into control cavity 6 of distribution device 5, and as a result compressed air flows through pneumatic distribution valve 21 in cavity 3 and 4 of pneumatic cylinder 2 Piston 29 with rod 30 starts move to the right (according to the drawing) due to the difference in the areas of the piston 20, which are affected by compressed air in cavities 3 and 4. After the start of movement, the interaction of the rod 30 with the distributor 11 ceases, and the control cavity b is communicated through the distributor 11 with the atmosphere, as a result of which the cavities 3 and 4 through the pneumatic distributors 21 and 22 are interconnected and the further movement of the piston 29 occurs due to the expansion of gas in the cavities 3 and 4. In the far right position (according to drawing 5), the rod 30 interacts with the distributor 12, and the compressed air from the power source 1 flows through the distributor 12, the relay time 17 into the control chamber 7 of the switchgear 5, resulting in the compressed air from the power source 1 through the pneumatic distributor 22 enters the cavity pneumatic cylinder 2, the cavity 3 through which pneumatic valves 21 and 22 is connected to the atmosphere. After the piston 29 begins to move, the rod 30 stops its interaction with the distributor 20. Time relay 17 is set to turn off the pneumatic distributor 22 when the piston 29 is in the leftmost position (according to the drawing). When the rod 30 interacts with the valve 11, the cycle repeats and continues as long as the start valve 8 is turned on. Using the proposed invention, an automatic control pneumatic actuator can be created that satisfies the requirements of energy saving (compressed air) and also provides piston braking cylinder rod at the end of the stroke, which is the most appropriate in comparison with the known structures. The invention of an automatic control pneumatic actuator comprising a power source, a pneumatic cylinder with working cavities, communicating through a switchgear made with control cavities, a power source and an atmosphere, a starting distributor, one of the inputs of which is connected to a power source, and the other - with the atmosphere, two final two-position distributors of one-sided action, one of the inputs of one of the final two-position distributors being connected to the output of the trigger About the distributor, another - with. the atmosphere, and the output - with the switchgear control cavity, the other control cavity of which is communicated via a time relay with the output of another final two-position distributor, the inputs of which are connected to the power source and the atmosphere, characterized in that the switchgear is made in the form of two spring-loaded two-position pneumatic distributors, one of the inputs of which are interconnected, the other with the power source, and each of the outlets - with one of the cavities pneumatic cylinder. Sources of information taken into account in the examination 1. Selection, calculation and operation of the equipment of pneumatic actuators and control systems of machines, presses and other machines. M., NIIMASH, 1969, p. 85, fig. 84 25 23 f