RU2056553C1 - Distributor - Google Patents

Abstract

FIELD: drives of self-cleaning filters. SUBSTANCE: body has work liquid inlet, distribution, and outlet passages, servo-motor control and communication passages. Slide valve is movable in the body and interacts with the passages. Springs are in contact to the slide valves and servo motor. Spring loaded rest is interacted to the slide valve in its end positions. Control cavities are continuously connected to the proper cavities of the servo motor. The rest is connected to the outlet on the side of spring, and to inlet on the side of rest/slide valve interaction. EFFECT: high efficiency. 1 dwg

Description

 The invention relates to distribution devices for pneumatic and hydraulic drives and can be used in drives of reversible cyclic action, for example, in drives of self-cleaning filters.

Known hydraulic system containing a distribution spring-loaded spool, two spring-loaded three-way valves that interact with the piston of the servomotor, connected by channels with each other, with the supply and exhaust lines of the working medium and with the working cavities of the servomotor [1]
It provides a reliable start from any position, but is complicated by the presence of three spools, which affects its reliability and increases the cost of the system.

There is also known a distributor containing a distributing element (spool) interacting with the hooks of two levers, and with the pusher springs. Springs and levers are mechanically switched during each stroke of the piston acting on the pusher [2]
It also ensures that the hydraulic actuator starts from any position, instead of three it has only one distribution element, but its drawback is the presence of mechanical levers and hooks that are constantly triggered during cycling, which negatively affects the durability of the assembly.

 The task is to increase the durability of the pneumatic-hydraulic distributor by reducing the number of moving elements.

 The problem is solved in such a way that in a known distributor containing a housing with channels for supplying, distributing and discharging a working medium, control and communication with a servomotor, a spool movably placed in the housing interacting with its channels and forming a cavity for distributing the working medium and controlling the spool , springs in contact with the spool and with the servomotor, as well as at least one spring-loaded clamp interacting with the spool at its extreme positions, according to the invention of the control cavity I have a spool constantly connected to the corresponding cavities of the servomotor, and the latch is connected from the side of its spring to the branch and from the side interacting with the spool with the supply of the working medium.

 The drawing shows a distributor, section.

 The dispenser housing 1 has supply channels 2 and 3, 4 taps, 5 and 6 of communication with the servomotor 7. A spool 8 is movably placed in it, forming a working medium distribution and control cavity cavity 9, 10, 11. The springs 12 and 13 are in contact with the ends of the spool 8 and with the piston 14 of the servomotor 7. The control cavities of the spool 9 and 11 are constantly connected to the corresponding working cavities 15 and 16 of the channels 17 and 18, respectively. In the housing 1 there is at least one spring-loaded lock 19, which interacts with the valleys of the spool 21 or 22 at its extreme positions.

 From the side of the spring 19, the latch 20 is connected by a channel 23 to the outlet of the working medium, and from the side interacting with the spool 8, it is connected by the channel 24 to the supply of the working medium.

 The distributor operates as follows.

 In the absence of supply pressure, the latch 20 holds the spool 8 in the extreme position in which it is located at the time of switching off the pressure of the working medium (in the drawing in the leftmost position). When the pressure is turned on, the working medium is supplied to the inputs 2 and 3 of the housing. From the entrance 2, it passes into the chamber 9 and hydraulically fixes the spool in the extreme left position, from there it enters the working cavity 15 of the servomotor 7 through channels 5 and 17 and starts to move its piston 14 to the right. From the cavity 16, the working medium is displaced through the channels 18 and 6 and the distribution cavity 10 to the drain. At the same time, the working medium flows under pressure through the channel 24 to the end face of the latch 20 opposite to the spring 19, compresses this spring and removes the latch from the cavity 21 of the spool.

 Moving to the right, the piston 14 of the servomotor initially compresses the spring 12. The valve 8 is held by pressure in the cavity 9 in the same position. Next, the piston directly moves the spool 8 to the right to the overlap position of both lines 2 and 3 of the medium supply and stops by connecting the channels 5 and 6 with the drain. The pressures in the cavities 9 and 11 are equalized and the spool 8 under the action of the compressed spring is transferred to the extreme right position, opening the pressure supply in the cavities 11 and 16. The piston 14 moves backward as described.

 In the event of a shutdown of the pressure of the working medium, the spring 19 introduces the latch 20, depending on the position of the spool 8 into the recess 21 or 22. When the pressure is turned back on, the hydraulic actuator will immediately start working.

 The proposed distributor combines the clarity of the mechanical fixation of the spool in the absence of pressure with the reliability and enduring principle of hydromechanical switching and simplicity of design (a single spool).

Claims (1)

 DISTRIBUTOR, comprising a housing with channels for supplying, distributing and discharging a working medium, control and communication with a servomotor, a spool movably placed in the housing, interacting with its channels and forming a cavity for distributing the working medium and controlling the spool, springs in contact with the spool and by a servomotor, as well as at least one spring-loaded latch interacting with the spool at its extreme positions, characterized in that the spool control cavities are constantly connected to the corresponding yuschimi servo cavities and clamp connected by the spring with its challenge and by interacting with the control piston, with a supply of working fluid.

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