SU1011919A1 - Multiplicator - Google Patents

Abstract

A MULTIPLICATOR containing a stepped housing and a piston installed in the housing to form supply cavities, low pressure, high pressure AND drain, a stepped spool with shanks mounted in a through stepped boring of the piston to form a central and two extreme spool cavities in the piston and interacting in the extreme positions of the ends 3. . 15 of their shanks with end walls of the body, the supply cavity connected to the low pressure cavity through the spool and the channel in the piston, the low pressure cavity is connected to the high pressure cavity through a non-return valve, the central spool cavity is connected to the low pressure cavity and to the drain cavity, so that, in order to simplify the design, the piston and the valve are made of three-stage plunger type, the feed cavity is located between the extreme largest and middle stages of the piston and the housing, and oedinena additional channel in the piston from one extreme of the spool cavities, the latter is made hollow and is connected to a low pressure cavity in one of the extreme positions of the spool.

Description

The invention relates to hydraulic pressure multipliers and may find application in various industries. A multiplier is known that contains a stepped housing and a piston installed in the housing with the formation of low pressure, drain and high pressure cavities, a stepped spool with shanks, mounted in a through stepped boring of the piston with the formation of two central suds cavities in the piston and interacting with the extreme positions of the ends of their shanks with the end walls of the housing, with the supply cavity connected to the low pressure cavity through the valve and the channel in the piston, the low pressure cavity It communicates with the high pressure cavity through a non-return valve, the central spool cavity is connected to the low pressure cavity and to the flj cavity. A disadvantage of the known multiplier is its complexity. The purpose of the invention is to simplify the design. This goal is achieved by the fact that (a multiplier containing a stepped housing and a piston installed in the housing with formation of supply cavities, low pressure, discharge and high pressure, a stepped spool with shanks installed in a through stepped bore of the piston with the formation of a central and two extreme spool cavities and interacting, in the extreme positions of their ends with the end walls of the body, and the supply cavity is connected to a low pressure cavity through the valve and channel the piston, the low pressure cavity communicates with the high pressure cavity through the return valve, the central spool cavity is connected with the low pressure cavity and with the drain cavity, the piston and the warmer are made of a three-stage plunger type, the supply cavity is located between the extreme maximum and middle stages of the piston and the body and is connected by an additional channel in the piston to one of the extreme spool cavities, the latter is made deaf and connected to the low pressure cavity in one of the extreme positions of the spool. The drawing shows a diagram of a multiplier. The multiplier contains step housing 1 and piston 2. The latter is installed in housing 1 to form supply cavities-3, low pressure, drain 5, and high pressure 6. A stepped spool 7 with shanks 8 and 9 is installed in a through stepped boring 10 of the piston 2 to form within the piston 2 of the central 11 and two extreme spool cavities 12 and 13. The spool 7 with its shanks 8 and 9 in extreme positions interacts with the end walls of the housing and 15, respectively. In the piston 2, a channel 16 is made, connecting in one of the extreme positions the valve 7 and the supply cavity 3 with the low pressure cavity k. In the same piston 2, a second channel G / s with a check valve 18 installed therein is made. In addition, in piston 2 there is a third channel 19 connecting the low pressure cavity k with the central spool cavity 11. Last, in turn, in one of the extreme positions of the spool 7 is connected to the cavity 5 of the drain. Cavity. 6, a high pressure is connected to the injection line 20 with a check valve 21 installed therein. The piston 2 and the valve 7 are three-stage, of the plunger type. At the same time, the feed cavity 3 is formed between the extreme largest stage 22 and the middle stage 23 of the piston 2 and the housing 1. The feed cavity 3 is connected by an additional channel 2A in the piston. with spool cavity 12, which is deaf and connected to low pressure cavity 4 in one of the extreme positions of spool 7. Central spool cavity 1 1 is connected to drain cavity with channel 25. The multiplier works as follows. In the drawing, the piston 2 is shown in a position where it moves from right to left under the action of pressure at its stage 22 in the supply cavity 3, and the shank 8 enters into interaction with the wall 1. After the spool 7 is thrown into the right position ( 1), the pressure of the working fluid from the cavity j through the cavity 13 propagates into the low pressure cavity 4. Wherein

3; one

the piston 2 begins to move to the right (according to the drawing), since the channels 19 and are blocked by the body of the slide valve /. Moving the piston 2 causes the working fluid to compress in the high-pressure cavity 6 and expel it through the check valve 21 into the pressure line 20. This occurs until the shank 9 comes into contact with the wall 15, as a result of which the slide valve is reverted to any position (as shown in the drawing). The pressure of the working fluid falling into the cavity 12, ensures the retention of the valve 7 in this position until the moment when the shank 8 does not interact with the wall 1. 8, as a result of transferring the spool 7 to the left position, channel 1b overlaps, and low pressure cavity A is through channels 17 and 19, central spool cavity 11 and channel 25 is connected to drain cavity 5. Due to the resulting pressure drop acting on the piston 2, the latter, under the force acting on its stage 22, alternates

194

shifts towards the wall V. Since some depression occurs in the high-pressure cavity 6 when the piston 2 moves to the left, some

the body, merging from the cavity of low pressure, flows into the cavity 6 of high pressure when L is open, in this case, the check valve 18. Filling of the cavity b of high

pressure working fluid. After the new transfer of the spool. 7, to the right during the interaction of the shank 8 with the wall 1, the working medium is expelled from the cavity 12 with one.

new overlapping channels 19 and 2b. In this position, the multiplier is prepared for a new cycle of movement of the piston 2 with the displacement of the working fluid from the high-pressure cavity 6 in liters

20, while holding the spool 7 in the right position under the action of pressure from the low pressure cavity k.

The application of the proposed multiplier simplifies the design, reduces the labor costs for its production.

Claims (1)

A MULTIPLICATOR containing its shanks with the end walls of the housing, the feed cavity being connected to the low-pressure cavity through the spool and the channel in the piston, the low-pressure cavity is in communication with the high-pressure cavity through a non-return valve, the central spool cavity is connected to the low-pressure cavity and to the drain cavity characterized in that, in order to simplify the design, the piston and spool are stepped housing and the piston installed in the housing with the formation of the supply cavities, low pressure, drain and high phenomena, a stepped spool with shanks installed in the through stepwise bore of the piston with the formation of a central and two extreme spool cavities in the piston and interacting in extreme positions with the ends made by the three-stage plunger type, the feed cavity is located between the highest and middle piston stages and the body. and connected by an additional channel in the piston to one of the extreme spool cavities, the latter is made blind and connected to the low-pressure cavity in one spool.