SU1642108A1 - Gas-hydraulic cylinder - Google Patents

Abstract

The invention was used as the executive body of hydraulic systems for various purposes. The purpose is to expand the functionality and increase the reliability of cargo movement in the event of depressurization of one of the supply lines. The gas-hydraulic cylinder contains a housing (K) 1 with channels 2 and 3 supplying-withdrawing the working medium gas 4 and hydraulic 5 highway m, floating piston (PP) 6, placed in K 1 with the formation of gas 7 and hydraulic 8 cavities, internal 9 and external 10 hollow rods, coaxially placed in the cavity 8 with the possibility of mutual movement and the formation of the working cavity (RP) 11, while in the pipeline 5 there are installed parallel to the throttle 12 and a check valve (OK) 13 K 1 provided with a jumper 14 which is sealed relative to the rod 9, forming a compensation chamber (KK) 15 communicated with RP 11, and the rod 9 is equipped with movement limiters (OP) 16 and 17, interacting with the jumper 14 and the rod 10 Choke 12 and OK. 13 are installed in line 18 connecting RP 11 with CC 15. For connecting RP 11 with cavity 8 are provided in the rods 9 and 10, respectively, openings 19 and 20 1 or 1 I (L with

Description

The invention relates to hydraulic engineering, and in particular to the testing bodies of hydraulic systems for various purposes.

The purpose of the invention is the expansion of functionality and increase the reliability of the movement of cargo in case of depressurization of one of the supply lines.

The drawing shows a diagram of a gas-hydraulic cylinder.

The gas-hydraulic cylinder contains a housing 1 with channels 2 and 3 for supplying and discharging the working medium connected to the gas 4 and hydraulic 5 highways, a floating piston 6 located in the housing 1 with the formation of gas 7 and hydraulic 8 cavities, internal 9 and external 10 hollow rods, coaxially placed in the hydraulic cavity 8 with the possibility of mutual movement and the formation of the working cavity 11, and in the hydraulic line 5 are installed parallel connected throttle 12 and check valve 13. The housing 1 is provided with a relatively compacted the inner rod 9 with a jumper 14, forming with the outer rod 10 a compensation chamber 15 in communication with the working cavity 11, the inner rod 9 is equipped with limiters 16 and 17, interacting with the jumper 14 and the outer rod 10, while the throttle 12 and the check valve 13 are installed in highway 18, connecting the working cavity 11 with the compensation chamber 15. To connect the working cavity 11 with the hydraulic 8, holes 19 and 20 are provided in the rods 9 and 10.

The gas-hydraulic cylinder operates as follows.

To extend the cylinder stages, gas is supplied from the source into the gas cavity 7, under the action of pressure forces of which the floating piston 6 begins to move and compress the working fluid in the hydraulic cavity 8, the fluid through the openings 19 and 20 through the working cavity 11, the check valve 13 and the throttle 12 into the compensation chamber 15.

Under the action of pressure forces of the working fluid, the rods 9 and 10 extend, the working fluid from the hydraulic cavity 8 and the working cavity 11 through the check valve 13 and the throttle 12 fills the compensation chamber 15. After selecting the stroke of the rod 10, the rod 9 extends to the stop 16, since the area rod 9 is selected in such a way that it is less than the area of the floating piston 6, then the extension of the rod 9 is made by the working fluid of the hydraulic cavity 8, i.e., the speed of the rod 9 is greater than the speed of the floating piston 6.

Displacement limiters 7 located in the annular groove of the rod 9 serve to prevent depressurization of the hydraulic cavity of the cylinder in the event of an intermediate stop of the rod 10, since the stroke of the rod 9 also includes the stroke of the rod 10.

The throttle 12 is used to hold the load during the course of the rod 10 during depressurization of the gas cavity 7 of the cylinder.

Folding the stages 9 and 10 of the cylinder is carried out by an external load, while due to the redistribution of fluid between the cavities 15, 11 and 8, when the rods 9 and 10 are folded, the floating piston 6 returns to its original position.

The design of the gas-hydraulic cylinder provides operation from the hydraulic system of the product. In this case, the working fluid from the hydraulic system 5 enters the compensation chamber 15 through the check valve 13 and the throttle 12 into the working cavity 11 and through the openings 19 and 20 into the hydraulic cavity 8 of the cylinder, while under the action of pressure forces of the working fluid, the rods extend '9 and 10 of the gas-hydraulic cylinder, the floating piston 6 in this case remains in its original position.

When folding the rods of the gas-hydraulic cylinder, the working fluid in the opposite direction is displaced into the hydraulic system of the product.

The implementation of the proposed design provides a given folding speed during the course of the outer rod in case of depressurization of gas or hydraulic lines. Moreover, the simplicity of the design provides high reliability of the cylinder.

Claims (1)

Claim A gas-hydraulic cylinder, comprising a housing with working fluid inlet and outlet channels connected to the gas and hydraulic lines, a floating piston located in the housing to form gas and hydraulic cavities, internal and external hollow rods coaxially placed in the hydraulic cavity with the possibility of mutual movement and formation working cavity, moreover, in parallel with the throttle and check valve installed in the hydraulic line, characterized in that, in order to expand the functional possibilities, the housing is equipped with a jumper sealed relative to the inner rod, forming a compensation chamber connected to the working cavity with the outer rod, the inner rod is equipped with movement limiters interacting with the jumper and the outer rod, while the throttle and non-return valve are installed in the line connecting the working cavity with the compensation the camera.