RU2715296C1 - Hydraulic control valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, particularly, to hydraulic pneumatic automatic control, and can be used to control supply of working fluid to actuating servo-mechanisms in hydraulic drives of various machines. Hydraulic distributor housing is made in form of geometrical body with flat faces, mainly, parallelepiped. Inlet and / or outlet parts of the above channels are located on its sides. Housing consists of central hollow profiled part and two covers installed at its ends. Inside the central hollow part of the body there is a partition with a central hole dividing the above cavity into two parts, the first and the second. Inside the above central hole of the partition wall there is a shut-off element made in the form of a ball. In the first cavity of the body there fixedly installed is the profiled cylinder, inside which the shaped piston is installed with the possibility of movement, consisting of directly the piston and the rod connected to it, made with possibility of interaction by its shaped mating part of the rod, located diametrically opposite to piston, with surface of said ball, on one side. In the second cavity of the housing there fixedly installed is a profiled cylinder, inside of which a shaped piston is installed with the possibility of movement, consisting of directly the piston and the rod connected to it, made with possibility of interaction by its shaped mating part of the rod, located diametrically opposite to piston, with surface of said ball, on the other side, wherein diameter of piston installed in one cavity exceeds diameter of piston installed in other cavity. Between ends of housing covers and ends of fixed cylinders there are axial cavities for supply or removal of working body during movement of said pistons in said cylinders, and in walls of both cylinders there are through radial channels connecting corresponding cavities in fixed cylinders with corresponding cavities of inlet, outlet and drainage of working medium.

EFFECT: hydraulic distributor is proposed.

1 cl, 2 dwg

Description

The invention relates to the field of mechanical engineering, in particular to hydropneumatic automation, and can be used to create devices for controlling the supply of working fluid to the actuating servomechanisms in the hydraulic drives of various machines.

A known valve of the company "Bifold Fliud Power" containing a housing in which channels are made for entering, exiting, draining the working fluid, as well as channels for controlling the open and closed position of the hydraulic valve, while a spring-loaded piston with a rod interacting with the actuator is installed inside the housing installed in the housing and representing a profiled sleeve, inside of which a profiled rod with working surfaces interacting with axial movement is mounted with counter surfaces on a profiled sleeve and a spring-loaded piston (https: /foifold.co.uk/item/FP 15EL20432V.aspx, IPC: F15B 13/02 - prototype).

The main disadvantages are the following. The design uses a spring, which loses its properties depending on the frequency of use and the duration of the valve. Changing the characteristics of the spring leads to an unpredictable change in the parameters of the valve, which, in turn, reduces the reliability of the entire device in which the valve is installed.

The objective of the invention is to remedy these disadvantages and increase the reliability of the valve and the hydraulic systems in which it is installed.

The solution to this problem is achieved by the fact that, in the proposed valve, containing a housing in which channels for entry, exit, drainage of the working fluid, as well as channels for supplying control pressure to control the open and closed position of the valve, are made, at least , one profiled piston with a rod interacting with its profiled counterpart with a locking element, according to the invention, the valve body is made in the form of a geometric body with with glossy faces, mainly of a parallelepiped, while the input and / or output parts of the said channels are located on its sides, and consisting of at least a central hollow profiled part and two covers installed from its ends, and inside the central hollow part of the body is made a partition with a Central hole, dividing the cavity into two parts, the first and second, and inside the said Central hole of the partition is installed with the possibility of axial movement of the locking element, you filled in the form of a ball, while in the first cavity of the housing a profiled cylinder is fixedly mounted, interacting at one end with the said partition, inside of which a profiled piston is mounted that can be moved, consisting of the piston itself and the rod connected with it, made with the possibility of interaction of its profiled response part of the rod, located diametrically opposite to the piston, with the surface of the ball, on the one hand, and in the second cavity of the housing a profiled cylinder is installed, which interacts at one end with the said baffle, inside which a profiled piston is mounted that can be moved, consisting of the piston itself and the rod connected with it, configured to interact with its profiled counterpart of the rod located diametrically opposite to the piston with the surface of the specified ball, on the other hand, moreover, on the end surfaces of both stationary profiled cylinders interacting with with a partition, sealing surfaces for the ball are made, while axial cavities are made between the ends of the housing covers and the ends of the fixed cylinders for moving or removing the working fluid for / when moving the said pistons in these cylinders, while the diameter of the piston installed in one cavity exceeds the diameter a piston installed in another cavity, and in the walls of both said cylinders are made radial through channels connecting the corresponding cavity in the stationary cylinders with the corresponding conductive cavities input, output and drainage of the working fluid.

The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section of the proposed valve in the initial position, on. FIG. 2 is a longitudinal section of the proposed valve in the working position.

The control valve includes a housing 1, in which channels 2 and 3 are made for the input of the working fluid, channel 4 for the output of the working fluid, and also a control pressure supply channel 5 for controlling the open and closed position of the control valve. The input parts of the said channels are made on one butt surface for mounting the distributor on the plate.

The housing 1 of the valve is made in the form of a geometric body with flat faces, and consists of a central hollow profiled part 6 and two covers 7 installed from its ends. Inside the central hollow profiled part of the housing 6, a partition 8 is made with a central hole 9, dividing the cavity into two parts, the first 10 and second 11. Inside the said central hole 9 of the partition 8, a locking element made in the form of a ball 12 is mounted with the possibility of axial movement the first cavity 10 of the housing 1 is fixedly mounted profiled cylinder 13, inside of which is mounted with the possibility of movement of the profiled piston, consisting of directly the piston 14 and associated with him rod 15. The rod 15 is made with the possibility of interaction with its profiled mating, located diametrically opposite the piston, with the surface of the ball 12, on the one hand.

In the second cavity 11 of the housing 1, a profiled cylinder 16 is fixedly mounted, inside which a profiled piston is mounted that can be moved, which consists of the piston 17 itself and the rod 18 connected to it. The rod 18 is made with the possibility of interaction with its profiled mating part located diametrically opposite to the piston, with the surface of the specified ball 12. The diameter of the piston 14 installed in the cavity 10 exceeds the diameter of the piston 17 installed in the cavity 11. Between the ends of the covers 7 of the housing 1 and the torus s fixed cylinders 13 and 16 are axial cavities 19 and 20 for the supply or discharge the working fluid and the control pressure for / by moving said pistons in said cylinders.

The covers 7 are attached to the central part 6 of the housing 1 by screws. Seals are installed on the pistons, rods and detachable joints of the parts to seal the hydraulic distributor cavities.

The proposed valve operates as follows.

When the working fluid is supplied under pressure to the inlets of channels 2 and 3, the control valve is brought into position when the cavity of the channel 3 inlet and outlet 4 are connected, and the channel 2 inlet cavity is separated from the outlet 4 cavity by a ball 12, which abuts against the counter surface of the profiled cylinder 13. This is due to the fact that through the channel inside the housing 1, the working fluid under pressure from the inlet cavity 3 acts on the piston 17 and moves it all the way to the return profiled surface of the cylinder 13 together with the ball 12.

To transfer the distributor to the position when the inlet cavity 2 is connected to the outlet cavity of channel 4, the control pressure is supplied to the channel 5 connected to the cavity 19 formed by the shaped cylinder 13, piston 14 and cover 7. The control pressure will act on the piston 14. Due to a larger area of the piston 14, the force on the ball 12 from the side of the piston 14 from the control pressure from the channel 5 will be greater than from the force from the piston 17. Thus, the piston 14 and the ball 12 will move, while the ball 12 will abut against the corresponding profiled surface not IG Petritskaya shaped cylinder 16, and thereby separate the input channel 3 from the outlet channel 4. The oral cavity channel input cavity 2 thus connects the cavity exit channel 4.

To maintain the control valve in this position, it is necessary to constantly maintain the control pressure in the cavity of the channel 5.

In turn, when the control pressure is removed from the cavity of the channel 5, the control valve will return to its original position, in which the cavities of the channels of input 3 and output 4 will be connected, and the cavity of the channels of input 2 and output 4 will be disconnected.

An example of practical implementation. The applicant and the authors developed and successfully tested a three-line, on-off hydraulic distributor of the proposed design with pilot hydraulic control, designed to control the fluid flow of the hydraulic system at pressures of 20 ... 69 MPa. In this case, the control pressure range of the distributor is 20 ... 69 MPa.

Tests have shown the efficiency of the proposed valve and the correctness of the design and technological solutions.

The illustrations and description of the features of the invention do not cover the entire spectrum of possible modifications and equivalent changes that are obvious to a person skilled in this field. It should be understood that the appended claims cover all possible modifications and changes that fall within the spirit of the present invention.

Using the proposed technical solution will improve the reliability of the valve and expand the functionality due to its use in butt mounting.

Claims (1)

A control valve comprising a housing in which channels for entry, exit, and drainage of the working fluid are made, as well as channels for supplying control pressure to control the open and closed position of the hydraulic valve, with at least one shaped piston with a rod interacting with its shaped a counterpart with a locking element, characterized in that the valve body is made in the form of a geometric body with flat faces, mainly a parallelepiped, while one and / or output parts of the said channels are located on its sides, and consisting of at least a central hollow profiled part and two covers installed from its ends, and a partition with a central hole is made inside the central hollow part of the body, dividing the cavity into two parts, the first and second, moreover, inside the aforementioned central opening of the partition, a locking element made in the form of a ball is mounted with the possibility of axial movement, while in the first cavity of the housing a profiled cylinder is movably mounted, interacting at one end with said partition, inside of which a profiled piston is mounted that can be moved, consisting of the piston itself and the rod connected with it, configured to interact with its profiled counterpart of the rod located diametrically opposite to the piston with the surface of the aforementioned ball, on the one hand, and in the second cavity of the housing a profiled cylinder is fixedly mounted, interacting with an end face with the said partition, inside of which a profiled piston is installed with the possibility of movement, consisting of the piston itself and the rod connected with it, made with the possibility of the interaction of its profiled counterpart of the rod, located diametrically opposite to the piston, with the surface of the specified ball, on the other hand, moreover, on the end surfaces of both stationary profiled cylinders interacting with the partition, sealing surfaces for the ball are made, in this case, axial cavities are made between the ends of the housing covers and the ends of these stationary cylinders for supplying or withdrawing the working fluid for / when moving the said pistons in these cylinders, while the diameter of the piston installed in one cavity exceeds the diameter of the piston installed in another cavity, through the walls of both said cylinders are made through radial channels connecting the respective cavities in the stationary cylinders with the corresponding cavities of the entrance, exit and drainage of the working fluid.

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