SU1149094A1 - Pulsing hydraulic distributor - Google Patents

Abstract

HYDRAULIC PULSE DISTRIBUTOR, comprising a housing with inlet and two outlet channels and a working cavity in which a spool is installed, equipped with a mechanism for fixing the extreme positions in the form of a spring-loaded push rod installed in the inlet channel with the possibility of swinging and interacting with the geometric center of the spool, in order to increase the reliability of operation, the spool is made in the form of rectangular cross-section, the working cavity is limited by walls with flat surfaces, with eat a cavity wall opposed tappet, formed by intersecting planes, the line of intersection which are located perpendicular to the pusher in its middle position and the valve is installed in the working chamber e hingeably with respect to said lines. (L o; o 4ib

Description

The invention relates to valve engineering and can be used to distribute the flow of the working medium in pipeline systems.

The aim of the invention is to increase the reliability of the hydraulic distributor by reducing the number of interacting elements in the mechanism of fixation of the valve and changing the shape of the valve and the working cavity of the device. 10

In FIG. 1 shows a hydraulic pulse distributor, a longitudinal section; in FIG. 2, section AA in FIG. 1.

The hydraulic pulse distributor contains a housing 1 with input 2 and ₁₅ output 3 and 4 channels and a working cavity 5, in which a spool in the form of a piston 6 of rectangular cross section is placed. In the input channel 2 there is a mechanism for fixing the extreme positions of the piston 6 in the form of a pusher 7, pressed by a spring 8 20 to the piston 6 and interacting with its geometric center.

The working cavity 5 of the housing 1 is formed by walls with flat surfaces, and the walls opposite to the push rod 7 are formed by intersecting planes 9-12, the intersection lines 13 and 14 of which are located perpendicular to the push rod 7 in its middle position. The end surfaces 15 and 16 of the piston 6 are equipped with movement stoppers 17 and 18, 30 interacting at the extreme positions of the spool with the end walls' 19 and 20 of the working cavity 5.

Hydraulic pulse distributor operates as follows.

When applying pressure to the working cavity through the inlet channel 2, the working fluid enters the left part of the cavity 5 and, while exerting pressure on the surface and the left end face 15 of the piston 6, moves it along the inclined plane 9 to the right until the limiter 18 touches the wall 20. In this case, the left part of the cavity 5 is connected to the output channel 3, and the center of the piston will cross the line 14 of the intersection of planes 9 and 10. However, the piston 6 will not turn clockwise because the moment of forces acting on the left working surface of the piston 6 exceeds the resultant ent force (fluid pressure and the force of the spring 8) acting on the right working surface of the piston 6 relative to the line 14. When the piston 6 supply stop pressure pulse like the rocker under the action of springs 8 and fixed spreads in the rightmost position. In this case, the left side of the cavity 5 with the output channel 3 is cut off from the input channel 2, and the right side of the cavity 5 is connected to it. When the next pressure pulse is applied, the piston 6 along the inclined plane 10 moves to the left to the stop and connects the right part of the cavity 5 with the output channel 4. At the end of the pulse pressure supply, the piston 6 takes the position shown in FIG. 1. Next, the cyclic operation of the hydraulic pulse distributor is repeated.

A ~ A

Figure 2

Claims (1)

A HYDRAULIC PULSE DISTRIBUTOR, comprising a housing with an input and two output channels and a working cavity, in which a spool is placed, equipped with a mechanism for fixing extreme positions in the form of a spring-loaded pusher installed in the input channel with the possibility of swinging and interacting with the geometric center of the spool, characterized in that, in order to increase the reliability of operation, the spool is made in the form of a piston of rectangular cross section, the working cavity is limited by walls with flat surfaces, and APIS cavity opposite the tappet, are formed intersecting planes, the line of intersection which are located perpendicularly to the pusher in its middle position and the valve is installed in the working chamber is, swingably with respect to said lines. I