RU47472U1 - CONTROL VALVE - Google Patents

Abstract

The utility model relates to the field of mechanical engineering and can be used to lower the pressure in hydraulic, lubricating and other liquid systems when sampling working fluids. The objective of the proposed model is the sampling of liquid with sufficient reliability and quality. This is achieved by the fact that the control valve contains an inlet pipe 1, a housing 2 and a spool 3, which is located in the housing so that the cavity A - of the fluid supply is in the open position, and the cavity B of the fluid outlet is closed. The opening time of the fluid drainage cavity is determined by the design of the cam 4, mounted on the shaft 5 and rotated from the drive 6 by a certain angle depending on the size of the convex part of the cam, determined by the working pressure of the hydraulic drive of the machine or stand. Thus, when the drive 6 is operating, the spool 3 operates periodically, and not continuously. A feature of the operation of such a valve is that at the moment of opening the spool, the liquid under pressure enters through the gap from the inlet cavity to the outlet cavity so that the particles of contamination cannot clog the gap, since they pass through this gap under high pressure. The total pressure of the liquid at the outlet decreases due to the periodicity of the spool.

Description

The utility model relates to the field of mechanical engineering and can be used to lower the pressure in hydraulic, lubricating and other liquid systems when sampling working fluids.

Known control hydraulic valve (French patent No. 9701756, IPC ⁶ F 16 K 3/34, published on 08.21.1998), containing an inlet pipe, a housing in which a valve and a shutter driven by a stepper motor are located. The disadvantage of this device is the impossibility of sampling liquid with sufficient reliability and quality due to clogging of the bore of the working window of the valve with contamination particles.

The closest in technical essence to the proposed solution is a control valve (Australian patent No. 681019, IPC ⁶ F 16 K 7/06, published August 14, 1997), including the inlet pipe, the housing in which the sleeve is located - the spool with the actuator. The disadvantage of this device is also the complete or partial blockage by particles of contaminants of the variable passage section of the working window of the spool working continuously, and, as a consequence, the inability to take liquid samples with sufficient reliability and quality.

The objective of the proposed model is to eliminate these disadvantages.

This is achieved by the fact that the valve containing the inlet pipe, the housing and the spool with the actuator has a cam mounted on the actuator shaft and with its convexity in contact with the upper end of the spool.

The presence of a cam ensures periodic operation of the spool, and not continuous. At the moment of opening the spool, the liquid under pressure enters through the gap from the inlet cavity to the outlet cavity so that the particles of contamination cannot clog the gap, because they pass through this gap under high pressure. The total liquid pressure at the outlet also decreases due to the periodicity of the spool. All this provides sampling with greater accuracy and reliability than in the prototype.

The figure shows a general view of the control valve. The control valve includes an inlet pipe 1, made in the form of a hydraulic jack, a housing 2 with a spring-loaded spool 3 placed in it, above the upper end of which is a cam 4, which has a convex part size corresponding to the working pressure in the hydraulic drive of the machine or stand and mounted on the drive shaft 5 6 with the possibility of rotation on the shaft 5 at a certain angle.

The device operates as follows.

The fluid from the system under pressure is supplied to the inlet pipe 1, made in the form of a hydraulic connector. The spool 3 in the idle state is fixed so that the cavity A - fluid inlet is in the open position, and the cavity B - fluid outlet is closed. The opening time of the fluid drain cavity depends on the design of the cam 4.

The opening time of the spool 3 windows and the angle of the convex part of the cam 4 were calculated according to well-known formulas depending on the working pressure and fluid flow in the tested hydraulic system. For example, at a sampling pressure of 32 MPa and a flow rate of 20.5 10 ^-5 m ³ s, the cam convex angle is 58 °, and the valve opening time required to take a reliable sample is 0.02 s.

Claims (1)

A control valve comprising an inlet pipe, a housing, a spool with an actuator, characterized in that a cam is installed on the actuator shaft, which contacts its convexity with the upper end of the spool.