RU143995U1 - ELECTROMAGNETIC HYDRAULIC CRANE - Google Patents

Abstract

An electromagnetic hydraulic valve comprising a housing with input and output lines, in a bore of which a spring-loaded armature and a stop are wound between each other and a winding wound around the housing; kinematically connected with the anchor and located between the inlet and outlet lines, a shut-off valve with a seat, characterized in that the stop is located between the armature and the shut-off valve, and there is provided an axial hole in which the pusher is installed, and the shut-off valve is located on the input line side.

Description

The utility model relates to the field of hydraulic devices, in particular to hydraulic shut-off valves with electromagnetic control, designed for remote control.

Known electromagnetic hydraulic crane containing a housing with input and output lines, in the bore of which are installed with an air gap between each other a spring-loaded anchor and stop; winding wound on the body; kinematically connected to the anchor and located between the inlet and outlet lines, a shut-off valve with a seat (see D.N. Sapiro, Electrical Equipment of Aircraft, Engineering, 1977, p. 162, Fig. 12.1).

A disadvantage of the known electromagnetic valve is that its internal tightness is ensured by pressing the shut-off valve to the seat with a spring, and therefore, such a valve is used only at small pressure drops, as the pressure of the valve to the seat decreases with increasing working pressure and it becomes necessary to increase the size of the spring, as well as the size of the electromagnetic part, providing the opening of the shut-off valve by compression of the spring. In addition, this design is unreliable at pulsating pressure due to increased wear of the locking part.

The technical result from the use of the proposed utility model is to increase the operational reliability of an electromagnetic crane, expand its functionality by using it in a wide range of pressures and with pulsating pressure.

The specified result is achieved by the fact that in the electromagnetic hydraulic crane containing the housing with input and output lines, in the bore of which are installed with an air gap between each other a spring-loaded armature and a stop, a winding wound around the housing; kinematically connected to the armature and located between the inlet and outlet lines, a stop valve with a seat, a stop is located between the armature and the shutoff valve and an axial hole is provided in which a pusher is installed, and the shutoff valve is located on the side of the inlet line.

The figure shows a sectional electromagnetic hydraulic valve.

The electromagnetic hydraulic valve comprises a housing 1 with input 2 and output 3 lines, in the bore 4 of which are located an anchor 6 and a stop 7 loaded with a spring 5; interconnected with a gap 8, wound on the housing 1, the winding 9; a valve 10 with a seat 11. The valve 10 interacts with the armature 6 by means of a pusher 12 mounted in the axial hole 13 of the armature 6.

The electromagnetic hydraulic valve operates as follows:

When applying electric current to the winding 9, the anchor 6, compressing the spring 5 and choosing the air gap 8, moves together with the pusher 12 and the valve 10. The working fluid through the slot formed between the valve 10 and the seat 11 is transferred from the input line 2 to the output 3.

When the current is turned off, the armature 6 under the action of the spring 5 and the pressure of the working fluid on the valve 10 returns to its original position; the valve 10 sits in the seat 11 and shuts off the fluid flow from the inlet line 2 to the outlet 3. With an increase in the inlet pressure, the pressure of the valve 10 to the seat 11 increases, and thereby the internal tightness of the valve increases.

With pulsating pressure, the valve is constantly pressed against the seat and there is no separation from the seat at any pressure overflow, which eliminates its increased wear.

Thus, the proposed technical solution allows the use of an electromagnetic hydraulic valve in a wider range of operating pressure without significant changes in the size of the spring and the valve itself and allows its reliable use in pulsating pressure mode.

Claims (1)

An electromagnetic hydraulic valve comprising a housing with input and output lines, in a bore of which a spring-loaded armature and a stop are wound between each other and a winding wound around the housing; kinematically connected with the anchor and located between the inlet and outlet lines, a shut-off valve with a seat, characterized in that the stop is located between the armature and the shut-off valve, and there is provided an axial hole in which the pusher is installed, and the shut-off valve is located on the input line side.