CS230914B1 - Electrically controlled proportional gate valve - Google Patents

Abstract

The subject of the invention relates to a fixed connection of the armature of the control magnet with the slide valve in an electrically controlled proportional slide valve (hereinafter referred to as the proportional valve). The fixed connection eliminates the bouncing of the armature from the slide valve of the proportional valve, which can cause unwanted oscillations of the system, and the proportional valve can also be used in the higher frequency range. The armature guidance is more perfect, simpler and without mechanical friction of the armature. The overall length of the proportional valve is shorter.

Description

The invention relates to an electrically operated proportional spool valve with control magnets.

The construction of an electrically operated proportional directional spool valve (hereinafter referred to as proportional directional valve) with pressure magnets. switchgear with feedback and loss of information on the position of the slider.

Various types of hydraulic damping of the control magnet anchors are used to reduce this undesirable effect, and the proportional directional control valves are provided and the control magnets are equipped with additional return springs. The hydraulic damping of the control magnets and the proportional directional control valve valve significantly reduces the usable frequency range and increases the demand for perfect venting of the internal magnets, the return spring and the bypass channel in the proportional directional control cube.

These drawbacks are eliminated in the proportional directional control valve of the embodiment of the invention wherein the control magnet armature is rigidly connected to the proportional directional control valve slide such that the control magnet armature is overhung on the cylindrical extended end of the spool and screwed to the cylindrical extended end of the proportional directional control valve or so that the control magnet armature is gently screwed onto the threaded elongated end of the proportional directional spool valve, further wherein the control arm anchor is recessed into the cylindrical recess of the control magnet base body, and between the inner cylindrical surface of the recess in the base body and the The magnet is an air gap.

If the control magnet armature is firmly connected to the valve of the proportional directional control valve, the function of the anchor guide is taken over by the valve in the cube of the proportional directional control valve. The anchor guide is thus functionally superior, simpler to manufacture and the construction length of the proportional directional control valve is shorter. When adjusting the valve of the proportional directional valve, the bouncing of the control magnet armature from the gate face is eliminated, there is no need for hydraulic damping and the proportional directional valve can operate in the higher frequency range.

There is also no need for venting, with fewer O-rings, which are subject to high thermal stress, and fewer return springs.

An example of an application of the invention is shown in the accompanying drawings, in which Fig. 1 schematically depicts an electrically operated proportional spool valve with an anchor fixedly attached to the extended end of the spool and Fig. 2 shows a switchboard with an anchor screwed to the spool end.

Two control magnets 1 of the same design are fastened to the cube 10 of the proportional distributor. In the embodiment according to FIG. 1, the anchor 4 of the control magnet 1 is not firmly seated on the cylindrical elongated end of the spool 11 and is screwed to the face of the cylindrical elongated end of the spool 11 of the proportional directional valve by screw J. In the embodiment of FIG. 2, the anchor 6 is screwed directly onto the threaded elongated end of the proportional directional control valve slide.

The middle position of the slide 11 is given by the return springs 2 and the seats 8 of the return springs. The anchor 4 of the control magnet 1 is inserted into a cylindrical recess in the base body 8 of the control magnet 4. A constant air gap is provided between the outer cylindrical surface of the armature 2 and the inner cylindrical surface of the recess in the base body 6 of the control magnet 4. On the outer cylindrical surface of the base body 6 of the control magnet 4, the winding 4 of the control magnet 4 is mounted. The winding 4 is closed by the housing 4 of the control magnet 4.

The application of the present invention is not limited to proportional directional control valves, but also applies to conventional spool direction control valves normally operated by electromagnets.

Claims (4)

An electrically operated proportional directional spool valve, comprising a control magnet and a proportional directional control valve, characterized in that the anchor (2) of the control magnet (1) is rigidly connected to the spool (11) of the proportional directional control valve (10). Electrically operated proportional directional spool according to claim 1, characterized in that the armature (2) of the control magnet (1) is overhung on the cylindrical extended end of the spool (11) and screwed to the face of the cylindrical extended spool (11). proportional switchboard. An electrically operated proportional directional spool according to claim 1, characterized in that the armature (2) of the control magnet (1) is threadedly screwed onto the threaded extended end of the proportional directional spool valve (11). An electrically actuated proportional directional spool according to Claims 1 and 2, characterized in that the armature (2) of the control magnet (1) is recessed in the cylindrical recess of the base body (3) of the control magnet (1), the base body (3) of the control magnet (1) and the outer cylindrical surface of the armature (2) of the control magnet (1) is an air gap.