SU1151750A1 - Locking device - Google Patents

Abstract

A locking device comprising a housing of a non-magnetic material with a locking member installed in it and an excitation winding placed outside the housing, the measles of which is made in the form of a spring-loaded conduit placed in the housing coaxially with the locking member and associated with it, expansion of the field of application; a projection is made coaxially to the rod; a permanent ring magnet is mounted with a gap relative to it, and between the end of the piston and the ring magnet is installed The displacement is a cylindrical sleeve made of a magnet of a soft material, the end of which is placed in the specified gap, and the stem is made of a magnetostrictive material. (L ate | el

Description

The invention relates to valve engineering and can be used to lock the flow of working media in the technological processes of enterprises of microbiological, food, medical and other ₅ sectors of the economy.

Known locking device in the casing of which are installed the valve plug cooperating with the seat, and a heater, the housing and the valve plug are made of materials with different coeffi- cients of linear expansion of ¹⁰ [1].

The disadvantage of this device is that the open position of the valve is provided only with a continuous supply of energy to the heater. fifteen

A locking device is also known, comprising a housing of non-magnetic material with a locking member installed therein and an excitation winding located outside the housing, the armature of which is in the form of a spring-loaded piston placed in the housing coaxially with the locking member and connected by a rod [2].

A disadvantage of the known device is its limited scope, since it cannot be used, for example, when working with microbiological media, since it is necessary to heat the device body to the extrusion-press-in temperature.

The purpose of the invention is the expansion of the scope. ^thirty

This goal is achieved by the fact that in the locking device comprising a housing of non-magnetic material with a locking body installed therein and an excitation winding located outside the housing, the ₃₅ armature of which is made in the form of a spring-loaded piston placed in the housing coaxially with the locking body and connected by a rod, a protrusion is made coaxially to the rod in the housing and a permanent ring magnet is mounted with a gap relative to it; moreover, a cylinder is mounted between the end face of the piston and the ring magnet Skye sleeve of soft magnetic material, the end of which is received in said gap, and the rod ₄₅ is made of a magnetostrictive material.

The drawing shows a locking device, a section.

In the housing 1 of non-magnetic material, a locking member 2 is installed, loaded with a spring 3 with a rod 4 of magnetostrictive material. An excitation winding 5 is installed outside the housing, the anchor 6 of which is made in the form of a piston loaded with a spring 7 and placed coaxially with the rod 4. A protrusion 8 is made coaxially to the rod 4 and an annular permanent magnet 9 is installed, and a movable sleeve is installed between the end of the piston and the ring magnet 10 made of soft magnetic material, and the rod 4 is made of magnetostrictive material. In the housing, a fitting 11 for supplying compressed air is made. When the device is closed, the armature-piston 6 and the rod 4 are disconnected from each other, and the distance between them is equal to the length of the magnet portion protruding into the gap due to the magnetic circuit.

The locking device operates as follows.

In the closed position, the locking element 2 overlaps the seat of the housing. The piston 6 and the sleeve 10 pressed to it by the spring 7 are in the left extreme position, the magnetic field of the permanent magnet 9 acts on the rod 4, causes transverse magnetostriction in it, wedging it in the protrusion 8. To open the locking device, the excitation coil 5 and the armature piston 6 together with the sleeve 10 will move to the right. The sleeve 10, moving in the gap between the annular permanent magnet 9 and the protrusion 8, will block the permanent magnet 9 and close the magnetic flux. At this moment, the diameter of the rod 4 will change in the direction of reduction and it will come out of pinching. With further movement of the armature-piston 6 and the sleeve 10, the piston 6 is joined with the rod 4, which will additionally compress the spring 3 and open the passage to the medium.

When the winding 5 is de-energized, the locking device is closed and the armature-piston 6 under the action of the spring 7 together with the sleeve 10 will return to its original position. Under the action of a magnetic field of a permanent magnet 9, the diameter of the rod 4 will increase and it will wedge in the protrusion 8.

When the excitation coil 5 is turned off, to open the device, it is necessary to supply compressed air to the fitting 11 and then the device operates as described.

This embodiment of the locking device allows you to expand the scope by eliminating the thermal effects of the drive on the working environment.

Claims (1)

LOCKING DEVICE, comprising a housing made of non-magnetic material with a locking body installed in it and placed on the excitation coil outside the housing, the armature of which is a spring-loaded piston placed in the housing coaxially with the locking body and connected by a rod, characterized in that, for the purpose of expanding the field of application, a protrusion is made coaxially to the rod in the housing and a permanent ring magnet is mounted with a gap relative to it, and between the piston end face and the ring magnet it is installed with the possibility of The cylindrical sleeve is made of soft magnetic material, the end of which is placed in the specified gap, and the rod is made of magnetostrictive material. SU,. „1151750