SU763996A1 - Switching device - Google Patents

Description

one

The invention relates to devices intended for switching electrical circuits in devices, in particular in devices requiring tightness of the housing.

Known switching commutators with reed switches, the commutation of which is carried out using permanent magnets fj.

These devices have a rather complicated structure.

The closest technical solution to the invention is a switching device, a non-magnetic board containing a movable control element located on the outside of the board, reed switches installed on the inside of the board, and a source of magnetic field 2J. In such a device, the reed switch is triggered by moving a permanent magnet.

The considered devices have the following disadvantage. When the magnet is removed from the reed switch, the magnetic pope in the reed switch decreases in size, does not change in direction, therefore, in some cases, due to the residual magnetisation of the reed switch contacts, they can be lost. non-disconnection

The purpose of the invention is to increase the reliability of the switching device when it is disconnected.

5 This is achieved by the fact that a KOMivty-containing device containing a non-magnetic board, a movable control element located on the outer side of the board, reed switches mounted on the inner side of the board, and a source of magnetic field, have two ferromagnetic rods inserted, between which the reed switches are fixed, and two C-shaped magnetic conductors mounted on a movable control element in a plane parallel to the plane of the board — the source of the magnetic field is stationary on the inner side of the board between two ferromagnetic stems ж ми ми, and C-shaped. magnetic conductors are installed so that, one of the ends of each of them is located opposite one of the poles of the source of the magnetic field, and the other

25 the end of each of them is opposite the rod torda, adjacent to the source pole of the magnetic field, opposite which is located; The first end of the other C-shaped magnetic circuit is located.

Such a device design ensures, during disconnections, not only the weakening of the magnetic field in the reed switch, but also a change in its direction, which increases the reliability of the reed switch off.

Figure 1 shows the proposed device, a General view; figure 2 - view of the device from the outside of the board.

The switching device contains reed switches 1, installed between ferromagnetic rods 2 and 3 on the inside of the non-magnetic board 4, sources of magnetic field 5, a movable control element 6 located on the outside of the board 4 The source of magnetic field 5 is installed directly under the board 4c with air gaps between its poles and rods 2 and 3. On the element b, C-shaped ferromagnetic magnetic cores are installed, made in the form of plates 7 and 8. One of the ends of the plastic 7 is above the end face of the rod 3, and its other end is above the N yusom magnetic source 5 close to another rod 2. At one end of the plate 8 overlies the end face of the rod 2, and the other - over the S pole magnetic source 5, surrounding the rod 3.

The switching device operates as follows.

When pressing the movable control element 6 of the plate 7 and 8, I close the rods 3 and 2 with the poles N and S of the source of the magnetic field and a closed magnetic circuit is created. The magnetic flux passes successively along the following elements: the north pole of the N source of the magnetic field, plate 7, rod 3, reed switches 1, rod 2, plate 8, the south pole S of the source of the magnetic field. The magnetic circuit has a relatively small magnetic resistance and a sufficiently strong magnetic field acts on the reed switches 1, causing them to operate, and in the reed switches 1 the magnetic field is directed from the rod 3 to the rod 2;

To switch the switching device, element b with plates 7 and 8 is retracted from the board 4, as a result of which four air gaps are formed in this magnetic circuit. Consequently, when the element 6 is retracted, the magnetic flux passes through another magnetic circuit containing only two air gaps, namely: the north pole N of the source of the magnetic field, the air gap, rod 2, reed switches 1, rod 3, air gap, o / t; the S pole of the magnetic field source. Due to the presence of two air gaps, the magnetic circuit has a relatively high magnetic resistance, with the result that the magnetic field in the reed switches 1 is significantly weakened, and now it is directed from the rod 2 to the rod 3 ,. those. directed in the opposite direction. S Changing the direction of the magnetic field contributes to the demagnetization of the contact cores of the reed switches, which ensures their reliable disconnection.

Claims (2)

Invention Formula A switching device containing a non-magnetic board, a movable control element located on the outside of the board, reed switches installed on the inside of the board and a 1x1 magnetic field source, characterized in that, in order to increase reliability of operation, two ferromagnetic rods are inserted in the device, which are fixed reed switches, and two C-shaped magnetic conductors mounted on a movable control element in a plane parallel to the plane of the board, the source of the magnetic field is stationary with an internal The sides of the board are between two ferromagnetic rods, and the C-shaped magnetic cores are installed so that one of the ends of each of them is located opposite one of the source poles of the magnetic field, and the other end of each of them is opposite the end of the rod, adjacent to that pole a magnetic field opposite to which is located the first end of another C-shaped magnetic circuit. Sources of information taken into account in the examination 1. USSR author's certificate 0 No. 609139, cl. H 01 H 36/00, 1978. 2. Japanese Patent No. 51-30667, 4/2 / -58 / 351 /, 1976.