SU567420A3 - Magnetically controlled sealed-in contact - Google Patents

Description

The invention relates to electromagnetic relays, in particular to magnetically controlled sealed contacts, and can be used mainly as a contact node in the manufacture of electromagitic relays.

Electromagnetic turnips 11 are known that a magnetizing winding is put on the core, which is attached to a plate under pressure of a glass junction, and the front part of the plate penetrating the plate forms a contact pair with the opposite section of the mapdata core. This relay is structurally complex and expensive. In addition, the junction of such a long core core limits the scope of application only for a turnbuckle of a very specific type.

Also known is a magnetically controlled, sealed contact with a flat body, comprising a lid and a base rigidly connected to it, consisting of an annular outer part and an eccentric ferromagnetic pole part connected by an OTiiourcfmm to it, as well as a flat ferromagnetic measles, and .Chenyin on the spring, fastened on the case, for example on the cover 2,

This device has the same drawbacks.

The purpose of the invention is to simplify the manufacturing technology and expand the field of application. For this, the pole part of the base is made in the form of a disk, which is located in the same plane with the outer and inner sides of the base.

The cost of the glass vapa produced under pressure may be small if the outer part, the glass ring and the inner part are laid on a flat graphite plate. Moreover, there will be no need for additional fixation in a certain position by means of fasteners. After the soldering process, the inner and outer parts are in the same plane.

The annular outer part of the base and the cover may be made of magnetic or nonmagnetic material. In addition, the annular outer part of the base may be made of magnetic or non-metallic material, and the lid, respectively, of non-magnetic or magnet 11 n (1 material.

FIG. Figure 1 shows the MBI 1 its1u11ravla emy Iep metiekirovanny contact with a flat body, nor: top; in fig. 2 - the same, fork on the side and cross-section: ii.)

FIG. 3 - the same, bottom view; in fig. 4-7 show various contact variags in the triggered state, side view in section.

. The contact housing consists of a nolko base of the cover 1 in the form of a cap. The edge of the cover is connected to the base either dustproof or hermetically. This connection can be accomplished, for example, by welding with an annular seam. The base of the contact consists of an annular outer part 2 and a disk inner part 3 interconnected by means of a glass ring 4 by means of a glass spa being produced under pressure in such a way that they are located,. for example, from the inside of the base in one plane. The inner part 3 is located eccentrically inside the outer part 2. Magnetic conductor bark 5 depicted as a flat part is attached to the inner side of the cover 1 by means of a holding elastic spring 6. Anchor 5 is located opposite the part of the inner part 3 and the part of the outer part 2, In order to the alignment of the tolerances due to fabrication or wear of the surface of the core 5, interfering with the inner part 3, can be made convex.

A flat disc-shaped contact can be used in various ways in a nephaline relay, in various bistable relays, etc. These relays require a different mode of operation of the core 5, which must be located depending on the performance of the magnetic circuit of the relay either obliquely or in parallel with respect to the base. A different mode of operation of the contact can be achieved by a suitable choice of material for the outer part 2 and the bolt 1. The oblique arrangement of the core takes place, for example, if the outer part 2 is made of non-magnetic material. In this case, the cracks 1 can be made either from a magnetic or from a non-magnetic material (Fig. 4 and 5). The anchor is located parallel to the base, if the outer 4actb 2 is made of magnetic material. In this case, the cover 1 can be made either of magnetic or non-magnetic material. However, in all cases, interior 3 is magnetically conductive.

FIG. 4 and 5 depict contact with the outer part 2, made of a non-magnetic material, with the bark 5 being able to pull the shroud towards the base. FIG. 4, the attachment point of the holding spring 6 is located on the clamp 1 above the outer part 2. In FIG. 5, the cover 1 is rotated 180 °, so that the attachment point 7 of the holding spring 6 is located on the clamp 1 of the inner part 3. Due to this, to change the mode of operation of the core 5 and the retaining spring 6.

FIG. Figures 6 and 7 show contact with the outer part 2, made of magnetic material, with the bark 5 in the triggering state being parallel to the base. This results in an increased sticking force with the contact closed. In FIG. 6, the attachment point 7 and holding spring 6 are located above the outer part 2, and FIG. 7 - above inner part 3.

The proposed magnetically controlled sealed contact can be used in different ways along with other similar contacts in the relay. For example, several contacts can be installed in the form of piles between the rods of a V-shaped core, the base of which is provided with a winding.

In addition to the torb, a 1-shaped core can also be provided, provided with a winding of the longitudinal rod between whose transverse rods on each side there is one proposed contact.

Devices with electromagnets placed between two contacts located opposite each other are also possible, and an additional V-shaped core can be provided, encompassing a device with two parallel-. relative to each other base rods.

Claims (5)

1. Magnet-controlled sealed contact, comprising a flat body, made in the form of a lid and a base rigidly connected to it, consisting of an annular outer part and located on it with an eccentric ferromagnetic pole, interconnected by a glass ring, and also a flat ferromagnetic one. Measles mounted on a spring mounted on a housing, such as a cover, characterized in that, in order to simplify the technology of manufacturing and expand the scope of application, the pole portion of the base Nena a disk mounted in the same plane as the outer and inner sides of a base. 2. A contact according to claim 1, characterized in that the annular outer part of the base w and the cover are made of magnetic material. 3. Contact according to claim 1, characterized in that the annular outer part of the base and the cover are made of a non-magnetic material. 4. Contact under item 1, characterized in that the annular outer part of the base is {and is made of magnetic material, and the cover is made of non-magnetic material. 5. Contact under item 1, characterized in that. Ch1O ring outer base part is made of magnetis non-magnetic material, and the cover of the feet of the material. Sources of information taken into consideration during the examination: 1. Г1атен гФРГ№ 1191042, кл. 21 g 4 / 01,1966. 2. K. Kaggeg und M. Sauer Bistable Relais mit Schutzyceskontakteti in MetalIgehause fiir Koppeffefrter, Der ingenieur der Deutschen Bnndfispost 19 (1970. H.S) p. 164--166. / f H fPus. 2 V fPuB. 3 five 7 fPU9 0LfB.S FTs9.6