SU746765A1 - Microminiature armature and method of manufacturing same - Google Patents

Description

(54) MICROMINIATURE RELAY ANCHOR AND METHOD FOR MAKING IT

The invention relates to the field of design of electromagnetic relays with double-core and to the technology of their manufacture and can be used in relay technology.

Electromagnetic relays are known, the measles of which are made of a rectangular plate and two trunnions mounted on a rectangular plate with the aid of auxiliary brackets D-l

The known constructions of precast koreas possess substantial technological advantages, namely: the simplicity of manufacturing a rectangular plate of trunnions made in the form of an axis; the accuracy of the manufacture of core parts and the high degree of purity of their working surfaces. But the core assembly cannot be used in microminiature relays due to the increased dimensions.

In microminiature relays, the bones of the whole structure are used, the pins of which are made integral with the rectangular plate.

It is known, for example, an electromagnetically controlled relay containing measles with two trunnions integral with a rectangular plate 23. The advantage of such a construction is that the core is in its smaller dimensions as compared with composite crust. But the integral structure of the core is characterized by significant technological shortcomings, since the design of the trunnions and their dimensions predetermine

10 technological process of their processing.

Relay technology employs several methods for making Korean one-piece designs.

Known, for example, is the method of processing

The 15 core, according to which a flat rectangular plate with two rectangular protrusions is stamped, sets the preparation into the fixture of a two-spindle machine and grinds the protrusions around about two round pins with a diameter somewhat smaller than the thickness of the CSj plate. The described method provides the required alignment of both axles.

but the quality of their surface after machining with a chisel is low. In addition, the process of maintaining the diametrical size of the trunnions associated with the wear of the incisors, the vibration of the machine-tool || s system, etc. is of considerable difficulty.

Another treatment method is known in which the formation of pivots with a diameter somewhat smaller than the thickness of the rectangular plates is carried out by means of an initial two-sided diametral settlement of each pivot, followed by a mechanical settlement up to the diameter of the merged sleeve C4. This technical process includes the following operations: they stamp a flat 11p mountable square with two rectangular protrusions, place the workpiece into a stamp of the diametrical draft. On it, tfialatic punches upset each pin on both sides. In this case, the pin in the cross section takes the form of a hexagon. Set the workpiece in the stamp face precipitation. On this stamp, the following occurs: a cylindrical sleeve automatically slides over each pin, the inside diameter of which is less than the thickness of the rectangular plate and equal to the calculated diameter of the pin. Then, on both sides, punches enter each cylindrical bushing, and immediately face each axle. In this case, the pivot material fills the internal cavity of the cylindrical sleeves. The diameter of the trunnions is equalized with the internal diameter of the cylindrical sleeves. Sleeves and punches are divorced into different stools, rhones and finished cores are blown into the container.

Compared to the first method, this method provides a higher purity of the surface of the trunnions, in principle, repeating the purity of the surface of the dilcritic bushings. As for the productivity of turning the trunnions and the two-stage sludge - the processes are inefficient, associated with high costs of manual labor. And all these costs are directed to that. to get pins whose diameter is less than the thickness of the rectangular plate

The purpose of the invention is to improve the manufacturability and reduce the complexity of the manufacture of relay koreas due to the design of the trunnions and the technology for their processing.

This is achieved by the fact that both pins are larger in diameter than

thickness of rectangular plate. The diameter of the trunnions is equal to the diagonal of the square, the side of which is equal to the thickness of the plate. Technological process by education

trunnions with a diameter greater than the plate thickness are constructed as follows: the contour is formed in the form of flat plates with protrusions-trunnions in the form of a square with a side equal to the thickness of the plate. Then, in a known manner, an endsetting of the trunnions is made to a diameter commensurate with the diagonal of the square.

FIG. 1 shows two projections of the core blank obtained after the operation of the contour lip in FIG. 2 - stage of the process of installing the bark blank in the siege stamp; in fig. 3 - section A-A of FIG. 2 (the moment of installation of the bark blank in the siege stamp); in fig. 4 - section A-A of FIG. 2 (after operation of precipitation of trunnions); Fig.5. Prepared measles.

The microminiature relay anchor consists of a rectangular plate 1 and two axles 2, the diameter of which is equal to the diagonal of the square, the side of which is equal to the thickness cG of the rectangular plate.

. The choice of the diameter of the trunnions d and associated with the process of processing the core, is as follows: when cutting the contour of the workpiece, 3 trunnions are made square with the side

a square equal to the thickness of the rectangular plate (see FIG. 1). Bulk billet set in the siege stamp (see Fig.2) so that the billet 3 is included in the sleeve 4 with a gap L on

diagonal of the workpiece 3. The gap D is selected according to the system of tolerances on the slide landing and is due to the need for easy alignment of the workpieces 3 with the sleeve 1 and 4. 4. Then the punches 5 are made

Single blow to the center of the box. At the same time, the material of the cuffs 3 fills the internal cavity of the sleeves 4, forming a cylindrical axle 2, the diameter of which is equal. diagonal blanks 3, taking into account the landing clearance 4.

The introduction of the described process, ensured by one technological transition, the processing of trunnions with a diameter equal to the diagonal of the square, side

which is equal to the thickness of the rectangular plastics. core, will improve the manufacturability and significantly reduce the complexity of manufacturing kirmi microminiature relays.

Claims (2)

Claim 1. An anchor of a micro-miniature relay containing a rectangular plate and two trunnions made integral with the plate, characterized by 4to _z in order to improve manufacturability and reduce the complexity of manufacturing, the trunnions are made in diameter equal to the diagonal of the square, the side of which is equal to the corpus of a rectangular plate. '' 2. A method of manufacturing an anchor according to claim 1, by cutting it. contour and end settlement of trunnions, characterized in that the end settlement of trunnions is carried out immediately after cutting the contour of the anchor.