RU161731U1 - CONNECTIVE ELECTRICAL CONTACT - Google Patents

Abstract

A detachable electrical contact comprising a pair of conductors, the ends of which have one-sided contact pads facing each other, between which in the closed position of the contact are located the bilateral contact pads of the third conductor, and these one-sided pads are pressed to these pads using springs placed on an axis movably connecting through the through holes the aforementioned pair of conductors, characterized in that the first and second conductor is made of a copper plate, deposited on its surface st sputtering method electroexplosive elektroerozionnostoykim coating based on molybdenum, copper and nickel.

Description

The utility model relates to electrical engineering, namely, to disconnectors of constant and alternating voltage.

Known electrical contact [1], containing a current-conducting plate, a holder of a contact part attached to it with a contact part fixed therein, the holder consists of an upper cylindrical and lower conical part, and the contact part is made in the form of cylinders connected by a truncated cone, while the conical surface of the contact part is reciprocal for the inner conical surface of the holder, the cylindrical part of the holder is divided by grooves into four segments, while one pair of diametrically opposite segments of the holder otherwise fixes the contact part in the holder, and the second fixes the holder on the current supply plate.

The closest in technical essence and the achieved result to the claimed device is a detachable electrical contact [2] selected as a prototype, containing a pair of conductors, the ends of which have one-sided contact pads facing each other (for example, from plate silver), between which in the closed position the contact is located on the bilateral contact pads of the third conductor (for example, effective, consisting of two elementary conductors), and these pads are pressed to these pads unilateral platform by springs arranged on the axis, movably connecting said through holes a pair of conductors. A groove is made in the third conductor within its two-sided contact pads, and the holes for the aforementioned axis are made within one-sided contact pads, while in the closed contact position the axis is located in the groove.

The disadvantage of the prototype is overheating of the conductors, leading to their destruction.

The objective of the claimed utility model is to increase the erosion resistance of conductors.

The problem is solved as follows. A detachable electrical contact contains a pair of conductors, the ends of which have unilateral contact pads facing each other (for example, from plate silver), between which in the closed position of the contact there are bilateral contact pads of the third conductor (for example, effective, consisting of two elementary conductors) moreover, these one-sided platforms are pressed to these sites using springs placed on an axis movably connecting through the through holes the aforementioned pair of conductors. According to the proposed technical solution, both the first and second conductors are made of a copper plate with an electroerosion-resistant coating based on molybdenum, copper and nickel deposited on its surface by electric explosive spraying (ESP).

Electro-explosive spraying of an erosion-resistant coating includes an electric explosion of a composite electrically exploded conductor, consisting of a two-layer flat copper sheath weighing 60-360 mg and a core in the form of molybdenum and nickel powders taken in a ratio of 10: 1 with a mass equal to 0.5-2.0 of the shell mass formation of explosion products of a pulsed multiphase plasma jet, fusion of the surface of a copper plate with an absorbed power density of 4.5-6.5 GW / m ² , deposition of explosion products on the surface and formation thereon composite coating system Mo-Ni-Cu and subsequent periodic pulsed electron-beam treatment of the surface coating when the absorbed energy density of 40-60 J / cm ^2, a pulse duration of 150-200 microseconds and the number of pulses of 10-30 cpm [3].

The destruction products of a composite electrically exploded conductor form a plasma jet, which serves as an instrument for forming a composite coating with a filled structure [4] on the surface of a copper plate [4] formed by a pseudo-alloy of molybdenum and copper with the addition of nickel. Nickel addition is due to the fact that it dissolves in molybdenum and forms unlimited solid solutions with copper. The subsequent pulse-periodic electron-beam processing (EPO) of the coating is accompanied by remelting of its surface layer with a thickness of 20-30 microns. Defects in the form of micropores and microcracks detected after EI [5] are not observed in it. Pulse-periodic EPO leads to the formation of a finely dispersed and uniform structure in the coating. Nickel provides a “bond” between the phases of molybdenum and copper. The size of the inclusions of copper in the molybdenum matrix or molybdenum in the copper matrix is reduced by 2-4 times in comparison with their sizes immediately after the EVN. The surface of the coating acquires a mirror shine.

In FIG. 1 shows a detachable electrical contact in the closed position, containing a pair of conductors 1 and 2, as well as a third conductor 3. FIG. 2 - a detachable electrical contact in the open position, containing bilateral contact pads 4 and 5, which in the closed position of the REC (Fig. 1) are pressed using, for example, one spring 6 to the one-sided contact pads 7 and 8 of conductors 1 and 2 (in FIG. . 1 pads 4, 5, 7, and 8 are not visible and therefore not shown). In this case, the spring 6 is placed on the axis 9 passing through the holes 10 and 11, respectively, in the conductors 1 and 2 (in Fig. 1 these holes are not visible).

Thus, the inventive detachable electrical contact is more efficient, in comparison with the known, it has a high electrical discharge resistance, which increases its service life.

Claims (1)

A detachable electrical contact containing a pair of conductors, the ends of which have one-sided contact pads facing each other, between which in the closed contact position are located the bilateral contact pads of the third conductor, and these one-sided pads are pressed to these pads using springs placed on an axis movably connecting through the through holes the aforementioned pair of conductors, characterized in that both the first and second conductor is made of a copper plate, deposited on its surface st sputtering method electroexplosive elektroerozionnostoykim coating based on molybdenum, copper and nickel.

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