SU738017A1 - Contact couple - Google Patents

Description

(54) CONTACT PAIR

one

The invention relates to electrical engineering and radio engineering, in particular to plug-in connectors.

In the known connectors, electrical contact is provided by directly crimping one rigid element of the contact pair-pin with an elastically deformable element with a contact pair-socket. The reliability of the contact, provided by the clamping density and violation of the oxide film, depends on the shape of the elastic element and its rigidity. Contact reliability depends on the type of contact between the contacting surfaces. Contact on the line, at the point and on the surface is possible.

Known joint flat pin with a cylindrical longitudinally notched springs w, they nest 1.

In said contact pair, the pin is in contact with the socket along the lines on both sides of the pin and a good disruption of the oxide film is ensured. The disadvantage of this contact pair is the in-line contact and the certain technological complexity of manufacturing the spring cylindrical socket.

Known articulation of a curved plate elastic pin with stiff. a cylindrical element of the nest 2. The said contact pair ensures contact in one line, which is not reliable enough. Other disadvantages of this contact pair include the lack of conditions for the destruction of the oxide film and the technological complexity of manufacturing a curved plate elastic core.

The closest in technical sushi ness is a contact pair, containing a pin with a screw working surface and a working surface associated with it, the CSP slot.

The disadvantage of this contact pair is the lack of reliability and manufacturability.

The aim of the invention is to increase reliability and technology.

Claims (3)

This goal is achieved by the fact that in the contact pair, containing a pin with a screw working surface and a working surface adjacent to it, a socket is made with a screw working surface, the pitch of the screw surface of the socket coincides with the screw over HbcW pin, and the helix angle of the helix The working pin of the wire is equal to the similar angle of the working socket and its size is greater than the angle a, where oi is the friction angle of the materials of the mating surfaces of the pins and sockets. The invention is illustrated in the drawings, in which FIG. 1 - a contact pair with a rigidly fixed nest of a bounded b1 b vrashayuschim pin, equipped with an elastic limiter; in fig. 2 - flRWa napa con with rigid pin and partly rotating socket, provided with an elastic stop; in fig. 3 contact pair with a rigidly fixed socket, equipped with diverging sponge and one pin with a rigid stop; in fig. 4 - according to the Shrotye section of the docked contact 11Par7 in the full range, according to the present technical solution. Arrows A indicate screw working surfaces. Pin and jacks. .Contact pair includes pin and jacks. The pin has various functions: the main working section 1, the connecting area 2 of the flexible conductor and the section 3 are embedded in the insulated section 4. The main working section is Schlönen with a constant cross section and is limited as; at least one screw working surface. The socket is divided by length. Three functions are performed: the work section 5, the connection area 6 bend k5T6 11RODYK, the fastening part 7 into the insulating body 8. The main work area 5 is a bushel Constantly Hffffofb ee4eHHaV limited by at least one twisted screw working surface, and the shape of the w, spruce provides coverage of the cross section of the pin while combining the working surfaces of the pin and the socket. In addition, the nature of the bend working on. vertex of the nest. To exclude the self-propeller mb} of kyNy, with the forward movement of the heading pin, the nest must correspond to the trace of its condition. The elevation angle of the helix sweep is greater than the 90 ° angle — a, where a is the angle of the third W (the matrices of the matching pin and socket, and the pitch of the screw-type shTBGr and the tail should strictly coincide. Otherwise, the pin with the width of the working screw surface close in width The working screw surface of the nest cannot be moved into the nest, since. ", the frictional force preventing the advancement will be greater than the component THRT of the repulsive force directed parallel to the screw screw surface of the T SpT in 1Hg: Contact pair can be BribiHlHeHa, as shown in Fig. 1; with a nest fixed in an insulating body 8 and a pin limited to rotate in the insulating body. The rotation restriction of the pin is provided by an elastic element 9, made, for example, as a coil spring or bending tabs placed in a groove housing 4. It is possible to manufacture the claimed contact pair without elastic elements, which is shown in Fig. 3. With this method of securing the contact pair, one of the elements, for example, a pin, is provided with a rigid stop 10, placed in the sector slot of the insulating body. The magnitude of the sector groove somewhat exceeds the angle of screwing the shtyr when fully immersed in the socket. In addition, the pin is provided with a bevel parallel to one of the working surfaces of the pin, and the socket is additionally supplied with a guide section 11 with diverging jaws and a bevel T at the bottom of the socket directed parallel to the respective screw working surface. Moreover, the angle of the bevel of the nest is somewhat sharper than the bevel of the pin. The simplest method of making the same screw pins and sockets is by twisting together pre-aligned blanks. FIG. Figure 4 shows the possible sections of the working parts of the contact pairs. When docking a contact pair, the pin (see FIGS. 1, 2, 3) with the front edge B of the screw working surface A presses against the screw working surface A of the socket and breaks the oxide film. The component of the axial force acting on the pin causes the movably fixed part of the contact pair to rotate relatively stationary. Screw is screwed into the nest. The same component of the axial force presses the shtyr to the working surface of the socket. Since the elevation angle of the helix sweep is greater than the angle of 90 ° —o, where the op is the friction angle of the materials of the matching pin and socket, and the screw working surface of the pin is similar to the working surface of the socket, the pitch of the screw working surface is many times longer than the pin. The rotation of one element of the contact part of the other with full docking is very small. Really, the angle of rotation does not exceed 5-10 °, which does not significantly affect the reliability of the seal of the flexible conductor. Since the screw working surface of the pin is not larger than a full turn, contact between the elements of the contact pair is provided over the entire working surface. In addition, the screw shape of the working surface of the pin and socket provides compensation for the use of elements of the contact pair. Wear Slightly changes the angle of the elements of the contact pair when docked. The elastic element 9 indicated in FIG. 1 and 2, is deformed when the contact pair is docked, and when disconnected, occupies the initial position, fixing the moving part of the contact pair in the initial position for the rotary dock. The deformation of the elastic element counteracts the rotation of the moving part of the contact pair, fixing the pin in the socket and with the docked position. The hard limiter 10, in the case of a contact pair with a rigidly fixed nest, equipped with diverging jaws and a rotating cleat (Fig. 3), allows the spindle to freely rotate in the sector, slightly exceeding the angle of rotation of the shchyr relative to the nest when docked. When approaching, the divorced nests of the nest 11 direct the wormhole to the working section of the nest, and upon further movement of the wrench, it turns, lying next to the working surface of the nest. When the leading edge of the pin approaches the bottom of the socket, the bevel B (Fig. 3) enters the bevel of the socket N, an additional force is created which secures the pin in the working position. Bevels on the shtyry and in the bottom of the nest provide an additional longitudinal entrance when compensating for wear of the elements of the contact pair. When uncoupled, the wand is turned out of the socket without considerable effort. Thus, according to the present proposal, the contact of the socket with the pin over the entire screw working surface is provided, the spring clamping elements of the socket can be rejected with their sophisticated manufacturing technology, the condition of destruction of the oxide film due to the screw working surface of the socket improves. , it is provided., to compensate for the wear of the elements of the contact pair, and the force is reduced when docking and undocking. Claims of the invention A contact pair comprising a spike with a screw working surface and a socket connected to it with a working surface, characterized in that, in order to increase reliability and manufacturability, the nest is made with a screw working surface, the pitch of the screw surface of the socket coinciding with the screw surface of the screw surface pin, and the sweep angle of the helix of the working surface of the pin is equal to the similar angle of the working surface of the socket, and its magnitude is greater than the angle of 90 ° - a, where a is the friction angle of the materials of the adjacent surfaces st pin and nests. Sources of information taken into account in the examination 1.Contact pair of connector RP-14, EU 3656015 TU. 2. Connector type A, ASHO 374015 TU. 3. US patent number 3281760, cl. 339- 176, 1963 .. 738017 fig 1 ( P (Rig. 2 V UH /// 7 //// U 7/7 /////// Af / j S