RU81851U1 - CONTACT DEVICE - Google Patents

Abstract

The technical solution relates to the details of radio devices and is intended to connect the internal conductors of coaxial lines of large cross sections. The contact device comprises a thin-walled body (1) of an annular shape, a contact element (2) of an elastic conductive tape (3) with contact slats (3.1 and 3.2) and a captive catcher (4). The technical result is obtained by performing captive catcher (4) in the form of a prefabricated structure consisting of a double-sided pin (4.1) with an annular groove (5) in the middle and a disk (4.2) installed in this groove. The disk has an incomplete diametrical section and a central hole, the diameter of which corresponds to the diameter of the groove, and the thickness of the disk does not exceed the width of the annular groove. For ease of installation of the disk on the pin, technological holes are located on both sides of the diametrical section. The contact device provides reliable contact, reduces metal waste and reduce the cost of the manufacturing process of the device.

Description

The technical solution relates to the details of radio devices and can be used in coaxial lines of large cross sections as a two-sided socket for connecting their inner conductors to the ends of a cylindrical shape, in the ends of which there are central holes for the catcher.

Known designs for coaxial joints with a catcher, providing a coaxial joint of the inner conductors of the coaxials. For example, in a coaxial connector of a complex design according to A.S. No. 678561, the inner conductor of one of the parts of the polarized connector is equipped with a catcher made in the form of a pin, which, when articulating the parts of the connector, enters the central hole of the tip of the inner conductor of the other part of the connector.

A simpler design with a captive catcher is known, described in RF patent No. 2044374 (publ. 09/20/1995) "Contact device" (the closest analogue). The device comprises a thin-walled ring-shaped housing and a bilateral contact element made of an elastic conductive tape with contact lamellas mounted on its outer surface, the bent ends of which cover the ends of the housing. A captive catcher is introduced into the cavity of the thin-walled body, made in the form of a double-sided pin with a disk in the middle. Moreover, the diameter of the disk is slightly larger than the diameter of the circumference of the lumen formed by bent contact lamellas, and the length of the pin is such that, at any position of the disk in the cavity of the thin-walled body, the ends of the pin protrude beyond its ends. In figure 2 of the description of the patent, the catcher is presented as a single part (item 4).

A disadvantage of the known contact device is significant metal waste in the manufacture of captive catcher in the form of a single part in cases of significant size of the device in mass production. Metal waste can be reduced by making the disc as a separate part of a prefabricated trap. Various options for this design are possible. For example, a two-sided catcher pin may consist of two interconnected parts, between which the disk is located - the third part of the prefabricated catcher. The connection of the two parts of the pin can be threaded, either using a press fit or using soldering.

The proposed technical solution presents a simpler design of a prefabricated catcher, consisting of two parts.

The essence of the technical solution lies in the fact that the bilateral pin is made with an annular groove in the middle. A disk with an incomplete diametrical section and a central hole is installed in the groove, the diameter of which corresponds to the diameter of the groove, and the thickness of the disk is not more than the width of this groove. Technological holes can be made on both sides of the diametrical section (for the convenience of using the tool during installation of the disk on the pin). The sequence of steps when installing a disk is as follows: the sides of the disk formed by a diametrical section are pushed apart until the width of the slit of the section is sufficient to insert a groove on the pin into the central hole of the disk. Then the sides of the disk are compressed using, if necessary, technological holes for the tool.

In Fig.1 shows a contact device (General view), in Fig.2 is a double-sided pin, in Fig.3 is a disk.

The contact device consists of a thin-walled ring-shaped housing 1, a contact element 2 of an elastic conductive tape 3 with contact lamellas 3.1 and 3.2, and a captive catch 4 made in the form of a double-sided pin 4.1 with a thin disk 4.2 installed in the groove 5. Conductive tape 3 It is located on the outside of the housing 1, and the bent ends of the contact slats 3.1 and 3.2 cover its ends and flanges with a gap. The ends of the tape are brought together end-to-end on the outside of the housing 1 and secured to it with a staple, the tabs of which are passed through narrow slots in the tape and the housing and are bent on its inner side. To install the contact element 2 on the housing 1, the latter has slots and bevels. When installing the contact element, the curved ends of the contact slats are passed through the slots. The bevels facilitate the passage of the curved ends of the lamellas through the slots. After the contact element 2 is inserted, it is rotated relative to the housing 1 so that the slots in the tape and the slots in the housing coincide with each other, and the staples of the bracket are passed through these slots, then bending them to the inner surface of the housing with their ends facing each other (not shown in Fig. 1 , see figures to the patent of the Russian Federation No. 2044374). To complete the assembly, on the end face of the housing 1 (with the fixed contact element 2), put the prefabricated catcher 4 with the disc 4.2 and push it (the disc 4.2) through the elastic ends of the contact lamellas (3.1 or 3.2) into the cavity of the housing 1. Lamellas prevent the catcher from falling out of the housing 1, abutting their ends against the plane of the disk 4.2. In addition, the ends of the pin 4.1 protruding beyond the ends of the case do not allow the disk 4.2 to accidentally turn sideways to the slats and slip through them.

To connect two sections of the coaxial line (coaxial feeder), the end of the pin 4.1 of the captive catcher 4 of the contact device is first introduced into the central hole of the tip of the inner conductor of the first section. Then, a contact device is inserted onto the cylindrical part of this tip, which with its contact slats 3.1 tightly covers the surface of the tip. At the same time, the other end of the catcher pin 4.1 protrudes from the free part of the contact device. The second section of the coaxial line is brought to it so that the protruding end of pin 4.1 goes into the central hole of the tip of the inner conductor of the second section, and the rapprochement is completed, as a result of which the contact device fits onto the cylindrical tip of the inner conductor of the second section, and pin 4.1 provides a coaxial connection internal conductors.

The proposed contact device provides reliable contact, can reduce metal waste and reduce the cost of the manufacturing process of the device.

Claims (1)

A contact device comprising a thin-walled ring-shaped housing and a bilateral contact element made of an elastic conductive tape with cut contact lamellas mounted on its outer surface, the curved ends of which cover the ends of the housing, in the cavity of which there is a captive catch made in the form of a symmetrical double-sided pin with a disk in the middle, moreover, the diameter of the disk is larger than the diameter of the circumference of the lumen formed by bent contact lamellas, and the length of the double-sided pin is such that and in any position of the disk in the cavity of the thin-walled body, the ends of the double-sided pin protrude beyond its ends, characterized in that the captive catcher is prefabricated, while the double-sided pin of the catcher is made with an annular groove in the middle in which a disk with an incomplete diametrical section and a central hole is installed, the diameter of which corresponds to the diameter of the groove, and the thickness of the disk is not more than the width of the groove.