RU2044374C1 - Contact device - Google Patents

Abstract

FIELD: electrical and radio engineering. SUBSTANCE: invention refers to connection of internal conductors of coaxial lines. Contact device has thin-walled case of ring-shaped configuration and two-side contact element made of elastic conductive band with cut-out contact lamellas mounted on outer surface of thin-walled case. Nondropping-out catcher in the form of two-side pin with disk in the middle is located inside thin-walled case. In any position of disc in thin-walled case ends of two-side pin protrude beyond its butts. EFFECT: improved reliability of contact. 5 dwg

Description

 The invention relates to parts of radio devices and can be used in coaxial lines of large cross sections as a two-way socket for connecting their inner conductors having a central hole for the catcher.

 Known coaxial connectors for connecting hard coaxial paths, in which the inner conductors of the mating parts are equipped with a catcher located on the central axis of the connector.

 With the help of a catcher, coaxial connection of the internal conductors is ensured even before the contact surfaces of these conductors actually contact.

 For example, in the coaxial connector [1], the inner conductor (with the contact ring) of one of the parts of the polarized (by design) connector is equipped with a catcher made in the form of a pin, which, when connecting the parts of the connector, enters the other hole of the tip (with the contact ring) of the other inner conductor parts of the connector. Here, the contact surfaces of the inner conductors do not have spring elements, and to ensure reliable contact, a rather complicated design with a bellows and a compression coil spring is proposed.

 Known simpler unipolar in design, bilateral connectors of the internal conductors of the coaxial lines, which have spring contact elements.

 For example, the recommendations of the International Electrotechnical Commission (Publication 339-2. Rigid coaxial transmission lines and clamp connectors attached to them. Part 2. Detailed specifications, 1988) show drawings showing a double-sided clamp connector in the neck of which an insulator is installed in the form of a washer . Contact spring parts of the connector go into the cavity of the inner conductors of the articulated parts of the hard coaxial lines. Such connectors can be made on metal cutting machines from beryllium bronze rods, which is associated with high labor costs and expensive bronze wastes, especially for use in coaxial lines of large cross sections.

 Known cheaper and technologically advanced in the manufacture of a unipolar connector design in the form of a coupling, into which the cylindrical tips of the internal conductors of the coaxial lines enter the contact device for electrical connections [2] It consists of a hollow thin-walled ring-shaped housing and a contact element of an elastic conductive tape with a die cut in it on both sides in the transverse direction by contact slats, the ends of which are bent radially. The elastic tape is located on the outside of the housing, and the contact lamellas cover its ends with a gap. The ends of the elastic tape are brought together on the body end-to-end mounted on it (in a real design, using a metal bracket, the legs of which are passed in through the combined slots at the ends of the tape and in the body, they are bent and pressed to the body).

 The relative cheapness and manufacturability of the device’s design are due to the use of a tape rather than a bar of beryllium bronze, the possibility of using stamping to form spring elements (lamellas), instead of machining on metal cutting machines, and the possibility of using short pipe sections of appropriate diameters as blanks for the body. An important factor in this case is the absence of a catcher located on the central axis of the body and rigidly connected with it.

 If the casing was made with a diaphragm located in the middle (and it should not be too thin so that a two-way pin-catcher could be installed in it), some technological advantages would be lost: a bar (instead of a pipe) would be required for a blank for the casing, followed by much more complex turning; it would be necessary to increase the length of the case and the device in order to compensate for the thickness of the diaphragm (the cavity of the device, when connected, deals with the tips of the internal conductors on both sides) and to place the fastening elements of the tape so that the instrument can access them.

 The increase in the linear dimensions of the device entails an increase in the size of other elements of the feeder path, which in itself is undesirable. But the absence of a catcher is also a significant drawback of the prototype, since it is a catcher located on the central axis of the device and connected with it that in the simplest way can reliably ensure the alignment of the connected internal conductors and mechanically unload the lamellas of the contact element, thereby protecting them from damage.

 The essence of the invention lies in the fact that a captive catcher is introduced into the known contact device in the form of a double-sided pin with a thin disk in the middle, and the diameter of the disk is slightly larger than the diameter of the circumference of the lumen formed by the bent lamellas of the contact device and less than the inner diameter of its annular body, and the length of the pin is such that at any position of the disk in the cavity of the contact device, the ends of the pin protrude beyond the ends of the housing of the contact device.

 The installation of the catcher in the housing of the contact device with a fixed contact element is carried out due to the elastic deformation of the contact lamellas, which allows you to push through the disk of the catcher. Loss of catcher from the cavity of the contact device is prevented by the springy ends of the contact slats.

 In FIG. 1 shows the proposed contact device, General view; figure 2 contact device, section; in Fig.3 housing with a contact element; figure 4 and 5 of the housing.

 The contact device consists of a thin-walled case of an annular shape 1, a contact element 2 of an elastic conductive tape with contact slats 3.1 and 3.2 cut in it on both sides in the transverse direction, and a captive catcher 4 in the form of a double-sided pin with a thin disk in the middle. The catcher can be prefabricated or as a single part.

 The conductive tape is located on the outside of the housing, and the bent ends of the contact lamellas cover the ends and flanges 5 with a gap 5. The gaps are necessary for the elastic deformation of the contact lamellas when mating with the contacting mating elements. The ends of the tape are brought together end-to-end on the outer side of the casing and secured to it with the help of a bracket 6, the legs of which are passed through the narrow slots 7 and 8 in the tape and the casing and are bent on its inner side. To install the contact element on the housing, slots 9 and bevels 10 are made in it.

 When installing the contact element, the bent ends of the contact lamellas are passed through the slots 9. The bevels 10 facilitate the passage of the bent ends of the lamellas through the slots. After making the contact element, it is rotated relative to the housing so that the slots 7 in the tape and the slots 8 in the housing coincide with each other, and the legs of the bracket 6 are passed through these slots, then bending them to the inner surface of the housing with their ends to each other.

 To complete the assembly, a catcher disk is placed on the end of the case with a fixed contact element and it is pressed through the elastic ends of the contact slats into the cavity of the case. Lamellas, which abut their ends against the plane of the disk, prevent the catcher from falling out of the body. In addition, the ends of the pin protruding beyond the ends of the case do not allow the disk to accidentally turn sideways to the lamellas and slip through them.

 When articulating a contact device with a contacting element (lead-in parts (or tips) of coaxial line conductors), it enters the contact device, touching and somewhat unclenching the elastic bent ends of the spring contact lamellas.

 The shoulders, increasing the strength and rigidity of the body, localize the contact points of the contacting element with spring contact slats and protect them from collapse.

 During operation of the device, the current passes through the points of contact of one contacting element with spring contact slats 3.1, on the outer surface of the tape 2, and then through the spring contact slats 3.2 and the points of contact with another contacting element.

 When connecting two sections of the feeder, in which the inner conductors are fixed by insulators in the outer conductors, the contact device is put on the inner conductor of one of the sections. In this case, the catcher with one of its ends is inserted into the central hole of this inner conductor until the catcher’s disk stops at the end of the inner conductor.

 The other end of the catcher remains free and protrudes beyond the end of the hull. Then, the articulated sections of the feeder are brought together so that the protruding end of the catcher falls into the central hole of the inner conductor of the articulated section, after which the rapprochement is completed. In this case, the contact device is put on the inner conductor, and the catcher will provide a coaxial connection.

 The proposed contact device provides reliable contacting, reduces the size, allows you to reduce the cost of the manufacturing process and increase reliability.

Claims (1)

 A CONTACT DEVICE comprising a thin-walled ring-shaped body and a bilateral contact element made of an elastic conductive tape with cut contact slats installed on its outer surface, the curved ends of which cover the ends of the body, characterized in that a captive catcher is introduced into the cavity of the thin-walled body, made in the form of a double-sided pin with the disk in the middle, and the diameter of the disk is larger than the diameter of the circumference of the lumen formed by bent contact slats, and the length of the double-sided tyrya is such that at any position of the disk in the cavity of the thin-walled body, the ends of the bilateral pin protrude beyond its ends.

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