RU2074467C1 - Coaxial cable-to-electric-contact joint assembly - Google Patents

Abstract

FIELD: connection of coaxial cables to radio equipment. SUBSTANCE: joint assembly has electric contact member in the form of spiral spring with central hole interacting on one end with external conductor of coaxial cable through flexible bush, and contact member placed inside this hole, connected to internal conductor of coaxial cable, and interacting with other end of spring through locking insulating bush provided with radial slot; radial dimensions of contact members exceed those of coaxial cable internal and external conductors; radial dimensions of end turns of spring do not exceed those of turns between them. EFFECT: improved reliability of joint. 3 cl, 2 dwg

Description

 The invention relates to electrical engineering and can be used, in particular, for connecting coaxial cables to electronic equipment.

 Known electrical contact, made in the form of a twisted spring with an end contact element, made in one piece with the spring (and.with. N 723703, class N 01 R 13/02, 25.03.80 g).

 The disadvantage of this device is the limited use, design complexity, as well as low reliability of the device.

 Also known is a knot for connecting a coaxial cable with elements of an electric circuit (US Pat. France N 2432223, class H 01 R 4/30, 11/20, 15/08).

 The device comprises a housing located in it and made with a Central hole of the contact element interacting with the outer conductor of the coaxial cable, and a contact element located in the specified hole and interacting with the inner conductor of the coaxial cable.

 However, this connection is complex and not reliable enough.

 Closest to the proposed, is the node connecting the coaxial cable to the electrical connector (A.S. N 1070633, CL H 01 R 17/04, 01/30/84).

 The device comprises a housing located in it and made with a Central hole of the contact element interacting with the outer conductor of the coaxial cable, and a spring-loaded contact element located in the specified hole and interacting with the inner conductor of the coaxial cable, while the radial dimensions of the contact elements exceed the radial dimensions of the inner and outer coaxial cable conductors.

 The disadvantages of this device are the design complexity, low reliability when it is used in conditions of increased vibration, especially in the presence of bending loads at the junction of the cable and the connector, as well as limited functionality.

 The objective of the invention is to simplify the design, increase the reliability of the device while expanding its technological and functional capabilities.

 The problem is solved as follows.

 In the connection node of the coaxial cable with an electrical contact containing an electrical contact element made with a Central hole interacting with the outer conductor of the coaxial cable and located in the specified hole, the contact element interacting with the inner conductor of the coaxial cable, while the radial dimensions of the contact elements exceed the radial dimensions internal and external coaxial cable conductors, contact element interacting with an external coa conductor sial cable, made in the form of a spring connected by one end through an elastic sleeve with a coaxial cable, and the other end, through a fixing dielectric sleeve, with a contact element connected to the inner conductor of the coaxial cable, and the radial dimensions of the end coils of the spring do not exceed the radial dimensions of the coils between them .

 In addition, the elastic sleeve is made in the form of a truncated cone, the larger base of which is turned inside the central hole of the contact element interacting with the external conductor of the coaxial cable.

 The fixing dielectric sleeve is made with a radial groove adjacent to the outer end radial protrusion.

 The contact element interacting with the external conductor of the coaxial cable, made in the form of a spring connected by one end to the coaxial cable, and the other end through the fixing dielectric sleeve with the contact element connected to the inner conductor of the coaxial cable, simultaneously performs the role of the body of the connection unit, which simplifies the device , reduces its dimensions, weight, in addition, the spring has the property to bend in the direction of the longitudinal axis, which increases the reliability and wear resistance of the joint tions in the presence of loads on the bending and twisting of the cable away from excessive vibration and shaking.

 The radial dimensions of the end coils of the spring do not exceed the radial dimensions of the coils between them, which allows one to reliably fix the insulating fixing sleeve in it with the internal conductor of the coaxial cable, on the other hand, to ensure reliable mechanical and electrical contact with the external conductor of the coaxial cable. Along with this, the front end part of the spring provides unhindered entry into the contact socket, and then the contact part of the spring ensures its reliable position in the contact socket, electrical and mechanical contact while fixing the electrical contact pair.

 An elastic sleeve made in the form of a truncated cone, the larger base of which is turned inside the central hole of the contact element interacting with the external conductor of the coaxial cable, provides reliable multipoint electrical and mechanical contact of the external cable conductor with the contact element without soldering.

 The fixing dielectric sleeve, made with a radial groove adjacent to the outer end radial protrusion, is both an insulator and a stop for the contact element, preventing its displacement relative to the longitudinal axis.

 In FIG. 1 shows a connection node, a longitudinal section; in FIG. 2 - interaction of the connection node with the contact socket.

 The device comprises a contact element 1, connected at one end with the contact element 2 through a fixing dielectric sleeve 3, the other end through an elastic conical sleeve 4 with an external conductor screen 5 of the coaxial cable 6, the inner conductor 7 of which is connected to the electrical contact element 2.

 The contact element 1, which interacts at one end with the external conductor 5 of the coaxial cable 6, as well as with the contact element 2, is made in the form of a coil spring having a tapered inlet part from the ends, which then passes into a cylindrical-contact part, while the end coils of round shape have radial dimensions smaller than the radii of the turns that follow to the center. The elastic sleeve 4 is made in the form of a truncated cone and is located on the cable 6 so that the larger base faces the inside of the central hole of the element 1, the outer conductor (screen) 5 of the cable 6 is evenly laid over the sleeve. Thus, the constructive interaction of the end face of the element 1 with the elastic sleeve 4 provides reliable multi-point electrical and mechanical contact of the element 1 with the external conductor of the coaxial cable 6.

 The other end of the contact element 1 through the fixing dielectric sleeve 3, made with a radial groove adjacent to the outer radial protrusion, interacts with the contact element 2, while the fixing of the contact element 1 is provided by the radial groove and the protrusion in the sleeve 3, which is an emphasis for it, This forms a strong mechanical connection of the coaxial cable with the electrical contact. The inner conductor 7 is laid with slack in the hole of the contact element 1, thereby increasing the reliability of the contact connection in the presence of bending deformations affecting the device.

 In practice, the contact element was made in the form of a spring having 3 turns of the same radius in the end (inlet) part, 5 turns in the conical transitional part and 5 turns in the central contact part having the maximum radial dimensions. About 10 turns contain the tail of the spring.

 Connection to the electric circuit is carried out through elements 1 and 2 of the device by ensuring their interaction with elements 8 and 9 of the contact socket (Fig. 2).

 The assembly assembly is inserted into the contact socket to its guiding elements 8 and 9, and while twisting the spring in the direction of winding the coils, it is fully seated in the contact socket. In this case, when the spring is twisted, the radial size of the central turns decreases to the radial size of the element 9 of the contact part, which ensures a free landing of the connection node until it stops in the socket. After removing the force, the spring is untwisted, trying to restore its previous shape and size, and is fixed in socket 9, thereby providing reliable electrical and mechanical contact.

 Disconnect the connectors in the same sequence as the inclusion.

 In practice, connection nodes were made for connection to the antenna sockets of car receivers. These devices in operating conditions have shown high reliability when used on vehicles.

Claims (3)

 1. The connection node of the coaxial cable with an electrical contact, containing an electrical contact element made with a Central hole interacting with the outer conductor of the coaxial cable, and located in the specified hole contact element interacting with the inner conductor of the coaxial cable, while the radial dimensions of the contact elements exceed the radial the dimensions of the internal and external conductors of the coaxial cable, characterized in that the contact element interacting with The external conductor of the coaxial cable is made in the form of a coiled spring connected by one end through an elastic sleeve with a coaxial cable, and by the other end through a fixing dielectric sleeve with a contact element connected to the inner conductor of the coaxial cable, and the radial dimensions of the end coils of the spring do not exceed the radial dimensions of the coils between them.  2. The node according to claim 1, characterized in that the elastic sleeve is made in the form of a truncated cone, the larger base of which is turned into the inside of the central hole of the contact element interacting with the external conductor of the coaxial cable.  3. The node according to claim 1, characterized in that the fixing dielectric sleeve is made with a radial groove adjacent to the external end radial protrusion.

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