RU2011246C1 - Device for lead-in of external aerial - Google Patents

Abstract

FIELD: radio engineering. SUBSTANCE: device has through insulator, current conducting element placed inside insulator by means of flexible element without contact to insulator. Current conducting element has flexible cable at place of its exit from inner space of through insulator. Inside surface of insulator and outside surface of conducting element, which is inside through insulator, are covered by heat-insulating layer of dielectric material. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to electrical engineering, in particular to the radio equipment of vehicles.

 A device for inputting an external antenna is known, comprising a bushing fixed to the outer wall, a conductive element installed inside it, and the conductive element is passed through the hole of the insulator and mounted in it non-contact with the formation of an annular gap.

 A disadvantage of the known design is that the end of the antenna is rigidly, fixedly fastened to the insulator by means of a rigid spherical fitting, which can lead to breakdown of the antenna and disturbance of electrical contacts, which means a deterioration in radio communication.

 The purpose of the invention is to improve ease of use and reliability of electrical contact.

 This is achieved by the fact that in the known input device of the external antenna containing the bushing, the conductive element mounted inside the bushing is contactless with the formation of an annular gap, and the conductive element is bonded to the output end of the insulator by means of a support element, the support element is made elastic and connected to the conductive element and the output end of the bushing is hermetically sealed, the conductive element at the outlet of the support element is provided with a bell, and the end of the conductive element at the outlet from the inner cavity of the bushing is provided with a flexible cable, the insulator from the inside and the outer portion of the conductive member, located inside the bushing, coated insulating dielectric layer.

 The drawing shows the proposed device, General view.

 The input device of the external antenna 1 inside the structure contains a bushing insulator 2 fixed to the outer wall, a conductive element 3 mounted inside the bushing 4. The conductive element is fastened to the output end 5 of the insulator by means of a support element 6. The support element is made elastic and connected to the conductive element and the output the end of the bushing is hermetically sealed. The conductive element at the outlet of the support element is provided with a socket 7, and the end 8 of the conductive element at the outlet of the internal cavity of the bushing is provided with a flexible cable 9, the insulator inside and the outer part 10 of the conductive element located inside the bushing, are covered with a heat insulating layer of the dielectric 11. The insulator 2 is placed on the outer wall 12 of the structure, premises or compartment of the vehicle and is fixed by means of a nut 13 made of a dielectric, for example slag metal, with which The swarm ensures the installation of the insulator coaxially with the conductive element. The inner end 8 of the antenna is fastened to the cable 9 by means of a contact assembly 14 located inside the structure, made, for example, in the form of a bolt, nut, etc., which ensures ease of installation and stability of electrical contact.

 The elastic support element is made, for example, in the form of a conical corrugated pipe, providing freedom of movement of the antenna.

 The flexible cable 9 is made, for example, in the form of a spiral, loop-like sagging, etc., not interfering with the displacements of the lower end of the antenna.

 When moving the design of the antenna 1, for example, as a result of vibration of the structure or aerodynamic influences, the conductive element 3 is freely displaced relative to the insulator 2 within the annular gap 4 due to the elasticity of the support element 6 installed at the inlet of the insulator and the flexibility of the cable 9 at the outlet of the insulator 2 that provides reliable stable electrical contact. The tight connection of the ends of the support element 6 with the conductive element 3 and the insulator 2 prevents the penetration of atmospheric moisture into the input and the possibility of a short circuit. The bell 7, providing additional protection from moisture in the insulator 2, prevents corona discharge between the antenna and the wall of the structure. The layers of the dielectric 11 thermally insulate the cold surfaces of the conductive element 3 and insulator 2, sharply reducing the likelihood of condensation falling out on these surfaces, drops of which in the extreme case of its formation freely flow down through the gap 4, which ensures the stability of electrical characteristics and ease of operation without additional maintenance. If necessary, warm air can be supplied to the gap 4 to prevent condensation. (56) U.S. Patent No. 4,117,255, cl. H 01, 17/26, 1977.

Claims (1)

 OUTDOOR ANTENNA INPUT DEVICE, comprising a bushing insulator, a conductive element mounted inside the bushing without contact with the formation of an annular gap, and the conductive element is bonded to the output end of the insulator by means of a support element, characterized in that, in order to improve ease of use and reliability of electrical contact, the support element is made elastic and connected to the conductive element and the output end of the bushing insulated, the conductive element at the output de of the support member is provided with a socket, and the end conductive element at the outlet from the inner cavity of the bushing is provided with a flexible cable, the insulator from the inside and the outside of the conductive member disposed within the bushing, coated insulating dielectric layer.

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