SU1089630A1 - Cable communication line - Google Patents

Abstract

CABLE COMMUNICATION LINE, containing cable with mineral insulation, current-carrying residential, internal and external sheaths and cable connector, comprising a housing with mineral aggregate, characterized in that, in order to increase the operational parameters of the line, the cable connector housing is designed as a spigot and two hollow ceramic insulators, each of the ends of which are hermetically connected to the metal sleeve, while one of the bushings of the first insulator is hermetically connected to the outer metal sheath of the cable, The shaft is hermetically connected to one of the sleeves of the second insulator and the inner metal sheath of the cable, the other sleeve of the second insulator is tightly connected to the pipe and the current-carrying cable core, the internal cavities of the cable connector housing and the cable are filled with an inert gas or L .

Description

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35 Z The invention relates to the field of electrical engineering and can be used in communication lines made with the help of cables based on magnesian insulation, operating under the influence of neutron flux under conditions of high humidity, pressure and varying temperature. A hermetic heating cable is known that contains a cylindrical jacket filled with an elastic deformable material, rubber, or polyethylene, forming a tight insulating joint between the ends of the xikukh and cable. Inside the casing is also placed the heating element M. A disadvantage of the known hermetic heating cable is a change in the insulation resistance of the organic insulating material of an additional protective casing under the influence of the neutron flux. In addition, the presence of air remaining in the casing oxidizes the environment and destroys the current-carrying elements, which become inoperable under the influence of the neutron flux. Closest to the invention is a cable line containing a cable connector with mineral aggregate, a cylindrical body with a slot in which the ends of the cables are placed. Through the slot, the inner volume of the housing is filled with mineral insulating powder filler. The gun is fitted with a cover covering the gap, and the ends of the cover are pressed against the cable jacket, ensuring the tightness of the connection zj. However, the known device is suitable for transmitting relatively short-duration signals (on the order of one or more milliamperes), since the structure of the known device cannot provide constant insulation resistance of cables due to the presence of moisture in the air remaining both in the internal cavity of the cable and in the mineral itself, it is filled in during the assembly of the device, its operation under the conditions of the effect of the neutron flux and temperature difference, and the presence of 02 and CO in the air. In addition, in the known device, the insulation resistance of the ka itself is white and the insulation resistance of the mineral filler of the casing can be equal only if the mineral filler of the same production batch is used and its packing density is the same, which is almost impossible, since the insulation resistance of these fillers is usually varied by several decimals; The air containing Og and CO, which remains in the space between the powder particles, when exposed to neutron flux and high temperatures, causes oxidation of the current-carrying core of the cable. All this leads to a change in the resistance of both the insulation of the cable and the current-carrying core, which makes it impossible to transmit 2 to 14 low current signals of the order of 10 to 10, which is necessary to control the neutron flux of the control system and to protect the nuclear reactor of the nuclear power plant. During vibration and mechanical loads, the particles of the mineral filler filling the powder housing are mixed, which leads to additional mechanical loads on the cable's structural elements and may lead to the breaking of the weakest of them (current-carrying conductor). The purpose of the invention is to increase the operational parameters of the line when exposed to neutron flux under conditions of high humidity, pressure and varying temperature. This goal is achieved by the fact that in a cable communication line containing a cable with mineral insulation, a current-carrying conductor, an inner and outer jacket, and a cable connector comprising a housing with mineral aggregate, the housing of the cable connector is made in the form of a spigot and two hollow ceramic insulators each end of which is hermetically connected to a metal sleeve, while one of the sleeves of the first insulator is tightly connected to the outer metal sheath of the cable, the other is tightly connected to one of the ulok second insulator and the inner metallic sheath of the cable, another second insulator sleeve is sealingly connected with a nozzle and a conductive cable core, internal

the cavities of the housing and the cable are filled with inert gas or their mixture and are interconnected by channels.

The drawing shows a cable line, a longitudinal section.

The line contains outer 1 and inner 2 metal sheaths and current-carrying conductor 3 cables insulated from each other by mineral insulation.

The ends of the cable are placed in a casing consisting of two ceramic insulators 4 and 5 and pipe 6.

The metal sleeve 7 of the ceramic insulator 4 is sealed to the cable outer sheath t by soldering or welding. The metal sleeve 8 of the ceramic insulator 4 is hermetically connected to the inside of the metal sheath 2 cable and the metal sleeve 9 of the ceramic insulator 5.

The second metal sleeve 10 of the ceramic insulator 5 is hermetically connected to the pipe 6 and the current-carrying conductor 3 cable.

In the metal bushings 8 and 10 are made channels 11 and 12.

Through pipe 6 and channels 11 and 1, air is pumped out of the internal cavities of the casing and cable and filled with an inert gas or a mixture of inert gases, after which the hole in pipe 6 is sealed by welding. The body is sealed in the form of ceramic insulators interconnected and gives the possibility, on the one hand, to make a reliable connection of the outer metallic sheath of the cable with the inner metallic sheath and current-carrying core, and, on the other hand, to produce evacuation and filling are inert internal gas volume of the cable and

the housing, which, firstly, protects the current-carrying core of the cable from oxidative processes when exposed to neutron flux, pressure and changing temperature, and, secondly, ensures the constant insulation resistance of the cable, which is a necessary parameter of the communication line detection units that have low-current signals at the output.

In addition, the proposed cable design is characterized by ease of installation in the conditions of the workshop using standard vacuum equipment.

Claims (1)

A CABLE LINK containing a cable with mineral insulation, live conductive, internal and external sheaths and a cable connector containing a housing with mineral filler, characterized in that, in order to increase the operational parameters of the line, the cable connector housing is made in the form of a pipe and two hollow ceramic insulators, each end of which is hermetically connected to a metal sleeve, while one of the bushings of the first insulator is hermetically connected to the outer metal sheath of the cable, the other hermetically connected to one of the bushings of the second insulator and the inner metal sheath of the cable, the other sleeve of the second insulator is hermetically connected to the pipe and the current-carrying residential cable, the internal cavities of the cable connector housing and cable G are filled with inert gas or their mixture and are interconnected by channels.