RU2025855C1 - Cable box - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: cable box has housing of sleeve type which upper part is fabricated with capability of break of sealing. Internal space of housing locates components of sealing compound of cold hardening insulated from each other. These components are liquid hardener and liquid rubber in which capacity oil-extended rubber of dien type with end isocyanate groups is used. Sealing compound 100-400 parts by mass of rubber per one part of hardener. EFFECT: widened operational capabilities. 2 dwg, 1 tbl

Description

 The invention relates to cable technology and can be used in the construction and operation of cable lines having a plastic sheath and insulation of conductors, including in an explosive atmosphere.

 The known cable sleeve, adopted for the prototype, contains a closed cup-type housing made of polyethylene, in which are placed two isolated from each other components of a liquid sealing compound of cold curing. Both components can be stored separately until they are mixed with each other to carry out a chemical reaction. Liquid epoxy rubber (based on liquid rubber) and liquid hardener are used as components placed in isolation in the coupling body, which react with each other and solidify in air without additional heating.

 The aim of the invention is to increase the manufacturability of the manufacture of the coupling by creating a fast-curing cold-curing compound for splicing cable elements having high adhesion to the coupling body while maintaining the dielectric characteristics.

 The goal is achieved due to the fact that in a cable sleeve designed for cables with a plastic sheath containing a closed cup-type housing made of polyethylene, the upper part of which is made with the possibility of leakage, in the inner cavity of which are insulated components of the cold-sealant insulation compound, namely liquid hardener and liquid rubber, it is proposed to use oil-filled rubber of diene nature with conc Vym isocyanate containing 100-400 weight. hours for 1 wt. including hardener.

 In FIG. 1 shows the container coupling in the delivery state (before installation), which is a housing 1 in the form of a polyethylene cup equipped with a polyethylene cover 2 with nozzles for cable entry and fixing. In the upper part of the glass there is a safety pad 3 made of plastic or rubber, sealed with a cover 2. Inside the housing 1 are polyethylene capsules with a hardener 4 and a filler 5, isolated from each other.

 In FIG. 2 shows the mounted coupling, where 1 is the coupling body, 2 is the polyethylene cover, 6 is the cable sheath, 7 is the compound, 8 is the screen wire, 9 is the splice of the cable veins.

 The mounting technology provides for the following operations: removing the cover 2, cutting off the nozzles at a level that provides a tight (without gap) connection to the cable sheath 6, introducing the mounted cables 6 into the holes in the cover 2 and sliding the cover 2 onto the cables 6 in the usual way (see the Instructions for installing cables with bituminous compounds on the STS lines, M .: Svyaz, 1977), removing the sealing gasket 3 (see Fig. 1), breaking with a sharp object, such as a metal or plastic one, with the pointed end of the tightness of the plastic capsules 4 and 5 with nents compound and mixing them in the sleeve (or in an auxiliary vessel, subsequently poured into the box), the introduction of splice 9 cable cores 6 in the sleeve filled with compound 7, thrusting and locking the lid 2 on the body 1 of the glass.

 The mounted coupling, located vertically, is mounted in the prescribed manner, depending on the type of cabling. The compound polymerization process, which continues after the coupling is fixed, does not affect the operational parameters of the mounted cable line.

 The proposed clutch design in FIG. 1 is made with a removable cover, which is convenient for the fitter's work, as well as for fixing the cable splice and preserving the pouring mass. However, this is not necessary. The coupling can be made in the factory in the form of a container container, filled with the indicated components, isolated from each other (in volume components of at least 2/3 of the volume of the coupling housing) and sealed.

 The table shows the operational characteristics of the sealing compounds suitable for pouring the cup couplings of communication cables and containing liquid components in the form of casting mass and hardener in a ratio of 100-400 wt. including aggregate for 1 wt. including hardener. The table shows that abroad the proposed ratios of the components of the properties of the composition are deteriorating.

 As an example of a sealing compound, a casting mass can be used, which is a solution of a copolymer of butadiene with piperylene with a content of 2% isocyanate groups in an industrial oil of type I-8A and a hardener, the ratios between which are given in the table. Both components of the proposed substance are sufficiently liquid and mixed for 1 min, after which a chemical reaction begins.

The sealing compound proposed for use has good filling properties. The process of filling the couplings is carried out by gravity. The total time of filling the compound into the coupling, introducing the splice and sealing the coupling by sliding the cover is reduced to a minimum and is no more than 3 minutes at normal air temperature, for example t = 20 ^o C, and upon reaching sufficient skill can be reduced by mixing the components of the compound directly in the coupling body (plastic cup). It does not require the use of additional devices and energy sources, such as a gas burner, blowtorch or electric heaters.

 The proposed coupling has sufficient resistance to climatic influences and maintains high operational parameters after exposure to moisture and alternating temperatures.

 Due to the design features of the container coupling, which involves placing metered portions of the components of the sealing compound isolated from one another directly in the coupling housing in the delivery state, the probability of installation errors is reduced, the quality of which is ultimately determined by the reliability and durability of cable communication lines.

Claims (1)

 CABLE CONNECTOR, designed for cables with a plastic sheath, containing a closed cup-type housing made of polyethylene, the upper part of which is made with the possibility of leakage, in the internal cavity of which are insulated components of the cold-hardening insulation compound, namely, a liquid hardener and liquid rubber characterized in that oil-filled rubber of diene nature with terminal isocyanate groups is used as liquid rubber containing 100 to 400 parts by weight per 1 part by weight hardener.

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