RU45570U1 - EXPLOSION-PROTECTED CABLE INPUTS BOX - Google Patents

Abstract

The utility model is used in hazardous areas, and protects sources of electrical energy, as well as consumers. The utility model is designed for reliable contact connection of the ends of the cable conductors, and provides protection against short circuit, the utility model captures the armor of cables supplied through elastically deformable seals located directly in the design of cable entries. The explosion-proof installation cable entry box is made in the form of a container 1, in the internal cavity of which relatively conductive joints are mounted a conductive distribution terminal block 2, and a protective earth rail 3, while cable entries 4 are built into the side walls of the container, made in such a way that each cable the input compresses the armored cover of the cable, through the elastically deformable element a sealant, while the complete sealing of the inner cavity of the container is achieved by focusing the outer lids 5, directly onto the mechanical fastenings of the lid and box in the form of latches or bolts through an elastically deformable element, a sealant placed between the container and said lid. (According to the 1st independent claim of the utility model formula).

Description

PURPOSE AND APPLICATION OF A USEFUL MODEL

The utility model relates to devices used in the energy sector, namely to distribution systems for mounting cable ends. The main purpose of the utility model is to increase the level of operation of contact-type connecting systems in places with increased requirements for the level of protection of electrical equipment from possible damage.

At the same time, cable entries made in the form of prefabricated elements of the bushings are used in the design of the claimed box, so that when mounting the bushings to the box with cable entry, pressure is applied to the seals, the configuration of which is determined by the inner diameter of the mentioned bushings and, accordingly, the outer diameter of the armored cover of the supplied cables. The seals are made of elastically deformable material, in the shape of a hollow cylinder with a lateral groove on the outer diameter, which allows to achieve the necessary tightness of the cable entry structure when mounting the box, this greatly contributes to the increase in the efficiency of the claimed utility model as an installation device for conductors cable ends. The description uses the formula of a previously filed application for a utility model of a UNIVERSAL

CABLE INPUT SEALER Application No. 2004110181 incoming No. 011052 with priority dated April 5, 2004. The applicant LLC PKB SPETSMASH, author: Sadreev Igor Mudarisovich.

BACKGROUND

The inability to protect the distribution terminal block of multicore cables in open places, with an explosive atmosphere, has led to the need to create simple and cheap protection systems, electrical equipment - electrical wiring networks.

A known distribution system is an electric switchboard, in which the tightness of the electrical cable distribution system is ensured by the fact that the device is made in the form of a steel box built into a load-bearing wall, to which, by underground laying, a cable chain is connected, the ends of which are fixed directly to electric tracks, the terminals of the latter are connected to electric voltage converting machines.

Such an electric shield is used to ensure the distribution of electricity between consumers, extracted from a superconducting energy storage device in which the main work on energy removal is based on energy removal at the moment the main superconducting circuit is interrupted by the superconducting circuit breaker through a transformer connection with it and differ in that in order to simplify the control process energy is removed by parts, the main superconducting circuit of the drive is shunted by two superconducting jumpers and so that one of them is shunted by the superconducting circuit breaker of the main circuit. The jumpers have a common section of conductivity, used as the primary winding of the transformer, the load is connected to the secondary winding, into the superconducting jumper, which shunts the superconductivity breaker of the main circuit, where a second superconductivity breaker is introduced, while

interruption of the main circuit of the drive and the shunt bridge, containing the second chopper, is performed briefly and alternately with a given frequency.

The system allows reducing the current tenfold in the common area of the bypass jumpers, which, when distributing electric energy between consumers, provides protection against high currents and short circuits leading to a fire hazardous situation in high-risk areas.

(Description of the invention to the patent "Method for the removal of energy from the top of the conducting energy storage" 1 claim 2004043 C 1). "

MOST CLOSE SOLUTION

The closest solution to the claimed box is the previously developed utility model of the EXPLOSION-PROTECTED HEAT SENSOR BOX No. 2004111154, incoming No. 012180, with priority dated April 13, 2004. The applicant LLC PKB SPETSMASH, author: Sadreev Igor Mudarisovich. The previously declared box is characterized in that the explosion-proof box of the thermal sensor is made, preferably in the form of a cylindrical glass with a movable element, a lid built into the inner cavity of the glass, where a dielectric plate equipped with conductive contact elements is laid on the inner side of the glass bottom or the lid, while the box it is also equipped with two cable entries built into the through holes of the box wall on the movable joints in such a way that by placing the cable For cable glands, a sealed protection of the cup cavity is established by crimping the cable with elastic elements located inside the cable glands, and in order to additionally seal the internal cavity of the case, cup, the movable cover element is interfaced with the cup through the seal element, which is designed to provide complete thermal protection sensor

embedded in the cavity of the box, with the condition that the placement of the thermal sensor in the cavity of the box is determined depending on the place of attachment of the said box to any profile of the supporting structure.

DESCRIPTION OF A USEFUL MODEL

Explosion-proof mounting box for cable entries see fig. No. 1 is made in the form of a container 1, with a lid 5, which, through movable fasteners through the sealant, mates directly with the box body, in the side walls, which have cable entries 4 equipped with elastically deformable seals. At the same time, in the cavity of the container, on the movable clamps, a terminal block 2 is attached, and a protective grounding rail connected to the neutral conductors, cable cores and, accordingly, to the load of the consumer of electric energy (the connection of cables to the box is not indicated in the diagram). The explosion-proof installation cable entry box is attached to any profile of the supporting structure and provides cables to the terminal block, which allows the installation of power systems - electrical energy distribution networks between consumers in the shortest possible time, directly in areas with high explosive atmospheres. The box is a compact design and reliably performs connections, branching of cable wiring laid both outside and directly in the building of industrial buildings. In order to prevent internal fire during possible electrical power surges in the networks, the declared cable entry box mounting explosion-proof in the inner cavity of the container, in parallel with the terminal block is equipped with a protective grounding rail.

Claims (1)

The cable entry box is explosion-proof mounting, made in the form of a sealed container with a removable cover, where a protective grounding rail and a distributive conductive contact block are installed in the inner cavity of the container relative to the movable fasteners, while cable entries are built into the side walls of the container, each of which is made of four elements of two movable bushings mechanically connected, where between said bushings there is a space for a thrust washer and elastically deform seal, made in the form of a hollow cylinder with an external groove, while the seal on the one hand faces the inner cavity to the armored cover of the cable, and on the other hand into the inner cavity of the sleeve and abuts with its ends both in the thrust washer and in the protrusion of the sleeve, through which a force effect is created on the armor cover by changing the internal space of the sleeve in which the elastically deformable seal is placed.