SU1078524A1 - Leadin explosion-proof mine electrical equipment - Google Patents

Description

2. The electrical input according to claim 1, characterized in that, in order to increase reliability, when performing

wires with cores in the holes of the disk install metal bushings filled with solder.

FIELD OF THE INVENTION The invention relates to electrical engineering, in particular to inputs to explosion-proof electrical equipment.

A small-sized inlet for explosion-proof apparatuses is known, which consists of a casing and a housing made in the form of removable concentric cylinders, which, when the cable is installed, are shifted axially relative to each other and clamp the sealing ring. When the cable is connected, the cylindrical casing moves along the cable and opens access to the bushing through the housing windows, and when the bolts are tightened, the casing is pressed to the device and, resting against the rubber ring, seals the cable C13.

However, this device is characterized by complexity of the design and insufficient reliability, since when loosening the screws securing the casing to the apparatus case, the explosion safety of the cable clamp along the sealing ring is impaired.

Closest to the proposed by the technical essence and the achieved effect of the electrical input to the explosion-proof mine electrical equipment, comprising a housing, a sealing element of the cable located therein, a pushing element and a sealed section of the isolated wires of the cable having an insulated section filled with a sealing compound G23,

However, the known device does not provide sufficient reliability since the pressure element in it to interact with the cable sealing element is located on the outside and may be exposed to accidental mechanical effects in the form of impacts of the collapsed rock mass and the like. on him by outsiders.

The purpose of the invention is to increase reliability.

The goal is achieved by the fact that the electrical input in explosion. A hazardous mine electrical equipment, comprising a housing, a cable sealing element located therein, a pressure element and a unit for sealing insulated wires, cables, a section with detached insulation, filled with a sealing compound, provided with a sleeve,

the surface of which has two sections of different diameters, the sealing assembly is made in the form of two sealing rings with holes for the passage of wires, on the faces facing each other of which are recesses forming the cavity in which the disk with holes is placed, in each of which the section of the corresponding wire with isolation, the sleeve is installed with the possibility of axial movement between the sealing element of the Kabbl and one of the sealing rings of the sealing assembly, while the pressure element interacts with a second sealing ring.

In the case of using a cable with stranded wires, metal bushings filled with solder can be installed in the holes of the disk.

The drawing shows the device a General view.

The electrical input to the explosion-proof mine electrical equipment comprises a housing 1 in which a disk 2 is installed with openings for wires in which metal bushings 3 are installed. The disk 2 is placed in a cavity formed by recesses made on facing each other surfaces of sealing rings 4 , from the outer surfaces of which are located the pressure washers 5, one of which through the sleeve b, having an outer surface with two sections of different diameters and installed with the possibility of axial movement, interaction a sealing member 7 with the cable 8. The second pressure washer transfers the pressure from the pressing member 9 (the nut). When installing the cable 8 on it install the housing 1, then the sealing element 7 and the sleeve b. The cable is disconnected and, at a certain length, the cable is removed from the cores of the insulation equal to the width of disk 2. The sections of the core with the insulation removed are soldered. After that, one of the pressure washers 5 and one sealing ring 4 are put on the cable cores. The cable cores are pulled through the bushings 3 of the disk 2 until they mate with strips of insulation of the core and sleeve 3. Free

the space between the uninsulated and the sleeve is soldered using the soldering method. Next, install the second sealing ring 4 and the pressure washer 5. The sealing element 7 assembled in this way, the sleeve 6, the pressure washers 5, the sealing rings 4 and the disk 2 with soldered wires are installed in the bore of the housing 1 and clamped with a nut 9 The electric input is ready for installation, for example, into a hardware chamber with a microgenerator of a flameproof enclosure.

With such an insertion, the cable 8 itself, the cable cores, are lost in the bushes 3 of the disk 2 by means of sealing rings 4 and 7, the pressure washers 5 of the bushes 6, are clamped with one nut 9. Moreover, the nut 9 is in the hardware chamber and is not subject to random mechanical effects in the form of blows from a collapsed mountain, mass, etc., as well, the possibility of being affected by an emergency key by unauthorized persons is also excluded.

There are no non-insulated structural elements under voltage in the input chamber, the roll of which performs the cavity of the two-stage sleeve:

In case of emergency, explosion of the gas mixture in the hardware chamber, the cable and cable cores below the sleeves 3 of the disk 2 do not experience axial force from the explosion pressure due to the total

sealing by means of rings and cable cores; on the contrary, they receive additional radial force, which prevents their displacement from the electrical input. This is achieved by heme

that the pressure of the explosion of the gas mixture acts on the pressure washer 5 from the hardware chamber side, the elastic sealing rings 4 are compressed, thereby compacting the cable cores, and the second pressure washer acts on the two-step sleeve 6, lastly, moving along the bore of the housing 1, affects { O-ring 7, which clamps the cable even more. KROP. Moreover, both the soldering of the cable cores and the cable core clips and the cable itself prevent the liquid from moving along the cable. The use of soldered cable cores eliminates the effect of contact transitions on the measuring circuit.

Thus, the input reliability is improved.

Claims (2)

: 1. ELECTRIC DRIVING IN EXPLOSION-SAFE MINING ELECTRICAL EQUIPMENT, comprising a housing, a cable sealing element located therein, a pressure element and a sealing unit of insulated cable wires having a section with removed insulation, filled with a sealing composition, characterized in that, in order to increase reliability, it equipped with a sleeve, the outer surface of which has two sections of different diameters, the sealing unit is made in the form of two o-rings with holes for the passage of wires, facing each other along The surfaces of which have recesses forming a cavity in which a disk with holes is placed, in each of which there is a section of the corresponding wire with stripped insulation, the sleeve is mounted with the possibility of axial movement between the cable sealing element and one of the sealing rings of the sealing unit, while the pressure element interacts with the second sealing ring. 2. Electric input according to π. 1, due to the fact that, in order to increase reliability, when making stranded wires in the holes of the disc, metal sleeves filled with solder are installed.