RU57519U1 - CABLE CONNECTOR - Google Patents

Abstract

The utility model relates to the field of electrical engineering, namely to power supply systems, and can be used to connect power cables in underground mines of coal mines and mining enterprises, as well as when conducting opencast mining. The technical result of the utility model is to increase the electrical strength of the connector and simplify its design. A cable connector is proposed comprising a housing 1, cable entries 2, 3 with sealing 11, 12 and clamping rings 13, 14, clamps 23 of grounding conductors and blocking of control circuits. The essence of the utility model is that the connector housing 1 is integral and made of shockproof plastic compound. An insulator 17 with channels for main and auxiliary cores and screw clamps is placed inside the housing. On the side of one of the cable entries, a push-button locking device 24 is installed inside the housing, which is pressed against the housing when the connector is pulled together. Cable entries are equipped with coupling bolts 10 located on the outside of the housing. Compared with the plug type connectors, the proposed cable connector with an integral housing has a simple design, small dimensions and weight, provides ease of use, high electrical strength and meets the requirements of explosion protection of mine equipment. 2 cpf, 1 ill.

Description

The utility model relates to the field of electrical engineering, namely to power supply systems, and can be used to connect power cables in underground workings and on the surface of coal and mining enterprises in a temperate and cold climate.

Known linear plug connectors for connecting and disconnecting flexible cables laid in the mine workings of mines hazardous in gas or dust (V.P. Morozov. Handbook of power supply of coal mines. - M .: Nedra, 1975. - P.154) .

The connector housing contains a plug and a socket with a plug connection of the clamps of the cable cores. The connectors are electrically blocked; they are disconnected in the absence of current in the main contact circuit.

The main disadvantage of the known connectors is the lack of electrical safety, especially at high voltage and amperage.

Known high voltage cable connector type RSh 6 × 300 for a voltage of 6 kV and a rated current of 300 A, designed to connect two segments of a flexible cable of the KGE brand (V.A. Golubev, A.I. Lotov and P.P. Miroshkin. New electrical equipment for power supply quarries. Handbook. - M .: Nedra, 1992. - S.283-286). The connector contains a housing, divided into a plug and socket, made of aluminum alloys, basic contact systems, grounding and control, insulation discs and slides on which the connector is mounted. The connector plug has a union nut that allows it to be connected and disconnected from the outlet. The design of the connector provides a specific sequence.

contact opening: first the contacts of the control circuits, then the contacts of the main circuits and the short circuit.

Connectors of the RSh type are plug-in and they are characterized by all the disadvantages of such connectors: large size and weight, difficulty in operation, etc. In addition, in the known connectors, the housing is made of metal alloys, which significantly reduces its electric strength and leads to a complication of the design.

The technical result of the utility model is to increase the electrical strength of the connector and simplify its design.

A cable connector is proposed comprising a housing, cable entries with sealing and clamping rings, grounding conductor clamps, and a control circuit lock.

A difference of the utility model is that the connector housing is made one-piece and made of impact-resistant plastic compound, and an insulator with channels for main and auxiliary cores and screw clamps is placed inside it, and the housing is mounted with the possibility of longitudinal movement relative to the insulator.

The difference is also that a push-button locking device is installed on one of the cable entry sockets, to which control cores are connected, and the specified push-button device is installed with the possibility of preloading relative to the connector body using a cable entry.

The cable entries of the connector are provided with tie bolts located outside the housing.

The cable connector of the linear type with an integral housing, unlike the connectors of the plug type, is more reliable and convenient in operation, since it does not contain plugs and sockets, the combination of which, especially with a large number of cores of connected cable segments, presents a certain difficulty. Typically, such connectors have a short life and are unreliable in operation.

The traditional manufacture of the housing of cable connectors from metal (aluminum and other) alloys reduces their electrical

strength, especially when used in high voltage networks. The manufacture of a case from shockproof plastic compound simplifies the solution of this problem and does not require the use of additional insulating coatings. The use of an insulator cable with channels and screw clamps and a movable housing for connecting the cores simplifies the processes of connecting and disconnecting cable segments and ensures the safety of work due to the presence of a lock from attempts to open the connector under voltage.

The essence of the utility model is illustrated by an example of its implementation and the drawing, where in FIG. shows a general view of the cable connector.

The cable connector comprises a cylindrical housing 1 made of shockproof plastic compound, for example, PSK-5 RM. Cable entries 2 and 3 are installed from the ends of the case, through which cable segments 4 and 5 are inserted into the connector. To secure the segments from pulling out, the cable entries have clamping brackets 6, 7 with screws 8, 9.

In the working position, the cable entries are connected by tie bolts 10 located outside the housing 1, and the housing is fixed by the bushings. The sealing of cable entries is carried out using sealing rings 11 and 12, mounted on the cable segments with clamping rings 13 and 14, available on the cable entries, and sockets 15 and 16, mounted on the housing 1 and also ensuring the tightness of the connector. Inside the cable connector housing is placed an insulator 17 having channels 18, 19, and 20 for connecting and passing wires of cable segments.

Channels 18 are intended for main conductors, and they have screw clamps 21, channels 19 are for auxiliary conductors (control wires, etc.), and they have screw clamps 22, and channels 20 are for ground conductors. The channels can be equipped with tubes of electrically conductive material (brass, copper), in which the cores of the cable segments are placed. The connection of grounding conductors is carried out using grounding

clamp 23, and the control cores - on the push-button locking device 24, mounted on the sockets.

The push-button locking device is installed with the possibility of preloading relative to the stop 25, mounted on the housing. Preloading is done by tightening the connector with screws 10.

The following is the assembly and disassembly procedure for the cable connector.

The cable entry 2 with the housing 1 and the sealing ring 11 is placed on the length of the cable 4, and the cable entry 3 with the sealing ring 12 is placed on the length of the cable 5, after which the strands are cut using the accepted technology. The insulator 17 is removed from the housing for free access to the channels, after which the main cores of both segments are introduced into the channels 18 and fixed with screw clamps 21, the auxiliary cores are inserted into the channels 19 and secured with screw clamps 22, while the control cores are connected to the push-button lock device whose contacts are open, because there is no preload against the stop 25 on the housing. One grounding conductor is passed through channel 20, and the grounding cores of both segments are attached to the grounding terminal 23. After fixing the main, auxiliary and grounding cores, all parts of the connector together with the housing 1 from the cable section 4 are moved to the design position and the cable entry 2 is fixed to section 4 using clamping brackets 7 and screws 8, as a result of which the insulator 17 is closed inside the housing. The final stage of assembly includes shifting the connector parts from section 5, docking them with the housing 1, tightening it using coupling bolts 10 located outside the housing, and securing the cable entry 3 to the segment 5 using clamping brackets 6 and screws 9. When tightening the connector, the cable the inputs press the push-button locking device 24 to the stop 25 on the housing, as a result of which the control circuit closes.

The cable connector is disassembled in the reverse order.

After releasing the clamps 6 to the length of the cable 5 and the tightening bolts 10, the stop 25 on the housing 1 stops the impact on the push-button locking device 24 and the control circuit breaks, thereby eliminating the possibility of applying voltage to the connector. This lock also provides voltage relief in the event of an unauthorized attempt to open the cable entry of the connector.

The proposed cable connector has small dimensions and weight, provides high dielectric strength and meets the requirements of explosion protection of mine electrical equipment.

Claims (3)

1. A cable connector comprising a housing, cable entries with sealing and clamping rings, grounding conductor clamps and a control circuit lock, characterized in that the housing is integral and made of impact-resistant plastic compound, and an insulator with channels for main and auxiliary cores is placed inside it screw clamps, and the housing is mounted with the possibility of longitudinal movement relative to the insulator. 2. The cable connector according to claim 1, characterized in that a push-button locking device is installed on one of the cable entry sockets, to which control cores are connected, said button device being installed with the possibility of preloading relative to the connector body using a cable entry. 3. The cable connector according to claim 1, characterized in that the cable entries are provided with coupling bolts located outside the housing.