SU792382A1 - Electric connector of underwater cables - Google Patents

Description

one

The invention relates to electrical engineering, and more specifically to devices for connecting individual sections of underwater electrical cables between themselves by a diver performing underwater work, for example, for connecting single-core welding cables when performing underwater arc welding.

An electrical connection of a submarine cable is known, comprising a plug and socket, held in the articulated position by an internal threaded joint 11.

The known connector when it is operated on ships in marine conditions, especially when using cable lines occupying a vertical working position for splicing (for example, when performing underwater welding JQ at great depths from a power source placed on a surface vessel), wears quickly . The device for locking the connector in the articulated state, based on the 25 threaded connection of the coupling halves, does not have sufficient reliability against the spontaneous segmentation of the connector under the influence of the weight and torque of the spliced cable at a wave- JQ

mor. The threaded connection is often damaged (the thread is cut or hammered) when the connector strikes the metal structures and the hull of the vessel, as well as when the cable is selected from the water onto the vessel. Wear and tear of the tapered part of the outer rubber cover of the half-coupling-socket leads to a violation of the tightness of the connector in the articulated state.

Also known is an electrical connector of submarine cables, consisting of two parts with insulating housings made of elastic material, one of which tightly covers the length of the other, and located in these housings contact parts, pin and socket, held in articulated position by bayonet connection 2.

In the known connector, the elements of the bayonet connection are made in the form of a protrusion on the surface of the socket and a figured groove in the pin.

However, the known connector is not sufficiently reliable because of the possibility of dismemberment at the vertical position of the cable line.

The aim of the invention is to increase the reliability of the connector.

This goal is achieved by the fact that in the proposed electrical connector consisting of two parts with insulating housings made of elastic material, one of which hermetically covers the length of the other, and located in these housings contact parts - pin and socket, held in the articulated position with a bayonet joint, the pin is made with at least two radial protrusions, each with thickening at the ends, and in the end part of the socket on the joint side there are recesses according to the number of protrusions, passing into stepped helical grooves located on the inner surface of the socket with deeper depth in the end section, with at least one through longitudinal channel in the tail section of the socket designed to connect the cavity of the socket to the internal cable volume.

With this performance, the articulation of the articulation is increased and is eliminated by the possibility of spontaneous dismemberment, and the connector is easily dismembered after performing underwater works without additional elements balancing the pressure acting on both parts of the connector.

The drawing shows the connector

in a dismembered position.

The electrical connector consists of two parts - plugs 1 and sockets 2, having a pin 3 and a socket 4, respectively, in the end channels of which are inserted and rigidly, for example, by soldering, they are connected to the same cable 5 and 6. The pin and the socket together with Adjacent parts of the cable are enclosed in outer shells 7 and 8 of elastic electrically insulating material, which are obtained by vulcanization of this material in molds.

The insulating body of the plug is provided with an elastic hollow skirt 9, which has an internal cylindrical or tapered surface and, when the connector is connected, covers the surface of the socket with this surface. The shank of the socket has longitudinal channels 10, the socket of the socket of the socket with the internal volume of the cable connected to the socket is connected to the cavity of the socket. The pin is made with several radial protrusions 12, having thickenings 13 at the ends. In the end part of the socket, rectangular recesses 14 are made according to the number of projections of the plug. From each of these recesses departs in one stepped helical groove 15, which are located along the inner cylindrical surface of the socket and have

greater depth at the end portion 16, into which, when the fork is turned, the corresponding protrusion thickens at the limiting angle. This ensures high reliability against spontaneous dismemberment of the connector. In order to ensure the metallicity of the connector in the articulated state, a sealing rubber ring 17 is installed in the annular recess of the pin of the plug.

The connector works as follows.

The plug 1 is inserted into the socket 2 so that the projections thicken into the corresponding recesses 14. Then the plug 1 is turned relative to the socket 2. When the plug 1 is rotated, the thickenings 13 of the protrusions slide along the corresponding helical grooves 15 in the socket. Due to this, the connector parts are crimped. In this case, the contact pin of the plug makes a forward movement in the socket of the socket, and the air from the cavity 11 of the socket is forced out through the channels 10 into the space between the strands or wires of the cable connected to the socket. When the plug 1 is fully rotated at the limiting angle of thickening of the 13 protrusions, the pin falls into the end sections 16 of the grooves 15. In these areas, the protrusions are fixed and thus spontaneous dismemberment is eliminated by the torque of the vertical cable attached to the connector. With such a fixed position of the plug 1, i.e., with the fully articulated connector, the sealing ring 17 goes inside the cylindrical contact socket and expands in it, The savesm M ensures that the connector is tight in the articulated state at shallow depths. At greater depths, in addition to the annular seal described above, the plug is also sealed by an additional crimp with hydrostatic pressure of the elastic skirt 9 over the socket body 8.

At the same time, in order to ensure the possibility of articulation and dismemberment of the voltage removed from the cable from the cable), a spring-loaded valve 18 is installed in the longitudinal section 10 of the socket 4 When the two parts of the connector are articulated in a submerged position, the plug pins out In this, the main amount of water is removed along the longitudinal groove 19 in the body of the socket. When the pin, moving in the socket, reaches the stem of the spring-loaded valve and presses it, the valve opens and the remaining (very small) part of the water is removed to the free inner

Claims (1)

. Claim Electrical connector for submarine cables, consisting of two parts with insulating bodies »‘ made of flexible material. la, one of which seals hermetically over parts of the length of the other, and contact parts located in the indicated housings - a pin and a socket, held in a joint position by a bayonet fitting, and - 1, characterized in that, in order to increase reliability and convenience of operation, the pin is made with at least two radial protrusions having thickenings at the ends, in the end part of the socket on the articulation side, recesses are made in the number of protrusions, turning into stepwise located on the inner surface of the socket into-shaped grooves with greater depth at the end portion, while at least one through longitudinal channel is made in the rear of the socket for connecting the cavity of the socket with the internal volume of the cable.