RU47578U1 - CONTACT DEVICE FOR CONNECTING CONDUCTORS - Google Patents

Abstract

The utility model relates to electrical engineering, in particular, for connecting single and multicore conductors with different outer diameters, several conductors, both single-core and multicore, as well as several groups of conductors. It is used in the manufacture of cables, especially when using connectors having crimp contacts. The contact device for connecting the conductors contains a tin-plated conductive tube 1 with a through hole 2 in the center in which the conductors 3 are placed. The conductors 3 are connected to each other and to the conductive tube 1 by soldering. In the conductive tube 1, there are through longitudinal grooves 4 on both sides of the non-through hole 2. In addition, the conductive tube 1 compresses the conductors 3 for insulation in place of the through longitudinal grooves 4. Heat shrink tube 5 covers the conductive tube 1 and the insulation of the connected conductors 3.

Description

The utility model relates to electrical engineering, in particular, for connecting single and multicore conductors used in the manufacture of cables, especially when using connectors having crimp contacts.

A connection is known for crimping single and multiple wires, operating in the temperature range from -55 ° C to + 175 ° C and protecting the connected wires from corrosion, aging from time and the environment [1].

As fastening elements, tinned copper seamless tube and heat shrink tube with thermoplastic sealing inserts are used. The seamless tube has a through hole in the center, in which the conductors are located, connected to each other and to the tube. The heat shrink tube covers the seamless tube and the insulation of the connected conductors.

This connection is designed to crimp the connected conductors only along the core, which is its drawback, because the use of a contact connection with a crimp only along the core of the wire is allowed with a fixed installation (OST 92-8592-74 p.1.11). Therefore, the use of this compound in cable products is difficult and unreliable. In addition, the connection of the conductors by crimping in the tube is possible only for stranded wires of a certain outer diameter, which reduces the operational capabilities of the known device.

The objective of the utility model is to expand operational capabilities and increase the reliability of contact joints with

maintaining the integrity of the insulating shell and the electrical characteristics of the conductors.

The problem is achieved due to the fact that in the contact device for connecting conductors containing a tin-plated conductive tube with a through hole in the center for placement of conductors of conductors connected to each other and with the conductive tube, and a heat-shrink tube covering the conductive tube and the insulation of the connected conductors, unlike the prototype, there are through grooves in the electrically conductive tube on both sides of the through hole, the conductors are connected to each other and to the electric conductive tube by soldering, while the conductive tube covers not only the cores, but also the insulation of the conductors by crimping.

The implementation of through grooves in both sides of the non-through hole in the electrically conductive tube allows connecting single single-core (multi-core) conductors with different external diameters, several conductors, both single-core and multi-core, as well as several groups of conductors, which extends the operational capabilities of the connection. The connection of the conductors of the conductors and the conductive tube to each other by soldering, as well as the coverage of the conductive tube of not only the conductors, but also the insulation of the conductors by crimping increases the reliability of the contact connection.

The utility model is illustrated by drawings, in which the following is presented.

Figure 1 - contact device for connecting single single-core or multi-core conductors with different outer diameters.

Figure 2 - contact device for connecting several conductors, both single-core and multi-core, with access to a single conductor.

Figure 3 - contact device for connecting several groups of conductors with the output to one conductor.

The contact device for connecting the conductors (Fig.1-Fig.3) contains a tin-plated conductive tube 1 with a through hole 2 in the center in which the conductors 3 are placed. The conductors 3 are connected to each other and to the conductive tube 1 by soldering. The size of the soldered conductors of the conductors 3 is commensurate with the length of the through hole 2 of the conductive tube 1. In addition, the conductive tube 1 compresses the conductors 3 for insulation. In the electrically conductive tube 1, there are through longitudinal grooves 4 on both sides of the non-through hole 2. Heat-shrinkable tube 5 (in FIG. 1 and FIG. 2, tube 5 is shown before heat shrinkage, in FIG. 3 - before and after heat-shrink) covers the conductive tube 1 and insulation of connected conductors 3.

Using a heat shrink tube made of materials with heat shrink coefficients of 2: 1; 3: 1; 4: 1, with a working temperature from -75 ° C to + 250 ° C, a sticky layer that does not support combustion, and an electrical insulation strength of 20 kV / mm to 35 kV / mm, it ensures the integrity of the shell, preserves the electrical characteristics and tightness of the connected conductors. Protection against climatic influences is provided by material of a thermoshrinkable tube like Semi-Rigid - 2: 1 High Temperature PTFE 4: 1.

The conductive tube 1 can be made of a metal tube of high conductivity with a coating for soldering a certain diameter with grooves of different widths. In this case, the width of the grooves 4 is inversely proportional to the outer diameter of the connected

conductors, to achieve a tight crimp in insulation. In addition, the conductive tube 1 can be made of metal (sheet) with high conductivity and a soldering coating with pre-calculated inner diameters corresponding to the outer diameters of the covered conductors 3, followed by tinning of the tube. In this case, the width of the grooves 4 of the conductive tube 1 may be the same.

Figure 2 and figure 3 shows the contact connection between several single-core or multi-core conductors and groups of conductors, which is achieved due to the width of the through grooves or internal diameters of the tinned conductive tube.

Soldered conductors of conductors 3 are placed in a through hole 2 of the conductive tube 1 and soldered to it. Then, crimping is performed on the insulation of the connected conductors 3 in the locations of the through grooves 4 of the conductive tube 1. The length of the conductive tube 1 is to ensure reliable mechanical fastening of the connected conductors 3. A self-extinguishing (non-burning) heat-shrinkable tube 5 is put on the conductive tube 1 and the insulation of the connected conductors 3, providing reliable tight protection of the contact connection after heat shrinkage due to tight shrinkage on the insulation of the connected conductors.

The application of the proposed contact connection will provide a reliable electrical connection of single and multi-conductor conductors used in the manufacture of cables, especially when using connectors having crimp contacts, which limit the possibility of using single-core conductors and conductors with insulation of large diameters. Tests showed that the proposed contact connection meets the requirements of OST 92-8592-74 “Cables.

Installation of special tips ”and OST 4 GO. 010.016. “Wiring cable products in connectors. General technical requirements. "

Sources of information:

1. Catalog of the company Otto PfenningerAG, 1996/97, p.143 - prototype.

Claims (1)

A contact device for connecting conductors, comprising a tin-plated conductive tube with a through hole in the center for accommodating conductors of conductors connected to each other and with the conductive tube, and a heat shrink tube covering the conductive tube and insulation of the conductors to be connected, characterized in that in the conductive tube with on both sides of the through hole there are through grooves, the conductors are connected to each other and to the conductive tube by soldering, while ovodyaschaya tube covers not only the core but also the insulation of conductors by crimping.