RU2540325C1 - Method of sealing low-frequency connectors of electric harnesses and cables - Google Patents

Abstract

FIELD: electricity.

SUBSTANCE: device is composed of electrical harnesses and cables and operability of the device depends on their reliable operation at large. At that essential role is assigned to sealing of connectors during their manufacturing. The method lies in filling of inner space with sealant upon mounting of a connector and de-oiling of contacts; it is carried out in three stages and based on combined usage of elastic and rigid materials of various viscosities.

EFFECT: improved reliability and physical and operational characteristics for low-frequency connectors.

3 cl, 2 dwg

Description

The invention relates to elements of electrical equipment, and in particular to methods of sealing low-frequency connectors of electrical harnesses and cables and can be used in devices of electronic, aerospace, transport, marine, automotive industries in the manufacture of low-frequency harnesses and cables. These devices in their composition contain electrical harnesses and cables, from the reliable operation of which depends on the performance of the product as a whole. Moreover, in their manufacture, a significant role is given to sealing connectors.

The choice of sealing method is determined mainly by operating conditions and available equipment. In each case, the optimal materials and method of sealing should be chosen.

For more reliable protection of the contact field of the connector from moisture, special sealants or compounds are used with which these connectors are filled.

One of the widely used and economically viable technologies for insulating and sealing harnesses and cables, protecting the joints of wires, the wire-to-connector transition has been the use of heat-shrink materials, for example, various types of heat-shrink tubes, cold shrink tubes, special products - couplings, caps and their combinations with thermo- and non-thermoplastic adhesives and sealants. When heated, the glue melts and flows into the space between the wires, and the outer tube contracts, acting as a mold for the molten glue-thermoplastic. When cooled, the adhesive forms an elastic, water-tight seal between the wires and the connector housing, while the outer tube provides additional protection against tearing wires from the connector and damage (breaking) of the wires at the entrance to the connector.

The problems encountered when sealing low-frequency connectors are due to the structure of the connectors. As an example, consider a 2PM low-frequency connector, the structure of which is shown in figure 1, where the connector housing 1, connector insulator 2, connector pin 3, wire 4, connector pipe 5, pipe nut 6, POS-61 7 solder, clip nut 8, rubber sleeve 9.

The contacts of the connector 3 are located in the insulator 2, made of thermosetting plastic. This connection is not tight. When pouring low-viscosity materials into the connector, the sealant penetrates between the contact and the plastic, which subsequently makes it difficult to clean the contacts from the sealant.

When using the mating part of the detachable connection to protect the contacts, there is also a negative point - this plug-socket connection cannot be disassembled.

The use of viscous materials leads to the formation of voids in the connector pipe, which negatively affects its tightness.

Widely used for sealing materials found on the basis of silicone and polyurethane rubbers. These materials are flexible and able to compensate for the arising mechanical stresses in the places of soldering wires to contacts. The disadvantage of silicone materials is low adhesion to sealing surfaces and a high percentage of shrinkage.

The use of stiffer epoxy and polyester compounds is limited due to the high stresses arising from the curing of these materials, as a result of which breakage of conductors at the places of soldering is possible.

There are technologies that use one filling material and a set of heat-shrinkable tubes. The essence of these methods of sealing is to fill the internal space of the connector with sealant, followed by shrinkage of the heat pipe over the entire length of the cable. As a result, the connector will be sealed, but the cables can be up to 30-40 m long, which leads to high financial costs, increased labor intensity, lengthening the technological process of the cable manufacturing operation. The cost of manufacturing a cable increases several times.

With the right selection of materials with different physicomechanical properties, as well as the development of the technological process of pouring, it is possible to achieve the tightness of the connector with less financial cost.

The prototype of the invention is the sealing method described in the industry standard OST 4G0.010.016 (Appendix 2A). According to this method, the internal space of the connector is filled with silicone sealant Vixint U-1-18 through a technological hole with a diameter of 3-6 mm. The completeness of filling the volume is checked through a control hole with a diameter of 1 mm. Both holes are located on the connector pipe one against the other. Sealing material is fed into the process hole until the sealant emerges from the inspection hole. After that, within 72 hours, the sealant polymerizes.

Sealant Vixint U-1-18 consists of two components - paste U-1 and catalyst 18, with only 0.2-0.5 mass parts of catalyst per 100 parts by weight of paste. Such an insignificant volume of catalyst is difficult to mix in a large volume of paste, as a result of which there are unmixed, and therefore, non-frozen portions of the sealant. To eliminate this defect, as well as to better mix the components (in accordance with OST 4G0.053.213-83), a diluent, nefras (white spirit), is used, which leads to significant shrinkage of the sealant (up to 5%). In this case, the shrinkage will be the greater, the more thinner will be added, which, in turn, will lead to the peeling of the sealant from the wires and walls of the connector housing, as a result of which the connector will be leaky.

When curing the sealant, the diluent volatilizes, which leads to the formation of voids and shells, and therefore, the electrical and mechanical strength of the insulating material is reduced.

When using this method of sealing, filling with sealant occurs through the technological hole, which does not allow to control the completeness of filling of the connector, because the appearance of sealant from the control hole does not guarantee the filling of the entire volume. It is impossible to check the tightness of the connector by overpressure, which does not allow to evaluate the quality of the operations performed.

The technical result of the proposed method of sealing low-frequency connectors of harnesses and cables is to increase reliability and improve the operational and technical characteristics of low-frequency connectors.

The specified result is achieved by the fact that the prototype method, which consists in filling the internal space of the connector with sealant after installing the connector and degreasing the contacts, is carried out in three stages and is based on the combined use of elastic and rigid materials of various viscosities.

The figure 2 shows a sealing scheme of the 2PM connector, where indicated:

1 - connector housing;

2 - connector insulator;

3 - connector pin;

4 - wire;

5 - connector pipe;

6 - pipe nut;

7 - solder POS-61;

10 - silicone sealant Unisil-N (hereinafter - sealant);

11 - compound ELK-12 (hereinafter - the compound);

12 - shrink tube MDT-A (hereinafter referred to as heat pipe).

As an elastic material, silicone sealant Unisil-N 10 with a viscosity of 6-7 in a circle (OST 4G0.054.210-83) and a relative elongation at break of 300-400% is used. The ELK-12 11 compound with a viscosity of 90-150 sec on a B3-4 viscometer and a relative elongation under tension of 30% is used as hard material.

MDT-A 12 Medium Shrink Tubing is designed for insulation and sealing of all types of cables with plastic and paper impregnated insulation, laid in open electrical installations and in the ground. MDT-A tubes are ideal for insulating cable connections. They feature an excellent combination of flexibility and resistance to abrasion, corrosion and external factors.

MDT-A tubes are equipped with an internal hot-melt adhesive layer that fills even the smallest cavities and, after solidification, forms a reliable barrier to moisture and dirt. The adhesive layer remains flexible after shrinkage of the tube.

MDT-A tubes are made of modified self-extinguishing polyethylene having a high resistance to aging. Tubes are resistant to ultraviolet radiation, chemicals, they contain no halogens.

Due to the high degree of shrinkage up to 4.5: 1, one tube can cover products with a large difference in diameters.

The proposed method of sealing low-frequency connectors of electrical harnesses and cables is as follows.

Before starting the installation, the clamp nut is removed from the connector design, designed to reduce the mechanical load on the soldered wires to the contacts. In the future, it is functionally replaced by a heat pipe 12, which is worn on a bundle or cable. Then the wires 4 are soldered to the contacts with POS-61 7 solder and degreased before sealing.

First stage. The contact part of the connector on the wire side is filled with silicone sealant 10, which is also applied to the places of contact of the housing 1 with the connector pipe 5. The nut of the pipe 6 is tightened and the sealant 10 is cured for 15-24 hours. The role of the first stage of sealing is to level the mechanical stresses in the areas of soldered wires and contacts at temperature extremes and vibration loads, as well as to prevent leakage of the casting compound 11 used in the second stage of sealing.

Second stage. The entire volume of the connector pipe 5 on the wire side 4 is filled with casting compound 11 flush with the edge of the pipe. The compound 11 has minimal shrinkage and high adhesion to the walls of the housing of the connector 1. The compound 11 is cured within 24 hours. The role of the second stage of sealing is to fill the main volume of the pipe 5 without shells and voids, due to the low viscosity of the compound 11.

Third stage. The wires 4 emerging from the connector are lubricated with an elastic sealant 10 to a length equal to the length of the heat pipe 12. The heat pipe 12 is shifted to the connector pipe, performing heat shrink. Due to the mechanical compression of the thermotube 12, the elastic sealant 10 fills all the voids between the wires 4, and the excess goes beyond the thermotube 12 and is subsequently removed. The curing of the sealant 10 occurs within 15-24 hours. The role of the third stage of sealing is to additionally protect the connector from moisture. In this case, the sealant 10 acts as a damper, protecting the wires 4 coming out of the connector during numerous bends during vibration loading and temperature changes from -60 ° to + 85 °.

The tightness of the connector is checked by an excess pressure of 0.1 kgf / cm ² in the bath with water for five minutes (GOST RV 20.57.306-98).

The high quality of the proposed method of sealing low-frequency connectors of electrical harnesses and cables is confirmed by test reports.

Thus, due to the fact that the method consisting in filling the internal space with a sealant is carried out in three stages and based on the combined use of elastic and rigid materials of various viscosities, it has become possible to obtain cables or bundles with hermetic connectors that work without fail during the entire period of operation in a wide range of temperatures under mechanical stress.

Claims (3)

1. A method of sealing low-frequency connectors of harnesses and cables, which consists in filling the internal space of the connector with sealant after installing the connector and degreasing the wires, characterized in that it is carried out in three stages and is based on the combined use of elastic and rigid materials of various viscosities, and at the first stage the contact part the connector on the wire side is filled with an elastic sealant, which is also applied to the places where the housing contacts the connector pipe, tighten the nut of the connector pipe and e curing the sealant within 15-24 hours, the entire volume of the connector pipe from the side of the wires is filled with the casting compound flush with the edge of the pipe, after which the compound is cured for 24 hours, then the wires leaving the connector are lubricated with an elastic sealant to the length of the heat-shrinkable tube, which shift to the connector pipe, excess sealant that extends beyond the heat-shrinkable tube is removed, and the sealant cures in 15-24 hours. 2. The method of sealing low-frequency connectors of harnesses and cables according to claim 1, characterized in that before starting installation, a heat-shrinkable tube is put on the wires. 3. The method of sealing low-frequency connectors of harnesses and cables according to claim 1, characterized in that Unisil-N silicone sealant is used as elastic sealant, and ELK-12 is used as a rigid material.

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