RU102431U1 - COUPLING HALF - Google Patents

Abstract

 Connecting coupling for field cables and components to them, on the housing of which from the side of the junction with the counterpart there are structural elements that provide articulation of the two coupling halves together, and in the housing is a contact block having an insulating base and through double contacts protruding from both sides this base, and the part of each of the twin contacts located on the side of the junction with the counterpart of the coupling half is located in a recess, for example, of a cylindrical shape in the insulation the base of the contact block, characterized in that the depth of the recess in the insulating base of the contact block is greater than the height of the double contact protruding above the insulating base of the contact block from the junction with the coupling half of the coupling.

Description

The invention relates to cable technology, in particular to connecting elements for field communication cables.

The coupling half-coupler is intended for use in telecommunication technology, in particular, for mounting on field communication cables of repeated use, as well as on various types of components for them - on hardware half-couplings, branching couplings, input shields, terminal cables and other component parts.

Known connectors for cables (US patent No. 4310208, IPC H01R 9/07; US patent No. 431430, IPC H01R 11/20; US patent No. 436422, IPC H01R 4/24; USSR copyright certificate No. 1001254, IPC H01R 17/12) . However, these connectors are not intended for field operation and do not provide the required breaking strength and tightness at the cable termination point in the connector.

The closest set of essential features to the proposed product is the coupling half of the cable P-296M (technical specifications TU 16-505.293-81, "Long-distance communication cable field P-296M and components"), selected as a prototype. This coupling half is also used on all components to the P-296M cable. On the housing of this coupling half, from the junction with the mating part, there are elements of the locking connection, providing articulation of the two coupling halves together, as well as a sealing element, ensuring tightness at the junction of the coupling half. A contact block having an insulating base and through double contacts protruding from both sides of this base is placed in the half-coupling housing. At the same time, part of each of the twin contacts located at the junction with the counterpart of the coupling half is located in a cylindrical recess in the insulating base of the contact block. To the contacts of the pads are soldered, in order to ensure electrical contact, conductive cable conductors. On the cable entry side, tail nuts are located that are connected to the housing by a threaded connection, and there are also sealing elements that ensure water tightness of the cable termination point in the coupling half.

The disadvantage of this design is that, in the case of even a slight deviation of the structural dimensions when installing double contacts in the insulating base (axial or circular deviations), as well as when installing the contact block in the coupling half housing (axial deviations), it is difficult to completely connect the two coupling halves together . This is because the depth of the recess in the insulating base of the contact block is approximately equal to the height of the double contact protruding above the insulating base of the contact block from the junction with the mating part of the coupling half. As a result, the locking elements of the two coupling halves are not fully engaged, and the sealing elements at the junction of the coupling halves are not tightly pressed against each other. The consequence of this is the possibility of moisture penetration at the junction of the coupling halves.

The task is to ensure complete coupling of the coupling half of the field communication cables to each other.

The technical result is achieved due to the fact that in the connecting half-coupling for field cables and components to them on the housing from the junction with the counterpart there are structural elements that ensure the articulation of two half-couplings with each other. A contact block having an insulating base and through double contacts protruding from both sides of the base is placed in the housing. Moreover, a part of each of the twin contacts located at the junction with the mating half of the coupling is located in a recess of cylindrical shape in the insulating base of the contact block. In this case, the depth of the recess in the insulating base of the contact block is greater than the height of the double contact protruding above the insulating base of the contact block from the junction with the mating part of the coupling half.

A comparative analysis of the claimed device with the prototype shows that the proposed coupling half has a number of common structural elements with the prototype, but differs in the form of execution of these elements. Thus, the claimed device meets the criteria of the invention of "novelty."

A comparison of the claimed device with other similar technical solutions, including with the prototype, shows that the introduction of elements with a new design into the device design allows to achieve the required technical result - ensuring full coupling of the coupling halves with each other.

Analysis of the design of the proposed coupling half shows that this technical solution is industrially applicable since it ensures the achievement of a specific technical result and can be reproduced at modern industrial enterprises.

The essence of the alleged invention can be clarified from figure 1, which in section shows the proposed connecting coupling half mounted on a communication cable, figure 2, which shows a view of the contact block from the junction of the coupling half, figure 3, which shows a fragment of the spirit of articulated between each other of the contact blocks and FIGS. 4 and 5, which show the ideal and deviated from the norm connection of the double contacts of the articulated coupling halves. Figure 1-5 indicated:

1 - coupling half housing;

2 - insulating base of the terminal block;

3 - dual contacts of the terminal block;

4 - recess in the insulating base;

5 - dual contacts of the reciprocal part;

6 - insulating base of the contact block of the mate;

7 - a recess in the insulating base of the contact block of the mate;

8 - conductive cable conductors;

9 - cable;

10 - tail nut;

11 - tail sealing element;

12 - end sealing element.

The structural relationship of the elements of the proposed coupling half is as follows. In the housing 1 of the coupling half there is an insulating base 2 of the terminal block through which the through double contacts 3 protruding from both sides of the base 2 pass. Moreover, in the insulating base 2 there are recesses of cylindrical shape 4, into which when the joints of the two coupling halves enter the double contacts 5 from the counterpart of the other contact block 6. Similarly, the contacts 3 are included in the recess 7 of the insulating base 2 of the contact block of the coupling half in question. From the inside of the coupling half, conductive cores 8 of cable 9 are soldered to the contacts 3. Cable 9 is fixed in the housing 1 of the coupling half using a tail nut 10 and is sealed on the input side of the cable 9 by the tail sealing element 11. Sealing from the joint side of the coupling half is provided by the end sealing element 12 located in direct contact with the housing 1 and the insulating base 2 of the terminal block. The articulation of the two coupling halves between themselves is ensured by the elements of the locking connection (not shown in FIGS.

The device operates as follows.

With the ideal arrangement of the double contacts 3 in the insulating base 2 of the terminal block, they are strictly at an angle of 90 ° to the same contacts 5 of the terminal block 6 of the counterpart of the coupling half in question (shown in FIG. 4). In this case, when combining these half-couplings, the contacts 3 and 5 freely enter each other in the recesses 4 and 7 in the insulating bases 2 and 6 until the contact pads of the articulated half-couplings stop. However, in practice, due to technological tolerances and other deviations from the norms, the location of the double contacts 5 and 3 may not be ideal, for example, their circular displacement (the case most often encountered in practice), as shown in Fig. 5. Similar deviations can occur during the operation of the product, for example, due to temperature deformations of the half-coupling construction elements. As a result, when two coupling halves are jointed, the double contacts 5 and 3 begin to exert a mechanical effect on each other. Moreover, the degree of this effect is the greater, the deeper the contacts 3 and 5 penetrate into the recesses 4 and 7 of the insulation bases 2 and 6. In this case, the circular displacement of one of the double contacts (contacts 3 in figure 5), due to the spring properties, mutual multidirectional movement of both pins 3 and 5, namely, pins 3 will shift to the left, and pins 5 will shift to the right. However, when the depth of the recesses in the insulating bases is equal to the height of the part of the double contacts protruding above the contact block (as is the case in the coupling half selected as a prototype), the considered movement of the contacts is possible only to very insignificant limits, since the contacts are rigidly fixed in the insulating bases of the contact blocks . The consequence of this is the difficulty, and, with a significant deviation of the position of the double contact from the norms, the impossibility of complete articulation of the two coupling halves with each other.

In the proposed technical solution, the depth L2 (Fig. 3) of the recess 4 in the insulating base 2 of the terminal block is greater than the height L1 of the protruding part of the double contact 3. As a result, the part of the double contact 3 of the length L2-L1 not involved in the electrical connection provides additional spring properties of the double of contact 3 in general when two coupling halves are joined together and, as a result, the possibility of much greater deformation (circular displacement) due to the mechanical action of contacts 3 and 5 on each other. This will allow, even with very significant deviations from the norms of the position of the double contacts 3 in the insulating base 2 of the terminal block, to ensure a stable articulation of the two coupling halves to each other until the end sealing elements 12 of the coupling half are pressed against each other and prevent the penetration of moisture at the junction of these coupling halves.

In the manufacture of the connecting coupling half, it is necessary to take into account that the depth of the recess in the insulating base of the contact block must be significantly greater than the height of the part of the double contact protruding above the contact block. Tests of the proposed coupling half-coupling showed that for the sure achievement of the desired result, the indicated depth of the recess should be at least 2 times greater than the part of the double contact protruding above the contact block. The remaining structural elements of the coupling half have no features.

The technical and economic effect of the implementation of the proposed invention is that it allows for reliable articulation of the construction lengths of field communication cables among themselves, as well as their connection to various components - hardware half-couplings, branching couplings, input shields, terminal cables, etc. . Given the widespread use of mobile use cables and components for them, this will provide a significant economic effect.

Claims (1)

Connecting coupling for field cables and components to them, on the housing of which from the side of the junction with the counterpart there are structural elements that provide articulation of the two coupling halves together, and in the housing is a contact block having an insulating base and through double contacts protruding from both sides this base, and the part of each of the twin contacts located on the side of the junction with the counterpart of the coupling half is located in a recess, for example, of a cylindrical shape in the insulation the base of the contact block, characterized in that the depth of the recess in the insulating base of the contact block is greater than the height of the double contact protruding above the insulating base of the contact block from the junction with the coupling half of the coupling.