RU179470U1 - Mounting block - Google Patents

Abstract

The utility model relates to the field of construction and electrical engineering and can be used in universal prefabricated penetrations to seal cables, pipelines, etc. passing through it. The task is to create a one-piece design that increases the tightness of the cable entry. To solve this problem, the mounting block includes: a wedge mechanism with two compressible wedges made with the possibility of moving to each other and from each other by means of a threaded mechanism, and one pressure wedge with two symmetrically arranged work surfaces and one pressure surface. In this case, two working surfaces of the compressible wedges are located in one plane, and two other working surfaces interact with the corresponding working surfaces of the pressure wedge. The threaded mechanism is made in the form of one through and one blind sleeve with left and right threads, respectively, pressed into compressible wedges, and one bolt with left and right threads. Moreover, the number of threaded mechanisms is n≥1. The pressure wedge of the wedge mechanism from the side of the working surfaces is equipped with oval holes for accommodating the bolt and connecting the pressure wedge to the rest of the mounting block. The proposed design of the mounting block is one rear mechanism, provides complete sealing of the cable entry of penetration. And also due to this design, technological effectiveness is improved in the production of mounting blocks. 1 s.p. f-ly, 3 ill.

Description

The utility model relates to the field of construction and electrical engineering and can be used in universal prefabricated penetrations to seal cables, pipelines, etc. passing through it.

A cable entry compression unit including a wedge mechanism with two compressible wedges was selected as the closest analogue. The wedge mechanism is made with the possibility of moving to each other and from each other using a screw mechanism, moreover, one pressure wedge with two symmetrically arranged working surfaces and one pressure surface. Two working surfaces of compressible wedges are located in one plane, and two other working surfaces interact (respectively) with the working surfaces of the pressure wedge. The screw mechanism is made in the form of one through hole in one compressible wedge, one reciprocal threaded hole in another wedge and, in fact, a screw, while the axis of the holes are parallel to the working surfaces of the compressible wedges located in the same plane, and the screw passes through the through hole of one compressible wedge and wrapped in the mating threaded hole of another compressible wedge. The pressure wedge of the wedge mechanism on the side of the working surfaces is provided with a longitudinal groove for accommodating the screw in the diluted state of the compressible wedges, while the groove walls are made with the possibility of elastic interaction with the screw shaft (see patent RU 2551891 C1, clause 11, cl. MKI N 02 G3 / 22, F16L 5/02, 2014).

The design consists of individual parts, which affects the tightness of the cable entry.

The task is to create a one-piece design that increases the tightness of the cable entry.

To solve this problem, the mounting unit includes: a wedge mechanism with two compressible wedges made with the possibility of moving to each other and from each other using a threaded mechanism, and one pressure wedge with two symmetrically arranged working surfaces and one pressure surface. In this case, two working surfaces of the compressible wedges are located in one plane, and two other working surfaces interact with the corresponding working surfaces of the pressure wedge. The threaded mechanism is made in the form of one through and one blind sleeve with left and right threads, respectively, pressed into compressible wedges, and one bolt with left and right threads. Moreover, the number of threaded mechanisms is n≥1. The pressure wedge of the wedge mechanism from the side of the working surfaces is equipped with oval holes for accommodating the bolt and connecting the pressure wedge to the rest of the mounting block.

In addition, the details of the wedge mechanism are made of elastic material.

The technical result consists in the fact that when performing the mounting block with a threaded mechanism in the form of a pressed-in blind and through sleeve and one bolt, a whole structure is obtained that increases the tightness of the cable entry. When using the threaded mechanism in the construction of mounting blocks, on the one hand, the compressible wedges must be rigid so that it is possible to cut threads in one of them and provide the necessary compression force of the threaded mechanism, on the other hand, the compressible wedges must be soft to ensure cable entry tightness. Obviously, this can be achieved either by manufacturing metal wedges followed by coating them with an elastic material, which leads to high laboriousness of production, or manufacturing compressible wedges from an elastic material with threaded inserts, which increases the tightness of the cable entry. And, as a result, due to this design of the mounting block, manufacturability in production is improved.

The utility model is illustrated by drawings.

In FIG. 1 shows a block mounting view on the left in the delivery state, FIG. 2 shows a fragment of a mounting block from above, in FIG. 3 - shows the block mounting view on the left in a compressed (working) state.

The mounting block includes a wedge mechanism with two compressible wedges 1, 2, made with the possibility of moving to each other and from each other by means of a threaded mechanism, one pressure wedge 3 with two symmetrically arranged working surfaces 4 and 5 and one pressure surface 6. When two working surfaces 7 and 8 of the compressible wedges are located in the same plane, and the other two working surfaces 9 and 10 interact with the corresponding working surfaces 4 and 5 of the pressure wedge 3. The threaded mechanism is made in the form of one oznoy 11 and a hollow sleeve 12 with left and right thread, respectively, pressed into the compressible wedges 1 and 2, and a bolt 13. Moreover, the number of threaded mechanisms equal n≥1. The pressure wedge 3 of the wedge mechanism from the side of the working surfaces 4 and 5 is equipped with oval holes 14 for accommodating the bolt 13 and connecting the pressure wedge 3 with the rest of the mounting block.

Details of the wedge mechanism are made of elastic material. As a material in the manufacture of the mounting block, various elastomers and silicone rubber compounds are used.

The product is used to seal the cables passing through the universal assembly penetration.

Using the utility model, consider the following example.

After placing the cables and square penetrations in the frame of the universal assembly penetration, an assembly block, previously coated with sealing grease, is placed in the unoccupied internal space. In the delivery state, the mounting block is made with maximally diluted compressible wedges and has the lowest height. In the frame of a universal precast tunnel, it is placed with a pressure wedge 3 to the square penetrations, and compressible wedges 1 and 2 - to the inner surface of the frame. The rotation of the bolt 13 compressible wedges 1 and 2 are shifted to each other, while the pressure wedge 3 acts on the filling of the universal team penetration, sealing the cables passing through it (pipelines).

The proposed design of the mounting block is one rear mechanism, provides complete sealing of the universal team penetration. And also due to this design, technological effectiveness is improved in the production of mounting blocks.

Claims (2)

1. The mounting unit, comprising a wedge mechanism with two compressible wedges made with the possibility of moving to each other and from each other using a threaded mechanism, and one pressure wedge with two symmetrically arranged working surfaces and one pressing surface, while two working the surfaces of the compressible wedges are located in the same plane, and two other working surfaces interact with the corresponding working surfaces of the pressure wedge, characterized in that the threaded mechanism is made in the form of one th through and one blind sleeve with left and right threads, respectively, pressed into compressible wedges, and one bolt with left and right threads, and the number of threaded mechanisms is n≥1, and the wedge pressure wedge mechanism from the working surfaces is equipped with oval holes for placement bolts and connections of the pressure wedge with the rest of the mounting block. 2. The mounting block according to claim 1, characterized in that the details of the wedge mechanism are made of elastic material.

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