RU159446U1 - CABLE TRANSITION CLAMP - Google Patents

Abstract

1. The clamping device of the cable passage, comprising a wedge mechanism with two compressible wedges, a pressure wedge located between them and at least one bolt, characterized in that the compressible wedges are made in the form of a U-shaped sealing element, in the intermediate part of which at least one hole for accommodating the bolt, while both working surfaces of the compressible wedges are located in parallel planes, the pressure wedge is provided with at least one threaded sleeve, in each of which s mounted bolt, and the narrow end of the wedge pressing faces the inner surface of the intermediate portion of the sealing elementa.2. The clamping device of the cable passage according to claim 1, characterized in that the thickness of each compressible wedge is selected to increase as it approaches the intermediate part of the sealing element. 3. The cable passage clamping device according to claim 1, characterized in that a plate is provided on the outer surface of the intermediate part of the sealing module, provided with at least one hole for accommodating the bolt. 4. The clamping device of the cable passage according to claim 1, characterized in that the compressible wedges and the pressure wedge are made of, for example, Eurosil material.

Description

The utility model relates to the field of construction and electrical engineering, to means providing complete sealing with fixation and sealing of cables, pipes, cables and similar products passing through walls, or entering them into a wiring closet.

Known "Protected in accordance with the requirements of electromagnetic compatibility, the compression device and the sealing system containing such a compression device", US Pat. RF number, 2527914 IPC H02G 3/22, publ. 09/10/2013, containing a compression unit configured to expand in one direction when it is compressed in the other direction and having two operating states: a storage state in which the compression unit is weakened, a compressed state in which the dimensions of the compression unit are reduced in one direction and expanded in the other direction to achieve sufficient compaction. The compressing unit contains two compressible wedge-shaped parts made with the possibility of moving towards each other and away from each other by means of a bolt and two additional compressible wedge-shaped parts also made with the possibility of moving away from each other and towards each other and interacting with the two first wedge-shaped parts.

The reasons that impede the achievement of the technical result are low reliability due to uneven pressure over the area of the working surfaces of the pressure wedges associated with the misalignment of the pressure wedges resulting from unequal friction between the pressure surfaces of the compressible and pressure wedges.

Signs common to the proposed clamping device for cable passage:

- two compressible wedge-shaped parts made with the possibility of moving relative to each other by means of a bolt, both working surfaces of the compressible wedges are located in parallel planes.

Features:

- compressible wedges are made in the form of a U-shaped sealing element, in the intermediate part of which at least one hole for accommodating the bolt is made, the pressure wedge is provided with at least one sleeve with a thread interacting with the bolt, and the narrow end of the pressure the wedge faces the inner surface of the intermediate portion of the sealing module.

Known adopted for the prototype sealing module "Cable entry, sealing cable entry module and compression unit cable entry", US Pat. RF №143139, IPC H02G 3/22, publ. 03/06/2014, containing a wedge mechanism with two compressible wedges made with the possibility of moving to each other and from each other using a bolt mechanism, located symmetrically working surfaces and one pressure surface, while two working surfaces of the compressible wedges are located in the same plane , and two other working surfaces interact (respectively) with the working surfaces of the pressure wedge. The bolt mechanism is made in the form of one through hole in one compressible wedge, one counter threaded hole in another wedge and, in fact, a bolt, while the axis of the holes are parallel to the working surfaces of the compressible wedges located in the same plane, and the bolt passes through the through hole of one compressible wedge and wrapped in the mating threaded hole of another compressible wedge.

The reasons that impede the achievement of the technical result are low reliability due to uneven pressure over the area of the working surfaces of the pressure wedges due to the misalignment of the pressure wedges due to unequal friction between the pressure surfaces of the compressible wedges and the pressure wedge.

Signs common to the proposed clamping device for cable passage:

- a wedge mechanism made in the form of a pressure wedge with the ability to move relative to compressible wedges using a bolt mechanism.

Features:

- the pressure wedge is located between compressible wedges made in the form of a U-shaped element, the intermediate part of which is provided with at least one hole for accommodating the bolt, the working surfaces of the compressible wedges are located in parallel planes, the pressure wedge is provided with at least one a sleeve with a thread interacting with the bolt, and the narrow end of the pressure wedge faces the inner surface of the intermediate part of the sealing element.

The objective of the claimed utility model is to create a clamping device for a cable passage with high reliability.

The technical result consists in ensuring uniform pressing of the sealing modules over the entire area of the working surface.

The technical result is achieved by the fact that in the clamping device for cable entry, including a wedge mechanism with two compressible wedges, a pressure wedge and a bolt located between them, compressible wedges are made in the form of a U-shaped sealing element, in the intermediate part of which at least , one hole for accommodating the bolt, while both working surfaces of the compressible wedges are located in parallel planes, the pressure wedge is equipped with at least one threaded sleeve, in each of which the bolt is installed, and the narrow end of the pressure wedge faces the inner surface of the intermediate part of the sealing element.

Rationally, in the clamping device for cable entry, the thickness of each compressible wedge is performed with increasing as it approaches the intermediate part of the sealing element.

It is advisable in the clamping device for cable entry on the outer surface of the intermediate part of the sealing element to install a plate equipped with at least one hole for accommodating the bolt.

It is recommended that in the clamping device for cable entry, the compressible wedges and the pressure wedge are made primarily of rubber, silicone, and plastic.

The utility model is illustrated by drawings, where in FIG. 1 shows a design of the proposed clamping device for cable transition in axial section, and in FIG. 2 shows its general view.

The clamping device for the cable passage is installed in the housing (not shown in the drawings) containing one or more sealing devices for accommodating cables or pipes. The function of the clamping device is to compress all the devices with a force providing a reliable seal.

The clamping device for the cable passage contains a wedge mechanism with two compressible wedges 1, located between them by a pressure wedge 4 and at least one bolt 7. Compressible wedges 1 are made in the form of a U-shaped sealing element, mainly solid, in the intermediate part 8 which has at least one hole 10 for accommodating the bolt 7. Both working surfaces 2 of the compressible wedges 1 are arranged in parallel planes, the pressure wedge 4 is provided with at least one threaded sleeve 5, -interacting with the bolt 7. The narrow end of the wedge push-4 faces the inner surface 9 of the intermediate portion 8 of the sealing member. The thickness of each compressible wedge 1 increases as it approaches the intermediate part 8 of the sealing element. The inner surfaces 3 of the compressible wedges 1 interact with the surfaces 6 of the pressure wedge 4. On the outer surface 11 of the intermediate part 8 of the sealing module, a plate 12 is provided with at least one hole for accommodating the bolt 7. Compressible wedges 1 and pressure wedge 4 can be made from non-toxic low-combustible explosion-proof silicone rubber compounds with high strength and tear resistance, for example, Eurosil material.

A further increase in the uniformity of the distribution of effort on the working surface and the reliability of the clamping device is achieved by the use of two or more bolts 7. For this, in the intermediate part 9, the corresponding number of holes 10 for accommodating the bolts 7 is made, and the pressure wedge is equipped with threaded bushings, in each of which a bolt is installed 7.

The proposed clamping device for cable transition works as follows.

Before installing into the housing compartment, all the mutually contacting surfaces of the compressible wedges 1, the pressure wedge 4, the bolt 7, including their threaded surfaces, and the plates 12, are coated with a sealing compound with a displacer, for example, anti-friction lubricant with sealant properties or silicone-based lubricant. Next, the clamping device is assembled, for which the pressure wedge 4 is inserted at the beginning of the inner part of the sealing module between the inner surfaces 3 of the compressible wedges 1. In this case, the narrow end of the pressure wedge 4 should face the inner surface 9 of the intermediate part 8 of the sealing element. A plate 12 is mounted on the outer surface 11 of the intermediate part 8 of the sealing element, a bolt 7 is inserted into the hole 10, and is wrapped a few turns into the thread of the sleeve 5 of the pressure wedge 4.

After installing the clamping device in the corresponding compartment of the housing using a wrench or wrench, the bolt 7 is wrapped in the thread of the sleeve 5. The rotational movement of the bolt 7 is converted into the translational movement of the pressure wedge 4, which moves the compressible wedges 1 apart, the working surface 2 of one of them abuts against the ceiling surface of the housing, and through the working surface 2 of another compressible wedge, the compressive force is transmitted to the sealing devices in which the cables or pipes are placed. This eliminates the misalignment of the pressure wedges due to unequal friction between the pressure surfaces of the compressible wedges and the pressure wedge, ensures uniform pressing of the sealing modules over the entire area of the working surface, and, ultimately, high reliability of the pressure device.

The proposed utility model contributes to the creation of a clamping device for cable entry, with high reliability.

Claims (4)

1. The clamping device of the cable passage, comprising a wedge mechanism with two compressible wedges, a pressure wedge located between them and at least one bolt, characterized in that the compressible wedges are made in the form of a U-shaped sealing element, in the intermediate part of which at least one hole for accommodating the bolt, while both working surfaces of the compressible wedges are located in parallel planes, the pressure wedge is provided with at least one threaded sleeve, in each of which s mounted bolt, and the narrow end of the wedge pressing faces the inner surface of the intermediate portion of the sealing member. 2. The clamping device of the cable passage according to claim 1, characterized in that the thickness of each compressible wedge is selected to increase as it approaches the intermediate part of the sealing element. 3. The clamping device of the cable passage according to claim 1, characterized in that on the outer surface of the intermediate part of the sealing module there is a plate provided with at least one hole for accommodating the bolt. 4. The clamping device of the cable passage according to claim 1, characterized in that the compressible wedges and the pressure wedge are made of, for example, Eurosil material.

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