RU199888U1 - Universal cable penetration - Google Patents

Abstract

The utility model relates to modular cable penetration for sealed cable laying through the wall and is designed to enter power and control cables into the building through ceilings or fences. The universal cable passage contains a metal frame with a block with holes for the cable placed in it, the block being made of foam glass. The technical result is an increase in the heat-insulating and sound-insulating properties of the cable penetration. 2 ill.

Description

The utility model relates to a modular cable penetration for sealed cable laying through a wall and is designed to enter power and control cables into a building through ceilings or fences.

Known for cable penetrations manufactured by Roxtec (https://www.roxtec.com). The design of these penetrations consists of a frame, into which type-setting modules for certain ranges of cable diameters are installed, and a compression block is installed in the frame, which in the transverse plane compresses the modules installed in the frame.

The common features of the claimed utility model with an analogue are a frame (frame) and a block-module, filling the frame from a fire-resistant material.

The disadvantage of this analogue is:

1. Small versatility - each insert is designed for a certain range of cable diameters and a certain number.

A large number of details and the complexity of installation.

Known similar products "Fireproof cable penetration" TU 5760-001-01553244-2015 manufactured by LLC ISMK-PROM. PF and PFC fire-resistant cable penetrations are installed in the openings of buildings (structures) as an element of cable routes to prevent the penetration of fire, smoke and toxic pyrolysis products (carbon monoxide gases of halogen group F, Cl, Br, etc.) into adjacent rooms.

The PF and PFC series penetrations are made of a metal casing, in which a certified thermal expansion material is placed.

Under the influence of fire and / or high temperature (over 180 ° C), the thermally expanding material expands in volume, occupying all the free space in the cable penetration, and, thereby, ensures complete tightness. In a fire condition, the housing prevents the possibility of mechanical damage to walls and floors, as well as thermochemical interaction between the thermally expanding material and the wall (ceiling).

The disadvantages of this analogue are:

1. Lack of penetration tightness.

2. Low noise insulation.

3. Limitation on the number of cables

The prototype is a cable penetration device (RU No. 180659, IPC H02G 3/22, published on 06/20/2018), containing a frame and one or many block-modules that fill the frame, and the block-module contains a body made of elastic material, with a through channel designed to accommodate the line, and an insert with an outer diameter corresponding to the diameter of the channel in the block, while the insert is made of an elastic material; moreover, the insert has at least one through cavity for receiving the line, and each through cavity is provided with a longitudinal slot for inserting a line extending from the outer surface of the insert to the through cavity; the device is provided with a compression device in the form of compression plates installed on opposite sides of the body and connected with a tie; the device is equipped with a clamping plate for holding the block modules.

The general features of the claimed utility model with a prototype are: a metal frame and a block with holes for the cable.

The difference between the claimed utility model and the prototype is that the block of universal cable penetration is made of foam glass.

The presence of distinctive features allows us to conclude that the claimed utility model meets the “novelty” condition of patentability.

The implementation of the block of universal cable passage from foam glass allows, as required, to quickly add additional holes for cable routing directly on the spot, since foam glass is easy to machine by drilling. Foam glass has fire resistance, low thermal conductivity and good sound insulation, as well as avoids damage to the cable from lateral mechanical damage due to its porous structure.

The technical result of the proposed utility model is to improve the heat-insulating and sound-insulating properties of cable penetration.

The specified technical result is achieved by the fact that the universal cable penetration contains a metal frame with a block with holes for a cable placed in it; according to the utility model, the block is made of foam glass.

The claimed utility model is illustrated by drawings, where FIG. 1 is a front view of a universal cable penetration, FIG. 2 section a-a in Fig. 1 is a horizontal section of a universal cable transit.

Universal cable penetration consists of a metal frame 1, block 2 made of foam glass in which holes 3 of the required diameter are made for laying the cable. The holes are made with a larger diameter than the cable to be laid, the gap between the cable and the foam glass is filled with fire-resistant sealant 4, mineral wool, or other non-combustible material.

Installation of universal cable penetration is carried out as follows. Frame 1 is mounted in the opening of the ceiling or fence, fastened with a bolt connection or by welding. In block 2, holes are drilled from foam glass through which the cable 5 is laid. The gap between the cable and the block is sealed with a fire-resistant sealant or other non-combustible material.

If it is necessary to quickly add additional cables, additional holes are drilled in a free space in a block made of foam glass (a screwdriver and a pen of the required diameter are enough).

The use of the utility model allows you to quickly lay cable lines of any diameter while maintaining the degree of fire resistance, heat-insulating and sound-insulating properties of the floor or enclosing structure.

Claims (1)

Universal cable penetration, containing a metal frame with a block with cable openings placed in it, characterized in that the block is made of foam glass.

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