RU200269U1 - CABLE DRAIN MANHEL HOUSING - Google Patents

Abstract

The utility model relates to the construction of electrical and telecommunication trunk cable networks as an unattended observation device for cable ducts. The technical problem is to expand the arsenal of means for a specific purpose - cable duct well bodies, which is solved by creating a technical solution alternative to the known solution. The technical result provided by the proposed utility model consists in the implementation of its purpose by the utility model. The technical result is achieved by the housing of the cable duct well, which includes a working chamber with side and end walls, a bottom and a neck for installing a cover, characterized in that the working chamber in the longitudinal and transverse of vertical sections has a predominantly trapezoidal shape, while along the perimeter of the junction line of the working chamber with the throat, a protrusion is made, which forms a stiffening rib. 5 p.p. f-ly, 5 dwg

Description

The utility model relates to the construction of electrical and telecommunication trunk cable networks as an unattended observation device for cable ducts, to protect couplings and cable technological reserves from external influences (including rodents) at the joints of the working lengths of the cable laid in polyethylene pipes. It is installed on sections of suburban cable routes, as well as in places where there is no constant traffic, as a passage, corner or branching viewing device.

Known is a cable duct well containing a monolithic body, a body neck cover and cable glands on at least two sides of a body made of plastic, characterized in that the body is equipped with stiffening ribs made integral with it, and the body volume and neck diameter are selected from conditions for ensuring the possibility of placing a person inside the body (RU 86635 U1, 09/10/2009).

Known subscriber well containing a rectangular body, bottom and cover, inlet and outlet round holes on the side walls of the well. The well is leaky and intended for installation on the side of the road. The walls of the well are made of a polymer-sand composition and additionally have sectional rectangular openings, and the bottom is made with stiffening ribs in the form of protrusions and depressions, on which there are holes for draining water, while the thickness of the bottom varies from 15 to 30 mm, and along the perimeter there are grooves for installing the walls of the well, on the upper part of the body there is a shell with the ability to adjust the height of the position of the well cover, by means of adjusting rings, while the cover is made identical to the shape of the body (RU 186822 U1, 02/05/2019).

The technical problem consists in expanding the arsenal of means for a specific purpose - cases of cable duct wells, which is solved by creating an alternative technical solution to the known solution. The technical result provided by the proposed utility model consists in the implementation of its purpose by the utility model.

The technical result is achieved by the housing of the cable duct well, which includes a working chamber with side and end walls, a bottom and a neck for installing a cover, characterized by the fact that the working chamber in longitudinal and transverse vertical sections has a predominantly trapezoidal shape, while along the perimeter of the junction line of the working chamber with the neck a protrusion is made forming a stiffener.

In some versions, the side walls have niches for entering pipes of various sizes, separated by stiffening ribs; end walls have niches located on the inside of the working chamber; the bottom is ribbed.

FIG. 1 shows the body of a cable duct in a perspective view;

figure 2 is a front view;

figure 3 is a side view;

figure 4 is a top view;

Fig. 5 is an exploded perspective view.

The body of the cable duct is made solid and has a working chamber formed by side walls 1, end walls 2, bottom 3 and neck 4. The working chamber in longitudinal and transverse vertical sections is predominantly trapezoidal. The side and end walls have an inclination of 3 ° relative to the central axis. A projection 5 is made along the perimeter of the junction line of the working chamber with the neck 4, which forms a stiffening rib.

On the side walls 1 there are niches 6 of different sizes for the introduction of polyethylene pipes of different diameters, which are separated by stiffening ribs 7. The end walls 2 have niches 8 located on the inner side of the working chamber. The bottom 2 can have stiffening ribs 9.

The body of the sewer well works as follows.

The walls of niches 6 or 8 are drilled using a circular, adjustable drill, electric drill or cordless screwdriver of the size required to enter the appropriate number and diameter of pipes. Sealing of pipe entry points is carried out using transitional compression couplings or sealed entry adapters. Polyethylene pipes, smooth or corrugated, can be used as channels introduced into the chamber. The entry of communication cables into the camera, including armored optical cables, is carried out using dust and moisture-proof, chemical-resistant, flood-proof cable glands.

The body of the sewer well is placed in a pre-prepared recess in the ground and installed on a supporting surface, for example, a slab. After installation of cable channels and sealing of their joints with the body, the body of the well is closed with a cover 10 and covered with soil.

The presence of the projection 5 and stiffening ribs 7 gives the structure additional strength. The trapezoidal shape of the body in the longitudinal and transverse vertical sections prevents the chamber from being pushed out of the ground when it bulges or moves.

Claims (6)

1. The body of the cable duct well, including a working chamber with side and end walls, a bottom and a neck for installing a cover, characterized in that the working chamber in longitudinal and transverse vertical sections has a predominantly trapezoidal shape, while along the perimeter of the junction line of the working chamber with the neck a protrusion is made forming a stiffener. 2. The body of the cable duct well according to claim 1, characterized in that the side walls have niches for entering pipes. 3. The body of the cable duct well according to claim 2, characterized in that the niches have different sizes. 4. The body of the cable duct well according to claim 2, characterized in that the niches are separated by stiffening ribs. 5. The housing of the cable duct well according to claim 1, characterized in that the end walls have niches located on the inner side of the working chamber. 6. The housing of the cable duct well according to claim 1, characterized in that the bottom is ribbed.

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