WO2023239261A1 - Cable channel - Google Patents

Abstract

A cable channel relates to protective ducts or channels for laying electrical cables inside buildings, and more particularly relates to cable channels for laying cables on a wall or ceiling, as well as on the floor in places with a small amount of foot traffic. The present cable channel consists of a housing having a base and rounded lateral walls, and a curved cover having on its inner side longitudinal projections that abut the end faces of the lateral walls of the base, wherein the longitudinal edges of the cover and the corresponding parts of the base form a snap-fit connection. The cover is rounded and completely covers the lateral walls of the base, wherein the outer surfaces of the lateral walls of the base are equidistant to the inner surface of the cover. The distance between the longitudinal end faces of the lateral walls of the base is preferably selected to be 0.12-0.56 of the width of the base of the cable channel. The lateral walls of the base are preferably of a thickness that decreases gradually from the base to their end point.

Description

NAME OF INVENTION: Cable channel

TECHNICAL FIELD

The invention relates to protective tubes or channels for laying electrical cables inside buildings, in particular to cable channels intended for laying cables on the wall, ceiling, and also on the floor in places with little traffic.

BACKGROUND ART

From open sources of information, the KOROS cable channel of the company KOPOS KOLIN a.s., published on 07.1 E2017 (https://www.kopos.com/en/produkt/2924-lista-obla), is known, consisting of a housing with a base, the side walls of which rest against into the lid, and a rounded lid, the ends of which are configured for closed connection with the side walls of the base.

The known technical solution has the following disadvantages. The base of the cable channel is made with T-shaped side walls and a central partition, which provide support to the cover when a vertical force is applied to it from above. However, ensuring the strength of the housing through the use of the above supports narrows the internal usable area of the cable channel.

From the RF patent for utility model No. 62299 (MIC H02G3/04, priority November 28, 2006, publication March 27, 2007) a cable channel for laying cables is known, consisting of a housing with a base, the edge of the side walls of which is rounded and has a groove on the outside. In this case, the inner surface of the side walls of the lid is made with a protrusion for a closed connection of the base with the lid.

The known technical solution has the following disadvantages. In the specified cable channel, the cover is U-shaped, the ends of which rest on the base, so that the side walls of the base additionally create support in the bend areas of the cover. The above design of the cable channel housing installed on the floor does not allow for uniform distribution of the load throughout the housing. Thus, when a vertical force is applied to the flat part of the lid from above, it bends, since the central part of the lid remains without support. Because of this, in areas made at right angles, stress concentration occurs, which can result in the lid breaking.

The closest technical solution, chosen as a prototype, is the cable channel of the company NEPTUNE LLC, published on 03/09/2019 (https://clck.ru/hUnzt), consisting of a housing with a base made with rounded side walls, and a curved cover , having longitudinal projections on the inside adjacent to the ends of the side walls of the base.

In the known cable channel, the cover is U-shaped with short side walls that do not reach the base of the housing, so support is created from the side walls of the base in the bend areas of the cover. The above-mentioned design of the cable channel housing installed on the floor does not allow for uniform distribution of the load throughout the housing when a vertical force is applied to the flat part of the cover.

When a load occurs from above, the cover and side walls of the base bend and because of this, stress concentration occurs in areas made at right angles, which can result in the cover breaking.

The practice of using the above technical solutions has also shown that laying cables inside a cable channel installed on a wall or ceiling is problematic, since the distance between the ends of the side walls of the base is greater than the maximum permissible diameter of the cable being laid. Therefore, to hold the cable inside the housing, it is necessary to use additional fittings.

IMPLEMENTATION OF THE INVENTION

The objective of the present invention is to create a structurally simple and durable cable channel with the possibility of installation on the floor, walls, ceiling while maintaining the convenience of laying the cable inside the cable channel.

The technical result achieved by the claimed invention is the convenience of laying and fixing the cable inside a cable channel installed on the floor, wall and ceiling, and ensuring the strength of the cable channel body.

The technical result is achieved due to the fact that the cable channel, consisting of a housing with a base and rounded side walls, and a curved cover having longitudinal projections on the inside adjacent to the ends of the side walls of the base, while the longitudinal edges of the cover and the mating parts of the base form a snap connection. The cover is made round and completely covers the side walls of the base, while the outer surfaces of the side walls of the base are equidistant to the inner surface of the cover. It is preferable to choose the distance between the longitudinal ends of the side walls of the base 0.12-0.56 from the width of the base of the cable channel. It is preferable to make the side walls of the base with a thickness that gradually decreases from the base to the end.

OPTION FOR IMPLEMENTATION OF THE INVENTION

The invention is illustrated by drawings (Fig. 1, 2), where in Fig. 1 shows the profile of the cable channel, Fig. Figure 2 shows the profile of the cable channel indicating the load distribution vectors from the vertical impact applied to the cover from above.

The cable channel consists of a body with a base 1 and rounded side walls 1a, and a curved cover 2, which has longitudinal projections 2a on the inside, adjacent to the ends of the side walls 1a of the base 1, while the longitudinal edges of the cover 2 and the mating parts of the base 1 form a snap connection 3. The cover 2 is made round and completely covers the side walls 1a of the base 1, while the outer surfaces of the side walls 1a of the base 1 are equidistant to the inner surface of the cover 2. The distance between the longitudinal ends of the side walls 1a is 0.12-0.56 of the width of the base 1, for example 5.2 mm. The thickness of the side walls 1a of the base 1 gradually decreases from the base to the end.

INDUSTRIAL APPLICABILITY

The cable channel is used as a floor option, as well as for installation on the wall and ceiling. Convenience of using the cable channel in these applications is ensured by the rounded side walls 1 and base 1, which ensure retention of the cable inside the cable channel body. In this case, the distance between the longitudinal ends of the side walls 1a is 0.12-0.56 times the width of the base 1.

In a particular case, the distance between the longitudinal ends of the side walls 1a of the base 1 can be 5.4 mm, which is 0.19 of the width of the base 1 equal to 29.2 mm. The specified distance is 5.4 mm not limitation, but one of the possible options for constructing a cable duct housing. The specified distance between the longitudinal ends of the side walls 1a of the base 1 allows you to fix a cable with a diameter of 6 mm or more, while not allowing it to fall out of the body of the base 1, thereby significantly simplifying the installation work of laying the cable along the ceiling and walls.

Convenience of laying the electric cable into the cable channel body is also achieved by making the side walls 1a of the base 1 rounded with a gradual decrease in thickness (from the base 1 to the end adjacent to the longitudinal projections 2a of the cover 2). Thus, laying a cable with a diameter of 6 mm or more into the body of a cable channel, in which the distance between the longitudinal ends of the side walls 1a of the base 1 is 5.4 mm, is easy, since the side walls 1a of the base 1 are more elastic in comparison with walls made of the same thickness .

During operation of a cable duct installed on the floor, it may be subject to vertical force applied to the cover 2 from above. The cover 2 rests with longitudinal projections 2a against the ends of the side walls 1a of the base and, due to the outer surface of the side walls 1a of the base 1 being equidistant from the inner surface of the cover 2, the parts of the housing are in contact with each other over the entire surface. Thus, the ability of the cable channel body to provide strength while resisting vertical load is achieved by uniformly distributing the load from the cover 2 to the rounded side walls 1 and base 1.

Claims

5 Formula

1. A cable channel consisting of a housing with a base and rounded side walls and a curved cover having longitudinal protrusions on the inside adjacent to the ends of the side walls of the base, while the longitudinal edges of the cover and the mating parts of the base form a snap connection, characterized in that the cover made round and located above the side walls of the base, while the outer surfaces of the side walls of the base are equidistant to the inner surface of the cover.

2. Cable channel according to claim 1, characterized in that the distance between the longitudinal ends of the side walls is 0.12-0.56 times the width of the base.

3. Cable channel according to claim 1 or claim 2, characterized in that the thickness of the side walls of the housing gradually decreases from the base to the end.