RU204514U1 - Electrical installation box - Google Patents

Abstract

The utility model is intended for the installation of wiring accessories in brick or concrete walls. The wiring box contains a housing (1), in which at least two U-shaped inlet openings (9) are made, located diametrically opposite. In this case, the first inlet (9) is configured to install the first U-shaped connecting channel of the adjacent electrical installation box, and the first and second grooves (11) are made on the surface of the first inlet (9). In addition, in the second inlet (9) there is a second U-shaped connecting channel (2), which has two fixing protrusions (12) on the lateral surface for placement in the first and second grooves of the inlet of the adjacent electrical installation box. In this case, the upper parts of the second connecting channel (2) and the inlet openings are rounded (9). The simplification of the removal of the second connecting channel (2) is achieved due to the fact that the second connecting channel (2) on the lateral surface has a third perforated groove (13), made along the contour of the lower rectangular part of the second connecting channel (2). 6 ill.

Description

The utility model relates to the field of electrical engineering and is intended for the installation of wiring accessories (sockets, switches, control devices, etc.) in brick or concrete walls.

As a prototype to the claimed technical solution, an electrical distribution device (RU 103246 U1, 03/27/2011) was adopted, which contains a first cylindrical body and a means of attachment to another body. Side holes are made in the wall of the case for distributing wires / cables. The means for attaching to another body is made in the form of a U-shaped protrusion, hollow and located outside this body. In this case, the U-shaped protrusion of one body is configured to be located in the U-shaped groove of the other body. Outside, the U-shaped protrusion from its lateral sides parallel to the longitudinal axis of the body is provided with two ribs.

A technical problem, the solution of which is provided by the implementation or use of a technical solution, is the need to expand the types of structures of electrical boxes.

In analogue [1], if necessary, the unused U-shaped protrusion of the body is removed by its mechanical destruction, which leads to breakage of a part of the body.

The technical result of the proposed technical solution is to simplify the removal of the connecting channel of the wiring installation box.

The technical result is achieved in that the electrical installation box box, in which at least two U-shaped inlet openings are made, located diametrically opposite, while the first inlet opening is configured to install the first U-shaped connecting channel of the adjacent electrical installation installation box, and on the surface of the first inlet, the first and second grooves are made, in addition, in the second inlet there is a second U-shaped connecting channel, which on the lateral surface has two fixing protrusions for placement in the first and second grooves of the inlet of the adjacent electrical installation box, when In this way, the upper parts of the second connecting channel and the inlet openings are rounded. The second connecting channel on the lateral surface has a third perforated groove made along the contour of the lower rectangular part of the second connecting channel.

The aforementioned combination of essential features of the claimed technical solution ensures the achievement of the claimed technical result.

The author of the claimed technical solution made a prototype of this solution, the tests of which confirmed the achievement of the technical result.

FIG. 1 shows a general view of the wiring box; in fig. 2 - top view of the wiring box; in fig. 3 is a view of the grooves of the housing inlet openings and the fixing protrusions of the connecting channels; in fig. 4 - General view of the wiring box according to example 1; in fig. 5 - compensator according to example 2; in fig. 6 - cover according to example 3.

The electrical installation box (Fig. 1) contains a housing (1) with a connecting channel (2), made integral with the housing (1).

The body (1) has the shape of a glass and is made of plastic, preferably polystyrene. The product's resistance to hot wire is 650 ° C. Standard body dimensions (1) are

D = 68 mm, where D is the body diameter (1);

H = 45 mm, where H is the body height (1).

The housing (1) has a tapered part (3) at the base to facilitate installation in a mounting hole in the wall.

At the base of the body (1) there are two pairs of annular coaxial slots (4) with diameters of 10 mm and 20 mm (Fig. 2), which separate the partitions for breaking out (5). The size of each slot (5), taking into account the maximum deviations, is 0.8 mm. This size ensures that the solution does not get inside the housing (1).

The housing (1) contains

at least four holes for distributing wires (6) with a diameter of 20 mm, equipped in the side walls with the first round diaphragms for breaking out (7) and at the base with jumpers (8);

at least two U-shaped inlet openings (9), located diametrically opposite and closed by second breakout membranes (10).

Each hole for distributing wires (6) is located at an angle α = 35 ° relative to the axis of the base (Fig. 2). Such an arrangement of the holes for distributing wires (6) increases the convenience of distributing wires and, accordingly, installation.

The first inlet (9) is intended for the installation of the first U-shaped connecting channel of the adjacent electrical installation box (not shown). The first and second grooves (11) are made on the surface of the first inlet (9) (Fig. 3).

A second U-shaped connecting channel (2) is located in the second inlet (9). In this case, the upper parts of the second connecting channel (2), the first and second inlet openings (9) are rounded. In this case, the second connecting channel (2) on the lateral surface has two fixing protrusions (12) and a third groove (13). The fixing protrusions (12) are designed to be located in the first and second grooves of the inlet of the adjacent electrical installation box. The fixation increases the rigidity of the structure and prevents disassembly of the connection during the installation of electrical boxes. The third groove (13) is perforated and is designed to remove (cut or break off) the connecting channel (2).

In the side walls of the body (1), at least two first longitudinal holes (14) are made for self-tapping screws, located diametrically opposite.

In addition, in the side walls of the housing (1), two rows of second longitudinal holes (15) are made for adjusting wiring products. Moreover, each row contains three second longitudinal holes (15). In this case, the rows of the second holes (15) are located diametrically opposite and are offset by 90 ° relative to the first longitudinal holes (14).

An annular shoulder (16) is made along the upper edge of the housing (1), which facilitates the shearing of the housing (1) when the electrical box is installed unevenly.

Examples of specific implementation.

Example 1. A recessed-type wiring box has a body height (1) greater than the body height of another attached wiring box (Fig. 4). In this case, the dimensions of the housing (1) of the housing (1) for the box of the electrical installation installation recessed type (Fig. 2) are preferably

D = 68 mm, where D is the body diameter (1);

H = 67 mm, where H is the body height (1).

In this case, the housing (1) contains an additional pair of holes for distributing wires (6) located under the second connecting channel (2). The second connecting channel (2) on recessed and other standard installation boxes is made at the same depth, so that they can be connected to each other.

Example 2. An electrical installation box contains a compensator (17) (Fig. 5), in the form of a ring with two diametrically opposite longitudinal holes of the compensator (18). The compensator (17) is installed on the upper edge of the body (1), aligning the first two longitudinal holes (14) of the body (1) and the longitudinal holes of the compensator (18).

Example 3. An electrical installation box contains a cover (19) (Fig. 6).

The implementation of the proposed technical solution is not limited to the above examples.

Connect the electrical box with other electrical boxes. In this case, the body (1) and the second connecting channel (2) of the wiring box are positioned above the U-shaped inlet of the other wiring box.

The body (1) is moved relative to the other body in the longitudinal direction so that the fixing protrusions (12) of the second connecting channel (2) fully enter the slots of the U-shaped inlet opening. Thus, the fixing of the cases of the wiring boxes is carried out with each other. If it is necessary to remove the second connecting channel (2), it is mechanically broken off along the perforation in the third groove (13). Break out the break-out partitions (5) and membranes (7), and then pull the cables through the holes formed. After that, the electrical boxes are installed in the previously prepared holes in the wall.

The claimed technical solution is implemented using commercially available devices and materials, can be manufactured at any electrical enterprise and will be widely used to protect cable core connections from external influences, to create a long-term, safe and controlled installation of wiring, telephone joints, sockets, switches, regulators illumination and communication devices.

Claims (1)

An electrical installation box containing a housing in which at least two U-shaped inlet openings are made, located diametrically opposite, while the first inlet opening is configured to install a first U-shaped connecting channel of an adjacent electrical installation installation box, and on the surface of the first inlet holes, the first and second grooves are made, in addition, in the second inlet there is a second U-shaped connecting channel, which on the lateral surface has two fixing protrusions for placement in the first and second grooves of the inlet of the adjacent electrical installation box, while the upper parts of the second the connecting channel and inlet openings are rounded, characterized in that the second connecting channel on the lateral surface has a third perforated groove made along the contour of the lower rectangular part of the connecting channel.

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