RU169480U1 - SECTION VERTICAL CONNECTING FOR OPEN TYPE CABLE TRAYS - Google Patents

Abstract

The proposed utility model relates to electrical engineering and can be used for laying power and control cables and wires in the open air, inside buildings and structures of energy and general industrial facilities, including nuclear power plants.

The vertical connecting section for cable trays of the open type (hereinafter referred to as the section) is intended for connecting direct sections of the cable route consisting of open trays when changing its direction in the vertical plane up and down from 15 to 165 °.

The technical result achieved in the proposed utility model is to increase reliability in operation due to high mechanical strength and seismic resistance, as well as versatility during installation with rotation of the cable route in the vertical plane.

Improving the reliability in the operation of the utility model is achieved by the fact that the section consisting of a housing and four connecting plates is made of sheet metal.

In this case, the section housing is an all-metal construction made by cutting sheet metal and subsequent cold bending of the cut part on roll forming machines.

As a result of bending, a strong and reliable section housing design is obtained, which has the shape of a box with open ends, with a base and two vertical longitudinal walls.

The edges of the walls are rounded to protect the cable from damage.

U-shaped bends are made in the upper part of the vertical longitudinal walls, which provide structural rigidity, protect the cable from damage, and also reduce injuries during installation.

On the edges of the vertical longitudinal walls of the housing, the central through holes are symmetrically located on both sides.

Around each central hole in circles there are additional through holes.

Oval holes are made at the base of the housing for securing the section to the supporting metal structures of the cable route.

Side pads are made of sheet steel by cutting metal with the formation of a rectangular metal plate, the edges of which are rounded on one side.

On the rounded edges of the side plates there are central through holes - one central hole on each plate.

Around each central hole in a circle are additional through holes.

On the opposite side, each side plate has symmetrically located four oval through holes for docking with the cable route.

The central holes are used to assemble the section housing with side plates, and additional holes are used to fix the angle of rotation of the cable route.

The side pads are attached to the walls of the section housing using standard fasteners in pairs symmetrically with respect to the axis of symmetry of the section housing.

The universality of the section during installation with turns of the cable route in the vertical plane is confirmed by the fact that the fixation of the angle of rotation of the route is in the range from 15 to 165 °.

All parts of the section are made of carbon metal.

Each section detail has an anticorrosive coating.

Fasteners are used in Russia according to the interstate standard.

The section design is resistant to seismic effects, an earthquake of 9 points, which corresponds to seismic resistance category 1.

The design of the section is stable, withstands the emerging mechanical stresses from environmental factors.

Description

The proposed utility model relates to electrical engineering and can be used for laying power and control cables and wires in the open air, inside buildings and structures of energy and general industrial facilities, including nuclear power plants.

The vertical connecting section for cable trays of the open type (hereinafter referred to as the section) is intended for connecting direct sections of the cable route consisting of open trays when changing its direction in the vertical plane up and down from 15 ° to 165 °.

Known vertical junction block for cable trays, adopted for the prototype, which contains a U-shaped body and four junction bars. The latter are attached to the shelves of the case in pairs symmetrically with respect to the axis of symmetry of the corresponding shelf, located one to the other at an angle less than 180 °, the apex of which is directed away from the base of the case (Patent PM of the Russian Federation No. 31878, IPC H02G 3/04, published on 08.27.2003 g.).

The disadvantage of this design is that its design is attached to the appropriate trays when it is installed on the track at only one angle in the vertical plane.

The technical result achieved in the proposed utility model is to increase reliability in operation due to high mechanical strength and seismic resistance, as well as versatility during installation with rotation of the cable route in the vertical plane.

Improving the reliability in the operation of the utility model is achieved by the fact that the section consisting of a housing and four connecting plates is made of sheet metal.

In this case, the section housing is an all-metal construction made by cutting sheet metal and subsequent cold bending of the cut part on roll forming machines.

As a result of bending, a strong and reliable section housing design is obtained, which has the shape of a box with open ends, with a base and two vertical longitudinal walls.

The edges of the walls are rounded to protect the cable from damage.

U-shaped bends are made in the upper part of the vertical longitudinal walls, which provide structural rigidity, protect the cable from damage, and also reduce injuries during installation.

On the edges of the vertical longitudinal walls of the housing, the central through holes are symmetrically located on both sides.

Around each central hole in circles there are additional through holes.

Oval holes are made at the base of the housing for securing the section to the supporting metal structures of the cable route.

Side pads are made of sheet steel by cutting metal with the formation of a rectangular metal plate, the edges of which are rounded on one side.

On the rounded edges of the side plates there are central through holes - one central hole on each plate.

Around each central hole in a circle are additional through holes.

On the opposite side, each side plate has symmetrically located four oval through holes for docking with the cable route.

The central holes are used to assemble the section housing with side plates, and additional holes are used to fix the angle of rotation of the cable route.

The side pads are attached to the walls of the section housing using standard fasteners in pairs symmetrically with respect to the axis of symmetry of the section housing.

The universality of the section during installation with turns of the cable route in the vertical plane is confirmed by the fact that the fixation of the angle of rotation of the route is in the range from 15 to 165 °.

The proposed section design is shown in FIG. 1, FIG. 2, FIG. 3.

The vertical connecting section for cable trays of the open type consists of a housing 1 and side plates 2 (Fig. 1).

The housing 1 has the shape of a box, which consists of a base 3 and vertical longitudinal walls 4 (Fig. 2).

The edges 6 of the vertical longitudinal walls 4 of the housing 1 are rounded to protect the cable from damage.

The sides of the vertical longitudinal walls 4 have U-shaped bends 5 (Fig. 2), which provide structural rigidity, protect the cable from damage, and also reduce injuries during installation.

Along the edges of the vertical longitudinal walls 4 of the housing 1, the central through holes 7 are symmetrically located on both sides (Fig. 1).

Around each Central hole 7 around the circumference are additional through holes 8 (Fig. 1).

At the base 3 of the housing 1, oval holes 9 are made (Fig. 2) for securing the section to the supporting metal structures.

The base 3 from two sides at the edges has additional bends 10 (Fig. 1), necessary for the safety of the cable during installation.

The Central holes 7 are used to assemble the housing 1 with side plates 2, and additional holes 8 are used to fix the angle of rotation of the cable route (Fig. 1).

Side pads 2 - 4 pcs. (Fig. 1) - rectangular metal plates, the edges 11 of the side plates 2 are rounded on one side.

Along the edges 11 of the side plates 2 are located the central through holes 12 (Fig. 1). Around each Central hole 12 around the circumference are additional through holes 15 (Fig. 1).

Assembly of the housing 1 and side plates 2 - 4 pcs. is carried out through the central holes 7 and 12 with standard threaded connections: screw 16, washer 17, spring washer 18, nut 19 (Fig. 2).

These holes allow installation of vertical branches, which can be easily fixed to each other.

The position of the side plates 2 at the desired angle is fixed with standard threaded connections: screw 20, washer 21, spring washer 22, nut 23 (Fig. 3).

Docking of the section with the cable route is performed through oval holes 13 (Fig. 1) in the side plates 2 with standard threaded connections: screw 24, washer 25, spring washer 26, nut 27.

All parts of the section are made of one metal. Each section detail has an anticorrosive coating.

The section design is resistant to seismic effects, an earthquake of 9 points, which corresponds to seismic resistance category 1.

The design of the section is stable, withstands the emerging mechanical stresses from environmental factors.

Claims (1)

The vertical connecting section for cable trays of the open type consists of a body and side plates, the body has the shape of a box with open ends, with a base and two vertical longitudinal walls, the edges of the walls are rounded, U-shaped bends are made in the upper part of the walls, oval are made in the base of the case holes for attaching the section to the supporting metal structures of the cable route, side plates are made of sheet steel with the formation of a rectangular metal plate, characterized in that the edges are on the longitudinal longitudinal walls of the housing, central through holes are symmetrically located on both sides, additional through holes are arranged around each central hole around the edges, the edges of the side plates are rounded on one side and central through holes are located - one central hole on each cover around each central openings around the circumference there are additional through holes on the circumferences, on the opposite side each side cover has There are four oval through holes symmetrically located for docking with the cable route, the central holes serve to assemble the section case with side plates, and additional holes are used to fix the angle of rotation of the cable route.

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