RU176322U1 - CABLE ASSEMBLY DESIGN - Google Patents

Abstract

The proposed utility model relates to the field of construction, namely to electrical products for laying cables, hoses, pipes, as well as for installing boxes and trays on them. The design of the cable assembly includes a rack of metal profile with holes for fixing at least one cable shelf, a cable shelf of a U-shaped cross section with two vertically oriented walls connected by a horizontal wall, fastening elements to the rack are made at one end of the walls. The horizontal wall mounting element is made in the form of a T-shaped protrusion. The fastening element to the rack of vertical walls is made in the form of 6 rectangular plates formed by two longitudinal cutouts of the middle part of the vertical walls and bent inward towards each other at an angle to the wall surface. At the end, each plate has a protrusion bent into a plane parallel to the vertical walls. A latch is made on the protrusion — a segment partially cut out and bent outward towards the plate. The openings of the rack for fixing the shelves have the shape of a rectangle, the dimensions of which correspond to the dimensions of the fastening elements. The transverse dimensions of the rectangular holes of the rack correspond to the size of the neck of the T-shaped protrusion and the distance between the protrusions of the fastening element of the vertical walls. The longitudinal dimensions of the holes correspond to the transverse size of the plates of the mounting element of the vertical walls. The protrusion of the vertical wall mount has a rectangular shape with beveled external corners. The latch is made in the form of a rectangular segment, partially cut out on three sides. 4 C.p.F., 7 ill.

Description

The proposed utility model relates to the field of construction, namely, to electrical products for laying cables, hoses, pipes, as well as for installing boxes and trays on them.

The cable structure includes at least one base, for example, a rack fixed with brackets on a building structure and supporting elements located horizontally and fixed on the bases of cable structures. The supporting element is such an element horizontally and transversely oriented to the cable direction as, for example, a console or a shelf of a cable overpass. The support element is fixed at one end to the rack. Cables can be attached to the support elements of the cable structure using known means — cable clamps, clamp blocks, cable clamps, clamps, etc. Also, cable trays can be attached to the support elements of the cable structure.

A device for laying cables is known as a cable structure with a supporting element — a cable shelf (patent SU No. 1297151, IPC: H02G 3/30; H02G 3/02; publ. 1987.03.15). The cable shelf includes two vertical walls, interconnected by one horizontal wall. From one end intended for mounting to a rack, the horizontal wall ends with a T-shaped element. The length of the vertical walls and the horizontal wall is the same. The cable shelf is rigidly fixed to the rack with the base and sidewalls. On the sidewalls there are holes with U-shaped inclined corrugations of a certain width, which are guides for the T-shaped element.

The disadvantage of this design is the difficulty of manufacturing the rack, lack of strength due to the fact that the fastening element is only on the horizontal wall of the shelf. Another disadvantage of this supporting element is excessive rigidity, the absence on the landing end of the supporting element of the section, characterized by a reduced threshold of plastic deformation relative to torsion and horizontal bending.

A device for laying cables is also known - a cable structure with a supporting element - a cable shelf (patent SU No. 1534592, IPC: H02G 3/30; H02G 3/02; publ. 1990.01.07). In this design, the support element has two vertical walls, interconnected by one horizontal wall. At one end of the support element, the horizontal wall ends with a T-shaped element with an opening in the neck. Vertical walls end with wedge-shaped retainers bent 90 ° outward relative to the vertical walls. The rack has, on the basis of figured cutouts, the dimensions of which correspond to a T-shaped element and inclined slots with bends for wedge-shaped clamps.

The disadvantage of this design is the insufficient bearing capacity of the shelf on the main vertical load due to the hole in the fastener - a T-shaped protrusion on the horizontal wall. To fix the shelf, a special key is required to bend the protrusions in the curly cutouts of the rack, on which the hole of the T-shaped element is fixed, which complicates the assembly of the entire structure.

Also known cable structure (patent RU No. 164421, IPC H02G 3/04, publ. 08/27/2016). The supporting element of this design contains two vertical walls interconnected by a horizontal wall. At the ends of the vertical walls, extensions are made. These extensions are additionally equipped with fastening elements at the end sections in the form of protrusions, holes or grooves, in the form of bends at the ends of these extensions, in which holes or grooves are made. The U-shaped stand has round holes on the sidewalls for fastening the support element.

This design is easy to manufacture. However, for the assembly and fixation of the support element additional elements are required - bolts, nuts and fixing tools, which complicates the assembly of the entire structure.

The closest technical solution is the cable assembly design (Technical conditions TU 36-1496-85 of the Ministry of installation and special construction works of the USSR Glavelektromontazh, 1985) The design consists of a U-shaped metal rack with figured holes for fixing the supporting element - cable shelves. The rack by means of mounting brackets attached to the wall of a building or structure. The cable shelf of the U-shaped cross section is made in the form of two walls oriented vertically and connected by a horizontal wall with fastening elements to the rack at the ends of the walls. The horizontal wall mounting element is made in the form of a T-shaped protrusion with an opening on the neck of the protrusion. The fastening element of the vertical walls is curly protrusions at the ends of the walls.

However, this design has insufficient shelf bearing capacity for the main vertical load due to the hole in the fastener - a T-shaped protrusion on a horizontal wall. Also, to fix the shelf, a special key is required, which bends the protrusion of the rack figured hole after installing a hole in the neck of the T-shaped protrusion, which complicates the assembly of the entire structure.

The technical task of this solution is to simplify the assembly of the cable structure due to the structural change of the shelf fastening element, which allows for quick installation and dismantling of the shelf without the use of additional tools and devices, while the stability and bearing capacity of the support element are increased.

This object is achieved in that the cable assembly design comprises a rack of metal profile with holes for fixing at least one cable shelf. The cable shelf of the U-shaped cross section has two vertically oriented walls connected by a horizontal wall. At one end of the wall, fastening elements to the rack are made, while the horizontal wall fastening element is made in the form of a T-shaped protrusion. What is new is that the fastening element to the vertical wall rack is made in the form of rectangular plates formed by two longitudinal cutouts of the middle part of the vertical walls and bent inward towards each other at an angle to the wall surface. At the end, each plate has a protrusion bent into a plane parallel to the vertical walls. A latch is made on the protrusion — a segment partially cut out and bent outward towards the plate. The holes of the rack for fixing the shelves have the shape of a rectangle, the dimensions of which correspond to the sizes of the fastening elements. The transverse dimensions of the rectangular holes of the rack correspond to the size of the neck of the T-shaped protrusion and the distance between the protrusions of the fastening element of the vertical walls. The longitudinal dimensions of the holes correspond to the transverse size of the plates of the mounting element of the vertical walls. The protrusion of the mounting element of the vertical walls has a rectangular shape with beveled external corners. The latch is made in the form of a rectangular segment, partially cut out on three sides.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of the construction of a cable assembly; FIG. 2 is a general view of the cable shelf; FIG. 3 - fastening elements of the cable shelf, in FIG. 4 is a photo of a cable shelf, in FIG. 5 is a photo of the fastening elements, in FIG. 6 - cable structure in the assembly (rear view from the side of the fastening elements), in FIG. 7 is a photo of a cable structure.

The cable assembly design contains (Fig. 1) a rack 1 of a metal C or U-shaped profile with a base and sidewalls. Along the base, rectangular holes 2 are made for fixing at least one metal cable shelf 3. Cable shelf 3 (Fig. 2, 4) has a U-shaped cross-sectional profile. Two walls 4 of the shelf are oriented vertically and connected by a horizontal wall 5. The horizontal wall 5 is perforated - has longitudinal cutouts for fixing the cable. At one end of the wall, fastening elements to the rack are made. The fastening element of the horizontal wall 5 (Fig. 3, 5) is made in the form of a T-shaped protrusion 6, the neck 7 of which is a continuation of the wall. The fastening element to the rack of vertical walls 4 has the form of rectangular plates 8, which are formed by two longitudinal cutouts 9 made from the edge of the wall and separating the middle central part of the vertical walls 4. The plates 8 are bent inward towards each other at an angle to the wall surface. At the end, each plate has a protrusion 10, bent into a plane parallel to the vertical walls 4. The protrusion 10 is a continuation of the plate 8 and may have a rectangular shape with beveled external corners. The latch 11 is made on the protrusion 10. The latch is a segment, for example, of a rectangular shape, which is partially cut, for example, on three sides of the rectangle in the center of the plate. The slot is made from the side of the plate 8, and at the point of attachment of the segment to the protrusion 10 (from the side of the opposite plate 8), the segment 11 is bent outward, forming an opening sash towards the plate 8. The transverse size of the plates 8 of the fastening element of the vertical walls (the distance between the cutouts 9) corresponds to the longitudinal dimensions of the rectangular holes 2 of the rack, i.e. the distance between the opposite sides of the longitudinal cutouts 9 does not exceed or equal to the longitudinal size of the rectangular holes 2 of the rack. The transverse size of the plates 8 is selected from the condition that the plates with the protrusions 10 should extend into the holes 2 and the sides of the protrusion adjacent to the plate should be installed along the longitudinal side of the hole. The distance between the parallel protrusions 10 corresponds to the transverse size of the rectangular holes 2 of the rack. The distance between the protrusions is selected due to the fact that the plates 8 are bent inward towards each other, and the protrusions 10 are bent into a plane parallel to the vertical walls 4, i.e. the bending angle of the plates determines the distance between the protrusions. The T-shaped protrusion 6 of the horizontal wall 5 has a neck 7, which is a continuation of the horizontal wall. The neck 7 has a size comparable to the size of the transverse side of the rectangular hole 2 and is selected from the condition of the tight location of the neck in the hole 2 on its transverse side. The wide part of the T-shaped protrusion 6 does not exceed the transverse dimension of the horizontal wall 5.

The device is assembled as follows.

Assemble the rack and cable shelves. To install the cable structure, the cable shelf 3 is rotated in a horizontal plane at an angle to the rack 1 so that the wide part of the T-shaped protrusion 6 fits into the rectangular hole 2 of the rack at an angle, because the wide part of the T-shaped protrusion 6 has a size larger than the dimensions of the rectangular holes 2 of the rack. Then the cable shelf 3 is returned to the horizontal position and the neck 7 of the T-shaped protrusion is placed on the transverse side of the hole 2 of the rack. Since the dimensions of the neck 7 do not exceed (or are equal to) the transverse size of the rectangular hole 2, the T-shaped protrusion 6 is tightly installed in the hole (Fig. 6). The protrusions 10 of the fastening element of the vertical walls 4 are inserted into the next hole 2. Due to the bending of the plates 8, the distance between the protrusions 10 is equal to the transverse size of the holes 2 of the rack. Due to this, the protrusions 10 with the clamps 11 pass through the hole 2 of the rack and the clamps 11, bent outward towards the plate 8 spring and their bent leaves are firmly fixed on the rack 1 on the back side of the hole. When performing the protrusions 10 of the mounting element of a rectangular shape with beveled external corners, the protrusions easily pass through the holes 2 of the rack. The vertical walls 4 are adjacent to the rack 1. In this form, the cable shelf 3 is firmly fixed to the rack 1 (Fig. 7). To dismantle the cable shelf 3, you need to press lightly on the plates 8 of the fastening element, pressing them against each other so that the clamps 11 move away from the wall of the rack 1 and exit the hole 2, then rotate the shelf 3 at an angle so that the wide side of the T-shaped protrusion 6 can exit hole 2 of the rack and then pull the cable shelf out of rack 1. Dismantling is complete.

Thus, the cable shelf can be easily and quickly installed without using additional tools and equipment. Shelf disassembly is also quick. All this, compared with the prototype, simplifies the assembly of the cable structure. At the same time, the connections of the cable shelf are strong and stable due to reliable fixation and a stable arrangement of fastening elements of vertical and horizontal walls. The bearing capacity on the main vertical load of the support element is increased due to the fact that the T-shaped protrusion is made integral, without a hole in the neck, which in the prototype is mounted on the protrusion of the figured hole in the rack and with a significant mechanical load on the cable shelf when laying cables can break. Thus, the mechanical strength of the structure is increased.

Claims (4)

1. The design of the cable assembly, comprising a rack of metal profile with holes for fixing at least one cable shelf and a shelf of a U-shaped cross section with two vertically oriented walls connected by a horizontal wall, at one end of which there are fastening elements to the rack, while the horizontal wall fastening element is made in the form of a T-shaped protrusion, characterized in that the vertical wall fastening element is made in the form of rectangular plates formed by two with longitudinal cutouts of the middle part of the vertical walls and bent inward towards each other at an angle to the wall surface, at the end each plate has a protrusion bent into a plane parallel to the vertical walls, and a latch is made on the protrusion - partially cut and bent outward towards a segment of the plate, while the holes of the rack for fixing the shelves have the shape of a rectangle, the dimensions of which correspond to the sizes of the fastening elements. 2. The cable assembly design according to claim 1, characterized in that the transverse dimensions of the rectangular holes of the rack correspond to the size of the neck of the T-shaped protrusion and the distance between the protrusions of the fastening element of the vertical walls, and the longitudinal dimensions of the holes correspond to the transverse size of the plates of the fastening element of the vertical walls. 3. The cable assembly design according to claim 1, characterized in that the protrusion of the vertical wall mounting member has a rectangular shape with beveled external corners. 4. The cable assembly design according to claim 1, characterized in that the latch is made in the form of a rectangular segment, partially cut out on three sides.

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