RU71828U1 - MONOBLOCK WITH SUPPORT INSULATORS FOR FIXING WIRES AND / OR OPTICAL CABLES ON THE SUPPORT STAND OF THE ELECTRIC TRANSMISSION LINE (OPTIONS) - Google Patents

Abstract

The utility model relates to the field of electrical equipment, and in particular to a monoblock with support insulators for attaching wires and / or optical cables to a power pole support (options). The monoblock case has a supporting element 1 in the form of an isosceles trapezoid along the side faces 2 of which and the smaller base 3 are welded perpendicularly and repeating the profile of the side faces 2 and the smaller base 3 of the trapezoidal shape of the supporting element 1, a curved supporting part 4. According to the first embodiment of the utility model, the corner of the connected supporting element 1 and support part 4, two posts 6 and 7 are welded perpendicular to their surfaces. An annular part (9, 10) is fixed at the ends of the posts 6 and 7. In the second embodiment of the utility model, a supporting corner is welded to the outer surface of the supporting element on one of its sides, with the protruding in the opposite direction to the location of the curved supporting part. A fixing angle is welded perpendicularly to the surface of the protruding end of the support corner by the outer surface of the shelf, in which the holes are made along the edges. In the third embodiment of the utility model, on the sides of the supporting element to its outside surface, two support corners are welded with the ends of the shelves with protrusions in the direction opposite to the location of the curved support part. From the side of the free ends of the supporting corners and in their middle part also two fixing corners are welded to the tops of the shelves. In the middle part of the mounting corners, holes for threaded fasteners are made. Three support insulators 61 are installed on the outer surface 62 of the support part 4. One insulator 24 is located in the middle, and the other two are located on the side surfaces of the sections 63 of the support part 4. Each insulator includes a support part, a fiberglass rod fixed at one end to the support part, a head, which is fixed on the second end of the rod, as well as an insulating body made around the fiberglass rod between the support part and the head with radial ribs of silicone rubber. 3 sec and 45 z.p. f-ly, 15 Il.

Description

The utility model relates to the field of electrical equipment, and in particular to a monoblock with support insulators for attaching wires and / or optical cables to a power pole support (options).

Known fixed on the top of the rack crosshead power line poles with pin ceramic insulators, providing a fan arrangement of fixed wires (US No. 2056366, IPC H02G 7/20, 1934).

Traverse in this known design is made of standardized typesetting elements, from which the traverse can be assembled for mounting two, three, five or more wires. Accordingly, such an assembly, as a rule, is carried out directly at the place of erection of the support, which requires continuous work for installation. The set of parts for the traverse is quite complicated, it requires a lot of fasteners, and in combination with ceramic insulators such a traverse has a significant weight, which requires corresponding costs for delivering the parts to the assembly place.

Known fixed on the top of the rack crosshead power line supports, designed also for the installation of pin ceramic insulators and also providing a fan-shaped arrangement of fixed wires (US No. 3649740, IPC H02G 7/20, 1972).

In this solution, the traverse is made with two guides oriented to the sides and up, between which one is fixed, and two more pin ceramic insulators are fixed at the ends of the guides. The pins for fastening the insulators are oriented vertically, and a bracket is made in the lower part of the traverse for installation on the end of the rack using two bolts passed through the holes in the rack and the holes in the sides of the bracket, between which the end of the rack is located.

In this embodiment, the traverse can be made in the form of a finished unit, delivered to the installation site in assembled form. At the assembly site, it is enough to install the traverse on the rack and fix the ceramic pin insulators on it, after which the support will be ready for attaching the wires.

Ceramic insulators, as a rule, are supplied without preliminary installation on the traverse, this operation is carried out directly at the assembly site. The use of ceramic insulators necessitates the use of

tension rollers when laying wires and / or fiber optic cables on power transmission towers of this design.

Ceramic insulators in this design have a pronounced neck of the end support part, since wires located on the sides of the insulators are laid in the neck recess, since when placed in the central end groove of the insulator when they are laterally located, the wires easily jump off the insulators, which complicates the process of laying wires.

In addition, the known design has significant weight, since it is necessary to distribute the insulators, which also have a sufficiently significant weight, to a sufficient distance necessary to prevent network breakdown at a voltage in the dry state of up to 65 kV and in the rain up to 40 kV, which corresponds to a network voltage of up to 10 kV, common for commonly used lines.

The weight of the traverse together with ceramic insulators in this known design is also quite significant and requires corresponding costs for delivering parts to the place of erection of the support.

Known support insulator containing an insulating body of ceramic material with transverse ribs in the form of a spiral, a head and a lower supporting part, as well as a supporting rod. The head is made with a transverse groove for laying the wire. The supporting rod is located inside the insulating body and ends at the bottom with a threaded end, through which the insulator is mounted on the traverse of the power line support (RU C1 No. 2107963, IPC 6 Н01В 17/14, 1998).

This well-known reference insulator made using ceramic materials has sufficient, if not to say, significant weight common for ceramic insulators. When installing a power line using the described known reference insulator, as well as reference insulators of other known structures, wires or fiber optic cables that currently have insulation made of polymer material are stretched using tension rollers due to significant friction of the insulation of the wires on the glazed surface of the insulators . The use of tension rollers leads to additional labor costs for the construction of a power line, which can be avoided if wires or fiber optic cables can be pulled without the use of tension rollers.

The technical problem that the present utility model addresses is the creation of a block design with insulators for attaching wires and / or fiber optic cables at the end of the rack, which will have less

significant weight in comparison with currently common designs, which will be assembled in a workshop in a monoblock with insulators installed, so that at the place of erection of the support it would only remain to install it on a rack and then lay wires and / or fiber optic cables.

The solution of the problem in the first embodiment of the utility model is ensured by the fact that the monoblock with support insulators for fastening wires and / or optical cables on a power line stand includes a steel casing and support insulators installed on it. The body has a supporting element in the form of an isosceles trapezoid along which the side faces and the smaller base are welded perpendicularly and the profile of the side faces and the smaller base of the trapezoidal shape of the supporting element is curved supporting part. Inside the corner of the connected supporting element and the supporting part, two posts are welded perpendicular to their surfaces, at the ends of which an annular part is fixed.

The supporting insulators are mounted on the outer surface of the supporting part, one in the middle of the section corresponding to the small base of the trapezoid of the bearing element, and the other two in sections along the sides of the trapezoid of the bearing element. Each support insulator includes a support part, a fiberglass rod fixed at one end to the support part, a head that is mounted on the second end of the rod, and an insulating body made around the fiberglass rod between the support part and the head with radial ribs made of silicone rubber.

As a rule, the supporting part and the supporting element are connected along one of their edges with the formation of a L-shaped cross section, which simplifies the manufacture of the crosshead, the design of the technological conductor for its assembly.

To ensure reliable fastening of the monoblock on the rack of the power line support in the middle sections of the racks opposite each other, holes can be made for passing through them and through the hole in the end of the power line support of the power line support between the strips of the threaded fastener.

Alternatively, the annular part can be made in the form of two staple-shaped parts with bent end sections, while the surfaces of one bracket are parallel and opposite the surfaces of similar bent end sections of the other bracket. In the bent end sections, holes are made for installing threaded fasteners.

The housing can be equipped with a U-shaped part fixed by a crossbeam perpendicular to the supporting element, and ends on the annular part. Moreover, how

as a rule, the annular part is made in the form of a polyhedral ring, in particular in the form of an octahedron.

In the second embodiment of the utility model, the solution of the problem is ensured by the fact that the monoblock with support insulators for fastening wires and / or optical cables on a power line rack includes a steel casing and support insulators installed on it. The body has a supporting element in the form of an isosceles trapezoid along which the side faces and the smaller base are welded perpendicularly and the profile of the side faces and the smaller base of the trapezoidal shape of the supporting element is curved supporting part.

A support corner is welded to the outer surface of the supporting element on one of its sides and an outer surface of one of the shelves protrudes in the direction opposite to the location of the curved support part, while a fastening corner is welded to the indicated surface of the protruding end of the support corner on the outer surface of one of the shelves, which is made at the edges of the holes for the passage of the threaded ends of the mounting bracket.

The supporting insulators, as in the first embodiment of the utility model, are mounted on the outer surface of the supporting part, one in the middle of the section corresponding to the small base of the trapezoid of the bearing element, and the other two in sections along the sides of the trapezoid of the bearing element. Each support insulator includes a support part, a fiberglass rod fixed at one end to the support part, a head that is mounted on the second end of the rod, and an insulating body made around the fiberglass rod between the support part and the head with radial ribs made of silicone rubber.

In this embodiment, the supporting part and the supporting element are also connected along one of their edges with the formation of an L-shaped cross section.

The housing in the second embodiment of the utility model can be made with an additional support corner welded with the outer surface of one of the shelves to the outer surface of the supporting element symmetrically to the main support corner. The main and additional reference corners are parallel to the internal cavities towards each other. In this case, the mounting bracket is additionally welded to the indicated surface of the shelf of the additional reference corner.

In the third embodiment of the utility model, the solution to this problem is provided by the fact that a monoblock with support insulators for mounting wires and / or optical cables on a power line rack includes a steel housing and

mounted insulators installed on it. The body has a supporting element in the form of an isosceles trapezoid along which the side faces and the smaller base are welded perpendicularly and the profile of the side faces and the smaller base of the trapezoidal shape of the supporting element is curved supporting part.

On the sides of the supporting element to its outside surface are welded by the ends of the shelves two supporting corners with a protrusion in the direction opposite to the location of the curved supporting part. From the side of the free ends of the supporting corners and in their middle part also two fixing corners are welded to the tops of the shelves. In the middle part of the mounting corners, holes were made for threaded fasteners for attaching the housing to the power transmission tower support.

Support insulators in this embodiment of the utility model, as in the ones described above, are mounted on the outer surface of the support part, one in the middle of the section corresponding to the small base of the trapezoid of the supporting element, and the other two in sections along the sides of the trapezoid of the supporting element. Each support insulator includes a support part, a fiberglass rod fixed at one end to the support part, a head that is mounted on the second end of the rod, and an insulating body made around the fiberglass rod between the support part and the head with radial ribs made of silicone rubber.

The supporting part and the supporting element, as in the previous versions of the utility model, are connected along one of their edges with the formation of an L-shaped cross section.

Support insulators, as follows from the foregoing, in all three variants of the utility model are performed uniformly, but their structural options are possible.

The head of the support insulator may be made of a polymeric material, for example, polyamide. The execution of the insulator head made of polyamide avoids the use of tension rollers when laying power lines, since the wires in the insulation easily slide along the grooves of the heads of the insulators.

The head of the supporting insulator may have a neck, as well as two radial protrusions located on opposite sides between the neck of the head and the insulating body.

The head of the supporting insulator can be made with end protrusions, forming at its end an element in the form of a split sleeve, the cut of which lies along the axis of the insulator.

The insulating body of the support insulator on the head side can be made with an outer cylindrical surface having at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body.

The cavity of the head of the supporting insulator, in which the end of the fiberglass rod is located, can be made with notches on the side surface for reliability of its fastening on the fiberglass rod.

The supporting part of the supporting insulator can be made with a sleeve for fixing the end of the fiberglass rod inside it. In particular, the supporting part of the insulator can be made in the form of a disk, and the element for fixing the insulator in the form of a protruding threaded axial rod.

The head of the supporting insulator can be made of metal, for example steel. In this case, the head of the supporting insulator can be made with a sleeve, inside of which the end of the fiberglass rod is located, and fixed on it with a sleeve crimping.

When the head of the support insulator is made of metal, it can have an extension with an annular groove.

The utility model, made in accordance with the first embodiment, is illustrated by specific examples, illustrated by graphic materials:

- figure 1 shows a monoblock with supporting insulators for mounting wires and / or optical cables on a rack of a power line support with an annular part in the form of contractible brackets, front view;

- figure 2 shows a section of figure 1 along a plane extending perpendicular to the stripes;

- figure 3 shows the housing of the monoblock shown in figure 1, side view;

- figure 4 shows a monoblock with supporting insulators for mounting wires and / or optical cables on a rack of a transmission line support with an annular part in the form of a polyhedral ring;

- figure 5 shows a section according to figure 4 along a plane extending perpendicular to the stripes;

- figure 6 shows the housing of the monoblock shown in figure 4, side view.

The steel monoblock housing for attaching wires and / or optical cables to the power line stand (Fig. 1) has a supporting element 1 in the form of an isosceles trapezoid along the side faces 2 of which and the smaller base 3 are welded

perpendicular and repeating the profile of the side faces 2 and the smaller base 3 of the trapezoidal shape of the supporting element 1 curved supporting part 4 of the body of the monoblock.

The supporting part 4 of the housing and its supporting element 1 are connected along one of their edges 5 with the formation of a L-shaped cross section (figure 3). Inside the corner of the connected supporting element 1 and the supporting part 4, two posts 6 and 7 are welded perpendicular to their surfaces to cover the end of the rack (not shown in the drawings) of the power line with its facing surfaces 8 facing each other.

At the ends of the uprights 6 and 7, brackets 9 and 10 (FIG. 2) are fixed with bent end sections 11 and 12, the surfaces of which 13 and 14 are parallel and opposite each other. Holes are made in the bent end sections 11 and 12 (in FIG. 1 and FIG. 2, tightening bolts 15 with nuts 16 are inserted into these holes).

In the middle sections of the uprights 6 and 7, holes 17 are made opposite each other (Fig. 3) for passing through them and through the hole in the end of the uprights of the bolt 18 with nut 19 located between the strips (in Fig. 1, the aforementioned bolt is inserted eighteen).

In the embodiment of the utility model shown in FIGS. 4, 5 and 6, the annular part 20 is octagonal. In this case, the housing is made with a U-shaped part 21, fixed by a crossbar 22 (Fig.6) perpendicular to the supporting element 1, and the ends 23 on the annular part 20.

The utility model made according to the second embodiment is illustrated by the following graphic materials:

- Fig. 7 shows a monoblock with support insulators for attaching wires and / or optical cables to a power transmission tower support with one support corner, front view;

- Fig. 8 shows a section in Fig. 7 along a plane perpendicular to the reference angle;

- Fig. 9 shows a monoblock with support insulators for fastening wires and / or optical cables to a power transmission tower pillar with primary and secondary support angles, front view;

- figure 10 shows a section according to figure 9 along a plane extending perpendicular to the main and additional reference angles.

The steel monoblock housing for mounting wires and / or optical cables on a power line rack (Fig. 7) has a supporting element 24 in the form of an isosceles

trapezoid along the side faces 25 of which and the smaller base 26 are welded perpendicularly and repeating the profile of the side faces 25 and the smaller base 26 of the trapezoidal shape of the supporting element 23 curved supporting part 27 of the monoblock body.

The supporting part 27 of the monoblock housing and its supporting element 24 are connected along one of their edges 28 with the formation of a L-shaped cross section.

A support corner 30 is welded to an outer surface 29 of the bearing member 24 on one of its sides and an outer surface 31 of the shelf 32 protrudes in a direction opposite to that of the curved support 27. A fastening angle 34 is welded perpendicular to the surface 31 of the protruding end 33 of the support corner 30 with an outer surface 35 of the shelf 36, in which the edges of the hole 37 are made. The threaded ends 38 of the mounting bracket 39 are passed into the holes 37, onto which the nuts 40 are screwed.

In the embodiment of the utility model shown in Figs. 9 and 10, the casing is provided with an additional abutment angle 41 welded to the outer surface 42 of the shelf 43 to the outer surface 29 of the carrier 24 symmetrically to the main abutment 30. The mounting angle 34 is additionally welded to the surface 42 of the additional shelf 43 reference corner.

The main 30 and additional 41 support angles are parallel to the internal cavities 44 towards each other, while their outer surfaces 45 mate with the ends 46 of the bracket 39.

Examples of the utility model according to the third embodiment are illustrated by the following graphic materials:

- figure 11 shows a monoblock with support insulators for mounting wires and / or optical cables on a rack of a power line support, front view;

- Fig. 12 shows a section through Fig. 1 along a plane perpendicular to the reference angle;

The steel monoblock case for attaching wires and / or optical cables to the power line stand (Fig. 11) has a supporting element 47 in the form of an isosceles trapezoid along the side faces 48 of which and the smaller base 49 are welded perpendicularly and repeating the profile of the side faces 48 and the smaller base 49 are trapezoidal the shape of the carrier 47, a curved support part 50 of the monoblock body.

The supporting part 50 of the monoblock case and its supporting element 47 are connected along one of their edges 51 with the formation of an L-shaped cross section.

On the sides of the supporting element 47 to its outside surface (not visible in the drawings), two support angles 54 are welded by the ends 52 of the tops 53 of the shelves to protrude in the direction opposite to the location of the curved support part 50. From the side of the free ends 55 of the support angles 54 and in their middle parts 56 also two fixing corners 57 and 58 are welded to the tops of 53 shelves.

In the middle part of the mounting corners 57 and 58, holes were made for threaded fasteners for securing the housing to the power transmission support pillar (in the drawing of FIG. 11, the bolt heads 59 and 60 are shown at the holes).

In all three variants of the utility model, three support insulators 61 are mounted on the outer surface 62 of the support part 4 as shown in FIG. 1, that is, one insulator 61 is located in the middle, and the other two on the side surfaces of the portions 63 of the support part 4.

The design of the supporting insulators is illustrated by graphic materials, which show two versions of the insulator, a side view with axial cuts.

The first embodiment of the support insulator is illustrated by insulators with heads made of polymer material: in Fig. 13 - a support insulator with a head having only a neck, and in Fig. 14 - a support insulator, the head of which has both a neck and end protrusions in the form of a split sleeve .

A second embodiment of a support insulator, the head of which is made of metal, is illustrated by the example shown in FIG.

The support insulator shown in Fig. 13 contains a support part in the form of a disk 64 with a sleeve 65 for fixing the end 66 of the fiberglass rod 67 therein. To mount the support insulator on the disk 64, a protruding threaded axial rod 68 is fixed, which is returned to the threaded hole 69 of the disk 64. The disk 64 and the sleeve 65 are made of steel and the sleeve 65 is fixed to the disk by welding. The fiberglass rod 67 is secured inside the sleeve 65 by crimping.

At the end 70 of the fiberglass rod 67, a head 71 is fixed, which is made of polyamide.

Around the shaft 67 between the disk 64 and the head 71 is an insulating body 72 having radial ribs 73. The insulating body 72 is made of silicone rubber.

The head 71 is made with a neck 74, as well as with two radial protrusions 75 located on opposite sides between the neck 74 and the insulating body 72.

In the example of the supporting insulator shown in Fig. 14, the head 76 is made with end protrusions 77 forming an element in the form of a split sleeve at its end, a section 78 of which lies on the axis of the insulator.

The insulating body 72 (Fig.13) on the head side 71 is made with the male head 71 having an outer cylindrical surface 79 having two annular grooves 80 for the sealing element.

The cavity 81 of the head 71, in which the end 70 of the fiberglass rod 67 is located, is made with notches (not shown in the drawings) on the side surface 82.

On Fig shows an example of a second variant of the reference insulator. Its difference from the previous version of the utility model consists only in the execution of the head 83, for the manufacture of which metal is used, and in a particular case steel.

In this example, the head 83 is made with a sleeve 84, inside of which is located the end 85 of the fiberglass rod 86. The head 83 is mounted on a fiberglass rod 86 by crimping the sleeve 84.

The head 83 is made with an extension 87 with an annular groove 88.

The insulating body 89 in this embodiment of the utility model, also on the head 83 side, is made with the outer cylindrical surface 90 covered by the head 83 and having two annular grooves 91 for forming a sealing element.

The supporting insulators 61 are fixed by passing the threaded rods 68 through the holes (not visible in the drawings) in the supporting part 4 (Fig. 1). Nuts 92 are screwed onto the threaded rods 68 (FIG. 1).

In the manufacture of support insulators, first the fiberglass core 67 is fixed in the sleeve 65 of the support part with the disk 64, after which this assembly is placed in the mold, where silicone rubber is fed to form the insulating body 72. After polymerization of the silicone rubber, the assembly is removed from the mold and onto the end 70 of the rod 67 of fiberglass is installed head 71. Pre-in the grooves 80 are installed sealing elements, for example, in the form of rubber rings.

The monoblock case is manufactured using the traditional technology of parts assembled using electric welding. Its parts are made of sheet material. The supporting part 4 of the monoblock body is formed using a bending operation.

The developed monoblock design can be implemented in all reasonable sizes, but it is preferable to use it for power lines with a network voltage of up to 10 kV. In this case, the height of the supporting insulator is chosen at least 200 mm. The angle between the surfaces of sections 63 and surface 62 is chosen equal to 120 degrees.

The support insulators made according to the utility model have a lower weight in comparison with traditional insulators with an insulating ceramic body; they are used for mounting on traverses before mounting traverses on racks. Thanks to the reduced weight, it is possible to mount traverses on racks with pre-installed insulators. Monoblocks prepared for installation with fixed support insulators and a set of fasteners are packed in a container of traditional design - wooden crates or boxes made of polymer material and delivered to the place of erection of power line poles. Monoblock can be used for installation on the ends of racks: in the first embodiment of the utility model - square or multifaceted section; in the second embodiment, a square section; in the third version - round section.

Claims (48)

1. A monoblock with supporting insulators for fastening wires and / or optical cables to a power transmission tower support, including a steel case and supporting insulators installed on it, the case has a supporting element in the form of an isosceles trapezoid, welded perpendicularly along the side faces of the smaller base and repeating it the profile of the side faces and the smaller base of the trapezoidal shape of the supporting element is a curved supporting part, inside the corner of the connected supporting element and supporting part perpendicular to their surface two racks are welded to them, an annular part is fixed at the ends of the racks, supporting insulators are mounted on the outer surface of the supporting part, one in the middle of the section corresponding to the small base of the trapezoid of the supporting element, and the other two in sections along the sides of the trapezoid of the supporting element, each insulator includes a supporting a part, a fiberglass rod fixed at one end to a support part, a head that is fixed to the second end of the rod, and an insulating body made around the fiberglass rod lithium between the support part and the head with radial ribs made of silicone rubber. 2. Monoblock according to claim 1, characterized in that the supporting part and the supporting element are connected along one of their edges with the formation of a L-shaped cross section. 3. Monoblock according to claim 1, characterized in that in the middle sections of the racks opposite each other there are holes for the fastener. 4. The monoblock according to claim 1, characterized in that the annular part is made in the form of two staple-shaped parts with bent end sections, the surfaces of which one bracket are parallel and opposite the surfaces of similar bent end sections of the other bracket, with holes for bent end sections installation of threaded fasteners. 5. Monoblock according to claim 1, characterized in that the casing is provided with a U-shaped part fixed by a crossbeam perpendicular to the supporting element, and ends on the annular part. 6. Monoblock according to claim 1, characterized in that the annular part is made in the form of a multifaceted ring. 7. Monoblock according to claim 1, characterized in that the annular part is made in the form of an octahedron. 8. Monoblock according to claim 1, characterized in that the insulator head is made of a polymeric material. 9. Monoblock according to claim 1, characterized in that the head of the supporting insulator is made of polyamide. 10. Monoblock according to claim 1, characterized in that the head of the supporting insulator is made with a neck, as well as with two radial protrusions located on opposite sides between the neck of the head and the insulating body. 11. The monoblock according to claim 1, characterized in that the head of the supporting insulator is made with end protrusions forming at its end an element in the form of a split sleeve, the cut of which lies along the axis of the insulator. 12. Monoblock according to claim 1, characterized in that the insulating body of the support insulator on the head side is made with an outer cylindrical surface having at least one annular groove for forming a sealing element, while the head covers this cylindrical surface of the insulating body. 13. The monoblock according to claim 1, characterized in that the cavity of the head of the support insulator, in which the end of the fiberglass rod is located, is made with notches on the side surface. 14. Monoblock according to claim 1, characterized in that the supporting part of the supporting insulator is made with a sleeve for fixing the end of the fiberglass rod inside it. 15. Monoblock according to claim 1, characterized in that the supporting part of the supporting insulator is made in the form of a disk with a protruding threaded axial rod. 16. Monoblock according to claim 1, characterized in that the head of the supporting insulator is made of metal. 17. Monoblock according to clause 16, characterized in that the head of the supporting insulator is made with a sleeve, inside which is located the end of the fiberglass rod, while the head is mounted on the fiberglass rod by crimping the sleeve. 18. Monoblock according to clause 16, characterized in that the head of the reference insulator is made with the extension with an annular groove. 19. Monoblock according to clause 16, characterized in that the head of the reference insulator is made of steel. 20. A monoblock with support insulators for fastening wires and / or optical cables to a power transmission tower pillar, including a steel case and support insulators installed on it, the case has a supporting element in the form of an isosceles trapezoid, welded perpendicular along the side faces of the smaller base and repeating it the profile of the side faces and the smaller base of the trapezoidal shape of the bearing element is a curved supporting part, to which the outside of the surface of the bearing element is welded on one of its sides the corner of the outer surface of one of the shelves with the protrusion in the opposite direction to the location of the curved supporting part, perpendicular to the mounting corner is welded to the indicated surface of the protruding end of the supporting corner, the outer surface of one of the shelves, in which are made along the edges of the hole for the threaded ends of the mounting bracket, supporting insulators mounted on the outer surface of the support part, one in the middle of the section corresponding to the small base of the trapezoid of the supporting element, and the other two to On the side of the trapezoid of the supporting element, each support insulator includes a support part, a fiberglass rod fixed at one end to the support part, a head that is fixed to the second end of the rod, and an insulating body made around the fiberglass rod between the support part and head with radial ribs made of silicone rubber. 21. Monoblock according to claim 20, characterized in that the supporting part and the supporting element are connected along one of their edges with the formation of a L-shaped cross section. 22. Monoblock according to claim 20, characterized in that the casing is provided with an additional supporting corner welded to the outer surface of one of the shelves to the outer surface of the supporting element symmetrically to the main supporting corner, the mounting bracket is additionally welded to the indicated surface of the shelf of the additional supporting corner, while the main and additional support angles are parallel to the internal cavities towards each other. 23. Monoblock according to claim 20, characterized in that the head of the reference insulator is made of a polymer material. 24. Monoblock according to claim 20, characterized in that the head of the reference insulator is made of polyamide. 25. Monoblock according to claim 20, characterized in that the head of the supporting insulator is made with a neck, as well as with two radial protrusions located on opposite sides between the neck of the head and the insulating body. 26. Monoblock according to claim 20, characterized in that the head of the supporting insulator is made with end protrusions forming at its end an element in the form of a split sleeve, the cut of which lies along the axis of the insulator. 27. Monoblock according to claim 20, characterized in that the insulating body of the support insulator on the head side is made with an outer cylindrical surface having at least one annular groove for forming a sealing element, the head covering this cylindrical surface of the insulating body. 28. Monoblock according to claim 20, characterized in that the cavity of the head of the supporting insulator, in which the end of the fiberglass rod is located, is made with notches on the side surface. 29. Monoblock according to claim 20, characterized in that the supporting part of the supporting insulator is made with a sleeve for fixing the end of the fiberglass rod inside it. 30. Monoblock according to claim 20, characterized in that the supporting part of the supporting insulator is made in the form of a disk with a protruding threaded axial rod. 31. Monoblock according to claim 20, characterized in that the head of the supporting insulator is made of metal. 32. Monoblock according to p. 31, characterized in that the head of the supporting insulator is made with a sleeve, inside which is located the end of the fiberglass rod, while the head is mounted on the fiberglass rod by crimping the sleeve. 33. Monoblock according to p. 31, characterized in that the head of the supporting insulator is made with the extension with an annular groove. 34. Monoblock according to p. 31, characterized in that the head of the supporting insulator is made of steel. 35. A monoblock with supporting insulators for fastening wires and / or optical cables to a power transmission tower support, including a steel case and supporting insulators installed on it, the case has a supporting element in the form of an isosceles trapezoid, along the side faces of which and the smaller base are welded perpendicularly and repeating the profile of the side faces and the smaller base of the trapezoidal shape of the supporting element is a curved supporting part, the ends are welded to the ends of the supporting element to its outside surface the tops of the shelves are two support angles with a protrusion in the direction opposite to the location of the curved support part, from the side of the free ends of the support corners and in their middle part also two fastening corners are welded to the tops of the shelves, in the middle part of which holes are made for threaded fasteners for fastening the case to the rack power transmission towers, support insulators are installed on the outer surface of the support part, one in the middle of the section corresponding to the small base of the trapezoid of the supporting element, and two each x - in areas along the sides of the trapezoid of the supporting element, each supporting insulator includes a supporting part, a fiberglass rod fixed at one end to the supporting part, a head that is fixed to the second end of the rod, and an insulating body made around the fiberglass rod between the supporting a part and a head with radial ribs made of silicone rubber. 36. Monoblock according to claim 35, characterized in that the supporting part and the supporting element are connected along one of their edges with the formation of an L-shaped cross section. 37. Monoblock according to clause 35, wherein the head of the supporting insulator is made of a polymer material. 38. Monoblock according to clause 35, wherein the head of the supporting insulator is made of polyamide. 39. Monoblock according to claim 35, characterized in that the head of the supporting insulator is made with a neck, as well as with two radial protrusions located on opposite sides between the neck of the head and the insulating body. 40. Monoblock according to claim 35, characterized in that the head of the support insulator is made with end protrusions forming an element in its end in the form of a split sleeve, the cut of which lies along the axis of the insulator. 41. Monoblock according to claim 35, characterized in that the insulating body of the support insulator on the head side is made with an outer cylindrical surface having at least one annular groove for forming the sealing element, wherein the head covers this cylindrical surface of the insulating body. 42. Monoblock according to claim 35, characterized in that the cavity of the head of the support insulator, in which the end of the fiberglass rod is located, is made with notches on the side surface. 43. Monoblock according to claim 35, characterized in that the supporting part of the supporting insulator is made with a sleeve for securing the end of the fiberglass rod inside it. 44. Monoblock according to clause 35, wherein the supporting part of the supporting insulator is made in the form of a disk with a protruding threaded axial rod. 45. Monoblock according to clause 35, wherein the head of the supporting insulator is made of metal. 46. Monoblock according to item 45, wherein the head of the supporting insulator is made with a sleeve, inside of which is located the end of the fiberglass rod, while the head is mounted on the fiberglass rod by crimping the sleeve. 47. Monoblock according to item 45, wherein the head of the supporting insulator is made with the expansion of the annular groove. 48. Monoblock according to item 45, wherein the head of the supporting insulator is made of steel.