RU159854U1 - Fiberglass pedestal for complete transformer substation - Google Patents

Abstract

1. A pedestal for a complete transformer substation, consisting of a receiving portal of a U-shaped design, used to fasten a 6 (10) kV high voltage power transmission line to a complete transformer substation through insulators and attached to a work platform installed on the base, and vertical supports connecting the base to a working platform, and the receiving portal is strengthened by an additional support beam, and the pedestal is made entirely of structural fiberglass profiles. 2. The pedestal according to claim 1, wherein the receiving portal consists of vertical posts and a horizontal beam, the vertical posts made of fiberglass square pipe ST 50 × 50 × 5 × 5 with a length L = 3250 mm, and the horizontal beam made of fiberglass square pipe ST 60 × 60 × 5 × 5 with a length L = 1500 mm, and the vertical posts are connected to the horizontal beam by gluing. 3. The pedestal according to claim 1, in which the additional support beam is installed diagonally, consists of a square pipe ST 50 × 50 × 5 × 5 with a length L = 1319 mm and is attached to the receiving portal and the working platform by a bolted connection. 4. The pedestal according to claim 1, in which the base is a structure consisting of 100 × 50 × 6 × 6 fiberglass channels connected to each other as a frame, using two channels of length L = 2000 mm in length and two cross channels of length L = 1500 mm in the amount of two. 5. The pedestal according to claim 1, in which the working platform is a structure consisting of fiberglass channels 100 × 50 × 6 × 6 interconnected in the form of a frame, using longitudinal channels with a length of L = 2000 mm in the amount of two and transverse channels with a length of L = 1500 mm in the amount of two. 6. The pedestal according to claim 1, in which the vertical supports

Description

The utility model relates to the field of electrical engineering and can be used in the construction of complete transformer substations (KTP) with a voltage of 6 (10) / 04 kV, namely, pedestal structures for KTP.

A known housing for a complete transformer substation closed type (patent RU No. 2895, IPC H02B 7/00, publ. 09/16/1996), which houses a power transformer, switchgear high and low voltage and protective equipment, and the housing is made from reinforced concrete.

Known mobile support transformer substation (patent No. CN 203787813, IPC H02B 1/54, publ. 2014-08-20), including metal support racks, sheet steel and fixed poles, and the metal support racks are stably connected with the housing of the mobile transformer substation using bolts, the sheet steel is placed on the earth's surface and fixed to the metal support column by welding, and the fixed posts are stably connected to the sheet steel by means of bolts.

Known support receiving node electrical installation (patent RU No. 2267843, IPC H02B 5/02, H01B 1/00, publ. 10.01.2006), the closest in technical essence to the claimed device and adopted as a prototype, consisting of two polymer support insulators connected by height with the formation of a stiffness node, representing a pipe made of an insulating material, for example, fiberglass, which is a power element for the perception of mechanical stress.

However, the known analogues do not provide sufficient protection for staff from electric shock, have high overall dimensions, require the use of special equipment for transportation, and cannot be easily dismantled and moved to a new place, if necessary. Also known devices have low corrosion resistance, require periodic anti-corrosion treatment.

The problem the utility model aims to solve is to create a fiberglass pedestal device for KTP 6 (10) /0.4 kV with improved performance characteristics.

The technical result, which is achieved by using the claimed utility model, is to increase the operational reliability of electrical installations, while ensuring the protection of maintenance personnel from electric shock, reducing the metal consumption of the supporting structure, and reducing the total cost of installation and operation of the electrical installation.

The inventive device is partially collapsible, which provides convenience during installation and disassembly, when moving from place to place, during transportation, storage, ease of repair.

The inventive device is illustrated in the figure.

The inventive device consists of the following elements:

1 - receiving portal, 2 - base of the pedestal, 3 - vertical supports installed on the base of the pedestal, 4 - work platform mounted on vertical supports, 5 - fence of the working platform, 6 - additional support beam for the receiving portal, 7 - pedestal staircase, 8 - rail railing stairs.

The receiving portal 1 is a U-shaped structure, the vertical posts of which are made of fiberglass square pipe ST 50 × 50 × 5 × 5 with a length L = 3250 mm, and the horizontal beam of fiberglass square pipes ST 60 × 60 × 5 × 5 with a length L = 1500 mm.

Vertical posts are connected to the horizontal beam by gluing. The receiving portal is attached to the work platform 4 by a bolted connection and is reinforced with a beam 6 for the perception of horizontal loads, both wind and wire tension. The receiving portal 1 is intended for fastening the VLEP 6 (10) kV wire (overhead power line) to the KTP structure through insulators at a safe distance for the operating personnel.

The base 2 of the pedestal is a structure consisting of fiberglass channels of type C 100 × 50 × 6 × 6 interconnected as a frame (longitudinal channels with a length of L = 2000 mm in an amount of 2 pieces and transverse channels with a length of L = 1500 mm in an amount of 2 are used pieces). Channel bars are interconnected by bolted joints. Base 2 is designed to enhance the stability of the pedestal and the possibility of fixing to the foundation.

Platform 4 is a structure consisting of fiberglass channels of type C 100 × 50 × 6 × 6 interconnected as a frame (longitudinal channels with a length of L = 2000 mm in the amount of 2 pieces and transverse channels with a length of L = 1500 mm in the amount of 2 are used pieces). Channel bars are interconnected by bolted joints. Work platform 4 is designed for the possibility of serving KTP personnel on the flooring of the site.

Vertical supports 3 consist of channels of type C 100 × 50 × 6 × 6 with a length of L = 1160 mm and are designed to connect the base 2 of the pedestal with the work platform 4 and the perception of vertical loads.

The fence 5 of the working platform 4 consists of fiberglass pipes of square profile ST 50 × 50 × 5 × 5 of different lengths, interconnected by gluing. Guard 5 is designed to protect personnel from falling.

An additional support beam 6 for the receiving portal consists of a square pipe ST 50 × 50 × 5 × 5 with a length L = 1319 mm (2 pieces are used) and is designed to strengthen the rigidity of the receiving portal 1, and is connected to it and to the working platform by 4 bolted connections .

The pedestal contains a ladder 7 with a railing, installed on the base with emphasis on the work platform.

Ladder 7 of the pedestal consists of runs in the form of two fiberglass channels With 100 × 50 × 6 × 6 and fiberglass steps in the amount of 4 pieces for lifting personnel. The steps are connected to the channels with bolted joints. The runs of the stairs 7 are attached to the base 2 and the working platform 4 by bolted connections.

The staircase guard 8 consists of fiberglass pipes of square profile ST 50 × 50 × 5 × 5 of different lengths, interconnected by gluing. The guard 8 is designed to protect personnel from falling.

The pedestal is assembled using a bolted connection of structural elements 2, 3, 4, 7 in workshop conditions. At the facility, when assembling the pedestal, structural elements 1, 5, 6 are connected.

The pedestal has the following dimensions: the total length of the base is 2925 mm, the total length of the working platform is 1900 mm, the height of each step of the staircase is 240 mm.

The pedestal for KTP 6 (10) / 0.4 kV is made of fiberglass profiles combined by gluing and bolting.

The fiberglass structural profile is made of two main composites: VEFR-25, vinyl ester resin or IFR-25, polyester resin.

The fiberglass profile is produced by the pultrusion process, in which the fiberglass is impregnated with resin, and then passed through the heated shape of a specific profile.

The temperature of the pedestal: from -100 to + 150 ° C.

Construction material provides:

- sufficient strength and high corrosion resistance of the pedestal: painting is not required for the entire period of service life, while the elements are painted in bulk at the stage of manufacturing a fiberglass profile.

- fiberglass is a good dielectric, which significantly reduces the risk of electric shock to personnel;

- the design is partially collapsible and has a low weight, which makes it possible to transport it by means of small-scale mechanization.

Claims (19)

1. A pedestal for a complete transformer substation, consisting of a receiving portal of a U-shaped design, used to fasten a 6 (10) kV high voltage power transmission line to a complete transformer substation through insulators and attached to a work platform installed on the base, and vertical supports connecting the base to a working platform, and the receiving portal is strengthened by an additional support beam, and the pedestal is made entirely of structural fiberglass profiles. 2. The pedestal according to claim 1, in which the receiving portal consists of vertical posts and a horizontal beam, the vertical posts are made of fiberglass square pipe ST 50 × 50 × 5 × 5 with a length L = 3250 mm, and the horizontal beam is made of fiberglass square pipe ST 60 × 60 × 5 × 5 with a length of L = 1500 mm, and the vertical posts are connected to the horizontal beam by gluing. 3. The pedestal according to claim 1, in which the additional support beam is installed diagonally, consists of a square pipe ST 50 × 50 × 5 × 5 with a length L = 1319 mm and is attached to the receiving portal and the working platform by a bolted connection. 4. The pedestal according to claim 1, in which the base is a structure consisting of fiberglass channels 100 × 50 × 6 × 6 interconnected in the form of a frame, two longitudinal channels and transverse channels are used as longitudinal channels of length L = 2000 mm length L = 1500 mm in the amount of two. 5. The pedestal according to claim 1, in which the working platform is a structure consisting of fiberglass channels 100 × 50 × 6 × 6 interconnected in the form of a frame, using longitudinal channels with a length of L = 2000 mm in the amount of two and transverse channel length L = 1500 mm in the amount of two. 6. The pedestal according to claim 1, in which the vertical supports consist of channels of type C 100 × 50 × 6 × 6 with a length of L = l 160 mm in an amount of four or six. 7. The pedestal according to claim 1, in which the working platform along its perimeter contains a fence made in the form of a connection of vertical and horizontal fiberglass pipes of square profile ST 50 × 50 × 5 × 5 of different lengths, interconnected by gluing. 8. The pedestal under item 1, which contains a staircase with a railing, installed on the base with emphasis on the work site. 9. The pedestal according to claim 8, in which the staircase consists of runs in the form of two fiberglass channels 100 × 50 × 6 × 6 and fiberglass steps in an amount of at least four. 10. The pedestal according to claim 8, in which the railing consists of fiberglass pipes of square profile ST 50 × 50 × 5 × 5 of different lengths, interconnected by gluing. 11. The pedestal according to claim 1 or 9, in which the working platform and the steps of the stairs are made in the form of a grating. 12. The pedestal according to claim 9, in which the steps of the stairs are connected to the channels with bolted joints. 13. The pedestal according to claim 1 or 9, in which the runs of the stairs are attached to the base and the working platform by bolted joints. 14. The pedestal according to claim 1, in which the structural fiberglass profiles are connected by bonding and using bolted joints. 15. The pedestal according to claim 1, in which the structural fiberglass profiles consist of two composites: VEFR-25 and a vinyl ester resin or IFR-25 and a polyester resin. 16. The pedestal under item 1, which is made with the possibility of operation at a temperature of from -100 to + 150 ° C. 17. The pedestal according to claim 1, in which all the profiles have a U-shaped cross section. 18. The pedestal according to claim 1 or 9, in which the total length of the base is 2925 mm, the total length of the working platform is 1900 mm, the height of each step of the staircase is 240 mm. 19. The pedestal according to any one of paragraphs. 4-6, 9, in which the channel is interconnected by bolted connections.

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