CN223638799U - A wiring tray for a high-voltage ring main unit - Google Patents

Abstract

The utility model relates to the technical field of high-voltage ring main units, in particular to a wiring bridge of a high-voltage ring main unit, which comprises a first bridge plate and a second bridge plate, wherein the first bridge plate and the second bridge plate are of L-shaped structures, one side of the second bridge plate is arranged on the first bridge plate, and the tops of the first bridge plate and the second bridge plate are equidistantly provided with adjusting holes for adjusting the distance. Through the subassembly that first bridge plate and second bridge plate are constituteed, realize providing one set of use intensity for the high-voltage ring network cabinet and be able to adjust the crane span structure of wiring width in a flexible way, in order to satisfy the use of the high-voltage ring network cabinet of multiple wiring demand, structural strength of first bridge plate and second bridge plate can be improved through reinforced structure, and the stainless steel screwed pipe has improved the horizontal supporting strength of whole crane span structure, the cross-section moment of inertia of crane span structure is increased with protruding indent, thereby improve its bending resistance, make the crane span structure more stable when bearing loads such as cable, be difficult for taking place deformation.

Description

Wiring bridge of high-voltage ring network cabinet

Technical Field

The utility model relates to the technical field of high-voltage ring main units, in particular to a wiring bridge of a high-voltage ring main unit.

Background

The high-voltage ring main unit is widely applied to urban power grids, industrial electricity and important load places such as hospitals, large-scale markets, airports and the like and is used for realizing automatic switching and fault isolation among a plurality of power supplies and ensuring the stability of power supply, and the circuits in the high-voltage ring main unit are generally laid through bridge construction, so that a large number of cables and wires in and among the cabinets are orderly and orderly arranged and supported, potential safety hazards caused by cable confusion are prevented, and meanwhile, the management, maintenance and replacement of the cables are facilitated.

The bridge of the existing high-voltage ring network cabinet is limited in use width, cannot be adjusted based on different use requirements of the high-voltage ring network cabinet, and is low in structural strength and easy to deform, so that the wiring bridge of the high-voltage ring network cabinet is provided.

Disclosure of utility model

Aiming at the problems in the prior art, the utility model provides a wiring bridge of a high-voltage ring main unit, which is used for providing a set of bridge with high use strength for the high-voltage ring main unit and can flexibly adjust the wiring width so as to meet the use of the high-voltage ring main unit with various wiring requirements.

The technical scheme adopted by the utility model for solving the technical problems is that the wiring bridge frame of the high-voltage ring main unit comprises a first bridge plate and a second bridge plate, wherein the first bridge plate and the second bridge plate are of L-shaped structures, one side of the second bridge plate is arranged on the first bridge plate, regulating holes for regulating the distance are formed in the tops of the first bridge plate and the second bridge plate at equal intervals, and reinforcing structures are arranged on the first bridge plate and the second bridge plate.

Through adopting above-mentioned technical scheme, through the subassembly that first bridge plate and second bridge plate are constituteed, realize providing one set of use intensity height for the high-voltage ring network cabinet, and can adjust the crane span structure of wiring width in a flexible way to satisfy the use of the high-voltage ring network cabinet of multiple wiring demand.

Specifically, reinforced structure includes stainless steel screwed pipe, indent and arch, the perforation that is used for stainless steel screwed pipe to wear to establish is offered respectively in first lamina bridge and second lamina bridge two parts, the perforation is run through respectively at stainless steel screwed pipe both ends, and stainless steel screwed pipe both ends threaded connection has the nut.

Through adopting above-mentioned technical scheme, can improve the structural strength of first bridge plate and second bridge plate through reinforced structure, and stainless steel screwed pipe has improved the horizontal supporting strength of whole crane span structure, and indent and arch increase the cross-section moment of inertia of crane span structure to improve its bending resistance, make the crane span structure more stable when bearing loads such as cable, be difficult for taking place deformation.

Specifically, the indent is provided with a set of at least, the indent sets up along first lamina bridge and second lamina bridge bottom corner equidistance.

Specifically, a bolt is inserted between the adjusting holes of the first bridge plate and the second bridge plate, and an internal thread hexagonal used for screwing the first bridge plate and the second bridge plate is sleeved at the bottom of the bolt.

Through adopting above-mentioned technical scheme, run through the regulation hole of first bridge plate and second bridge plate through the bolt, and behind the use width adjustment between first bridge plate and the second bridge plate, twist up the bolt in the regulation hole through the internal thread hexagonal, make the use of first bridge plate and second bridge plate obtain fixedly.

Specifically, the protrusions are at least provided with one group, and are equidistantly arranged along the surfaces of the first bridge plate and the second bridge plate.

The utility model has the beneficial effects that: through the subassembly that first bridge plate and second bridge plate are constituteed, realize providing one set of use intensity for the high-voltage ring network cabinet and be able to adjust the crane span structure of wiring width in a flexible way, in order to satisfy the use of the high-voltage ring network cabinet of multiple wiring demand, can improve the structural strength of first bridge plate and second bridge plate through reinforced structure, and the stainless steel screwed pipe has improved the horizontal supporting strength of whole crane span structure, the cross-section moment of inertia of crane span structure is increased with protruding indent, thereby improve its bending resistance, make the crane span structure more stable when bearing loads such as cable, be difficult for taking place deformation, the crane span structure of solving current high-voltage ring network cabinet uses the width limited, can't adjust based on the user demand difference of high-voltage ring network cabinet, and bridge structure intensity is low simultaneously, the problem of yielding.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is an overall schematic of the present utility model;

FIG. 2 is a schematic view of the first bridge plate and the second bridge plate of the present utility model separated;

FIG. 3 is a schematic view of a bolt of the present utility model;

FIG. 4 is an enlarged schematic view of FIG. 1A according to the present utility model;

In the figure, a first bridge plate 1, a second bridge plate 2, an adjusting hole 3, a through hole 4, a stainless steel threaded tube 5, a nut 6, a bolt 7, an internal thread hexagonal 8, a pressing groove 9 and a bulge 10.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

As shown in fig. 1-4, the wiring bridge of the high-voltage ring network cabinet of the utility model comprises a first bridge plate 1 and a second bridge plate 2, wherein the first bridge plate 1 and the second bridge plate 2 are of an L-shaped structure, one side of the second bridge plate 2 is arranged on the first bridge plate 1, adjusting holes 3 for adjusting the distance are formed at equal distances at the tops of the first bridge plate 1 and the second bridge plate 2, and reinforcing structures are arranged on the first bridge plate 1 and the second bridge plate 2.

When the high-voltage ring network cabinet is used, the first bridge plate 1 and the second bridge plate 2 provide a set of bridge frame which has high use strength and can flexibly adjust the wiring width for the high-voltage ring network cabinet so as to meet the use of the high-voltage ring network cabinet with various wiring requirements.

The utility model further comprises that the reinforcing structure comprises a stainless steel threaded pipe 5, a pressing groove 9 and a bulge 10, wherein two parts of the first bridge plate 1 and the second bridge plate 2 are respectively provided with a through hole 4 for the stainless steel threaded pipe 5 to penetrate, two ends of the stainless steel threaded pipe 5 respectively penetrate through the through holes 4, and two ends of the stainless steel threaded pipe 5 are in threaded connection with nuts 6.

When in use, the structural strength of the first bridge plate 1 and the second bridge plate 2 can be improved based on the reinforcing structure, and the stainless steel threaded pipe 5 improves the transverse supporting strength of the whole bridge, and the pressing groove 9 and the bulge 10 increase the section moment of inertia of the bridge, so that the bending resistance of the bridge is improved, the bridge is more stable when bearing loads such as cables, and deformation is not easy to occur.

When the bridge plate is used, based on the arrangement of the stainless steel threaded pipe 5, the through holes 4 of the first bridge plate 1 and the second bridge plate 2 are penetrated by the two ends of the stainless steel threaded pipe 5 and are tightly twisted by the nuts 6, so that the transverse bending resistance of the first bridge plate 1 and the second bridge plate 2 can be improved.

The utility model further comprises that at least one group of pressing grooves 9 is arranged, and the pressing grooves 9 are equidistantly arranged along the corners of the bottoms of the first bridge plate 1 and the second bridge plate 2.

The utility model further comprises a bolt 7 inserted between the adjusting holes 3 of the first bridge plate 1 and the second bridge plate 2, and an internal thread hexagonal 8 used for screwing the first bridge plate 1 and the second bridge plate 2 is sleeved at the bottom of the bolt 7.

When the bridge plate is used, the bolt 7 is used for penetrating the adjusting holes 3 of the first bridge plate 1 and the second bridge plate 2, after the using width between the first bridge plate 1 and the second bridge plate 2 is adjusted, the bolt 7 in the adjusting holes 3 is screwed tightly through the internal thread hexagonal 8, so that the first bridge plate 1 and the second bridge plate 2 are fixed.

The utility model also comprises that the protrusions 10 are provided with at least one group and equidistantly arranged along the surface of the first bridge plate 1 and the second bridge plate 2.

When the bridge frame is used, the space between the first bridge plate 1 and the second bridge plate 2 is adjusted according to the wiring requirement of the high-voltage ring network cabinet, after the adjustment is finished, the bolts 7 in the adjusting holes 3 are twisted tightly through the internal thread hexagonal 8, so that the first bridge plate 1 and the second bridge plate 2 are fixed in use, the whole bridge frame is assembled on the top of the cabinet of the high-voltage ring network cabinet through the bolts or the hoops, wires required to be laid by the high-voltage ring network cabinet are laid in the bridge frame, the laying support of the high-voltage ring network cabinet circuit can be finished, the structural strength of the first bridge plate 1 and the second bridge plate 2 can be improved based on the reinforcing structure, the transverse supporting strength of the whole bridge frame is improved through the stainless steel threaded pipes 5, the section inertia moment of the pressing grooves 9 and the bulges 10 of the bridge frame is increased, the bending resistance of the bridge frame is improved, the bridge frame is more stable when the bridge frame bears loads such as cables, deformation is not easy to occur, the two ends of the stainless steel threaded pipes 5 are arranged on the punching holes 4 of the first bridge plate 1 and the second bridge plate 2, and the bending resistance of the bridge frame can be improved through the first bridge plate 1 and the second bridge plate 2.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a wiring bridge of high-voltage ring network cabinet, its characterized in that, includes first lamina bridge (1) and second lamina bridge (2), first lamina bridge (1) and second lamina bridge (2) are L type structure, and second lamina bridge (2) one side is taken on first lamina bridge (1), regulation hole (3) that are used for adjusting the interval have been offered to equal distance in first lamina bridge (1) and second lamina bridge (2) top, all be provided with reinforced structure on first lamina bridge (1) and the second lamina bridge (2).

2. The wiring bridge of the high-voltage ring network cabinet according to claim 1, wherein the reinforcing structure comprises a stainless steel threaded pipe (5), a pressing groove (9) and a protrusion (10), the first bridge plate (1) and the second bridge plate (2) are respectively provided with a through hole (4) for the stainless steel threaded pipe (5) to penetrate, two ends of the stainless steel threaded pipe (5) are respectively penetrated with the through hole (4), and two ends of the stainless steel threaded pipe (5) are in threaded connection with nuts (6).

3. A wiring bridge of a high voltage ring network cabinet according to claim 2, characterized in that the pressure slots (9) are provided with at least one set, the pressure slots (9) being arranged equidistantly along the corners of the bottom of the first bridge plate (1) and the second bridge plate (2).

4. A wiring bridge of a high voltage ring network cabinet according to claim 3, characterized in that a bolt (7) is inserted between the adjusting holes (3) of the first bridge plate (1) and the second bridge plate (2), and the bottom thread of the bolt (7) is sleeved with an internal thread hexagon (8) for screwing the first bridge plate (1) and the second bridge plate (2).

5. A wiring bridge of a high voltage ring network cabinet according to claim 4, characterized in that the protrusions (10) are provided with at least one set and equidistantly arranged along the surface of the first bridge plate (1) and the second bridge plate (2).