CN214899770U

CN214899770U - High heat dissipation capacity box-type substation

Info

Publication number: CN214899770U
Application number: CN202120607733.7U
Authority: CN
Inventors: 崔小伟; 王益祎; 张博渊; 李星海; 李丹
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-11-26
Anticipated expiration: 2031-03-25

Abstract

The utility model discloses a high heat dissipation capacity box-type substation, which comprises a box body, a high pressure chamber, a transformer chamber, a low pressure chamber and a heat dissipation device, wherein the box body comprises a frame layer and an insulating layer, the high pressure chamber comprises a high pressure carrier and a first line pipeline, the transformer chamber comprises a transformer and a safety protective guard, the low pressure chamber comprises a low pressure carrier and a second line pipeline, and the heat dissipation device comprises a plurality of heat conducting fins, heat conducting pipes, a cooling box and a plurality of refrigerators, the utility model discloses a heat dissipation device is added on the basis of the original substation, the heat dissipation device comprises the heat conducting fins and the heat conducting pipes which can lead heat in the transformer box into the cooling device, and the refrigerators, wherein the heat conducting fins have larger surface area, the heat conducting efficiency is greatly improved, after the heat is led into the cooling box, the temperature can be efficiently reduced through the plurality of refrigerators, and the good cooling effect can be achieved when the transformer box with higher heat productivity runs, the problem of current box-type substation reply not good effect when high heat dissipation capacity transformer substation is solved.

Description

High heat dissipation capacity box-type substation

Technical Field

The utility model relates to a transformer technical field especially relates to a high heat dissipation capacity box-type substation.

Background

The box-type substation is also called a pre-installed substation or a pre-installed substation. The high-voltage switch equipment, the distribution transformer and the low-voltage distribution device are factory prefabricated indoor and outdoor compact distribution equipment which are integrated according to a certain wiring scheme, namely, the functions of transformer voltage reduction, low-voltage distribution and the like are organically combined together and are installed in a steel structure box.

Box-type substation can produce a large amount of heats often in the use, therefore most box-type substations all can be equipped with cooling device in order to prevent local overheat damage insulating device and the safety problem even appears, current box-type substation's cooling device has air cooling plant and water cooling plant, air cooling plant advances grey easily in the use, long-time use needs frequent periodic maintenance, consequently, water cooling plant more receives favour, but current water-cooling heat abstractor efficiency is not high when dealing with the higher box-type substation of calorific capacity, there is the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high heat dissipation capacity box-type substation, the not good problem of radiating effect when aiming at solving current box-type substation and reply high heat dissipation capacity transformer substation.

In order to achieve the above object, the present invention provides a high heat dissipating capacity box-type substation, comprising a box body, a high pressure chamber, a transformer chamber, a low pressure chamber and a heat dissipating device, wherein the box body comprises a frame layer and an insulating layer, the insulating layer is fixedly connected with the frame layer and is located on one side of the frame layer, the high pressure chamber comprises a high pressure carrier and a first line pipe, the high pressure carrier is fixedly connected with the box body and is located on one side of the box body, the first line pipe is fixedly connected with the high pressure carrier and is located on one side of the high pressure carrier, the transformer chamber comprises a transformer and a safety guard rail, the transformer is fixedly connected with the box body and is located on one side of the box body, the safety guard rail is fixedly connected with the transformer and is located on the outer side of the transformer, the low pressure chamber comprises a low pressure carrier and a second line pipe, the low-voltage carrier is fixedly connected with the box body and is positioned on one side of the box body, the second circuit pipeline is fixedly connected with the low-voltage carrier and is positioned on one side of the low-voltage carrier, the heat dissipation device comprises a plurality of heat conducting fins, a heat conducting pipe, a cooling box and a plurality of refrigerators, the heat conducting fins are fixedly connected with the box body and are positioned on the inner side of the box body, the heat conducting pipe is fixedly connected with the heat conducting fins and is positioned on one side of the heat conducting fins and penetrates through the box body, the cooling box is fixedly connected with the heat conducting pipe and is positioned on one side of the heat conducting pipe, and the refrigerators are fixedly connected with the heat conducting pipe and are positioned in the cooling box.

The box body further comprises a plurality of safety doors, and the safety doors are connected with the frame layer in a rotating mode and located on one side of the frame layer.

The safety door further comprises a window, and the window is fixedly connected with the safety door and is positioned on one side of the safety door.

The box body further comprises a plurality of heat absorbing plates, and the heat absorbing plates are fixedly connected with the frame layer and are positioned on the inner side of the frame layer.

The heat absorption plate is provided with a circulating water pipe, and the circulating water pipe is positioned inside the heat absorption plate.

The heat absorbing plate further comprises a plurality of water inlet pipes and water outlet pipes, the water inlet pipes are fixedly connected with the heat absorbing plate, are positioned on one side of the heat absorbing plate and penetrate through the frame layer, and the water outlet pipes are fixedly connected with the heat absorbing plate, are positioned on one side of the heat absorbing plate, far away from the water inlet pipes, and penetrate through the frame layer.

The utility model discloses a high heat dissipation capacity box-type substation, heat abstractor has been increased on the basis of original transformer substation, heat abstractor is including leading-in cooling device's of heat conducting strip and heat pipe in can the transformer case, and the refrigerator, wherein the great surface area of conducting strip, heat conduction efficiency has greatly been promoted, behind the leading-in cooling box of heat, through the high-efficient cooling of a plurality of refrigerators, can play fine cooling effect when calorific capacity higher transformer case moves, the not good problem of effect has been solved when current box-type substation deals with high heat dissipation capacity transformer substation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic diagram of a high heat dissipation box-type substation of the present invention;

fig. 2 is a front view of a high heat dissipation capacity box-type substation of the present invention;

fig. 3 is a side cross-sectional view of the absorber plate of the present invention;

fig. 4 is a rear view of a high heat dissipation box-type substation of the present invention;

fig. 5 is a left side view of the high heat dissipation capacity box-type substation of the present invention.

1-box body, 2-high pressure chamber, 3-transformer chamber, 4-low pressure chamber, 5-heat dissipation device, 11-frame layer, 12-insulating layer, 13-safety door, 14-window, 15-heat absorbing plate, 16-circulating water pipe, 17-water inlet pipe, 18-water outlet pipe, 21-high pressure carrier, 22-first line pipeline, 31-transformer, 32-safety protective guard, 41-low pressure carrier, 42-second line pipeline, 51-heat conducting sheet, 52-heat conducting pipe, 53-cooling box and 54-refrigerator.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 to 5, the present invention provides a high heat dissipation capacity box-type substation, including:

the transformer room comprises a box body 1, a high-voltage room 2, a transformer room 3, a low-voltage room 4 and a heat sink 5, wherein the box body 1 comprises a frame layer 11 and an insulating layer 12, the insulating layer 12 is fixedly connected with the frame layer 11 and is positioned at one side of the frame layer 11, the high-voltage room 2 comprises a high-voltage carrier 21 and a first line pipeline 22, the high-voltage carrier 21 is fixedly connected with the box body 1 and is positioned at one side of the box body 1, the first line pipeline 22 is fixedly connected with the high-voltage carrier 21 and is positioned at one side of the high-voltage carrier 21, the transformer room 3 comprises a transformer 31 and a safety guard rail 32, the transformer 31 is fixedly connected with the box body 1 and is positioned at one side of the box body 1, the safety guard rail 32 is fixedly connected with the transformer 31 and is positioned at the outer side of the transformer 31, the low-voltage room 4 comprises a low-voltage carrier 41 and a second line pipeline 42, the low voltage carrier 41 is fixedly connected to the case 1 and located at one side of the case 1, the second line pipe 42 is fixedly connected to the low voltage carrier 41 and located at one side of the low voltage carrier 41, the heat dissipation device 5 includes a plurality of heat conductive fins 51, a heat conductive pipe 52, a cooling box 53 and a plurality of refrigerators 54, the heat conductive fins 51 are fixedly connected to the case 1 and located at the inner side of the case 1, the heat conductive pipe 52 is fixedly connected to the heat conductive fins 51 and located at one side of the heat conductive fins 51 and passes through the case 1, the cooling box 53 is fixedly connected to the heat conductive pipe 52 and located at one side of the heat conductive pipe 52, and the refrigerators 54 are fixedly connected to the heat conductive pipe 52 and located inside the cooling box 53.

In this embodiment, the box 1 includes a frame layer 11 and an insulating layer 12, the insulating layer 12 is fixedly connected to the frame layer 11 and is located on one side of the frame layer 11, so as to prevent the box 1 from being electrified and avoid electric shock hazard, the high-voltage chamber 2 includes a high-voltage carrier 21 and a first line pipe 22, the high-voltage carrier 21 is fixedly connected to the box 1 and is located on one side of the box 1, and is a carrier for carrying high-voltage current, the first line pipe 22 is fixedly connected to the high-voltage carrier 21 and is located on one side of the high-voltage carrier 21, and is used for conveying high-voltage current, the transformer chamber 3 includes a transformer 31 and a safety guard rail 32, the transformer 31 is fixedly connected to the box 1 and is located on one side of the box 1, and a core component of a transformer substation is used for mutual conversion between high-voltage current and low-voltage current, the safety guard rail 32 is fixedly connected to the transformer 31, is located outside the transformer 31, and is used for preventing the transformer 31 from being damaged and preventing electric shock, the low voltage chamber 4 includes a low voltage carrier 41 and a second line pipe 42, the low voltage carrier 41 is fixedly connected to the box 1, is located at one side of the box 1, and is a carrier for carrying low voltage current, the second line pipe 42 is fixedly connected to the low voltage carrier 41, is located at one side of the low voltage carrier 41, and is used for carrying low voltage current, the heat dissipation device 5 includes a plurality of heat conduction fins 51, a heat pipe 52, a cooling box 53, and a plurality of refrigerators 54, the heat conduction fins 51 are fixedly connected to the box 1, is located inside the box 1, and is used for absorbing heat in the box 1, the heat pipe 52 is fixedly connected to the heat conduction fins 51, is located at one side of the heat conduction fins 51, and passes through the box 1, for transferring the heat in the heat conducting fins 51 to the cooling box 53 for cooling, wherein the cooling box 53 is fixedly connected to the heat conducting pipes 52 and is located at one side of the heat conducting pipes 52, for protecting the refrigerator 54, the refrigerator 54 is fixedly connected with the heat conductive pipe 52 and is located inside the cooling box 53, for cooling the heat transferred to the cooling box 53 to form a circulation, the heat sink 5 includes a heat conduction fin 51 and a heat conduction pipe 52 capable of guiding the heat in the transformer box to the cooling device, and a refrigerator 54, the heat conducting fins 51 have a large surface area, so that the heat conducting efficiency is greatly improved, and after heat is conducted into the cooling box 53, through the high-efficient cooling of a plurality of refrigerators 54, can play fine cooling effect when the higher transformer box of calorific capacity moves, solve current box-type substation and reply the not good problem of effect when high heat dissipation capacity transformer substation.

Further, the box 1 further comprises a plurality of safety doors 13, and the plurality of safety doors 13 are rotatably connected with the frame layer 11 and located on one side of the frame layer 11.

In the present embodiment, the safety door 13 is used to isolate the carrier and the transformer 31 in the apparatus from the outside, thereby preventing the occurrence of a risk of electric leakage and electric shock.

Further, the safety door 13 further comprises a window 14, and the window 14 is fixedly connected with the safety door 13 and is located on one side of the safety door 13.

In this embodiment, the window 14 is used to preview the condition inside the device, and is convenient for the operator to confirm the condition inside the device before the operation.

Further, the box body 1 further comprises a plurality of heat absorbing plates 15, and the heat absorbing plates 15 are fixedly connected with the frame layer 11 and are located on the inner side of the frame layer 11.

In the present embodiment, the heat absorbing plate 15 is used to assist the heat dissipating device 5 in absorbing heat in the housing 1, thereby further increasing heat dissipation efficiency.

Further, the heat absorbing plate 15 has a circulating water pipe 16, and the circulating water pipe 16 is located inside the heat absorbing plate 15.

In this embodiment, the circulating water pipe 16 is hollow and can conduct water flow, and cooling water flows through the circulating water pipe 16 to absorb heat and is discharged to cool, thereby forming a circulation, and achieving the purpose of absorbing heat.

Further, the heat absorbing plate 15 further includes a plurality of water inlet pipes 17 and water outlet pipes 18, the water inlet pipes 17 are fixedly connected with the heat absorbing plate 15, and are located on one side of the heat absorbing plate 15 and penetrate through the frame layer 11, and the water outlet pipes 18 are fixedly connected with the heat absorbing plate 15, and are located on one side of the heat absorbing plate 15 away from the water inlet pipes 17 and penetrate through the frame layer 11.

In the present embodiment, the inlet pipe 17 is used for injecting cooling water, and the outlet pipe 18 is used for discharging hot water having absorbed heat, thereby achieving circulation and continuous heat absorption.

The working principle and the using process of the utility model refer to fig. 1-5, the installation process is as follows:

before use, the inside of the device is ensured to be dry, the box body 1 is firstly arranged at a fixed position, then the heat dissipation device 5 is arranged and fixed with the box body 1, finally the carrier is arranged and fixed with the transformer 31, and the operation can be started, a large amount of heat is generated by the carrier and the transformer 31, at which time the heat-conducting fins 51 begin to absorb heat, since the heat conductive fin 51 has a large surface area and high heat absorption efficiency, the absorbed heat is transferred to the cooling box 53 through the heat conductive pipe 52, the refrigerator 54 in the cooling box 53 absorbs the heat, therefore, heat in the box body 1 is continuously absorbed, meanwhile, the heat absorption plate 15 starts to work, cold water is injected into the water inlet pipe 17 and flows through the circulating water pipe 16 to absorb heat, hot water is discharged through the water outlet pipe 18 to be cooled, circulation is formed, and the effects of continuously reducing the temperature and dissipating heat can be achieved.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims

1. A high heat dissipation capacity box-type substation is characterized in that,

the transformer comprises a box body, a high-pressure chamber, a transformer chamber, a low-pressure chamber and a heat dissipation device, wherein the box body comprises a frame layer and an insulating layer, the insulating layer is fixedly connected with the frame layer and is positioned on one side of the frame layer, the high-pressure chamber comprises a high-pressure carrier and a first line pipeline, the high-pressure carrier is fixedly connected with the box body and is positioned on one side of the box body, the first line pipeline is fixedly connected with the high-pressure carrier and is positioned on one side of the high-pressure carrier, the transformer chamber comprises a transformer and a safety protective guard, the transformer is fixedly connected with the box body and is positioned on one side of the box body, the safety protective guard is fixedly connected with the transformer and is positioned on the outer side of the transformer, the low-pressure chamber comprises a low-pressure carrier and a second line pipeline, the low-pressure carrier is fixedly connected with the box body and is positioned on one side of the box body, the second circuit pipeline is fixedly connected with the low-voltage carrier and positioned on one side of the low-voltage carrier, the heat dissipation device comprises a plurality of heat conducting fins, a heat conducting pipe, a cooling box and a plurality of refrigerators, the heat conducting fins are fixedly connected with the box body and positioned on the inner side of the box body, the heat conducting pipe is fixedly connected with the heat conducting fins and positioned on one side of the heat conducting fins and penetrates through the box body, the cooling box is fixedly connected with the heat conducting pipe and positioned on one side of the heat conducting pipe, and the refrigerators are fixedly connected with the heat conducting pipe and positioned in the cooling box.

2. A high heat dissipation capacity box substation according to claim 1,

the box still includes a plurality of emergency exits, and is a plurality of the emergency exit with the frame layer rotates to be connected, and is located one side of frame layer.

3. A high heat dissipation capacity box substation according to claim 2,

4. A high heat dissipation capacity box substation according to claim 1,

5. A high heat dissipation capacity box substation according to claim 4,

6. A high heat dissipation capacity box substation according to claim 4,

the heat absorbing plate further comprises a plurality of water inlet pipes and water outlet pipes, the water inlet pipes are fixedly connected with the heat absorbing plate, are positioned on one side of the heat absorbing plate and penetrate through the frame layer, and the water outlet pipes are fixedly connected with the heat absorbing plate, are positioned on one side of the heat absorbing plate far away from the water inlet pipes and penetrate through the frame layer.