CN216085804U - Install energy-saving high tension switchgear of novel heat radiation structure - Google Patents

Abstract

The utility model discloses an energy-saving high-voltage switch cabinet with a novel heat dissipation structure, which comprises a heat dissipation cabinet body, wherein a control cabinet door is movably arranged on the front surface of the heat dissipation cabinet body, an embedded filter box is fixedly arranged on the front surface of the heat dissipation cabinet body below the control cabinet door, a filter screen plate is embedded and arranged inside the embedded filter box, a heat dissipation fan cover is fixedly arranged on the upper surface of the heat dissipation cabinet body, and an air blower is fixedly arranged inside the heat dissipation fan cover. According to the energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure, the temperature on the surface of the heating component can be taken away quickly to achieve a sufficient heat dissipation effect, so that in a high-heating working state, the rotating speed of an air blower does not need to be increased to accelerate heat dissipation, the energy-saving effect is achieved, the internal elements can be prevented from being contaminated by dust and being difficult to clean, and the filter screen plate can be taken out from the upper port embedded with the filter box for cleaning and maintenance in a later period.

Description

Install energy-saving high tension switchgear of novel heat radiation structure

Technical Field

The utility model relates to the field of switch cabinets, in particular to an energy-saving high-voltage switch cabinet with a novel heat dissipation structure.

Background

The high-voltage switch cabinet is used for power generation, power transmission, power distribution, electric energy conversion and consumption of an electric power system and plays roles of on-off, control or protection and the like. The switch cabinet has the functions of overhead incoming and outgoing lines, cable incoming and outgoing lines, bus connection and the like, is mainly suitable for various fields such as power plants, transformer substations, petrochemical industry, metallurgical steel rolling, light industrial textiles, industrial and mining enterprises, residential districts, high-rise buildings and the like, has a good practical effect and low production cost, and is widely applied at present; however, the existing high-voltage switch cabinet has certain disadvantages when in use, the traditional high-voltage switch cabinet has poor heat dissipation effect in use, usually, a heat dissipation fan is installed at the top for air exhaust and heat dissipation, most of air sucked in the heat dissipation process is not triggered to be exhausted outdoors, the heat dissipation effect is poor, the relative flow rate of air is small, the heat dissipation effect is reduced, in addition, the sucked air is not processed and is easy to introduce a lot of dust to be attached to components, and the heat of the components is difficult to dissipate.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide an energy-saving high-voltage switch cabinet provided with a novel heat dissipation structure, which can effectively solve the problems in the background art.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides an install energy-saving high tension switchgear of novel heat radiation structure, includes the heat dissipation cabinet body, the front surface movable mounting of the heat dissipation cabinet body has the switch board door, the below fixed mounting that the front surface of the heat dissipation cabinet body is located the switch board door inlays and establishes the filter cartridge, inlay the inside of establishing the filter cartridge and inlay and establish and install filter plate, the last fixed surface of the heat dissipation cabinet body installs heat dissipation fan cover, the inside fixed mounting of heat dissipation fan cover has the air-blower, general draw-in groove has all been seted up on the inside both sides surface of the heat dissipation cabinet body, inlay in the general draw-in groove and establish and install a guide plate, the quantity of general draw-in groove has a plurality ofly, the below that is located a guide plate in the general draw-in groove inlays to establish and installs the component mounting panel, the below that is located the component mounting panel in the general draw-in groove inlays to establish and installs No. two guide plates.

Furthermore, the number of No. two guide plates and No. one guide plate has two respectively, and No. two guide plates and No. one guide plate are alternately inlayed and are established in the heat dissipation cabinet body.

Furthermore, a diversion through hole is formed in one side position, close to the heat dissipation cabinet body, of the surface of the first diversion plate, and a diversion through hole is formed in the other side position, close to the heat dissipation cabinet body, of the surface of the second diversion plate.

Furthermore, the two ends of the element mounting plate are fixedly provided with embedding fixture blocks, and the element mounting plate is embedded in the universal clamping groove through the embedding fixture blocks.

Further, the front surface of the control cabinet door is provided with a door lock, the surface of the control cabinet door is close to one side edge and is fixedly provided with a hinge, the front surface of the control cabinet door is fixedly embedded with a control panel, and the control cabinet door is movably connected with the heat dissipation cabinet body through the hinge.

Further, the inside of inlaying and establishing the filter cartridge is close to the equal fixed mounting of both sides face and is separated the dog, inlay the front surface and the rear surface of establishing the filter cartridge and all seted up the ventilation hole, the wire entry port has been seted up to the rear surface of the heat dissipation cabinet body.

Compared with the prior art, the utility model has the following beneficial effects:

(1) in the utility model, when in use, the control cabinet door is in a closed and locked state, the blower in the heat-radiating fan cover is powered on, negative pressure is generated inside the heat-radiating fan cover after the power is on, so that external airflow passes through the filter screen plate from the embedded filter box and is filtered to enter the bottom in the heat-radiating cabinet body, then flows to one side of the first guide plate and flows to the upper part of the first guide plate through the first guide through hole, and then flows to the upper part of the second guide plate through the second guide through hole on the side of the second guide plate far away from the first guide through hole, thus the airflow is bent and ascended in the heat-radiating cabinet body and can always flow through each switch electrical component, the air flow rate near each switch electrical component is larger and closer to the heating element, the temperature on the surface of the heating component can be taken away quickly, and the effect of sufficient heat radiation can be achieved, therefore, under the working state of high-heating of the blower, the rotation speed is not required to increase the heat radiation, thereby achieving the effect of energy conservation.

(2) In the utility model, in the heat dissipation of the high-voltage switch cabinet, the filter screen plate can fully filter out external fine dust and impurities, so that the internal elements are prevented from being polluted by dust and difficult to clean, and the filter screen plate can be taken out from the upper port embedded with the filter box for cleaning and maintenance at a later stage.

Drawings

Fig. 1 is a schematic view of the overall structure of an energy-saving high-voltage switch cabinet provided with a novel heat dissipation structure according to the utility model;

fig. 2 is a partial view of an energy-saving high-voltage switchgear of the present invention, which is equipped with a new heat dissipation structure;

fig. 3 is an enlarged view of a portion a in fig. 2 of an energy-saving high-voltage switch cabinet provided with a novel heat dissipation structure according to the present invention;

fig. 4 is a partially disassembled view of an energy-saving high-voltage switch cabinet with a novel heat dissipation structure according to the present invention.

In the figure: 1. a heat dissipation cabinet body; 2. a control cabinet door; 201. a door lock; 202. a hinge; 3. a filter box is embedded; 301. a separation stopper; 4. a filter screen plate; 5. a heat-dissipating fan housing; 6. a blower; 7. a universal card slot; 8. a first baffle; 801. a first flow guide through hole; 9. a second air deflector; 901. a second diversion through hole; 10. an element mounting plate; 1001. a clamping block is embedded.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-4, an energy-saving high-voltage switch cabinet with a novel heat dissipation structure comprises a heat dissipation cabinet body 1, wherein a control cabinet door 2 is movably mounted on the front surface of the heat dissipation cabinet body 1, an embedded filter box 3 is fixedly mounted on the front surface of the heat dissipation cabinet body 1 below the control cabinet door 2, a filter screen plate 4 is embedded inside the embedded filter box 3, a heat dissipation fan cover 5 is fixedly mounted on the upper surface of the heat dissipation cabinet body 1, an air blower 6 is fixedly mounted inside the heat dissipation fan cover 5, general clamping grooves 7 are formed in both side surfaces of the interior of the heat dissipation cabinet body 1, a first guide plate 8 is embedded in each general clamping groove 7, a plurality of general clamping grooves 7 are formed, a component mounting plate 10 is embedded below the first guide plate 8 in each general clamping groove 7, and a second guide plate 9 is embedded below the component mounting plate 10 in each general clamping groove 7;

the number of the second guide plates 9 and the number of the first guide plates 8 are two respectively, and the second guide plates 9 and the first guide plates 8 are alternately embedded in the heat dissipation cabinet body 1; the surface of the first guide plate 8 is provided with a first guide through hole 801 close to one side of the heat dissipation cabinet body 1, the surface of the second guide plate 9 is provided with a second guide through hole 901 close to the other side of the heat dissipation cabinet body 1, when in use, the control cabinet door 2 is in a closed and locked state, at the moment, the blower 6 inside the heat dissipation fan cover 5 is powered on, negative pressure is generated inside the blower after the blower is powered on, so that external air flow passes through the filter screen plate 4 from the embedded filter box 3 and enters the bottom of the heat dissipation cabinet body 1, then flows to one side of the first guide plate 8 to flow to the upper part of the first guide plate 8 through the first guide through hole 801, and then flows to the upper part of the second guide plate 9 through the second guide through hole 901 on the side of the second guide plate 9 far away from the first guide through hole 801, thus the air flow can always flow through each switch electrical component in the upward rising bending of the heat dissipation cabinet body 1, and the air flow rate near each switch electrical component is larger and more heating components, therefore, the temperature on the surface of the heating component can be taken away quickly to achieve the effect of sufficient heat dissipation, so that in the working state of high heat generation, the rotating speed of the air blower 6 does not need to be increased to accelerate the heat dissipation, and the effect of energy conservation is achieved; the two ends of the element mounting plate 10 are fixedly provided with the embedded fixture blocks 1001, the element mounting plate 10 is embedded in the universal clamping groove 7 through the embedded fixture blocks 1001, wherein the universal clamping groove 7 can increase the contact area of the internal hot air flow, so that the heat dissipation cabinet body 1 can fully absorb heat and emit the heat to the external surface; the front surface of the control cabinet door 2 is provided with a door lock 201, the surface of the control cabinet door 2 close to the edge of one side is fixedly provided with a hinge 202, the front surface of the control cabinet door 2 is fixedly embedded with a control panel, and the control cabinet door 2 is movably connected with the heat dissipation cabinet body 1 through the hinge 202; inlay the inside of establishing filter cartridge 3 and be close to the equal fixed mounting of both sides face and separate dog 301, inlay the front surface and the rear surface of establishing filter cartridge 3 and all seted up the ventilation hole, the wire entry port has been seted up to the rear surface of the heat dissipation cabinet body 1, in the heat dissipation, filter plate 4 can fully filter external tiny dust and debris to prevent that the internals from being infected with the dust and being difficult to the clearance, the later stage can also be followed and inlayed the last port of establishing filter cartridge 3 and taken out filter plate 4 and clear up the maintenance.

It should be noted that, the utility model is an energy-saving high-voltage switch cabinet equipped with a new heat dissipation structure, when in use, firstly, the distance between a first diversion plate 8 and a second diversion plate 9 can be adjusted according to the size of the mounted electric component, and the position of an element mounting plate 10 can be adjusted according to the need, then the circuit switch component can be mounted on the surface of the element mounting plate 10, and can be used after being mounted and connected, when in use, the control cabinet door 2 is in a closed and locked state, at the moment, the blower 6 in the heat dissipation fan cover 5 is connected with a power supply, after being connected, negative pressure is generated inside, so that external airflow passes through the filter screen plate 4 from the embedded filter box 3 and is filtered into the bottom of the heat dissipation cabinet body 1, then flows to one side of the first diversion plate 8 through the first diversion through hole 801, and then flows to the top of the second diversion through hole 901 on one side of the second diversion plate 9 far from the first diversion through hole 801, like this the air current must flow through each switch electrical components in the crooked ascending of rising in the heat dissipation cabinet body 1, and make near each switch electrical components air flow rate bigger more press close to heating element, like this alright take away heating components and parts surface's temperature fast, in order to reach abundant radiating effect, consequently under the operating condition that highly generates heat, need not to increase the rotational speed of air-blower 6 and accelerate the heat dissipation, and then reach energy-conserving effect, in addition in the heat dissipation, filter plate 4 can fully filter external tiny dust and debris, thereby prevent that the internal component from being infected with the dust and being difficult to the clearance, later stage can also be followed the last port that inlays and establish filter box 3 and taken out filter plate 4 and clear up the maintenance.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides an install energy-saving high tension switchgear of novel heat radiation structure which characterized in that: including the heat dissipation cabinet body (1), the preceding surface movable mounting of the heat dissipation cabinet body (1) has control cabinet door (2), the preceding surface of the heat dissipation cabinet body (1) is located the below fixed mounting of control cabinet door (2) and inlays and establishes filter cartridge (3), inlay the inside of establishing filter cartridge (3) and inlay and establish and install filter plate (4), the last fixed surface of the heat dissipation cabinet body (1) installs cooling fan cover (5), the inside fixed mounting of cooling fan cover (5) has air-blower (6), general draw-in groove (7) have all been seted up on the inside both sides surface of the heat dissipation cabinet body (1), inlay in general draw-in groove (7) and establish and install a guide plate (8), the quantity of general draw-in groove (7) has a plurality ofly, the below that lies in a guide plate (8) in general draw-in groove (7) inlays and establishes and installs component mounting panel (10), inlay in general draw-in groove (7) and establish and install No. two guide plates below that lie in component mounting panel (10) (9).

2. The energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure as claimed in claim 1, wherein: no. two guide plates (9) with the quantity of a guide plate (8) has two respectively, and No. two guide plates (9) and a guide plate (8) are inlayed in the heat dissipation cabinet body (1) in turn.

3. The energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure as claimed in claim 2, wherein: a first diversion through hole (801) is formed in one side position, close to the heat dissipation cabinet body (1), of the surface of the first diversion plate (8), and a second diversion through hole (901) is formed in the other side position, close to the heat dissipation cabinet body (1), of the surface of the second diversion plate (9).

4. The energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure as claimed in claim 3, wherein: the two ends of the element mounting plate (10) are fixedly provided with embedding fixture blocks (1001), and the element mounting plate (10) is embedded in the universal clamping groove (7) through the embedding fixture blocks (1001).

5. The energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure as claimed in claim 4, wherein: the front surface of switch board door (2) is equipped with lock (201), the surface of switch board door (2) is close to a side edge fixed mounting and has hinge (202), the front surface fixed of switch board door (2) is inlayed and is established and install control panel, pass through hinge (202) and the cabinet body that dispels the heat (1) swing joint in switch board door (2).

6. The energy-saving high-voltage switch cabinet provided with the novel heat dissipation structure as claimed in claim 5, wherein: inlay the inside of establishing filter cartridge (3) and be close to the equal fixed mounting of both sides face and separate dog (301), inlay the front surface and the rear surface of establishing filter cartridge (3) and all seted up the ventilation hole, the wire entry port has been seted up to the rear surface of the heat dissipation cabinet body (1).

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