CN221947721U - A heat dissipation shell of a power distribution cabinet with a dust removal structure - Google Patents

Abstract

The utility model relates to the field of power distribution cabinets, and in particular to a power distribution cabinet heat dissipation shell with a dust removal structure. Technical problem: the existing power distribution cabinet heat dissipation shell is often provided with a large number of heat dissipation holes, which makes it easy for dust to enter the cabinet through the heat dissipation holes. Over time, the accumulation of dust will affect the normal operation of the power distribution cabinet and may cause safety hazards. Compared with the traditional power distribution cabinet heat dissipation shell, the utility model includes a power distribution cabinet component, a dust suction component and a dust removal component. By setting the dust suction component and the dust removal component to cooperate with the dust removal, the dust adhering to the heat dissipation shell of the power distribution cabinet can be removed in time, so that the dust is not easy to accumulate. By setting the dust removal component, the dust on the outer and inner surfaces of the power distribution cabinet can be removed. The first dust removal brush and the second dust removal brush can respectively brush off the dust on the outer and inner surfaces of the cabinet. By setting the dust suction component, the second dust removal brush can be cooperated to perform dust suction, so as to prevent the dust brushed off by the second dust brush component from falling to the bottom of the cabinet and accumulating.

Description

Power distribution cabinet heat dissipation shell with dust removal structure

Technical Field

The utility model relates to the field of power distribution cabinets, in particular to a power distribution cabinet heat dissipation shell with a dust removal structure.

Background

The switch board is motor control center's generic term, be the last-stage equipment of distribution system, the effect of switch board is mainly when the circuit breaks down, can effective control fault range, be convenient for maintain, also can be convenient for carry out the burst investigation or through built-in safeguard measure, prevent the short circuit, switch board heat dissipation shell's effect is the protection switch board and is not influenced by external environment, like corruption, dust, humidity etc. can also improve the electrical property and the security of switch board simultaneously, current switch board heat dissipation shell is usually because of having seted up a large amount of louvres, lead to the dust easily to enter into the cabinet through the louvre in, the accumulation of dust for a long time can influence the normal operating of switch board, the potential safety hazard may be triggered.

Disclosure of utility model

In order to overcome the existing power distribution cabinet heat dissipation shell, a large number of heat dissipation holes are formed, so that dust is easy to enter the cabinet through the heat dissipation holes, the accumulation of the dust can influence the normal operation of the power distribution cabinet for a long time, and potential safety hazards can be caused.

The technical scheme of the utility model is as follows: the utility model provides a switch board shell that looses with dust removal structure, including switch board subassembly, dust absorption subassembly and dust removal subassembly, the upper end of switch board subassembly is equipped with the dust absorption subassembly that is used for absorbing the inside dust of switch board subassembly, and both ends all are equipped with the dust removal subassembly that is used for getting rid of switch board subassembly shell surface dust around the switch board subassembly.

Preferably, the dust collection assembly and the dust collection assembly are arranged to carry out matched dust collection, dust adhered to the radiating shell of the power distribution cabinet can be removed in time, so that dust is not easy to accumulate, normal operation of the power distribution cabinet can be guaranteed, dust on the outer side and the inner side surface of the power distribution cabinet can be removed through the dust collection assembly, the first dust collection brush moves up and down to brush off the dust on the outer side of the cabinet, the second dust collection brush moves along with the first dust collection brush to brush off the dust on the inner wall of the cabinet synchronously, the dust collection efficiency can be greatly improved through the first dust collection brush and the second dust collection brush to collect dust in a matched mode, dust brushed off by the second dust collection assembly is prevented from falling to the bottom of the cabinet to accumulate, and the power distribution cabinet capable of collecting dust and dust is safer and more reliable than a traditional power distribution cabinet.

As the preference, switch board subassembly is including the cabinet body, the cabinet door, first filter and fan module, the both ends middle part is equipped with the first filter that is arranged in filtering large granule dust in the air about the cabinet body, the inboard of first filter is equipped with and is used for carrying out radiating fan module, the multiunit is used for carrying out radiating louvre about the both ends surface equipartition is offered to the cabinet body, utilize fan and louvre to carry out synchronous heat dissipation can avoid the inside high temperature of switch board, can filter the dust of the great granule in the air through setting up first filter in the outside of fan.

Preferably, the left end and the right end of the cabinet body are symmetrically provided with two groups of through grooves for sliding dust removal of the dust removal assembly, the top of the cabinet body is symmetrically provided with two groups of connecting holes for being communicated with the dust collection assembly, and dust in the power distribution cabinet assembly can be guided into the dust collection assembly by arranging the connecting holes.

As the preference, dust collection subassembly is including dust collection box, second filter, connecting pipe, dust exhaust pipe, dust absorption pump, blast pipe and chamber door, and the upper portion of dust collection box is equipped with the second filter that is used for filtering dust granule, and the upper end avris of dust collection box is equipped with the blast pipe that is used for discharging the air after filtering, and the outside of blast pipe is equipped with the control valve that is used for controlling business turn over, can filter the dust of inhaling in the dust collection box through setting up the second filter on the upper portion of dust collection box, blocks dust granule for the air that does not take dust granule is discharged to the external world from the blast pipe of dust collection box top and carries out cyclic utilization.

As the preference, the lower extreme of dust collection box is the symmetry and is equipped with two sets of connecting pipes that are used for with the dust removal subassembly intercommunication, and the upper end of connecting pipe is equipped with the dust absorption pump that is used for the dust absorption, and the avris that the connecting pipe is close to dust absorption pump one end is equipped with the dust exhaust pipe that is used for leading-in dust collection box to the dust in the connecting pipe, and the dust collection box front end is equipped with the chamber door that is used for sealedly, can regularly clear up the dust collection box through setting up the chamber door, avoids the dust to collect full normal use who influences the dust absorption subassembly.

As the preference, the dust removal subassembly is including first dust removal brush, the installation piece, the threaded rod, the slider, driving motor, second dust removal brush, dust absorption head and link, the installation piece is bilateral symmetry and is equipped with four sets of, be located and all be equipped with the threaded rod that is used for pivoted between two sets of installation pieces that lead to one side, the surface cover of threaded rod is equipped with and is used for gliding slider, the one end that the slider is close to the switch board subassembly is equipped with the first dust removal brush that is used for carrying out the dust removal to the external side of cabinet, the inner wall of the cabinet body is equipped with the second dust removal brush that is used for carrying out the dust removal to the internal wall of cabinet, the middle part of second dust removal brush is linear distribution and is equipped with the dust absorption head that the multiunit is used for carrying out the dust absorption, dust absorption head and connecting pipe intercommunication, the dust absorption head can be in passing through the dust absorption head suction to the connecting pipe with the dust that the second dust removal brush is brushed down, finally in the dust collection box is arranged through the dust exhaust pipe.

As the preference, first dust removal brush and second dust removal brush pass through link fixed connection, and the link passes through logical groove and cabinet body sliding connection, and driving motor drives the slider through the rotation of drive threaded rod and slides from top to bottom, can drive the threaded rod through setting up driving motor and rotate, and then makes the threaded rod can drive the slider and slide along its surface to make first dust removal brush and second dust removal brush carry out synchronous displacement and brush down the dust of the internal and external both sides of cabinet.

The utility model has the beneficial effects that:

1. Compared with the traditional power distribution cabinet heat dissipation shell, often because of having seted up a large amount of louvres, lead to the dust easily to enter into the cabinet through the louvres, the accumulation of dust for a long time can influence the normal operating of switch board, the potential safety hazard probably causes, carry out the cooperation dust removal through setting up dust collection subassembly and dust collection subassembly, can in time get rid of the dust that glues on the power distribution cabinet heat dissipation shell, make the dust be difficult for piling up, thereby can guarantee the normal operating of switch board, can remove the dust on the external side of switch board cabinet and inboard surface through setting up dust collection subassembly, can drive the threaded rod through setting up driving motor and rotate, and then make the threaded rod can drive the slider and slide along its surface, thereby make the slider can drive the dust brush of the external side of cabinet and fall, carry out fixed connection with the second dust brush and the first dust brush of the internal side of cabinet through setting up the link, thereby make the first dust brush can drive the second dust brush and carry out synchronous displacement with the dust brush of cabinet inner wall, can improve dust removal efficiency through the first dust brush and the second dust brush and the internal and external synchronous dust removal of the internal and external dust brush.

Can cooperate the second dust removal brush through setting up dust collection subassembly and carry out the dust absorption, avoid the dust that the second brush dust subassembly brushed down to fall to cabinet body bottom and pile up, can change the inside pressure of connecting pipe through setting up the dust absorption pump and carry out the dust absorption, through setting up the connecting pipe that communicates each other with the second dust removal brush, and through setting up the dust absorption head in the middle part of second dust removal brush, can inhale the connecting pipe through the dust absorption head with the dust that the second dust removal brush brushed down under the effect of dust absorption pump in, finally in will dust discharging the dust collection box through the dust exhaust pipe, can filter the dust of inhaling in the dust collection box through setting up the second filter in the upper portion of dust collection box, block the dust granule, make the air that does not take dust granule follow the exhaust pipe of dust collection box top to outside carry out cyclic utilization, through setting up the chamber door in the front end of dust collection box, can regularly handle the dust in the dust collection box through opening the chamber door, both can dust removal, dust collection's switch board is more safe and reliable than traditional switch board.

Drawings

Fig. 1 shows an overall schematic diagram of a heat dissipation housing of a power distribution cabinet with a dust removal structure according to the present utility model;

FIG. 2 shows a schematic diagram of a dust removal assembly in a heat dissipation housing of a power distribution cabinet having a dust removal structure in accordance with the present utility model;

FIG. 3 shows a schematic diagram of a power distribution cabinet assembly in a power distribution cabinet heat dissipation housing with dust removal structure of the present utility model;

FIG. 4 is a schematic view of a dust collection assembly in a heat dissipation housing of a power distribution cabinet with a dust collection structure according to the present utility model;

FIG. 5 is a schematic view of a threaded rod in a heat dissipation housing of a power distribution cabinet with dust removal structure according to the present utility model;

FIG. 6 is a schematic diagram of a second dust brush in a heat dissipation housing of a power distribution cabinet with a dust removal structure according to the present utility model;

Fig. 7 shows a schematic view of a connecting frame in a heat dissipation shell of a power distribution cabinet with a dust removal structure.

Reference numerals illustrate: 1. a power distribution cabinet assembly; 2. a dust collection assembly; 3. a dust removal assembly; 101. a cabinet body; 102. a cabinet door; 103. a connection hole; 104. a heat radiation hole; 105. a through groove; 106. a first filter plate; 107. a fan module; 201. a dust collection box; 202. a second filter plate; 203. a connecting pipe; 204. a dust exhaust pipe; 205. a dust collection pump; 206. an exhaust pipe; 207. a door; 301. a first dust removing brush; 302. a mounting block; 303. a threaded rod; 304. a slide block; 305. a driving motor; 306. a second dust removing brush; 307. a dust collection head; 308. and a connecting frame.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: the utility model provides a switch board shell that looses with dust removal structure, is equipped with the dust absorption subassembly 2 that is used for absorbing the inside dust of switch board subassembly 1 including switch board subassembly 1, dust absorption subassembly 2 and dust removal subassembly 3 of dust collection subassembly, the left and right sides of switch board subassembly 1 all is equipped with the dust removal subassembly 3 that are used for getting rid of the surface dust of the shell of switch board subassembly 1.

Referring to fig. 3, in this embodiment, the power distribution cabinet assembly 1 includes a cabinet body 101, a cabinet door 102, a first filter plate 106 and a fan module 107, the middle parts of the left and right ends of the cabinet body 101 are provided with the first filter plate 106 for filtering large particle dust in the air, the inner side of the first filter plate 106 is provided with the fan module 107 for heat dissipation, the left and right end surfaces of the cabinet body 101 are uniformly provided with a plurality of groups of heat dissipation holes 104 for heat dissipation, the heat dissipation by the fan and the heat dissipation holes 104 can avoid the overhigh temperature inside the power distribution cabinet, the first filter plate 106 is arranged outside the fan to filter the dust with larger particles in the air, the left and right ends of the cabinet body 101 are symmetrically provided with two groups of through grooves 105 for sliding dust removal by the dust removal assembly 3, the top of the cabinet body 101 is symmetrically provided with two groups of connection holes 103 for communicating with the dust collection assembly 2, and the dust inside the power distribution cabinet assembly 1 can be guided into the dust collection assembly 2 by arranging the connection holes 103.

Referring to fig. 4, in this embodiment, the dust collection assembly 2 includes a dust collection box 201, a second filter plate 202, a connection pipe 203, a dust exhaust pipe 204, a dust suction pump 205, an exhaust pipe 206 and a box door 207, the second filter plate 202 for filtering dust particles is disposed at the upper portion of the dust collection box 201, the exhaust pipe 206 for exhausting filtered air is disposed at the side of the upper end of the dust collection box 201, a control valve for controlling the inlet and outlet is disposed at the outer side of the exhaust pipe 206, dust sucked into the dust collection box 201 can be filtered by disposing the second filter plate 202 at the upper portion of the dust collection box 201, dust particles are blocked, so that air without dust particles is exhausted from the exhaust pipe 206 above the dust collection box 201 to the outside for recycling, two groups of connection pipes 203 for communicating with the dust collection assembly 3 are symmetrically disposed at the lower end of the dust collection box 201, the dust suction pump 205 for dust suction is disposed at the upper end of the connection pipe 203, the dust exhaust pipe 204 for guiding dust in the connection pipe 203 into the dust collection box 201 is disposed at the side of one end of the connection pipe 203 near the connection pipe 205, and the box door 207 for sealing the front end of the dust collection box 201 is disposed at the front end of the dust collection box 201, so that the dust collection box 201 can be cleaned up regularly by the box door 207 for cleaning dust collection assembly 2.

Referring to fig. 5-7, in this embodiment, the dust removing assembly 3 includes a first dust removing brush 301, a mounting block 302, a threaded rod 303, a slider 304, a driving motor 305, a second dust removing brush 306, a dust collecting head 307 and a connecting frame 308, four groups of mounting blocks 302 are symmetrically arranged left and right, a threaded rod 303 for rotating is arranged between two groups of mounting blocks 302 on one side, a sliding slider 304 is sleeved on the surface of the threaded rod 303, one end of the slider 304, which is close to the power distribution cabinet assembly 1, is provided with the first dust removing brush 301 for removing dust on the outer side of the cabinet body 101, the inner wall of the cabinet body 101 is provided with the second dust removing brush 306 for removing dust on the inner wall of the cabinet body 101, a plurality of groups of dust collecting heads 307 for removing dust are linearly distributed in the middle of the second dust removing brush 306, the dust heads 307 are communicated with the connecting pipe 203, the dust collecting heads 307 can suck dust brushed down by the second dust removing brushes 306 into the connecting pipe 203 through the dust collecting heads 307, finally the dust is discharged into the dust collecting box 201 through the dust discharging pipe 204, the first dust removing brush 301 and the second dust brush 306 are connected with the second dust brush 306 through the connecting frame 308, and the driving motor 306 is connected with the inner side of the connecting pipe 303 through the connecting frame 308 to drive the threaded rod to rotate the two sides of the threaded rod 303, so that the dust can be driven by the sliding brushes to rotate along the inner side of the connecting frame 303.

When the dust-removing device works, the driving motor 305 drives the threaded rod 303 to rotate, so that the threaded rod 303 drives the sliding block 304 to slide along the surface of the threaded rod 303, and the sliding block 304 can drive the first dust-removing brush 301 to move up and down to brush dust outside the cabinet 101;

In the process of removing dust by the first dust removing brush 301, the second dust removing brush 306 fixedly connected with the first dust removing brush 301 through the connecting frame 308 is driven by the first dust removing brush 301 to synchronously displace so as to brush down dust on the inner wall of the cabinet 101;

In the process of removing dust by the second dust removing brush 306, dust brushed off by the second dust removing brush 306 is synchronously sucked away by a dust suction head 307 in the middle of the second dust removing brush 306;

Firstly, the pressure inside the connecting pipe 203 is changed by the dust suction pump 205 to suck dust, and the dust brushed by the second dust suction brush 306 is sucked into the connecting pipe 203 by the connecting pipe 203 which is communicated with the dust suction head 307 on the second dust suction brush 306;

Finally, the dust is discharged into the dust box 201 through the dust discharge pipe 204, and the dust sucked into the dust box 201 is filtered through the second filter plate 202 at the upper part of the dust box 201, so that dust particles are blocked, and the air without the dust particles is discharged to the outside from the exhaust pipe 206 at the upper part of the dust box 201;

To ensure that the dust collection assembly 2 keeps working normally, the dust in the dust collection box 201 is cleaned out by opening the box door 207 at the front end of the dust collection box 201.

Through the steps, staff firstly drives the threaded rod 303 to rotate through the driving motor 305, the threaded rod 303 drives the sliding block 304 to slide along the surface of the threaded rod 303, and then the sliding block 304 can drive the first dust removing brush 301 to move up and down to brush off dust outside the cabinet body 101, in the process of dust removal through the first dust removing brush 301, the second dust removing brush 306 fixedly connected with the first dust removing brush 301 through the connecting frame 308, the dust brush on the inner wall of the cabinet body 101 is brushed down through synchronous displacement under the driving of the first dust removing brush 301, the dust removal efficiency can be greatly improved through the first dust removing brush 301 and the second dust removing brush 306, in the process of dust removal through the second dust removing brush 306, the dust removing brush 306 is synchronously sucked away through the dust collecting head 307 in the middle part of the second dust removing brush 306, the pressure intensity of the inside of the connecting pipe 203 is changed through the dust removing pump 205, the dust brushed down by the second dust removing brush 306 is sucked into the connecting pipe 203 through the dust head 307, the dust brush assembly 202 is matched with the dust removing pipe assembly 2, the dust can be prevented from being sucked down through the dust removing port 201, and the dust can be discharged from the dust box 201, and the dust can be prevented from being discharged from the dust box 201, and the dust can be discharged from the dust box through the dust box can be discharged through the dust box 201, and the dust box can be prevented from being discharged to the dust box 201, and the dust box can be discharged to the dust box 201 The switch board of collection dirt is safer and more reliable than traditional switch board.

The embodiments of the present utility model have been described in detail with reference to the drawings, but the present utility model is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present utility model.

Claims (7)

1. A heat dissipation housing of a power distribution cabinet with a dust removal structure, comprising a power distribution cabinet component (1); characterized in that it also comprises a dust suction component (2) and a dust removal component (3), wherein the upper end of the power distribution cabinet component (1) is provided with a dust suction component (2) for sucking dust inside the power distribution cabinet component (1), and the left and right ends of the power distribution cabinet component (1) are both provided with dust removal components (3) for removing dust from the surface of the heat dissipation housing of the power distribution cabinet component (1). 2. A power distribution cabinet heat dissipation shell with a dust removal structure according to claim 1, characterized in that: the power distribution cabinet assembly (1) includes a cabinet body (101), a cabinet door (102), a first filter plate (106) and a fan module (107), a first filter plate (106) for filtering large particles of dust in the air is provided in the middle of the left and right ends of the cabinet body (101), a fan module (107) for heat dissipation is provided on the inner side of the first filter plate (106), and a plurality of heat dissipation holes (104) for heat dissipation are evenly distributed on the left and right end surfaces of the cabinet body (101). 3. A heat dissipation housing for a power distribution cabinet with a dust removal structure according to claim 2, characterized in that: two groups of through grooves (105) for sliding dust removal of the dust removal component (3) are symmetrically provided at both left and right ends of the cabinet body (101), and two groups of connection holes (103) for connecting with the dust collection component (2) are symmetrically provided at the top of the cabinet body (101). 4. A heat dissipation housing for a power distribution cabinet with a dust removal structure according to claim 1, characterized in that: the dust collection component (2) comprises a dust collecting box (201), a second filter plate (202), a connecting pipe (203), a dust exhaust pipe (204), a dust suction pump (205), an exhaust pipe (206) and a box door (207), the upper part of the dust collecting box (201) is provided with a second filter plate (202) for filtering out dust particles, the upper end side of the dust collecting box (201) is provided with an exhaust pipe (206) for exhausting filtered air, and the outer side of the exhaust pipe (206) is provided with a control valve for controlling inlet and outlet. 5. A heat dissipation housing for a power distribution cabinet with a dust removal structure according to claim 4, characterized in that: the lower end of the dust collecting box (201) is symmetrically provided with two groups of connecting pipes (203) for connecting with the dust removal component (3), the upper end of the connecting pipe (203) is provided with a dust suction pump (205) for dust suction, the side of the connecting pipe (203) close to one end of the dust suction pump (205) is provided with a dust exhaust pipe (204) for introducing dust in the connecting pipe (203) into the dust collecting box (201), and the front end of the dust collecting box (201) is provided with a box door (207) for sealing. 6. A heat dissipation housing for a power distribution cabinet with a dust removal structure according to claim 1, characterized in that: the dust removal assembly (3) comprises a first dust removal brush (301), a mounting block (302), a threaded rod (303), a slider (304), a drive motor (305), a second dust removal brush (306), a dust suction head (307) and a connecting frame (308), the mounting blocks (302) are provided with four groups symmetrically on the left and right, and a threaded rod (303) for rotation is provided between the two groups of mounting blocks (302) on one side of the through hole, and the threaded rod (303) is provided for rotation. A sliding block (304) for sliding is sleeved on the surface of the patterned rod (303); a first dust removal brush (301) for removing dust from the outside of the cabinet (101) is provided at one end of the sliding block (304) close to the power distribution cabinet assembly (1); a second dust removal brush (306) for removing dust from the inner wall of the cabinet (101) is provided on the inner wall of the cabinet (101); a plurality of groups of dust removal heads (307) for dust collection are linearly distributed in the middle of the second dust removal brush (306); the dust removal heads (307) are connected to the connecting pipe (203). 7. A heat dissipation housing of a power distribution cabinet with a dust removal structure according to claim 6, characterized in that: the first dust removal brush (301) and the second dust removal brush (306) are fixedly connected via a connecting frame (308), the connecting frame (308) is slidably connected to the cabinet body (101) via a through groove (105), and the driving motor (305) drives the slider (304) to slide up and down by driving the threaded rod (303) to rotate.