CN214545220U - Compact energy-saving power cabinet - Google Patents

Abstract

The utility model provides a compact energy-saving power cabinet, which comprises an integral cabinet body, wherein the integral cabinet body comprises a first cabinet body, a second cabinet body, a third cabinet body and a power element mounting structure, and further comprises a first fan with upward air draft at the top, a second fan with outward air draft at the back, a third fan with upward air blast at the bottom and a filter screen corresponding to the fans; the power supply element mounting structure is used for mounting a power supply element and is arranged in an integral air duct formed by the first fan, the second fan and the third fan. The fan and the power supply element mounting structure ensure efficient heat dissipation, so that the load of equipment is reduced, the working efficiency is improved, and the energy-saving effect is achieved.

Description

Compact energy-saving power cabinet

Technical Field

The utility model relates to a power cabinet field especially relates to an energy-conserving power cabinet of compact.

Background

The power cabinet is because the long-term continuous work of the power equipment of inside placing, and the temperature is on the high side in the cabinet, and some power component need just can normal operating under certain temperature condition otherwise power descends, and the energy consumption becomes high, and is higher to the heat dissipation requirement of power cabinet.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: provides a compact energy-saving power cabinet with high-efficiency heat dissipation.

In order to solve the technical problem, the utility model discloses a technical scheme be: a compact energy-saving power cabinet comprises an integral cabinet body, wherein the integral cabinet body comprises a first cabinet body, a second cabinet body and a third cabinet body, the first cabinet body, the second cabinet body and the third cabinet body are sequentially arranged from top to bottom and communicated with the inside, the compact energy-saving power cabinet also comprises a first fan, a second fan, a third fan and a power element mounting structure, the first fan is arranged on the inner side of the top of the first cabinet body and is provided with a first filter screen with the outer side of the top of the first cabinet body, and the first fan draws air upwards;

the second fan is arranged on the inner side of the back of the second cabinet body, a second filter screen is arranged on the back of the second cabinet body, and the second fan draws air towards the back of the second cabinet body;

the third fan is arranged on the inner side of the bottom of the third cabinet body and blows air towards the top, and a third filter screen is arranged on the peripheral surface of the third cabinet body;

the power supply element mounting structure is used for mounting a power supply element and is arranged in an integral air channel formed by the first fan, the second fan and the third fan.

Further, power component mounting structure includes first mounting panel and second mounting panel, first mounting panel and second mounting panel are parallel to each other and are on a parallel with whole cabinet body back, first mounting panel and second mounting panel are used for installing power component towards one side of whole rack inner wall, form first wind channel between first mounting panel and the second mounting panel, first mounting panel and second mounting panel respectively with whole cabinet body inner wall between form the second wind channel.

Furthermore, a heat radiation fan is arranged at the position where the power supply elements are arranged on the first mounting plate and the second mounting plate, and a first radiator is arranged in the first air duct.

Further, the power supply element mounting structure comprises a heat dissipation box, the heat dissipation box is divided into an upper part and a lower part by a heat dissipation frame arranged in the heat dissipation box, a plurality of uniformly-arranged grid holes are formed in the side face of the upper portion of the heat dissipation box, a second heat radiator is arranged on the lower portion of the heat dissipation box, an air inlet hole is formed in the bottom face of the heat dissipation box, and a plurality of uniformly-arranged heat dissipation holes are formed in the top face of the heat dissipation box.

Furthermore, the heat dissipation frame is a box body with an open top, a plurality of uniform square holes are respectively formed in two side faces, parallel to the grid holes of the heat dissipation frame, and the plurality of heating bodies stretch into the heat dissipation frame through a plurality of round holes formed in the other side face of the heat dissipation frame.

Furthermore, the heat dissipation box is surrounded by a left cover plate, a right cover plate and a rear cover plate, the left cover plate and the right cover plate are both L-shaped plates, and the rear cover plate is a C-shaped plate; the edges of the upper side surface and the lower side surface of the rear cover plate respectively extend downwards and upwards, mounting buckle holes are formed in the extending parts, and two opposite surfaces of the left cover plate and the right cover plate are provided with adaptive clamping hooks; the upper side and the lower side of the rear cover plate are respectively in threaded connection with the left cover plate and the right cover plate through extending parts of the upper side and the lower side of the rear cover plate.

Further, the second fan is overlapped with the heat dissipation box in the vertical direction.

Further, a plurality of heat dissipation boxes are arranged in the cabinet body side by side.

Furthermore, a plurality of integral cabinet bodies are arranged side by side, and the adjacent first cabinet bodies are communicated; the first fan is arranged at the top of the inner side of the first cabinet body and extends upwards, and a first filter screen is arranged at the extending position and the top of the first cabinet body in a surrounding mode.

The beneficial effects of the utility model reside in that: the arrangement of the first fan at the top, the second fan at the back and the third fan at the bottom of the cabinet body enables the cabinet body to blow natural wind upwards from the bottom to take away heat inside the cabinet body; meanwhile, the ventilation at the top and the back further enhances the circulation of air in the cabinet body, and enhances the overall ventilation and heat dissipation of the cabinet body; optionally, the first fan may be disposed on the side of the bottom of the cabinet body, natural wind is blown in upwards through the third fan to take away heat from bottom to top, and then is drawn out by the second fan on the back, and the first fan draws air outwards, and the natural wind takes away heat of the power supply element from top to bottom; the power supply element mounting structure is exposed in the whole air duct to fully dissipate heat, so that the load of the power supply element is reduced, the working efficiency is improved, and the energy-saving effect is achieved.

Drawings

Fig. 1 is a schematic structural diagram of a compact energy-saving power cabinet according to a first embodiment of the present invention;

fig. 2 is a schematic side view (side view without cabinet body) of a compact energy-saving power cabinet according to a first embodiment of the present invention;

fig. 3 is a schematic front view (without a cabinet body) of a compact energy-saving power cabinet according to a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a compact energy-saving power cabinet according to a second embodiment of the present invention;

fig. 5 is a schematic structural view of a back surface of a compact energy-saving power cabinet according to a second embodiment of the present invention;

fig. 6 is a schematic view of an air duct of a compact energy-saving power cabinet according to the second embodiment of the present invention.

Description of reference numerals:

1. a first cabinet; 2. a second cabinet; 3. a third cabinet body; 4. a first fan; 5. a second fan; 6. a third fan; 7. a first mounting plate; 8. a second mounting plate; 9. a heat radiation fan.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

Referring to fig. 1 to 6, a compact energy-saving power cabinet includes an integral cabinet body including a first cabinet body, a second cabinet body, and a third cabinet body, the first cabinet body, the second cabinet body, and the third cabinet body are sequentially disposed from top to bottom and communicated with the inside, and further includes a first fan, a second fan, a third fan, and a power element mounting structure, the first fan is disposed at the inner side of the top of the first cabinet body and provided with a first filter screen at the outer side of the top of the first cabinet body, and the first fan draws air upwards;

the second fan is arranged on the inner side of the back of the second cabinet body, a second filter screen is arranged on the back of the second cabinet body, and the second fan draws air towards the back of the second cabinet body;

the third fan is arranged on the inner side of the bottom of the third cabinet body and blows air towards the top, and a third filter screen is arranged on the peripheral surface of the third cabinet body;

the power supply element mounting structure is used for mounting a power supply element and is arranged in an integral air channel formed by the first fan, the second fan and the third fan.

The utility model discloses a theory of operation does: a third fan at the bottom of the third cabinet body extracts outside air to blow upwards for exchanging internal heat, and meanwhile, a first fan at the top of the first cabinet body draws upwards to enable the internal air to rise quickly, and when the internal air reaches the second cabinet body, the second fan draws part of air outwards; the rest air is pumped out by the first fan to complete one circulation.

From the above description, the beneficial effects of the present invention are: the arrangement of the first fan at the top, the second fan at the back and the third fan at the bottom of the cabinet body enables the cabinet body to blow natural wind upwards from the bottom to take away heat inside the cabinet body; meanwhile, the ventilation at the top and the back further enhances the circulation of air in the cabinet body, and enhances the overall ventilation and heat dissipation of the cabinet body; optionally, the first fan may be disposed on the side of the bottom of the cabinet body, natural wind is blown in upwards through the third fan to take away heat from bottom to top, and then is drawn out by the second fan on the back, and the first fan draws air outwards, and the natural wind takes away heat of the power supply element from top to bottom; the power supply element mounting structure is exposed in the whole air duct to fully dissipate heat, so that the load of the power supply element is reduced, the working efficiency is improved, and the energy-saving effect is achieved.

Further, power component mounting structure includes first mounting panel and second mounting panel, first mounting panel and second mounting panel are parallel to each other and are on a parallel with whole cabinet body back, first mounting panel and second mounting panel are used for installing power component towards one side of whole rack inner wall, form first wind channel between first mounting panel and the second mounting panel, first mounting panel and second mounting panel respectively with whole cabinet body inner wall between form the second wind channel.

According to the description, when the fan is started, natural wind blows upwards from the bottoms of the first air duct and the second air duct from bottom to top; the first air channel is tightly attached to the back of the power supply element, and the heat on the back of the power supply element can be taken away by blowing natural wind; a power supply element is arranged in the second air duct, and natural wind blows heat which is used for carrying away the power supply element body; the first air duct and the second air duct are combined to achieve more efficient heat dissipation.

Furthermore, a heat radiation fan is arranged at the position where the power supply elements are arranged on the first mounting plate and the second mounting plate, and a first radiator is arranged in the first air duct.

As can be seen from the above description, the heat dissipation fan is disposed at the power supply component having the temperature requirement, and performs blowing heat dissipation on the power supply component in a targeted manner; a first radiator is arranged in the first air duct and used for radiating the back of the power supply element.

Further, the power supply element mounting structure comprises a heat dissipation box, the heat dissipation box is divided into an upper part and a lower part by a heat dissipation frame arranged in the heat dissipation box, a plurality of uniformly-arranged grid holes are formed in the side face of the upper portion of the heat dissipation box, a second heat radiator is arranged on the lower portion of the heat dissipation box, an air inlet hole is formed in the bottom face of the heat dissipation box, and a plurality of uniformly-arranged heat dissipation holes are formed in the top face of the heat dissipation box.

According to the description, the internal air duct formed by the heat dissipation box, the heat dissipation frame, the heat radiator and various heat dissipation through holes is more compact in design, and natural air blown from the bottom of the cabinet body enters the air inlet hole in the bottom of the heat dissipation box and is mixed with hot air in the heat dissipation box during heat dissipation to disperse heat; the radiator further radiates heat; and then natural wind is dispersed and flows out from the heat dissipation holes on the top surface of the heat dissipation box and the grid holes on the side surface respectively due to the air draft on the top of the cabinet body. High-efficient heat dissipation has been ensured through the heat dissipation case of fan and inside compact setting for equipment load descends, improves work efficiency and reaches energy-conserving effect.

Furthermore, the heat dissipation frame is a box body with an open top, a plurality of uniform square holes are respectively formed in two side faces, parallel to the grid holes of the heat dissipation frame, and the plurality of heating bodies stretch into the heat dissipation frame through a plurality of round holes formed in the other side face of the heat dissipation frame.

According to the above description, the heat dissipation frame is provided with the ventilation structure, and when the heat dissipation frame dissipates heat, natural wind blown from the bottom of the integral cabinet body carries heat generated by the heating body away, and the heat flows uniformly to the top opening and the side square holes of the heat dissipation frame; the heating body stretches into the setting through heat dissipation frame side round hole for the heating body greater exposure has increased the area of contact with the air in the inside wind channel of heat dissipation case, improves the radiating efficiency.

Furthermore, the heat dissipation box is surrounded by a left cover plate, a right cover plate and a rear cover plate, the left cover plate and the right cover plate are both L-shaped plates, and the rear cover plate is a C-shaped plate; the edges of the upper side surface and the lower side surface of the rear cover plate respectively extend downwards and upwards, mounting buckle holes are formed in the extending parts, and two opposite surfaces of the left cover plate and the right cover plate are provided with adaptive clamping hooks; the upper side and the lower side of the rear cover plate are respectively in threaded connection with the left cover plate and the right cover plate through extending parts of the upper side and the lower side of the rear cover plate.

According to the above description, the split type setting of heat dissipation case encloses through left apron, right side apron and back shroud, and left side apron and right side apron are respectively through the installation knot hole cooperation of trip and back shroud separately, and rethread screw thread locking, dismouting simple and convenient, and a plurality of plates need a plurality of bolt fixings, labour saving and time saving in the past relatively.

Further, the third fan is overlapped with the heat dissipation box in the vertical direction.

According to the description, the position of the heat dissipation box can be arranged according to actual use, and the vertical direction of the third fan is overlapped with the heat dissipation box to ensure that the brought natural wind can fully take away the heat in the heat dissipation box.

Further, a plurality of heat dissipation boxes are arranged in the cabinet body side by side.

According to the above description, the plurality of radiating boxes are compactly arranged, so that the whole air duct from bottom to top is more reasonably utilized, and natural air blown by the fan is fully utilized for efficient heat dissipation.

Furthermore, a plurality of integral cabinet bodies are arranged side by side, and the adjacent first cabinet bodies are communicated; the first fan is arranged at the top of the inner side of the first cabinet body and extends upwards, and a first filter screen is arranged at the extending position and the top of the first cabinet body in a surrounding mode.

As can be known from the above description, a plurality of whole cabinets body are through intercommunication each other between the first cabinet body, because the first cabinet body is used for placing the electric wire of connecting each whole cabinet body, and the electric wire is avoided disturbing to the design that first fan upwards extends.

Referring to fig. 1 to 3, a first embodiment of the present invention is:

the compact energy-saving power supply structural design of the embodiment comprises an integral cabinet body, the integral cabinet body comprises a first cabinet body 1, a second cabinet body 2 and a third cabinet body 3, the first cabinet body 1, the second cabinet body 2 and the third cabinet body 3 are sequentially arranged from top to bottom and are communicated with the inside, the first cabinet body 1 is used for placing electric wires, the top of the first cabinet body 1 is provided with a lifting lug for carrying, the second cabinet body 2 is used for placing a control module, the front of the second cabinet body 2 is provided with a plurality of control buttons and instruments, the third cabinet body 3 is used for placing heating elements such as an inverter module and the like, the compact energy-saving power supply structural design also comprises a first fan 4, a second fan 5, a third fan 6 and a power supply element mounting structure,

the first fan 4 is arranged at the back of the third cabinet body 3 and draws air towards the outer side of the third cabinet body 3, and a first filter screen is arranged at the back of the third cabinet body 3;

the second fan 5 is arranged at the inner side of the back of the second cabinet body 2, a second filter screen is arranged at the back of the second cabinet body 2, and the second fan 5 draws air towards the outer side of the second cabinet body 2;

the third fan 6 is a centrifugal fan arranged at the inner side of the bottom of the third cabinet body 3 and blows air towards the top, and a third filter screen is arranged on the circumferential surface of the third cabinet body 3.

The power supply element mounting structure comprises a first mounting plate 7 and a second mounting plate 8, the first mounting plate 7 and the second mounting plate 8 are parallel to each other and are parallel to the back of the whole cabinet body, one sides of the first mounting plate 7 and the second mounting plate 8 facing the inner wall of the whole cabinet body are used for mounting power supply elements, a first air channel is formed between the first mounting plate 7 and the second mounting plate 8, and a second air channel is formed between the first mounting plate 7 and the second mounting plate 8 and the inner wall of the whole cabinet body respectively.

The power supply element mounting positions of the first mounting plate 7 and the second mounting plate 8 are provided with a heat radiation fan 9, and a first radiator is arranged in the first air channel.

The whole cabinet body is provided with a plurality ofly side by side, communicates between the adjacent first cabinet body 1, and the electric wire of connecting each whole cabinet body is placed to the first cabinet body 1.

Referring to fig. 4 to 6, the second embodiment of the present invention is:

the compact energy-saving power supply structural design of the embodiment comprises an integral cabinet body, the integral cabinet body comprises a first cabinet body 1, a second cabinet body 2 and a third cabinet body 3, the first cabinet body 1, the second cabinet body 2 and the third cabinet body 3 are sequentially arranged from top to bottom and are communicated with the inside, the first cabinet body 1 is used for placing electric wires, the top of the first cabinet body 1 is provided with a lifting lug for carrying, the second cabinet body 2 is used for placing a control module, the front of the second cabinet body 2 is provided with a plurality of control buttons and instruments, the third cabinet body 3 is used for placing heating elements such as an inverter module and the like, the compact energy-saving power supply structural design also comprises a first fan 4, a second fan 5, a third fan 6 and a power supply mounting structure,

the first fan 4 is arranged at the top of the inner side of the first cabinet body 1 and extends upwards, a first filter screen is arranged at the extending position and the top of the first cabinet body 1 in a surrounding mode, and the first fan 4 is used for upwards exhausting air;

the second fan 5 is arranged at the inner side of the back of the second cabinet body 2, a second filter screen is arranged at the back of the second cabinet body 2, and the second fan 5 draws air towards the back of the second cabinet body 2;

the third fan 6 is a centrifugal fan which is arranged at the inner side of the bottom of the third cabinet body 3 and blows air towards the top, and a third filter screen is arranged on the peripheral surface of the third cabinet body 3;

the power supply mounting structure comprises a heat dissipation box, and the heat dissipation box is arranged on the upper portion of the third cabinet body 3 in the embodiment. The heat dissipation box is divided into an upper part and a lower part by a heat dissipation frame arranged in the heat dissipation box, the upper part of the heat dissipation frame is used for placing a power supply element, and a second radiator is arranged at the bottom of the heat dissipation frame; the bottom surface of the heat dissipation box is provided with an air inlet, and the top surface of the heat dissipation box is provided with a plurality of heat dissipation holes which are uniformly arranged; the side surface of the heat dissipation box, which is positioned at the upper part of the heat dissipation frame, is provided with a plurality of grid holes which are uniformly arranged.

The heat dissipation frame is a box body with an opening at the top and is fixed on a vertical mounting plate arranged at the bottom in the heat dissipation box. The two side surfaces of the heat dissipation frame, which are parallel to the grid holes of the heat dissipation box, are respectively provided with a plurality of uniform square holes, and the power supply element extends into the heat dissipation frame through a plurality of round holes arranged on the other side surface of the heat dissipation frame.

The heat dissipation box is enclosed by a left cover plate, a right cover plate and a rear cover plate, wherein the left cover plate and the right cover plate are both L-shaped plates, and the rear cover plate is a C-shaped plate; the edges of the upper side surface and the lower side surface of the rear cover plate respectively extend downwards and upwards, mounting buckle holes are formed in the extending parts, and two opposite surfaces of the left cover plate and the right cover plate are provided with adaptive clamping hooks; the upper side and the lower side of the rear cover plate are respectively in threaded connection with the left cover plate and the right cover plate through the extending parts of the upper side and the lower side of the rear cover plate.

The third fan 6 is overlapped with the heat dissipation box in the vertical direction, so that the brought natural wind can fully take away the heat in the heat dissipation box.

A plurality of heat dissipation boxes are arranged in the cabinet body side by side, the heat dissipation boxes are compactly arranged, the whole air duct from bottom to top is more reasonably utilized, and natural air blown by the fan is fully utilized to dissipate heat efficiently.

The whole cabinet body is provided with a plurality ofly side by side, communicates between the adjacent first cabinet body 1, and the electric wire of connecting each whole cabinet body is placed to the first cabinet body 1.

In summary, the compact energy-saving power supply provided by the utility model is provided with three fans to enhance air circulation, so that the whole air channel moves from top to bottom and generates shunting in the middle multi-heating area, thereby improving the heat dissipation effect; optionally arranging the first fan on the third cabinet body and drawing air outwards to realize secondary flow of natural wind and take away more heat; the first mounting plate and the second mounting plate are arranged to form a first air duct for back heat dissipation of the power supply element and a second air duct for body heat dissipation of the power supply element; the heat dissipation box, the heat dissipation frame, the radiator and various heat dissipation through holes form a compact internal air duct, and natural air blown from the bottom of the cabinet body enters the air inlet hole at the bottom of the heat dissipation box and is mixed with hot air in the heat dissipation box during heat dissipation to dissipate heat; the radiator further radiates heat; then natural wind dispersedly flows out from the heat dissipation holes on the top surface and the grid holes on the side surface of the heat dissipation box respectively due to the air draft on the top of the cabinet body, so that high-efficiency heat dissipation is ensured, the load of equipment is reduced, the working efficiency is improved, and the energy-saving effect is achieved; the heat dissipation box comprises a left cover plate, a right cover plate and a rear cover plate, and is simple and convenient to assemble and disassemble; the vertical direction of the second fan is overlapped with the heat dissipation box to ensure sufficient heat dissipation; a plurality of heat dissipation boxes set up the whole wind channel of make full use of side by side, improve the radiating efficiency.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (9)

1. A compact energy-saving power cabinet comprises an integral cabinet body, wherein the integral cabinet body comprises a first cabinet body, a second cabinet body and a third cabinet body, the first cabinet body, the second cabinet body and the third cabinet body are sequentially arranged from top to bottom and communicated with the inside, the compact energy-saving power cabinet is characterized by also comprising a first fan, a second fan, a third fan and a power element installation structure, the first fan is arranged on the inner side of the top of the first cabinet body and is provided with a first filter screen with the outer side of the top of the first cabinet body, and the first fan draws air upwards;

the second fan is arranged on the inner side of the back of the second cabinet body, a second filter screen is arranged on the back of the second cabinet body, and the second fan draws air towards the back of the second cabinet body;

the third fan is arranged on the inner side of the bottom of the third cabinet body and blows air towards the top, and a third filter screen is arranged on the peripheral surface of the third cabinet body;

the power supply element mounting structure is used for mounting a power supply element and is arranged in an integral air channel formed by the first fan, the second fan and the third fan.

2. The compact energy-saving power cabinet according to claim 1, wherein the power supply element mounting structure comprises a first mounting plate and a second mounting plate, the first mounting plate and the second mounting plate are parallel to each other and parallel to the whole cabinet back, one sides of the first mounting plate and the second mounting plate facing the whole cabinet inner wall are used for mounting the power supply element, a first air duct is formed between the first mounting plate and the second mounting plate, and a second air duct is formed between the first mounting plate and the second mounting plate and the whole cabinet inner wall respectively.

3. The compact energy-saving power cabinet according to claim 2, wherein the first mounting plate and the second mounting plate are provided with heat dissipation fans at power supply elements, and the first air duct is provided with a first heat sink therein.

4. The compact energy-saving power cabinet according to claim 1, wherein the power component mounting structure comprises a heat dissipation box divided into an upper part and a lower part by a heat dissipation frame, the heat dissipation box is provided with a plurality of uniformly arranged grid holes on the side surface of the upper part, the lower part is provided with a second heat sink, the bottom surface is provided with an air inlet hole, and the top surface is provided with a plurality of uniformly arranged heat dissipation holes.

5. The compact energy-saving power cabinet according to claim 4, wherein the heat dissipation frame is a box body with an open top, two side surfaces of the heat dissipation frame parallel to the grid holes of the heat dissipation box are respectively provided with a plurality of uniform square holes, the other side surface of the heat dissipation frame is provided with a plurality of round holes, and the power supply element extends into the heat dissipation frame through the plurality of round holes arranged on the other side surface of the heat dissipation frame.

6. The compact energy-saving power cabinet according to claim 4, wherein the heat dissipation box is surrounded by a left cover plate, a right cover plate and a rear cover plate, the left cover plate and the right cover plate are both L-shaped plates, and the rear cover plate is a C-shaped plate; the edges of the upper side surface and the lower side surface of the rear cover plate respectively extend downwards and upwards, mounting buckle holes are formed in the extending parts, and two opposite surfaces of the left cover plate and the right cover plate are provided with adaptive clamping hooks; the upper side and the lower side of the rear cover plate are respectively in threaded connection with the left cover plate and the right cover plate through extending parts of the upper side and the lower side of the rear cover plate.

7. The compact, energy-saving power cabinet according to claim 4, wherein the third fan vertically coincides with the heat dissipation box.

8. The compact energy-saving power cabinet according to claim 4, wherein a plurality of heat dissipation boxes are arranged side by side in the integral cabinet body.

9. The compact energy-saving power cabinet according to claim 1, wherein a plurality of the integral cabinets are arranged side by side, and the adjacent first cabinets are communicated with each other; the first fan is arranged at the top of the inner side of the first cabinet body and extends upwards, and a first filter screen is arranged at the extending position and the top of the first cabinet body in a surrounding mode.

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