CN111293614A - High-efficient heat dissipation type distribution automation monitoring device - Google Patents

Abstract

The utility model provides a high-efficient heat dissipation type distribution automation monitoring device, includes box, first filter screen and sliding door, a plurality of openings have been seted up to the left and right sides of box, first filter screen is all installed to the upper and lower opening part of box, first heat abstractor is installed to the inside below of box. This high-efficient heat dissipation type distribution automation monitoring device, through the box, distribution supervisory equipment, mutually support between first diaphragm and the exhaust fan isotructure, can be with the hot-air outgoing in the box, thereby cool down the heat dissipation to distribution supervisory equipment, through the water pump, first arc water pipe, mutually support between second arc water pipe and the water tank isotructure, thereby can adsorb the heat of inside through the hydrologic cycle flow, guarantee the normal work of equipment, through the fan, mutually support between first L shape pole and the second arc water pipe, can be further carry out the cooling processing of dispelling the heat to equipment, thereby performance has been improved.

Description

High-efficient heat dissipation type distribution automation monitoring device

Technical Field

The invention relates to the technical field of distribution equipment, in particular to a high-efficiency heat-dissipation type distribution automation monitoring device.

Background

Distribution automation is a collection computer technology, data transmission, control technology, modernized equipment and management in the integrated information management system of an organic whole, its purpose is to improve the power supply reliability, improve the electric energy quality, provide high-quality service to the user, reduce the working costs, alleviate operating personnel's intensity of labour, generally carry out real-time supervision through installing distribution automation supervisory equipment in public transformer and distribution lines mostly, and distribution automation supervisory equipment among the prior art dispels the heat through the filter mesh hole of box most, the radiating effect is not good, can't guarantee distribution supervisory equipment's normal work, simultaneously heat abstractor among the prior art is too single, and the radiating efficiency is too low, can't dispel the heat fast.

Disclosure of Invention

The purpose of the invention is: the utility model provides a high-efficient heat dissipation type distribution automation monitoring device to solve and propose among the above-mentioned background art and distribution automation monitoring device among the prior art mostly dispels the heat through the filter mesh hole of box, the radiating effect is not good, can't guarantee the problem that distribution monitoring device normally worked.

The technical scheme of the invention is as follows: a high-efficiency heat-dissipation type distribution automation monitoring device comprises a box body, a first filter screen and a sliding door, wherein a plurality of openings are formed in the left side and the right side of the box body;

the first heat dissipation device comprises a first transverse plate, an exhaust fan, power distribution monitoring equipment, a second transverse plate, a second filter screen and a first vertical plate;

control the lower surface of first diaphragm links to each other with the lower surface inner wall of box is fixed, controls the inside rigid coupling in top of first diaphragm has the exhaust fan, controls the top of first diaphragm is equipped with distribution supervisory equipment, distribution supervisory equipment's outer wall links to each other with the inner wall of box is fixed, controls the top of first diaphragm is equipped with the second diaphragm, the left and right sides outer wall of second diaphragm links to each other with the inner wall of box is fixed, a plurality of openings have been seted up to the centre of second diaphragm, a plurality of opening part rigid couplings of second diaphragm have the second filter screen, the upper surface rigid coupling of second diaphragm has a plurality of first risers, and is a plurality of openings have been seted up to the inside of first riser.

Preferably, a plurality of the first vertical plates and the second transverse plates are perpendicular to each other.

Preferably, the left and right exhaust fans are symmetrically distributed by taking the midpoint of the power distribution monitoring equipment as the center.

Preferably, a circulating device is arranged above the left side of the box body;

the circulating device comprises a third transverse plate, a water tank, a second vertical plate, a first arc-shaped water pipe, a fourth transverse plate, a water pump and a second arc-shaped water pipe;

the right side of the third transverse plate is fixedly connected with the box body, the upper surface of the third transverse plate is fixedly connected with a water tank, the lower surface of the third transverse plate is fixedly connected with a second vertical plate, the middle of the second vertical plate is provided with an opening, the left side of the water tank is fixedly connected with a first arc-shaped water pipe, the first arc-shaped water pipe is communicated with the water tank, the middle outer wall of the first arc-shaped water pipe is in clearance fit with the outer wall of the opening of the second vertical plate, a fourth transverse plate is arranged below the second vertical plate, the right side of the fourth transverse plate is fixedly connected with the box body, a water pump is fixedly connected inside the fourth transverse plate, the water outlet of the water pump is fixedly connected with the first arc-shaped water pipe, the water outlet of the water pump is communicated with the first arc-shaped water pipe, the water suction port of the water pump is fixedly connected with a second arc-shaped water pipe, the second arc-shaped, the outer wall of the second arc-shaped water pipe is in clearance fit with the outer walls of the opening parts of the box body and the first vertical plate respectively, the upper portion of the second arc-shaped water pipe is fixedly connected with the lower portion of the right side of the water tank, and the second arc-shaped water pipe is communicated with the water tank.

Preferably, the third transverse plate and the fourth transverse plate are parallel to each other.

Preferably, a second heat dissipation device is arranged above the interior of the box body;

the second heat dissipation device comprises a first L-shaped rod, a tooth sleeve, a fan, a second L-shaped rod, a spring, a third vertical plate, a half gear, a fourth vertical plate and a motor;

the upper surface of the left and right first L-shaped rods is fixedly connected with the inner wall of the upper surface of the box body, the inner sides of the left and right first L-shaped rods are processed with convex blocks, the inner side outer walls of the left and right first L-shaped rods are sleeved with tooth sockets, the outer walls of the left and right first L-shaped rods are in clearance fit with the inner walls of the tooth sockets, the lower surface of the left and right tooth sockets is fixedly connected with a fan, the upper sides of the outer sides of the left and right tooth sockets are fixedly connected with a second L-shaped rod, the outer sides of the left and right second L-shaped rods are provided with a plurality of springs, the two sides of the upper and lower springs are respectively fixedly connected with the first L-shaped rods and the second L-shaped rods, a third vertical plate is arranged above the left and right second L-shaped rods, the upper surface of the left and right third vertical plates is fixedly connected with the box body, the front end surface of the left and right third vertical plates is rotatably connected with a, control the inboard of third riser is equipped with the fourth riser, controls the upper surface and the box of fourth riser are fixed to be linked to each other, control the preceding terminal surface rigid coupling of fourth riser has the motor, controls the output shaft of motor passes through the belt and links to each other with the pivot department rotation of half-gear.

Preferably, the middle point of the output shaft of the left and right motors is on the same horizontal line with the middle point of the half gear.

Preferably, the meshing ratio of the left half gear and the right half gear to the tooth sleeve is 1: 1.

the application of the automatic monitoring device specifically comprises the following steps:

s1, firstly, pouring a proper amount of water into the water tank by an operator, enabling the water in the water tank to flow into the second arc-shaped water pipe, enabling the water in the second arc-shaped water pipe to absorb the heat emitted by the power distribution monitoring equipment, switching on an external power supply of the water pump, starting the water pump, enabling the water pump to suck the water in the second arc-shaped water pipe through the water suction port, discharging the water into the first arc-shaped water pipe through the water outlet, enabling the water to enter the water tank through the first arc-shaped water pipe, and enabling the water to circulate, so that the purpose of cooling the power distribution monitoring equipment is achieved.

S2, an external power supply of the motor is switched on, the motor is started, an output shaft of the motor drives the half gear to rotate through the belt, the half gear drives the tooth sleeve to move, the tooth sleeve drives the fan to move, meanwhile, the tooth sleeve drives the second L-shaped rod to move, the second L-shaped rod stretches the spring, and the tooth sleeve can be reset through the elastic performance of the spring.

S3, switching on the external power supply of the fan and the exhaust fan, starting the fan and the exhaust fan, enabling the fan to further dissipate heat of the power distribution monitoring equipment, and simultaneously discharging hot air in the box body through the exhaust fan, thereby achieving the purpose of quickly cooling and dissipating heat of the equipment.

Compared with the prior art, the invention has the beneficial effects that:

1. the high-efficiency heat dissipation type distribution automation monitoring device can discharge hot air in the box body through mutual matching of the box body, the distribution monitoring equipment, the first filter screen, the first transverse plate, the exhaust fan and other structures, so that heat dissipation and cooling are carried out on the distribution monitoring equipment;

2. according to the efficient heat dissipation type power distribution automatic monitoring device, through mutual matching of the structures such as the water pump, the first vertical plate, the first arc-shaped water pipe, the second arc-shaped water pipe and the water tank, internal heat can be absorbed through water circulation flow, and normal work of equipment is guaranteed;

3. according to the efficient heat dissipation type power distribution automatic monitoring device, the fan, the tooth sleeve, the first L-shaped rod and the second arc-shaped water pipe are matched with each other, heat dissipation and cooling treatment can be further performed on equipment, and therefore the use performance is improved;

4. the high-efficiency heat dissipation type power distribution automatic monitoring device can drive the fan to move through the mutual matching of the structures such as the motor, the half gear, the spring, the fan, the first L-shaped rod, the second L-shaped rod and the tooth sleeve, so that the heat dissipation efficiency is improved;

5. according to the high-efficiency heat dissipation type distribution automatic monitoring device, a proper amount of water is poured into the water tank, so that the water in the water tank flows into the second arc-shaped water pipe, the water in the second arc-shaped water pipe absorbs heat dissipated by the distribution monitoring equipment, the water in the second arc-shaped water pipe is sucked by the water pump through the water suction port, the water is discharged into the first arc-shaped water pipe through the water outlet, the water enters the water tank through the first arc-shaped water pipe, and therefore the water is circulated, and the purpose of cooling the distribution monitoring equipment is achieved;

6. this high-efficient heat dissipation type distribution automation monitoring device, the output shaft through making the motor drives the semi-gear through the belt and rotates, the semi-gear drives tooth sleeve and removes, tooth sleeve drives the fan and removes, tooth sleeve drives second L shape pole and removes simultaneously, make second L shape pole stretch the spring, elasticity performance through the spring can make tooth sleeve reset, the external power supply of switch-on fan and exhaust fan, start fan and exhaust fan, make the fan further dispel the heat to distribution supervisory equipment, simultaneously through the hot-air outgoing in the exhaust fan with the box, just so reached and carried out the radiating purpose of rapid cooling to equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the second cross plate, the second screen and the first vertical plate in FIG. 1;

FIG. 3 is a schematic structural view of the water pump, the first arc-shaped water pipe and the third cross plate in FIG. 1;

FIG. 4 is a schematic view of the structure of the motor, the half-gear and the tooth socket of FIG. 1;

FIG. 5 is a schematic view of the spring, the first L-shaped bar and the second L-shaped bar of FIG. 1;

fig. 6 is a schematic structural view of the case, the sliding door and the water tank in fig. 1.

In the figure: 1. the box, 2, first filter screen, 3, first heat abstractor, 301, first diaphragm, 302, exhaust fan, 303, distribution supervisory equipment, 304, second diaphragm, 305, second filter screen, 306, first riser, 4, circulating device, 401, third diaphragm, 402, the water tank, 403, the second riser, 404, first arc water pipe, 405, the fourth diaphragm, 406, the water pump, 407, the second arc water pipe, 5, the second heat abstractor, 501, first L shape pole, 502, tooth sleeve, 503, the fan, 504, the second L shape pole, 505, the spring, 506, the third riser, 507, the half gear, 508, the fourth riser, 509, the motor, 6, the sliding door.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-6, the present invention provides a technical solution: a high-efficiency heat dissipation type distribution automatic monitoring device comprises a box body 1, a first filter screen 2 and a sliding door 6, wherein a plurality of openings are formed in the left side and the right side of the box body 1, the first filter screen 2 is respectively arranged at the upper opening and the lower opening of the box body 1, the mesh number of the first filter screen 2 is 30, the internal air flow can be realized through the first filter screen 2, the sliding door 6 is arranged on the front end surface of the box body 1, the box body 1 can be opened through the sliding door 6, a first heat dissipation device 3 is arranged below the inner part of the box body 1, the first heat dissipation device 3 comprises a first transverse plate 301, an exhaust fan 302, distribution monitoring equipment 303, a second transverse plate 304, a second filter screen 305 and a first vertical plate 306, the lower surface of the left first transverse plate 301 and the lower surface of the left transverse plate are fixedly connected with the inner wall of the lower surface of the box body 1, the exhaust fan 302 is fixedly connected with the inner parts above the left and the right first transverse plates 301, the type of the exhaust, the top of controlling first diaphragm 301 is equipped with distribution supervisory equipment 303, the outer wall of distribution supervisory equipment 303 links to each other with the inner wall of box 1 is fixed, the top of controlling first diaphragm 301 is equipped with second diaphragm 304, the left and right sides outer wall of second diaphragm 304 links to each other with the inner wall of box 1 is fixed, 4 openings have been seted up to the centre of second diaphragm 304, 4 opening part rigid couplings of second diaphragm 304 have second filter screen 305, the mesh number of second filter screen 305 is 20 meshes, the upper surface rigid coupling of second diaphragm 304 has 3 first riser 306, 4 openings have been seted up to the inside of 3 first riser 306, 3 first riser 306 and second diaphragm 304 mutually perpendicular, about exhaust fan 302 uses the mid point of distribution supervisory equipment 303 to be the center and is the symmetric distribution.

The circulating device 4 is arranged above the left side of the box body 1, the circulating device 4 comprises a third transverse plate 401, a water tank 402, a second vertical plate 403, a first arc-shaped water pipe 404, a fourth transverse plate 405, a water pump 406 and a second arc-shaped water pipe 407, the right side of the third transverse plate 401 is fixedly connected with the box body 1, the upper surface of the third transverse plate 401 is fixedly connected with the water tank 402, the lower surface of the third transverse plate 401 is fixedly connected with the second vertical plate 403, the middle of the second vertical plate 403 is provided with an opening, the left side of the water tank 402 is fixedly connected with the first arc-shaped water pipe 404, the first arc-shaped water pipe 404 is communicated with the water tank 402, the middle outer wall of the first arc-shaped water pipe 404 is in clearance fit with the outer wall of the opening of the second vertical plate 403, the second vertical plate 403 can support the first arc-shaped water pipe 404, the fourth transverse plate 405 is arranged below the second vertical plate 403, the model of the water pump 406 is 48SH-22, a water outlet of the water pump 406 is fixedly connected with the first arc-shaped water pipe 404, a water outlet of the water pump 406 is communicated with the first arc-shaped water pipe 404, water can be discharged into the first arc-shaped water pipe 404 through a water outlet of the water pump 406, a water suction port of the water pump 406 is fixedly connected with a second arc-shaped water pipe 407, the second arc-shaped water pipe 407 is communicated with a water suction port of the water pump 406, water in the second arc-shaped water pipe 407 can be sucked through the water suction port of the water pump 406, the upper outer wall and the lower outer wall of the second arc-shaped water pipe 407 penetrate through the outer wall of the box body 1, the outer wall of the second arc-shaped water pipe 407 is in clearance fit with the outer walls of openings of the box body 1 and the first riser 306 respectively, the box body 1 and the first riser 306 can support the second arc-shaped water pipe 407, the upper side of the, the third horizontal plate 401 and the fourth horizontal plate 405 are parallel to each other.

A second heat dissipation device 5 is installed above the interior of the box body 1, the second heat dissipation device 5 comprises a first L-shaped rod 501, a tooth socket 502, a fan 503, a second L-shaped rod 504, springs 505, a third vertical plate 506, a half gear 507, a fourth vertical plate 508 and a motor 509, the upper surfaces of the left and right first L-shaped rods 501 are fixedly connected with the inner wall of the upper surface of the box body 1, lugs are processed on the inner sides of the left and right first L-shaped rods 501, the tooth sockets 502 are sleeved on the outer walls of the inner sides of the left and right first L-shaped rods 501, the outer walls of the left and right first L-shaped rods 501 are in clearance fit with the inner wall of the tooth socket 502, the tooth socket 502 can move at the position of the first L-shaped rod 501, the fans 503 are fixedly connected to the lower surfaces of the left and right tooth sockets 502, the model number of the fans 503 is FT3-35, the second L-shaped rods 504 are fixedly connected above the outer sides of the left and right tooth sockets 502, and right second L-, the two sides of an upper spring 505 and a lower spring 505 are respectively fixedly connected with a first L-shaped rod 501 and a second L-shaped rod 504, when the second L-shaped rod 504 moves inwards, the spring 505 is in a stretching state, a third vertical plate 506 is arranged above the left second L-shaped rod 504 and the right second L-shaped rod 504, the upper surfaces of the left third vertical plate 506 and the right third vertical plate 506 are fixedly connected with the box body 1, the front end surfaces of the left third vertical plate 506 and the right third vertical plate 506 are rotatably connected with a half gear 507 through a rotating shaft, the half gear 507 can rotate at the position of the third vertical plate 506 through the rotating shaft, the left half gear 507 and the right half gear 507 are mutually meshed with the tooth socket 502, the half gear 507 can drive the tooth socket 502 to move, the inner sides of the left third vertical plate 506 and the right third vertical plate 508 are arranged at the inner sides of the left third vertical plate and the right vertical plate 508, the upper surface of the left fourth vertical plate 508 is fixedly connected with the box, the output shaft of the motor 509 can drive the half gear 507 to rotate through a belt, the middle points of the output shafts of the left and right motors 509 and the middle point of the half gear 507 are on the same horizontal line, and the meshing ratio of the left and right half gears 507 to the tooth sleeve 502 is 1: 1.

example two:

according to fig. 1-6: when an operator needs to use the high-efficiency heat dissipation type automatic power distribution monitoring device, firstly, the operator pours a proper amount of water into the water tank 402, the water in the water tank 402 flows into the second arc-shaped water pipe 407, the water in the second arc-shaped water pipe 407 absorbs heat emitted by the power distribution monitoring device 303, an external power supply of the water pump 406 is switched on, the water pump 406 is started, the water pump 406 sucks the water in the second arc-shaped water pipe 407 through a water suction port, the water is discharged into the first arc-shaped water pipe 404 through a water outlet, the water enters the water tank 402 through the first arc-shaped water pipe 404, so that the water is circulated, the purpose of cooling the power distribution monitoring device 303 is achieved, the external power supply of the motor 509 is switched on, the motor 509 is started, an output shaft of the motor 509 drives the half gear 507 to rotate through a belt, the half gear 507 drives the tooth sleeve 502 to move, the tooth sleeve 502 drives the fan 503 to, simultaneously tooth sleeve 502 drives second L shape pole 504 and removes, make second L shape pole 504 stretch spring 505, can make tooth sleeve 502 reset through spring 505's elasticity performance, switch-on fan 503 and exhaust fan 302's external power supply, start fan 503 and exhaust fan 302, make fan 503 further dispel the heat to distribution monitoring equipment 303, simultaneously discharge the hot-air in the box 1 through exhaust fan 302, just so reached and carried out the radiating purpose of rapid cooling to equipment.

In the description of the present invention, it is to be understood that the terms "coaxial", "bottom", "one end", "top", "middle", "other end", "upper", "one side", "top", "inner", "front", "center", "both ends", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a high-efficient heat dissipation type distribution automation monitoring device, includes box (1), first filter screen (2) and sliding door (6), a plurality of openings have been seted up to the left and right sides of box (1), first filter screen (2) are all installed to the upper and lower opening part of box (1), sliding door (6), its characterized in that are installed to the preceding terminal surface of box (1): a first heat dissipation device (3) is arranged below the inner part of the box body (1);

the first heat dissipation device (3) comprises a first transverse plate (301), an exhaust fan (302), power distribution monitoring equipment (303), a second transverse plate (304), a second filter screen (305) and a first vertical plate (306);

the lower surface of the left and right first transverse plates (301) is fixedly connected with the inner wall of the lower surface of the box body (1), an exhaust fan (302) is fixedly connected inside the upper parts of the left and right first transverse plates (301), power distribution monitoring equipment (303) is arranged above the left and right first transverse plates (301), the outer wall of the power distribution monitoring equipment (303) is fixedly connected with the inner wall of the box body (1), a second transverse plate (304) is arranged above the left and right first transverse plates (301), the outer walls of the left side and the right side of the second transverse plate (304) are fixedly connected with the inner wall of the box body (1), a plurality of openings are arranged in the middle of the second transverse plate (304), a second filter screen (305) is fixedly connected at the plurality of openings of the second transverse plate (304), a plurality of first risers (306) are fixedly connected to the upper surface of the second transverse plate (304), and a plurality of openings are formed in the first risers (306).

2. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 1, wherein: the first vertical plates (306) and the second transverse plates (304) are perpendicular to each other.

3. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 1, wherein: the left exhaust fan and the right exhaust fan (302) are symmetrically distributed by taking the middle point of the power distribution monitoring equipment (303) as the center.

4. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 1, wherein: a circulating device (4) is arranged above the left side of the box body (1);

the circulating device (4) comprises a third transverse plate (401), a water tank (402), a second vertical plate (403), a first arc-shaped water pipe (404), a fourth transverse plate (405), a water pump (406) and a second arc-shaped water pipe (407);

the right side of third diaphragm (401) is fixed with box (1) and links to each other, the upper surface rigid coupling of third diaphragm (401) has water tank (402), the lower surface rigid coupling of third diaphragm (401) has second riser (403), the opening has been seted up in the centre of second riser (403), the left side rigid coupling of water tank (402) has first arc water pipe (404), first arc water pipe (404) is linked together with water tank (402), the middle outer wall of first arc water pipe (404) and the opening part outer wall clearance fit of second riser (403), the below of second riser (403) is equipped with fourth diaphragm (405), the right side of fourth diaphragm (405) is fixed with box (1) and links to each other, the inside rigid coupling of fourth diaphragm (405) has water pump (406), the delivery port department of water pump (406) is fixed with first arc water pipe (404) and links to each other, the delivery port of water pump (406) is linked together with first arc water pipe (404), the department rigid coupling of the water absorption mouth of water pump (406) has second arc water pipe (407), second arc water pipe (407) are linked together with the water absorption mouth department of water pump (406), the outer wall of box (1) is run through to the upper and lower outer wall of second arc water pipe (407), the outer wall of second arc water pipe (407) respectively with the opening part outer wall clearance fit of box (1) and first riser (306), the top of second arc water pipe (407) is fixed continuous with the right side below of water tank (402), second arc water pipe (407) are linked together with water tank (402).

5. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 4, wherein: the third transverse plate (401) and the fourth transverse plate (405) are parallel to each other.

6. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 1, wherein: a second heat dissipation device (5) is arranged above the interior of the box body (1);

the second heat dissipation device (5) comprises a first L-shaped rod (501), a tooth sleeve (502), a fan (503), a second L-shaped rod (504), a spring (505), a third vertical plate (506), a half gear (507), a fourth vertical plate (508) and a motor (509);

the upper surface of the left and right first L-shaped rods (501) is fixedly connected with the inner wall of the upper surface of the box body (1), a convex block is processed on the inner side of the left and right first L-shaped rods (501), a tooth sleeve (502) is sleeved on the outer wall of the inner side of the left and right first L-shaped rods (501), the outer wall of the left and right first L-shaped rods (501) is in clearance fit with the inner wall of the tooth sleeve (502), a fan (503) is fixedly connected with the lower surface of the left and right tooth sleeve (502), a second L-shaped rod (504) is fixedly connected with the upper side of the outer side of the left and right tooth sleeve (502), a plurality of springs (505) are installed on the outer side of the left and right second L-shaped rod (504), the two sides of the upper and lower springs (505) are respectively fixedly connected with the first L-shaped rods (501) and the second L-shaped rods (504), a third vertical plate (506) is arranged above the left and right second L-shaped rod (504), the upper surface of the third vertical plate (506) is, control the preceding terminal surface of third riser (506) is rotated through the pivot and is connected with half gear (507), controls half gear (507) and tooth sleeve (502) intermeshing, controls the inboard of third riser (506) is equipped with fourth riser (508), controls the upper surface and the box (1) of fourth riser (508) are fixed to be linked to each other, control the preceding terminal surface rigid coupling of fourth riser (508) has motor (509), controls the output shaft of motor (509) passes through the pivot department rotation of belt and half gear (507) and links to each other.

7. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 6, wherein: the middle points of the output shafts of the left motor (509) and the right motor (509) are on the same horizontal line with the middle point of the half gear (507).

8. The high-efficiency heat-dissipation type power distribution automation monitoring device as recited in claim 6, wherein: the meshing ratio of the left half gear (507) and the right half gear (507) to the tooth sleeve (502) is 1: 1.

9. use of an automatic monitoring device of a high efficiency heat dissipating distribution automation monitoring device according to claims 1-8, characterized in that: the method specifically comprises the following steps:

s1, firstly, pouring a proper amount of water into the water tank (402) by an operator, enabling the water in the water tank (402) to flow into the second arc-shaped water pipe (407), enabling the water in the second arc-shaped water pipe (407) to absorb heat emitted by the power distribution monitoring equipment (303), switching on an external power supply of the water pump (406), starting the water pump (406), enabling the water pump (406) to suck the water in the second arc-shaped water pipe (407) through the water suction port, enabling the water to flow into the first arc-shaped water pipe (404) through the water outlet, enabling the water to flow into the water tank (402) through the first arc-shaped water pipe (404), and enabling the water to circulate, so that the purpose of cooling the power distribution monitoring equipment (303) is achieved;

s2, an external power supply of the motor (509) is connected, the motor (509) is started, an output shaft of the motor (509) drives a half gear (507) to rotate through a belt, the half gear (507) drives a tooth sleeve (502) to move, the tooth sleeve (502) drives a fan (503) to move, meanwhile, the tooth sleeve (502) drives a second L-shaped rod (504) to move, the second L-shaped rod (504) stretches a spring (505), and the tooth sleeve (502) can be reset through the elastic performance of the spring (505);

and S3, connecting external power supplies of the fan (503) and the exhaust fan (302), starting the fan (503) and the exhaust fan (302), enabling the fan (503) to further radiate the power distribution monitoring equipment (303), and simultaneously exhausting hot air in the box body (1) through the exhaust fan (302), thereby achieving the purpose of quickly cooling and radiating the equipment.

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