CN115406147A

CN115406147A - Chemical industry electromechanical device with high-efficient heat dissipation function

Info

Publication number: CN115406147A
Application number: CN202211053969.6A
Authority: CN
Inventors: 黄燕辉; 郭泽栋
Original assignee: Individual
Current assignee: Fujian Shaxian Qingzhou Daily Chemical Co ltd
Priority date: 2022-08-30
Filing date: 2022-08-30
Publication date: 2022-11-29
Anticipated expiration: 2042-08-30
Also published as: CN115406147B

Abstract

The invention discloses a chemical electromechanical device with high-efficiency heat dissipation function, belonging to the field of device heat dissipation, wherein a spiral ventilating pipe and a spiral water cooling pipe are additionally arranged at the outer end of a device body, when the temperature in the device body is overhigh, outside air is guided into the device body through the ventilating pipe and flows through the water cooling pipe circulated with cooling liquid, so that the air is effectively cooled for a long distance, in addition, a refrigeration bent pipe filled with a refrigerant is additionally arranged on the bottom end surface of the ventilating pipe, the cooling liquid is introduced into the refrigeration bent pipe, meanwhile, a plurality of water cooling lantern rings with magnetic stirring parts are additionally arranged between the ventilating pipe and the refrigeration bent pipe, the refrigeration effect of the refrigeration bent pipe is improved by utilizing the matching of the magnetic stirring parts and a lower electromagnet, and the low temperature is transmitted to the ventilating pipe by utilizing the high-efficiency refrigeration of the refrigeration bent pipe, so that the temperature of the air guided into the device body is further reduced, and the air guided out from the device body is discharged from a heat dissipation box at low temperature, and the influence of other devices by the discharged high-temperature gas is effectively avoided.

Description

Chemical industry electromechanical device with high-efficient heat dissipation function

Technical Field

The invention relates to the field of chemical electromechanical equipment, in particular to chemical electromechanical equipment with a high-efficiency heat dissipation function.

Background

The chemical machinery and electrical equipment is one part of chemical machinery, the chemical machinery and electrical machinery comprises two parts, one part is a chemical machinery, mainly refers to equipment such as a conveying fan, a compressor, various pumps and the like, and the main part is a moving machine generally called as a chemical machinery. The other is that chemical equipment mainly refers to machinery with static parts, such as separation equipment, containers, reactor equipment and the like, and is sometimes called nonstandard equipment.

At electromechanical device in the operation process, cooling system is indispensable, can produce a large amount of heats at the in-process of equipment operation, if not in time with heat escape department equipment outside, the heat piles up too much and can cause local high temperature, leads to equipment to burn easily. Many in prior art utilize circulation air to play the radiating effect at equipment internally mounted draught fan, nevertheless set up the draught fan among the prior art, the radiating effect is not good, in addition, still influences peripheral other equipment easily by the exhaust high-temperature gas in the equipment, is unfavorable for whole heat dissipation.

Therefore, the chemical electromechanical device with the efficient heat dissipation function is provided to effectively solve the problems in the prior art.

Disclosure of Invention

1. Technical problem to be solved

The invention aims to provide chemical electromechanical equipment with high-efficiency heat dissipation function, wherein a spiral ventilating pipe and a spiral water-cooling pipe are additionally arranged at the outer end of an equipment body, when the temperature in the equipment body is too high, outside air is guided into the equipment body through the ventilating pipe and flows through the water-cooling pipe circulated with cooling liquid, so that the air is cooled for a long distance, in addition, a refrigerating bent pipe filled with a refrigerant is additionally arranged on the bottom end surface of the ventilating pipe, a plurality of water-cooling lantern rings with magnetic stirring pieces are additionally arranged between the ventilating pipe and the refrigerating bent pipe, the refrigerating effect of the refrigerating bent pipe is improved by utilizing the matching of the magnetic stirring pieces and a lower electromagnet, the low temperature is transmitted to the ventilating pipe by utilizing the high-efficiency refrigeration of the refrigerating bent pipe, so that the temperature of the air guided into the equipment body is further reduced, the air guided out from the equipment body is discharged from the heat dissipation box at the low temperature, and the influence of the discharged high-temperature gas on other equipment is effectively avoided.

2. Technical scheme

In order to solve the above problems, the present invention adopts the following technical solutions.

A chemical mechanical and electrical equipment with high-efficiency heat dissipation function comprises an equipment body, a heat dissipation device is installed on the side wall of one end of the equipment body, the heat dissipation device comprises a heat dissipation box fixedly installed on the end wall of the equipment body, a ventilation pipe is embedded and installed on the heat dissipation box, an air inlet channel and an air suction pipeline are respectively arranged at the free two ends of the ventilation pipe, the inner end of the air suction pipeline extends into the equipment body and is provided with an induced draft fan, a water cooling pipe matched with the ventilation pipe in structure is sleeved inside the ventilation pipe, circulating pipes are respectively arranged at the free two ends of the water cooling pipe, the two circulating pipes respectively penetrate through the air inlet channel and the air suction pipeline and are connected with a water cooling box, a circulating pump connected onto one of the circulating pipes is installed inside the water cooling box, one end, away from the air suction pipeline, of the heat dissipation box is connected with an air exhaust channel extending into the heat dissipation box, and one end, away from the air exhaust channel, is provided with an air outlet channel extending outwards;

the ventilation pipe bottom extends to the heat dissipation incasement portion and is equipped with a plurality of refrigeration return bends, a plurality of refrigeration return bends both ends all extend to heat dissipation case top, a plurality of refrigeration return bends one end are connected with the water conservancy diversion spare that communicates the setting mutually with the water-cooling case jointly, it has the refrigerant all to fill in a plurality of refrigeration return bends, the ventilation pipe is equipped with a plurality of water-cooling lantern rings with the corresponding inside annular of a plurality of refrigeration return bends position, a plurality of water-cooling lantern rings are evenly overlapped on locating the water-cooling pipe, and water-cooling lantern ring lower extreme is connected with the lantern ring mouth that extends to in the refrigeration return bend, lantern ring mouth and the inside setting that is linked together of refrigeration return bend, the inside magnetism that still is equipped with of water-cooling lantern ring extends to the refrigeration return bend inboard stirs the piece, electromagnetic sheet under a plurality of refrigeration return bends terminal surface inlays and is equipped with.

Furthermore, the ventilation pipe and the water cooling pipe are both of flat spiral structures, and the outer diameter of the water cooling pipe is smaller than the inner diameter of the ventilation pipe.

Further, water conservancy diversion spare is including connecting in a plurality of refrigeration return bends one end on the shunt tubes, and a plurality of shunt tubes are kept away from refrigeration return bends one end and are connected with the delivery pipe jointly, and the delivery pipe is connected through the pump with the water-cooling tank.

Furthermore, a plurality of refrigeration return bends are respectively embedded and attached to the bottom end of the ventilation pipe, and the upper end face of the heat dissipation box is provided with a sealing cover which is arranged in a penetrating mode with the ventilation pipe and the plurality of refrigeration return bends.

Furthermore, all be equipped with the feed inlet mouth on a plurality of refrigeration return bends, the refrigerant chooses for use the saltpeter, and the saltpeter freezes in the water, has high refrigeration effect.

Further, magnetism stirs the piece including inlaying the last electric sheet of locating the top in the water-cooling lantern ring, goes up the electric sheet left and right ends and all is equipped with the inside guide wire that extends to the refrigeration return bend, and the free end of two guide wires all runs through the lantern ring mouth and all is connected with the bottom in the refrigeration return bend, and equal sliding connection has the magnetic ball on a pair of guide wire, and a pair of guide wire is located the inside one end of water-cooling lantern ring and sets up with the axle center with the water-cooling lantern ring.

Furthermore, a pair of magnetic balls are arranged in a vertically staggered mode, and a limiting ball for limiting the magnetic balls is further arranged on one guide line.

Furthermore, the upper electromagnetic sheet is inclined to one side far away from the limiting ball and is arranged in an extending mode downwards.

Furthermore, a pair of magnetic balls are arranged with the upper electromagnetic sheet and the lower electromagnetic sheet in a magnetic attraction mode, a temperature sensor and a controller are arranged inside the equipment body, and the controller is connected with the circulating pump, the pumping pump, the upper electromagnetic sheet and the lower electromagnetic sheet in a signal mode.

Furthermore, the end part of the ventilation pipe above the heat dissipation box is made of heat insulation materials, and the end part of the ventilation pipe inside the heat dissipation box, the water cooling pipe and the refrigeration bent pipe are made of heat conduction materials.

3. Advantageous effects

Compared with the prior art, the invention has the advantages that:

(1) This scheme is through addding at equipment body outer end and being spiral helicine ventilation pipe, the water-cooling pipe, when this internal high temperature of equipment, the air is leading-in to inside the equipment body through the ventilation pipe, the water-cooling pipe that the circulation flow has the coolant liquid flows through, effectively to the long distance cooling of air, furthermore, add the refrigeration return bend that the packing has the refrigerant at ventilation pipe bottom end face, let in the coolant liquid in the refrigeration return bend, and simultaneously, add a plurality of water-cooling lantern rings that have magnetism between ventilation pipe and the refrigeration return bend, utilize magnetism to stir the cooperation of piece and lower electro-magnet, improve the refrigeration effect of refrigeration return bend, the high-efficient refrigeration that utilizes the refrigeration return bend is with low temperature transmission to ventilation pipe department, thereby further reduce this internal air temperature of leading-in equipment, and the air of deriving in the equipment body is again by heat dissipation case low temperature discharge, effectively avoid exhaust high-temperature gas to influence other equipment.

(2) All be equipped with the feed inlet mouth on a plurality of refrigeration return bends, the niter is chooseed for use to the refrigerant, the niter meets the water and freezes, high-strength refrigeration effect has, mix in the refrigeration return bend in the leading-in a plurality of water-cooling lantern rings of coolant liquid of refrigerant, water-cooling lantern ring department is in the low temperature state equally, and water-cooling lantern ring cover is located on the water-cooled tube, play the low temperature promotion effect to water-cooled tube and ventilation pipe inside, and the coolant liquid in the water-cooled tube is in the circulation flow state, thereby further promote the cooling effect of water-cooled tube to leading-in air.

(3) The magnetic stirring piece comprises an upper electromagnetic sheet embedded at the inner top of a water-cooling sleeve ring, guide lines extending to the inside of a refrigeration bent pipe are arranged at the left end and the right end of the upper electromagnetic sheet, the free ends of the two guide lines penetrate through a sleeve ring opening and are connected with the bottom of the refrigeration bent pipe, magnetic balls are connected to a pair of guide lines in a sliding mode, one ends of the pair of guide lines, which are located inside the water-cooling sleeve ring, are coaxially arranged with the water-cooling sleeve ring, the pair of magnetic balls are arranged in a vertically staggered mode, a limiting ball for limiting the magnetic balls is further arranged on one of the guide lines, the upper electromagnetic sheet is arranged in a downward extending mode in a mode of deviating away from one side of the limiting ball, the upper electromagnetic sheet and the lower electromagnet are started intermittently, the pair of magnetic balls move up and down on the guide lines, saltpeter and water are mixed and then are more easily frozen in a stirring state, the cooling effect is more effectively improved through cooling liquid flowing in the refrigeration bent pipe, and the low-temperature transfer efficiency is accelerated.

(4) The upper electromagnetic sheet is not located in the center of the top of the water-cooling lantern ring, so that after the upper electromagnetic sheet is started, the pair of magnetic balls are respectively magnetically attracted to two sides of the upper electromagnetic sheet, and the heights of the pair of magnetic balls are staggered up and down, so that after the upper electromagnetic sheet is disconnected, after the lower electromagnet is started, the magnetic ball located below reaches the bottom of the guide line along the guide line, and the other magnetic ball reaches the position of the limiting ball, so that the two magnetic balls do not influence each other to move in a limited space.

Drawings

FIG. 1 is an external perspective view of the first embodiment of the present invention;

FIG. 2 is an external perspective view of the second embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a heat dissipation device according to the present invention;

FIG. 4 is a disassembled view of the heat dissipating device of the present invention;

FIG. 5 is a partial cross-sectional view of the present invention at the junction of the vent tube and the refrigeration bend;

FIG. 6 is a schematic view of the structure at A in FIG. 5;

FIG. 7 is a schematic partial internal view of the present invention at the junction of the vent tube and the refrigeration bend;

FIG. 8 is a schematic view of the structure of FIG. 7 at B;

fig. 9 is a side schematic view of the junction of the vent tube and the refrigeration bend of the present invention.

The numbering in the figures illustrates:

the device comprises a device body 1, a heat dissipation box 2, a ventilation pipe 3, an air inlet channel 301, an air suction pipeline 302, an air exhaust channel 4, an air outlet channel 5, a water cooling pipe 6, a circulating pipe 7, a refrigeration bent pipe 8, a flow division pipe 9, a water supply pipe 10, a water cooling lantern ring 11, a lantern ring opening 1101, a guide line 12, a magnetic ball 13 and an electromagnetic sheet 14.

Detailed Description

The drawings in the embodiments of the invention will be combined; the technical scheme in the embodiment of the invention is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the invention; but not all embodiments, are based on the embodiments of the invention; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in a specific case to those of ordinary skill in the art.

Example 1:

referring to fig. 1-5, a chemical electromechanical device with high-efficiency heat dissipation function comprises a device body 1, a heat dissipation device is mounted on a side wall of one end of the device body 1, the heat dissipation device comprises a heat dissipation box 2 fixedly mounted on an end wall of the device body 1, a ventilation pipe 3 is embedded in the heat dissipation box 2, an air inlet channel 301 and an air suction pipeline 302 are respectively arranged at two free ends of the ventilation pipe 3, the inner end of the air suction pipeline 302 extends into the device body 1 and is provided with a draught fan, a water cooling pipe 6 matched with the ventilation pipe 3 is sleeved inside the ventilation pipe 3, circulating pipes 7 are respectively arranged at two free ends of the water cooling pipe 6, the two circulating pipes 7 respectively penetrate through the air inlet channel 301 and the air suction pipeline 302 and are connected with a water cooling box, cooling liquid is loaded in the water cooling box, a circulating pump connected to one of the circulating pipes 7 is mounted in the water cooling box, the cooling liquid circularly flows in the water cooling pipe 6, one end of the heat dissipation box 2, which is far away from the air suction pipeline 302, is connected with an air exhaust channel 4 extending into the air, the inner end of the exhaust channel 4 also extends into the device body 1, and an air outlet channel 5 extending outwards is arranged at one end of the heat dissipation box 2, which is far away from the air exhaust channel 4;

ventilation pipe 3 and water-cooled tube 6 are flat helical structure, 6 external diameters of water-cooled tube are less than the 3 internal diameters of ventilation pipe, set flat helical structure to, be favorable to prolonging the air inlet distance, the leading-in to ventilation pipe 3 of outside air, and with the contact of the water-cooled tube 6 that has the water-cooling liquid of flowing through, effectively reduce the leading-in temperature to the equipment body 1 of outside air, the air after the cooling is leading-in to the equipment body 1 through ventilation pipe 3, and high temperature gas then in the equipment body 1 is through 4 leading-in heat dissipation box 2 of the passageway of airing exhaust, and discharge by the air-out passageway 5 of 2 one ends of heat dissipation box.

Referring to fig. 3-5, the bottom end of the ventilation pipe 3 extends into the heat dissipation box 2 and is provided with a plurality of refrigeration elbows 8, two ends of the refrigeration elbows 8 all extend to the top of the heat dissipation box 2, the refrigeration elbows 8 are respectively embedded and attached to the bottom end of the ventilation pipe 3, the upper end face of the heat dissipation box 2 is provided with a sealing cover which is communicated with the ventilation pipe 3 and the refrigeration elbows 8, one ends of the refrigeration elbows 8 are commonly connected with a flow guide part which is communicated with the water cooling box, the flow guide part comprises flow guide pipes 9 connected to one ends of the refrigeration elbows 8, one ends of the flow guide pipes 9 far away from the refrigeration elbows 8 are commonly connected with a water supply pipe 10, the water supply pipe 10 is connected with the water cooling box through a suction pump, a check valve is installed in the water supply pipe 10, the refrigeration elbows 8 are filled with a refrigerant, the refrigeration elbows 8 are provided with feed nozzles, the refrigerant is made of saltpeter, and the saltpeter is guided into the refrigeration elbows 8 through the ventilation pipe 10 and the matching with the flow guide pipes 9, and the saltpeter freezes are frozen with water, so as to have a high refrigeration effect, and the low temperature at the refrigeration elbows 8 is effectively improved by contacting the contact with the refrigeration elbows 3.

Referring to fig. 5-9, a plurality of water-cooling lantern rings 11 are annularly arranged inside the ventilation pipe 3 corresponding to the plurality of refrigeration bent pipes 8, the plurality of water-cooling lantern rings 11 are uniformly sleeved on the water-cooling pipes 6, the lower ends of the water-cooling lantern rings 11 are connected with lantern ring ports 1101 extending into the refrigeration bent pipes 8, the lantern ring ports 1101 are communicated with the inside of the refrigeration bent pipes 8, cooling liquid mixed with refrigerant in the refrigeration bent pipes 8 is introduced into the plurality of water-cooling lantern rings 11, the water-cooling lantern rings 11 are also in a low-temperature state, the water-cooling lantern rings 11 are sleeved on the water-cooling pipes 6, a low-temperature promoting effect is achieved on the inside of the water-cooling pipes 6 and the ventilation pipe 3, and the cooling liquid in the water-cooling pipes 6 is in a circulating flow state, so that the cooling effect of the water-cooling pipes 6 on introduced air is further promoted;

the inside of the water-cooling lantern ring 11 is also provided with a magnetic stirring part extending to the inner side of the refrigeration elbow 8, lower electromagnetic plates are embedded in the inner bottom end faces of the refrigeration elbows 8, specifically, the magnetic stirring part comprises upper electromagnetic plates 14 embedded in the inner top of the water-cooling lantern ring 11, guide lines 12 extending to the inside of the refrigeration elbows 8 are arranged at the left and right ends of each upper electromagnetic plate 14, the free ends of the two guide lines 12 penetrate through lantern ring openings 1101 and are connected with the inner bottom of the refrigeration elbows 8, a pair of magnetic balls 13 are connected to the guide lines 12 in a sliding mode and are made of metal wires, the guide lines have a heat conduction effect, one ends of the pair of guide lines 12, located inside the water-cooling lantern ring 11, are coaxially arranged with the water-cooling lantern ring 11, the pair of magnetic balls 13 are arranged with the upper electromagnetic plates 14 and the lower electromagnetic plates in a magnetic absorption mode, a temperature sensor and a controller are installed inside the equipment body 1, the controller is connected with a circulating pump, the pump is connected with the upper electromagnetic plates 14 and the lower electromagnetic plates in a signal mode, and the lower electromagnetic plates are connected, and when the temperature in the equipment body 1 is too high.

More specifically, a pair of magnetic balls 13 are arranged in a staggered manner up and down, a limiting ball for limiting the magnetic balls 13 is further arranged on one guide line 12, the upper magnetic sheet 14 is inclined to one side away from the limiting ball and is arranged in a downward extending manner, the upper magnetic sheet 14 is not positioned in the center of the top of the water-cooling lantern ring 11, therefore, when the upper magnetic sheet 14 is started, the pair of magnetic balls 13 are respectively magnetically attracted to two sides of the upper magnetic sheet 14, the heights of the pair of magnetic balls 13 are staggered up and down, when the upper magnetic sheet 14 is disconnected, after the lower electromagnet is started, the magnetic ball 13 positioned below firstly reaches the bottom of the guide line 12 along the guide line 12, the other magnetic ball 13 then reaches the limiting ball, so that the two magnetic balls 13 in a limited space do not influence each other, the upper magnetic sheet 14 and the lower electromagnet are discontinuously started, the pair of magnetic balls 13 can move up and down on the guide line 12, namely, after the upper magnetic sheet 14 is started, when the upper electromagnet sheet 14 is turned off and the lower electromagnet sheet is turned on, the pair of magnetic balls 13 are retracted into the refrigeration elbow 8 along the guide line 12, and thus the movement is repeated, the saltpeter and the water are mixed and then are frozen easily in a stirring state, and the cooling liquid flowing in the refrigeration elbow 8 effectively improves the cold transfer effect and accelerates the low-temperature transfer efficiency, it should be noted that the movement time of the magnetic balls 13 is limited within a controllable time, and the movement time is not too long, so that the frozen cooling liquid does not influence the service time of the magnetic balls 13, and in addition, the inner diameter of the collar opening 1101 can be enlarged by a person skilled in the art, and an interval exists between the pair of magnetic balls 13, so that the up-and-down movement of the pair of magnetic balls 13 is not influenced no matter what form the upper electromagnet sheet 14 is located, which is the prior art and will not be described herein.

The tip that ventilation pipe 3 is located 2 tops of heat dissipation case adopts thermal insulation material to make, in order to avoid ventilation pipe 3 interior low temperature to outside transmission, thereby improve its refrigeration effect to gas, ventilation pipe 3 is located 2 inside tip and water-cooled tube 6 of heat dissipation case, refrigeration return bend 8 all adopts the heat conduction material to make, the low temperature of 8 departments of refrigeration return bend not only upwards transmits to ventilation pipe 3 in, still downwards transmit to heat dissipation case 2 in, high temperature gas is then through 4 leading-in heat dissipation cases 2 of passageway of airing exhaust in the equipment body 1, and discharge by the air-out passageway 5 of 2 one ends of heat dissipation case, the gas exhaust back temperature reduction in the heat dissipation case 2 of flowing through, effectively avoid the gas of institute to influence peripheral other equipment for high temperature state, improve whole cooling effect.

According to the scheme, the spiral ventilating pipe 3 and the water cooling pipe 6 are additionally arranged at the outer end part of the equipment body 1, when the temperature in the equipment body 1 is too high, outside air is guided into the equipment body 1 through the ventilating pipe 3 and flows through the water cooling pipe 6 in circulating flow with cooling liquid, the air entering path is prolonged, and the guided air is effectively cooled, in addition, a refrigerating elbow 8 filled with a refrigerant is additionally arranged on the bottom end face of the ventilating pipe 3, the cooling liquid is introduced into the refrigerating elbow 8, meanwhile, a plurality of water cooling lantern rings 11 with magnetic stirring parts are additionally arranged between the ventilating pipe 3 and the refrigerating elbow 8, the refrigerating effect of the refrigerating elbow 8 is improved by utilizing the matching of the magnetic stirring parts and a lower electromagnet, the low temperature is transmitted to the ventilating pipe 3 by utilizing the efficient refrigeration of the refrigerating elbow 8, so that the temperature of the air guided into the equipment body 1 is further reduced, the air guided out from the equipment body 1 is discharged by the low temperature of the heat dissipation box 2, and the influence of the discharged high-temperature gas on other equipment is effectively avoided;

after continuously cooling in need not equipment body 1, refrigeration work stops, and the coolant liquid that is located refrigeration return bend 8 slowly reduces under receiving external environment (refer in particular to the external world and have under the certain temperature environment) the influence to its inside nitre slowly appears, thereby in order to follow-up used repeatedly.

The components used in the present invention are all standard components or components known to those skilled in the art, and the structure and principle thereof can be known to those skilled in the art through technical manuals or through routine experiments.

The above; are merely preferred embodiments of the invention; the scope of the invention is not limited thereto; any person skilled in the art is within the technical scope of the present disclosure; the technical scheme and the improved concept of the invention are equally replaced or changed; are intended to be covered by the scope of the present invention.

Claims

1. The utility model provides a chemical industry electromechanical device with high-efficient heat dissipation function, includes equipment body (1), its characterized in that: the heat dissipation device is installed on the side wall of one end of the equipment body (1), the heat dissipation device comprises a heat dissipation box (2) fixedly installed on the end wall of the equipment body (1), a ventilation pipe (3) is embedded and installed on the heat dissipation box (2), air inlet channels (301) and air suction pipelines (302) are respectively arranged at the free two ends of the ventilation pipe (3), the inner end of each air suction pipeline (302) extends into the equipment body (1) and is provided with an induced draft fan, a water cooling pipe (6) matched with the ventilation pipe in structure is sleeved inside the ventilation pipe (3), circulating pipes (7) are respectively arranged at the free two ends of the water cooling pipe (6), the two circulating pipes (7) respectively penetrate through the air inlet channels (301) and the air suction pipelines (302) and are connected with a water cooling box, one end, far away from the air suction pipeline (302), of the heat dissipation box (2) is connected with an air exhaust channel (4) extending into the heat dissipation box, and one end, far away from the air exhaust channel (4), of the heat dissipation box (2) is provided with an air outlet channel (5) extending outwards;

ventilation pipe (3) bottom extends to heat dissipation case (2) inside and is equipped with a plurality of refrigeration return bends (8), and is a plurality of refrigeration return bend (8) both ends all extend to heat dissipation case (2) top, and are a plurality of refrigeration return bend (8) one end is connected with jointly and is linked together the water conservancy diversion spare that sets up with the water-cooling case, and is a plurality of all the packing has the refrigerant in refrigeration return bend (8), ventilation pipe (3) and the corresponding inside annular in a plurality of refrigeration return bends (8) position are equipped with a plurality of water-cooling lantern rings (11), and are a plurality of water-cooling lantern ring (11) even cover is located on water-cooling pipe (6), and water-cooling lantern ring (11) lower extreme is connected with lantern ring mouth (1101) that extends to in refrigeration return bend (8), lantern ring mouth (1101) and the inside setting that is linked together, water-cooling lantern ring (11) inside still is equipped with the magnetism stirring piece that extends to refrigeration return bend (8) inboard, and is a plurality of refrigeration return bend (8) inner bottom terminal surface inlays and is equipped with down electromagnetic sheet.

2. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: the ventilation pipe (3) and the water cooling pipe (6) are both of flat spiral structures, and the outer diameter of the water cooling pipe (6) is smaller than the inner diameter of the ventilation pipe (3).

3. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: the water conservancy diversion spare is including connecting shunt tubes (9) in a plurality of refrigeration return bends (8) one end, and is a plurality of shunt tubes (9) are kept away from refrigeration return bend (8) one end and are connected with delivery pipe (10) jointly, delivery pipe (10) are connected through the pump with the water-cooling tank, and install the check valve in delivery pipe (10).

4. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: a plurality of refrigeration return bend (8) inlay respectively and establish the subsides and cover in ventilation pipe (3) bottom end portion, heat dissipation case (2) up end is equipped with and runs through the closing cap that sets up with ventilation pipe (3), a plurality of refrigeration return bend (8).

5. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: a plurality of refrigeration bent pipes (8) are provided with feeding nozzles, and the refrigerant is made of saltpeter.

6. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: magnetism stirs piece including inlaying last electromagnetism piece (14) of locating top in the water-cooling lantern ring (11), go up the left and right ends of electromagnetism piece (14) and all be equipped with guide wire (12) that extend to refrigeration return bend (8) inside, two the free end of guide wire (12) all runs through lantern ring mouth (1101) and all is connected with refrigeration return bend (8) interior bottom, and is a pair of equal sliding connection has magnetic ball (13) on guide wire (12), and a pair of guide wire (12) are located the one end of water-cooling lantern ring (11) inside and set up with the axle center with water-cooling lantern ring (11).

7. The chemical electromechanical device with the efficient heat dissipation function as recited in claim 6, wherein: the pair of magnetic balls (13) are arranged in a vertically staggered mode, and one guide line (12) is further provided with a limiting ball for limiting the magnetic balls (13).

8. The chemical electromechanical device with the efficient heat dissipation function according to claim 6, wherein: the upper electromagnetic sheet (14) is deviated to one side far away from the limiting ball and is arranged in a downward extending mode.

9. The chemical electromechanical device with the efficient heat dissipation function according to claim 6, wherein: the pair of magnetic balls (13) are arranged with the upper electromagnetic sheet (14) and the lower electromagnetic sheet in a magnetic attraction mode, a temperature sensor and a controller are installed inside the equipment body (1), and the controller is in signal connection with the circulating pump, the pumping pump, the upper electromagnetic sheet (14) and the lower electromagnetic sheet.

10. The chemical electromechanical device with the efficient heat dissipation function according to claim 1, wherein: the end part of the ventilation pipe (3) above the heat dissipation box (2) is made of heat insulation materials, and the end part of the ventilation pipe (3) inside the heat dissipation box (2), the water cooling pipe (6) and the refrigeration bent pipe (8) are made of heat conduction materials.