CN113805665A

CN113805665A - Asset self-checking system and using method thereof

Info

Publication number: CN113805665A
Application number: CN202111169429.XA
Authority: CN
Inventors: 胡乐敏; 文栋; 梁韦一
Original assignee: Hunan Yueyun Digital Technology Co ltd
Current assignee: Hunan Yueyun Digital Technology Co ltd
Priority date: 2021-10-08
Filing date: 2021-10-08
Publication date: 2021-12-17

Abstract

The invention discloses an asset self-checking system and a using method thereof, the asset self-checking system comprises a mobile flat panel unit which is convenient for operators to hold and a processing unit for processing data, wherein the mobile flat panel unit comprises: the trigger module comprises an adding trigger type, an adding trigger item and a trigger condition creating module; the processing module comprises a cabinet body and a mobile panel unit which is arranged on the surface of the cabinet body and used for inputting instruction information and displaying asset information, the processing unit package comprises a trigger period, a trigger rule and a self-checking range, the processing unit package comprises the cabinet body and the mobile panel unit which is arranged on the surface of the cabinet body and used for inputting the instruction information and displaying the asset information, the processing module is designed aiming at the existing requirement, the asset information can be rapidly processed, the processed structure is displayed on the mobile panel unit, and when the processing module runs at a high speed, the processing module is rapidly cooled through the heat dissipation unit, the working heat of the processing module is rapidly taken away, the working performance of the processing module is effectively guaranteed, and the practicability is high.

Description

Asset self-checking system and using method thereof

Technical Field

The invention relates to the technical field of asset management, in particular to an asset self-checking system and a using method thereof.

Background

Real estate (real estate) is a comprehensive and complex concept, and is composed of buildings and land in terms of physical phenomena. The land can be divided into undeveloped land and developed land, and the building exists attached to the land, combined with the land. The building refers to a product formed by artificial construction, and comprises two categories of houses and structures.

The method is characterized in that the actual assets inside a house need to be counted when house asset counting is carried out, each type of assets are counted, huge data need to be processed when the house asset counting is carried out, high-intensity operation needs to be carried out, a common processor can emit a large amount of heat when the operation is carried out, the processing speed can be influenced if the heat cannot be timely emitted, and therefore the asset self-checking system capable of efficiently dissipating heat and the using method thereof are provided.

Disclosure of Invention

The invention aims to provide an asset self-checking system and a using method thereof, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an asset self-testing system comprising a mobile tablet unit that is conveniently held by an operator and a processing unit for data processing, the mobile tablet unit comprising: the trigger module comprises an adding trigger type, an adding trigger item and a trigger condition creating module; the trigger conditions comprise setting a trigger period, setting a trigger rule and setting a self-checking range.

As a further scheme of the invention: the processing unit includes the cabinet body and sets up the interface that is used for connecting on its surface and removes dull and stereotyped unit, the internal portion of cabinet is equipped with and removes dull and stereotyped unit electric connection and is used for carrying out the processing module that handles huge data information, processing module electric connection is used for receiving corresponding wireless data information's wireless unit, the internal portion of cabinet is equipped with and is used for dispelling the heat in order to guarantee the radiating unit of processing module processing speed to processing module inside, cabinet body lower extreme is equipped with the landing leg that is used for supporting, still be equipped with on the processing module and be used for carrying out the thermometer that detects to its surface temperature.

As a further scheme of the invention: the heat dissipation unit comprises a partition plate which is arranged in the cabinet body and used for supporting the processing module, a wiring channel for laying data lines is arranged in the partition plate, a pretreatment assembly for pretreating inlet air is arranged in a cavity at the lower side of the partition plate, a rotary ring seat is rotatably arranged at the upper end of the partition plate and is annularly arranged at the outer side of the processing module, the rotary ring seat is connected with a rotary driving piece for driving the rotary driving piece to rotate at a high speed, and a plurality of air inlet pipes penetrate through the upper end part and the lower end part of the partition plate;

a plurality of air injection radiating pipes are distributed at the upper end of the rotary ring seat in an array manner, the lower end of each air injection radiating pipe is communicated with the interior of the rotary ring seat, a plurality of air inlets are distributed at the outer side of the rotary ring seat in an array manner, an air inlet blade for guiding air flow to enter is arranged at the position of each air inlet, and a plurality of air injection holes for exhausting are formed in one side of the surface of each air injection radiating pipe, which is close to the treatment module;

the utility model discloses a cabinet body, including cabinet body, cabinet body upper port department, rotatory exhaust block lower extreme and jet-propelled cooling tube upper end are connected fixedly, a recess has been seted up to rotatory exhaust block lower extreme, and the rotatory exhaust block outside array distribution that is located cabinet body upside has a plurality of to be used for the exhaust mouth of pipe with the recess intercommunication.

As a further scheme of the invention: every intake pipe lower extreme all is equipped with one and is used for promoting the toper passageway of air compression, and at gaseous along the toper passageway inlet port, gaseous can be compressed, and the gaseous after the compression is along intake pipe upper end mouth discharge, can take place the inflation after the gas discharge to external work, gaseous self temperature reduction this moment has made the foreshadowing for the heat dissipation in later stage.

As a further scheme of the invention: each exhaust nozzle inner end is provided with an exhaust blade for guiding and discharging gas, and the arrangement direction of the exhaust blade is opposite to that of the air inlet blade.

As a further scheme of the invention: the jet-propelled direction and the processing module tangent plane of fumarole are certain angle setting, and every fumarole jet-propelled slightly upwards sets up, will produce a rotatory air current upwards in the processing module outside like this, helps the heat to upwards discharge fast away.

As a further scheme of the invention: the rotary driving part comprises a driven gear ring arranged outside the rotary ring seat, a driving gear is meshed outside the driven gear ring, and the driving gear is installed at the output end of the driving motor.

As a further scheme of the invention: the pretreatment component comprises an air inlet port arranged at the bottom of the cabinet body, a sliding pipe column is arranged in the air inlet port in a sliding manner, a side plate at the lower end of the sliding pipe column is fixedly connected with the cabinet body through a spring, the upper end of the sliding pipe column is connected with a filter element for filtering air, the filter element is of a conical structure with a large lower part and a small upper part, the peripheral arc-shaped surface of the filter element is a filtering surface, an isolation cover for covering the filter element is rotatably arranged at the bottom in the cabinet body outside the air inlet port, a plurality of air inlet inclined pipes are distributed on the outer side of the isolation cover in an array manner, the air inlet inclined pipes are arranged at acute angles with the tangent plane of the isolation cover, a buffer ring is rotatably arranged on the outer side of the isolation cover where the air inlet inclined pipes are arranged, the outer side of the buffer ring is fixedly connected with the inner wall of the cabinet body through a plurality of positioning rods, and a heat exchange air duct for exhausting is arranged on the outer side of the buffer ring, the inside of the isolation cover is provided with a cleaning brush matched with the filtering surface of the filter element, and the filter element is not contacted with the cleaning brush in the initial state.

As a still further scheme of the invention: the internal portion of cabinet still is equipped with the heat transfer spare that is used for further cooling to the inside air of heat transfer air guide pipe, the heat transfer spare is including setting up the heat transfer water tank at the internal portion of cabinet, the inside packing of heat transfer water tank has cold water, the heat transfer air guide pipe is U type structure, and the heat transfer section of heat transfer air guide pipe passes heat transfer water tank, the cabinet body is extended to heat transfer water tank one end, the inside refrigeration piece that is used for cooling cold water that is equipped with of heat transfer water tank.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the steps of setting a trigger condition to form a self-checking item, inquiring system data according to the trigger condition in an automatic or manual detection mode, automatically checking and generating a detection result to help business personnel to locate system problems;

the invention is designed aiming at the existing needs, can quickly process asset information, displays the processed structure on the mobile flat plate unit, quickly cools the processing module through the heat dissipation unit when the mobile flat plate unit runs at a high speed, quickly takes away the working heat of the processing module, effectively ensures the working performance of equipment and has strong practicability.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic diagram of a processing unit according to the present invention.

FIG. 3 is a schematic diagram of the internal structure of the processing unit according to the present invention.

FIG. 4 is a schematic view of a rotary ring seat in the processing unit of the present invention.

FIG. 5 is a schematic view of a cartridge in a treatment unit according to the present invention.

Fig. 6 is a flow chart of self-checking in the present invention.

Wherein: the air conditioner comprises a cabinet body 11, an air injection hole 12, an air injection heat radiation pipe 13, a rotary ring seat 14, an air inlet blade 15, a driving gear 16, a driving motor 17, an air inlet pipe 18, a conical channel 19, a positioning rod 20, a refrigeration block 21, a heat exchange water tank 22, a heat exchange air guide pipe 23, a support leg 24, a buffer ring 25, an air inlet inclined pipe 26, a cleaning brush 27, a filter element 28, an air inlet port 29, a reset block 30, a sliding pipe column 31, a partition plate 32, a processing module 33, a movable flat plate unit 34, a rotary exhaust block 35, an exhaust pipe opening 36, a groove 37 and an exhaust blade 38.

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.

Example 1

Referring to fig. 1 to 6, in an embodiment of the present invention, an asset self-inspection system includes a mobile tablet unit convenient for an operator to hold, and a processing unit for performing data processing, where the mobile tablet unit includes:

the trigger module comprises an adding trigger type, an adding trigger item and a trigger condition creating module;

the triggering conditions comprise setting a triggering period, setting a triggering rule and setting a self-checking range

The processing unit comprises a cabinet body 11 and an interface arranged on the surface of the cabinet body and used for connecting a mobile flat plate unit 34, wherein a processing module 33 electrically connected with the mobile flat plate unit 34 and used for processing huge data information is arranged in the cabinet body 11, the processing module 33 is electrically connected with a wireless unit used for receiving corresponding wireless data information, a heat dissipation unit used for dissipating heat in the processing module 33 to ensure the processing speed of the processing module 33 is arranged in the cabinet body 11, supporting legs 24 used for supporting are arranged at the lower end of the cabinet body 11, and a thermometer used for detecting the surface temperature of the processing module 33 is further arranged on the processing module 33;

as shown in fig. 5, in the actual self-test operation: the trigger condition is set through the mobile flat plate unit 34 to form a self-checking item, system data is inquired according to the trigger condition through an automatic or manual detection mode, automatic checking is carried out, a detection result is generated, and the problem of a system is located by a service worker;

the heat dissipation unit comprises a partition plate 32 which is arranged inside the cabinet body 11 and used for supporting a processing module 33, a wiring channel for laying data lines is arranged inside the partition plate 32, a preprocessing component for preprocessing intake air is arranged in a cavity on the lower side of the partition plate 32, a rotary ring seat 14 is rotatably arranged at the upper end of the partition plate 32, the rotary ring seat 14 is annularly arranged outside the processing module 33, the rotary ring seat 14 is connected with a rotary driving part for driving the rotary driving part to rotate at a high speed, a plurality of air inlet pipes 18 penetrate through the upper end part and the lower end part of the partition plate 32, a conical channel 19 for promoting air compression is arranged at the lower end of each air inlet pipe 18, air can be compressed when entering the inlet of the air along the conical channel 19, the compressed air is discharged along the upper end openings of the air inlet pipes 18, the discharged air can expand to do work to the outside, and the temperature of the air is reduced, the heat dissipation at the later stage is paved;

a plurality of air injection radiating pipes 13 are distributed on the upper end of the rotary ring seat 14 in an array manner, the lower end of each air injection radiating pipe 13 is communicated with the inside of the rotary ring seat 14, a plurality of air inlets are distributed on the outer side of the rotary ring seat 14 in an array manner, an air inlet blade 15 for guiding air flow to enter is arranged at each air inlet position, a plurality of air injection holes 12 for exhausting are formed in one side, close to the processing module 33, of the surface of each air injection radiating pipe 13, so that when the rotary ring seat 14 rotates at a high speed, air in the cabinet body 11 enters the rotary ring seat 14 along the air inlet blade 15, then flows along the air injection radiating pipes 13 and is exhausted from the air injection holes 12, and the sprayed air moves towards the processing module 33, so that the processing module 33 is cooled;

a rotary exhaust block 35 is rotatably arranged at the upper port of the cabinet body 11, the lower end of the rotary exhaust block 35 is fixedly connected with the upper end of the air-jet radiating pipe 13, a groove 37 is formed in the lower end face of the rotary exhaust block 35, a plurality of exhaust pipe orifices 36 communicated with the groove 37 are distributed on the outer side of the rotary exhaust block 35 on the upper side of the cabinet body 11 in an array manner, an exhaust blade 38 for guiding and discharging air is arranged at the inner end of each exhaust pipe orifice 36, the arrangement direction of the exhaust blade 38 is opposite to that of the air inlet blade 15, so that when the exhaust blade 38 rotates at a high speed, the exhaust blade 38 can pump out the air in the groove 37, negative pressure is formed, and heat discharge is further promoted;

the air injection direction of the air injection holes 12 and the tangent plane of the processing module 33 are arranged at a certain angle, and the air injection of each air injection hole 12 is arranged slightly upwards, so that an air flow which rotates upwards is generated outside the processing module 33, the heat is rapidly and upwards discharged, and the heat dissipation effect is further improved;

the rotary driving part comprises a driven gear ring arranged on the outer side of the rotary ring seat 14, a driving gear 16 is meshed on the outer side of the driven gear ring, the driving gear 16 is installed at the output end of a driving motor 17, the driving gear 16 is driven to rotate by the driving motor 17, and the driving gear 16 drives the rotary ring seat 14 to rotate by the driven gear ring, so that power is provided for heat dissipation;

the pretreatment assembly comprises an air inlet port 29 arranged at the bottom of the cabinet body 11, a sliding pipe column 31 is arranged in the air inlet port 29 in a sliding mode, a side plate at the lower end of the sliding pipe column 31 is fixedly connected with the cabinet body 11 through a spring, the upper end of the sliding pipe column 31 is connected with a filter element 28 used for filtering air, the filter element 28 is of a conical structure with a large lower part and a small upper part, the peripheral arc-shaped surface of the filter element 28 is a filtering surface, an isolation cover used for covering the filter element 28 is rotatably arranged at the bottom in the cabinet body 11 at the outer side of the air inlet port 29, a plurality of air inlet inclined pipes 26 are distributed on the outer side of the isolation cover in an array mode, the air inlet inclined pipes 26 and the tangent plane of the isolation cover are arranged in an acute angle, a buffer ring 25 is rotatably arranged on the outer side of the isolation cover where the air inlet inclined pipes 26 are located, the outer side of the buffer ring 25 is fixedly connected with the inner wall of the cabinet body 11 through a plurality of positioning rods 20, and a heat exchange air duct 23 used for exhausting is arranged on the outer side of the buffer ring 25, the inner side of the isolation cover is provided with a cleaning brush 27 which is used for being matched with a filtering surface of the filter element 28, in an initial state, the filter element 28 is not contacted with the cleaning brush 27, in actual work, along with gas discharged along the air inlet inclined pipe 26, the gas can promote the isolation cover to rotate, the rotating isolation cover can also drive the cleaning brush 27 to rotate, in the initial state, the filtering effect of the filter element 28 is better, at the moment, the filter element 28 is not contacted with the cleaning brush 27, but along with the blockage of the filtering surface of the filter element 28, under the action of air pressure, the sliding pipe column 31 can slide along the inner wall of the air inlet port 29, so that the filter element 28 slides upwards and is contacted with the cleaning brush 27, at the moment, the rotating cleaning brush 27 can perform hole cleaning treatment on the surface of the filter element 28, and accordingly the air inlet effect of the device is ensured;

the internal portion of cabinet still is equipped with the heat transfer spare that is used for further cooling to the inside air of heat transfer air guide pipe 23, the heat transfer spare is including setting up the heat transfer water tank 22 at the internal portion of cabinet, the inside packing of heat transfer water tank 22 has cold water, heat transfer air guide pipe 23 is U type structure, and heat transfer water tank 22 is passed to the heat transfer section of heat transfer air guide pipe 23, the cabinet body 11 is extended to heat transfer water tank 22 one end, the inside refrigeration piece 21 that is used for cooling cold water that is equipped with of heat transfer water tank 22, like this can be carried out preliminary cooling by heat transfer water tank 22 along heat transfer air guide pipe 23 spun gas to improve later stage radiating effect.

The working principle of the invention is as follows: during actual use, a user inputs corresponding instruction information into the processing module 33 through the mobile flat plate unit 34, the processing module 33 is in wireless transmission with the cloud end and is used for acquiring corresponding data information and rapidly calculating the data to acquire corresponding asset self-checking information, the processed information is transmitted to the mobile flat plate unit 34 to be displayed, the rotary driving piece drives the rotary ring seat 14 to rotate at high speed while working, when the rotary ring seat 14 rotates at high speed, gas inside the cabinet body 11 enters the rotary ring seat 14 along the air inlet blades 15, then the gas flows along the air-jet radiating pipe 13 and is discharged from the air-jet holes 12, the sprayed gas moves towards the processing module 33, so that the processing module 33 is cooled, the air-jet direction of the air-jet holes 12 is arranged at a certain angle with the tangent plane 33 of the processing module, and the air-jet direction of each air-jet hole 12 is arranged slightly upwards, the air flow which rotates upwards is generated outside the processing module 33, the heat is facilitated to be discharged upwards quickly, when the exhaust blades 38 rotate at a high speed, the exhaust blades 38 can pump out the air in the grooves 37, negative pressure is formed, heat discharge is further promoted, the lower end of each air inlet pipe 18 is provided with a conical channel 19 for promoting air compression, the air enters the inlet along the conical channel 19 and can be compressed, the compressed air is discharged along the upper end opening of the air inlet pipe 18 and can expand after being discharged, work is done to the outside, the temperature of the air is reduced, a cushion is made for later heat dissipation, the surface heat of the processing module 33 which runs at a high speed can be absorbed, and the processing speed of the processing module 33 is guaranteed.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof.

Claims

1. An asset self-testing system comprising a mobile tablet unit adapted to be held by an operator and a processing unit for performing data processing, said mobile tablet unit comprising:

the trigger conditions comprise setting a trigger period, setting a trigger rule and setting a self-checking range.

2. The asset self-inspection system according to claim 1, wherein the processing unit comprises a cabinet body (11) and an interface arranged on the surface of the cabinet body for connecting the mobile flat panel unit (34), a processing module (33) electrically connected with the mobile flat panel unit (34) and used for processing huge data information is arranged inside the cabinet body (11), the processing module (33) is electrically connected with a wireless unit used for receiving corresponding wireless data information, a heat dissipation unit used for dissipating heat inside the processing module (33) to ensure the processing speed of the processing module (33) is arranged inside the cabinet body (11), the lower end of the cabinet body (11) is provided with supporting legs (24) for supporting, and the processing module (33) is further provided with a thermometer used for detecting the surface temperature of the processing module (33).

3. The asset self-inspection system according to claim 1, wherein the heat dissipation unit comprises a partition plate (32) arranged inside the cabinet (11) and used for supporting the processing module (33), a wiring channel for laying data lines is arranged inside the partition plate (32), a pretreatment assembly for pretreating intake air is arranged in a chamber on the lower side of the partition plate (32), a rotary ring seat (14) is rotatably arranged at the upper end of the partition plate (32), the rotary ring seat (14) is annularly arranged outside the processing module (33), the rotary ring seat (14) is connected with a rotary driving member for driving the rotary ring seat to rotate at a high speed, and a plurality of air inlet pipes (18) penetrate through the upper end and the lower end of the partition plate (32);

a plurality of air injection radiating pipes (13) are distributed at the upper end of the rotary ring seat (14) in an array manner, the lower end of each air injection radiating pipe (13) is communicated with the inside of the rotary ring seat (14), a plurality of air inlets are distributed at the outer side of the rotary ring seat (14) in an array manner, an air inlet blade (15) for guiding air flow to enter is arranged at each air inlet, and a plurality of air injection holes (12) for exhausting air are arranged at one side, close to the treatment module (33), of the surface of each air injection radiating pipe (13);

the utility model discloses a cabinet, including the cabinet body, the cabinet body is equipped with a rotatory exhaust block (35) in cabinet body (11) upper port department rotation, rotatory exhaust block (35) lower extreme is connected fixedly with jet-propelled cooling tube (13) upper end, a recess (37) have been seted up to rotatory exhaust block (35) lower extreme face, and rotatory exhaust block (35) outside array distribution that is located cabinet body (11) upside has a plurality of to be used for exhaust mouth of pipe (36) with recess (37) intercommunication.

4. The asset self-inspection system according to claim 3, characterized in that a conical channel (19) for promoting air compression is arranged at the lower end of each air inlet pipe (18), air can be compressed when entering the inlet along the conical channel (19), the compressed air is discharged along the upper end opening of the air inlet pipe (18), and the compressed air expands after being discharged, so that work is done to the outside, the temperature of the air is reduced at the moment, and a cushion is made for later heat dissipation.

5. Asset self-inspection system according to claim 3, characterized in that the inner end of each exhaust nozzle (36) is provided with an exhaust vane (38) for guiding the gas out, the exhaust vanes (38) being arranged in the opposite direction to the inlet vanes (15).

6. The asset self-inspection system according to claim 3, wherein the air injection holes (12) are arranged with their air injection directions at an angle to the section of the processing module (33), and each air injection hole (12) is arranged with its air injection slightly upward, so that a rotating upward air flow is generated outside the processing module (33) to facilitate rapid upward heat removal.

7. Asset self-inspection system according to claim 3, characterized in that said rotary drive comprises a driven toothed ring arranged outside the rotary ring seat (14), said driven toothed ring being externally engaged with a driving gear (16), said driving gear (16) being mounted at the output of a driving motor (17).

8. The asset self-inspection system according to claim 3, wherein the pretreatment assembly comprises an air inlet port (29) formed at the bottom of the cabinet body (11), a sliding pipe column (31) is slidably arranged in the air inlet port (29), a side plate at the lower end of the sliding pipe column (31) is fixedly connected with the cabinet body (11) through a spring, a filter element (28) for filtering air is connected to the upper end of the sliding pipe column (31), the filter element (28) is of a conical structure with a large lower part and a small upper part, the peripheral arc-shaped surfaces of the filter element (28) are filtering surfaces, an isolation cover for covering the filter element (28) is rotatably arranged at the inner bottom of the cabinet body (11) at the outer side of the air inlet port (29), a plurality of air inlet inclined pipes (26) are distributed in an array manner at the outer side of the isolation cover, and the air inlet inclined pipes (26) are arranged at acute angles with the tangent plane of the isolation cover, the utility model discloses a cabinet, including the cage, the cage outside rotation that admits air pipe chute (26) place is equipped with a buffer memory ring (25), buffer memory ring (25) outside is fixed with cabinet body (11) inner wall connection through a plurality of locating lever (20), buffer memory ring (25) outside is equipped with and is used for carminative heat transfer air duct (23), the cage inboard is equipped with and is used for clearance brush (27) with the filtering surface matched with of filter core (28), and during initial condition, filter core (28) and clearance brush (27) contactless.

9. The asset self-inspection system according to claim 8, wherein a heat exchange member for further cooling the air inside the heat exchange air guide pipe (23) is further arranged inside the cabinet body (11), the heat exchange member comprises a heat exchange water tank (22) arranged inside the cabinet body (11), the heat exchange water tank (22) is filled with cold water, the heat exchange air guide pipe (23) is of a U-shaped structure, a heat exchange section of the heat exchange air guide pipe (23) penetrates through the heat exchange water tank (22), one end of the heat exchange water tank (22) extends out of the cabinet body (11), and a refrigerating block (21) for cooling the cold water is arranged inside the heat exchange water tank (22).

10. A use method of the asset self-checking system according to any one of claims 1-9, characterized in that a user inputs corresponding instruction information into the processing module (33) through the mobile flat unit (34), the processing module (33) is configured to obtain corresponding data information according to wireless transmission with the cloud, and perform fast calculation on the data to obtain corresponding asset self-checking information, and the processed information is transmitted to the mobile flat unit (34) to be displayed, while in operation, the rotary driving member drives the rotary ring seat (14) to rotate at high speed, when the rotary ring seat (14) rotates at high speed, the gas inside the cabinet (11) enters the rotary ring seat (14) along the air inlet blade (15), and then flows along the air-jet heat dissipation pipe (13) and is exhausted from the air-jet hole (12), and the ejected gas moves towards the processing module (33), thereby realize the cooling to processing module (33), the jet-propelled direction of fumarole (12) is certain angle setting with processing module (33) tangent plane, and every fumarole (12) jet-propelled slightly upwards sets up, will produce the rotatory air current upwards in processing module (33) outside like this, help the heat to upwards discharge fast, when exhaust blade (38) high-speed rotation, exhaust blade (38) just can be with the gas in recess (37) extraction, thereby form the negative pressure, further promoted thermal discharge, every intake pipe (18) lower extreme all is equipped with one and is used for promoting the toper passageway (19) of air compression, at gaseous along toper passageway (19) inlet port, the gas can be compressed, the gaseous along intake pipe (18) upper end mouth discharge after the compression, can take place the inflation after the gas discharge, thereby do work to the external world, gaseous self temperature reduces this moment, the heat dissipation device lays a cushion for later heat dissipation, so that the surface heat of the processing module (33) running at high speed can be absorbed, and the processing speed of the processing module (33) is ensured.