CN207733180U - Has the sensor structure of rapid cooling - Google Patents
Has the sensor structure of rapid cooling Download PDFInfo
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- CN207733180U CN207733180U CN201820178344.5U CN201820178344U CN207733180U CN 207733180 U CN207733180 U CN 207733180U CN 201820178344 U CN201820178344 U CN 201820178344U CN 207733180 U CN207733180 U CN 207733180U
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- water
- sensor
- cooling
- aluminum pipe
- heat conduction
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Abstract
A kind of sensor structure having rapid cooling, it includes two first sensors being serially connected and second sensor, heat conduction header tank positioned at first sensor and second sensor lower part, positioned at heat conduction catchment lower box part water cooling row, the cooling fan of lower part is arranged positioned at water cooling, and the water circulating pump connected from heat conduction header tank with the pipeline that water cooling row draws, it is driven in pipeline of the cooling medium in heat conduction header tank in water cooling row by water circulating pump and is constantly recycled, the heat that first sensor and second sensor generate when working is transmitted to cellular heat conduction header tank by heat conductive silica gel and carries out water cooling, partial heat special delivery is arranged to water cooling simultaneously, water cooling row is carried out again by cooling fan air-cooled, by heat diffusion to surrounding.The utility model overcomes the low problem of original sensor radiating efficiency, has the characteristics of simple in structure, heat dissipation is quick, and radiating efficiency is high, good heat dissipation effect.
Description
Technical field
The utility model belongs to sensor technical field of heat dissipation, is related to a kind of sensor structure having rapid cooling.
Background technology
Sensor is a kind of detection device, can experience measured information, and the information that can will be experienced, by a set pattern
Rule is for conversion into the information output of electric signal or other required forms, to meet the transmission of information, processing, storage, display, record
With control etc. requirements.For sensor as a kind of detection device, reliability has been largely fixed the work using its host
Stability, but as electric elements, heat is unavoidably generated in use, and its installation site would generally be more hidden
It covers, operating mode is more severe, and often because overheat causes to fail, the work of whole system can be influenced when serious.
Invention content
The technical problem to be solved by the utility model is to provide a kind of sensor structure having rapid cooling, structure letters
It is single, set gradually hot header tank, water cooling row and cooling fan, the pipeline connection heat of different cooling materials using in sensor lower part
Header tank, water cooling row and water circulating pump, utilize the cooling medium inside water circulating pump cycling hot header tank, heat diffusion to water cooling
By cooling fan wind-cooling heat dissipating again after row, heat dissipation is quick, and radiating efficiency is high, good heat dissipation effect.
In order to solve the above technical problems, technical solution used by the utility model is:A kind of biography having rapid cooling
Sensor structure, it includes two first sensors being serially connected and second sensor, is located at first sensor and the second sensing
The heat conduction header tank of device lower part, the water cooling row for the lower box part that catchments positioned at heat conduction, the cooling fan positioned at water cooling row lower part, Yi Jicong
The water circulating pump that heat conduction header tank is connected with the pipeline that water cooling row draws.
The pipeline includes aluminum pipe, copper pipe and hose;The aluminum pipe includes water outlet aluminum pipe, water inlet aluminum pipe, water delivery aluminium
Pipe and return water aluminum pipe;The heat conduction header tank is equipped with the water outlet being connect with water outlet aluminum pipe, the water inlet being connect with water inlet aluminum pipe
Mouthful;The both ends of the water delivery aluminum pipe are connect with the water transport port of water inlet aluminum pipe and water circulating pump respectively;The two of the return water aluminum pipe
End is connect with the water return outlet of water circulating pump and hose respectively, and the other end of hose is connect with water outlet aluminum pipe;The described water cooling row by
The platy structure of the mutual unicom of intensive pipeline;The copper pipe is logical with return water aluminum pipe and water cooling Volleyball Association respectively.
Gap filling heat conductive silica gel between the first sensor and second sensor and heat conduction header tank.
Cooling medium inside the heat conduction header tank can be ethylene glycol or desalination coolant liquid.
The radiating fin shape of the water cooling row is S-shaped.
The material of the radiating fin is copper or aluminium.
The copper pipe is connect with hose by quick coupling.
The heat conduction header tank is hollow honeycomb structure.
A kind of sensor structure having rapid cooling, it includes two first sensors being serially connected and the second sensing
Device, the lower box part that catchments positioned at the heat conduction header tank of first sensor and second sensor lower part, positioned at heat conduction water cooling row, be located at
The cooling fan of water cooling row lower part and the water circulating pump connected from heat conduction header tank with the pipeline that water cooling row draws.Structure letter
It is single, using the heat dissipation pipeline of Cu and Al combination, drive the cooling medium in heat conduction header tank in water cooling row by water circulating pump
It is constantly recycled in pipeline, the heat that first sensor and second sensor generate when working is transmitted to cellular by heat conductive silica gel
Heat conduction header tank carry out water cooling, while by partial heat special delivery give water cooling arrange, by cooling fan to water cooling row carry out again
Air-cooled, by heat diffusion to surrounding, heat dissipation is quick, and radiating efficiency is high, good heat dissipation effect.
Pipeline includes aluminum pipe, copper pipe and hose;Aluminum pipe includes water outlet aluminum pipe, water inlet aluminum pipe, water delivery aluminum pipe and return water aluminum pipe;
Heat conduction header tank is equipped with the water outlet being connect with water outlet aluminum pipe, the water inlet being connect with water inlet aluminum pipe;The both ends of water delivery aluminum pipe point
It is not connect with the water transport port of water inlet aluminum pipe and water circulating pump;The both ends of return water aluminum pipe respectively with the water return outlet of water circulating pump and hose
The other end of connection, hose is connect with water outlet aluminum pipe;Water cooling arranges the platy structure by the intensive mutual unicom of pipeline;Copper pipe is distinguished
It is logical with return water aluminum pipe and water cooling Volleyball Association.Simple in structure, easy to connect, the circulating water line and heat conduction for forming Cu and Al combination catchment
Case, water cooling row and water circulating pump unicom, cooling medium circulation block, heat conduction efficiency is high, good heat dissipation effect.
In the preferred scheme, the gap filling thermal conductive silicon between first sensor and second sensor and heat conduction header tank
Glue.It is simple and compact for structure, easy to connect, the heat generated when first sensor and second sensor being worked by heat conductive silica gel
Heat conduction header tank is passed to, heat transfer is fast, and transmission efficiency is high.
In the preferred scheme, the cooling medium inside heat conduction header tank can be ethylene glycol or desalination coolant liquid.Ethylene glycol
Fast with the heat absorption of desalination coolant liquid, heat diffusion is fast, good cooling results.
In the preferred scheme, the radiating fin shape of water cooling row is S-shaped.Heat dissipation area is big, and heat dissipation is faster, heat dissipation effect
Rate higher.
In the preferred scheme, the material of radiating fin is copper or aluminium.The heat absorption of copper and aluminium and rapid heat dissipation, heat dissipation effect
It is good.
In the preferred scheme, copper pipe is connect with hose by quick coupling.Easy to connect, installation maintenance is quick.
In the preferred scheme, heat conduction header tank is hollow honeycomb structure.The babinet of honeycomb structure increases table
Face area, heat dissipation effect are more preferable.
A kind of sensor structure having rapid cooling, it includes two first sensors being serially connected and the second sensing
Device, the lower box part that catchments positioned at the heat conduction header tank of first sensor and second sensor lower part, positioned at heat conduction water cooling row, be located at
The cooling fan of water cooling row lower part and the water circulating pump connected from heat conduction header tank with the pipeline that water cooling row draws, by following
It is constantly recycled in pipeline of the cooling medium in water cooling row in ring water pump driving heat conduction header tank, first sensor and second passes
The heat generated when sense device working is transmitted to cellular heat conduction header tank by heat conductive silica gel and carries out water cooling, while will part heat
Measure special delivery give water cooling row, by cooling fan to water cooling row carry out again it is air-cooled, by heat diffusion to surrounding.The utility model gram
The low problem of original sensor radiating efficiency has been taken, has had simple in structure, heat dissipation is quick, and radiating efficiency is high, the spy of good heat dissipation effect
Point.
Description of the drawings
The utility model is described in further detail with reference to the accompanying drawings and examples:
Fig. 1 is the structural schematic diagram of the utility model.
Fig. 2 is schematic cross-sectional view at the A-A of Fig. 1.
In figure:First sensor 1, second sensor 2, heat conduction header tank 3, water cooling row 4, cooling fan 5, pipeline 6, aluminum pipe
61, it is discharged aluminum pipe 611, aluminum pipe 612 of intaking, water delivery aluminum pipe 613, return water aluminum pipe 614, copper pipe 62, hose 63, water circulating pump 7 leads
Hot silica gel 8.
Specific implementation mode
In Fig. 1 ~ Fig. 2, a kind of sensor structure having rapid cooling, it includes two the first sensings being serially connected
Device 1 and second sensor 2, positioned at 2 lower part of first sensor 1 and second sensor heat conduction header tank 3, be located at heat conduction header tank
The water cooling row 4 of 3 lower parts, the cooling fan 5 that 4 lower parts are arranged positioned at water cooling and the pipe drawn from heat conduction header tank 3 and water cooling row 4
The water circulating pump 7 that road 6 connects.It is simple in structure, using the heat dissipation pipeline of Cu and Al combination, drive heat conduction to catchment by water circulating pump 7
It is constantly recycled in pipeline of the cooling medium in water cooling row 4 in case 3, first sensor 1 and second sensor 2 generate when working
Heat cellular heat conduction header tank 3 be transmitted to by heat conductive silica gel 8 carry out water cooling, while by partial heat special delivery to water cooling
Row 4, carries out water cooling row 4 by cooling fan 5 air-cooled again, and by heat diffusion to surrounding, heat dissipation is quick, and radiating efficiency is high,
Good heat dissipation effect.
The pipeline 6 includes aluminum pipe 61, copper pipe 62 and hose 63;The aluminum pipe 61 includes water outlet aluminum pipe 611, water inlet
Aluminum pipe 612, water delivery aluminum pipe 613 and return water aluminum pipe 614;The heat conduction header tank 3 is equipped with the water outlet being connect with water outlet aluminum pipe 611
Mouthful, the water inlet being connect with water inlet aluminum pipe 612;The both ends of the water delivery aluminum pipe 613 respectively with water inlet aluminum pipe 612 and recirculated water
The water transport port connection of pump 7;The both ends of the return water aluminum pipe 614 are connect with the water return outlet of water circulating pump 7 and hose 63 respectively, hose
63 other end is connect with water outlet aluminum pipe 611;The water cooling arranges 4 platy structures by the intensive mutual unicom of pipeline;It is described
Copper pipe 62 arrange 4 unicom with return water aluminum pipe 614 and water cooling respectively.It is simple in structure, it is easy to connect, form the recirculated water of Cu and Al combination
Pipeline and heat conduction header tank 3, water cooling row 4 and 7 unicom of water circulating pump, cooling medium circulation block, heat conduction efficiency is high, heat dissipation effect
It is good.
In preferred scheme, the gap filling between the first sensor 1 and second sensor 2 and heat conduction header tank 3
Heat conductive silica gel 8.It is simple and compact for structure, it is easy to connect, when first sensor 1 and second sensor 2 being worked by heat conductive silica gel 8
For the heat transfer of generation to heat conduction header tank 3, heat transfer is fast, and transmission efficiency is high.
In preferred scheme, the cooling medium inside the heat conduction header tank 3 can be ethylene glycol or desalination coolant liquid.Second two
Alcohol and the heat absorption of desalination coolant liquid are fast, and heat diffusion is fast, good cooling results.
In preferred scheme, the radiating fin shape of the water cooling row 4 is S-shaped.Heat dissipation area is big, and heat dissipation is faster, dissipates
Thermal efficiency higher.
In preferred scheme, the material of the radiating fin is copper or aluminium.The heat absorption of copper and aluminium and rapid heat dissipation, heat dissipation effect
It is good.
In preferred scheme, the copper pipe 62 is connect with hose 63 by quick coupling.Easy to connect, installation maintenance is quick.
In preferred scheme, the heat conduction header tank 3 is hollow honeycomb structure.The babinet of honeycomb structure increases
Surface area, heat dissipation effect are more preferable.
The as described above sensor structure for having rapid cooling, when work, water circulating pump 7 drives in heat conduction header tank 3
Pipeline of the cooling medium in water cooling row 4 in constantly recycle, the heat that first sensor 1 and second sensor 2 generate when working
Amount is transmitted to cellular heat conduction header tank 3 by heat conductive silica gel 8 and carries out water cooling, while partial heat special delivery is arranged 4 to water cooling,
Water cooling row 4 is carried out again by cooling fan 5 air-cooled, by heat diffusion to surrounding, heat dissipation is quick, and radiating efficiency is high, heat dissipation
Effect is good.
The above embodiments are only the optimal technical scheme of the utility model, and are not construed as the limit for the utility model
System, the features in the embodiments and the embodiments of the present application in the absence of conflict, mutually can be combined arbitrarily.This practicality is new
Technical characteristic in the technical solution that the protection domain of type should be recorded with claim, including the technical solution of claim record
Equivalents are protection domain.Equivalent replacement i.e. within this range is improved, also the scope of protection of the utility model it
It is interior.
Claims (8)
1. a kind of sensor structure having rapid cooling, it is characterized in that:It includes two first sensors being serially connected(1)
And second sensor(2), be located at first sensor(1)And second sensor(2)The heat conduction header tank of lower part(3), be located at heat conduction
Header tank(3)The water cooling of lower part is arranged(4), be located at water cooling arrange(4)The cooling fan of lower part(5)And from heat conduction header tank(3)With
Water cooling is arranged(4)The pipeline of extraction(6)The water circulating pump of connection(7).
2. the sensor structure according to claim 1 for having rapid cooling, it is characterized in that:The pipeline(6)Including
Aluminum pipe(61), copper pipe(62)And hose(63);The aluminum pipe(61)Including being discharged aluminum pipe(611), water inlet aluminum pipe(612), it is defeated
Water aluminum pipe(613)With return water aluminum pipe(614);The heat conduction header tank(3)Equipped with water outlet aluminum pipe(611)The water outlet of connection
Mouthful, with water inlet aluminum pipe(612)The water inlet of connection;The water delivery aluminum pipe(613)Both ends respectively with water inlet aluminum pipe(612)With
Water circulating pump(7)Water transport port connection;The return water aluminum pipe(614)Both ends respectively with water circulating pump(7)Water return outlet and soft
Pipe(63)Connection, hose(63)The other end with water outlet aluminum pipe(611)Connection;The water cooling row(4)By intensive pipeline phase
The platy structure of mutual unicom;The copper pipe(62)Respectively with return water aluminum pipe(614)It is arranged with water cooling(4)Unicom.
3. the sensor structure according to claim 1 for having rapid cooling, it is characterized in that:The first sensor(1)
And second sensor(2)With heat conduction header tank(3)Between gap filling heat conductive silica gel(8).
4. the sensor structure according to claim 1 for having rapid cooling, it is characterized in that:The heat conduction header tank(3)
Internal cooling medium can be ethylene glycol or desalination coolant liquid.
5. the sensor structure according to claim 1 for having rapid cooling, it is characterized in that:The water cooling row(4)Dissipate
Hot fin shape is S-shaped.
6. the sensor structure according to claim 5 for having rapid cooling, it is characterized in that:The material of the radiating fin
For copper or aluminium.
7. the sensor structure according to claim 2 for having rapid cooling, it is characterized in that:The copper pipe(62)With hose
(63)It is connected by quick coupling.
8. have the sensor structure of rapid cooling according to claim 1 ~ 4 any one of them, it is characterized in that:The heat conduction
Header tank(3)For hollow honeycomb structure.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820178344.5U CN207733180U (en) | 2018-02-01 | 2018-02-01 | Has the sensor structure of rapid cooling |
Applications Claiming Priority (1)
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CN201820178344.5U CN207733180U (en) | 2018-02-01 | 2018-02-01 | Has the sensor structure of rapid cooling |
Publications (1)
Publication Number | Publication Date |
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CN207733180U true CN207733180U (en) | 2018-08-14 |
Family
ID=63081291
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CN201820178344.5U Expired - Fee Related CN207733180U (en) | 2018-02-01 | 2018-02-01 | Has the sensor structure of rapid cooling |
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CN (1) | CN207733180U (en) |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111174496A (en) * | 2018-11-09 | 2020-05-19 | 安徽翔丰再生能源有限公司 | Cooling device |
CN111982177A (en) * | 2020-10-26 | 2020-11-24 | 北京力升高科科技有限公司 | Sensor thermal protection device and method and fire-fighting robot |
CN113099820A (en) * | 2020-01-09 | 2021-07-13 | 苏州宝时得电动工具有限公司 | Intelligent mower |
-
2018
- 2018-02-01 CN CN201820178344.5U patent/CN207733180U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111174496A (en) * | 2018-11-09 | 2020-05-19 | 安徽翔丰再生能源有限公司 | Cooling device |
CN113099820A (en) * | 2020-01-09 | 2021-07-13 | 苏州宝时得电动工具有限公司 | Intelligent mower |
CN111982177A (en) * | 2020-10-26 | 2020-11-24 | 北京力升高科科技有限公司 | Sensor thermal protection device and method and fire-fighting robot |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180814 Termination date: 20190201 |
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CF01 | Termination of patent right due to non-payment of annual fee |