CN207472112U - A kind of double circulation porous media intelligent accurate heat-exchange system - Google Patents
A kind of double circulation porous media intelligent accurate heat-exchange system Download PDFInfo
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- CN207472112U CN207472112U CN201721603081.XU CN201721603081U CN207472112U CN 207472112 U CN207472112 U CN 207472112U CN 201721603081 U CN201721603081 U CN 201721603081U CN 207472112 U CN207472112 U CN 207472112U
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- coiled pipe
- circulation
- solenoid valve
- outlets
- porous media
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Abstract
The utility model provides a kind of double circulation porous media intelligent accurate heat-exchange system, one end of housing is equipped with a outlets, the other end of housing is equipped with a inlet tubes, coiled pipe and deflector are equipped in housing, heat-storing material is filled between coiled pipe and housing, coiled pipe one end is located at the same end as entrance and a outlets, and coiled pipe the other end is located at the same end as outlet with a inlet tubes;A outlets are connected with a inlet tubes by a circulation pipes, and coiled pipe entrance and exit is connected by b circulation pipes, form double circulation system;Solenoid valve is equipped in a outlets and a circulation pipes, the discharge of control fluid is equipped in b circulation pipes or is recycled into the solenoid valve of coiled pipe, coiled pipe exit is equipped with flowmeter, thermometer and solenoid valve, wherein flowmeter, thermometer and solenoid valve are all connected to computer system, realize quantitative constant temperature heat exchange, so as to achieve the purpose that it is efficient, intelligent, precisely exchange heat.
Description
Technical field
The utility model is related to field of heat exchangers, and in particular to a kind of double circulation porous media intelligent accurate heat exchange system
System.
Background technology
With the sustainable development of social economy, modern industry is become increasingly prosperous, and people bring convenient in enjoyment industry
Efficient utilization and the recycling of the energy are often had ignored simultaneously, such as amount of heat gas, the large scale industry high temperature in boiler exhaust gas
A large amount of heat is all contained in waste water, bathing pool steam etc., these the insides.The efficient of the energy utilizes the master for already becoming modern society
Stream.Answer the heat exchanger of the tendency of the day and life, can by the amount of heat in waste carry out recycling, so as to become give up into
Treasured solves the problems, such as reusing of energy source to a certain extent.
With the fast development of computer technology, more and more equipment can be connect with computer, so as to fulfill intelligence
It can monitoring and controlling.As one of capital equipment efficiently utilized for realizing the energy, heat exchanger is applied to large scale industry place mostly,
Such as oil, chemical industry and dynamic field.The type of heat exchanger is various, can be applied to industry-by-industry.However, with modern technologies
The phenomenon that most of development, design of heat exchanger still use conventional method, and the heat transfer effect of heat exchanger is bad and uncontrollable is general
Store-through exists, and often appearance outlet is too high or too low for temperature, and design requirement is not achieved.As energy consumption is excessive, energy-saving and emission-reduction by
Step obtains everybody and approves, can many heat exchangers can not realize the recycling of energy, energy utilization rate is relatively low.Therefore, one is designed
The heat-exchange system of kind intelligent accurate is necessary.
Utility model content
The purpose of this utility model is that the problem of heat transfer effect for improving existing heat exchanger is bad and uncontrollable, provides
A kind of double circulation porous media intelligent accurate heat-exchange system, heat exchanger is connected with computer system, so as to heat exchanging device
It is monitored and controls, realize intelligent, digitized quantitative constant temperature heat exchange.
For above-mentioned purpose, its technical solution is that:
A kind of double circulation porous media intelligent accurate heat-exchange system, including housing, a circulation pipes, b circulation pipes, positioned at institute
State the coiled pipe and deflector in housing, the heat-storing material being filled between the coiled pipe and housing, computer system and
It is connected respectively to the flowmeter, thermometer and solenoid valve of the computer system;One end of the housing is equipped with a outlets, institute
The other end for stating housing is equipped with a inlet tubes, and a outlets are connected with a inlet tubes by a circulation pipes, a outlets
With the solenoid valve is equipped in a circulation pipes;Coiled pipe one end is located at the same end as entrance and a outlets, snakelike
Pipe the other end is located at the same end as outlet with a inlet tubes, and the entrance and exit of snakelike tube end is recycled by the b
Pipe connects, and the discharge of control fluid is equipped in b circulation pipes or is recycled into the solenoid valve of coiled pipe, the exit of snakelike tube end is set
There are the flowmeter, thermometer and solenoid valve;The deflector is placed between the opposite pipeline of coiled pipe and one end is fixed on institute
It states on housing.
In above-mentioned double circulation porous media intelligent accurate heat-exchange system, the bending place of coiled pipe be equipped be communicated to it is described
The outlet of b circulation pipes.
In above-mentioned double circulation porous media intelligent accurate heat-exchange system, the outlet of coiled pipe bending place is equipped with the stream
Gauge, thermometer and solenoid valve.
Solenoid valve in above-mentioned double circulation porous media intelligent accurate heat-exchange system, a circulation pipes is arranged on
Pipe ends.
In above-mentioned double circulation porous media intelligent accurate heat-exchange system, a circulation pipes, b circulation pipes and snakelike
It manages as round tube or rectangular tube.
In above-mentioned double circulation porous media intelligent accurate heat-exchange system, the heat-storing material is accumulation type or foam
Type porous media material.
The utility model advantageous effect:
(1)The utility model uses double circulation heat-exchange system, and the outlet of fluid is connected with inlet tube, can carry out
Multiple cycle heat exchange improves heat utilization ratio, so as to improve heat exchange efficiency.
(2)The utility model uses the multiple outlets of subsection setup, each exit on coiled pipe to be designed with flowmeter
And thermometer, the monitoring of flow and temperature is carried out to the fluid in coiled pipe, when outlet temperature meter reaches the temperature of setting,
Solenoid valve is opened discharge fluid in time at outlet, so as to fulfill the accurate control of temperature.
(3)The utility model uses computer system, electromagnetic valve switch is both provided in each exit, by monitoring number
It is connect with signal conversion module according to line and control data line and realizes solenoid valve control, so as to reach intelligent accurate heat exchange.
(4)The utility model is filled in using porous media material between heat exchanger tube, utilizes the efficient of porous media material
Thermal storage effect contributes to reduction heat to scatter and disappear, so as to improve heat exchange efficiency.
(5)The utility model sets deflector structure, can increase the shell side of snakelike extratubal fluid, guiding fluid flowing side
To so as to improve heat exchange efficiency.
(6)The utility model is helped to improve using snakelike tube fluid and the form of snakelike extratubal fluid reverse flow
Heat exchange efficiency.
Description of the drawings
Fig. 1 is the structure diagram of the utility model heat exchanger.
Fig. 2 is deflector sectional view.
Fig. 3 is coiled pipe sectional view.
In figure:1- monitoring data lines;2- controls data line;3- computers;4-a outlets;5-a loop head pipes;6-a is followed
Endless tube;7-b inlet tubes;8- flowmeters;9- thermometers;10-a signal conversion modules;11-b1 outlets;12-b2 outlets;13-
Deflector;14-b3 outlets;15-b signal conversion modules;16-b4 outlets;17-b5 outlets;18- porous media materials;
19-b circulation pipes;20-a inlet tubes;21- solenoid valves;22- heat exchanger shells;23- coiled pipes.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawings and detailed description.
A kind of double circulation porous media intelligent accurate heat-exchange system, including housing 22, a circulation pipes 6, b circulation pipes 19, position
In coiled pipe 23 and deflector 13 in housing 22, the heat-storing material 18 being filled between coiled pipe 23 and housing 22, computer
System 3 and the flowmeter 8, thermometer 9 and solenoid valve 21 for being connected respectively to computer system 3.
One end of housing 22 is equipped with a outlets 4, the other end of housing 22 is equipped with a inlet tubes 20, as shown in Figure 1, a is exported
Pipe 4 is arranged on the upper end of housing 22, a inlet tubes are arranged on the lower end of housing 22.A outlets 4 and a inlet tubes 20 are recycled by a
Pipe 6 connects, and solenoid valve 21 is equipped in a outlets 4 and a circulation pipes 6, to control the discharge of fluid or be recycled into housing.a
Solenoid valve 21 in circulation pipe 6 may be provided at pipe ends and 22 junction of housing.
23 one end of coiled pipe is located at the same end as entrance and a outlets 4,23 the other end of coiled pipe as outlet and
A inlet tubes 20 are located at the same end, and the entrance and exit of 23 end of coiled pipe is connected by b circulation pipes 19, is equipped in b circulation pipes 19
The discharge of control fluid or the solenoid valve 21 for being recycled into coiled pipe 23, the exit of 23 end of coiled pipe are equipped with flowmeter 8, temperature
Meter 9 and solenoid valve 21.
Deflector 13 is placed between the opposite pipeline of coiled pipe 23 and one end is fixed on the housing 22.
In a kind of preferred scheme, the bending place of coiled pipe 23 is equipped with the outlet for being communicated to b circulation pipes 19, and exports
It is equipped with flowmeter 8, thermometer 9 and solenoid valve 21.In a kind of embodiment as shown in Figure 1, coiled pipe 23 has been bent four times, from
The bending place of top to bottm is respectively equipped with b1 outlets 11, b2 outlets 12, b3 outlets 14, b4 outlets 16, in addition, coiled pipe
23 entrance connection b inlet tubes 7, the outlet connection b5 outlets of 23 end of coiled pipe, and b1 outlets 11, b2 outlets 12,
B3 outlets 14, b4 outlets 16, b5 outlets are interconnected by b circulation pipes 19.The quantity of 23 bending structure of coiled pipe can
It is adjusted according to specific application, here and is not particularly limited.
As shown in Figure 1, the solenoid valve 21 that control fluid is discharged from b circulation pipes 19 is mounted on the outlet of 19 lower section of b circulation pipes
Place.Solenoid valve 21 of the control fluid from b circulation pipes 19 into coiled pipe 23 is mounted on the pipe that b circulation pipes 19 are connect with b inlet tubes 7
In road.
Round tube or rectangular tube can be used in a circulation pipes 6, b circulation pipes 19 and coiled pipe 23.Accumulation can be used in heat-storing material 18
Type or foam type porous media material.
The operation principle of the utility model:When heat-exchange system works, the different fluid of two kinds of temperature is respectively from a inlet tubes
20 and b inlet tubes 7 flow into, and the coiled pipe 23 that a fluid streams are filled through the porous media material 18 with high-efficiency thermal storage is managed outside,
And flowed along the direction of deflector 13, b fluids flow through coiled pipe 23, and two kinds of fluid flow directions are on the contrary, pass through septate heat transfer
Form exchange heat, while using porous media material 18 high-efficiency thermal storage characteristic, reduce heat scatter and disappear, with improve heat exchange effect
Rate;23 each outlet of coiled pipe is designed with flowmeter 8, thermometer 9 and solenoid valve 21, is set when detecting that outlet temperature reaches
During fixed temperature, solenoid valve 21 is opened discharge fluid in time at outlet, achievees the purpose that temperature accurately controls.Flowmeter 8
Computer 3 is connected to by monitoring data line 1 and a signal conversion modules 10 with thermometer 9, solenoid valve 21 is by controlling data line
2 and b signal conversion modules 15 are connected to computer 3, and real-time intelligent monitoring and control are carried out using 3 heat exchanging device of computer, real
Existing intelligent heat exchange;A outlets 4 are connected with a inlet tubes 20 using a circulation pipes 6 simultaneously, it will be snakelike using b circulation pipes 19
Each entrance of pipe 23 is connected with each other, and is formed double circulation system, is reused energy efficient, so as to reach double circulation
Porous media intelligent accurate exchanges heat.
Claims (6)
1. a kind of double circulation porous media intelligent accurate heat-exchange system, which is characterized in that including housing (22), a circulation pipes
(6), b circulation pipes (19), coiled pipe (23) and deflector (13) in the housing (22), are filled in the coiled pipe
(23) heat-storing material (18) between housing (22), computer system (3) and is connected respectively to the computer system
(3) flowmeter (8), thermometer (9) and solenoid valve (21);
One end of the housing (22) is equipped with a outlets (4), the other end of the housing (22) is equipped with a inlet tubes (20), described
A outlets (4) are connected with a inlet tubes (20) by a circulation pipes (6), in a outlets (4) and a circulation pipes (6)
Equipped with the solenoid valve (21);
Coiled pipe (23) one end is as entrance and a outlets (4) positioned at the same end, coiled pipe (23) the other end conduct
With a inlet tubes (20) positioned at the same end, the entrance and exit of coiled pipe (23) end passes through the b circulation pipes (19) for outlet
Connection, the interior solenoid valve (21) for being equipped with the discharge of control fluid or being recycled into coiled pipe (23) of b circulation pipes (19), coiled pipe (23)
The exit of end is equipped with the flowmeter (8), thermometer (9) and solenoid valve (21);
The deflector (13) is placed between the opposite pipeline of coiled pipe (23) and one end is fixed on the housing (22).
2. double circulation porous media intelligent accurate heat-exchange system according to claim 1, which is characterized in that coiled pipe
(23) bending place is equipped with the outlet for being communicated to the b circulation pipes (19).
3. double circulation porous media intelligent accurate heat-exchange system according to claim 2, which is characterized in that coiled pipe
(23) outlet of bending place is equipped with the flowmeter (8), thermometer (9) and solenoid valve (21).
4. double circulation porous media intelligent accurate heat-exchange system according to claim 1, which is characterized in that a is followed
Solenoid valve (21) in endless tube (6) is arranged on pipe ends.
5. double circulation porous media intelligent accurate heat-exchange system according to claim 1, which is characterized in that a
Circulation pipe (6), b circulation pipes (19) and coiled pipe (23) are round tube or rectangular tube.
6. double circulation porous media intelligent accurate heat-exchange system according to claim 1, which is characterized in that the storage
Hot material (18) is accumulation type or foam type porous media material.
Priority Applications (1)
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CN201721603081.XU CN207472112U (en) | 2017-11-24 | 2017-11-24 | A kind of double circulation porous media intelligent accurate heat-exchange system |
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CN201721603081.XU CN207472112U (en) | 2017-11-24 | 2017-11-24 | A kind of double circulation porous media intelligent accurate heat-exchange system |
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CN207472112U true CN207472112U (en) | 2018-06-08 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109548363A (en) * | 2018-10-30 | 2019-03-29 | 山东超越数控电子股份有限公司 | A kind of porous media liquid cooling device for cooling, production method and application method |
-
2017
- 2017-11-24 CN CN201721603081.XU patent/CN207472112U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109548363A (en) * | 2018-10-30 | 2019-03-29 | 山东超越数控电子股份有限公司 | A kind of porous media liquid cooling device for cooling, production method and application method |
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