CN108155725A - A kind of fluid temperature difference controller - Google Patents
A kind of fluid temperature difference controller Download PDFInfo
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- CN108155725A CN108155725A CN201810069993.6A CN201810069993A CN108155725A CN 108155725 A CN108155725 A CN 108155725A CN 201810069993 A CN201810069993 A CN 201810069993A CN 108155725 A CN108155725 A CN 108155725A
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J50/00—Circuit arrangements or systems for wireless supply or distribution of electric power
- H02J50/10—Circuit arrangements or systems for wireless supply or distribution of electric power using inductive coupling
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Abstract
The present invention relates to a kind of fluid temperature difference controllers.It includes:Output unit, including output framework and the reflux coil being set on the output framework and vacuum frequency coil, the iron core of the reflux coil and vacuum frequency coil is permanent magnet cored iron body, the coil that flows back handles electric current by flowing through the vacuum frequency coil, and the electric energy is converted to the output winding;Output unit, including output winding and liquid coil and input coil, the iron core of the input coil and output winding and liquid coil is permanent magnet, the energy of the liquid coil is used with induction electric energy supply vacuum frequency coil with the electric energy supply output winding of vacuum frequency coil with the energy resource supply component of output winding.Beneficial effects of the present invention are:This fluid temperature difference controller when in use, for that can be used with vacuum and liquid energy system transform with polarization fluid energy system and transmission fluid electric energy and power with vigor and the variation of density energy source system, reaches the system variation use of control fluid temperature difference density energy source.
Description
Technical field
The invention belongs to electronic technology fields, and in particular to a kind of fluid temperature difference controller.
Background technology
The present invention is state-of-the-art technology, is mainly used for the control of vacuum liquid energy system and polarized spatial fluid force energy and frequency
Rate and vigor energy system and control fluid density and transmission region density electric energy and the variation of positive and negative energy system are used and are used for
With vacuum and liquid energy system transform and polarization fluid energy system and transmission fluid electric energy and power energy and vigor and density energy
Source system variation uses, and reaches the system variation of control fluid temperature difference density energy source and uses.
Invention content
Use vacuum and liquid energy system polarized spatial fluid electric energy and power can be with frequency and density and vigor to reach
Energy system and control fluid density and transmission space regional fluid density power can become with electric energy and frequency and density energy source system
The best use effect of change, the present invention provides a kind of fluid temperature difference controller using this fluid temperature difference controller, for using
Vacuum liquid energy system controls and polarized spatial fluid force can be with frequency and vigor energy system and control fluid density and biography
Defeated areal concentration electric energy and the variation of positive and negative energy system use and for vacuum and liquid energy system transforms and polarization fluid
Energy system and transmission fluid electric energy and power can be used with vigor and the variation of density energy source system, reach control fluid temperature difference density
Energy system variation uses.
The technical solution adopted in the present invention is
The present invention relates to a kind of fluid temperature difference controllers.It includes:Output unit including output framework and is set to the output
The iron core of reflux coil and vacuum frequency coil on frame, the reflux coil and vacuum frequency coil is permanent magnet cored iron
Body, reflux coil handles electric current by flowing through the vacuum frequency coil, and the electric energy is converted to the output winding;It is defeated
Go out unit, including output winding and liquid coil and input coil, the input coil and the iron of output winding and liquid coil
Core is permanent magnet, and the energy of the liquid coil is with induction electric energy supply vacuum frequency coil, with the electric energy of vacuum frequency coil
Output winding is supplied to use with the energy resource supply component of output winding.
Preferably, input coil is provided on the output framework, the output framework is configured to square frame, described defeated
Enter the positive and negative sensing variation input energy sources of coil, the input coil is symmetrical relative to receiving coil and induction coil and treatment coil
Setting, positioned at liquid coil and reflux coil and vacuum frequency coil and output winding and treatment coil and induction coil and reception
In the variation magnetic field of coil and reset coil.
Preferably, be additionally provided with treatment coil on the reception frame, the variation of the treatment coil in reflux coil and
The change of liquid coil and vacuum frequency coil and output winding and induction coil and receiving coil and input coil and reset coil
To change, the treatment coil is set relative to reset coil and reflux coil and liquid coil and vacuum frequency coil edge,
Positioned at reflux coil and output winding and vacuum frequency coil and input coil and liquid coil and induction coil and receiving coil
In the variation magnetic field of reset coil.
Preferably, be additionally provided with reflux coil on the output framework, the variation of the reflux coil in treatment coil and
The change of output winding and vacuum frequency coil and liquid coil and input coil and induction coil and receiving coil and reset coil
Change, the reflux coil is set relative between treatment coil and liquid coil and vacuum frequency coil, positioned at processing line
Circle and output winding and input coil and vacuum frequency coil and liquid coil and induction coil and receiving coil and reset coil
Variation magnetic field in.
Preferably, vacuum frequency coil is additionally provided on the output framework, the variation of the vacuum frequency coil is being returned
Streamline circle and treatment coil and input coil and liquid coil and output winding and induction coil and receiving coil and reset coil
Variation, the vacuum frequency coil relative to treatment coil and reflux coil between setting and receiving coil symmetrically set
Put, positioned at reflux coil and output winding and treatment coil and liquid coil and input coil and induction coil and receiving coil and
In the variation magnetic field of reset coil.
Preferably, be additionally provided with liquid coil on the output framework, the variation of the liquid coil in treatment coil and
The variation of vacuum frequency coil and output winding and input coil and induction coil and receiving coil and reset coil, it is described
Liquid coil is symmetrical arranged relative to receiving coil and input coil and is set between treatment coil and reflux coil, positioned at output
Coil and treatment coil and reflux coil and vacuum frequency coil and input coil and receiving coil and induction coil and conversion line
In the variation magnetic field of circle.
Preferably, be additionally provided with output winding on the output framework, the variation of the output winding in reflux coil and
The change of vacuum frequency coil and input coil and liquid coil and treatment coil and induction coil and receiving coil and reset coil
Change, the output winding is symmetrical arranged relative to induction coil and receiving coil, positioned at vacuum frequency coil and liquid line
In circle and treatment coil and input coil and reflux coil and induction coil and the variation magnetic field of receiving coil and reset coil, institute
It states output winding and is exported with wirelessly exporting with wired single polarization.
Preferably, be additionally provided with induction coil on the output framework, the variation of the induction coil in input coil and
The change of output winding and treatment coil and reflux coil and liquid coil and vacuum frequency coil and receiving coil and reset coil
Change, the induction coil is symmetrically set relative to the setting of reset coil edge and output winding and receiving coil and input coil
It puts, positioned at liquid coil and output winding and treatment coil and reflux coil and input coil and vacuum frequency coil and receives line
In the variation magnetic field of circle and reset coil.
Preferably, be additionally provided with receiving coil on the output framework, the variation of the receiving coil in induction coil and
Output winding and reflux coil and treatment coil and input coil and reset coil variation, the receiving coil relative to
Induction coil and input coil and vacuum frequency coil and output winding and liquid coil and treatment coil are symmetrical arranged, positioned at place
In lineation circle and induction coil and reflux coil and output winding and the variation magnetic field of input coil and reset coil, the reception
Coil is used in conjunction with each other relative to output winding.
Preferably, be additionally provided with reset coil on the output framework, the variation of the reset coil in receiving coil and
The variation of input coil and treatment coil and reflux coil and output winding and induction coil, the reset coil relative to
It is set between induction coil and treatment coil, positioned at treatment coil and reflux coil and induction coil and input coil and receives line
In circle and output winding and the variation magnetic field of vacuum frequency coil and liquid coil.
Preferably, be additionally provided with permanent magnet on the output framework, the variation of the permanent magnet in vacuum frequency coil and
Liquid coil and output winding and input coil and treatment coil and induction coil and reflux coil and receiving coil and conversion line
The variation of circle, the permanent magnet is relative to output winding and liquid coil and vacuum frequency coil and reflux coil and reception
Setting input coil and the setting of output winding edge inside coil and treatment coil, positioned at vacuum frequency coil and output winding and
Liquid coil and treatment coil and reflux coil and input coil and induction coil and the variation magnetic of receiving coil and reset coil
In.
Beneficial effects of the present invention are:This fluid temperature difference controller when in use, for vacuum and liquid energy body
System converts and polarization fluid energy system can reach with transmission fluid electric energy and power with vigor and the variation use of density energy source system
The variation of fluid temperature difference density energy source system is controlled to use.
Description of the drawings
Fig. 1 is the schematic diagram of the fluid temperature difference controller of a preferred embodiment of the present invention
In figure:1st, stent;2nd, receiving coil;3rd, reset coil;4th, vacuum frequency coil;5th, liquid coil;6th, flow back coil;7、
Induction coil;8th, treatment coil;9th, input coil;10th, output winding.
Specific embodiment
As shown in Figure 1, fluid temperature difference controller provided by the invention, including, output unit and treatment coil and output
Unit.The fluid temperature difference controller and its various pieces of the present invention will be described in detail belows.
As shown in Figure 1, output unit includes output framework 1 and the input coil 9 being set on output framework 1 and receives line
Circle 2 and vacuum frequency coil 4 and output winding 10 and treatment coil 8 mutually side by side, the iron core of output winding 10 and receiving coil 2 and
The iron core of input coil 9 is permanent magnet, and the energy that input coil 9 and receiving coil 2 are inputted and received flows through vacuum frequency coil 4
It will be at energy system and electric energy system with reflux coil 6 and treatment coil 8 and liquid coil 5 and induction coil 7 and reset coil 3
Combination of transmitted is managed to output winding 10.
As first preferred embodiment of output unit, as shown in Figure 1, input coil 9 is provided on output framework 1,
The output framework 1 is configured to square frame, the positive and negative sensing variation input energy sources of input coil 9,9 phase of input coil
Receiving coil 2 and induction coil 7 and treatment coil 8 are symmetrical arranged, positioned at liquid coil 5 and reflux coil 6 and vacuum frequency
In rate coil 4 and output winding 10 and treatment coil 8 and induction coil 7 and the variation magnetic field of receiving coil 2 and reset coil 3.
Second preferred embodiment is on the basis of first preferred embodiment, as shown in Figure 1, on output framework 1 also
It is provided with treatment coil 8, the variation of the treatment coil 8 is in reflux coil 6 and liquid coil 5 and vacuum frequency coil 4 and defeated
Go out the variation of coil 10 and induction coil 7 and receiving coil 2 and input coil 9 and reset coil 3, the treatment coil 8
Relative to reset coil 3 and reflux coil 6 and liquid coil 5 and the setting of 4 edge of vacuum frequency coil, positioned at reflux 6 He of coil
Output winding 10 and vacuum frequency coil 4 and input coil 9 and liquid coil 5 and induction coil 7 and receiving coil 2 and conversion line
In the variation magnetic field of circle 3.
Third preferred embodiment is on the basis of second preferred embodiment, as shown in Figure 1, on output framework 1 also
Reflux coil 6 is provided with, the variation of the reflux coil 6 is in treatment coil 8 and output winding 10 and vacuum frequency coil 4 and liquid
The variation of body coil 5 and input coil 9 and induction coil 7 and receiving coil 2 and reset coil 3, reflux 6 phase of coil
For being set between treatment coil 8 and liquid coil 5 and vacuum frequency coil 4, positioned at treatment coil 8 and output winding 10 and defeated
Enter coil 9 and vacuum frequency coil 4 and liquid coil 5 and induction coil 7 and the variation magnetic field of receiving coil 2 and reset coil 3
In.
4th preferred embodiment is on the basis of third preferred embodiment, as shown in Figure 1, on output framework 1 also
Vacuum frequency coil 4 is provided with, the variation of the vacuum frequency coil 4 is in reflux coil 6 and treatment coil 8 and input coil 9
With the variation of liquid coil 5 and output winding 10 and induction coil 7 and receiving coil 2 and reset coil 3, the vacuum frequency
Rate coil 4 is symmetrical arranged relative to setting and receiving coil 2 between treatment coil 8 and reflux coil 6, positioned at reflux 6 He of coil
Output winding 10 and treatment coil 8 and liquid coil 5 and input coil 9 and induction coil 7 and receiving coil 2 and reset coil 3
Variation magnetic field in.
5th preferred embodiment is on the basis of the 4th preferred embodiment, as shown in Figure 1, on output framework 1 also
It is provided with liquid coil 5, the variation of the liquid coil 5 is in treatment coil 8 and vacuum frequency coil 4 and output winding 10 and defeated
Enter the variation of coil 9 and induction coil 7 and receiving coil 2 and reset coil 3, the liquid coil 5 is relative to reception line
It encloses 2 and input coil 9 is symmetrical arranged and treatment coil 8 is set with 6 edge of reflux coil, positioned at output winding 10 and treatment coil
8 and reflux coil 6 and vacuum frequency coil 4 and input coil 9 and receiving coil 2 and induction coil 7 and reset coil 3 variation
In magnetic field.
6th preferred embodiment is on the basis of the 5th preferred embodiment, as shown in Figure 1, on output framework 1 also
Output winding 10 is provided with, the variation of the output winding 10 is in reflux 9 He of coil 6 and vacuum frequency coil 4 and input coil
The variation of liquid coil 5 and treatment coil 8 and induction coil 7 and receiving coil 2 and reset coil 3, the output winding
10 are symmetrical arranged relative to induction coil 7 and receiving coil 2, positioned at vacuum frequency coil 4 and liquid coil 5 and treatment coil 8
In input coil 9 and reflux coil 6 and induction coil 7 and the variation magnetic field of receiving coil 2 and reset coil 3, the output
Coil 10 is exported with wirelessly exporting with wired single polarization.
7th preferred embodiment is on the basis of the 6th preferred embodiment, as shown in Figure 1, on output framework 1 also
Induction coil 7 is provided with, the variation of the induction coil 7 is in input coil 9 and output winding 10 and treatment coil 8 and return wire
The variation of circle 6 and liquid coil 5 and vacuum frequency coil 4 and receiving coil 2 and reset coil 3,7 phase of induction coil
The setting of 3 edge of reset coil and output winding 10 and receiving coil 2 and input coil 9 are symmetrical arranged, positioned at liquid coil 5
With output winding 10 and treatment coil 8 and reflux coil 6 and input coil 9 and vacuum frequency coil 4 and receiving coil 2 and conversion
In the variation magnetic field of coil 3.
8th preferred embodiment is on the basis of the 7th preferred embodiment, as shown in Figure 1, on output framework 1 also
Receiving coil 2 is provided with, the variation of the receiving coil 2 is in induction coil 7 and output winding 10 and reflux coil 6 and processing line
The variation of circle 8 and input coil 9 and reset coil 3, the receiving coil 2 is relative to 9 He of induction coil 3 and input coil
Vacuum frequency coil 4 and output winding 10 and liquid coil 5 and treatment coil 8 are symmetrical arranged, positioned at treatment coil 8 and the line of induction
In circle 7 and reflux coil 6 and output winding 10 and the variation magnetic field of input coil 9 and reset coil 3,2 phase of receiving coil
Output winding 10 is used in conjunction with each other.
9th preferred embodiment is on the basis of the 8th preferred embodiment, as shown in Figure 1, on output framework 1 also
Reset coil 3 is provided with, the variation of the reset coil 3 is in receiving coil 2 and input coil 9 and treatment coil 8 and return wire
The variation of circle 6 and output winding 10 and induction coil 7, the reset coil 3 is relative to induction coil 7 and treatment coil 8
Between set, positioned at treatment coil 8 and reflux coil 6 and induction coil 7 and input coil 9 and receiving coil 2 and output winding
10 and the variation magnetic field of vacuum frequency coil 4 and liquid coil 5 in.
Tenth preferred embodiment is on the basis of the 9th preferred embodiment, as shown in Figure 1, on output framework 1 also
Permanent magnet 3 or 4 or 5 or 6 or 8 or 9 or 10 is provided with, the variation of the permanent magnet 3 or 4 or 5 or 6 or 8 or 9 or 10 is in vacuum frequency
Rate coil 4 and liquid coil 5 and output winding 10 and input coil 9 and treatment coil 8 and induction coil 7 and reflux 6 He of coil
The variation of receiving coil 2 and reset coil 3, the permanent magnet 3 or 4 or 5 or 6 or 8 or 9 or 10 is relative to output winding 10
With liquid coil 5 and vacuum frequency coil 4 and reflux coil 6 and receiving coil 2 and 8 inside setting input coil 9 for the treatment of coil
It sets with 10 edge of output winding, positioned at vacuum frequency coil 4 and output winding 10 and liquid coil 5 and treatment coil 8 and returns
In streamline circle 6 and input coil 9 and induction coil 7 and the variation magnetic field of receiving coil 2 and reset coil 3.
It can be referred to as the operation principle of the fluid temperature difference controller of the tenth preferred embodiment as a result, as follows.
When input coil 9 and receiving coil 2 input and receive the energy, thus 9 receiving coil of input coil, 2 surrounding exists
Changing magnetic field is arranged on by input coil 9 and receiving coil 2 around vacuum frequency coil 4, so vacuum frequency coil 4
Coil in generate corresponding sensing electric current, faradic size and Orientation is big with the electric current of input coil 9 and receiving coil 2
The small variation generated with direction is identical.Similarly, the energy that input coil 9 and receiving coil 2 are inputted and received by magnetic field according to
It is secondary from reflux coil 6 and vacuum frequency coil 4 and treatment coil 8 and liquid coil 5 and induction coil 7 and reset coil 3 and defeated
Go out the utilization of coil 10 electric energy is identical with power energy system and coil in the magnetic intensity of permanent magnetism iron core be used for the vacuum liquid energy
System controls and polarized spatial fluid force can be with frequency and vigor energy system and control fluid density and transmission region density electricity
Can and the variation of positive and negative energy system use and for vacuum and liquid energy system transform and polarization fluid energy system and biography
Transporting fluid electric energy and power can be used with vigor and the variation of density energy source system, reach the system variation of control fluid temperature difference density energy source
It uses.
The present invention is not limited to above-mentioned preferred forms, anyone can obtain other various forms under the enlightenment of the present invention
Product, it is every that there is technical side identical or similar to the present application however, make any variation in its shape or structure
Case is within the scope of the present invention.
Claims (10)
1. a kind of fluid temperature difference controller, including:Output unit including output framework and is set on the output framework
Flow back coil and vacuum frequency coil, and the iron core of the reflux coil and vacuum frequency coil is permanent magnet cored iron body, reflux
Coil handles electric current by flowing through the vacuum frequency coil, and the electric energy is converted to the output winding;Output unit,
Including output winding and liquid coil and input coil, the input coil and the iron core of output winding and liquid coil are permanent magnetism
Body, the energy of the liquid coil supply output with induction electric energy supply vacuum frequency coil with the electric energy of vacuum frequency coil
Coil is used with the energy resource supply component of output winding.
2. fluid temperature difference controller according to claim 1, which is characterized in that be provided with input line on the output framework
Circle, the output framework are configured to square frame, the positive and negative sensing variation input energy sources of input coil, the input coil phase
Receiving coil and induction coil and treatment coil are symmetrical arranged, positioned at liquid coil and reflux coil and vacuum frequency coil
In output winding and treatment coil and the variation magnetic field of induction coil and receiving coil and reset coil.
3. fluid temperature difference controller according to claim 2, which is characterized in that processing is additionally provided on the output framework
Coil, the variation of the treatment coil is in reflux coil and liquid coil and vacuum frequency coil and output winding and induction coil
With the variation of receiving coil and input coil and reset coil, the treatment coil is relative to reset coil and reflux coil
It is symmetrical arranged with liquid coil and the setting of vacuum frequency coil edge and receiving coil, positioned at reflux coil and output winding and very
In null tone rate coil and input coil and liquid coil and induction coil and the variation magnetic field of receiving coil and reset coil.
4. the fluid temperature difference controller according to Claims 2 or 3, which is characterized in that be additionally provided on the output framework
Flow back coil, and the variation of the reflux coil is in treatment coil and output winding and vacuum frequency coil and liquid coil and input
The variation of coil and induction coil and receiving coil and reset coil, the reflux coil is relative to treatment coil and liquid
It is set between coil and vacuum frequency coil, positioned at treatment coil and output winding and input coil and vacuum frequency coil and liquid
In body coil and the variation magnetic field of induction coil and receiving coil and reset coil.
5. the fluid temperature difference controller according to Claims 2 or 3 or 4, which is characterized in that also set up on the output framework
There is vacuum frequency coil, the variation of the vacuum frequency coil is in reflux coil and treatment coil and input coil and liquid coil
With the variation of output winding and induction coil and receiving coil and reset coil, the vacuum frequency coil is relative to processing
Setting and receiving coil are symmetrical arranged between coil and reflux coil, positioned at reflux coil and output winding and treatment coil and liquid
In body coil and input coil and induction coil and the variation magnetic field of receiving coil and reset coil.
6. the fluid temperature difference controller according to Claims 2 or 3 or 4 or 5, which is characterized in that on the output framework also
Liquid coil is provided with, the variation of the liquid coil is in treatment coil and vacuum frequency coil and output winding and input coil
With the variation of induction coil and receiving coil and reset coil, the liquid coil is relative to receiving coil and input coil
It is symmetrical arranged and is set between treatment coil and reflux coil, positioned at output winding and treatment coil and reflux coil and vacuum frequency
In rate coil and input coil and receiving coil and the variation magnetic field of induction coil and reset coil.
7. according to the fluid temperature difference controller described in Claims 2 or 3 or 4 or 5 or 6, which is characterized in that on the output framework
Output winding is additionally provided with, the variation of the output winding is in reflux coil and vacuum frequency coil and input coil and liquid line
The variation of circle and treatment coil and induction coil and receiving coil and reset coil, the output winding is relative to the line of induction
Circle and receiving coil are symmetrical arranged, positioned at vacuum frequency coil and liquid coil and treatment coil and input coil and reflux coil
With in the variation magnetic field of induction coil and receiving coil and reset coil, the output winding is wirelessly to export and wired single polarization
Output.
8. according to the fluid temperature difference controller described in Claims 2 or 3 or 4 or 5 or 6 or 7, which is characterized in that the output
Induction coil is additionally provided on frame, the variation of the induction coil is in input coil and output winding and treatment coil and reflux
The variation of coil and liquid coil and vacuum frequency coil and receiving coil and reset coil, the induction coil relative to
Reset coil edge is set to be symmetrical arranged with output winding and receiving coil and input coil, positioned at liquid coil and output winding
In treatment coil and reflux coil and input coil and vacuum frequency coil and the variation magnetic field of receiving coil and reset coil.
9. according to the fluid temperature difference controller described in Claims 2 or 3 or 4 or 5 or 6 or 7 or 8, which is characterized in that described defeated
Go out and receiving coil is additionally provided on frame, the variation of the receiving coil is at induction coil and output winding and reflux coil and place
The variation of lineation circle and input coil and reset coil, the receiving coil is relative to induction coil and input coil and very
Null tone rate coil and output winding and liquid coil and treatment coil are symmetrical arranged, positioned at treatment coil and induction coil and reflux
In coil and the variation magnetic field of output winding and input coil and reset coil, the receiving coil is mutual relative to output winding
It is used cooperatively.
10. according to the fluid temperature difference controller described in Claims 2 or 3 or 4 or 5 or 6 or 7 or 8 or 9, which is characterized in that institute
It states and reset coil is additionally provided on output framework, the variation of the reset coil is in receiving coil and input coil and treatment coil
With the variation of reflux coil and output winding and induction coil, the reset coil is relative to induction coil and treatment coil
Between set, positioned at treatment coil and reflux coil and induction coil and input coil and receiving coil and output winding and vacuum
In the variation magnetic field of frequency coil and liquid coil.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810069993.6A CN108155725A (en) | 2018-01-24 | 2018-01-24 | A kind of fluid temperature difference controller |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201810069993.6A CN108155725A (en) | 2018-01-24 | 2018-01-24 | A kind of fluid temperature difference controller |
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Publication Number | Publication Date |
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CN108155725A true CN108155725A (en) | 2018-06-12 |
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CN201810069993.6A Pending CN108155725A (en) | 2018-01-24 | 2018-01-24 | A kind of fluid temperature difference controller |
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2018
- 2018-01-24 CN CN201810069993.6A patent/CN108155725A/en active Pending
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