CN109730376A - Air-conditioned clothes - Google Patents
Air-conditioned clothes Download PDFInfo
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- CN109730376A CN109730376A CN201811577979.3A CN201811577979A CN109730376A CN 109730376 A CN109730376 A CN 109730376A CN 201811577979 A CN201811577979 A CN 201811577979A CN 109730376 A CN109730376 A CN 109730376A
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
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- Professional, Industrial, Or Sporting Protective Garments (AREA)
- Laminated Bodies (AREA)
Abstract
The invention discloses a kind of air-conditioned clothes, belong to air-conditioned clothes field, including garment body, electrostatic field electromagnetic layer is provided in the garment body, the side of the electrostatic field electromagnetic layer is sticked and has heat source aluminium layer, the other side of the electrostatic field electromagnetic layer, which is sticked, cold source aluminium layer, and the heat source aluminium layer is arranged close to human skin side, and the cold source aluminium layer is sticked in the fabric outer layer of the garment body.In the present solution, electrostatic field electromagnetic layer needs to attach during the work time heat source aluminium layer and cold source aluminium layer repeatedly by electrostatic force, heat source aluminium layer is bonded human skin surface, reduces shell temperature;Cold source aluminium layer is bonded garment material outer layer, radiates into air, and then the refrigeration of air-conditioned clothes is realized by the galvanomagnetic-effect of electrostatic field, refrigerant is not needed, compressor-free, it is light, inexpensive and environmentally friendly there is no the Caton problem of the compressor multi-angle offset with personnel's multi-pose.
Description
Technical field
The present invention relates to air-conditioned clothes technical field, in particular to a kind of air-conditioned clothes.
Background technique
Currently, the open works person such as fireman, millworker and traffic police, environmental sanitation worker can not in summer operation
Effective air-conditioning temperature-reducing environment is provided for it, so that it is endured high temperature and is scorched to boil in a covered pot over a slow fire with sweat and steams, seriously affect working condition and work
Efficiency, hot environment also seriously affect the health of staff.
Existing air-conditioned clothes rely on traditional Vapor Compression Refrigeration Cycle, and manufacturing cost is high, wear heavy uncomfortable inconvenience
Victory, and there are problems that the Caton deviated with the compressor multi-angle of personnel's multi-pose.
Summary of the invention
The embodiment of the invention provides a kind of air-conditioned clothes, at least to solve one of the technical problems existing in the prior art.
In order to which some aspects of the embodiment to disclosure have a basic understanding, simple summary is shown below.The summarized section
It is not extensive overview, nor to determine key/critical component or describe the protection scope of these embodiments.Its unique mesh
Be that some concepts are presented with simple form, in this, as the preamble of following detailed description.
One side according to an embodiment of the present invention provides a kind of air-conditioned clothes;
In some optional embodiments, the air-conditioned clothes include;Garment body is provided with electrostatic field in the garment body
Electromagnetic layer, the side of the electrostatic field electromagnetic layer, which is sticked, heat source aluminium layer, the other side of the electrostatic field electromagnetic layer be sticked have it is cold
Source aluminium layer, the heat source aluminium layer are arranged close to human skin side, and the cold source aluminium layer is sticked outside the fabric of the garment body
Layer.
In some optional embodiments, further, the electrostatic field electromagnetic layer includes electrostatic polymer layer, the cold source aluminium
The first silver nanowires, which is disposed with, between layer and the electrostatic polymer layer is impregnated with layer and the first polyimide film layer, the heat
Heat flow transducer is disposed between source aluminium layer and the electrostatic polymer layer, the second silver nanowires is impregnated with layer and the second polyamides is sub-
Amine film layer, wherein the lateral surface pad of first polyimide film layer and the first end of the electrostatic polymer layer is equipped with Asia
Gram force gasket, the lateral surface of the second end of the electrostatic polymer layer are bonded with first polyimide film layer;Described second
The medial surface pad of polyimide film layer and the second end of the electrostatic polymer layer is equipped with acrylic gasket, the electrostatic polymer layer
First end be bonded with second polyimide film layer.
In some optional embodiments, further, the cold source aluminium layer is impregnated with layer with first silver nanowires and passes through
Kapton Tape is mutually bonded.
In some optional embodiments, further, it is logical to be impregnated with layer for the heat flow transducer and second silver nanowires
Kapton Tape is crossed mutually to be bonded.
In some optional embodiments, further, it is poly- to be respectively greater than described first for the thickness of the Kapton Tape
The thickness of imide membrane layer and second polyimide film layer.
In some optional embodiments, further, first silver nanowires is impregnated with the poly- with a thickness of described first of layer
The 1/4 to 1/2 of the thickness of imide membrane layer.
In some optional embodiments, further, second silver nanowires is impregnated with the poly- with a thickness of described second of layer
The 1/4 to 1/2 of the thickness of imide membrane layer.
In some optional embodiments, further, first polyimide film layer with a thickness of the cold source aluminium
The 1/3 to 1/2 of the thickness of layer.
In some optional embodiments, further, second polyimide film layer with a thickness of the heat source aluminium
The 1/3 to 1/2 of the thickness of layer.
In some optional embodiments, further, the electrostatic polymer layer includes carbon nanotube electrode layer and electric heating effect
High molecular polymer film layer is answered, the carbon nanotube electrode layer and electrocaloric effect high molecular polymer film layer intersect and set
It sets.
Technical solution provided in an embodiment of the present invention can include the following benefits:
Electrostatic field electromagnetic layer is provided in garment body, the side of the electrostatic field electromagnetic layer, which is sticked, heat source aluminium layer, institute
The other side for stating electrostatic field electromagnetic layer, which is sticked, cold source aluminium layer, and the heat source aluminium layer is arranged close to human skin side, the cold source
Aluminium layer is sticked in the fabric outer layer of the garment body, is not necessarily to refrigerant by electrostatic refrigeration air-conditioner clothing, is to utilize electrostatic field
Galvanomagnetic-effect generate cooling capacity refrigeration modes, energy consumption is less, and cruising ability is strong, in addition, electrostatic refrigeration air-conditioned clothes manufacture at
This is lower, is conducive to marketing, meanwhile, the lighter in weight of electrostatic refrigeration air-conditioner clothing, personnel's dress is flexibly convenient, and air-conditioned clothes are realized
Orientation is quantitative, and compared to spatiality air conditioner, energy-saving and emission-reduction are cheap to body temperature lowering, thoroughly eliminate compressor angle offset
Caton problem, and the refrigerant hoses connector leakage problem easily occurred.
It should be understood that above general description and following detailed description be only it is exemplary and explanatory, not
It can the limitation present invention.
Detailed description of the invention
The drawings herein are incorporated into the specification and forms part of this specification, and shows and meets implementation of the invention
Example, and be used to explain the principle of the present invention together with specification.
Fig. 1 is a kind of partial structural diagram of the garment body of air-conditioned clothes shown according to an exemplary embodiment;
Fig. 2 is a kind of partial structural diagram of the garment body of the air-conditioned clothes shown according to another exemplary embodiment;
Fig. 3 is voltage change in a kind of course of work of the garment body of air-conditioned clothes shown according to an exemplary embodiment
Structural schematic diagram;
Fig. 4 is voltage change in a kind of course of work of the garment body of air-conditioned clothes shown according to an exemplary embodiment
Structural schematic diagram;
Fig. 5 is a kind of structural schematic diagram of the electrostatic polymer layer of air-conditioned clothes shown according to an exemplary embodiment;
Fig. 6 is the thermally conductive variation schematic diagram in a kind of course of work of air-conditioned clothes shown according to an exemplary embodiment.
Appended drawing reference:
10- electrostatic field electromagnetic layer;101- electrostatic polymer layer;102- carbon nanotube electrode layer;103- electrocaloric effect macromolecule
Polymer film layer;The first silver nanowires of 11- is impregnated with layer;The first polyimide film layer of 12-;The second silver nanowires of 13- is impregnated with
Layer;The second polyimide film layer of 14-;15- heat flow transducer;16- acrylic gasket;17- Kapton Tape;20- heat source
Aluminium layer;30- cold source aluminium layer.
Specific embodiment
The following description and drawings fully show specific embodiments of the present invention, to enable those skilled in the art to
Practice them.Other embodiments may include structure, logic, it is electrical, process and other change.Embodiment
Only represent possible variation.Unless explicitly requested, otherwise individual components and functionality is optional, and the sequence operated can be with
Variation.The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.This hair
The range of bright embodiment includes equivalent obtained by the entire scope of claims and all of claims
Object.Herein, each embodiment individually or can be indicated generally with term " invention ", and it is convenient that this is used for the purpose of,
And if in fact disclosing the invention more than one, the range for being not meant to automatically limit the application is any single invention
Or inventive concept.Herein, relational terms such as first and second and the like be used only for by an entity or operation with
Another entity or operation distinguish, and without requiring or implying, there are any actual relationships between these entities or operation
Or sequence.Moreover, the terms "include", "comprise" or any other variant thereof is intended to cover non-exclusive inclusion, thus
So that process, method or equipment including a series of elements not only include those elements, but also including being not explicitly listed
Other element, or further include for this process, method or the intrinsic element of equipment.In the feelings not limited more
Under condition, the element that is limited by sentence "including a ...", it is not excluded that in process, method or equipment including the element
In there is also other identical elements.Each embodiment herein is described in a progressive manner, and each embodiment stresses
Be the difference from other embodiments, the same or similar parts in each embodiment may refer to each other.For implementing
For method, product etc. disclosed in example, since it is corresponding with method part disclosed in embodiment, so the comparison of description is simple
Single, reference may be made to the description of the method.
According to a first aspect of the embodiments of the present invention, a kind of air-conditioned clothes are provided;
As shown in figs 1 to 6, in some optional embodiments, the air-conditioned clothes include;Garment body, the garment body
On be provided with electrostatic field electromagnetic layer 10, the side of the electrostatic field electromagnetic layer 10, which is sticked, heat source aluminium layer 20, electrostatic field electricity
The other side of magnetosphere 10, which is sticked, cold source aluminium layer 30, and the heat source aluminium layer 20 is arranged close to human skin side, the cold source aluminium layer
30 are sticked in the fabric outer layer of the garment body.
In this embodiment, electrostatic field electromagnetic layer 10 needs to attach heat source aluminium layer repeatedly by electrostatic force during the work time
20 and cold source aluminium layer 30, when attaching heat source, 10 temperature of electrostatic field electromagnetic layer is lower, and cooling capacity is transmitted to heat source, such as human body;It attaches cold
When source, 10 temperature of electrostatic field electromagnetic layer is higher, and heat is transmitted to cold source, such as air.Heat source aluminium layer 20 is bonded human skin surface,
Reduce shell temperature;Cold source aluminium layer 30 is bonded garment material outer layer, the galvanomagnetic-effect for radiating into air, and then passing through electrostatic field
The refrigeration for realizing air-conditioned clothes does not need refrigerant, and compressor-free, there is no the compressor multi-angle offsets with personnel's multi-pose
Caton problem, it is light, inexpensive and environmentally friendly.
In some optional embodiments, optionally, as shown in Fig. 1, Fig. 3, Fig. 4 and Fig. 6, the electrostatic field electromagnetic layer 10 is wrapped
Electrostatic polymer layer 101 is included, the leaching of the first silver nanowires is disposed between the cold source aluminium layer 30 and the electrostatic polymer layer 101
Permeable layers 11 and the first polyimide film layer 12, are disposed between the heat source aluminium layer 20 and the electrostatic polymer layer 101
Heat flow transducer 15, the second silver nanowires are impregnated with layer 13 and the second polyimide film layer 14, wherein first polyimides
The lateral surface pad of film layer 12 and the first end of the electrostatic polymer layer 101 is equipped with acrylic gasket 16, the electrostatic polymer layer
The lateral surface of 101 second end is bonded with first polyimide film layer 12;Second polyimide film layer 14 with
The medial surface pad of the second end of the electrostatic polymer layer 101 is equipped with acrylic gasket 16, the first end of the electrostatic polymer layer 101
It is bonded with second polyimide film layer 14.
In this embodiment, during the work time, when electrostatic polymer layer 101 attaches cold source aluminium layer 30, electrostatic polymer layer 101
Gradually arranged regular, voltage increase fever (no current) to internal electron, and temperature is higher, and heat is transmitted to cold source, such as air;Later
The decline of 101 temperature of electrostatic polymer layer, attaches heat source aluminium layer 20, and 101 internal electron of electrostatic polymer layer gradually arranges voltage drop in a jumble
Low heat absorption (no current), temperature is lower, absorbs heat from heat source, such as absorbs human heat, forms pulse process of refrigerastion.
On the basis of the above embodiments, optionally, as depicted in figs. 1 and 2, the cold source aluminium layer 30 and first silver medal
Nano wire is impregnated with layer 11 and is bonded by 17 phase of Kapton Tape.
In this embodiment, cold source aluminium layer 30 is impregnated with layer 11 with the first silver nanowires and is glued by 17 phase of Kapton Tape
It connects, making it, the production is simple and convenient, improves production efficiency.
In some optional embodiments, optionally, as depicted in figs. 1 and 2, the heat flow transducer 15 and second silver medal
Nano wire is impregnated with layer 13 and is bonded by 17 phase of Kapton Tape.
In this embodiment, heat source aluminium layer 20 is impregnated with layer 13 with the second silver nanowires and is glued by 17 phase of Kapton Tape
It connects, making it, the production is simple and convenient, improves production efficiency.
In some optional embodiments, optionally, as depicted in figs. 1 and 2, the thickness difference of the Kapton Tape 17
Greater than the thickness of first polyimide film layer 12 and second polyimide film layer 14, it is strong to improve its connection
Degree.
In some optional embodiments, optionally, as depicted in figs. 1 and 2, first silver nanowires is impregnated with the thickness of layer 11
Degree is the 1/4 to 1/2 of the thickness of first polyimide film layer 12.
Optionally, second silver nanowires is impregnated with the thickness with a thickness of second polyimide film layer 14 of layer 13
1/4 to 1/2.
In this embodiment, such setting is conducive to the heating conduction that silver nanowires is impregnated with layer.
In some optional embodiments, optionally, as depicted in figs. 1 and 2, the thickness of first polyimide film layer 12
Degree is the 1/3 to 1/2 of the thickness of the cold source aluminium layer 30.
Optionally, the 1/3 to 1/ of the thickness with a thickness of the heat source aluminium layer 20 of second polyimide film layer 14
2。
In this embodiment, the heating conduction of the thickness setting increase aluminium layer of aluminium layer and the overall structure of garment body are strong
Degree.
In some optional embodiments, further, as shown in figure 5, the electrostatic polymer layer 101 includes carbon nanotube electricity
Pole layer 102 and electrocaloric effect high molecular polymer film layer 103, the carbon nanotube electrode layer 102 and electrocaloric effect macromolecule
Polymer film layer 103 intersects setting.
In this embodiment, electrocaloric effect high molecular polymer film layer 103 can be electrocaloric effect high molecular polymer
EC film, and then using the refrigeration modes of the galvanomagnetic-effect of electrostatic field generation cooling capacity, energy consumption is less, and cruising ability is strong.Electric energy is slow
Slow-speed turns to magnetic energy, mechanical energy, thermal energy.
In a specific embodiment, as shown in figs 1 to 6, electrostatic field electromagnetic layer is provided in the garment body
10, the side of the electrostatic field electromagnetic layer 10, which is sticked, heat source aluminium layer 20, and the other side of the electrostatic field electromagnetic layer 10 is sticked and has
Cold source aluminium layer 30, the heat source aluminium layer 20 are arranged close to human skin side, and the cold source aluminium layer 30 is sticked in the garment body
Fabric outer layer;The electrostatic field electromagnetic layer 10 includes electrostatic polymer layer 101, the cold source aluminium layer 30 and the electrostatic polymer layer
Be disposed with the first silver nanowires between 101 and be impregnated with layer 11 and the first polyimide film layer 12, the heat source aluminium layer 20 with
Heat flow transducer 15 is disposed between the electrostatic polymer layer 101, the second silver nanowires is impregnated with layer 13 and the second polyamides is sub-
Amine film layer 14, wherein the lateral surface pad of first polyimide film layer 12 and the first end of the electrostatic polymer layer 101
Equipped with acrylic gasket 16, the lateral surface of the second end of the electrostatic polymer layer 101 and first polyimide film layer 12
Fitting;The medial surface pad of second polyimide film layer 14 and the second end of the electrostatic polymer layer 101 is equipped with acrylic
Gasket 16, the first end of the electrostatic polymer layer 101 are bonded with second polyimide film layer 14, the cold source aluminium layer 30
, the heat flow transducer 15 and described second mutually Nian Jie by Kapton Tape 17 that be impregnated with layer 11 with first silver nanowires
Silver nanowires is impregnated with layer 13 and is bonded by 17 phase of Kapton Tape, as shown in fig. 6, during the work time, electrostatic polymer layer 101
When attaching cold source aluminium layer 30, gradually arranged regular, voltage increase fever (no current), temperature to 101 internal electron of electrostatic polymer layer
It is higher, heat is transmitted to cold source, such as air;101 temperature of electrostatic polymer layer declines later, attaches heat source aluminium layer 20, electrostatic polymerization
101 internal electron of layer gradually arrange in a jumble, and voltage reduces heat absorption (no current), and temperature is lower, absorb heat from heat source, such as absorb people
Body heat content forms pulse process of refrigerastion.
In another specific embodiment, as shown in figs 1 to 6, electrostatic field electromagnetic layer is provided in the garment body
10, the side of the electrostatic field electromagnetic layer 10, which is sticked, heat source aluminium layer 20, and the other side of the electrostatic field electromagnetic layer 10 is sticked and has
Cold source aluminium layer 30, the heat source aluminium layer 20 are arranged close to human skin side, and the cold source aluminium layer 30 is sticked in the garment body
Fabric outer layer;The electrostatic field electromagnetic layer 10 includes electrostatic polymer layer 101, the cold source aluminium layer 30 and the electrostatic polymer layer
Be disposed with the first silver nanowires between 101 and be impregnated with layer 11 and the first polyimide film layer 12, the heat source aluminium layer 20 with
Heat flow transducer 15 is disposed between the electrostatic polymer layer 101, the second silver nanowires is impregnated with layer 13 and the second polyamides is sub-
Amine film layer 14, wherein the lateral surface pad of first polyimide film layer 12 and the first end of the electrostatic polymer layer 101
Equipped with acrylic gasket 16, the lateral surface of the second end of the electrostatic polymer layer 101 and first polyimide film layer 12
Fitting;The medial surface pad of second polyimide film layer 14 and the second end of the electrostatic polymer layer 101 is equipped with acrylic
Gasket 16, the first end of the electrostatic polymer layer 101 are bonded with second polyimide film layer 14, the cold source aluminium layer 30
, the heat flow transducer 15 and described second mutually Nian Jie by Kapton Tape 17 that be impregnated with layer 11 with first silver nanowires
Silver nanowires is impregnated with layer 13 and is bonded by 17 phase of Kapton Tape, and the thickness of the Kapton Tape 17 is respectively greater than described
The thickness of first polyimide film layer 12 and second polyimide film layer 14, first silver nanowires are impregnated with layer 11
The thickness with a thickness of first polyimide film layer 12 1/2, second silver nanowires be impregnated with layer 13 with a thickness of
The 1/2 of the thickness of second polyimide film layer 14, first polyimide film layer 12 with a thickness of the cold source
The 1/3 of the thickness of aluminium layer 30, the 1/3 of the thickness with a thickness of the heat source aluminium layer 20 of second polyimide film layer 14,
Stating electrostatic polymer layer 101 includes carbon nanotube electrode layer 102 and electrocaloric effect high molecular polymer film layer 103, and the carbon is received
Mitron electrode layer 102 and electrocaloric effect high molecular polymer film layer 103 intersect setting;During the work time, electrostatic is poly-
When closing the attaching cold source aluminium layer 30 of layer 101, gradually arranged regular, voltage increase fever (no electricity to 101 internal electron of electrostatic polymer layer
Stream), temperature is higher, and heat is transmitted to cold source, such as air;101 temperature of electrostatic polymer layer declines later, attaches heat source aluminium layer 20,
101 internal electron of electrostatic polymer layer gradually arranges in a jumble, and voltage reduces heat absorption (no current), and temperature is lower, absorbs heat from heat source,
Human heat is such as absorbed, pulse process of refrigerastion is formed.
Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention., rather than its limitations;To the greatest extent
Pipe present invention has been described in detail with reference to the aforementioned embodiments, those skilled in the art should understand that: its according to
So be possible to modify the technical solutions described in the foregoing embodiments, or to some or all of the technical features into
Row equivalent replacement;And these are modified or replaceed, various embodiments of the present invention technology that it does not separate the essence of the corresponding technical solution
The range of scheme.In addition, it will be appreciated by those of skill in the art that although some embodiments described herein include other implementations
Certain features rather than other feature included by example, but the combination of the feature of different embodiments means in the present invention
Within the scope of and form different embodiments.For example, in claims above, embodiment claimed
It is one of any can in any combination mode come using.The information disclosed in the background technology section is intended only to deepen pair
The understanding of general background technology of the invention, and be not construed as recognizing or implying in any form that information composition has been this
The prior art well known to the technical staff of field.
Claims (10)
1. a kind of air-conditioned clothes, which is characterized in that including;Garment body is provided with electrostatic field electromagnetic layer, institute in the garment body
The side for stating electrostatic field electromagnetic layer, which is sticked, heat source aluminium layer, and the other side of the electrostatic field electromagnetic layer, which is sticked, cold source aluminium layer, institute
It states heat source aluminium layer to be arranged close to human skin side, the cold source aluminium layer is sticked in the fabric outer layer of the garment body.
2. air-conditioned clothes according to claim 1, which is characterized in that
The electrostatic field electromagnetic layer includes electrostatic polymer layer, is disposed between the cold source aluminium layer and the electrostatic polymer layer
First silver nanowires is impregnated with layer and the first polyimide film layer, successively sets between the heat source aluminium layer and the electrostatic polymer layer
It is equipped with heat flow transducer, the second silver nanowires is impregnated with layer and the second polyimide film layer, wherein first polyimides is thin
The lateral surface pad of film layer and the first end of the electrostatic polymer layer is equipped with acrylic gasket, the second end of the electrostatic polymer layer
Lateral surface is bonded with first polyimide film layer;The of second polyimide film layer and the electrostatic polymer layer
The medial surface pad at two ends is equipped with acrylic gasket, and the first end of the electrostatic polymer layer and second polyimide film layer are pasted
It closes.
3. air-conditioned clothes according to claim 2, which is characterized in that
It is mutually be bonded by Kapton Tape that the cold source aluminium layer and first silver nanowires are impregnated with layer.
4. air-conditioned clothes according to claim 2, which is characterized in that
It is mutually be bonded by Kapton Tape that the heat flow transducer and second silver nanowires are impregnated with layer.
5. air-conditioned clothes according to claim 3 or 4, which is characterized in that
The thickness of the Kapton Tape is respectively greater than first polyimide film layer and second polyimides is thin
The thickness of film layer.
6. air-conditioned clothes according to claim 2, which is characterized in that
First silver nanowires is impregnated with the 1/4 to 1/2 of the thickness with a thickness of first polyimide film layer of layer.
7. air-conditioned clothes according to claim 2, which is characterized in that
Second silver nanowires is impregnated with the 1/4 to 1/2 of the thickness with a thickness of second polyimide film layer of layer.
8. air-conditioned clothes according to claim 6 or 7, which is characterized in that
The 1/3 to 1/2 of the thickness with a thickness of the cold source aluminium layer of first polyimide film layer.
9. air-conditioned clothes according to claim 6 or 7, which is characterized in that
The 1/3 to 1/2 of the thickness with a thickness of the heat source aluminium layer of second polyimide film layer.
10. air-conditioned clothes according to claim 2, which is characterized in that
The electrostatic polymer layer includes carbon nanotube electrode layer and electrocaloric effect high molecular polymer film layer, the carbon nanotube
Electrode layer and electrocaloric effect high molecular polymer film layer intersect setting.
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CN201811577979.3A CN109730376A (en) | 2018-12-20 | 2018-12-20 | Air-conditioned clothes |
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CN201811577979.3A CN109730376A (en) | 2018-12-20 | 2018-12-20 | Air-conditioned clothes |
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Application publication date: 20190510 |
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RJ01 | Rejection of invention patent application after publication |