CN207707341U - Novel energy-saving environment-friendly air-ventilating garments - Google Patents
Novel energy-saving environment-friendly air-ventilating garments Download PDFInfo
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- CN207707341U CN207707341U CN201721488427.6U CN201721488427U CN207707341U CN 207707341 U CN207707341 U CN 207707341U CN 201721488427 U CN201721488427 U CN 201721488427U CN 207707341 U CN207707341 U CN 207707341U
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- garment body
- cold air
- cold
- outlet end
- air
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Abstract
The utility model discloses novel energy-saving environment-friendly air-ventilating garments, including:It includes internal layer and outer layer that garment body, low-temperature receiver and heat source, which generate box and control device, garment body, and ventilation duct is furnished between internal layer and outer layer;It includes cool room and heating chamber that low-temperature receiver and heat source, which generate box, and heat shield is equipped between cool room and heating chamber;Cold-making block and heating block are respectively multiple independent P-type semiconductor blocks and N-type semiconductor block.Therefore, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, pass through ventilation duct and the control device of arranging in garment body, and N-type and P-type semiconductor heat source and low-temperature receiver generation device are set outside garment body, so as to utilize paltie effect, refrigeration and heating effect are realized respectively at N-type and P-type semiconductor both ends, and garment body is freezed or heated using ventilation tube loop and control device, adjust temperature, accurately controlling for temperature in air-ventilating garments is realized, cooling and warming efficiency is improved.
Description
Technical field
The utility model is related to garment technology field more particularly to novel energy-saving environment-friendly air-ventilating garments.
Background technology
With the increasingly raising of people's living standard, requirement of the people to various daily necessitiess is more and more, to matter of living
The requirement of amount is also higher and higher.When the temperature in summer or winter is too high or too low, outdoor activities are very inconvenient.Then provide one
Kind air-ventilating garments, provide refrigeration or the effect of heating for people open air, have important practical significance.
Traditional air-ventilating garments are rotated using small fan, into clothes in the plug-in two battery powered small fans of clothes
Air-supply.In order to improve traditional air conditioner clothes there are the problem of, air-ventilating garments in the prior art, by the way that cold-making block and heating wire is arranged,
And ventilation shaft is arranged in air-ventilating garments, through-hole is set on ventilation shaft, using cold-making block and heating wire by cold air or heat
Air inputs the ventilation shaft, with achieve the purpose that cooling or it is warming.
However, air-ventilating garments in the prior art, are freezed and are made using two kinds of independent devices of cold-making block and heating wire
Heat, and cold air or hot-air are input in clothes using the ventilation shaft with through-hole, realize surface cooling or warming.And
Cold-making block will will produce a large amount of waste heat during the work time, in no any heat dissipation equipment, it will largely effect on refrigeration effect
Rate.
Utility model content
The utility model embodiment provides novel energy-saving environment-friendly air-ventilating garments, solves novel energy-conserving ring in the prior art
Protect the problem of air-ventilating garments refrigerating efficiency difference.
The novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, including:Garment body, low-temperature receiver and heat source generate
Box and control device, garment body include internal layer and outer layer, and ventilation duct, and garment body back side bottom are furnished between internal layer and outer layer
The first cold air input end, the first cold air outlet end, the first hot air intake end and the first heat outlet of ventilation duct is respectively set in end
End;It includes cool room and heating chamber that low-temperature receiver and heat source, which generate box, and heat shield is equipped between cool room and heating chamber, and refrigeration is indoor
Heat shield is equipped with cold-making block, heats indoor heat shield and is equipped with heating block;Freeze locular wall be equipped with the second cold air outlet end,
Second cold air input end and the first ventilation opening, heating locular wall are equipped with the second heat outlet end, the second hot air intake end and second
Ventilation opening is connected between the first cold air input end and the second cold air outlet end by cold air delivery pipe, the first cold air outlet end with
It is connected to by cold air loopback pipe between second cold air input end, passes through heat between the first hot air intake end and the second heat outlet end
Letter shoot is connected between the first heat outlet end and the second hot air intake end by hot gas loopback pipe, the second cold air outlet end
And second exhaust fan at heat outlet end, cold-making block and heating block are respectively multiple independent P-type semiconductor blocks and N-type semiconductor
Block, and electrically connected successively between multiple P-type semiconductor blocks and N-type semiconductor block;Control device includes singlechip chip and temperature
Sensor is embedded with touch display screen outside singlechip chip, and temperature sensor is set in garment body, singlechip chip respectively with
Temperature sensor, cold-making block and heating block electrically connect.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, cold-making block and heating block are equipped with
Aluminium flake.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, ventilation duct are in garment body
Netted arrangement.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, the first ventilation opening and the second ventilation
Draft fan is set at mouthful.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, low-temperature receiver and heat source generate the box back side
Equipped with the bandage or hook for fixed bin body.
To sum up, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides are logical by arranging in garment body
Air hose, and N-type and P-type semiconductor heat source and low-temperature receiver generation device are set outside garment body, and meanwhile it is nested in garment body
Control device realizes refrigeration and heating effect respectively so as to utilize paltie effect in N-type and P-type semiconductor both ends, and
Garment body is freezed or heated using ventilation tube loop and control device, adjusts air-ventilating garments temperature, realizes air-ventilating garments
Interior temperature accurately controls, and improves cooling and warming efficiency.
Description of the drawings
Fig. 1 is the structural schematic diagram for the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides.
Reference sign:100- garment bodies, 101- ventilation ducts, 102- the first cold air input ends, the first cold air of 103-
Outlet end, the first hot air intakes of 104- end, the first heat outlets of 105- end, 200- low-temperature receivers and heat source generation box, 201- cool rooms,
The second cold air outlets of 201a- end, 201b- the second cold air input ends, the first ventilation openings of 201c-, 202- heating chambers, 202a- second
Heat outlet end, the second hot air intakes of 202b- end, the second ventilation openings of 202c-, 203- heat shields, 204- cold-making blocks, 205- heatings
Block, 206- cold air delivery pipes, 207- cold air loopback pipes, 208- hot gas delivery pipes, 209- hot gas loopback pipes, 200a- exhaust fans,
200b- aluminium flakes, 300- control devices, 301- singlechip chips, 302- temperature sensors.
Specific implementation mode
With reference to the attached drawing in the utility model, the technical solution of the utility model embodiment is carried out clear, complete
Description, it is clear that described embodiment is a part of the embodiment of the utility model, rather than whole embodiments.Based on this
Embodiment in utility model, those of ordinary skill in the art are obtained all without making creative work
Other embodiment should all belong to the range of the utility model protection.
For the ease of understanding and illustrating, the novel energy-conserving of the utility model embodiment offer is described in detail below by Fig. 1
Environment-friendly air conditioner takes.Fig. 1 show the structural schematic diagram of the novel energy-saving environment-friendly air-ventilating garments of the utility model embodiment offer.Such as figure
Shown in 1, which may include:
Garment body 100, low-temperature receiver and heat source generate box 200 and control device 300, and garment body 100 is including internal layer and outside
Layer, is furnished with ventilation duct 101 between internal layer and outer layer, and the first cold of ventilation duct 101 is respectively set in 100 back side bottom end of garment body
Gas input end 102, the first cold air outlet end 103, the first hot air intake end 104 and the first heat outlet end 105;Low-temperature receiver and heat source
It includes cool room 201 and heating chamber 202 to generate box 200, and heat shield 203, refrigeration are equipped between cool room 201 and heating chamber 202
Heat shield 203 in room 201 is equipped with cold-making block 204, and the heat shield 203 in heating chamber 202 is equipped with heating block 205;Refrigeration
201 wall of room is equipped with the second cold air outlet end 201a, the second cold air input end 201b and the first ventilation opening 201c, heating chamber 202
Wall is equipped with the second heat outlet end 202a, the second hot air intake end 202b and the second ventilation opening 202c, the first cold air input end
It is connected to by cold air delivery pipe 206 between 102 and the second cold air outlet end 201a, the first cold air outlet end 103 and the second cold air
It is connected to by cold air loopback pipe 207 between input end 201b, between the first hot air intake end 104 and the second heat outlet end 202a
By hot gas delivery pipe 208, pass through hot gas loopback pipe 209 between the first heat outlet end 105 and the second hot air intake end 202b
Exhaust fan 200a at connection, the second cold air outlet end 201a and the second heat outlet end 202a, cold-making block 204 and heating block 205
Respectively multiple independent P-type semiconductor blocks and N-type semiconductor block, and between multiple P-type semiconductor blocks and N-type semiconductor block according to
It is secondary to electrically connect;Control device 300 includes singlechip chip 301 and temperature sensor 302, is embedded with outside singlechip chip 301 tactile
Touch display screen, temperature sensor 302 is set in garment body 100, singlechip chip 301 respectively with temperature sensor 302, refrigeration
Block 204 and heating block 205 electrically connect.
Specifically, the utility model embodiment provide novel energy-saving environment-friendly air-ventilating garments, may include garment body 100,
Low-temperature receiver and heat source generate box 200 and control device 300.The garment body 100 can be made of internal layer and outer layer, ectonexine it
Between can arrange ventilation duct 101.It should be understood that 101 specific arrangement mode of ventilation duct can there are many, no matter and using which kind of row
Four 101 ports of ventilation duct can be arranged in cloth on the bottom edge of garment body 100, that is, include being exposed at 100 back side of garment body
Bottom edge at the first cold air input end 102, the first cold air outlet end 103, the first hot air intake end 104 and the first heat outlet
End 105, the first cold air input end 102 and the first hot air intake end 104 are used for connecting low-temperature receiver and heat source generate conveyed on box 200 it is cold
The delivery pipe of air and hot-air conveys cold air and hot-air with the ventilation duct 101 into garment body 100, and utilizes the
Air circulation in ventilation duct in garment body 100 is transmitted back to low-temperature receiver by one cold air outlet end 103 and the first heat outlet end 105
And heat source generates box.Low-temperature receiver and heat source, which generate box 200, can be arranged a cool room 201 and heating chamber 202, in cool room 201
And a heat shield 203 is set between heating chamber 202, and cold-making block 204 is set on the heat shield 203 in cool room 201,
Setting heating block 205 on heat shield 203 in heating chamber 202.And it is generated in low-temperature receiver and heat source and multiple lead to is set on 200 wall of box
Hole, i.e., the second cold air outlet end 201a, the second cold air input end 201b and the first ventilation opening 201c on 201 wall of cool room, system
The second heat outlet end 202a, the second hot air intake end 202b and the second ventilation opening 202c on 202 wall of hot cell.Further, may be used
It will be in cool room 201 cold air delivery pipe 206 is arranged between the first cold air input end 102 and the second cold air outlet end 201a
Cold air be transported in the ventilation duct 101 in garment body 100, at the first cold air outlet end 103 and the second cold air input end
Cold air loopback pipe 207 is set between 201b, the cold air in the ventilation duct 101 in garment body 100 is transmitted back to cool room
201, to realize the cycle of cold air.Meanwhile it can be between the first hot air intake end 104 and the second heat outlet end 202a
It is arranged in the ventilation duct 101 that the hot-air in heating chamber 202 is transported in garment body 100 by hot gas delivery pipe 208,
Hot gas loopback pipe 209 is arranged between one heat outlet end 105 and the second hot air intake end 202b will be logical in garment body 100
Hot-air in air hose 101 is transmitted back to heating chamber 202, to realize the cycle of hot-air.Further, it is possible to go out in the second cold air
Exhaust fan 200a is set at mouth end 201a and the second heat outlet end 202a, in time to generate cold-making block 204 and heating block 205
Cold air and hot-air discharge cool room 201 and heating chamber 202, and be unlikely to form ice sheet on cold-making block 204, influence to make
Cold heating normal work.The control device 300 may include singlechip chip 301 and temperature sensor 302, temperature sensor
302 can be arranged in garment body 100.After singlechip chip 301 encapsulates, touch display screen is embedded on encapsulating housing.It answers
Understand, which electrically connects with temperature sensor 302 and cold-making block 202 respectively.
Optionally, which can be multiple independent P-type semiconductors, which can be multiple independent
N-type semiconductor, also, multiple independent P-type semiconductors and multiple independent N-type semiconductors are sequentially connected by wire.Connect
Conducting wire can be by heat shield 203, so as to form multiple independent PN junctions.In control device 300 to being applied outside PN junction both ends
Making alive, i.e., when may be constructed circuit between multiple PN junctions, then under peltier effect, the cold-making block at P-type semiconductor end is then
Heat is absorbed, realizes that refrigeration, the heating block release heat at N-type semiconductor end form heating block.
It optionally, can be by being arranged connecting wire in ventilation duct 101 when above-mentioned device connects.The control fills
Setting 300 can be embedded on the sleeve of garment body 100.When ontology 100 of pledging clothes is vest, then it can be embedded before vest
Chest, to be conveniently operated.
It, first can be aobvious using the touch on singlechip chip 301 according to outside air temperature and own situation in practical application
Display screen setting refrigeration or heating mode.For example, when being set as refrigeration mode, then the exhaust fan on heating chamber 202 is closed, and the
Two ventilation opening 202c radiate.Exhaust fan on cool room 201 is opened, and the circulation loop of cold air is constituted.And it is made in selection
After chill formula, temperature value is can be specifically set, such as 28 degrees Celsius.The setting of 28 degrees Celsius of input i.e. in singlechip chip 301
Value.Then start refrigerating plant 200, i.e. singlechip chip 301 is entire power on circuitry, is freezed.When temperature sensor 302 is examined
When measuring the temperature of garment body 100 and reaching setting value, then signal is sent to singlechip chip 301.Singlechip chip 301 receives
After signal, the voltage for being applied to PN junction both ends can be reduced, the rotating speed of exhaust fan 200a can also be reduced, or power off to PN junction,
So as to keep the temperature at setting value.After the temperature of garment body 100 reaches predetermined value, user can dress, with
Carry out outdoor activities.In active procedure, control device real-time control temperature can be utilized.
Preferably, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, in order to make in cooling mode
The heat generated in hot cell 202 is discharged in time, or will in a heating mode, and the cold air generated in cool room 201 is arranged in time
Go out in cool room, can draft fan be set at the ventilation 202c mouths of the first ventilation opening 201c and second.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, in order to radiate or make in time
Cold air is discharged in time, aluminium flake 200b can be arranged on cold-making block 204 and heating block 205.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, in order to improve refrigerating efficiency, and
So that the temperature of garment body 100 is uniform, ventilation duct 101 can be in netted arrangement in garment body 100..
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides use, Ke Yi for convenience
Low-temperature receiver and 200 back side of heat source generation box are set generates the bandage or hook of box 200 for fixing low-temperature receiver and heat source.
Further, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides, in order to not influence user's row
It is dynamic, the material of ventilation duct 101 can be set to flexiplast.
To sum up, the novel energy-saving environment-friendly air-ventilating garments that the utility model embodiment provides are logical by arranging in garment body
Air hose, and N-type and P-type semiconductor heat source and low-temperature receiver generation device are set outside garment body, and meanwhile it is nested in garment body
Control device realizes refrigeration and heating effect respectively so as to utilize paltie effect in N-type and P-type semiconductor both ends, and
Garment body is freezed or heated using ventilation tube loop and control device, adjusts air-ventilating garments temperature, realizes air-ventilating garments
Interior temperature accurately controls, and improves cooling and warming efficiency.
Disclosed above is only several specific embodiments of the utility model, and still, the utility model embodiment is not office
It is limited to this, the changes that any person skilled in the art can think of should all fall into the scope of protection of the utility model.
Claims (5)
1. novel energy-saving environment-friendly air-ventilating garments, which is characterized in that including:Garment body (100), low-temperature receiver and heat source generate box (200)
And control device (300), garment body (100) includes internal layer and outer layer, and ventilation duct (101) is furnished between internal layer and outer layer, and
The first cold air input end (102) of ventilation duct (101), the first cold air outlet end is respectively set in garment body (100) back side bottom end
(103), the first hot air intake end (104) and the first heat outlet end (105);It includes refrigeration that low-temperature receiver and heat source, which generate box (200),
Room (201) and heating chamber (202) are equipped with heat shield (203), cool room (201) between cool room (201) and heating chamber (202)
Interior heat shield (203) is equipped with cold-making block (204), and the heat shield (203) in heating chamber (202) is equipped with heating block (205);
Cool room (201) wall is equipped with the second cold air outlet end (201a), the second cold air input end (201b) and the first ventilation opening
(201c), heating chamber (202) wall are equipped with the second heat outlet end (202a), the second hot air intake end (202b) and the second ventilation
Mouth (202c), between the first cold air input end (102) and the second cold air outlet end (201a) even by cold air delivery pipe (206)
It is logical, it is connected to by cold air loopback pipe (207) between the first cold air outlet end (103) and the second cold air input end (201b), first
Pass through hot gas delivery pipe (208), the first heat outlet end between hot air intake end (104) and the second heat outlet end (202a)
(105) be connected to by hot gas loopback pipe (209) between the second hot air intake end (202b), the second cold air outlet end (201a) and
Exhaust fan (200a) is respectively equipped at second heat outlet end (202a), cold-making block (204) and heating block (205) are respectively multiple
Independent P-type semiconductor block and N-type semiconductor block, and electrically connected successively between multiple P-type semiconductor blocks and N-type semiconductor block;
Control device (300) includes singlechip chip (301) and temperature sensor (302), and touch is embedded with outside singlechip chip (301)
Display screen, temperature sensor (302) be set to garment body (100) in, singlechip chip (301) respectively with temperature sensor
(302), cold-making block (204) and heating block (205) electrically connect.
2. novel energy-saving environment-friendly air-ventilating garments according to claim 1, which is characterized in that cold-making block (204) and the heating
Block (205) is equipped with aluminium flake (200b).
3. novel energy-saving environment-friendly air-ventilating garments according to claim 1, which is characterized in that ventilation duct (101) is in garment body
(100) it is in netted arrangement in.
4. novel energy-saving environment-friendly air-ventilating garments according to claim 1, which is characterized in that the first ventilation opening (201c) and second
Draft fan is set at ventilation opening (202c).
5. novel energy-saving environment-friendly air-ventilating garments according to claim 1, which is characterized in that low-temperature receiver and heat source generate box (200)
The back side is equipped with generates the bandage or hook of box (200) for fixing low-temperature receiver and heat source.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721488427.6U CN207707341U (en) | 2017-11-09 | 2017-11-09 | Novel energy-saving environment-friendly air-ventilating garments |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201721488427.6U CN207707341U (en) | 2017-11-09 | 2017-11-09 | Novel energy-saving environment-friendly air-ventilating garments |
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CN207707341U true CN207707341U (en) | 2018-08-10 |
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CN201721488427.6U Expired - Fee Related CN207707341U (en) | 2017-11-09 | 2017-11-09 | Novel energy-saving environment-friendly air-ventilating garments |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110955281A (en) * | 2019-12-17 | 2020-04-03 | 夏跃胜 | Single cold and hot air body temperature maintenance system |
WO2022160416A1 (en) * | 2021-01-29 | 2022-08-04 | 江苏大学 | Personal thermal comfort device based on peltier effect, and thermal management method |
-
2017
- 2017-11-09 CN CN201721488427.6U patent/CN207707341U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110955281A (en) * | 2019-12-17 | 2020-04-03 | 夏跃胜 | Single cold and hot air body temperature maintenance system |
WO2022160416A1 (en) * | 2021-01-29 | 2022-08-04 | 江苏大学 | Personal thermal comfort device based on peltier effect, and thermal management method |
GB2614682A (en) * | 2021-01-29 | 2023-07-12 | Univ Jiangsu | Personal thermal comfort device based on Peltier effect, and thermal management method |
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GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180810 Termination date: 20191109 |