Sharing system for air-conditioning coat

A shared system and technology of air-conditioning clothing, applied in the direction of protective clothing, machine operation, and compressors with reversible cycles, etc., can solve the problems of inability to be widely promoted, inconvenient use of air-conditioning clothing, etc., so as to reduce operating costs and be easy to wear , the effect of simplifying the structure

Inactive Publication Date: 2017-12-08
QINGDAO HAIER AIR CONDITIONER GENERAL CORP LTD
7 Cites 131 Cited by

AI-Extracted Technical Summary

Problems solved by technology

[0005] In order to solve the above-mentioned problems in the prior art, that is, to solve the problem that the existing air-conditioning clothes cannot be popularized due to the inconvenience of use, the present invention provides a sharing system for air-conditioning clothes, which includes wearable air-conditioning clothes , the air-conditioning clothing has pipe...
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Method used

Continue to refer to Fig. 1, the first heat exchanger 22 is positioned at heat exchange container 25, and heat exchange container 25 has liquid inlet 251 and liquid outlet 252, and first heat exchanger 22 can be connected with heat exchange container 25 Cold/hot medium for heat exchange. One side of the second heat exchanger 23 is provided with a fan 27 to speed up the heat dissipation efficiency of the second heat exchanger 23 . Preferably, the above-mentioned components (compressor 21, first heat exchanger 22, second heat exchanger 23, reversing valve 24, heat exchange container 25, throttling device 26, blower 27) are located in the cold and heat source equipment 2 Inside the housing 20.
In summary, the present invention provides a kind of shared system of air-conditioning clothing, that is, the distribution of cold and heat supply stations is arranged in various positions in the city, and the wearer of air-conditioning clothing can go to any cold and heat supply station for air-conditioning clothing "Supplementary energy". On the one hand, there is no need to equip each air-conditioning clothes with cold and heat source equipment, which simplifies the structure of the air-conditioning clothes and facilitates the wearing of air-conditioning clothes (the difference from wearing ordinary clothes is greatly reduced); The quantity supply station "replenishes energy" for air-conditioning clothes, so that the use of air-conditioning clothes is no longer restricted by the location, that is, the wearer of air-conditioning clothes can move freely within any range, which greatly facilitates the users of air-conditioning clothes and provides air-conditioning clothes. It has laid a good foundation for popularization and promotion.
[0025] Continue referring to FIG. 1, the reversing valve 24 in FIG. 1 is in the refrigeration cycle direction (the direction of the arrow in the figure is the flow direction of the refrigerant). The working principle of "replenishing energy" for the air-conditioning clothes 1 is: the high-temperature and high-pressure gas discharged from the compressor 21 enters the second heat exchanger 23 and releases heat, which turns into a liquid refrigerant, and the liquid refrigerant enters the first heat exchange through the throttling device 26 22, the liquid refrigerant absorbs the heat of the cold/heat medium in the heat exchange container 25 in the first heat exchanger 22, evaporates into a gaseous refrigerant, and is sucked b...
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Abstract

The invention belongs to the technical field of air-conditioning coats, and in particular relates to a sharing system for an air-conditioning coat. In order to solve the problem that the existing air-conditioning coat is inconvenient to use and thus cannot be popularized in a large scale is solved, the sharing system for the air-conditioning coat provided by the invention comprises the wearable air-conditioning coat, wherein a pipeline which can hold a cold/warm medium is arranged in the air-conditioning coat; the sharing system also comprises at least a cooling/heating energy supply station distributed at an unspecific place, wherein the cooling/heating energy supply station can provide the cold/warm medium with set temperature to the air-conditioning coat, or provide the cooling/heating energy to the cold/warm medium in the air-conditioning coat. According to the system provided by the invention, energy is supplemented to the air-conditioning coat via the distributed cooling/heating energy supply station, so that usage of the air-conditioning coat is no longer limited by the place, and a good foundation is built for popularization and generalization of the air-conditioning coat.

Application Domain

Garment special featuresFluid circulation arrangement +4

Technology Topic

EngineeringHeating energy +1

Image

  • Sharing system for air-conditioning coat
  • Sharing system for air-conditioning coat

Examples

  • Experimental program(1)

Example Embodiment

[0018] Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. Those skilled in the art should understand that these embodiments are only used to explain the technical principles of the present invention, and are not intended to limit the protection scope of the present invention. For example, although the various components in the drawings are drawn at a specific scale, this proportional relationship is only exemplary, and those skilled in the art can adjust it as needed to adapt to specific applications.
[0019] The invention discloses an air-conditioning clothing sharing system, which comprises a wearable air-conditioning clothing and at least one cold and heat supply station distributedly arranged in an unspecified place. Among them, the air-conditioning clothes have pipelines that can contain cold/heat media, and the cold and heat supply station can provide cold/heat media with a set temperature for the air-conditioning clothes, or provide cold/heat for the cold/heat media in the air-conditioning clothes . Specifically, cold and heat supply stations can be distributed in various locations in the city. For example, the distribution of cold and heat supply stations is denser in areas with relatively large demand, and the cold and heat supply stations are more densely distributed in areas with relatively small demand. Evacuate the distribution. Air-conditioned clothing can be air-conditioned caps, air-conditioned tops, air-conditioned bottoms, air-conditioned shoes, etc. That is to say, the form of air-conditioned clothing is not much different from what people usually wear. In order to realize the purpose of adjusting the temperature of the human body by using the air-conditioning clothing, a pipeline for holding the cold/hot medium is provided in the air-conditioning clothing. The cold/heating medium provides the temperature required by the human body, that is, the human body passes through the air-conditioning clothing pipeline. Cold/hot medium for cooling/heating. The wearer of the air-conditioning clothing can go to the nearby cold and heat supply station to "recharge" the air-conditioning clothing (it can be understood as: making the cold/heat medium in the air-conditioning clothing pipeline reach a set temperature). Specifically, after the wearer of the air-conditioned clothing arrives at the cold and heat supply station, the cold/heat medium at a set temperature can be provided by the cold and heat supply station to the air-conditioned clothing pipeline (if there is already a cold/heat medium in the air-conditioned clothing pipeline , You can drain the existing cold/heat medium and then inject the cold/heat medium at the set temperature); the cold/heat supply station can also provide cold/heat medium in the air-conditioning clothing pipeline. Heat, so that the existing cold/heat medium in the air-conditioning garment pipeline reaches the set temperature.
[0020] The above-mentioned cold and heat supply station may be a large area with a certain floor area, or a small area similar to a small station. According to the size of the cold and heat supply stations, one or more cold and heat source devices are installed in each cold and heat supply station. The cold and heat source equipment includes a refrigeration/heating cycle device, which prepares a cold/heat medium at a set temperature by the refrigeration/heat cycle device, or provides cold/heat for the cold/heat medium in the air-conditioning clothing.
[0021] Combine below figure 1 A preferred embodiment of the present invention is described.
[0022] Reference figure 1 , figure 1 It is a schematic structural diagram of a preferred embodiment of the air-conditioning clothing sharing system of the present invention. Such as figure 1 As shown, the sharing system of air-conditioning clothing includes air-conditioning clothing 1, a cold and heat source device 2 arranged in a cold and heat supply station. Among them, the cold and heat source equipment 2 includes a compressor 21, a first heat exchanger 22, a second heat exchanger 23, and a reversing valve 24 arranged on the circulation pipeline. In this embodiment, the cold and heat source equipment 2 can be regarded as an air conditioner, and the circulation pipeline of the cold and heat source equipment 2 is also provided with a throttling device 26. The cooling/heating principle of the cold and heat source equipment 2 and the air conditioner The cooling/heating principle of the cold and heat source equipment 2 will not be described here. It should be pointed out that, for ease of description, this embodiment is described from a part (that is, a minimum unit of the entire shared system), and therefore only one cold and heat source device 2 in the cold and heat supply station is shown.
[0023] Continue to refer figure 1 , The first heat exchanger 22 is located in the heat exchange container 25. The heat exchange container 25 has a liquid inlet 251 and a liquid outlet 252. The first heat exchanger 22 can exchange heat with the cold/heat medium in the heat exchange container 25 . A blower 27 is provided on one side of the second heat exchanger 23 to accelerate the heat dissipation efficiency of the second heat exchanger 23. Preferably, the aforementioned components (compressor 21, first heat exchanger 22, second heat exchanger 23, reversing valve 24, heat exchange container 25, throttling device 26, blower 27) are all located in the cold and heat source equipment 2. 的壳20内。 In the housing 20.
[0024] The air-conditioning garment 1 has a pipeline 11 for containing cold/heating medium. The pipeline 11 is coiled and arranged in the air-conditioning garment. The inlet 111 and the outlet 112 of the pipeline 11 can be exposed outside the air-conditioning garment 1 or hidden in the air-conditioning garment 1 Inside. In this embodiment, the inlet 111 of the pipeline 11 is in communication with the liquid outlet 212 of the heat exchange container 25, and the outlet 112 of the pipeline 11 is in communication with the liquid inlet 251 of the heat exchange container 25. Preferably, a circulating pump can also be provided in the heat exchange container 25, so that the cold/heat medium in the pipeline 11 of the air-conditioning garment 1 enters the heat exchange container 25 from the liquid inlet 251 and runs along the exit of the heat exchange container 25. The liquid port 252 flows back to the pipeline 11 of the air-conditioning garment 1 to realize the circulation of the cold/heat medium in the air-conditioning garment 1 and the heat exchange container 25.
[0025] Continue to refer figure 1 , figure 1 The reversing valve 24 is the refrigeration cycle direction (the arrow direction in the figure is the flow direction of the refrigerant). The working principle of “recharging energy” for the air-conditioning garment 1 is: the high-temperature and high-pressure gas discharged from the compressor 21 enters the second heat exchanger 23 and then releases heat and becomes liquid refrigerant, which enters the first heat exchange through the throttling device 26 In the first heat exchanger 22, the liquid refrigerant absorbs the heat of the cold/heat medium in the heat exchange container 25, evaporates into a gaseous refrigerant, and is sucked by the compressor to start the next cycle. In this process, the heat of the cold/heat medium in the heat exchange container 25 is absorbed by the refrigerant in the first heat exchanger 22, so that the temperature of the cold/heat medium in the heat exchange container 25 is reduced, and the cold/heat after the temperature is reduced The medium enters the pipeline 11 of the air-conditioning garment 1. After several cycles, the temperature of the cold/heat medium in the pipeline 11 of the air-conditioning garment 1 can reach the set temperature. At this time, the user can use the air-conditioning garment 1 Take cold. After the "energy supplement" is completed, the inlet 111 and outlet 112 of the pipeline 11 can be separated from the liquid outlet 252 and the liquid inlet 251 of the heat exchange container 25, respectively. In this “energy supplement” method, by exchanging heat between the cold/heat medium in the pipeline 11 of the air-conditioning garment 1 and the first heat exchanger 22, the cold/heat medium at the set temperature can be quickly obtained, thereby improving users Experience.
[0026] The direction of the reversing valve 24 is the refrigeration cycle direction. After the direction of the reversing valve 24 is changed to the heating cycle direction, the high-temperature and high-pressure gas discharged from the compressor 21 directly enters the first heat exchanger 22 and releases heat. The temperature of the cold/heat medium in the container 25 increases after absorbing the heat, and the cold/heat medium after the increased temperature enters the pipeline 11 of the air-conditioning garment 1, and after several cycles, the temperature of the air-conditioning garment 1 The temperature of the cold/hot medium can reach the set temperature. At this time, the user can use the air-conditioning garment 1 to keep warm. After the "energy supplement" is completed, the inlet 111 and outlet 112 of the pipeline 11 can be separated from the liquid outlet 252 and the liquid inlet 251 of the heat exchange container 25, respectively.
[0027] In the above-mentioned embodiment, the way to "replenish energy" for the air-conditioning garment is to provide cold/heat for the cold/heat medium in the air-conditioning garment. In addition, the “energy supplement” method of the air-conditioning clothing can also be provided by the cold and heat supply station for the air-conditioned clothing with a set temperature of cold/heat medium. Specifically, in this embodiment, the liquid inlet 251 and the liquid outlet 252 of the heat exchange container 25 in the above-mentioned cold and heat source device 2 are respectively connected with a heat preservation device, so that the cold/heat medium in the heat exchange container 25 The heat preservation device can circulate in the heat exchange container 25. During the circulation process, the cold/heat medium and the first heat exchanger 22 heat exchange so that the cold/heat medium reaches the set temperature. When the wearer of the air-conditioning garment 1 arrives at the cold and heat supply station, the heat preservation equipment injects the cold/heat medium at the set temperature into the pipeline 11 of the air-conditioning garment 1, so as to realize the " Replenish energy".
[0028] In this embodiment, the air-conditioning garment 1 further includes a heat storage material, which is used to slowly release the cold/heat of the cold/heat medium in the air-conditioning garment to the human body. Specifically, when the pipeline 11 of the air-conditioning garment 1 is a cold/heat medium with a set temperature, if there is no heat storage material, the human body will be very uncomfortable after suddenly contacting the cold/heat medium that is too cold or too hot. Therefore, it is necessary to install a heat storage material in the air-conditioning clothing 1, through the heat storage material to provide greater cold storage / heat storage, and slowly released to the human body, not only allows the human body to cool or warm in a comfortable situation, but also prolong the user's access Cool or warm time.
[0029] In addition, the sharing system of the present invention also includes a management platform and a control unit arranged in the cold and heat source equipment or the cold and heat supply station. The management platform can communicate with each control unit to manage the interactive operation of the cold and heat source equipment and the air-conditioning clothing. Preferably, the sharing system further includes a charging unit. When the user needs to use the cold and heat source equipment, the charging unit is used to detect whether the preset fee is received, and send instructions to the control unit according to the charging situation to control the cold and heat source equipment to turn on Or keep it closed; or when the user needs to use the cold and heat source equipment, the charging unit is used to record the cost of this service, and then settle the bill after use.
[0030] Combine below figure 2 Give further details.
[0031] Reference figure 2 , figure 2 It is a schematic diagram of the control principle of a preferred embodiment of the air-conditioning clothing sharing system of the present invention. Such as figure 2 As shown, the sharing system of the present invention also includes a management platform and a control unit provided on each cold and heat source device. The management platform can communicate with each control unit to manage cold and heat source equipment. For example, since the cold and heat supply stations are distributed in various locations in the city, each cold and heat supply station includes one or more cold and heat source devices. In order to facilitate the management of the cold and heat source equipment, each cold and heat source A control unit is set on the cold and heat source equipment of the supply station, and then each cold and heat source equipment is uniformly managed by the management platform. Preferably, a master control unit can be set up in each cold and heat supply station, and the master control unit uniformly manages the cold and heat source equipment of the site, and then the management platform communicates with the master control unit of each site to manage each A cold and heat supply station.
[0032] It should be noted that the above control unit can be installed on each cold and heat source device, or can be installed in each cold and heat supply station, or multiple cold and heat source devices can share one, or more The cold and heat supply stations share one. That is, the management platform manages each cold and heat supply station and each cold and heat source device through the control unit, and the specific setting method of the control unit can be customized by those skilled in the art according to actual application scenarios. These do not depart from the protection scope of the present invention.
[0033] In this embodiment, the charging unit is set on the management platform. For example, when a wearer of air-conditioned clothing arrives at a certain cold and heat supply station, he chooses a cold and heat source device. At this time, he can communicate with the management platform by scanning the QR code on the cold and heat source device to pay and obtain Authorization to use the cold and heat source equipment; you can also set the operation panel or touch screen on the cold and heat source equipment, and communicate with the management platform through the operation panel to obtain the permission to use the cold and heat source equipment. It should be noted that the charging unit can also be installed on each cold and heat source device, or integrated into each control unit, as long as the purpose of charging can be achieved (it can be understood as: judging whether the fee is received, based on the judgment result Then determine whether the user to be "replenishing energy" has the "replenishing energy" permission, if so, control the cold and heat source equipment to open; if not, control the cold and heat source equipment to remain closed).
[0034] In summary, the present invention provides a system for sharing air-conditioned clothing, that is, cold and heat supply stations are distributed in various locations in the city, and the wearer of the air-conditioned clothing can go to any cold and heat supply station to supplement energy for the air-conditioned clothing. ". On the one hand, there is no need to equip each air-conditioned clothing with cold and heat source equipment, which simplifies the structure of the air-conditioned clothing and facilitates the wearing of the air-conditioned clothing (the difference from wearing ordinary clothes is greatly reduced); on the other hand, the distribution of cold and heat The mass supply station “replenishes energy” for the air-conditioned clothing, so that the use of the air-conditioned clothing is no longer restricted by location, that is, the wearer of the air-conditioned clothing can move freely in any range, which greatly facilitates the users of the air-conditioned clothing and provides The popularization and promotion of China has laid a good foundation.
[0035] In addition, the present invention uniformly manages the cold and heat source equipment of the cold and heat supply station through the management platform, which greatly reduces the operating cost. In addition, a charging unit can also be set, and the wearer of the air-conditioned clothing can use the cold and heat source equipment by paying a fee, such as using a mobile phone APP, or an operation panel or touch screen installed in a cold and heat supply station to realize the charging function.
[0036] So far, the technical solutions of the present invention have been described in conjunction with the preferred embodiments shown in the drawings. However, those skilled in the art will readily understand that the protection scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, those skilled in the art can make equivalent changes or substitutions to the relevant technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

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Description & Claims & Application Information

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Classification and recommendation of technical efficacy words

  • Simple structure
  • easy to wear
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