CN219283678U - Composite cooling module and garment with same - Google Patents

Abstract

The utility model discloses a wearable composite cooling module and a garment with the same, wherein the wearable composite cooling module comprises a refrigeration module and at least one cold accumulation module, the cold accumulation module is embedded on the surface or the inside of the refrigeration module, a power supply is connected to the refrigeration module, the refrigeration module comprises a three-dimensional refrigeration surface, a refrigeration power semiconductor and a radiating surface for transferring and dispersing heat generated by the module, the radiating surface is far away from a human body relative to the three-dimensional refrigeration surface, the cold accumulation module comprises a chilled surface for absorbing cold energy generated by the refrigeration module and a cold release surface for releasing the cold energy to the human body, and the cold release surface of the cold accumulation module and the refrigeration surface of the refrigeration module are mutually staggered and face towards the human body. The utility model uses the refrigeration module to refrigerate, and the generated cold energy is accumulated by the cold accumulation module, and the refrigeration surface of the refrigeration module and the cold release surface of the cold accumulation module are mutually staggered and are simultaneously contacted with a human body, so that the generated cold energy is simultaneously transferred to the human body and the cold accumulation module, thereby realizing the effects of instant cooling and rapid cooling when in use.

Description

Composite cooling module and garment with same

Technical Field

The utility model relates to the field of temperature control clothing, in particular to a composite cooling module and clothing with the same.

Background

The cooling modes of the wearable cooling protective equipment or clothing in the market at present mainly comprise fan cooling, water absorption and evaporation cooling, air cooling circulation cooling, water cooling circulation cooling, compressor cooling, semiconductor cooling, phase change cold storage cooling, semiconductor and phase change cold storage composite cooling and the like. The fan refrigeration equipment and the water absorption evaporation refrigeration equipment have limited cooling degree, and the cooling effect is affected; the air cooling circulation refrigeration equipment and the water cooling circulation refrigeration equipment need to rely on an external circulation power pump, and the air cooling circulation refrigeration equipment has large weight and influences the actions of personnel. The contact surface of the single semiconductor refrigeration equipment is harder, so that comfort is affected, and energy efficiency is low; the phase change cold accumulation refrigeration equipment needs to accumulate cold in advance, and the cold accumulation bag is replaced, so that the phase change cold accumulation refrigeration equipment is inconvenient to deploy and use for a long time. The composite refrigeration mode combining semiconductor refrigeration and phase change cold accumulation is used as a cooling refrigeration mode with the most prospect, overcomes the defects of the technical mode of the cooling protective equipment, not only improves the cooling duration, effect and comfort, but also is convenient and rapid to deploy and move by personnel, and is an important direction for researching the wearable cooling protective equipment in the future.

However, the existing composite refrigeration equipment combining the semiconductor refrigeration technology and the phase-change cold accumulation technology in the market at present is to firstly refrigerate through a semiconductor, then conduct cold energy to a phase-change cold accumulation material for cold accumulation through the semiconductor, and finally conduct cold energy to a human body again through the phase-change cold accumulation material. The whole cold energy generated by the semiconductor is transferred through the phase change cold storage material, so that the semiconductor cannot be worn immediately after initial cooling is slower, and meanwhile, the energy loss is larger along with the transfer of the cold energy.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provides a composite cooling module and a garment with the same.

The aim of the utility model is realized by the following technical scheme:

the utility model provides a compound cooling module, includes refrigerating module and at least one cold-storage module, cold-storage module inlays and locates refrigerating module's surface or inside, be connected with the power on the refrigerating module, refrigerating module includes three-dimensional cold face, refrigeration power semiconductor and is used for the heat transfer radiating surface that the heat transfer that the module produced disperses, the radiating surface keeps away from the human body for three-dimensional cold face, cold-storage module is including absorbing by refrigerating module's cold receiving face and the cold face of putting of releasing cold to the human body of cold volume, cold face and refrigerating module's the cold face of putting of cold-storage module are crisscross and towards the human body each other.

In this embodiment, the refrigeration module generates the cooling capacity, and the cold storage module stores the cooling capacity. More importantly, the scheme adopts the design that the three-dimensional refrigeration surface of the refrigeration module and the cold release surface of the cold storage module are arranged in a staggered way, and the two surfaces (the three-dimensional refrigeration surface and the cold release surface) face towards the human body at the same time, so that the cold energy generated by the refrigeration module is fully utilized, part of the cold energy is directly transmitted to the human body through the three-dimensional refrigeration surface, and part of the cold energy is absorbed and accumulated by the cold receiving surface of the cold storage module, so that the composite cooling module can directly cool the human body while storing the cold. Compared with the traditional cooling mode of the module, namely cold accumulation and then cooling, the cooling waiting time is greatly shortened, the effects of instant cooling and rapid cooling are realized, meanwhile, partial cold quantity generated by the refrigerating module is directly supplied to a human body for cooling, and the energy consumption loss in the process from generation to accumulation to supply of the cold quantity is greatly reduced.

Further, the outer surface of the cold accumulation module is coated with a waterproof layer with high heat conductivity. Through this scheme, the waterproof layer prevents that cold-storage module from leaking the liquid when realizing the quick exchange of heat, high-efficient absorption accumulation and release cold volume.

Further, the cold accumulation module comprises at least one phase change cold accumulation unit, and a phase change cold accumulation material is encapsulated in the phase change cold accumulation unit. According to the scheme, the cold accumulation module adopts a phase change cold accumulation technology, and energy accumulation and energy release are realized by utilizing the phase change of a material during temperature change and the temperature change during the phase change according to the mutual conversion between a solid phase and a liquid phase of the material.

Further, the power supply is a detachable mobile power supply or a fixed power supply connected with the refrigeration module.

Further, a connecting piece for connecting with external clothing is arranged on the refrigerating module or the cold accumulation module. Through the connecting piece, the compound cooling module can be matched and connected with a human body or clothing.

Further, the connecting piece is a fixing clamp, a fixing buckle or a fixing belt, and the fixing clamp, the fixing buckle or the fixing belt is connected with the refrigeration module.

Further, the connecting piece is a hook surface or a rough surface of the magic tape, and the rough surface or the hook surface matched with the connecting piece is connected to the fabric layer of the garment.

A garment comprises the composite cooling module.

The beneficial effects of the utility model are as follows:

1. the utility model adopts a mode of combining semiconductor refrigeration and phase change cold accumulation technology, and realizes high-efficiency and durable cooling while refrigerating and cold accumulation, thereby meeting the cooling requirements of long-time operation and activity in high-temperature environment. After the refrigeration module is closed, the composite cooling module can also release the cold accumulation amount through the phase change cold accumulation module, so that the service time is prolonged, and the composite cooling module can be widely applied to people who work and move for a long time in a high-temperature environment.

2. The utility model adopts the design that the refrigeration surface of the refrigeration module and the cool release surface of the cool storage module are organically staggered and face the human body at the same time, so that part of the cooling capacity generated by the refrigeration module is transferred to the cool storage module for accumulation, and the other part of cooling capacity is directly transferred and supplied to the human body, thereby greatly shortening the cooling waiting time of the composite cooling module or the clothing with the module and realizing the comfortable effect of instant cooling when in use and wearing. In addition, thanks to the design, the cold energy generated by the refrigeration module is transferred to the human body in two forms (refrigeration module-human body; refrigeration module-cold storage module-human body) at the same time, so that the loss of the cold energy (energy) is greatly reduced.

3. The utility model has simple design, quick assembly and disassembly, convenient use and comfortable wearing, can be independently combined with personnel to wear and use, can be used by combining a plurality of modules, can split and singly use the refrigeration module and the cold storage module according to the use scene, is suitable for matching various clothes such as waistcoats, protective clothing, T-shirts and the like, and has good popularization and use values.

Drawings

FIG. 1 is a schematic diagram of a cooling module;

FIG. 2 is a side view of a cooling module;

FIG. 3 is a schematic diagram of a refrigeration module and cold storage module assembly;

FIG. 4 is a schematic diagram of a cooling surface and a cooling surface;

FIG. 5 is a side view of a cooling module of an embodiment.

In the figure, a 1-refrigerating module, a 101-refrigerating surface, a 102-radiating surface, a 2-cold storage module, a 201-cold release surface, a 202-cold receiving surface, a 3-power supply and a 4-connecting piece are arranged.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described below with reference to the embodiments, and it is apparent that the described embodiments are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present utility model, based on the embodiments of the present utility model.

Example 1

Referring to fig. 1 and 2, a composite cooling module includes a cooling module 1 and at least one cold accumulation module 2, wherein the cold accumulation module 21 is embedded on the surface or inside of the cooling module, meanwhile, a power supply 3 is connected to the cooling module 1, and the power supply 3 is a detachable mobile power supply or a fixed power supply connected to the cooling module 1. The refrigerating module 1 comprises a three-dimensional refrigerating surface 101, a refrigerating power semiconductor and a radiating surface 102 for transferring and radiating heat generated by the module, the radiating surface 102 is far away from a human body relative to the three-dimensional refrigerating surface 101, the cold storage module 2 comprises a refrigerated surface 202 for absorbing cold generated by the refrigerating module 1 and a cold release surface 201 for releasing cold to the human body, and the cold release surface 201 of the cold storage module 2 and the refrigerating surface 101 of the refrigerating module 1 are mutually staggered and face towards the human body.

Specifically, referring to fig. 2, 3 and 4, the cold accumulation module 2 embedded in the refrigeration module 1 can be classified into two parts according to the difference of the application, and one part of the cold accumulation module 2 is embedded in the surface of the refrigeration module 1, so that the cold accumulation module 2 embedded in the refrigeration module 1 starts to absorb and store the cold when the refrigeration module 1 starts to refrigerate. In this process, the cold generated by the refrigeration module 1 is directly transferred to the human body for cooling through the refrigerating surface 101 except for a part of the cold generated by the cold storage module 2, so that the refrigeration module 1 can be directly perceived by the human body when working at first, and thus a fast cooling, i.e. wearing and cooling sensation is experienced.

Accordingly, when the amount of cooling generated by the cooling module 1 reaches a certain requirement, the cooling module 1 stops cooling. At this time, the cold accumulation module 2 embedded on the refrigeration module 1 starts to release cold, wherein the cold released by the cold accumulation module 2 located on the surface of the refrigeration module 1 directly acts on the human body through the cooling surface 201 to maintain the cooling environment. The cold released by the cold accumulation module 2 inside the refrigeration module 1 is transmitted to the human body through the three-dimensional refrigeration surface 101 of the refrigeration module 1, and the cold is supplemented for the human body relatively slowly by one step.

And a part of the cold accumulation module 2 is embedded in the refrigeration module 1, so that the cold accumulation module 2 can absorb and accumulate cold better.

In this embodiment, the outer surface of the cold storage module 2 is coated with a waterproof layer with high heat conductivity, and the waterproof layer prevents the cold storage module from leaking while realizing rapid exchange of heat, efficient absorption, accumulation and release of cold. The cold accumulation module 2 comprises at least one phase change cold accumulation unit, the phase change cold accumulation unit is internally packaged with a phase change cold accumulation material, the cold accumulation module 2 adopts a phase change cold accumulation technology with a relative front edge, and energy accumulation and energy release are realized by utilizing the phase change of the material when the temperature changes and the temperature change generated during the phase change according to the mutual conversion between the solid phase and the liquid phase of the material.

Meanwhile, a connecting piece 4 for connecting with external clothing is arranged on the refrigeration module 1 or the cold accumulation module 2. Through the connecting piece 4, the compound cooling module can be matched and combined with a human body or clothing. Specifically, the composite cooling module can be combined with personnel dressing through various forms such as wearing, buckling, clamping, tying, sleeving, pasting, inserting, placing and the like, so that the cooling of a human body is realized. In this embodiment, the connecting piece 4 on the composite cooling module may be a fixing clip, a fixing buckle or a fixing belt, and the fixing clip, the fixing buckle or the fixing belt is connected with the cooling module 1. Therefore, the composite cooling module is clamped with clothes worn by a person through the clothes clamp, and is convenient and quick. Likewise, the connecting piece 4 may be a magic tape, where the magic tape includes a hook surface and a rough surface, and the hook surface of the magic tape may be connected to the composite cooling module, and the rough surface may be connected to a fabric layer of the desired garment. Or the rough surface of the magic tape is connected with the composite cooling module, and the hook surface is connected to the fabric layer of the required wearing.

In the present embodiment, the refrigeration module 1 generates the cooling capacity, and the cold storage module 2 stores the cooling capacity. More importantly, the scheme adopts the design that the three-dimensional refrigeration surface 101 of the refrigeration module 1 and the cool discharging surface 201 of the cool storage module 2 are alternately arranged, and the two surfaces (the three-dimensional refrigeration surface 101 and the cool discharging surface 201) face the human body at the same time, so that part of the cool generated by the refrigeration module 1 is directly transmitted to the human body through the three-dimensional refrigeration surface 101, and part of the cool is absorbed and accumulated by the cool receiving surface 202 of the cool storage module 2, and therefore, the composite cooling module can directly cool the human body while accumulating the cool. Compared with the traditional cooling mode of the module, namely cold accumulation and then cooling, the cooling waiting time is greatly shortened, the effects of instant cooling and rapid cooling are realized, and meanwhile, the energy consumption loss in the process from generation to accumulation to supply of the cold is greatly reduced through the way that part of the cold generated by the refrigeration module 1 is directly supplied to a human body for cooling.

Example two

Referring to fig. 5, in the present embodiment, the three-dimensional cooling surface 101 of the cooling module 1 is tooth-shaped, and the cold accumulation module 2 is embedded on the surface of the cooling module 1 and cooperates with the three-dimensional cooling surface 101. Obviously, the structure of the composite cooling module is simplified to a certain extent, and the difficulty of connection combination of the cold accumulation module 2 and the refrigeration module 1 is reduced.

Example III

The present embodiment provides a garment, in particular, to which the composite cooling module described in the foregoing embodiment is connected, and in terms of its connection form, the composite cooling module is combined with the garment by using the connector 4 described in one of the embodiments.

In a word, the utility model has the advantages of simple design, quick assembly and disassembly, convenient use and comfortable wearing, can be independently combined with personnel to wear and use, can be used by combining a plurality of modules, can split and independently use the refrigerating module 1 and the cold storage module 2 according to the use scene, is suitable for matching various clothes such as waistcoats, protective clothing, T-shirts and the like, and has good popularization and use values.

The foregoing is merely a preferred embodiment of the utility model, and it is to be understood that the utility model is not limited to the form disclosed herein but is not to be construed as excluding other embodiments, but is capable of numerous other combinations, modifications and environments and is capable of modifications within the scope of the inventive concept, either as taught or as a matter of routine skill or knowledge in the relevant art. And that modifications and variations which do not depart from the spirit and scope of the utility model are intended to be within the scope of the appended claims.

Claims (8)

1. The utility model provides a compound cooling module which characterized in that: including refrigerating module (1) and at least one cold-storage module (2), cold-storage module (2) inlay the surface or the inside of locating refrigerating module (1), be connected with power (3) on refrigerating module (1), refrigerating module (1) are including three-dimensional refrigeration face (101), refrigeration power semiconductor and be used for the heat transfer radiating surface (102) that the heat transfer that the module produced diverged, radiating surface (102) keep away from the human body for three-dimensional refrigeration face (101), cold-storage module (2) are including absorbing by chilled face (202) of cold volume that refrigerating module (1) produced and the cold face (201) of putting of releasing the cold volume to the human body, cold face (201) of putting of cold-storage module (2) and refrigerating module (1) are crisscross each other and are towards the human body.

2. The composite cooling module of claim 1, wherein: the outer surface of the cold accumulation module (2) is coated with a waterproof layer with high heat conductivity.

3. The composite cooling module of claim 1, wherein: the cold accumulation module (2) comprises at least one phase change cold accumulation unit, and a phase change cold accumulation material is encapsulated in the phase change cold accumulation unit.

4. The composite cooling module of claim 1, wherein: the power supply (3) is a detachable mobile power supply or a fixed power supply connected with the refrigeration module (1).

5. The composite cooling module of claim 1, wherein: the refrigerating module (1) or the cold accumulation module (2) is provided with a connecting piece (4) for connecting with external clothing.

6. The composite cooling module of claim 5, wherein: the connecting piece (4) is a fixing clamp, a fixing buckle or a fixing belt, and the fixing clamp, the fixing buckle or the fixing belt is connected with the refrigerating module (1).

7. The composite cooling module of claim 5, wherein: the connecting piece (4) is a hook surface or a rough surface of the magic tape.

8. A garment, characterized in that: the garment is connected with the composite cooling module as claimed in any one of claims 1 to 7.

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