Liquid cooling clothes of adjustable circulation temperature
Technical Field
The invention relates to the technical field of liquid cooling clothing, in particular to a liquid cooling clothing capable of adjusting circulating water temperature.
Background
Due to the characteristics of the working property, certain practitioners inevitably work under high-temperature environments, such as traffic police, ground service, outdoor maintenance, tank soldiers, submarine soldiers and the like working in summer, the environment temperature of the practitioners is often far higher than the temperature range in which the functions of a human body can be self-regulated, the working efficiency is reduced due to the severe high-temperature environment, and the severe high-temperature environment is likely to cause great damage to the health of the staff, and even heatstroke and shock are caused in severe cases. With the continuous attention of China to the health of staff, it is necessary to develop a portable, comfortable and long-time working individual cooling mode.
To solve the above problems, different kinds of liquid cooling clothes are available on the market. The liquid cooling clothes are put into use, so that the workload of workers is greatly reduced, the working efficiency is improved, and more or less problems exist due to defects in design. As disclosed in this patent application (publication No. CN110301696 a) in 2019, an intelligent comfortable liquid cooling garment with adjustable temperature comprises a fabric body, a temperature adjusting pipeline and a temperature control module, wherein the temperature adjusting pipeline is distributed on the fabric body, the temperature control module is used for adjusting the temperature of a liquid medium in the temperature adjusting pipeline, and the temperature control module comprises a cooling unit, a recovery unit, a liquid mixing valve, a controller, a sensor and a micropump; the circulating water is regulated through the coordination control of the modules, and the electronic control elements are more, so that the cost is higher, the stability and the reliability are poor, and the direct regulation of personnel is inconvenient.
Disclosure of Invention
The invention aims at solving the problems existing in the prior art and provides a liquid cooling garment with an adjustable circulating water temperature.
In order to achieve the above purpose, the invention adopts the following technical scheme:
the liquid cooling clothes with the circulating water temperature adjustable comprises a clothes body, wherein a liquid cooling pipeline is arranged in the clothes body, a cold source pocket and a battery power pocket which are connected with the liquid cooling pipeline are arranged on the clothes body, an ice box and a water storage box are arranged in the cold source pocket, and a constant temperature water valve which is connected with the ice box and the water storage box at the same time; the water storage box is provided with a water return port, the water return port is connected with an outlet of the liquid cooling pipeline and is provided with a water return port one-way valve, a communication pipeline is arranged between the water storage box and the ice box and is provided with an ice box one-way valve, and the constant temperature water valve is also provided with a constant temperature water valve outlet; the battery power pocket is internally provided with a power supply, a switch and a water pump, wherein the switch and the water pump are connected with the power supply, the output end of the water pump is connected with the inlet of the liquid cooling pipeline and is provided with a water inlet one-way valve, and the input end of the water pump is connected with the outlet of the constant-temperature water valve through the pipeline.
The liquid cooling clothes are simple in structure, easy to operate and use, capable of adjusting temperature through manual control of the constant-temperature water valve, less in electronic equipment setting, higher in stability and reliability, and lower in material cost and manufacturing cost.
The ice box is used for storing ice cubes, water in the water storage box can enter the ice box from the ice box one-way valve and is converged with the ice cubes to form ice water, the ice water does not directly enter the water storage box to be mixed, but respectively enters the constant-temperature water valve to be mixed through the pipeline, so that the state and the quantity of the ice water in the ice box can be maintained, the ice water cannot enter the water storage box to be mixed with a large amount of circulating hot water, and the waste of the ice water is reduced; the constant temperature control of the constant temperature water valve is also facilitated, and the ice water with the temperature of about 0 ℃ and the hot water with the temperature of up and down can be respectively added and mixed together for discharging, so that the temperature can be controlled to be about 20 ℃ comfortably. The ice box check valve can be arranged to add a part of water into ice cubes as required, and ice water can be generated in the ice cube melting process.
The liquid cooling clothes fully utilizes two pockets on the clothes body, the power supply, the switch and the water pump are arranged in the same pocket, connection and control of the three components are facilitated, and the water pump pumps the mixed cold water in the cold source pocket into the liquid cooling pipeline for circulating cooling; the cold source bag is separated from the components in the cold source bag, so that overcrowding of all the components in one bag is avoided, and connection and installation are not facilitated.
Further, the constant temperature water valve is provided with a cold water inlet and a hot water inlet, the cold water inlet is connected with an ice box water outlet of the ice box, and the hot water inlet is connected with a water storage box water outlet of the water storage box; an adjusting knob is arranged on the constant-temperature water valve, and a set temperature value is arranged on the constant-temperature water valve at the edge of the adjusting knob.
By twisting the adjusting knob to the appointed temperature value, cold water with corresponding temperature can be input, and the method is simple and convenient.
The constant temperature water valve utilizes the characteristic of the temperature sensing original paper to push the valve core in the valve body to move, and the water inlet of cold water and hot water is blocked or opened. When the temperature adjusting knob sets a certain temperature, the proportion of cold water and hot water entering the water outlet is changed along with the change of the inlet temperature and the pressure of the cold water and the hot water, so that the outlet temperature is always kept constant, the temperature adjusting knob can be set at will in the specified temperature range of the product, and the constant-temperature water mixing valve can automatically maintain the outlet temperature.
Further, the cold source pocket and the battery power pocket are respectively arranged at the left side and the right side of the clothing body, and a water delivery pipeline between the outlet of the constant-temperature water valve and the water pump is led out from the cold source pocket and then is folded back into the battery power pocket around the lower edge of the clothing body.
Further, the clothing body comprises an outer cloth, an interlayer and an inner cloth, wherein the liquid cooling pipeline is spirally arranged in the interlayer in a roundabout manner, and the liquid cooling pipeline is arranged close to one surface of the inner cloth; the outer cloth is oxford, the inner cloth is lycra cloth with a net structure, and the interlayer is sponge; the sponge is provided with a channel of the liquid cooling pipeline, the liquid cooling pipeline is arranged in the sponge, the outer cloth, the sponge and the inner cloth are bonded together through a gluing process, and then the outer edges of the outer cloth and the inner cloth are sewn together.
By adopting the arrangement of the oxford fabric, the lycra fabric and the sponge, the portable and comfortable garment can be sewn, the oxford fabric has high thermal resistance and good wear resistance, can play a role in heat insulation as an outer fabric, and is not easy to damage; the sponge is used as an intermediate layer, is moderate in softness and hardness, good in heat preservation, convenient for arrangement of liquid cooling pipelines, has deformability, and can protect the liquid cooling pipelines from being broken in the wearing process; the lycra fabric is used as lining material, has good air permeability and good comfort, and is favorable for temperature transmission and exchange; the liquid cooling pipeline is arranged close to the inner cloth, so that the inner side is cooled. The process of reserving channels, bonding and sewing is convenient for making and shaping the clothing.
Further, the liquid cooling pipeline is a silica gel hose, the silica gel hose is round or flat, a heat preservation coating is arranged on one side of the body of the silica gel hose facing the outer surface of the clothes body, and a heat transfer coating is arranged on one side of the body of the silica gel hose facing the inner surface of the clothes body.
The front surface and the back surface of the liquid cooling pipeline are coated with coatings with different functions, so that heat exchange between cold water in the liquid cooling pipeline and outer cloth (external environment) can be reduced, heat exchange between the cold water and the inner cloth, namely heat exchange between the cold water and one surface close to a human body, is facilitated, heat exchange utilization rate of the cold water is improved, and waste of cold sources is reduced.
Furthermore, in the initial state, ice cubes and ice water are preset in the ice box, hot water subjected to heat transfer and heat exchange of the ice water through the liquid cooling pipeline enters the water storage box, the water storage box receives circulating water, and the ice box is added with the ice cubes in the later use process. The cold source can be supplemented by adding ice cubes, and the hot water in the water storage box is not completely and directly mixed with the ice cubes or the ice water, so that waste is reduced.
Furthermore, the ice box and the water storage box are of flat rectangular box body structures, the ice box and the water storage box are provided with adjacent side walls, and the middle parts of the side walls are provided with the communication pipelines and are provided with the ice box check valves; the outer surface of ice chest is equipped with thermal-insulated coating, the surface of retaining box is equipped with a plurality of heat dissipation sand grip.
The ice box and the water storage box with the shapes are convenient to carry and put in the cold source pocket, and the clothes are not excessively bulked and ugly. The heat-insulating coating can reduce heat exchange between ice water in the ice box and the external environment, and the heat-dissipating raised strips can enable circulated hot water to automatically reduce the temperature to a small extent, so that the consumption of ice water in the next mixing process is reduced.
Furthermore, the ice box is a hard box body made of light heat-insulating materials, the water storage box is a structural member made of light alloy, and the ice box and the water storage box are directly placed in the cold source pocket. The two box body structures are light and have a certain fixed shape, so that the box body structure is convenient to be directly placed in a pocket.
Further, the ice box and the water storage box are soft bag bodies, a plurality of magic tapes are respectively arranged on two side surfaces of the ice box and the water storage box, and the magic tapes are detachably adhered in the cold source bags.
The soft box body has better flexibility, better wearing comfort, bending and folding resistance and better adaptability. The magic tape can be fixed in the pocket in a sticking mode, and is convenient.
Further, an ice block adding port is formed in the end portion of the ice box, a sealing plug is arranged in the ice block adding port, the sealing plug is in an inverted cone shape, the sealing plug is a rubber plug with an inner air cavity, and a handle is arranged on the sealing plug.
Through pulling out and inserting the sealing plug, the ice blocks can be added, the ice-making machine is very convenient, and has good sealing performance and heat insulation performance, and ice water cannot overflow.
Compared with the prior art, the invention has the beneficial effects that: 1. the liquid cooling clothes are simple in structure, easy to operate and use, capable of manually controlling temperature adjustment through the constant-temperature water valve, less in electronic equipment setting, higher in stability and reliability, and lower in material cost and manufacturing cost; 2. the ice box and the water storage box are independently arranged and matched for use, so that the state and quantity of ice water in the ice box can be maintained, the ice water can be prevented from being directly mixed with a large amount of circulating hot water in the water storage box, and the waste of the ice water is reduced; 3. the liquid cooling clothes fully utilize two pockets on the clothes body, the power supply, the switch and the water pump are arranged in the same pocket, connection and control of the three components are facilitated, the three components are arranged separately from the components in the cold source pocket, and the situation that all the components are arranged in one pocket too crowded to be beneficial to connection and installation is avoided.
Drawings
FIG. 1 is a schematic diagram of the front structure of a liquid cooling garment with adjustable circulating water temperature according to the present invention;
FIG. 2 is a schematic diagram of the back structure of a liquid cooling garment with adjustable circulating water temperature according to the invention;
FIG. 3 is a schematic diagram of a cold source pocket of a liquid cooled garment with adjustable circulating water temperature;
FIG. 4 is a schematic side view of the ice bin and water storage bin of the liquid cooled garment with adjustable circulating water temperature;
FIG. 5 is a schematic cross-sectional view of a clothing body of a liquid cooled garment with adjustable circulating water temperature according to the invention;
FIG. 6 is a schematic diagram of another liquid cooling pipeline of a liquid cooling garment with adjustable circulating water temperature according to the invention;
FIG. 7 is a schematic view showing the structure of another ice chest of the liquid cooling suit with adjustable circulating water temperature;
FIG. 8 is a schematic view showing the external surface structure of another ice chest of the liquid cooling suit with adjustable circulating water temperature;
FIG. 9 is a schematic view of the external surface structure of another water storage box of the liquid cooling garment with adjustable circulating water temperature;
in the figure: 1. a liquid cooling pipeline; 2. a garment body; 201. an outer cloth; 202. an interlayer; 203. an inner cloth; 3. a cold source pocket; 4. a battery powered pocket; 5. constant temperature water valve; 501. an adjustment knob; 502. setting a temperature value of constant-temperature water; 503. a cold water inlet; 504. a hot water inlet; 505. an outlet of the constant temperature water valve; 6. an ice bin; 601. a water outlet of the ice box; 7. a water storage box; 701. a water outlet of the water storage box; 702. a water return port; 8. a return water port check valve; 9. a battery; 10. a switch; 11. a water pump; 12. a water inlet one-way valve; 13. an ice chest one-way valve; 14. a heat preservation coating; 15. a heat transfer coating; 16. a magic tape; 17. a sealing plug; 18. a handle; 19. a thermal barrier coating; 20. a convex strip; 101. a front left upper pipe orifice; 102. a right upper pipe orifice on the front surface; 103. a right lower pipe orifice on the front surface; 104. a front left lower pipe orifice; 105. the back left upper pipe orifice; 106. the right upper pipe orifice on the back; 107. a right lower pipe orifice on the back; 108. the back side is provided with a left lower pipe orifice.
Detailed Description
The following description of the embodiments of the present invention will be made more apparent and fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by one of ordinary skill in the art without undue burden on the person of ordinary skill in the art based on embodiments of the present invention, are within the scope of the present invention.
In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "middle", "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
Embodiment one:
as shown in fig. 1 to 4, the liquid cooling garment with the circulating water temperature adjustable comprises a garment body 2, wherein a liquid cooling pipeline 1 is arranged in the garment body 2, a cold source pocket 3 and a battery power pocket 4 which are connected with the liquid cooling pipeline 1 are arranged on the garment body 2, an ice box 6 and a water storage box 7 are arranged in the cold source pocket 3, and a constant temperature water valve 5 which is connected with the ice box 6 and the water storage box 7 at the same time; a water return port 702 is arranged on the water storage box 7, the water return port 702 is connected with the outlet of the liquid cooling pipeline 1 and is provided with a water return port one-way valve 8, a communication pipeline is arranged between the water storage box 7 and the ice box 6 and is provided with an ice box one-way valve 13, and the constant temperature water valve 5 is also provided with a constant temperature water valve outlet 505; the battery power pocket 4 is internally provided with a battery 9, a switch 10 and a water pump 11, wherein the switch 10 and the water pump 11 are connected with the battery 9, the output end of the water pump 11 is connected with the inlet of the liquid cooling pipeline 1 and is provided with a water inlet one-way valve 12, and the input end of the water pump 11 is connected with the constant temperature water valve outlet 505 through a pipeline.
The liquid cooling clothes are simple in structure, easy to operate and use, capable of adjusting temperature through manual control of the constant-temperature water valve, less in electronic equipment setting, higher in stability and reliability, and lower in material cost and manufacturing cost.
The ice box 6 is used for storing ice cubes, water in the water storage box 7 can enter the ice box 6 from the ice box one-way valve 13 and is converged with the ice cubes to form ice water, the ice water does not directly enter the water storage box 7 to be mixed, but respectively enters the constant-temperature water valve 5 to be mixed through pipelines, so that the state and the quantity of the ice water in the ice box 6 can be maintained, the ice water cannot enter the water storage box 7 to be mixed with a large amount of circulating hot water, and the waste of the ice water is reduced; the constant temperature control of the constant temperature water valve 5 is also facilitated, and the ice water with the temperature of about 0 ℃ and the hot water with the temperature of up and down can be respectively added and mixed together for discharging, so that the temperature can be controlled to be about 20 ℃ comfortably. The ice box check valve 13 can be arranged to add a part of water into ice cubes as required, and ice water can be generated in the ice cube melting process.
The liquid cooling clothes fully utilizes two pockets on the clothes body, the battery 9, the switch 10 and the water pump 11 are arranged in the same pocket, connection and control of the three components are facilitated, and the water pump 11 pumps the mixed cold water in the cold source pocket 3 into the liquid cooling pipeline 1 for circulating cooling; the components in the cold source pocket 3 are separated, so that overcrowding of all components in one pocket is avoided, and connection and installation are not facilitated.
Further, the constant temperature water valve 5 is provided with a cold water inlet 503 and a hot water inlet 504, the cold water inlet 503 is connected with the ice box water outlet 601 of the ice box, and the hot water inlet 504 is connected with the water box water outlet 701 of the water box; an adjusting knob 501 is arranged on the constant-temperature water valve 5, and a constant-temperature water set temperature value 502 is arranged on the constant-temperature water valve at the edge of the adjusting knob 501. By twisting the adjusting knob 501 to a designated temperature value, cold water of a corresponding temperature can be input, which is simple and convenient.
The constant temperature water valve 5 pushes the valve core in the valve body to move by utilizing the characteristics of the temperature sensing original paper, and the cold water inlet and the hot water inlet are blocked or opened. When the temperature adjusting knob sets a certain temperature, the proportion of cold water and hot water entering the water outlet is changed along with the change of the inlet temperature and the pressure of the cold water and the hot water, so that the outlet temperature is always kept constant, the temperature adjusting knob can be set at will in the specified temperature range of the product, and the constant-temperature water mixing valve can automatically maintain the outlet temperature.
Further, the cold source pocket 3 and the battery power pocket 4 are separately disposed on the left and right sides of the garment body 2, and a water pipe between the outlet 505 of the thermostatic water valve and the water pump 11 is led out from the cold source pocket 3 and then folded back into the battery power pocket 4 around the lower edge of the garment body 2.
Further, as shown in fig. 5, the garment body 2 includes an outer cloth 201, an interlayer 202 and an inner cloth 203, the liquid cooling pipeline 1 is spirally and roundabout arranged in the interlayer 202, and one surface of the liquid cooling pipeline 1 close to the inner cloth 203 is arranged; the outer cloth 201 is oxford, the inner cloth 203 is lycra cloth with a net structure, and the interlayer 202 is sponge; the sponge is provided with a channel of the liquid cooling pipeline 1, the liquid cooling pipeline 1 is arranged in the sponge, the outer cloth 201, the sponge and the inner cloth 203 are bonded together through a gluing process, and then the outer edges of the outer cloth 201 and the inner cloth 203 are sewn together.
By adopting the arrangement of the oxford fabric, the lycra fabric and the sponge, the portable and comfortable garment can be sewn, the oxford fabric has high thermal resistance and good wear resistance, can play a role in heat insulation as an outer fabric, and is not easy to damage; the sponge is used as an intermediate layer, is moderate in softness and hardness, good in heat preservation, convenient for arrangement of liquid cooling pipelines, has deformability, and can protect the liquid cooling pipelines from being broken in the wearing process; the lycra fabric is used as lining material, has good air permeability and good comfort, and is favorable for temperature transmission and exchange; the liquid cooling pipeline 1 is arranged close to the inner cloth 203, which is beneficial to the cooling of the inner side. The process of reserving channels, bonding and sewing is convenient for making and shaping the clothing.
Furthermore, the liquid cooling pipeline 1 is a silica gel hose, and the section of the silica gel hose is circular, so that the silica gel hose has good flexibility and comfort.
Further, in the initial state, ice cubes and ice water are preset in the ice box 6, hot water after heat transfer and heat exchange of the ice water through the liquid cooling pipeline 1 enters the water storage box 7, the water storage box 7 receives circulating water, so that the water storage box 7 is provided with heat exchange water, and most of the water is pumped out for circulation after being mixed by the constant temperature water valve 5; the ice bin 6 adds ice cubes during later use. The cold source can be supplemented by adding ice cubes, and the hot water in the water storage box is not completely and directly mixed with the ice cubes or the ice water, so that waste is reduced.
Further, the ice box 6 is a hard box body made of light heat insulation materials, the water storage box 7 is a structural member made of light alloy, and the ice box 6 and the water storage box 7 are directly placed in the cold source pocket 3. The two box body structures are light and have a certain fixed shape, so that the box body structure is convenient to be directly placed in a pocket.
Embodiment two:
the difference between this embodiment and the first embodiment is that the liquid cooling pipeline is configured differently.
As shown in fig. 6, the liquid cooling pipeline 1 is a silica gel hose, a heat insulation coating 14 is disposed on a side of a body of the silica gel hose facing the outer surface of the garment body, and a heat transfer coating 15 is disposed on a side of the body of the silica gel hose facing the inner surface of the garment body.
The front and back surfaces of the liquid cooling pipeline 1 are coated with coatings with different functions, so that heat exchange between cold water in the liquid cooling pipeline and outer cloth (external environment) can be reduced, heat exchange between the cold water and the inner cloth, namely heat exchange between the cold water and one surface close to a human body, can be enhanced, heat exchange utilization rate of the cold water can be improved, and waste of cold sources can be reduced.
Embodiment III:
the present embodiment differs from the first embodiment in that an ice bank and a water storage bank of another structure are provided.
As shown in fig. 7 to 9, the ice box 6 and the water storage box 7 are both in flat rectangular box body structures, the ice box 6 and the water storage box 7 are provided with an adjacent side wall, the middle part of the side wall is provided with the communication pipeline, and the ice box check valve 13 is arranged; the outer surface of the ice box 6 is provided with a heat insulation coating 19, and the outer surface of the water storage box 7 is provided with a plurality of heat dissipation convex strips 20.
The ice box 6 and the water storage box 7 with the shapes are convenient to carry and put in the cold source pocket, and the clothes are not excessively bulked and ugly. The heat-insulating coating 19 can reduce heat exchange between the ice water in the ice box 6 and the external environment, and the raised strips 20 can enable the circulated hot water to automatically reduce the temperature to a small extent, so that the consumption of the ice water in the next mixing process is reduced.
Further, the ice box 6 and the water storage box 7 are soft bag bodies, a plurality of magic tapes 16 are respectively arranged on two side surfaces of the ice box 6 and the water storage box 7, and the magic tapes 16 are detachably adhered in the cold source pocket 3.
The soft box body has better flexibility, better wearing comfort, bending and folding resistance and better adaptability. The magic tape 16 can be fixed in the pocket in a sticking way, which is convenient.
Further, an ice block adding port is formed in the end portion of the ice box 6, a sealing plug 17 is arranged in the ice block adding port, the sealing plug 17 is in an inverted cone shape, the sealing plug 17 is a rubber plug with an air cavity, and a handle 18 is arranged on the sealing plug 17.
By pulling and inserting the sealing plug 17, ice cubes can be added very conveniently, and the ice water does not overflow due to good sealing performance and heat insulation performance.
Embodiment four:
as shown in fig. 1 and fig. 2, the front and back sides of the garment body of the liquid cooling pipeline 1 are respectively provided with a front left upper nozzle 101, a front right upper nozzle 102, a front right lower nozzle 103, a front left lower nozzle 104, a back left upper nozzle 105, a back right upper nozzle 106, a back right lower nozzle 107 and a back left lower nozzle 108, wherein the back left upper nozzle 105, the back right upper nozzle 106, the back right lower nozzle 107 and the back left lower nozzle 108 are used for connecting pipelines between the thermostatic water valve 5 and the water pump 11, and the arrangement of the nozzles is convenient for the connection of the pipelines of the front, the back and the side of the garment.
Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.