CN212393907U - Intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment - Google Patents

Abstract

The utility model discloses a shellproof waterproof function clothes of intelligence four unifications from control temperature, it has waterproof shellproof function, still has the function of refrigeration, heating, is applicable to multiple environment to keep the inside dry and comfortable of function clothes under the refrigeration state. An intelligent four-in-one temperature self-control bulletproof and waterproof functional garment comprises a garment body, wherein a plurality of cold air channels mainly made of waterproof and breathable fabric are arranged in the garment body, the cold air channels are distributed at intervals, a main air channel is also arranged in the garment body, and the main air channel is communicated with the cold air channels; the non-metal graphene heating chip is arranged in the clothes body and electrically connected with the control system, and the control system controls the non-metal graphene heating chip to generate heat; and a refrigerating system for conveying cold air to the main air passage is arranged in the total energy box.

Description

Intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment

Technical Field

The utility model belongs to the technical field of for military use clothing, specifically speaking relates to a shellproof waterproof function clothes of intelligence four unifications automatic control temperature. The patent of the utility model also discloses a method for manufacturing intelligent four-in-one automatic temperature control bulletproof waterproof function clothes.

Background

Publication No. CN105876917A, publication No. 2016, 08, 24, discloses a garment with a constant temperature refrigeration structure, which comprises a heat energy isolation structure, a refrigeration structure, an intelligent temperature control module and a heating structure arranged in a garment body 100; the heat energy isolation structure comprises a heat insulation part for the clothes and an external heat insulation part, wherein the heat insulation part is arranged on the inner side surface of the clothes body and can be in contact with a human body; the liquid cooling guide pipes of the refrigeration structure are uniformly sewn in the garment body; the intelligent temperature control module is electrically connected with the refrigerating structure and the heating structure respectively; the intelligent temperature control module senses the micro-environment temperature of the surface of the human body, and when the temperature exceeds 28 ℃, the refrigerating structure injects cold water into the liquid cooling guide pipe, and the cold water in the liquid cooling guide pipe generates heat exchange with the human body to take away heat on the surface of the human body; when the micro-environment temperature of the surface of the human body is sensed to be 22-28 ℃, the heating structure and the refrigerating structure stop working; when the micro-environment temperature of the human body surface is below 22 ℃, the intelligent temperature control module supplies power to the heating structure.

Because the cold source of the clothes is cold water, water beads can be condensed on the outer wall of the conduit, so that the clothes are wet and uncomfortable to wear.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a shellproof waterproof function clothes of intelligence four unifications from control temperature, it has waterproof shellproof function, still has the function of refrigeration, heating, is applicable to multiple environment to keep the inside dry and comfortable of function clothes under the refrigeration state.

For solving the technical problem, the utility model discloses a technical scheme who adopts is:

an intelligent four-in-one temperature self-control bulletproof and waterproof functional garment comprises a garment body, wherein a plurality of cold air channels mainly made of waterproof and breathable fabric are arranged in the garment body, the cold air channels are distributed at intervals, a main air channel is also arranged in the garment body, and the main air channel is communicated with the cold air channels; the non-metal graphene heating chip is arranged in the clothes body and electrically connected with the control system, and the control system controls the non-metal graphene heating chip to generate heat; and a refrigerating system for conveying cold air to the main air passage is arranged in the total energy box.

On the basis of the above scheme and as a preferable scheme of the scheme: the refrigerating system comprises a semiconductor refrigerating sheet, an evaporator arranged on a cold surface of the semiconductor refrigerating sheet, a condenser arranged on a hot surface of the semiconductor refrigerating sheet, and an air outlet fan arranged on the evaporator, wherein an air outlet end of the air outlet fan is communicated with the main air duct.

On the basis of the above scheme and as a preferable scheme of the scheme: the evaporator is provided with a tunnel type heat exchange channel, the air outlet fan is arranged at one end of the tunnel type heat exchange channel, and the air inlet fan is arranged at the other end of the tunnel type heat exchange channel.

On the basis of the above scheme and as a preferable scheme of the scheme: the air outlet fan is arranged at one end of the heat exchange channel, the other end of the heat exchange channel is provided with an air return inlet fan, the air return inlet fan is communicated with one end of the air return pipe, and the other end of the air return pipe is communicated with the inner space of the clothes body.

On the basis of the above scheme and as a preferable scheme of the scheme: the clothes body comprises a main body part, the main body part comprises a surface layer, a filling layer, a first inner layer and a second inner layer which are sequentially arranged from outside to inside, holes are formed in the second inner layer, the surface layer is made of waterproof and bulletproof fabric, the first inner layer and the second inner layer are made of waterproof and breathable fabric, the surface layer, the filling layer, the first inner layer and the second inner layer are sewn together to form a sewing line through an ultrasonic welding process, the sewing line is provided with a plurality of channels, so that the channels are formed between the first inner layer and the second inner layer, the channels serve as the cold air channels, and a part of the channels are arranged in the non-metal graphene heating chips.

On the basis of the above scheme and as a preferable scheme of the scheme: the clothes body is provided with a waterproof zipper, and a foamed rubber sealing strip is arranged at the neckline of the clothes body; the bottom of the clothes body is provided with a hem surrounding edge 700, the hem surrounding edge 700 is made of waterproof materials, and a self-tightening strip is fixed in the hem surrounding edge 700.

On the basis of the above scheme and as a preferable scheme of the scheme: one end of the main air duct is connected with a hose, the main air duct is positioned in the skirt 700, and the hose passes through the skirt 700 and is exposed outside the garment body for connection with a refrigeration system.

On the basis of the above scheme and as a preferable scheme of the scheme: and a power line of the nonmetal graphene heating chip is electrically connected with a control system positioned in the total energy box through the main air duct and the hose.

On the basis of the above scheme and as a preferable scheme of the scheme: the power line of the nonmetal graphene heating chip is connected to the control system through the main air duct, and the control system is arranged in the total energy box.

The utility model also discloses a manufacturing approach of intelligent four unification bulletproof waterproof function clothes of automatic control temperature, including the main part preparation step of clothes body, it will set gradually surface course, filling layer, first nexine and second nexine sew up many continuous stylolite through the ultrasonic welding technology, surface course, filling layer, first nexine and second nexine interconnect together and form a plurality of passageways between first nexine and second nexine, the passageway is as cold air way, puts nonmetal graphite alkene heating chip into at least in some passageways; the first inner layer and the second inner layer are made of waterproof breathable fabrics; a main gas pipe manufacturing step, wherein one edge of a main gas pipe fabric is connected with the bottom edge of a first inner layer through an ultrasonic welding process, the other edge of the main gas pipe fabric is connected with the bottom edge of a second inner layer through the ultrasonic welding process, and a hose communicated with a total energy box is connected with the main gas pipe through the ultrasonic welding process; one end of the main air pipe, which is far away from the hose, is sealed; a step of manufacturing a lower hem surrounding edge 700, namely fixing a self-tightening strip on the lower hem surrounding edge 700, sewing one edge of the lower hem surrounding edge 700 with a surface layer, sewing the other edge of the lower hem surrounding edge 700 with a second inner layer, sealing the sewing position of the lower hem surrounding edge 700 with the surface layer by using an adhesive tape, and sealing the sewing position of the lower hem surrounding edge 700 with the inner layer by using the adhesive tape; the skirt 700 is wrapped around the main airway.

The utility model discloses a compare prior art outstanding and profitable technological effect is:

the utility model discloses a shellproof waterproof function clothes of intelligence four unifications from control temperature for the air conditioning way of input cold volume adopts ventilative waterproof surface fabric to make, consequently, when providing cold volume through the air conditioning way, can not condense the drop of water on the wall of air conditioning way, can not produce the injury to human skin, and shellproof waterproof function clothes of intelligence four unifications from control temperature can keep wearing dry and comfortable and travelling comfort.

The intelligent control system is adopted, when the heating system is in a cold state, the heating system is started, the nonmetal graphene heating chip which is hot in seconds is utilized to quickly release heat so as to ensure the body temperature, and the intelligent control system is safe and reliable, can keep the body temperature in an extremely cold environment, avoids temperature loss and protects the life; when the human body is in a hot state, the refrigerating system is intelligently started, and the cold energy of the cold air channel is introduced to cool the human body, so that the human body is comfortable.

Because the fan is adopted to convey the cooling capacity to the clothes body, the intelligent four-in-one temperature self-control bulletproof waterproof functional clothes is comfortable to wear and does not have the sense of pressure.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Figure 2 is a layered distribution diagram of the fabric of the main body portion of the garment body.

Fig. 3 is a schematic diagram of the structure of the total energy box.

Fig. 4 is a schematic view of the structure of the evaporator.

Fig. 5 is a sectional structural view of an evaporator.

Fig. 6 is a schematic structural view of a condenser.

Fig. 7 is a sectional structural view of a condenser.

Detailed Description

In order to make the purpose, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the drawings in the embodiments, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all the embodiments. All other embodiments obtained by a person skilled in the art without making any inventive step, based on the given embodiments, fall within the scope of protection of the present application.

In the description of the present application, it is to be understood that the terms "upper", "lower", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

In the description of the present application, 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 or implying any number of technical features indicated.

The utility model discloses a shellproof waterproof function clothes of intelligence four unifications automatic control temperature, this kind of function clothes have provide heat, cold volume, waterproof, shellproof function, can be applicable to multiple environment.

The utility model discloses a bulletproof waterproof function clothes of four unifications of intelligence self-control temperature, including clothes body 100, it can be worn on user's one's body. The clothes body 100 is internally provided with a cold air channel 200 mainly made of waterproof breathable fabric, the cold air channel 200 is provided with a plurality of air channels which are distributed at intervals, the clothes body 100 is also internally provided with a main air channel, and the main air channel is communicated with the cold air channel 200;

the non-metal graphene heating chip 300 is arranged in the garment body 100, the non-metal graphene heating chip 300 is electrically connected with a control system, and the control system controls the non-metal graphene heating chip 300 to generate heat;

the total energy box 400 is provided with a refrigeration system 4100 for supplying cold air to the main air passage in the total energy box 400.

In one embodiment, a hose is connected to an end of the main air passage, the main air passage is located inside the skirt 700, and the hose passes through the skirt 700 and is exposed outside the garment body 100 for connection to the refrigeration system 4100. The power line of the non-metal graphene heating chip 300 is electrically connected with the control system located in the total energy box 400 through the main air duct and the hose 500.

The utility model discloses a shellproof waterproof function clothes of four unifications of intelligence self-control temperature for the air conditioning duct 200 of input cold volume adopts ventilative waterproof surface fabric to make, consequently, when providing cold volume through air conditioning duct 200, can not condense the drop of water on the wall of air conditioning duct 200, makes four unifications of intelligence self-control temperature shellproof waterproof function clothes wear on one's body dry and comfortable, comfortable good.

In one embodiment, the garment body 100 includes a main body portion, which is provided with a surface layer 101, a filling layer 102, a first inner layer 103 and a second inner layer 104 from outside to inside. The garment body 100 thus formed is worn on the user with the second interior layer 104 adjacent to the skin of the user. The surface layer 101 is made of waterproof and bulletproof fabric, the first inner layer 103 and the second inner layer 104 are made of waterproof and breathable fabric, and the filling layer 102 is usually made of non-absorbent heat-insulating material. The surface layer 101, the filling layer 102, the first inner layer 103 and the second inner layer 104 are sewn together through an ultrasonic welding process to form a plurality of sewing lines 105, so that a plurality of channels are formed between the first inner layer 103 and the second inner layer 104, the channels serve as the cold air channels 200, and a part of the channels are embedded in the non-metal graphene heating chip 300. In an embodiment, the non-metal graphene heating chip 300 is disposed in the first channel, the non-metal graphene heating chip 300 is not disposed in the second channel, the non-metal graphene heating chip 300 is disposed in the third channel, the non-metal graphene heating chip 300 is not disposed in the fourth channel, and so on, so as to form an interval distribution. In the present embodiment, the non-metal graphene heat-generating chips 300 are connected in parallel with each other.

In an embodiment, the second inner layer is provided with air holes 201, the air holes corresponding to the air cooling duct diffuse the cold air in the air cooling duct to provide cold energy for the human body, and the air holes corresponding to the non-metal graphene heating chip 300 diffuse the heat energy to provide heat for the human body.

The utility model discloses in, waterproof shellproof surface fabric has shellproof function, has waterproof function again. Due to the heat insulation function of the filling layer 102, the cold energy in the cold air channel 200 is effectively supplied to the human body for cooling. Through configuration nonmetal graphite alkene chip 300 that generates heat, can provide heat for the human body, in order to avoid the human body to lose temperature under the low temperature environment.

In one embodiment, the refrigeration system 4100 comprises a semiconductor refrigeration chip 401, an evaporator 402 disposed on a cold side of the semiconductor refrigeration chip 401, and a condenser 403 disposed on a hot side of the semiconductor refrigeration chip 401. In this embodiment, the evaporator 402 and the condenser 403 are both made of a material with good thermal conductivity, such as an aluminum alloy or a graphene heat dissipation material.

An outlet fan 404 is disposed on the evaporator 402, and an air outlet end of the outlet fan 404 is communicated with the main air duct. Thus, the cold air having undergone heat exchange is transferred from the evaporator 402 to the cold air duct 200, thereby providing cold energy to the human body.

In one embodiment, the evaporator 402 is provided with a tunnel heat exchange channel 405, the outlet fan 404 is provided at one end of the tunnel heat exchange channel, and the inlet fan 406 is provided at the other end of the tunnel heat exchange channel 405. In a specific application, air enters the evaporator 402 through the inlet fan 406 and then flows to the cold air duct 200 through the outlet fan 404. By providing two fans to increase the flow rate, more cooling energy is delivered to the cold air duct 200.

In an embodiment, the evaporator 402 includes a bottom plate 4021, a shroud 4022, fins 4023, a first guide 4024, a second guide 4025, and an upper cover plate 4026. As shown in the drawings, the base plate 4021 has a square thin plate shape, the shroud 4022 is provided along the periphery of the base plate 4021, and the fin 4023 is provided in the region surrounded by the shroud 4022. As shown in the figure, the fins 4023 are located on the inner side of the coaming 4022, the fins and the bottom plate are integrally formed, the fins 4023 are arranged in parallel, a distance is reserved between every two adjacent fins 4023, and a distance is reserved between the two ends of each fin and the coaming. The upper cover plate 4026 covers the top of the coaming 4022, as shown in the figure, two sides of the upper cover plate 4026 are connected with the coaming 4022, one end of the upper cover plate has a distance from the corresponding position of the coaming to form an air inlet fan mounting opening 4027, and the other end of the upper cover plate has a distance from the corresponding position of the coaming to form an air outlet fan mounting opening 4028. The top of the fin is connected with the upper cover plate. Thus, the bottom plate, fins, and upper cover plate constitute a tunnel-type heat exchange passage 405 communicating with the outside at both ends. In this embodiment, the tunnel-type heat exchange channel is constructed by the bottom plate, the upper cover plate and the support fins, and the tunnel-type heat exchange channel is lengthened by the structure of the first guide plate and the second guide plate, so that heat exchange of the heat medium in the tunnel-type heat exchange channel is sufficient, and the flow rate of hot air can be increased, and the cold output can be integrally improved. It is also because the unit cooling capacity can be increased by the design of the evaporator 402, and thus air can be used as a heat medium to obtain lower temperature air to be supplied to the garment body 100 after the air is sufficiently contacted with the evaporator 402. First guide plates 4024 and second guide plates 4025 are arranged between two adjacent fins, and the first guide plates 4024 and the second guide plates 4025 are alternately distributed. Two sides of the first guide plate are respectively connected with a fin, the top of the first guide plate is connected with the upper cover plate, and the bottom of the first guide plate is spaced from the bottom plate. Two sides of the second guide plate are respectively connected with a fin, the top of the second guide plate is spaced from the upper cover plate, and the bottom of the second guide plate is connected with the bottom plate. From this, air gets into tunnel type heat exchange channel 405 after, passes through from the bottom of first baffle, and then passes through from the top of second baffle again, borrows this to make air and the abundant heat transfer of evaporimeter, compares in the evaporimeter that does not set up first baffle and second baffle structure, has greatly improved the refrigerating output. In this embodiment, through the structure that sets up first baffle and second baffle, greatly promoted heat transfer capacity, also can satisfy the user demand using the refrigerating system of small volume, low power like this.

In one embodiment, the air outlet fan 404 is disposed at one end of the heat exchange channel, and an air return fan is disposed at the other end of the heat exchange channel, the air return fan is communicated with one end of the air return pipe, and the other end of the air return pipe is communicated with the inner space of the garment body 100. By forming the airflow loop through the structure, the air containing the cold energy is favorably sent into the clothes body 100. Preferably, a return air duct is also provided within the hose.

In one embodiment, condenser 403 includes a condenser base plate 4031, a condenser shroud 4032, condenser fins 4033, a first condenser guide plate 4034, a second condenser guide plate 4035, and a condenser upper cover plate 4036. As shown in the drawing, the condenser base plate 4031 is a square thin plate, the condenser shroud 4032 is arranged along the periphery of the base plate, the condenser fins 4033 are arranged in the area surrounded by the condenser shroud 4032, as shown in the drawing, the condenser fins 4033 are positioned on the inner side of the condenser shroud 4032, the condenser fins 4033 and the condenser base plate 4031 are integrally formed, the condenser fins 4033 are arranged in parallel, a distance is reserved between every two adjacent condenser fins 4033, and a distance is reserved between the two ends of each condenser fin 4033 and the condenser shroud 4032. The condenser upper cover 4036 covers the top of the condenser shroud 4032, and as shown in the figure, two sides of the condenser upper cover 4036 are connected to the condenser shroud 4032, one end of the condenser upper cover 4036 is spaced apart from a corresponding position of the condenser shroud 4032 to form a first fan mounting opening 4037, and the other end of the condenser upper cover 4036 is spaced apart from a corresponding position of the condenser shroud 4032 to form a second fan mounting opening 4038. The top of the condenser fin 4033 is attached to a condenser upper cover 4036. Thus, the condenser bottom plate 4031, the condenser fins 4033, and the condenser upper cover plate 4036 construct a tunnel-type heat exchange passage communicating with the outside at both ends. First and second condenser guide plates 4034 and 4035 are arranged between two adjacent condenser fins 4033, and the first and second condenser guide plates 4034 and 4035 are alternately distributed. Two sides of the first condenser guide 4034 are respectively connected with a condenser fin 4033, the top of the first condenser guide 4034 is connected with a condenser upper cover plate 4036, and the bottom of the first condenser guide 4034 is spaced from a condenser bottom plate 4031. Two sides of the second condenser guide 4035 are respectively connected with a condenser fin 4033, the top of the second condenser guide 4035 is spaced from the condenser upper cover 4036, and the bottom of the first condenser guide 4034 is connected with the condenser bottom 4031. In an embodiment, the heat exchange capacity is greatly improved by the structure of the first condenser guide 4034 and the second condenser guide 4035, so that a large amount of heat which is well conducted to the hot surface of the semiconductor chilling plate 401 can be taken away by using the small-volume condenser 403, and a condition for obtaining enough cold for the semiconductor chilling plate 401 is provided. The principle of the condenser 403 for exchanging heat with air to dissipate heat is similar to that of the condenser 403, and is not described herein again. The condenser 403 is provided with a first fan 407 and a second fan 408, specifically, the first fan is installed at a first fan installation opening, the first fan forms an intake air, the second fan is installed at a second fan installation opening, and the second fan is shaped to output air, so as to ensure a heat dissipation effect of the condenser 403. The first fan is communicated with the outside of the total energy box 400 through an air intake passage to introduce the outside air for heat dissipation of the condenser. The second fan is communicated with the outside of the total energy box 400 through the air outlet channel to output the air after heat exchange, so that the condenser is effectively cooled.

The clothes body 100 is provided with a waterproof zipper, and the neckline of the clothes body 100 is provided with a foamed rubber sealing strip 600; the bottom of the clothes body 100 is provided with a hem surrounding edge 700, the hem surrounding edge 700 is made of waterproof materials, and a self-tightening strip is fixed in the hem surrounding edge 700. In this embodiment, the self-tightening strip is an elastic rubber band structure, and is fixed to the skirt border 700 in an extended state, so that the skirt border 700 adheres to the body as the self-tightening strip contracts in a normal state, and water is prevented from entering from the skirt border as much as possible after falling into water. Through setting up the sealing strip structure of foamed rubber, can make the collarband paste tight neck after drawing the zip fastener, avoid water to get into from the collarband effectively. It can be understood that the four-in-one self-temperature-control bulletproof and waterproof functional suit can effectively prevent water from entering, and can effectively prevent the skin of the upper body from contacting water after people fall into water, so that the temperature of the human body is prevented from being lost.

The utility model also discloses a manufacturing approach of four-in-one automatic control temperature bulletproof waterproof function clothes, including the main part preparation step of clothes body 100, it will set gradually surface course 101, filling layer 102, first nexine 103 and second nexine 104 sew up many continuous stylolite through the ultrasonic welding technology, surface course 101, filling layer 102, first nexine 103 and second nexine 104 interconnect together and form a plurality of passageways between first nexine 103 and second nexine 104, the passageway is regarded as cold air flue 200, at least in some passageways put into nonmetal graphite alkene heating chip 300; the surface layer 101 is made of waterproof bulletproof fabric, and the first inner layer 103 and the second inner layer 104 are made of waterproof breathable fabric.

And a main air pipe manufacturing step, wherein the main air pipe is used for connecting the hose 500 and the cold air channel 200 and conveying cold energy into the cold air channel 200. One edge of the main air pipe fabric is connected with the bottom edge of the first inner layer 103 through an ultrasonic welding process, the other edge of the main air pipe fabric is connected with the bottom edge of the second inner layer 104 through the ultrasonic welding process, and the hose 500 communicated with the total energy box 400 is connected with the main air pipe through the ultrasonic welding process; the end of the main air pipe remote from the hose 500 is closed.

The step of making the skirt 700 is to secure the self-tightening strip to the skirt, the self-tightening strip being enclosed by the skirt 700 from the outside of the functional garment. Sewing one edge of the hem surrounding edge with the surface layer 101, sewing the other edge of the hem surrounding edge with the second inner layer 104, sealing the sewing position of the hem surrounding edge and the surface layer 101 by using an adhesive tape, and sealing the sewing position of the hem surrounding edge and the inner layer by using the adhesive tape; the surrounding edge of the lower hem is covered outside the main air passage.

In an embodiment of the present application, the non-metal graphene heating chip is a heating unit with a woven structure in the publication number CN104605667A, that is, the weft of the orthogonal woven fabric woven by using glass fiber yarn, chemical fiber or cotton as warp and weft is woven by using carbon crystal yarn at intervals, and the warp is woven with fine metal wire electrode groups at intervals, which is characterized in that: the warps at the upper end and the lower end of the orthogonal woven cloth and the wefts at least one side edge are woven with thin metal wire conductive groups, carbon crystal wires are not arranged at the woven positions of the thin metal wire conductive groups at the upper end and the lower end of the orthogonal woven cloth, the thin metal wire conductive groups at the upper end of the orthogonal woven cloth are disconnected from the middle part and respectively welded with a thick metal wire as two electric wires to be led out of the orthogonal woven cloth, the thin metal wire conductive groups at one side edge of the orthogonal woven cloth are welded with a thick metal wire as a third electric wire to be led out of the orthogonal woven cloth and are disconnected with the thin metal wire conductive groups at the upper end of the orthogonal woven cloth, the thin metal wire conductive groups at the upper end of the orthogonal woven cloth are disconnected with the thin metal wire electrode groups in terms of double numbers, the thin metal wire conductive groups at the lower end of the orthogonal woven cloth are disconnected with, the front and back sides of the orthogonal woven cloth of the fine metal wire conducting group and the thick metal wires in the orthogonal woven cloth are packaged into an integral structure by soft plastics.

Among them, the carbon crystal wire is also called as a far infrared electric heating wire, and is also called as a non-metal graphene heating wire because of containing a graphene component.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and the protection scope of the present invention is not limited according to this, so: all the equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (9)

1. The utility model provides a bulletproof waterproof function clothes of four unification self-control temperature of intelligence which characterized in that: the clothes comprise a clothes body, wherein a cold air channel mainly made of waterproof breathable fabric is arranged in the clothes body, the cold air channels are provided with a plurality of air channels which are distributed at intervals, a main air channel is also arranged in the clothes body, and the main air channel is communicated with the cold air channels;

the non-metal graphene heating chip is arranged in the clothes body and electrically connected with the control system, and the control system controls the non-metal graphene heating chip to generate heat;

and a refrigerating system for conveying cold air to the main air passage is arranged in the total energy box.

2. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 1, which is characterized in that: the refrigerating system comprises a semiconductor refrigerating sheet, an evaporator arranged on a cold surface of the semiconductor refrigerating sheet, a condenser arranged on a hot surface of the semiconductor refrigerating sheet, and an air outlet fan arranged on the evaporator, wherein an air outlet end of the air outlet fan is communicated with the main air duct.

3. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 2, which is characterized in that: the evaporator is provided with a tunnel type heat exchange channel, the air outlet fan is arranged at one end of the tunnel type heat exchange channel, and the air inlet fan is arranged at the other end of the tunnel type heat exchange channel.

4. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 3, which is characterized in that: the air outlet fan is arranged at one end of the heat exchange channel, the other end of the heat exchange channel is provided with an air return inlet fan, the air return inlet fan is communicated with one end of the air return pipe, and the other end of the air return pipe is communicated with the inner space of the clothes body.

5. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 1, which is characterized in that: the clothes body comprises a main body part, the main body part comprises a surface layer, a filling layer, a first inner layer and a second inner layer which are sequentially arranged from outside to inside, wherein the surface layer is made of waterproof and bulletproof fabric, the first inner layer and the second inner layer are made of waterproof and breathable fabric, the surface layer, the filling layer, the first inner layer and the second inner layer are sewn together to form a sewing line through an ultrasonic welding process, the sewing line is provided with a plurality of channels formed between the first inner layer and the second inner layer, the channels serve as the cold air channel, and the nonmetal graphene heating chips are arranged in one part of the channels.

6. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 1, which is characterized in that: the clothes body is provided with a waterproof zipper, and the neckline of the clothes body is provided with a hair a small brass gong rubber sealing strip; the bottom of clothes body is equipped with the hem surrounding edge, and the hem surrounding edge adopts waterproof material to make, and the hem surrounding edge internal fixation has from tightening strip.

7. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 6, characterized in that: one end of the main air channel is connected with a hose, the main air channel is positioned in the lower hem surrounding edge, and the hose penetrates through the lower hem surrounding edge and is exposed outside the clothes body for connection of a refrigeration system.

8. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 7, characterized in that: and a power line of the nonmetal graphene heating chip is electrically connected with a control system positioned in the total energy box through the main air duct and the hose.

9. The intelligent four-in-one self-temperature-control bulletproof and waterproof functional garment according to claim 1, which is characterized in that: the power line of the nonmetal graphene heating chip is connected to the control system through the main air duct, and the control system is arranged in the total energy box.

Images