Disclosure of Invention
The invention aims to provide intelligent four-in-one self-temperature-control bulletproof and waterproof functional clothes, which have the functions of water resistance, bulletproof, refrigeration and heating, are suitable for various environments, and keep the interior of the functional clothes dry and comfortable in a refrigeration state.
In order to solve the technical problems, the invention adopts the technical scheme that:
Intelligent four-in bulletproof and waterproof functional clothes with self-temperature control function comprises a clothes body, a plurality of cold air channels mainly made of waterproof and breathable fabric are arranged in the clothes body, the cold air channels are distributed at intervals, a main air channel is further arranged in the clothes body and communicated with the cold air channels, a non-metal graphene heating chip is arranged in the clothes body and electrically connected with a control system, the control system controls the non-metal graphene heating chip to generate heat, and a total energy box and a refrigerating system for conveying cold air to the main air channels are 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 scheme, 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 the 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 scheme, as a preferable scheme of the scheme, the air outlet fan is arranged at the end of the heat exchange channel, an air return opening fan is arranged at the other end of the heat exchange channel, the air return opening fan is communicated with the 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 scheme, as a preferable scheme of the scheme, the clothes body comprises a main body part, a surface layer, a filling layer, a inner layer and a second inner layer are sequentially arranged on the main body part from outside to inside, holes are formed in the second inner layer, the surface layer is made of waterproof bulletproof fabrics, the inner layer and the second inner layer are made of waterproof breathable fabrics, the surface layer, the filling layer, the inner layer and the second inner layer are sewn at through an ultrasonic welding process to form a sewing line, the sewing line is provided with a plurality of channels, so that a plurality of channels are formed between the inner layer and the second inner layer, the channels are used as the cold air channels, and the nonmetal graphene heating chips are arranged in part of the channels .
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 scheme, as a preferable scheme of the scheme, a hose is connected to the end part of the main air duct, the main air duct is positioned in the skirt surrounding edge 700, and the hose penetrates through the skirt surrounding edge 700 and is exposed outside the clothes body for connecting 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 invention also discloses a manufacturing method of intelligent four-close self-temperature-control bulletproof and waterproof functional clothes, which comprises a manufacturing step of a main body part of a clothes body, wherein a plurality of continuous sewing lines are sewn on a surface layer, a filling layer, a th inner layer and a second inner layer which are sequentially arranged through an ultrasonic welding process, the surface layer, the filling layer, a th inner layer and the second inner layer are connected with each other from , a plurality of channels are formed between a th inner layer and the second inner layer, the channels are used as cold air channels, nonmetal graphene heating chips are placed in at least part of the channels, the surface layer is made of waterproof and bulletproof fabrics, the th inner layer and the second inner layer are made of waterproof and breathable fabrics, a main air tube manufacturing step is adopted, the edge of the main air tube fabric is connected with the bottom edge of the th inner layer through the ultrasonic welding process, the other edge of the main air tube fabric is connected with the bottom edge of the second inner layer through the ultrasonic welding process, a hose communicated with a box is connected with an upper enclosing edge of the main air tube through the ultrasonic welding process, the lower enclosing edge of the main air tube is sewn, the enclosing edge of the , the enclosing edge of the main air tube is sewn, the enclosing edge of the lower enclosing edge is sewn with the lower enclosing edge 700, the upper enclosing edge of the main air tube, the enclosing edge of the enclosing edge 700, the enclosing edge of the main air tube is sewn edge, the enclosing edge 700, the enclosing edge is sewn edge of the.
Compared with the prior art, the invention has the outstanding and beneficial technical effects that:
according to the intelligent four-in self-temperature-control bulletproof and waterproof functional suit, the cold air channel for inputting cold energy is made of breathable and waterproof fabric, so that when cold energy is provided through the cold air channel, water drops cannot be condensed on the wall of the cold air channel, the skin of a human body cannot be injured, and the intelligent four-in self-temperature-control bulletproof and waterproof functional suit can keep dry and comfortable to wear.
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 transmit cold energy to the clothes body, the intelligent quadric bulletproof and waterproof function clothes with the temperature self-control function are comfortable to wear and cannot be forced.
Detailed Description
For the purpose of making the purpose, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments will be described in detail and completely with reference to the drawings of the embodiments, and it is obvious that the described embodiments are only some embodiments of the present application , not all embodiments.
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 "", "second", etc. 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 invention discloses intelligent four-in-one self-temperature-control bulletproof and waterproof functional clothes which have the functions of providing heat, cooling capacity, waterproofing and bulletproof and can be suitable for various environments.
The intelligent quadric bulletproof and waterproof function clothes with self-temperature control comprises a clothes body 100 which can be worn on the body of a user, wherein a cold air channel 200 mainly made of waterproof and breathable fabric is arranged in the clothes body 100, the cold air channels 200 are distributed at intervals, a main air channel is also arranged in the clothes body 100 and communicated with the cold air channels 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 , a hose is connected to the end of the main air duct, the main air duct is located inside the skirt 700, the hose passes through the skirt 700 and is exposed outside the garment body 100 for connection to the refrigeration system 4100, and the power cord of the non-metal graphene heat-generating chip 300 is electrically connected to the control system located inside the total energy box 400 through the main air duct and the hose 500.
According to the intelligent four-in-one temperature self-control bulletproof and waterproof functional garment, the cold air channel 200 for inputting cold energy is made of breathable and waterproof fabric, so that when cold energy is provided through the cold air channel 200, water drops cannot be condensed on the wall of the cold air channel 200, and the intelligent four-in-one temperature self-control bulletproof and waterproof functional garment is dry and comfortable to wear.
In the embodiment, the garment body 100 comprises a main body part, wherein a surface layer 101, a filling layer 102, a th inner layer 103 and a second inner layer 104 are arranged on the main body part from outside to inside in sequence, the second inner layer 104 is adjacent to the skin of a human body after the garment body 100 formed by the method is worn on the body of a user, the surface layer 101 is made of waterproof and bulletproof fabrics, the th inner layer 103 and the second inner layer 104 are made of waterproof and breathable fabrics, and the filling layer 102 is a generally non-absorbent thermal insulation material.
In the embodiment, the second inner layer has air holes 201, the air holes corresponding to the cold air duct allow the cold air in the cold air duct to diffuse out to provide cold energy to the human body, and the air holes corresponding to the non-metal graphene heating chip 300 allow the heat to diffuse out to provide heat to the human body.
In the invention, the waterproof bulletproof fabric has a bulletproof function and a waterproof function. 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 the embodiment, the refrigeration system 4100 includes a semiconductor refrigeration sheet 401, an evaporator 402 disposed on a cold side of the semiconductor refrigeration sheet 401, and a condenser 403 disposed on a hot side of the semiconductor refrigeration sheet 401. in this embodiment, both the evaporator 402 and the condenser 403 are 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 the embodiment, the evaporator 402 has a tunnel heat exchanger 405, the outlet fan 404 is disposed at the end of the tunnel heat exchanger, and the inlet fan 406 is disposed at the end of the tunnel heat exchanger 405. in particular, air enters the evaporator 402 via the inlet fan 406 and then flows to the cold air path 200 via the outlet fan 404. by providing two fans, the flow rate is increased, thereby providing more cooling to the cold air path 200.
In the embodiment, the evaporator 402 includes a bottom plate 4021, a shroud 4022, fins 4023, a fourth guide 4024, a second guide 4025 and an upper cover plate 4026. as shown in the drawing, the bottom plate 4021 is in the shape of a square thin plate, the shroud 4022 is disposed along the periphery of the bottom plate 4021, the fins 4023 are disposed in the area surrounded by the shroud 4022. as shown in the drawing, the fins 4023 are located inside the shroud 4022, the fins are in a body-forming structure with the bottom plate , the fins 4023 are disposed in parallel to each other, the adjacent two fins 4023 are spaced apart from each other, the upper cover plate 4026 covers the top of the shroud 4022, as shown in the drawing, the two sides of the upper cover plate 4026 are in contact with the upper cover plate 4022, the end of the upper cover plate is spaced apart from the corresponding position of the shroud to form an air inlet fan mounting opening 4027, the top of the guide 4022 is spaced apart from the guide plate 4028, the guide plate, the end of the upper cover plate is spaced apart from the corresponding position of the shroud 4022 to form an air outlet fan mounting opening 4027, the guide plate 4022 is spaced apart from the second guide plate 4024, the air outlet fin 4024, the air inlet fan mounting opening is configured to form a heat exchange air inlet fan mounting opening 4024, the air inlet fan mounting opening, the air channel is configured to be capable of a heat exchange channel, the second air channel, the air outlet channel, the second air outlet channel is configured to be capable of the second air outlet channel, the second air outlet channel is configured to be capable of being configured to be capable of increasing the heat exchange system, the heat exchange system, the heat exchange system is configured to be capable of increasing the heat exchange system, the heat exchange system, the heat exchange system is configured to be configured.
In the embodiment, the air outlet fan 404 is disposed at the end of the heat exchange channel, the return air inlet fan is disposed at the other end of the heat exchange channel, the return air inlet fan is communicated with the end of the return air duct, and the other end of the return air duct is communicated with the inner space of the clothes body 100.
In the embodiment of the invention, the condenser 403 comprises a condenser bottom plate 4031, a condenser shroud 4032, condenser fins 4033, a condenser shroud 4034, a second condenser shroud 4035 and a condenser head 4036. as shown in the figure, the condenser bottom plate 4031 is in the shape of a thin plate with a square shape, the condenser shroud 4032 is arranged along the periphery of the bottom plate, condenser fins 4033 are arranged in the area surrounded by the condenser shroud 2, as shown in the figure, the condenser fins 4033 and the condenser head 4031 are in a shaped structure, the condenser fins 4033 are arranged in parallel to each other, two adjacent condenser fins 4033 are spaced apart from each other, both ends of the condenser fins 4033 are spaced apart from the condenser shroud 4032. the condenser head 4036 is attached to the top of the condenser shroud 4032, as shown in the figure, both sides of the condenser head 4036 are attached to the condenser shroud 4032, the condenser head 40385 end 4036 of the condenser head 4036 and the corresponding position of the condenser shroud 4032 are spaced apart from each other, and the corresponding position of the heat sink fan 4034, 4036, the heat sink fins 4034 are arranged in a heat sink fin 4034, a heat exchanger fin 4034, a heat exchanger 4035, a heat exchanger, 4035, a 4034, 4035, a 4035, a 4034, a 4035, a 4034, a 4035, a 4034, a 4036, a 4035, a 4036, a 4034, a 4036, a 403.
The garment body 100 is provided with a waterproof zipper, the neckline of the garment body 100 is provided with a foamed rubber sealing strip 600, the bottom of the garment 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.
The invention also discloses a manufacturing method of self-temperature-control bulletproof and waterproof four-in-one clothes, which comprises a manufacturing step of a main body part of a clothes body 100, wherein a plurality of continuous sewing lines are sewn on a surface layer 101, a filling layer 102, a th inner layer 103 and a second inner layer 104 which are sequentially arranged through an ultrasonic welding process, the surface layer 101, the filling layer 102, the th inner layer 103 and the second inner layer 104 are connected to , a plurality of channels are formed between the th inner layer 103 and the second inner layer 104, the channels are used as the cold air channel 200, at least partial channels are provided with nonmetal graphene heating chips 300, the surface layer 101 is made of waterproof and bulletproof fabrics, and the th inner layer 103 and the second inner layer 104 are made of waterproof and breathable fabrics.
The method comprises the steps of manufacturing a main air pipe, wherein the main air pipe is used for connecting a hose 500 and a cold air channel 200 and conveying cold energy into the cold air channel 200, the edge of a main air pipe fabric is connected with the bottom edge of a th inner layer 103 through an ultrasonic welding process, the other edge of the main air pipe fabric is connected with the bottom edge of a second inner layer 104 through the ultrasonic welding process, the hose 500 communicated with a total energy box 400 is connected with the main air pipe through the ultrasonic welding process, and the end, far away from the hose 500, of the main air pipe is sealed.
The manufacturing step of the hem surrounding edge 700 is that the self-tightening strip is fixed on the hem surrounding edge, seen from the outside of the functional garment, the self-tightening strip is surrounded by the hem surrounding edge 700, the edge of the hem surrounding edge is sewn with the surface layer 101, the other edge of the hem surrounding edge is sewn with the second inner layer 104, the sewn part of the hem surrounding edge and the surface layer 101 is sealed by an adhesive tape, the sewn part of the hem surrounding edge and the inner layer is sealed by the adhesive tape, and the hem surrounding edge is covered outside the main air passage.
In this application embodiment, the non-metallic graphene heating chip is a heating unit with a weaving structure in the publication CN104605667A, that is, the wefts of an orthogonal woven fabric woven by using glass fiber filaments or chemical fibers or cotton threads as warps and wefts are woven with carbon crystal filaments at intervals, and the warps are woven with fine metal filament electrode groups at intervals, and is characterized in that the warps at the upper and lower ends of the orthogonal woven fabric and the wefts at least at side are woven with fine metal filament conductive groups, the fine metal filament conductive groups at the upper and lower ends of the orthogonal woven fabric are not provided with carbon crystal filaments, the fine metal filament conductive groups at the upper end of the orthogonal woven fabric are disconnected from the middle and respectively welded with thick metal filaments as two electric wires to be led out of the orthogonal woven fabric, the fine metal filament conductive groups at the side of the orthogonal woven fabric are welded with thick metal filaments as third electric wires to be led out of the orthogonal woven fabric and disconnected from the fine metal filament conductive groups at the upper end of the orthogonal woven fabric, the fine metal filament conductive groups at the upper end of the orthogonal woven fabric are disconnected from the fine metal filament electrode groups, the orthogonal woven fabric is disconnected from the fine metal filament conductive metal filament electrode groups at the lower end of the orthogonal woven fabric, and the orthogonal woven fabric is composed of the orthogonal woven fabric and the fine metal filament conductive metal filament electrode group of the orthogonal woven.
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 embodiments are only preferred embodiments of the present invention, and not intended to limit the scope of the present invention, therefore: all equivalent changes made according to the structure, shape and principle of the invention shall be covered by the protection scope of the invention.