Electric heating camouflage coat

Abstract

This utility model provides an electrically heated camouflage coat, belonging to the field of clothing technology; it includes: a coat body, a back heating structure installed on the inner wall of the back of the coat body, an insulated backpack structure installed on the outer wall of the back of the coat body, an energy structure installed inside the insulated backpack structure, two sets of front heating structures installed on the inner wall of the front of the coat body, and a charging structure installed on the outer wall of the front of the coat body; this utility model actively heats the human body inside the coat through an external energy source, ensuring the heating temperature, while also providing charging and insulation functions for electronic devices, preventing electronic devices from automatically shutting down in cold environments; furthermore, this utility model employs a zoned automatic temperature adjustment function, dividing the human body into several zones and automatically adjusting the temperature of each zone, not only ensuring the comfort of the human body but also rationally distributing electrical energy.

Description

Technical Field

[0001] This utility model belongs to the field of clothing technology, specifically relating to an electrically heated camouflage coat. Background Technology

[0002] An electrically heated coat is a type of cold-weather clothing that converts electrical energy into heat energy through built-in heating elements (such as carbon fiber heating elements or heating wires) to achieve active warmth. Its core technology lies in the combination of a heating system (distributed in an S-shape), a highly efficient heat-conducting layer (such as a graphite film to prevent localized overheating and carbon fiber to accelerate heat dissipation), and an insulation layer (down, windproof materials), and is equipped with an intelligent temperature control device (supporting multiple temperature settings and overheat protection). Specifically designed for outdoor work in frigid environments, polar expeditions, cycling, skiing, and other scenarios requiring continuous active heating, it is essentially a smart garment that integrates electronic heating technology to overcome the limitations of traditional passive warmth.

[0003] One example, a smart heated coat with announcement number CN208192200U, utilizes a designed nano-power generation layer. When worn, the coat generates electricity through the pressure between the coat and the body, storing this energy in a battery, eliminating the need for recharging. When the power switch is turned on, a temperature sensor detects the coat's temperature and transmits the signal to a microcontroller. If the temperature is too low, the microcontroller activates the heating element; if the temperature is too high, heating is paused, making the entire heating process automatic and intelligent. However, this technology has two drawbacks: the power generation efficiency through pressure is low, and the total power output is also low. The conversion of kinetic energy from the body into electrical energy, and then into heat energy, results in insufficient heat generation, failing to meet heating needs in cold environments. Furthermore, the automatic temperature adjustment function provides overall control, but different parts of the body have different optimal temperatures. Therefore, the overall temperature adjustment may cause some areas to feel too hot while others feel just right, leading to discomfort. Utility Model Content

[0004] To address the problem of insufficient heat generation in existing technologies where energy is converted from kinetic energy to electrical energy and then to heat energy, this invention provides an electrically heated camouflage coat. This coat uses an external energy source to actively heat the body inside, ensuring a consistent heating temperature while simultaneously charging and maintaining the temperature of electronic devices. The specific technical solution is as follows: An electrically heated camouflage coat includes: a coat body; a back heating structure installed on the inner back wall of the coat body; an insulated backpack structure installed on the outer back wall of the coat body; an energy source structure installed inside the insulated backpack structure; two sets of front heating structures installed on the inner front wall of the coat body; and a charging structure installed on the outer front wall of the coat body. The back heating structure includes: three back heating elements, three back temperature sensors, and a back anti-scalding layer. The three back heating elements are respectively installed on the inner back wall of the coat body and connected in series by wires. The three back temperature sensors are respectively installed on the inner wall of the back heating elements, and the back anti-scalding layer is installed on the inner wall of the three back heating elements.

[0005] Preferably, the insulated backpack structure includes: a fire-resistant bottom layer, an insulated backpack body, and a backpack top cover; the fire-resistant bottom layer is installed on the outer back wall of the coat body, the insulated backpack body is installed on the outer wall of the fire-resistant bottom layer, the backpack top cover is installed on the outer wall of the fire-resistant bottom layer, and the backpack top cover covers the outside of the insulated backpack body.

[0006] Preferably, the energy structure includes an energy bus and an energy battery; the energy battery is installed inside the thermal backpack body, one end of the energy bus is fixedly installed on the upper wall of the back heating plate, and the other end of the energy bus is movably connected to the energy battery.

[0007] Preferably, the two sets of front heating structures include: three front heating elements, three front temperature sensors, and a front anti-scalding layer; the three front heating elements are respectively installed on the inner wall surface of the front of the coat body, the three front heating elements are connected in series by wires, the three front temperature sensors are respectively installed on the inner wall surface of the three front heating elements, and the front anti-scalding layer is installed on the inner wall surface of the three front heating elements.

[0008] Preferably, the charging structure includes: a charging insulated pocket and a charging cable; the charging insulated pocket is installed on the outer wall of the front of the coat body, the charging cable is installed inside the charging insulated pocket, and the charging cable and the wire of the front heating element are connected in parallel.

[0009] Preferably, the insulated backpack body and the backpack cover are secured by two Velcro straps.

[0010] Preferably, the front wall of the charging and insulated pocket is provided with a zipper.

[0011] Compared with the prior art, the electric heating camouflage coat of this utility model has the following advantages: the electric heating camouflage coat actively heats the human body inside the coat through an external energy source, which can ensure the heating temperature. At the same time, it can provide charging and heat preservation functions for electronic devices, preventing electronic devices from automatically shutting down in cold environments. Furthermore, this utility model adopts a zoned automatic temperature adjustment function, dividing the human body into several zones and automatically adjusting the temperature of each zone, which not only makes the human body feel comfortable, but also rationally distributes electrical energy. Attached Figure Description

[0012] Figure 1 A schematic diagram of the first integral structure of the electrically heated camouflage coat provided by this utility model;

[0013] Figure 2 A schematic diagram of the second integral structure of the electrically heated camouflage coat provided by this utility model;

[0014] Figure 3 An exploded view of the first integral structure of the electrically heated camouflage coat provided by this utility model;

[0015] Figure 4 An exploded view of the second integral structure of the electrically heated camouflage coat provided by this utility model;

[0016] in, Figures 1 to 4 The attached diagram and components of the electrically heated camouflage coat are as follows: 1. Coat body; 2. Back heating element; 3. Back temperature sensor; 4. Back heat protection layer; 5. Fire-resistant base layer; 6. Insulated backpack body; 7. Backpack top cover; 8. Power bus; 9. Power battery; 10. Front heating element; 11. Front temperature sensor; 12. Front heat protection layer; 13. Charging insulated pocket; 14. Charging cable; 15. Zipper. Detailed Implementation

[0017] The following are specific implementation cases and appendices. Figures 1-4The present invention will be further described below, but it is not limited to these embodiments. The present invention provides a technical solution: an electrically heated camouflage coat, comprising: a coat body 1, a back heating structure installed on the inner back wall of the coat body 1, an insulated backpack structure installed on the outer back wall of the coat body 1, an energy structure installed inside the insulated backpack structure, two sets of front heating structures installed on the inner front wall of the coat body 1, and a charging structure installed on the outer front wall of the coat body 1; the back heating structure includes: three back heating pads 2, three back temperature sensors 3, and a back anti-scalding layer 4; the three back heating pads 2 are respectively installed on the inner back wall of the coat body 1, the three back heating pads 2 are connected in series by wires, the three back temperature sensors 3 are respectively installed on the inner wall of the back heating pads 2, and the back anti-scalding layer 4 is installed on the inner wall of the three back heating pads 2.

[0018] As a preferred embodiment, the insulated backpack structure further includes: a fire-resistant bottom layer 5, an insulated backpack body 6, and a backpack cover 7; the fire-resistant bottom layer 5 is installed on the outer back wall of the coat body 1, the insulated backpack body 6 is installed on the outer wall of the fire-resistant bottom layer 5, and the backpack cover 7 is installed on the outer wall of the fire-resistant bottom layer 5, and the backpack cover 7 covers the outside of the insulated backpack body 6, and the insulated backpack body 6 and the backpack cover 7 are fixed by two Velcro straps.

[0019] As a preferred embodiment, the energy structure further includes: an energy bus 8 and an energy battery 9; the energy battery 9 is installed inside the thermal backpack body 6, one end of the energy bus 8 is fixedly installed on the upper wall of the back heating plate 2, and the other end of the energy bus 8 is movably connected to the energy battery 9.

[0020] As a preferred embodiment, the two sets of front heating structures further include: three front heating elements 10, three front temperature sensors 11, and a front anti-scalding layer 12; the three front heating elements 10 are respectively installed on the inner wall surface of the front of the coat body 1, the three front heating elements 10 are connected in series by wires, the three front temperature sensors 11 are respectively installed on the inner wall surface of the three front heating elements 10, and the front anti-scalding layer 12 is installed on the inner wall surface of the three front heating elements 10.

[0021] As a preferred embodiment, the charging structure further includes: a charging insulated pocket 13 and a charging cable 14; the charging insulated pocket 13 is installed on the outer wall of the front of the coat body 1, the charging cable 14 is installed inside the charging insulated pocket 13, the charging cable 14 and the wire of the front heating plate 10 are connected in parallel, and the front wall of the charging insulated pocket 13 is provided with a zipper 15.

[0022] Working principle: Before using this utility model, the energy battery 9 needs to be connected to an external AC power source to charge the energy battery 9. When the energy battery 9 is fully charged, the operator places the energy battery 9 in the thermal backpack body 6 and connects the energy bus 8 to the energy battery 9. Then the operator puts on the coat body 1 and can start this utility model through the matching controller.

[0023] This invention employs zoned independent temperature control. First, the back of the human body is divided into three zones: upper, middle, and lower. Three back heating pads 2 provide independent heating for each zone. The temperature is adjusted based on information collected by back temperature sensors 3, ensuring a more comfortable temperature for the body. The adjustment process is as follows: the back temperature sensor 3 detects the temperature at a corresponding location, and the processor determines whether the temperature is higher than a preset temperature. If the temperature is higher, the corresponding back heating pad 2 lowers its heating temperature; if the temperature is lower, the corresponding back heating pad 2 raises its heating temperature. The same rule applies to the chest and abdomen, with temperature adjustment via the front heating pad 10 and front temperature sensor 11. A back anti-scalding layer 4 prevents excessive localized heating of the back heating pads 2, and a front anti-scalding layer 12 prevents excessive localized heating of the front heating pad 10.

[0024] This utility model can charge mobile phones and other electrical devices. The operator unzips the charging insulated bag 13 and connects the electrical device and the charging cable 14 to charge the electrical device at a suitable temperature, preventing the electrical device from automatically shutting down in a low-temperature environment.

[0025] In the description of this utility model, the term "multiple" refers to two or more. Unless otherwise explicitly defined, the terms "upper," "lower," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model. The terms "connection," "installation," "fixing," etc., should be interpreted broadly. For example, "connection" can be a fixed connection, a detachable connection, or an integral connection; it can be a direct connection or an indirect connection through an intermediate medium. For those skilled in the art, the specific meaning of the above terms in this utility model can be understood according to the specific circumstances.

[0026] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.

Claims

1. An electrically heated camouflage coat, comprising: a coat body (1), characterized in that, The inner back wall of the coat body (1) is equipped with a back heating structure, the outer back wall of the coat body (1) is equipped with a thermal backpack structure, the thermal backpack structure is equipped with an energy structure, the inner front wall of the coat body (1) is equipped with two sets of front heating structures, and the outer front wall of the coat body (1) is equipped with a charging structure; the back heating structure includes: three back heating pads (2), three back temperature sensors (3), and a back anti-scalding layer (4); the three back heating pads (2) are respectively installed on the inner back wall of the coat body (1), the three back heating pads (2) are connected in series by wires, the three back temperature sensors (3) are respectively installed on the inner wall of the back heating pads (2), and the back anti-scalding layer (4) is installed on the inner wall of the three back heating pads (2).

2. The electrically heated camouflage coat according to claim 1, characterized in that, The structure of the thermal backpack includes: a fire-resistant bottom layer (5), a thermal backpack body (6), and a backpack cover (7); the fire-resistant bottom layer (5) is installed on the outer back wall of the coat body (1), the thermal backpack body (6) is installed on the outer wall of the fire-resistant bottom layer (5), the backpack cover (7) is installed on the outer wall of the fire-resistant bottom layer (5), and the backpack cover (7) covers the outside of the thermal backpack body (6).

3. The electrically heated camouflage coat according to claim 1, characterized in that, The energy structure includes an energy bus (8) and an energy battery (9); the energy battery (9) is installed inside the thermal backpack body (6), one end of the energy bus (8) is fixedly installed on the upper wall of the back heating plate (2), and the other end of the energy bus (8) is movably connected to the energy battery (9).

4. The electrically heated camouflage coat according to claim 1, characterized in that, The two sets of front heating structures include: three front heating elements (10), three front temperature sensors (11), and a front anti-scalding layer (12); the three front heating elements (10) are respectively installed on the inner wall of the front of the coat body (1), the three front heating elements (10) are connected in series by wires, the three front temperature sensors (11) are respectively installed on the inner wall of the three front heating elements (10), and the front anti-scalding layer (12) is installed on the inner wall of the three front heating elements (10).

5. The electrically heated camouflage coat according to claim 1, characterized in that, The charging structure includes a charging insulated pocket (13) and a charging cable (14); the charging insulated pocket (13) is installed on the outer wall of the front of the coat body (1), the charging cable (14) is installed inside the charging insulated pocket (13), and the charging cable (14) and the wires of the front heating plate (10) are connected in parallel.

6. The electrically heated camouflage coat according to claim 2, characterized in that, The insulated backpack body (6) and the backpack cover (7) are secured by two Velcro straps.

7. The electrically heated camouflage coat according to claim 5, characterized in that, The charging insulated bag (13) has a zipper (15) on the front wall.

Images