阅读说明：本技术 一种温度可控的保温睡袋 (Temperature-controllable heat-preservation sleeping bag ) 是由 柳玉波 尹观 王轩 于 2021-08-04 设计创作，主要内容包括：本发明公开了一种温度可控的保温睡袋,包括便携式电源、控制模块及睡袋主体,控制模块上设置有输入电源线,控制模块与便携式电源之间通过输入电源线连接,睡袋主体上设置有热敏电阻信号线和发热布电源线组成,睡袋主体与控制模块之间通过热敏电阻信号线和发热布电源线组成连接,本发明适用于睡袋技术领域,通过对发热睡袋进行反射层的增加设计,使热量不易流失,提升了保温效果；通过对发热睡袋分区域模块化控制,用户可根据自己的身体发热需要实现定制化的功能,不需要厂家修改产品,节约电能；发热睡袋可实现变频控制,优化了发热效率,延长有限电量的使用时间；可实现与智能手机的连接控制,使用更加便捷,功能更多样化,增加了用户体验感。(The invention discloses a temperature-controllable heat-preservation sleeping bag, which comprises a portable power supply, a control module and a sleeping bag main body, wherein an input power line is arranged on the control module, the control module is connected with the portable power supply through the input power line, a thermistor signal line and a heating cloth power line are arranged on the sleeping bag main body, and the sleeping bag main body is connected with the control module through the thermistor signal line and the heating cloth power line; by modularly controlling the heating sleeping bag in different areas, a user can realize customized functions according to the heating requirement of the body of the user, and does not need a manufacturer to modify a product, so that electric energy is saved; the heating sleeping bag can realize frequency conversion control, optimize the heating efficiency and prolong the service time of limited electric quantity; the intelligent mobile phone can be connected and controlled with the intelligent mobile phone, the intelligent mobile phone is more convenient to use, functions are more diversified, and the user experience is improved.)

1. The utility model provides a controllable heat preservation sleeping bag of temperature which characterized in that: the sleeping bag comprises a portable power supply (1), a control module (4) and a sleeping bag body (13), wherein an input power line (2) is arranged on the control module (4), the control module (4) is connected with the portable power supply (1) through the input power line (2), a thermistor signal line (11) and a heating cloth power line assembly (12) are arranged on the sleeping bag body (13), and the sleeping bag body (13) is connected with the control module (4) through the thermistor signal line (11) and the heating cloth power line assembly (12);

the sleeping bag is characterized in that a piece of heating cloth (5), a piece of second heating cloth (6) and a piece of third heating cloth (7) which are sequentially connected are arranged on the sleeping bag body (13), a piece of thermistor (8) is arranged on the piece of first heating cloth (5), a piece of thermistor (9) is arranged on the piece of second heating cloth (6), and a piece of thermistor (10) is arranged on the piece of third heating cloth (7).

2. A temperature-controlled insulated sleeping bag according to claim 1, wherein: the sleeping bag main body (13) comprises a sleeping bag outer layer fabric (14), an outer layer reflecting layer (15), a heat insulation layer (16), an inner layer transmitting layer (17), a heating layer fabric (18) and a sleeping bag inner layer fabric (19) which are sequentially arranged from outside to inside.

3. A temperature-controlled insulated sleeping bag according to claim 1, wherein: the output end of the control module (4) is connected with the first heating cloth (5), the second heating cloth (6), the first thermistor (8) on the third heating cloth (7), the second thermistor (9) and the third thermistor (10) through thermistor signal wires (11).

4. A temperature-controlled insulated sleeping bag according to claim 1, wherein: the output end of the control module (4) is connected with the first heating cloth (5), the second heating cloth (6) and the third heating cloth (7) through the heating cloth power line (121).

5. A temperature-controlled insulated sleeping bag according to claim 1, wherein: the first heating cloth (5), the second heating cloth (6) and the third heating cloth (7) are respectively arranged at the head, the abdomen and the feet of the sleeping bag body (13), and any part can be heated according to the residual electric quantity and the heating requirement.

6. A temperature-controlled insulated sleeping bag according to claim 1, wherein: the intelligent mobile phone is also provided with an intelligent mobile phone (3) and used for controlling the control module (4) and recording data, and the intelligent mobile phone (3) is connected with the control module (4) in a Bluetooth communication mode.

Technical Field

The invention belongs to the technical field of sleeping bags, and particularly relates to a temperature-controllable heat-preservation sleeping bag.

Background

The existing sleeping bags on the market mostly adopt the traditional heat-preservation single function as the main part, the heating function is rarely added, the capacity is limited because a large outdoor power supply is inconvenient to carry or the capacity is insufficient, and outdoor sports enthusiasts can only carry a small portable power supply, so that the sleeping bags cannot be powered for a long time after the heating function is added; even there is some products to add the function of generating heat, can not realize intelligent control by temperature change yet, the sleeping bag that generates heat is worked under invariable full power always, causes the waste of limited energy, also can not realize thing allies oneself with control with current smart mobile phone, does not conform to people to the demand of functional sleeping bag, and the intelligence sleeping bag design needs the development of software and hardware and the combination of the module that generates heat just can realize our required intelligent effect.

The existing heating sleeping bag is not well designed with heat preservation and no reflecting layer; real intelligent temperature control can not be realized, because of the sleeping bag that generates heat works under invariable full power always, generally only simple temperature detect switch, switching operation that can be frequent like this, user experience feels relatively poor, also causes the waste of limited energy. And the system can not realize Internet of things control with the existing smart phone and does not meet the requirements of people on functional sleeping bags.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a temperature-controllable heat-insulating sleeping bag.

In order to achieve the purpose, the invention adopts the following technical scheme:

a temperature-controllable heat-preservation sleeping bag comprises a portable power supply, a control module and a sleeping bag main body, wherein an input power line is arranged on the control module, the control module is connected with the portable power supply through the input power line, a thermistor signal line and a heating cloth power line are arranged on the sleeping bag main body, and the sleeping bag main body is connected with the control module through the thermistor signal line and the heating cloth power line;

the sleeping bag comprises a sleeping bag body and is characterized in that a piece of heating cloth, a piece of second heating cloth and a piece of third heating cloth which are sequentially connected are arranged on the sleeping bag body, a thermistor is arranged on the first heating cloth, a second thermistor is arranged on the second heating cloth, and a third thermistor is arranged on the third heating cloth.

Preferably, the sleeping bag main body comprises an outer layer fabric, an outer layer reflecting layer, a heat insulation layer, an inner layer transmitting layer, a heating layer fabric and an inner layer fabric of the sleeping bag which are sequentially arranged from outside to inside.

Preferably, the output end of the control module is connected with the first thermistor, the second thermistor and the third thermistor on the first heating cloth, the second heating cloth and the third heating cloth through thermistor signal wires.

Preferably, the output end of the control module is connected with the first heating cloth, the second heating cloth and the third heating cloth through heating cloth power lines.

Preferably, the first heating cloth, the second heating cloth and the third heating cloth are respectively arranged at the head part, the abdomen part and the foot part of the sleeping bag body, and any part can be heated according to the residual electric quantity and the heating requirement.

Preferably, the intelligent mobile phone is further arranged and used for controlling the control module and recording data, and the intelligent mobile phone is connected with the control module in a Bluetooth communication mode.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

in the invention, the heating sleeping bag is additionally provided with the reflecting layer, so that heat is not easy to lose, and the heat preservation effect is improved;

according to the invention, through regional modular control of the heating sleeping bag, a user can realize a customized function according to the body heating requirement of the user, a manufacturer is not required to modify a product, and electric energy is saved;

according to the invention, the heating sleeping bag can realize frequency conversion control, so that the heating efficiency is greatly optimized, and the service time of limited electric quantity is prolonged;

according to the invention, connection control with the smart phone can be realized, the use is more convenient, the functions are more diversified, and the user experience is increased.

Drawings

FIG. 1 is a schematic view of the overall structure of a temperature-controlled insulated sleeping bag according to the present invention;

FIG. 2 is a schematic view of the heating structure of the sleeping bag body in the temperature-controllable heat-insulating sleeping bag of the invention;

FIG. 3 is a cross-sectional view of a sleeping bag body in a temperature controlled insulated sleeping bag of the present invention.

Reference numerals: 1. a portable power source; 2. an input power line; 3. a smart phone; 4. a control module; 5. a first heating cloth; 6. a second heating cloth; 7. a third heating cloth; 8. a first thermistor; 9. a second thermistor; 10. a third thermistor; 11. a thermistor signal line; 12. a heating cloth power line; 13. a sleeping bag body; 14. the outer layer fabric of the sleeping bag; 15. an outer reflective layer; 16. a heat-insulating layer; 17. an inner emissive layer; 18. distributing a heating layer; 19. the sleeping bag inner layer surface fabric.

Detailed Description

The following description will further describe a specific embodiment of the temperature-controllable heat-insulating sleeping bag according to the present invention with reference to the accompanying drawings 1-3. The temperature-controlled insulated sleeping bag of the present invention is not limited to the description of the following embodiments.

Example 1:

the embodiment provides a specific structure of a temperature-controllable heat-preservation sleeping bag, which comprises a portable power supply 1, a control module 4 and a sleeping bag main body 13, wherein an input power line 2 is arranged on the control module 4, the control module 4 is connected with the portable power supply 1 through the input power line 2, a thermistor signal line 11 and a heating cloth power line assembly 12 are arranged on the sleeping bag main body 13, and the sleeping bag main body 13 is connected with the control module 4 through the thermistor signal line 11 and the heating cloth power line assembly 12;

a first heating cloth 5, a second heating cloth 6 and a third heating cloth 7 which are sequentially connected are arranged on the sleeping bag body 13, a first thermistor 8 is arranged on the first heating cloth 5, a second thermistor 9 is arranged on the second heating cloth 6, and a third thermistor 10 is arranged on the third heating cloth 7.

The sleeping bag body 13 comprises a sleeping bag outer layer fabric 14, an outer layer reflection layer 15, a heat insulation layer 16, an inner layer emission layer 17, a heating layer fabric 18 and a sleeping bag inner layer fabric 19 which are arranged in sequence from outside to inside.

The output end of the control module 4 is connected with the first thermistor 8, the second thermistor 9 and the third thermistor 10 on the first heating cloth 5, the second heating cloth 6 and the third heating cloth 7 through thermistor signal wires 11.

The output end of the control module 4 is connected with the first heating cloth 5, the second heating cloth 6 and the third heating cloth 7 through the heating cloth power line 121.

The first heating cloth 5, the second heating cloth 6 and the third heating cloth 7 are respectively arranged at the head part, the abdomen part and the foot part of the sleeping bag body 13, and any part can be heated according to the residual electric quantity and the heating requirement.

The intelligent mobile phone 3 is further arranged and used for controlling the control module 4 and recording data, and the intelligent mobile phone 3 is connected with the control module 4 in a Bluetooth communication mode.

The working principle is as follows: as shown in fig. 1-3, firstly, the sleeping bag body is designed to be insulated, the outermost fabric 14 of the sleeping bag is made of outer fabric made of nylon anti-splashing fabric, two reflecting layers in the cavity of the sleeping bag are an outer reflecting layer 15, an inner emitting layer 17, the outer reflecting layer 15 is attached to the outermost fabric 14 of the sleeping bag, the inner emitting layer 17 is attached to a heating layer fabric 18, a first heating cloth 5, a second heating cloth 6 and a third heating cloth 7 are clamped in the heating layer fabric 18, and an inner fabric 19 of the sleeping bag is attached to the innermost heating layer fabric 18;

secondly, in the aspect of software, the variable frequency control technology is optimally designed, when the control module 4 detects that the temperatures of the first heating cloth 5, the second heating cloth 6 and the third heating cloth 7 exceed a temperature set value through the first thermistor 8, the second thermistor 9 and the third thermistor 10, the first heating cloth 5, the second heating cloth 6 and the third heating cloth 7 are controlled to work under low power, the energy consumption is reduced, the temperature is always maintained within a set temperature, and the functions are realized and the effect of optimizing the heating efficiency is achieved.

Then, a shunt control technique of an optimum design is performed in terms of hardware. The output of control module 4 passes through thermistor signal line 11 and a cloth 5 that generates heat, No. two cloth 6 that generates heat, No. three thermistor 8 on the cloth 7 that generates heat, No. two thermistor 9, No. three thermistor 10 are connected, divide three routes independent control, 4 outputs of control module are through generating heat cloth power cord 12 and a cloth 5 that generates heat, No. two cloth 6 that generates heat, No. three cloth 7 that generates heat are connected, divide three routes independent control, a cloth 5 that generates heat, No. two cloth 6 that generates heat, No. three cloth 7 that generates heat arrange the head of sleeping bag respectively in, the belly, three position of foot, the user can be closed according to surplus electric quantity and the demand that generates heat of oneself and can not have some to generate heat, guarantee extension heat-generating time under the condition of limited electric quantity, design is more humanized.

Finally, the product is also added with the applet and app control of the smart phone 3, the input power line 2 is connected with the portable power supply 1 to provide power required by the product, the power supply can be 5V/9V/12V, the smart phone 3 is connected with the control module 4 in a Bluetooth communication mode through the applet/app of the smart phone, and the thermistor signal line 1 and the heating cloth power line 12 are both high-temperature-resistant silica gel soft flat cables so as not to influence the comfort level of the sleeping bag in the sleeping bag; through software of the smart phone 3, control becomes more intelligent and more visual, a function of recording data is added in the app, a more optimized control scheme is set according to habits and preferences of users, for example, when the electric quantity of the portable power supply 1 is only 30%, the smart phone 3 prompts in the WeChat applet/app to reduce energy consumption and prompts to close heating cloth of a part, after the user feeds back according to the prompt, the control module 4 closes the part of the heating part and adjusts the heating power of the rest heating part, so that the electric quantity of the portable power supply 1 can maintain the required time; the smartphone 3 can set data such as temperature and usage time calculated from the current amount of electricity through the mobile phone WeChat applet/app, and calculate user preference, optimize usage, and the like according to data frequently used by the user.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.