CN218959149U - Novel clothing piece that generates heat - Google Patents

Abstract

The utility model relates to the technical field of clothing heating equipment, in particular to a novel clothing heating piece which is arranged on an inner lining layer of clothing and comprises an electric heating piece body, wherein the electric heating piece body comprises a graphene electric heating plate, a hook-and-loop surface arranged on the upper surface of the graphene electric heating plate and a plurality of thermal expansion rubber protruding points arranged on the back surface of the graphene electric heating plate at intervals; the electric heating sheet body is stuck on the inner layer of the garment through the hook-and-loop surface; after each thermal expansion rubber bump is heated and expanded, a ventilation groove is formed between every two adjacent thermal expansion rubber bumps; the temperature and humidity sensor and the temperature controller are also included; the graphene electric heating plate and the temperature and humidity sensor are respectively and electrically connected with the temperature controller through different leads. When the electric heating plate is used, the electric heating plate body is adhered to the inner layer of the garment, the graphene electric heating plate can automatically generate heat after being electrified, the temperature and humidity of the inner layer of the garment are detected through the temperature and humidity sensor, and the heating condition is automatically adjusted, so that the humidity in the garment is reduced.

Description

Novel clothing piece that generates heat

Technical Field

The utility model relates to the technical field of clothing heating equipment, in particular to a novel clothing heating piece.

Background

The clothing can play a role in resisting cold and maintain the balance of human body temperature. Especially in cold weather, people wear the down jackets, sweater, cotton-padded clothes and other clothes to keep out cold, and the down jackets, sweater and cotton-padded clothes all play a role in keeping warm by reducing the speed of exchanging body heat with outside cold air. In other words, the down jackets, the sweater and the cotton-padded clothes do not generate heat, and only play a role of keeping warm (heat emitted by human bodies) without generating heat. Therefore, people can not feel warm immediately wearing down jackets, sweaters and cotton-padded clothes, but keep heat emitted by the human body for warming, so that people feel warm gradually. However, for women or the elderly with cold constitution, the heat emitted by the human body is relatively small due to deficiency of qi and blood, and the women feel cold when wearing down jackets (or sweater and cotton-padded clothes).

Based on the real-time situation, the utility model designs a novel garment heating piece which can be applied to the garment, can automatically generate heat after being electrified, can enable people to feel warm quickly, can detect (generally, the higher the ambient temperature is, the easier the human body sweats, if the sweat is too much when people wear the garment, the garment sweat can be wet, and the wearing is uncomfortable), and can automatically adjust the heating situation.

Disclosure of Invention

Therefore, the utility model provides a novel garment heating piece applied to the garment, which can automatically generate heat after being electrified, so that people can quickly feel warm, the temperature and humidity of the garment can be detected, and the heating condition can be automatically adjusted.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

a novel garment heat generating panel detachably arranged on an inner layer of a garment, comprising:

the electric heating plate comprises an electric heating plate body, a hook-and-loop surface arranged on the upper surface of the electric heating plate body, and a plurality of thermal expansion rubber protruding points arranged on the back surface of the electric heating plate body at intervals;

the electric heating sheet body is detachably stuck on the inner layer of the garment through the hook-and-loop surface;

after each thermal expansion rubber bump is heated and expanded, a ventilation groove is formed between every two adjacent thermal expansion rubber bumps;

the temperature controller and the temperature and humidity sensor are used for detecting temperature and humidity;

the temperature controller comprises a shell, a temperature control key and a power interface which are arranged on the surface of the shell, and a PCB (printed circuit board) arranged in the shell;

the PCB is integrated with a processor and a power supply adapting circuit;

the input end of the power supply adapting circuit is electrically connected with the power supply interface, and the output end of the power supply adapting circuit is electrically connected with the power supply end of the processor;

the temperature control key is electrically connected with the processor;

the graphene electric heating plate and the temperature and humidity sensor are respectively and electrically connected with the processor through different leads.

Further, a display screen is arranged on the surface of the shell; the display screen is electrically connected with the processor.

Further, a wireless communication module is integrated on the PCB; the wireless communication module is in communication connection with the processor.

Further, the wireless communication module adopts a Bluetooth communication module or a Wi-Fi communication module.

Further, the height of each thermal expansion rubber bump after thermal expansion is 3mm-10mm.

By adopting the technical scheme, the utility model has the beneficial effects that:

when the novel garment heating piece is used, the electric heating piece body is adhered to the inner lining layer of the garment, the graphene electric heating plate of the electric heating piece body can automatically generate heat after being electrified, and after each thermal expansion rubber bump is heated and expanded, a ventilation groove is formed between every two adjacent thermal expansion rubber bumps. On one hand, by arranging the thermal expansion rubber salient points, the graphene electric heating plate is prevented from being directly contacted with a human body, so that poor air permeability is caused; and the ventilation grooves are formed between the adjacent heat expansion rubber convex points on the other hair surface, so that ventilation can be improved, and stuffiness is avoided.

More specifically, when the user is in use, a power supply (such as a charger) is connected to a power interface, then the temperature control key (more than 5 s) is pressed for a long time, the processor controls the graphene electric heating plate to be electrified and heated (under the condition that the graphene electric heating plate is electrified and heated, the temperature control key (more than 5 s) is pressed for a long time again), and the processor controls the graphene electric heating plate to be powered off. The temperature and humidity sensor detects the temperature and humidity of the clothing and transmits the temperature and humidity to the processor, and the processor controls the display temperature on the display screen. The processor also automatically adjusts the heating condition according to the temperature and the humidity of the inner layer of the garment, for example, if the humidity of the inner layer of the garment is too high, the heating temperature of the graphene electric heating plate is reduced, and after the heating temperature of the graphene electric heating plate is reduced, perspiration of a human body is reduced so as to reduce the humidity in the garment.

The user can also be with cell-phone and temperature controller wireless connection, sends the order through the cell-phone and gives the temperature controller in order to control graphite alkene electric plate circular telegram or outage.

Drawings

Fig. 1 is a cross-sectional view of the electric heating sheet body when not energized to generate heat.

Fig. 2 is a cross-sectional view of the electric heating sheet body when energized to generate heat.

Fig. 3 is a schematic view of the back structure of the electric heating plate body.

Fig. 4 is a schematic structural view of the thermostat.

Fig. 5 is a block diagram of the circuit connection of the present utility model.

Reference numerals illustrate:

1. an electric heating plate body; 2. a temperature and humidity sensor; 3. a temperature controller; 10. a graphene electric heating plate; 11. hook-and-loop surfaces; 12. thermally expanding the rubber bumps; 30. a housing; 31. a power interface; 32. a temperature control key; 33. a display screen; 34. a processor; 35. a power supply adaptation circuit; 36. and a wireless communication module.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

Referring to fig. 1, 2, 3, 4 and 5, the present embodiment provides a novel garment heat generating sheet, which includes an electric heating sheet body 1, a temperature and humidity sensor 2 and a temperature controller 3.

As shown in fig. 1 and 2, the electric heating sheet body 1 includes a graphene electric heating plate 10, a hook-and-loop surface 11 disposed on the upper surface of the graphene electric heating plate 10, and a plurality of thermal expansion rubber bumps 12 disposed at intervals on the back surface of the graphene electric heating plate 10.

In use, the hook-and-loop surface 11 of the electric heating element body 1 is adhered to the inner layer of the garment (the hook-and-loop surface 11 of the electric heating element body 1 is not shown in the figure, but the manner in which the electric heating element body 1 is adhered to the inner layer of the garment (i.e. a layer close to the skin of the human body) will be apparent to those skilled in the art).

When a person wears the garment (not shown in the drawings, the utility model also does not relate to improvement of the garment), the back surface of the electric heating plate body 1 is positioned at one side close to the human body, after the thermal expansion rubber protruding points 12 are heated and expanded, the height of each thermal expansion rubber protruding point after the thermal expansion is 3mm-10mm, so that ventilation grooves 120 (shown in fig. 1 and 3) are formed between the adjacent thermal expansion rubber protruding points 12, the ventilation property of the electric heating plate body 1 can be increased, and the human body sultry caused by the heating of the electric heating plate body 1 is avoided.

When the temperature and humidity sensor 2 is specifically set, it should be set on the hook-and-loop surface 11 of the electric heating sheet body 1 to detect the heating temperature of the electric heating sheet body 1 and the humidity in the garment (when a person wears the garment), or the humidity in the space between the garment and the human body, and generally, the electric heating sheet body 1 is adhered to the inner lining of the garment and located at the front chest position or the back of the human body. In this embodiment, preferably, the temperature and humidity sensor 2 is a DHT11 digital temperature and humidity sensor, which is used for detecting temperature and humidity.

As shown in fig. 4 and 5, the thermostat 3 includes a housing 30; the surface of the shell 30 is provided with a power interface 31, a temperature control key 32 and a display screen 33. A PCB circuit board (not shown) is disposed in the housing 30.

The PCB circuit board has integrated thereon a processor 34, a power adapter circuit 35, and a wireless communication module 36.

In this embodiment, preferably, the power interface 31 uses a usb interface; the wireless communication module 36 employs a bluetooth communication module.

It should be noted that, each electronic component is a device existing in the art, and a person skilled in the art selects the model of the electronic component according to the specification and the drawing of the specification, and after limited circuit connection experiments, the novel garment heating piece disclosed in the patent application can be completely reproduced and the same technical effects can be produced.

Specifically, the circuit connection mode and the working principle of the novel clothing heating piece are as follows:

the input end of the power adapting circuit 35 is electrically connected to the power interface 31, and the output end of the power adapting circuit 35 is electrically connected to the power end of the processor 34. In use, a power source (such as a charger) is connected to the power interface 31, and after voltage regulation by the power adapter circuit 35, the processor 34 is powered.

The temperature control button 32, the display screen 33, and the wireless communication module 36 are electrically connected to the processor 34, respectively.

The graphene electric heating plate 10 and the temperature and humidity sensor 2 are respectively and electrically connected with the processor 34 of the temperature controller 3 through different wires (not shown in the figure).

When the graphene electric heating plate is used, the temperature control key 32 is pressed for a long time (more than 5 s), the processor 34 controls the graphene electric heating plate 10 to be electrified and heated (when the graphene electric heating plate 10 is electrified and heated, the temperature control key 32 is pressed for a long time (more than 5 s) again), and the processor 34 controls the graphene electric heating plate 10 to be powered off). The temperature and humidity sensor 2 detects the temperature and humidity in the garment and transmits the detected temperature and humidity to the processor 34, and the processor 34 controls the display of the temperature on the display screen 33. The processor 34 also automatically adjusts the heating condition according to the temperature and humidity of the inner layer of the garment, for example, if the humidity of the inner layer of the garment is too high, the heating temperature of the graphene electric heating plate 10 is reduced, and when the heating temperature of the graphene electric heating plate 10 is reduced, perspiration of a human body is reduced so as to reduce the humidity in the garment.

The user can also manually control and adjust the heating power of the graphene electric heating plate 10 by pressing the (1 s) temperature control key 32 for short, so as to increase/decrease the heating of the graphene electric heating plate 10.

The user can also be connected with the temperature controller 3 in a wireless way, and sends a command to the temperature controller 3 through the mobile phone to control the graphene electric heating plate 10 to be electrified or powered off.

The wireless communication module 36 may also employ Wi-Fi communication modules.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (5)

1. Novel clothing piece that generates heat can dismantle and set up on the inlayer of clothing, a serial communication port, include:

the electric heating plate comprises an electric heating plate body, a hook-and-loop surface arranged on the upper surface of the electric heating plate body, and a plurality of thermal expansion rubber protruding points arranged on the back surface of the electric heating plate body at intervals;

the electric heating sheet body is detachably stuck on the inner layer of the garment through the hook-and-loop surface;

after each thermal expansion rubber bump is heated and expanded, a ventilation groove is formed between every two adjacent thermal expansion rubber bumps;

the temperature controller and the temperature and humidity sensor are used for detecting temperature and humidity;

the temperature controller comprises a shell, a temperature control key and a power interface which are arranged on the surface of the shell, and a PCB (printed circuit board) arranged in the shell;

the PCB is integrated with a processor and a power supply adapting circuit;

the input end of the power supply adapting circuit is electrically connected with the power supply interface, and the output end of the power supply adapting circuit is electrically connected with the power supply end of the processor;

the temperature control key is electrically connected with the processor;

the graphene electric heating plate and the temperature and humidity sensor are respectively and electrically connected with the processor through different leads.

2. The novel garment heat patch of claim 1, wherein: the surface of the shell is also provided with a display screen;

the display screen is electrically connected with the processor.

3. A novel garment heat patch according to claim 1 or 2, wherein: the PCB is also integrated with a wireless communication module;

the wireless communication module is in communication connection with the processor.

4. A novel garment heat patch as claimed in claim 3, wherein: the wireless communication module adopts a Bluetooth communication module or a Wi-Fi communication module.

5. The novel garment heat patch of claim 1, wherein: the height of each thermal expansion rubber bump after being heated and expanded is 3mm-10mm.

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