CN206949605U - A kind of Intelligent thermal-protection gloves to be generated electricity based on photothermal complementary - Google Patents

Abstract

The weather is cold in winter, and people need to wear thermal gloves when they go out to ride. However, ordinary thermal gloves have a low temperature. When riding too fast, the internal temperature of the gloves is very low and cannot keep warm. Based on this, the utility model proposes an intelligent thermal glove based on photothermal complementary power generation, which mainly includes: a solar panel, a thermoelectric power generation sheet, a glove body, a display screen, a single-chip microcomputer, a lithium battery, a heating device, a temperature sensor, and a switch. The utility model has the advantage that an intelligent thermal glove based on photothermal complementary power generation can use solar energy to provide heat for the inside of the glove, and at the same time use a thermoelectric power generation sheet to collect and utilize a part of the lost heat energy, thereby improving energy utilization. The thermal glove can also automatically adjust the temperature inside the glove, reflecting the intelligence of the thermal glove. The utility model utilizes new clean energy, improves energy utilization rate, saves energy and reduces emission, and protects resources and environment.

Description

A smart thermal glove based on photothermal complementary power generation

technical field

The utility model belongs to the field of daily necessities, and relates to a thermal glove, in particular to an intelligent thermal glove based on photothermal complementary power generation.

Background technique

The weather is cold in winter, and people need to wear warm gloves when they go out to ride. However, ordinary warm gloves have a low temperature and when they ride too fast, the temperature inside the gloves is very low, so they cannot keep warm. Therefore, we invented the electric heating type thermal gloves. The electric heating gloves of the prior art cannot effectively utilize the heat lost inside the gloves; the electric heating gloves of the prior art do not utilize new clean energy; the electric heating gloves of the prior art cannot automatically adjust temperature.

Contents of the invention

In view of the above situation, the utility model proposes an intelligent thermal glove based on photothermal complementary power generation, which efficiently collects and utilizes solar energy to heat the inside of the glove, and collects part of the lost heat through the thermoelectric power generation sheet to heat the inside of the glove, so that The energy is used efficiently, and it can also automatically adjust the temperature inside the glove, reflecting the intelligence of the thermal glove.

The technical solution of the utility model: an intelligent thermal glove based on photothermal complementary power generation, which mainly includes: a solar panel, a thermoelectric power generation sheet, a glove body, a display screen, a single-chip microcomputer, a lithium battery, a heating device, a temperature sensor, and a switch. The solar panel is fixed on the back of the glove body and connected to the lithium battery; the thermoelectric power generation sheet is fixed on the back of the glove body, with its hot end surface attached to the inside of the glove and the cold end facing the outside of the glove body The display screen is fixed on the upper part of the glove body, close to the wrist; the single-chip microcomputer is fixed on the upper part of the glove body, below the display screen, and connected with the display screen, and the The lithium battery is connected, connected with the heating device, and connected with the temperature sensor; the lithium battery is fixed above the glove body, on the right side of the microcontroller; the heating device is fixed on the glove The inside of the body covers the inner surface; the temperature sensor is fixed inside the glove body; the switch is fixed above the glove body and on the left side of the microcontroller.

The working effect of a smart thermal glove based on photothermal complementary power generation: put the glove in the sun, the solar panel on its back can convert solar energy into electrical energy and store it in a lithium battery, turn on the switch, and the lithium battery can supply power to the microcontroller , through the single-chip microcomputer, the display screen displays the internal temperature of the glove, and at the same time the heating device starts to automatically adjust to a suitable temperature for the human body. When the internal temperature of the glove rises, in the cold winter, due to the large temperature difference between the inside and outside of the glove, part of the thermoelectric power generation sheet will be lost. The thermal energy is converted into electrical energy and stored in the lithium battery.

The beneficial effects of the utility model are: an intelligent thermal glove based on photothermal complementary power generation can use solar energy to provide heat for the inside of the glove, and at the same time use a thermoelectric power generation sheet to collect and utilize a part of the lost heat energy, thereby improving energy utilization. The thermal glove can also automatically adjust the temperature inside the glove, reflecting the intelligence of the thermal glove. The utility model utilizes new clean energy, improves energy utilization rate, saves energy and reduces emission, and protects resources and environment.

Description of drawings

Below in conjunction with accompanying drawing and specific embodiment the utility model is further described.

Figure 1, a schematic diagram of a smart thermal glove based on photothermal complementary power generation.

In the figure, 1. heating device, 2. solar panel, 3. thermoelectric power generation sheet, 4. glove body, 5. lithium battery, 6. display screen, 7. switch, 8. single chip microcomputer, 9. temperature sensor.

Detailed ways

As shown in Figure 1, a smart thermal glove based on photothermal complementary power generation includes: a solar panel (2), a thermoelectric power generation sheet (3), a glove body (4), a display screen (6), a single-chip microcomputer (8), Lithium battery (5), heating device (1), temperature sensor (9), switch (7). The solar panel (2) is fixed on the back of the glove body (4) and connected to the lithium battery (5); the thermoelectric power generation sheet (3) is fixed on the back of the glove body (4) , the hot end surface is attached to the inside of the glove, and the cold end surface faces the outside of the glove body; the display screen (6) is fixed on the upper part of the glove body (4), close to the wrist.

The single-chip microcomputer (8) is fixed on the upper part of the glove body (4), below the display screen (6), and is connected with the display screen (6), and is connected with the lithium battery (5 ), connected with the heating device (1), and connected with the temperature sensor (9). The temperature sensor (9) can sense the actual temperature inside the glove, and transmit the signal to the single-chip microcomputer (8), and the single-chip microcomputer (8) transmits the information to the display screen (6) after processing, so that the internal temperature of the glove can be displayed on the display screen. The real-time display on (6); the single-chip microcomputer (8) transmits the information to the heating device (1) after processing, and then the automatic adjustment of the internal temperature of the glove can be realized.

The lithium battery (5) is fixed above the glove body (4), on the right side of the microcontroller (8); the heating device (1) is fixed inside the glove body (4) to cover the inner surface; the The temperature sensor (9) is fixed inside the glove body (4); the switch (7) is fixed above the glove body (4), on the left side of the microcontroller (8).

Claims (1)

1. a kind of Intelligent thermal-protection gloves to be generated electricity based on photothermal complementary, are mainly included：Solar panel, thermo-electric generation sheet, hand Cover body, display screen, single-chip microcomputer, lithium battery, heater, temperature sensor, switch；Described solar panel is fixed on The back of glove bulk, and be connected with described lithium battery；Described thermo-electric generation sheet is fixed on the back of glove bulk, its Hot junction face is attached to inside gloves, and cold end is facing to outside glove bulk；Described display screen is fixed on glove bulk top, presses close to At wrist；Described single-chip microcomputer is fixed on the top of glove bulk, in the lower section of described display screen, and with described display Screen is connected, and is connected with described lithium battery, is connected with described heater, is connected with described temperature sensor Connect；Described lithium battery is fixed on the top of glove bulk, on the right side of single-chip microcomputer；Described heater is fixed on gloves sheet Internal portion, cover inner surface；Described temperature sensor is fixed on the inside of glove bulk；Described switch is fixed on gloves sheet The top of body, in the left side of single-chip microcomputer.