CN207473833U - Thermoelectric power generation remote controller - Google Patents

Abstract

The utility model relates to an air conditioner and TV remote controller technical field are a thermoelectric generation remote controller, by button, display screen, circuit board, the component that steps up, fin, thermoelectric generation piece, upper cover, lower cover, infrared transmitting tube and light are constituteed, its characterized in that: the display screen, the circuit board, the boosting element, the thermoelectric generation piece, the infrared transmitting tube and the illuminating lamp are connected in series, the lower cover is made of heat insulating materials except for the groove, the groove is made of heat conducting materials, and the thermoelectric generation piece is placed in the groove. After the thermoelectric generation piece is placed, the radiating fin is firstly inserted on the lower cover, the circuit board is inserted under the upper cover, the boosting element is inserted under the circuit board, and finally the upper cover and the lower cover are inserted together. According to the invention, the temperature difference between the palm of a person and the external temperature is converted into electric energy through the semiconductor thermoelectric generation piece, and then the voltage of the thermoelectric generation piece is increased through the boosting element, so that the electric energy is provided for the remote controller.

Description

Thermoelectric power generation remote controller

Technical Field

The invention relates to the technical field of air conditioners and television remote controllers, in particular to a temperature difference power generation remote controller, which converts the temperature difference between a palm of a person and the external temperature into electric energy through a temperature difference power generation sheet, and then raises the voltage generated by the temperature difference power generation sheet through a boosting element so as to provide the electric energy for the remote controller.

Background

At present, the remote controller used by people uses batteries to provide electric energy, 96% of batteries produced in China are zinc-manganese batteries and alkali-manganese batteries, and the main components of the batteries are heavy metals such as manganese, mercury, zinc and the like. After the batteries are abandoned into the nature, great pollution can be caused, the recovery and treatment operation difficulty of the waste batteries is high, the cost is high, no matter the waste batteries are placed in the atmosphere or buried underground, heavy metal components of the waste batteries can overflow along with seepage, the environment pollution is caused, and the human health can be seriously harmed after long-term accumulation.

The thermoelectric power generation technology is a power generation technology for directly converting heat energy into electric energy by utilizing a thermoelectric conversion material, and is a green and environment-friendly power generation mode. The thermoelectric material has no gaseous or liquid medium, and no pollutant such as waste water, waste gas and the like is discharged in the energy conversion process, so that the thermoelectric material is an energy material with near zero emission to the environment. Thermoelectric power generation technology is commonly used in ocean power generation, but is rare in daily life and lacks cases for application on remote controllers.

Disclosure of Invention

Aiming at the defects, the invention provides a thermoelectric power generation remote controller.

The technical scheme of the invention is realized by the following measures: the utility model provides a thermoelectric generation remote controller, is by button, display screen, circuit board, step up component, fin, thermoelectric generation piece (one side is the cold junction base plate, and the one side is the hot junction base plate), upper cover, lower cover, infrared transmitting tube and light constitution, its characterized in that: display screen, circuit board, the component that steps up, thermoelectric generation piece, infrared transmitting tube and light are established ties, and button and display screen are located the upper portion of remote controller, and infrared transmitting tube and light are located the front end of remote controller, and circuit board, the component that steps up, fin are located inside the remote controller.

Cold junction base plate and the fin of thermoelectric generation piece contact, scribble heat conduction silicone grease between the two and accomplish seamless laminating, the hot junction base plate and the remote controller lower cover of thermoelectric generation piece contact, be equipped with the recess of placing the thermoelectric generation piece in the middle of the lower cover.

The display screen, the infrared transmitting tube and the illuminating lamp are connected to the circuit board, the lower cover is made of heat insulating materials except the groove, the groove is made of heat conducting materials, and the thermoelectric generation piece is placed in the groove. After the thermoelectric generation piece is placed, the radiating fin is firstly inserted on the lower cover, the circuit board is inserted under the upper cover, the boosting element is inserted under the circuit board, and finally the upper cover and the lower cover are inserted together.

The invention has the advantages that: the device is through the thermoelectric generation piece with the temperature difference conversion of people's palm and ambient temperature for the electric energy, then through the component that steps up, with the rising of thermoelectric generation piece voltage, the heat conduction material of lower cover groove, the fin is with the seamless laminating of hot junction base plate and cold junction base plate of thermoelectric generation piece, it is higher and better to last the power supply effect to promote the generating efficiency of thermoelectric generation piece, utilize the electricity generation of human heat energy, reach remote controller normal use's purpose. The remote controller utilizes human body heat energy to generate electricity, utilizes the electric energy in the remote controller, reduces the pollution of waste batteries to the environment on the one hand, reduces the use cost on the other hand, and has long service life.

Drawings

FIG. 1 is a structural view of a thermoelectric power generation sheet

FIG. 2 is a circuit element connection diagram of the present invention

FIG. 3 is a schematic diagram of an optimal structure of a thermoelectric generation remote controller according to the present invention

FIG. 4 is a diagram of the optimum plugging position of the thermoelectric generation remote controller of the present invention

The codes in the figures are respectively: 1 is the cold junction base plate, 2 is the hot junction base plate, 3 is the button, 4 is the display screen, 5 is the circuit board, 6 is the component that steps up, 7 is the fin, 8 is the thermoelectric generation piece, 9 is the upper cover, 10 is the lower cover, 11 is infrared transmitting tube, 12 is the light, 13 is the recess, 14 is upper cover and lower cover grafting position, 15 is fin and lower cover grafting position, 16 is upper cover, circuit board and the component grafting position that steps up.

Detailed Description

The utility model provides a thermoelectric generation remote controller, is by button 3, display screen 4, circuit board 5, step up component 6, fin 7, thermoelectric generation piece 8 (one side is cold junction base plate 1, and one side is hot junction base plate 2), upper cover 9, lower cover 10, infrared transmitting tube 11 and light 12 and constitute, its characterized in that: display screen 4, circuit board 5, the component 6 that steps up, thermoelectric generation piece 8, infrared transmitting tube 11 and light 12 are established ties, and button 3 and display screen 4 are located the upper portion of remote controller, and infrared transmitting tube 11 and light 12 are located the front end of remote controller, and circuit board 5, the component 6 that steps up, fin 7 are located inside the remote controller.

Cold junction base plate 1 and fin 7 of thermoelectric generation piece 8 contact, scribble between the two and accomplish seamless laminating by heat conduction silicone grease, and the hot junction base plate 2 and the remote controller lower cover 10 of thermoelectric generation piece 8 contact, are equipped with the recess 13 of placing thermoelectric generation piece 8 in the middle of the lower cover 10.

The display screen 4, the infrared transmitting tube 11 and the illuminating lamp 12 are connected on the circuit board 5, the lower cover 10 is made of heat insulating materials except the groove 13, the groove 13 is made of heat conducting materials, and the thermoelectric generation piece 8 is placed in the groove 13. After the thermoelectric generation piece 8 is placed, the heat dissipation piece 7 is firstly inserted on the lower cover 10, the inserting position of the heat dissipation piece is shown as a position 15 in the attached drawing 4, the circuit board 5 is inserted under the upper cover 9, the inserting position of the circuit board 5 is shown as a position 16 in the attached drawing 4, the boosting element 6 is inserted under the circuit board 5, the inserting position of the boosting element is shown as a position 16 in the attached drawing 4, and finally the upper cover 9 and the lower cover 10 are inserted together, and the inserting position of the boosting element is shown as a position 14 in the attached drawing 4.

The device is at the during operation, under the room temperature state, the remote controller thermoelectric generation piece 8 position is held to the hand, thermoelectric generation piece hot junction base plate 2 that makes through recess 13 department heat conduction material absorbs the temperature of hand, fin 7 reduces the temperature of thermoelectric generation piece cold junction base plate 1, thermoelectric generation piece 8 then turns into the electric energy with the temperature difference, rise voltage through the component 6 that steps up, open the electrical apparatus power, with the signal reception window of the electric apparatus of remote controller infrared emission pipe 12 alignment institute, press remote controller button 3 and can use, the light 12 convenience of customers on remote controller top are in the use of throwing light on night.

It will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in the embodiments described above without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims.

Claims (3)

1. The utility model provides a thermoelectric generation remote controller, is by button, display screen, circuit board, step up component, fin, thermoelectric generation piece, upper cover, lower cover, infrared transmitting tube and light and constitutes, and wherein thermoelectric generation piece one side is the cold junction base plate, and the another side is the hot junction base plate, its characterized in that: display screen, circuit board, the component that steps up, thermoelectric generation piece, infrared transmitting tube and light are established ties, and button and display screen are located the upper portion of remote controller, and infrared transmitting tube and light are located the front end of remote controller, and circuit board, the component that steps up, fin are located inside the remote controller.

2. The thermoelectric power generation remote controller according to claim 1, wherein: cold junction base plate and the fin of thermoelectric generation piece contact, scribble heat conduction silicone grease between the two and accomplish seamless laminating, the hot junction base plate and the remote controller lower cover of thermoelectric generation piece contact, be equipped with the recess of placing the thermoelectric generation piece in the middle of the lower cover.

3. The thermoelectric power generation remote controller according to claim 1, wherein: the display screen, the infrared transmitting tube and the illuminating lamp are connected to the circuit board, the lower cover is made of heat insulating materials except for the groove, the groove is made of heat conducting materials, the thermoelectric generation piece is placed into the groove, the radiating fin is firstly inserted into the lower cover after the thermoelectric generation piece is placed into the groove, the circuit board is then inserted into the lower cover, the boosting element is then inserted into the lower surface of the circuit board, and finally the upper cover and the lower cover are inserted together.