CN108551279A - A kind of thermo-electric generation power supply pot - Google Patents

Abstract

The present invention relates to electric energy technical fields, more particularly to a kind of thermo-electric generation power supply pot, including pot body, it is set to hot junction and the multi-cascade temperature-difference power generation module below pot body, the cold end for being set to pot nside and electric appliance assembly box, and the electric energy output interface being electrically connected with electric appliance assembly box；Multi-cascade temperature-difference power generation module is set between pot body and hot junction；Cold end is set to bottom of pot body, is provided with voltage stabilizing energy storage and control module in electric appliance assembly box, multi-cascade temperature-difference power generation module is connect by cable with voltage stabilizing energy storage with control module.The power supply pot may be implemented to electric energy directly to convert the heat that burning generates, and can generate electricity while heating food, and is aided with voltage stabilizing and energy storage device and to the heat of generation effectively store and convert；Efficiency can be improved using multi-cascade temperature-difference power generation module, while can guarantee that the hot end face temperature of thermoelectric pile is uniform；The power supply Cooker structure is simple, facilitates the carrying and use, and energy conservation and environmental protection.

Description

A thermoelectric power generator

technical field

The invention relates to the technical field of electric energy, in particular to a power cooker for thermoelectric power generation.

Background technique

Thermoelectric power generation, also known as thermoelectric power generation, is a green and environmentally friendly power generation method, and its basic principle is the Seebeck effect. Thermoelectric power generation technology is a technology that uses thermal energy to directly generate electricity. Compared with traditional power generation methods, it has simple structure, strong durability, no moving parts, no noise during operation, no waste discharge, long service life, and reliability. A series of advantages, it is an environment-friendly power generation method. The use of thermoelectric power generation technology can directly convert various low-grade thermal energy such as solar energy, geothermal energy, and industrial waste heat into electrical energy. It is precisely because of the above-mentioned advantages of thermoelectric power generation that it has been widely used in aviation, military and other fields.

Some existing thermoelectric power generation devices mainly generate electricity by adding hot water to a container and utilizing the temperature difference between the temperature of the hot water and the external environment. For example, Xi Tianjing introduced a thermoelectric power generation cup in his patent "Thermoelectric Power Generation Cup". By pouring hot water into the cup, the temperature difference between the inside and outside of the cup can be used to generate electricity, which can directly reflect the process of converting heat energy into electric energy. It is mainly used for Teaching activities, so that students have a better understanding of the conversion of heat energy and electric energy; Tian Haijin designed a hot water cup that uses the low-grade heat dissipation of daily drinking cups in "Hot Water Cup That Can Generate Power", which has high power generation efficiency and high performance. The stable temperature difference power generation cup makes ordinary cups have the functions of drinking water, generating electricity, listening to music, lighting, etc., and is environmentally friendly, energy-saving, hygienic, and free of any pollution. It exceeds 100°C, so this power generation method cannot obtain a larger temperature difference, and the power generation power is relatively small, and the power generation capacity is insufficient in harsh environments such as the wild.

Therefore, in view of the existing problems in the prior art, it is particularly important to provide a thermoelectric power generation device with simple structure, high power generation, high heating efficiency, energy saving and environmental protection.

Contents of the invention

The purpose of the present invention is to avoid the disadvantages of the prior art and provide a thermoelectric power generator. The power pot has the advantages of simple structure, high generating power, high heating efficiency, convenient use, energy saving and environmental protection.

The object of the present invention is achieved through the following technical solutions:

Provided is a thermoelectric power generation pot, including a pot body, a hot end arranged under the pot body and a multi-cascade thermoelectric power generation module, a cold end arranged inside the pot body and an electrical assembly box, and an electric power supply electrically connected to the electrical assembly box output interface; the multi-cascade thermoelectric power generation module is set between the pot body and the hot end; the cold end is set at the bottom of the pot body; The cascaded thermoelectric power generation module is connected with the voltage-stabilizing energy storage and control module through cables.

Wherein, the heating surface of the hot end is a curved spherical crown heating surface.

Further, the spherical crown heating surface is coated with a nano heat-absorbing coating.

Wherein, the multi-cascade thermoelectric power generation module includes a third-stage thermoelectric sheet, a second flat heat pipe, a second-stage thermoelectric sheet, a first flat heat pipe, and a first-stage thermoelectric sheet stacked in sequence.

Wherein, the cold end is provided with a water inlet, a water outlet and a plurality of heat dissipation protrusion arrays for dispersing water flow.

Further, the heat dissipation protrusions in the array of heat dissipation protrusions are needle-shaped and extend upward from the bottom wall of the pot body.

Further, the water inlet is provided with a filter membrane for filtering particulate matter.

Wherein, the pot body is provided with an interlayer, and the interlayer is provided with heat-insulating fillers.

Wherein, the power output interface includes a USB interface.

Wherein, the voltage stabilizing energy storage module in the electrical assembly box is a supercapacitor battery.

The beneficial effects of the present invention are:

The thermoelectric power cooker of the present invention can directly convert the heat generated by combustion or other external heat into electric energy, can generate electricity while heating food, and is supplemented by a voltage stabilizing and energy storage device to effectively store and store the generated heat. Transformation; the use of multi-cascade thermoelectric power generation modules can improve efficiency, and at the same time ensure that the temperature of the hot end surface of the thermopile is uniform; the power pot has a simple structure, is easy to carry and use, and is energy-saving and environmentally friendly.

Description of drawings

The present invention will be further described by using the accompanying drawings, but the content in the accompanying drawings does not constitute any limitation to the present invention.

Fig. 1 is a structural schematic diagram of the present invention.

Fig. 2 is a schematic structural diagram of the multi-cascade thermoelectric power generation module of the present invention.

1——Spherical crown heating surface;

2 - hot end;

3——Multi-cascade thermoelectric power generation module;

4 - cold end;

5——radiation bump array;

6——Electrical assembly box;

7——electric energy output interface;

8 - pot body;

9 - filter membrane;

10—Insulation filler.

Detailed ways

In order to make the object, technical solution and advantages of the invention clearer, the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

Example 1

One of the implementations of a thermoelectric power generation pot of the present invention, as shown in Figure 1 and Figure 2, includes a pot body 8, a hot end 2 and a multi-cascade thermoelectric power generation module 3 arranged under the pot body 8, arranged on The cold end 4 and the electrical assembly box 6 inside the pot body 8, and the electric energy output interface 7 electrically connected to the electrical assembly box 6; the multi-cascade thermoelectric power generation module 3 is arranged between the pot body 8 and the hot end 2; the cold end 4 It is arranged at the bottom of the pot body 8, and the electrical appliance assembly box 6 is provided with a voltage-stabilized energy storage and control module, and the multi-cascade thermoelectric power generation module 3 is connected to the voltage-stabilized energy storage and control module through cables.

The thermoelectric power cooker of the present invention can directly convert the heat generated by combustion or other external heat into electric energy, can generate electricity while heating food, and is supplemented by a voltage stabilizing and energy storage device to effectively store and store the generated heat. Transformation; the use of multi-cascade thermoelectric power generation modules 3 can improve efficiency, and at the same time can ensure that the temperature of the hot end 2 of the thermopile is uniform; the power pot has a simple structure, is easy to carry and use, and is energy-saving and environmentally friendly. The heat source of the power cooker can use photothermal power generation, and can also use the temperature difference in the environment to generate power, which is more generally applicable than solar photovoltaic power generation, has no carbon emissions, and is environmentally friendly in production.

Wherein, the multi-cascade thermoelectric power generation module 3 includes third-stage thermoelectric sheets, second flat heat pipes, second-stage thermoelectric sheets, first flat heat pipes, and first-stage thermoelectric sheets stacked in sequence. The efficiency can be improved by using multi-layer cascading. The heating or heat insulation part can contain a uniform temperature body. The purpose is to make the temperature of the hot end of the thermopile even. Three structures. Compatible materials, under optimized operating temperature conditions; a three-stage stacked thermopile with flat heat pipes arranged between each two stages. Assuming that the temperature of the hot end 2 is 700 degrees Celsius and the temperature difference of each thermoelectric sheet is 200 degrees Celsius, the first flat heat pipe and the second flat heat pipe need to work at 500 degrees Celsius and 300 degrees Celsius respectively.

Wherein, the pot body 8 is provided with an interlayer, and a heat insulating filler 10 is arranged in the interlayer. The heat insulating filler 10 ensures that the outside of the pot body 8 is not hot, and the heat inside the pot body 8 is not lost, which is safe and reliable. The thickness of the thermal insulation filler 10 can be set to one inch thick according to specific conditions.

Wherein, the power output interface 7 includes a USB interface, and a plurality of other interfaces may also be provided, which are specifically designed according to needs. Lighting lamps or other equipment requiring power supply can be installed on the power output interface 7, which has high practicability.

Wherein, the voltage stabilizing energy storage module in the electrical assembly box 6 is a supercapacitor battery. Supercapacitor battery is a new type of energy storage device, which has short charging time, long service life, good temperature characteristics, energy saving and environmental protection.

Example 2

One of the implementations of a thermoelectric power generator according to the present invention, as shown in Figure 1 and Figure 2, the main technical solution of this embodiment is basically the same as that of Embodiment 1, and the features not explained in this embodiment are adopted The explanation of Embodiment 1 will not be repeated here. The difference between this embodiment and embodiment 1 is that the heating surface of the hot end 2 is a curved spherical crown heating surface 1 . Further, the spherical crown heating surface 1 is coated with a nano heat absorbing coating. Designing the heating surface as a curved spherical crown heating surface 1 can improve the efficiency of the hot end 2, and the nano heat-absorbing coating further improves the heating effect. This design ensures that the power cooker has better heat collection performance.

Example 3

One of the implementations of a thermoelectric power generator according to the present invention, as shown in Figure 1 and Figure 2, the main technical solution of this embodiment is basically the same as that of Embodiment 1 or Embodiment 2, and no explanation is given in this embodiment The features of , using the explanation of Embodiment 1 or Embodiment 2, will not be repeated here. The difference between this embodiment and embodiment 1 or embodiment 2 is:

Wherein, the cold end 4 is provided with a water inlet, a water outlet and a plurality of heat dissipation protrusion arrays 5 for dispersing water flow. Further, the heat dissipation protrusions in the heat dissipation protrusion array 5 are needle-shaped and extend upward from the bottom wall of the pot body 8 . The needle-shaped protrusions can fully increase the contact area of the cold end 4, and the mixture of water and steam can be used for effective rapid cooling, and the temperature balance is effective.

Further, the water inlet is provided with a filter membrane 9 for filtering particulate matter. The filter membrane 9 can filter particles, but can allow water and water vapor to pass through, which not only ensures the cleanliness of the cold end 4, but also improves the cooling efficiency of the cold end 4.

The heat dissipation structure of the cold end 4 is simple and compact, the cost is low, the heat dissipation effect is good, and the temperature of the heat dissipation surface is uniform.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention rather than limit the protection scope of the present invention. Although the present invention has been described in detail with reference to the preferred embodiments, those of ordinary skill in the art should understand that Modifications or equivalent replacements are made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention.

Claims (10)

1. A thermoelectric power generation pot, comprising a pot body, characterized in that: it also includes a hot end arranged below the pot body and a multi-cascade thermoelectric power generation module, a cold end arranged inside the pot body and an electrical assembly box, and The electrical energy output interface electrically connected to the electrical assembly box; the multi-cascade thermoelectric power generation module is arranged between the pot body and the hot end; With the control module, the multi-cascade thermoelectric power generation module is connected with the voltage-stabilized energy storage and control module through cables. 2. A thermoelectric power supply pot according to claim 1, characterized in that: the heating surface of the hot end is a curved spherical crown heating surface. 3. A thermoelectric power generation pot according to claim 2, characterized in that: the spherical crown heating surface is coated with a nano heat-absorbing coating. 4. A thermoelectric power supply pot according to claim 1, characterized in that: the multi-cascade thermoelectric power generation module includes a third-stage thermoelectric sheet, a second flat heat pipe, a second-stage thermoelectric sheet, The first flat heat pipe and the first stage thermoelectric sheet. 5. A thermoelectric power generator according to claim 1, characterized in that: said cold end is provided with a water inlet, a water outlet and a plurality of heat dissipation protrusion arrays for dispersing water flow. 6 . The thermoelectric power generation pot according to claim 5 , wherein the heat dissipation protrusions in the array of heat dissipation protrusions are needle-shaped and extend upward from the bottom wall of the pot body. 7 . 7. A thermoelectric power generator according to claim 5, characterized in that: the water inlet is provided with a filter membrane for filtering particles. 8. A thermoelectric power generation pot according to claim 1, characterized in that: the pot body is provided with an interlayer, and the interlayer is provided with a heat-insulating filler. 9. A thermoelectric power generator according to claim 1, wherein the power output interface includes a USB interface. 10. A thermoelectric power generation pot according to claim 1, characterized in that: the voltage stabilizing energy storage module in the electrical appliance assembly box is a supercapacitor battery.