WO2019245130A1

WO2019245130A1 - Frying tank having thermoelectric generation device

Info

Publication number: WO2019245130A1
Application number: PCT/KR2019/002814
Authority: WO
Inventors: 정재한; 조상흠; 박관호
Original assignee: 주식회사 대양
Priority date: 2018-06-19
Filing date: 2019-03-11
Publication date: 2019-12-26
Also published as: KR20190142865A; KR102063211B1

Abstract

The present invention relates to a frying tank having a thermoelectric generation device and, more specifically, to a frying tank having a thermoelectric generation device, which has a thermoelectric module provided in the lower part of the frying tank so as to utilize heat generated in the frying tank to generate electricity and deliver same to the outside. The present invention invented to resolve a technical issue comprises: a frying tank which has an open top to form an internal space and accommodates oil at a high temperature in the internal space so as to allow cooking by frying; a heating part joined to the bottom surface of the frying tank, for receiving heat from the outside of the frying tank; a cooing part provided at the lower part of the frying tank and having a plurality of tubes which are formed in an internal space surrounded by a cooling plate and allow a fluid at a low temperature to pass; and a thermoelectric module provided between the heating part and the cooling part, for generating electricity by means of a temperature difference between the heat of the heating part and the cooling part and providing the electricity to the outside.

Description

Frying tank with thermoelectric generator

The present invention relates to a frying tank equipped with a thermoelectric generator, and more particularly, a thermoelectric module is provided in the lower portion of the frying tank to generate electric power by using heat generated in the frying tank, and to provide the thermoelectric generator to the outside. It is about tempura tank.

Thermoelectric Generation is a technology that directly converts thermal energy into electrical energy, and is a concept of converting energy that heat generated by a temperature difference between a high temperature portion and a low temperature portion is converted to electric energy. When the temperature difference is applied to both ends of a material (element) connecting two different metals, thermal energy is converted into electrical energy by the temperature difference at both ends of the p and n semiconductor materials by using the Seebeck effect of generating electromotive force.

Such thermoelectric power generation can be stably performed for 24 hours as long as it can secure a stable heat source compared to solar cells affected by weather or sunshine. In particular, because it uses a solid-state electronic circuit, there is no operation part, so the structure is simple and various heat sources are available, and it is being spotlighted as a new alternative energy technology in response to global warming and high oil prices.

In recent years, hot air generated from industrial facilities such as heat emitted through a factory chimney, heat discarded in a general power generation facility, and heat emitted from a smelter has been used as a power source using medium and large thermoelectric generators.

However, despite the fact that high temperature heat is generated even in general homes or leisure life through non-industrial facilities, the heat generated is not properly utilized. In particular, in kitchens for cooking food, a large amount of high temperature heat is generated through a heating container such as a pot, but a technology using such heat has not been proposed until now, and thus, technology development is required.

The present invention has been invented to solve the above problems, it is provided with a thermoelectric module in the lower portion of the frying tank to provide a frying tank having a thermoelectric generator for generating power to transfer to the outside by utilizing the heat generated in the frying tank. Its purpose is to.

The object of the present invention is not limited to the above-mentioned object, and other objects which are not mentioned will be clearly understood from the following description.

In order to solve the technical problem, the upper portion according to the present invention is opened to form an inner space and the high temperature oil is accommodated in the inner space to fry cooking is possible; and is bonded to the lower surface of the frying tank of the frying tank A heating unit configured to receive external heat; and a cooling unit provided at a lower portion of the frying tank and surrounded by a cooling plate so that a plurality of tubes are formed to pass a low temperature fluid; and provided between the heating unit and the cooling unit and the heating unit. Characterized in that it comprises a thermoelectric module for generating electricity by the heat of the negative portion and the temperature difference of the cooling unit to provide to the outside.

In addition, the frying tank is provided with a cooling air tube vertically to the outside is connected to the tube provided in the cooling unit and prevents the user from being exposed to high temperature by passing a low-temperature fluid through the cooling air tube.

In addition, the frying tank is provided with a cooling air tube horizontally to the outside is connected to the tube provided in the cooling unit and prevents the user from being exposed to high temperature by passing a low temperature fluid through the cooling air tube.

The frying tank provided with the thermoelectric generator according to the present invention having the above-described configuration has an advantage of generating power by the thermoelectric module using heat generated during heating to be utilized to the outside.

In addition, by installing a cooling air pipe outside the frying tank to prevent the user from being exposed to high temperatures when using the frying tank to prevent accidents.

1 is an embodiment of a frying tank equipped with a thermoelectric generator according to the present invention.

2 is another embodiment of a frying tank equipped with a thermoelectric generator according to the present invention.

Figure 3 is another embodiment of a frying tank equipped with a thermoelectric generator according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an embodiment of a frying tank with a thermoelectric generator according to the present invention, Figure 2 is another embodiment of a frying tank with a thermoelectric generator according to the present invention, Figure 3 is a thermoelectric generator according to the present invention Another embodiment of the provided tempura bath.

The frying tank equipped with a thermoelectric generator according to an embodiment of the present invention, the frying tank 100, the heating unit 200, the cooling unit 300, the thermoelectric module 400 as shown in FIG.

The frying tank 100 is an upper portion of the inner space 110 is formed and the high temperature oil is accommodated in the inner space 110 is a container capable of frying cooking.

At this time, the frying tank 100 generates heat to a temperature of a constant high temperature to the outside by the oil heated inside.

And the frying tank 100 is composed of an upper portion and a lower portion is the oil is accommodated in the upper portion is provided with a thermoelectric generator.

By the thermoelectric generator, the heat source generated in the frying tank 100 may be converted into electrical energy to form energy.

In addition, it is possible to obtain a renewable energy by using the heat consumed is environmentally friendly, there is an economic advantage to utilize the generated electric energy in various fields.

The heating unit 200 is bonded to the lower surface of the frying tank 100 receives the heat generated from the frying tank 100.

At this time, the heating unit 200 may be provided on the lower outer side of the frying tank 100 receives a heat surrounding the outer surface.

The heating unit 200 receives a constant heat source from the frying tank 100 and transmits it to one side of the thermoelectric module 400 to be described later, and can supply power with high efficiency.

The cooling unit 300 is provided at the lower portion of the frying tank 100 and is surrounded by a cooling plate 310 to form an inner space 110, and a plurality of pipes 330 are provided therein so that a low temperature fluid passes therethrough. do.

At this time, the cooling unit 300 is bonded to the other side of the thermoelectric module 400 to be described later to maintain a low temperature.

And depending on the type of fluid passing through the tube 330 is installed in the cooling unit 300 can be used in water cooling and air cooling.

More specifically, as shown in FIG. 2, in the case of water-cooling, the tube 330 is horizontally provided at the lower portion of the frying tank 100 so as to pass a low temperature liquid.

And as shown in Figure 3 in the case of the air-cooled cooling air pipe 350 is provided vertically on the outside of the frying tank 100 is connected to the pipe 330 provided in the cooling unit 300 External gas passes through the cooling air pipe 350 to prevent the user from being exposed to high temperature.

The thermoelectric module 400 may be provided between the heating unit 200 and the cooling unit 300 to generate electricity by a temperature difference between the heating unit 200 and the cooling unit 300 to provide the outside. have.

The thermoelectric module 400 is an N-type and P-type thermoelectric elements are arranged between the substrate of the ceramic material and generates electrical energy by the temperature difference between both ends.

By transferring the electric energy obtained from the thermoelectric module 400 to the outside to illuminate the lights or to receive power to be used in the device to operate the device to save energy, by utilizing the heat of the frying tank 100 consumed Eco-friendly invention for producing energy has the advantage that can be used in various fields.

As described above, a preferred embodiment according to the present invention has been described, and the fact that the present invention can be embodied in other specific forms in addition to the above-described embodiments without departing from the spirit or scope thereof has ordinary skill in the art. It is obvious to them. Therefore, the above-described embodiments are to be considered as illustrative and not restrictive, and thus, the invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

Claims

A frying tank having an upper portion open to form an inner space and allowing a high temperature oil to be accommodated in the inner space to make a fried dish;

A heating part bonded to a lower surface of the frying tank to receive external heat of the frying tank;

A cooling unit provided at a lower portion of the frying tank and having a plurality of tubes formed in an inner space surrounded by a cooling plate to pass a low temperature fluid;

And a thermoelectric module provided between the heating unit and the cooling unit and configured to generate electricity by the heat of the heating unit and the temperature difference of the cooling unit, and to provide it to the outside.
The method of claim 1,

In the frying tank,

A frying tank provided with a thermoelectric generator for preventing a user from being exposed to high temperature by passing a low-temperature fluid through the cooling air tube and connected to the tube provided in the cooling unit vertically outside.
The method of claim 1,

In the frying tank,

A frying tank provided with a thermoelectric generator for horizontally provided with a cooling air tube horizontally outside the lower side and connected to the tube provided in the cooling unit to prevent a user from being exposed to high temperature by passing a low temperature fluid through the cooling air tube. .