KR101156929B1 - Self-stirring Pot - Google Patents

Abstract

The self-stirring container according to an embodiment of the present invention is installed in the container housing (10), the thermoelectric power generation module (20), which is installed in the container housing (10) and produces electric power by a temperature difference, and arranged inside the container housing (10). And a stirring module 30 for generating a rotational force by the electric power produced by the thermoelectric generator module 20 to stir the liquid in the container housing 10, and the thermoelectric generator module 20 has a Seebeck effect. The thermoelectric power generation device 22 for generating power by the thermoelectric power generation device 22, the thermoelectric power generation device 22 is installed and the insertion portion 27 is disposed through the container housing 10, the thermoelectric is fixed to the container housing 10 It includes a housing 24, the connection electrode 22a for supplying the power generated by the thermoelectric generator 22 to the stirring module 30, the stirring module 30 is coupled to the insertion portion 27 Inner housing 32 is fixed to the container housing 10, the inner housing 32 And an outer housing 40 which is connected to the motor 34 and is connected to the motor 34 to be rotated by the rotational force of the motor 34, and the outer housing 40 is formed integrally with the stirring paddle 50 to agitate the liquid inside the container housing 10, when the heat is supplied to the container housing 10, the power produced by the heat source generator As the stirring paddle 50 rotates, there is an effect of stirring the liquid inside the container housing 10 without a separate power source.

Description

Self-stirring Pot

The present invention relates to a self-stirring pot, and more particularly, to a self-stirring container which rotates a stirring module inside a container by thermoelectric power generation due to a temperature difference to agitate the contents contained in the container. It is about.

In general, a container for heating the contents heats the contents with heat generated from an external heat source such as a gas range, a heat plate, or a gas oven.
In this case, if the contents are in a liquid state, they are heated by heat generated from an external heat source, causing convection, and the whole is heated evenly by heat transfer by the convection.
By the way, if the content is a liquid state exhibiting a viscosity of a certain degree or more, for example, porridge, soup, etc. is heated and pressed to the inner surface of the container, in order to prevent this, the user has to stir the content continuously to prevent it.

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One embodiment of the present invention is devised to solve the above inconvenience, a self-stirring vessel for stirring the contents contained in the container by rotating the stirring module inside the container by thermoelectric power generation by the temperature difference without a separate power supply to provide.

In order to solve the above problems, an embodiment of the present invention, the container housing 10, the thermoelectric power generation module 20 is installed in the container housing 10 to produce power by the temperature difference, the container housing 10 The thermoelectric power generation module 20 includes a stirring module 30 disposed inside the agitation force to generate a rotational force by the electric power produced by the thermoelectric power generation module 20 and to agitate the liquid in the container housing 10. The thermoelectric power generation device 22 and the thermoelectric power generation device 22 which generate electric power by the Seebeck effect are installed, and the insertion part 27 is disposed to penetrate the container housing 10 so that the container housing 10 is provided. A thermoelectric housing 24 fixed to the thermoelectric housing 24 and a connection electrode 22a for providing power generated by the thermoelectric generator 22 to the stirring module 30, wherein the stirring module 30 includes the insertion unit ( 27 is coupled to the inner housing (32) fixed to the container housing (10), An outer housing installed in the inner housing 32 and connected to the motor 34 and the motor 34 which is supplied with power through the connection electrode 22a and rotated by the rotational force of the motor 34. 40), it is formed integrally with the outer housing 40 provides a self-stirring vessel including a stirring paddle 50 for stirring the liquid inside the container housing (10).
In addition, an embodiment of the present invention the container housing (10); A thermoelectric power generation module 20 installed in the container housing 10 and producing electric power by a temperature difference; A self-stirring container disposed inside the container housing 10 and including a stirring module 30 for generating a rotational force by electric power produced by the thermoelectric power generation module 20 to stir the liquid in the container housing 10. To provide.
At this time, the thermoelectric generator module 20, the thermoelectric generator 22 for producing electric power by the Seebeck effect; A thermoelectric housing (24) on which the thermoelectric generator (22) is installed and fixed to the container housing (10); And a connecting electrode 22a for providing the power generated by the thermoelectric generator 22 to the stirring module 30, wherein the stirring module 30 is coupled to and fixed to the thermoelectric housing 10. A housing 32; A motor (34) installed inside the inner housing (32) and receiving power from the thermoelectric generator (22); The stirring paddle 50 is connected to the motor 34 and rotated by the rotational force of the motor 34 to agitate the liquid in the container housing 10.
In addition, an embodiment of the present invention the container housing (100); A container inner housing 150 fixed inside the container housing 100; An insulation pad 130 disposed inside the container inner housing 150;
A thermoelectric generator (210) disposed inside the container inner housing (150) and disposed above the insulation pad (130) to produce power by a temperature difference; A motor 200 generating a rotational force by the electric power produced by the thermoelectric generator 210 and having a motor shaft 202 penetrating the container inner housing 150; A connection electrode 211 connecting the thermoelectric generator 210 and the motor 200 to each other; A stirring paddle 110 disposed inside the container housing 100 and rotated by the rotational force of the motor 200; It is provided between the motor shaft 202 and the container inner housing 150 to provide a self-stirring container including a sealed packing 120 for sealing the inside of the container inner housing 150.

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The self-stirring container according to an embodiment of the present invention generates power from the thermoelectric generator when heat generated from an external heat source is applied to the container housing, thereby rotating the stirring paddle inside the container housing, thereby stirring the contents without a separate power supply. can do.
In addition, the self-stirring container according to an embodiment of the present invention is a thermoelectric power generation module is disposed on the lower side of the container housing so that the high temperature portion is continuously heated by the heat source and the low temperature portion is continuously cooled by the contents can efficiently produce power. .
In addition, the self-stirring container according to an embodiment of the present invention can simplify the connection structure between the stirring module and the thermoelectric module because the thermoelectric housing for fixing the thermoelectric power module is connected to the stirring module inside the container housing through the container housing. There is an advantage.
In addition, the self-stirring container according to an embodiment of the present invention is continuously cooled by the contents or the atmosphere inside the container housing having a relatively low temperature because the motor is installed inside the inner housing to prevent overheating of the motor. Can be.

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1 and 2 are each a perspective view of a self stirring container according to the first embodiment of the present invention.
3 is an exploded perspective view of FIG. 1;
4 is an exploded perspective view of FIG. 2;
5 is a cross-sectional view of a self-stirring container according to a first embodiment of the present invention.
6 is a cross-sectional perspective view of a self stirring container according to a second embodiment of the present invention.
7 is an exploded perspective view of FIG. 6;

Prior to the full description, one embodiment of the present invention may exhibit several different aspects depending on the specific configuration and operation. Therefore, hereinafter, each of the embodiments will be described separately, and for convenience, common contents of each embodiment will be described in detail in the first embodiment instead of the other embodiments.
<First Embodiment>
1 and 2 are respectively a perspective view of the self-stirring container according to the first embodiment of the present invention, Figure 1 is placed correctly, but is shown through a part to aid understanding, Figure 2 is an inverted state. 3 is an exploded perspective view of FIG. 1, FIG. 4 is an exploded perspective view of FIG. 2, and FIG. 5 is a front sectional view of FIG. 1.
As shown, the self-stirring container according to the present embodiment is installed in the container housing 10, the container housing 10 containing the contents, the thermoelectric power generation module 20 for producing power with heat generated from an external heat source, It is disposed inside the container housing 10 includes a stirring module 30 for generating a rotational force by the power of the thermoelectric power module 20 to agitate the contents.
Looking at each of them in detail as follows.
The container housing 10 has a bowl shape in which an upper surface thereof is opened as a portion containing contents. In this case, the container housing 10 may be made of a material usable in a conventional container such as metal or glass.
The thermoelectric generator module 20 includes a thermoelectric generator 22 to which the Seebeck effect is applied as a part of converting thermal energy into electrical energy. Here, thermoelectric power is broadly referred to as converting thermal energy into electrical energy. In general, a method of generating electromotive force by moving thermal energy according to a temperature difference between a high temperature part and a low temperature part in a connection structure of different types of metals or semiconductors is known. The available heat source temperature is well known at about 200-2000 ° C. (currently technical level).
In an embodiment of the present invention, a thermoelectric generator 22 in which a P-type and an N-type semiconductor are bonded is used, and when one side of the thermoelectric generator 22 is at a low temperature and the other is at a high temperature, the thermoelectric generator 22 is used. Through the thermal current is generated from the high temperature side to the low temperature side. That is, the thermal energy introduced into the high temperature side generates electromotive force during the process of being discharged to the low temperature side through the thermoelectric generator 22, and when the unit thermoelectric generator is connected to a plurality of units, more power can be obtained. Since the principle of power generation using the above-mentioned thermoelectric generator 22 is a general technique to those skilled in the art, further detailed description thereof will be omitted.
The thermoelectric generator module 20 includes a thermoelectric housing 24 for fixing the thermoelectric generator 22 to the lower side of the container housing 10, and the thermoelectric generator 22 supplies power to the stirring module 30. The connecting electrode 22a is provided. In addition, the thermoelectric housing 24 is formed integrally with the mounting portion 25 and the mounting portion 25 into which the thermoelectric power generator 22 is inserted, thereby fixing the mounting portion 25 to the lower side of the container housing 10 and connecting the same. It includes a connecting portion 26 to guide the electrode 22a to the stirring module 30, the insertion portion 27 is formed in the connecting portion 26 and penetrated through the container housing 10. At this time, the connecting portion 26 is in the shape of a disc, and is fixed to the lower side of the container housing 10 through fastening means (not shown) such as bolts or rivets. And the thermoelectric generator 22 is inserted and fixed to the mounting portion 25, the upper side of the low temperature portion is in close contact with the container housing 10, the lower side of the high temperature portion toward the heat source.
As a result, the high temperature portion of the thermoelectric generator 22 is continuously heated at a high temperature by a heat source, and the low temperature portion is continuously cooled at a low temperature by the contents to generate power from the thermoelectric generator 22. In this case, an installation groove 10a for the thermoelectric generator 22 and the connection electrode 22a may be concave on the lower side of the container housing 10, and the thermoelectric generator 22 and the connection electrode 22a may be concave. Is inserted into the installation groove (10a) to minimize the portion projecting out of the container housing (10). In addition, the insertion portion 27 has a cylindrical shape, and an electrode hole 27a into which the connecting electrode 22a is inserted is formed on the outer circumferential surface thereof, and a thread 27b for coupling with the stirring module 30 is formed on the inner circumferential surface thereof.
The stirring module 30 is installed in the inner housing 32 and the inner housing 32 fixed to the inside of the container housing 10 by being combined with the insertion part 27 to supply power through the connecting electrode 22a. Outer housing connected to the receiving motor 34, the top cover 36 for fixing the motor 34 to the inner housing 32, the motor shaft 35 of the motor 34 is rotated by the rotational force of the motor 34 ( 40), the outer housing 40 is formed integrally with a stirring paddle 50 for stirring the liquid inside the container housing (10).
At this time, the inner housing 32 is a cylindrical through which the hollow 32a is penetrated, and a lower portion of the inner housing 32 is provided with a fixing portion 33 that is engaged with and fixed to the insertion portion 27 of the thermoelectric housing 24. A thread 33b corresponding to the thread 27b of the insertion part 27 is provided, and the top cover 36 is fitted on the upper side of the inner housing 32 to insert the motor 34 inserted into the hollow 32a. Fix it. To this end, the fitting groove 32b may be formed at the upper side of the inner housing 32, and the fitting protrusion 36b may be formed at the top cover 36 to be fitted to the fitting groove 32b. A shaft hole 36a through which the motor shaft 35 of the motor 34 penetrates is formed in the top cover 36, and the motor shaft 35 is fixed to the outer housing 40 through the top cover 36. . In addition, the outer housing 40 has a hollow cylindrical shape and a plurality of stirring paddles 50 are disposed on the outer circumferential surface thereof. In the present embodiment, the outer housing 40 and the stirring paddle 50 are integrally formed.
In addition, the stirring paddle 50 is formed with an inclined surface 50a to move the fluid in the axial direction of the motor 34 to move the fluid in the lower side of the container housing 10 in the upward direction. Meanwhile, in the present embodiment, the outer housing 40 and the stirring paddle 50 are described as separate configurations, but the stirring paddle 50 is directly connected to the motor 34 without the outer housing 40. You may connect.

Hereinafter, the operation process of the self-stirring container according to the present embodiment will be described.
First, when the liquid contents are contained in the container housing 10 and heat is supplied from the lower side of the container housing 10 by a heat source such as a gas range, the thermoelectric power element attached to the lower side of the container housing 10. (22) is heated.
At this time, the lower side of the thermoelectric power generation element 22 is formed of a high temperature by the heat source as a high temperature portion, and the upper side is formed by the contents of the inside of the container housing 10 as the low temperature portion, and the thermoelectric power generation by the temperature difference therebetween. Power is generated from module 20 and the temperature difference is maintained until the contents are completely evaporated.
And the electric power produced from the thermoelectric generator 22 is supplied to the motor 34 of the stirring module 30 to rotate the motor shaft 35 and the outer housing 40 coupled thereto, and the outer housing 40 and The stirring paddle 50 formed integrally rotates with the outer housing 40 to stir the contents. In addition, when the stirring paddle 50 rotates, the inclined surface 50a of the stirring paddle 50 flows the contents upward, thereby facilitating thermal diffusion of the contents, while the contents of the inner lower portion of the container housing 10 are stirred paddles. It is agitated by the (50) to prevent the burning phenomenon by pressing the bottom of the container housing (10).
On the other hand, if necessary in the above description, the paddle 50 may be disposed as close or as close as possible to the bottom of the container housing 10, thereby preventing the contents from sticking to the bottom of the container housing 10 in advance. have.
In addition, although not shown in the drawings, if necessary, a separate circuit part for adjusting the amount of power generated from the thermoelectric generator 22 and delivered to the motor 34 may be added, and the circuit part may control the amount of power delivered to the motor 34. By adjusting the function of adjusting the rotational speed of the stirring paddle 50, by converting the current direction transmitted to the motor 34 may be responsible for the function of adjusting the rotational direction of the stirring paddle 50, and further, Even though the heat source is removed by storing a certain amount of power, the stirring paddle 50 may be rotated for a while to prevent the contents from sticking to the bottom of the container housing 10.
On the other hand, the self-stirring container according to the present embodiment has been described as an example of food, but may be used to agitate experimental liquids, such as chemicals other than food.

Second Embodiment
6 is a perspective view illustrating a cross section of a self-stirring container according to a second embodiment of the present invention, and FIG. 7 is a perspective view illustrating an exploded state of FIG. 6.
As shown, the self-stirring container according to the present embodiment is disposed in the container housing 100 containing the contents, the container inner housing 150 fixed inside the container housing 100, the container inner housing 150. Insulated pad 130, the container inner housing 150, the thermoelectric generator 210, the motor shaft 202 is disposed on the upper side of the insulating pad 130 to produce power by the temperature difference, the container inner housing 150 The motor 200, the vessel housing 100 for rotating the motor shaft 202 with the power produced by the thermoelectric generator 210 is connected to the connection electrode 211 of the thermoelectric generator 210 is disposed to pass through) A sealed packing disposed between the stirring paddle 110, the motor shaft 202, and the container inner housing 150, which is disposed inside and rotated by the rotational force of the motor 200, to substantially seal the container inner housing 150 ( 120).
The self-stirring container according to the present embodiment includes a motor 200 and a thermoelectric generator 210 disposed together inside the container inner housing 150 and on a motor shaft 202 disposed through the container inner housing 150. By the stirring paddle 110 is configured to rotate.

* Since the operation of the stirring paddle 110 according to the present embodiment is the same as the operation principle of the above embodiment, a detailed description thereof will be omitted.
As described above, one embodiment of the present invention has been described with reference to the illustrated drawings, but one embodiment of the present invention is not limited to the embodiments and drawings described herein, and the scope of the technical spirit of one embodiment of the present invention is protected. Within a variety of combinations within the application is possible by those skilled in the art.

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10: container housing 20: thermoelectric power module
22: thermoelectric element 22a: connecting electrode
24: thermoelectric housing 25: mounting portion
26: connection portion 27: insertion portion
27a: electrode hole 27b: thread
30: stirring module 32: inner housing
32a: hollow 32b: fitting groove
33: fixing part 33b: thread
34: motor 35: motor shaft
36: top cover 36a: shaft hole
36b: fitting 40: outer housing
50: stirring paddle 50a: inclined surface

Claims (5)

A container housing, a thermoelectric power module installed in the container housing and producing electric power by a temperature difference, disposed inside the container housing and generating rotational force by electric power produced by the thermoelectric power module to stir the liquid inside the container housing. Including a stirring module,
The thermoelectric generator module is a thermoelectric generator for generating power by the Seebeck effect, a thermoelectric generator in which the thermoelectric generator is installed and an insertion part is disposed through the vessel housing and is fixed to the vessel housing. It includes a connection electrode for providing power to the stirring module,
The stirring module is coupled to the inserting unit, an inner housing fixed to the container housing, a motor installed inside the inner housing and supplied with power through the connection electrode, and connected to the motor to rotate by the rotational force of the motor. The outer housing, which is formed integrally with the outer housing is a self-stirring vessel comprising a stirring paddle for stirring the liquid inside the container housing.
delete delete delete Container housing 100;
A container inner housing 150 fixed inside the container housing 100;
An insulation pad 130 disposed inside the container inner housing 150;
A thermoelectric generator (210) disposed inside the container inner housing (150) and disposed above the insulation pad (130) to produce power by a temperature difference;
A motor 200 generating a rotational force by the electric power produced by the thermoelectric generator 210 and having a motor shaft 202 penetrating the container inner housing 150;
A connection electrode 211 connecting the thermoelectric generator 210 and the motor 200 to each other;
A stirring paddle 110 disposed inside the container housing 100 and rotated by the rotational force of the motor 200; And
A self-stirring container including an airtight packing (120) disposed between the motor shaft (202) and the container inner housing (150) to seal the inside of the container inner housing (150).

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