WO2016126118A1

WO2016126118A1 - Carbon heat generating module and carbon heat generating fryer using same

Info

Publication number: WO2016126118A1
Application number: PCT/KR2016/001219
Authority: WO
Inventors: 윤정섭; 조은자
Original assignee: 주식회사 이코원
Priority date: 2015-02-05
Filing date: 2016-02-04
Publication date: 2016-08-11
Also published as: KR20160096478A

Abstract

The present invention provides a carbon heat generating module and a carbon heat generating fryer using the same. The carbon heat generating module according to the present invention comprises: a body; partitioning conductive part arranged in the body to partition the inside of the body into a plurality of isolated space portions; and a carbon heat generating block arranged at each of the plurality of space portions to be received in the body, and generating heat by power supplied through the partitioning conductive part.

Description

Carbon heating module and carbon heating fryer using the same

The present invention relates to a carbon exothermic module and a carbon exothermic fryer using the same.

In particular, the present invention relates to a carbon heating module capable of effectively preventing cracks of a carbon block when using the carbon block as a heating element, and a carbon heating fryer using the same.

In general, as a method for heating or heating, a combustion method that generates heat while burning liquid, gas, and solid fuels, and an electric heater method that uses resistance heat generated when electric energy is applied to a resistor.

Carbon fiber of the carbon fiber heater heating method using electricity in the heat generates about 825.6 kcal when conducting 1 KW of electrical energy. In the case of the heating cable using copper wire, carbon fiber heater heating method has excellent thermal efficiency, while carbon fiber heater emits about 602 kcal of heat when 1 KW is applied. Negative ions have a beneficial effect on the human body in recent years, the trend is increasing.

The carbon fiber heater is applied to various facilities such as heating facilities as well as other hot water boilers.

On the other hand, it is also possible to form a carbon block by blocking the carbon into agglomerates, and then a method of heating by applying electric energy to the carbon block.

However, in the case of the carbon block, the strength of the carbon block itself is weak, such as cracks easily occur, and the durability is weak, which is a disadvantage that takes a long time and cost to repair the carbon block.

On the other hand, electric frying machine is generally used to fry fish, meat, vegetables, etc. in flour or fried flour and fry in oil or various breads such as donuts or croquettes mixed with various ingredients in flour and oil.

When the carbon block is used in the electric frying machine, it is thought that an economical or hygienic effect can be obtained. Therefore, a technical configuration that can effectively achieve this is required.

On the other hand, the information presented above is described as a background for aiding the understanding of the present invention, and does not mean a conventional technology known in the art.

Prior art documents considered by the applicant in connection with the present invention are as follows.

(1) Korean Unexamined Patent Publication No. 2014-0029775

(2) Korean Unexamined Patent Publication No. 10-2013-0093171

(3) Japanese Unexamined Patent Publication No. 2008-204679

(4) JP 2001-090971 A

An object of the present invention is to provide a carbon heating module and a carbon heat generating fryer using the same that can effectively prevent the crack of the carbon block when using the carbon block as a heating element.

According to the invention, the main body; A partition conductive part provided in the main body and partitioning the inside of the main body into a plurality of isolated space parts; A carbon heating module may be provided, each of which is provided in a plurality of spaces and is accommodated in the interior of the main body and includes a carbon heating block that generates heat by power supplied through the compartment conductive portion.

At this time, the partition conductive portion, the horizontal plate provided in the horizontal direction of the main body; A vertical plate provided in the longitudinal direction of the main body and intersecting with the horizontal plate; A main conductor provided in the main body; It may include a transfer conductor provided in the horizontal plate and the vertical plate to transfer the power delivered through the main conductor to each carbon heating block.

In this case, a conductor hole may be provided in the transfer conductor.

At this time, the main body, the receiving body consisting of a bottom portion and a wall portion; It includes a cover provided in the body, the cover may be provided as a good conductor.

At this time, the bottom portion and the wall portion may be provided as a non-conductor.

In addition, according to the present invention, a fryer main body is accommodated therein; A carbon heat generating module provided in the fryer main body to heat the object to be fried, wherein the carbon heat generating module includes a main body, a partition conductive part provided in the main body and partitioning the inside of the main body into isolated space parts, and a plurality of space parts, respectively. Carbon fever fryer can be provided, characterized in that provided with a carbon heating block is generated by the power supplied through the compartment conductive portion.

At this time, the frying cradle provided in the fryer main body provided as a place of the frying object; A module holder provided inside the fryer body to hold the carbon heating module; It may be configured to further include; a dreg receiving portion provided in the inner bottom of the fryer main body for receiving dregs falling from the object to fry.

According to the present invention, cracks of the carbon heating block can be efficiently prevented by providing a plurality of space portions isolated from the main body by using the compartment conductive portion and providing the carbon heating blocks in the plurality of space portions to be accommodated inside the main body.

In addition, according to the present invention by applying the carbon heating module to the fryer can be obtained economically or hygienically improved effect.

1 is a perspective view schematically showing a carbon heating module according to an embodiment of the present invention.

2 is a perspective view showing that the cover shown in Figure 1 is removed.

3 is a perspective view showing that the carbon heating block is separated in FIG.

4 is a perspective view of the compartment conductive part illustrated in FIG. 3.

5 is a perspective view schematically showing a carbon exothermic fryer according to an embodiment of the present invention.

FIG. 6 schematically illustrates the main part of FIG. 5; FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view schematically showing a carbon heating module according to an embodiment of the present invention, Figure 2 is a perspective view showing that the cover shown in Figure 1 is removed, Figure 3 is a carbon heating block in Figure 2 is separated 4 is a perspective view of the compartment conductive part shown in FIG. 3.

As shown in these figures, the carbon heating module 1 according to the present embodiment includes a main body 100 and a compartment conductive part provided in the main body 100 to partition the inside of the main body 100 into a plurality of isolated spaces. And a carbon heating block 300 provided in each of the plurality of space parts and accommodated in the main body 100 and generated by power supplied through the compartment conductive part 200.

The main body 100 may be provided in a rectangular parallelepiped shape and accommodates the carbon heating block 300 therein to prevent breakage of the carbon heating block 300 and transfers heat generated from the carbon heating block 300 to the outside.

In the present embodiment, the main body 100 is composed of a bottom portion 111 and a wall portion 112, the receiving body 110 and the compartment heat conductive portion 200 and the carbon heating block 300 is disposed therein, and the receiving body And a lid 120 that seals the open top of the 110.

The cover 120 may be configured of a good conductor (a well-heated object) so that the heat generated from the carbon heating block 300 is transferred to the outside. On the other hand, the receiving body 110 may be composed of a non-conductor (object that heat is not transferred well) so that most of the heat is emitted only in the direction of the cover 120. Therefore, in the present embodiment, the heat generated from the carbon heating block 300 may be mostly emitted through the cover 120.

In addition, in the present embodiment, the cover 120 may be screwed or bolted to be detachable from the receiving body 110.

2 to 4, the compartment conductive part 200 is accommodated in the interior of the main body 100 surrounded by the wall part 112 to partition the interior of the main body 100 into a plurality of spaces, and the external power source generates carbon heat. Transfer to block 300.

In addition, the compartment conductive part 200 prevents the carbon heating block 300 from being damaged due to the collision between the carbon heating blocks 300 by preventing the plurality of carbon heating blocks 300 from being in contact with each other.

The partition conductive part 200 includes a horizontal plate 210 provided in a horizontal direction of the main body 100, a vertical plate 220 provided in a vertical direction of the main body 100 to intersect the horizontal plate 210, and a main body ( The main conductor 230 provided in the 100 and the horizontal plate 210 and the vertical plate 220 are respectively provided to transfer the power transmitted through the main conductor 230 to each carbon heating block 300. And a transfer conductor 240.

In this case, the horizontal plate 210 and the vertical plate 220 may be made of a material that is electrically insulated from the main conductor 230 and the transfer conductor 240 while withstanding the high temperature of the carbon heating block 300 and mutually It may be manufactured integrally.

In addition, the main conductor 230 is connected to an external power supply unit (not shown) to supply power to the carbon heating block 300, and in this embodiment, the compartment conductive unit 200 is illustrated in FIGS. 3 and 4. As shown, it may be provided in a thin plate shape.

In this embodiment, the power supplied to the compartment conductive part 200 is transferred to the carbon heating block 300 by contact, and the carbon heating block 300 which is not in contact with the compartment conductive part 200 is the horizontal plate 210. And the transfer conductor 240 respectively provided on the vertical plate 220 may be supplied with power.

The transmission conductor 240 of the partition conductive part 200 may be provided in a circular shape, and a conductor hole 241 is provided at the center of the transmission conductor 240. The conductor hole 241 may communicate heat generated in the carbon heating block 300 with each other.

As shown in FIG. 2, the carbon heating block 300 is provided in each of the plurality of space parts partitioned by the partition conductive part 200, and supplies power through the main conductor 230 and the transfer conductor 240. It is supplied with heat.

Since the carbon heating block 300 is accommodated in the main body 100, the carbon heating block 300 may be protected from an external shock. In addition, since the carbon heating block 300 accommodated inside the main body 100 is prevented from being directly contacted by the horizontal plate 210 and the vertical plate 220, the carbon heating block 300 is prevented from being damaged due to a collision between the carbon heating blocks 300. can do.

FIG. 5 is a perspective view schematically showing a carbon exothermic fryer according to an embodiment of the present invention, and FIG. 6 is a view schematically showing a main part of FIG. 5.

The carbon fever fryer 1a includes a fryer main body 10 in which a frying object is accommodated therein, and a carbon exothermic module 1 described above provided in the fryer body 10 to heat the frying object.

The fryer main body 10 has a frying holder 11 provided as a place for frying objects, a module holder 12 provided inside the fryer body 10 to hold the carbon heating module 1, and a fryer body 10. It is provided with a residue receiving portion 13 and a door 14 provided in the inner bottom portion for receiving the residue falling from the object to fry.

In this case, the carbon heating module 1 may be detachably fitted to the module holder 12 provided inside the fryer main body 10, and the module holder 12 may be bolted to an inner bottom of the fryer body 10. Can be combined.

In addition, the residue receiving portion 13 is provided in the form of a container can be placed on the bottom of the fryer main body 10 to accommodate the residue falling from the object to fry.

In addition, the carbon heating module 1 may be selectively provided on the left and right sides of the fryer main body 10 as well as the ceiling, bottom, front and rear, rear and the like.

As described above, according to the present invention, a plurality of space parts isolated from the main body 10 are provided by using the compartment conductive part 200 in the carbon heating module 1, and the carbon heating block 300 includes the main body 10. Cracks in the carbon heating block 300 may be effectively prevented by providing the plurality of spaces to be accommodated in the spaces.

In addition, by applying the carbon heating module (1) to the fryer can be obtained economically or hygienically improved effect.

Claims

main body;

A partition conductive part provided in the main body and partitioning the inside of the main body into a plurality of isolated space parts;

A carbon heating block provided in each of the plurality of spaces, the carbon heating block being generated inside the main body and generated by power supplied through the compartment conductive unit;

Carbon heating module is configured to include.
The method according to claim 1,

The compartment conductive part,

A horizontal plate provided in a horizontal direction of the main body;

A vertical plate provided in the longitudinal direction of the main body and crossing the horizontal plate;

A main conductor provided in the main body;

A transfer conductor provided on each of the horizontal plate and the vertical plate to transfer power transmitted through the main conductor to each of the carbon heating blocks;

Carbon heating module, characterized in that configured to include.
The method according to claim 2,

And the transfer conductor comprises a conductor hole.
The method according to claim 1,

The main body,

A receiving body consisting of a bottom part and a wall part;

A cover provided in the main body;

It is configured to include,

Carbon cover module, characterized in that the cover is provided with a good conductor.
The method according to claim 4,

The bottom portion and the wall portion is a carbon heating module, characterized in that provided as a non-conductor.
A fryer main body for accommodating a frying object therein;

A carbon heating module mounted on the fryer main body to heat the frying object;

It is configured to include,

The carbon heat generating module includes a main body, a partition conductive part provided in the main body and partitioning the inside of the main body into a plurality of isolated space parts, and a power source provided in the plurality of space parts and supplied through the partition conductive part, respectively. A carbon heating block generating heat;

Carbon fever fryer characterized in that it comprises a.
The method according to claim 6,

A frying holder provided in the fryer main body and provided as a holding place of the frying object;

A module holder provided inside the fryer body to hold the carbon heating module;

A dreg accommodation portion provided in the bottom portion of the fryer main body to accommodate dregs falling from the frying object;

Carbon fever fryer comprising more.