KR101774407B1 - The heating device - Google Patents

Abstract

[0001] The present invention relates to a heat generating device, and more particularly, to a heat generating device in which, in combination with a power connection holder, a lamp coupled to a power connection holder and a power connection holder, A focal length connector for adjusting the focal distance of the light beam in order to focus the light beam to the maximum while being disposed on the front face of the light condensing case, And a heating plate which is placed at the frontmost position of the case and can be brought into contact with a light condensed on the front surface of the lamp to generate a high-temperature heat state instantaneously. (For example, DC 12V 30W to 55W supply situation, etc.) through the efficient utilization of light energy by the concentration of light rays (For example, 600 DEG C to 1200 DEG C) even under a low temperature environment (for example, 600 DEG C to 1200 DEG C), and thereby, at the side of various products employing the heat generating means, It is possible to guide the product maker and the user of the product use side to effectively avoid various problems due to the increase in the power consumption of the product without inducing any problem, by guiding the function of the product based on the exothermic mechanism to be performed normally have.

Description

The heating device

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a heat generating apparatus, and more particularly, to a heat generating apparatus which includes a power connection holder, a lamp coupled to a power connection holder, A focal length connector for adjusting a focal distance of the light beam to be condensed to the maximum while being disposed on the front face of the light condensing case, And a heating plate disposed on the outermost surface of the light-collecting case and capable of instantly generating a high-temperature heat by contact with a light condensed on the front surface of the lamp. (For example, DC 12V 30W to 55W supply condition) through the efficient utilization of light energy due to the concentration of light rays, (For example, 600 DEG C to 1200 DEG C) can be provided quickly even under a low temperature environment (for example, at a high temperature , It is guided so that the inherent functions based on the heat generation mechanism can be normally performed. Thus, it is guided to effectively avoid various problems caused by the increase in the power consumption of the product, To a heat-generating device which can be used.

2. Description of the Related Art [0002] In recent years, electrical and electronic technologies have rapidly developed, and heating elements having various functions and products using the same have been widely developed / distributed.

For example, Korean Patent Laid-Open No. 10-2001-35352 (name: heating composition for instant heating type food) (published on May 5, 2001), Korean Patent Publication No. 10-2006-67859 Of the present invention), Korean Patent Laid-Open No. 10-2010-130297 (titled instant heat-generating container) (published on Dec. 13, 2010), Korean Patent Laid-Open No. 10-2015-89190 (Name: an instantaneous water heater equipped with a column-shaped heat-generating unit) (published May 5, 2015) discloses a heat-generating body according to a conventional technique and an example of products using the same.

Meanwhile, various products using electric energy (for example, food cooking heater, water heater, boiler, heating heater, iron, dryer, coffee pot, water purifier, soldering machine, etc.) Wide development / diffusion patterns.

Of course, the above products perform functions given to them (for example, food cooking, cold water heating, garment removal, hot wind output, coffee heating, brazing object heating, etc.) based on a heat generation mechanism using electricity as a main energy source Therefore, the problem of how to effectively manage the electricity consumption of these products is determined by the quality of the products (for example, food cookers, water heaters, boilers, heating heaters, irons, dryers, coffee pots, water purifiers, It is a very important variable to construct.

However, since the products (for example, food cooking heaters, water heaters, boilers, heating heaters, irons, dryers, coffee pots, water purifiers, soldering machines, etc.) perform their functions based on heat- As long as no action is taken, there will be many difficulties in minimizing the electricity consumption of the product.

Of course, the heating element may be employed in each product to minimize the electric consumption of the product. However, the conventional heating elements not only achieve a considerable energy consumption, but also each heating element can be applied to various products in general (For example, a food cooking heater, a water heater, a boiler, a heating heater, an iron, etc.) in spite of the existence of a heating element on the side of the product producer and the user of the product under the conventional system, A dryer, a coffee pot, a water purifier, a soldering machine, and the like).

Korean Patent Laid-Open No. 10-2001-35352 (name: heating composition for instant heating food) (published on May 7, 2001) Korean Patent Laid-Open No. 10-2006-67859 (name: instant heating type iridium heating device) (2006.20.20) Korean Patent Laid-Open No. 10-2010-130297 (Name: Instant Fever container) (Dec. 13, 2010) Korean Patent Laid-Open No. 10-2015-89190 (name: instantaneous water heater equipped with a column-shaped heat generating unit) (published on August 5, 2015)

Accordingly, it is an object of the present invention to provide a light source device that reflects a light beam output from the lamp while receiving the lamp in a state of being coupled with a power source connection holder, a lamp coupled to the power source connection holder, A focal length connector for adjusting the focal distance of the light beam in order to focus the light beam to the maximum while being disposed on the front face of the light condensing case, And a heat generating plate which can instantly generate a high-temperature heat state by being brought into contact with a light beam condensed on the front surface of the lamp while being disposed, and can have a structural characteristic that can be adopted for general purpose in various products Of course, through the efficient utilization of light energy by the concentration of light rays, even under the minimum supply condition of electric energy (for example, DC 12V 30W to 55W supply situation) (For example, a food cooking heater, a water heater, a boiler, a heating heater, an iron, a dryer, a heater, etc.) using a heating means, (For example, food cooking, cold water heating, wrinkle removal, hot air output, coffee heating, brazing object heating, etc.), while consuming minimal power, So that various problems caused by an increase in the power consumption of the product can be effectively avoided without any problem on the side of the product producer or the user of the product.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to an aspect of the present invention, A lamp coupled to the power connection holder; A condensing case for receiving the lamp in a state of being coupled with the power connection holder and reflecting the light beam output from the lamp and condensing the light beam onto the front surface of the lamp; And a heat generating plate disposed on a front surface of the light collecting case, the heat generating plate being heated by contact with the light beam condensed on the front surface of the lamp.

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In the present invention, while receiving the lamp in a state of being coupled with a power connection holder, a lamp coupled to the power connection holder, and a power connection holder, the light reflected from the lamp is reflected, A focal length connector for adjusting the focal length of the light beam in order to focus the light beam to the maximum while being disposed on the front face of the light condensing case; And a heating plate capable of instantly generating a high-temperature heating state by contact with a condensed light beam on the front surface of the light source. The light source device of the present invention can have a structural characteristic that can be adopted for general- (For example, 600 to 1200 ° C) under the minimum supply condition of electric energy (for example, DC 12V 30W to 55W supply situation) through efficient utilization of light energy by concentration (For example, a food cooking heater, a water heater, a boiler, a heating heater, an iron, a dryer, etc.) under the implementation environment of the present invention, (For example, food cooking, cold water heating, wrinkle removal, hot air output, coffee heating, brazing object heating, etc.), while consuming a minimum amount of electric power, As a result, various problems due to an increase in power consumption of the product can be effectively avoided without any problem on the side of the product producer or the product user.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are conceptual views illustrating a heating device according to an embodiment of the present invention; FIG.
FIG. 3 is an exemplary view conceptually showing a light-condensing function of a heat generating device according to an embodiment of the present invention. FIG.
FIG. 4 to FIG. 18 are conceptual illustrations showing an application example of a heating device according to an embodiment of the present invention; FIG.
19 is an exemplary view conceptually showing a light emitting device according to another embodiment of the present invention.
20 is an exemplary view conceptually showing an application example of a light emitting device according to another embodiment of the present invention.

Hereinafter, a heating device according to the present invention will be described in more detail with reference to the accompanying drawings.

1 and 2, a heat generating device 1 according to an embodiment of the present invention includes a power connection holder 2, a lamp 8, a condenser case 3, a focal length connector 4, Plate 5 and the like are systematically combined.

At this time, the power connection holder 2 is connected to the power source via the electric connection line 2a, and holds and fixes the lamp 8. In this case, the power connection holder 2 has a metal material, for example, an aluminum material.

Here, if the power source connected to the power connection holder 2 is operated by a portable battery, the heat generator 1 or the heat generator 1 of the present invention is used Products (e.g., food cookers, water heaters, boilers, heating heaters, irons, dryers, coffee pots, water purifiers, soldering machines, etc.) can be used wirelessly.

On the other hand, the lamp 8 (for example, a halogen lamp) is electrically connected to the electric connection line 2a while being fitted to the power connection holder 2, and when power is supplied from the outside, And the like.

The light collecting case 3 is coupled to the power connection holder 2 and reflects the light beam emitted from the lamp 8 while receiving the lamp 8. In this case, the light collecting case 3 has a metal material, for example, brass, and a protective plate 3a made of a transparent material for protecting the lamp 8 is additionally disposed on the front surface of the light collecting case 3.

At this time, on the inner side of the light-collecting case 3, a condensed reflection inducing pattern 6 which forms a rounded bell shape and induces the front condensed reflection of the light beam on the lamp 8 is additionally disposed, Since the reflective layer 7 is additionally coated on the surface of the induction pattern 6 for triggering the reflection of the light ray, when the light ray is outputted from the lamp 8 side, Condensation reflection pattern 6 and reflective layer 7 on the side of the condensing case 3 causes a rapid reflection reaction with a limited diffusion width so that the front face of the lamp 8 and the front face of the condensing case 3 And a series of convergence procedures that converge intensively. In this case, silver or gold may be selected as the reflective layer 7.

The heat generating plate 5 is fixed to the front face of the light collecting case 3 and is coupled with the heat generating plate 5 so that the heat generating plate 5 is fixed to the front face of the light collecting case 3 under the above- A function of blocking the external leakage of the light beam outputted from the lamp 8 side, and the like.

Particularly, the focal length connector 4 optimally adjusts / defines the focal length of the light beam formed between the lamp 8 and the heat generating plate 5 in order to maximize the condensing effect of the condenser case 3 Role.

In this case, the size of the focal length connector 4 (for example, the width, the length, and the like) of the focal length connector 4 may be changed depending on the characteristics (for example, Etc.), and by optimally controlling the focal distance of the light beam, the heat generating characteristics of the heat generating device 1 can be effectively maximized.

Here, a part of the focal length connector 4 may be additionally provided with a heat releasing hole 4a for releasing heat generated by the heat generating plate 5 to the outside.

On the other hand, the heat generating plate 5 located at the outermost position of the light-collecting case 3, the focal length connector 4 and the like by the function of the focal length connector 4 includes a metallic base plate 5b, And the conductive material layers 5a coated on both sides of the metallic base plate 5b are structurally combined.

In this case, brass or aluminum may be selected as the material of the metallic base plate 5b. As the material of the conductive material layer 5a, graphene, metallic hydride hydrides, carbon nanotubes, and the like.

As described above, the light beams output from the lamp 8 side are subjected to the action of the condensed reflection guide pattern 6 and the reflective layer 7 on the light condensing case 3 side, The light is condensed on the entire surface of the lamp 8 and the light-collecting case 3 by a reflection reaction so that the light is condensed by the function of the focal distance connector 4 as shown in Fig. When the heating plate 5 is placed on the front surface of the case 3, the light rays on the lamp 8 are gathered on a part of the heating plate 5 to form a series of beam focuses, The rapid heating mechanism for rapidly heating the heating plate 5 is provided.

Of course, under such a rapid optical overheating mechanism, when the contact with the light beam is intensively performed, the atoms constituting the metallic base plate 5b, the conductive material layer 5a and the like on the heat generating plate 5 side, A large-scale irregular vibration can be vigorously caused by the intense collision. As a result, the instantaneous exothermic state suddenly reaching the high temperature of 600 ° C to 1200 ° C can be rapidly achieved on the heat generating plate 5 side.

It is a matter of course that the heat generating device 1 of the present invention can be used in various products such as a food cooking heater, a water heater, a water heater, and the like under a situation in which the instantaneous heat generation state at a high temperature on the heat generating plate 5 side, (For example, food cooking, cold water heating, clothes, etc.) without any problems on the side of the products when they are employed in a refrigerator (for example, a boiler, a heating heater, an iron, a dryer, a coffee pot, a water purifier, Wrinkle removal, hot air output, coffee heating, brazing object heating, etc.) can be performed normally.

At this time, the heat generating device 1 of the present invention can be operated at a high temperature (for example, 600 DEG C) under the minimum supply condition of electric energy (for example, DC 12V 30W to 55W supply situation) The heating device 1 of the present invention can be used in various products such as a food cooking heater, a water heater, a boiler, a heating heater, an iron, a dryer, a coffee pot, a water purifier, A soldering machine, etc.), it is possible to effectively avoid various problems due to an increase in power consumption of a product without any problem on the side of a product producer or a product user.

Particularly, the heat generating device 1 of the present invention has a very simple structure in which a power connection holder 2, a lamp 8, a light collecting case 3, a focal length connector 4, a heat generating plate 5, The heat generating device 1 of the present invention can be used in various products such as a food cooking heater, a water heater, a boiler, a heating heater, an iron, a dryer, a coffee maker, Port, water purifier, soldering machine, etc.), and as a result, it is possible to effectively avoid various problems due to the structural limitations of the heat generating device 1.

Hereinafter, an application example in which the heating device 1 of the present invention having the above-described configuration is actually used in various products will be described in detail.

First, as shown in Fig. 4, the heat generating device 1 of the present invention can be flexibly employed in the food cooking heater 10 for cooking food.

At this time, the heat generating device 1 of the present invention can be employed, for example, in the food cooking heater 10 in such a manner that its own heat generating plate 5 is coupled to the heating plate 11 of the food cooking heater 10.

In this case, the heating plate 11 of the cooking heater 10 may be provided with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube layer, etc.) on a metallic base plate ) May be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms an instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the side of the heating plate 11 which are in contact with the heating plate 5 also have difficulties The heating plate 11 can also rapidly generate a large-scale irregular vibration corresponding to the heat generation condition on the heat generation plate 5 side without causing the heating plate 11 to heat up rapidly, As a result, on the side of the user who uses the food cooking heater 10, the effect that the food in the food container 12 is stably cooked can be flexibly based on the heating state of the heating plate 11 .

Meanwhile, as shown in FIG. 5, the heating device 1 of the present invention can be flexibly employed in the water heater 20 for supplying hot water.

The heat generating device 1 of the present invention can be employed in the water heater 20 in such a manner that its own heating plate 5 is coupled to the heat conduction tube 22 of the water heater 20, for example.

In this case, the heat-conducting tube 22 of the water heater 20 may also include a conductive material layer (e.g., a graphene layer, a metallic hydride layer, a carbon nanotube layer, etc.) on a metallic base plate ) May be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms a hot instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the heat conduction tube 22 side in contact with the heating plate 5 are also different It is possible to vigorously cause a large scale irregular vibration corresponding to the heat generation condition on the heat generating plate 5 side without difficulty and eventually the heat conduction tube 22 is also capable of rapidly generating a high temperature instantaneous heat state of 600 to 1200 DEG C As a result, on the side of the user who uses the water heater 20, the cold water flowing through the water supply pipe 21 is guided to the heat conduction tube 22 ) To be transformed into hot water, can be flexibly enjoyed.

Meanwhile, as shown in FIG. 6, the heat generating device 1 of the present invention can be flexibly employed in the boiler 30 for supplying hot water.

The heating device 1 of the present invention can be employed in the boiler 30 in such a manner that the heating plate 5 of the boiler 30 is coupled to the heating conduction tube 32 of the boiler 30, for example.

In this case, the heat-conducting tube 32 of the boiler 30 may also be provided with a conductive material layer (e.g., a graphene layer, a metallic hydride layer, a carbon nanotube layer, etc.) on a metallic base plate ) May be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly achieves a high-temperature instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the heat conduction tube 32 side, which are in contact with the heating plate 5, It is possible to vigorously cause a large scale irregular vibration corresponding to the heat generation condition on the heat generating plate 5 side without difficulty. As a result, the heat conduction tube 32 is also capable of quickly generating a high temperature instantaneous heat state, As a result, on the side of the user of the product using the boiler 30, the cold water flowing through the water supply pipe 31 is discharged from the heat conduction tube 32 ) To be transformed into hot water, can be flexibly enjoyed.

Meanwhile, as shown in FIG. 7, the heating device 1 of the present invention can be flexibly employed in the heating heater 40 for supplying hot water.

The heating device 1 of the present invention may be employed in the heating heater 40 in such a manner that its own heating plate 5 is coupled to the heat transfer reflective plate 41 of the heating heater 40, for example.

In this case, the heat transfer reflection plate 41 of the heating heater 40 may also be provided with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube Layer, etc.) may be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly achieves a high-temperature instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the heat-radiating and propagating plate 41, which are in contact with the heating plate 5, A large amount of irregular vibration corresponding to the heat generation condition on the heat plate 5 side can be vigorously caused without any difficulty. As a result, the heat transfer reflection plate 41 is also capable of generating a high temperature instantaneous heat state As a result, on the side of the user of the product using the heating heater 40, the hot air is guided by the heat transfer reflecting plate 41 (The effect of outputting such hot air is also performed by the heat generating plate 5) can be flexibly enjoyed.

On the other hand, as shown in Fig. 8, the heating appliance 1 of the present invention can be flexibly adopted also in the iron 50 for legs.

The heating appliance 1 of the present invention can be employed in the iron 50 in such a manner that its own heating plate 5 is coupled to the heat transmission plate 52 of the main body 51, for example.

In this case, the heat transfer plate 52 of the iron 50 may also be provided with a conductive material layer (e.g., a graphene layer, a metallic hydride layer, a carbon nanotube layer, etc.) on a metallic base plate ) May be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, when the heating plate 5 is rapidly brought into a high-temperature instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the side of the heating plate 52 which is in contact with the heating plate 5, It is possible to vigorously cause a large-scale irregular vibration corresponding to the heat generation condition on the heat generating plate 5 side without difficulty. As a result, the heat transfer plate 52 is also capable of quickly generating a high temperature instantaneous heat state, As a result, it is possible to flexibly enjoy the effect of improving the wrinkles of the garment on the basis of the heating state of the heat transmission plate 52 on the side of the user who uses the iron 50 do.

9, the heating device 1 of the present invention can be flexibly employed in the dryer 60 (for example, a hair dryer, a thawing dryer, a drying dryer, etc.).

The heating device 1 of the present invention may be employed in the dryer 60 in such a manner that the heating device 1 is fixed to the inside of the dryer body 61 and positioned on the front surface of the motor 64, for example.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

The air 63 sucked by the operation of the fan 62 and the motor 64 is heated by the heat generated by the heat generating plate 5, A change in the output of hot air from the high temperature hot air flows through the heat exchanger 5 and as a result the heat generated by the heat source 60 It is possible to flexibly enjoy the hair drying effect by the hot air, the defrosting effect of the frozen object by the hot air, and the drying effect of the wet object by the hot air, based on the heating state of the plate 5 do.

On the other hand, as shown in Fig. 10, the heating device 1 of the present invention can be flexibly adopted also for the thermal heating plate 70, the greenhouse bottom 71, and the like.

At this time, the heating device 1 of the present invention is configured to heat the heating plate 70, the greenhouse (for example, 71, and the like.

In this case, the heat transfer plate 74 on the water circulation tank 72 side may also be provided with a conductive material layer (for example, a graphene layer, a metal hydride layer, a carbon nanotube Layer, etc.) may be coated.

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly achieves a high-temperature instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the side of the heat transfer plate 74 in contact with the heating plate 5 are also It is possible to vigorously cause a large scale irregular vibration corresponding to the heat generation condition on the heat generating plate 5 side without difficulty. As a result, the heat transfer plate 74 is also capable of quickly generating a high temperature instantaneous heat state, As a result, on the side of the user who uses the warming plate 70, the greenhouse bottom 71, and the like, the water circulation pipe 73 Can be flexibly enjoyed. ≪ / RTI >

On the other hand, as shown in Fig. 11, the heat generating device 1 of the present invention can be flexibly employed in various types of fomentation rooms 80 as well.

The heat generating device 1 of the present invention can be employed in the fomentation chamber 80 in such a manner that the heat generating plate 5 is joined to the heat transfer plate 82 inside the wall body 81, for example.

In this case, the heat transmission plate 82 may also have a structure in which a metallic base plate (for example, a brass plate) is coated with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube layer, .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms an instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the side of the heating plate 82 which is in contact with the heating plate 5, A large amount of irregular vibration corresponding to the heat generation condition on the heat generation plate 5 side can be vigorously generated without any difficulty and eventually the heat transmission plate 82 can also rapidly generate a high temperature instantaneous heat generation state of 600 to 1200 DEG C Hot hot air can be supplied to the wall 81 of the fomentation chamber 80 while being based on the heating state of the heat transmission plate 82 on the side of the user who uses the fomentation chamber 80. As a result, The effect of filling the inside can be flexibly enjoyed.

On the other hand, as shown in Fig. 12, the heating device 1 of the present invention can be flexibly employed in various types of coffee pots 90 as well.

The heating device 1 of the present invention can be employed in the coffee pot 90 in such a manner that its own heating plate 5 is bonded to the heat transfer plate 92 inside the pedestal 91, for example.

In this case, the heat transfer plate 92 may also be formed of a structure in which a conductive base material layer (e.g., a graphene layer, a metal hydride layer, .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms an instantaneous heating state in accordance with the above-described light heating mechanism, the constituent atoms on the side of the heating plate 92 in contact with the heating plate 5 are also different A large amount of irregular vibration corresponding to the heat generation condition on the side of the heat generation plate 5 can be vigorously generated without difficulty. As a result, the heat transmission plate 92 can also rapidly generate a high temperature instantaneous heat state, As a result, the content of the inside of the main body 93 is rapidly heated on the basis of the heating state of the heat transmitting plate 92 on the side of the user who uses the coffee pot 90. As a result, Can be flexibly enjoyed.

On the other hand, as shown in Fig. 13, the heating device 1 of the present invention can be flexibly employed in various types of electric ovens 100 as well.

The heating device 1 of the present invention may be employed in the electric oven 100 in such a manner that its own heating plate 5 is coupled to the heat transfer plate 102 inside the main body 101, for example.

In this case, the heat transfer plate 102 may also have a structure in which a metallic base plate (for example, a brass plate) is coated with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube layer, .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Of course, according to the above-described light heating mechanism, when the heating plate 5 quickly forms an instantaneous heating state at a high temperature, the constituent atoms on the side of the heating plate 102 which are in contact with the heating plate 5, It is possible to vigorously cause a large scale irregular vibration corresponding to the heat generation condition on the heat generation plate 5 side without difficulty. As a result, the heat transmission plate 102 is also capable of quickly generating a high temperature instantaneous heat state, As a result, on the side of the user of the product using the electric oven 100, it is possible to prevent the food placed on the cooking plate 103 from being quickly cooked based on the heating state of the heat transmission plate 102 ≫ can be flexibly enjoyed.

On the other hand, as shown in Fig. 14, the heat generating device 1 of the present invention can be flexibly employed in various types of water purifiers 110 as well.

The heating device 1 of the present invention may be employed in the water purifier 110 in such a manner that its own heating plate 5 is coupled to the heat transfer plate 112 of the water storage tank 111, for example.

In this case, the heat transfer plate 112 may also have a structure in which a metallic substrate plate (for example, a brass plate) is coated with a conductive material layer (for example, a graphene layer, a metallic hydride layer or a carbon nanotube layer) .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, when the heating plate 5 is rapidly heated at a high temperature instantly according to the above-described light heating mechanism, the constituent atoms on the side of the heat transfer plate 112 which are in contact with the heating plate 5, A large amount of irregular vibration corresponding to the heat generation state on the heat generating plate 5 side can be generated without difficulty and the heat transfer plate 112 can also rapidly generate a high temperature instantaneous heat state ranging from 600 ° C to 1200 ° C The water stored in the water storage tank 111 can be quickly heated by the heat source 112 based on the heating state of the heat transfer plate 112. [ &Quot; can be flexibly enjoyed.

On the other hand, as shown in FIG. 15, the heat generating device 1 of the present invention can be flexibly adopted in various types of frying cooking apparatuses 120 as well.

The heat generating device 1 of the present invention may be employed in the frying cooking device 120 in such a manner that the heat generating plate 5 of the heat sink 1 is coupled to the heat transfer plate 122 of the main body 121, for example.

In this case, the heat transfer plate 122 may also have a structure in which a conductive base material layer (e.g., a graphene layer, a metal hydride layer, a carbon nanotube layer, etc.) is coated on a metallic base plate .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, according to the above-described light heating mechanism, when the heating plate 5 quickly forms an instantaneous heating state at a high temperature, the constituent atoms on the side of the heating plate 122 which is in contact with the heating plate 5, A large amount of irregular vibration corresponding to the heat generation condition on the side of the heat generation plate 5 can be vigorously generated without difficulty. As a result, the heat transmission plate 122 is also capable of quickly generating a high temperature instantaneous heat state, As a result, on the side of the user who uses the frying and cooking machine 120, the edible oil stored in the body 121 is heated based on the heating state of the heat transmission plate 122 Effect> can be flexibly enjoyed.

Meanwhile, as shown in FIG. 16, the heating appliance 1 of the present invention can be flexibly employed in various types of the appliance 130.

The heating device 1 of the present invention may be employed in the steamer appliance 130 in such a manner that its own heating plate 5 is coupled to the heat transmission plate 132 of the main body 131, for example.

In this case, the heat transfer plate 132 may also have a structure in which a metallic base plate (for example, a brass plate) is coated with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube layer, .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, when the heating plate 5 is rapidly heated at a high temperature instantly according to the above-described light heating mechanism, the constituent atoms on the side of the heat transfer plate 132 which are in contact with the heating plate 5, It is possible to vigorously generate large scale irregular vibrations corresponding to the heat generation condition on the heat generating plate 5 side without difficulty. As a result, the heat transmitting plate 132 is also capable of quickly generating a high temperature instantaneous heat state, As a result, on the side of the user of the product using the steamer 130, based on the heating state of the heat transmission plate 132, the food (or the food) located in the body 131 Material) can be flexibly enjoyed.

On the other hand, as shown in FIG. 17, the heat generating device 1 of the present invention can be flexibly adopted also in various types of soldering machines 140. FIG.

The heat generating device 1 of the present invention may be employed in the soldering machine 140 in such a manner that its own heat generating plate 5 is coupled to the heat transmitting plate 142 of the main body 141, for example.

In this case, the heat transmission plate 142 may also have a structure in which a metallic base plate (for example, a brass plate) is coated with a conductive material layer (for example, a graphene layer, a metallic hydride layer, a carbon nanotube layer, .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms an instantaneous heating state according to the above-described light heating mechanism, the constituent atoms on the side of the heating plate 142 which are in contact with the heating plate 5, A large amount of irregular vibration corresponding to the heat generation condition on the heat generating plate 5 side can be vigorously caused without any difficulty. As a result, the heat transmitting plate 142 can also rapidly generate a high temperature instantaneous heat state, As a result, on the side of the product user using the soldering machine 140, it is possible to flexibly enjoy the soldering progress effect targeted at the soldering object, based on the heating state of the heat transfer plate 142 .

On the other hand, as shown in Fig. 18, the heating device 1 of the present invention can be flexibly employed in various types of generator systems 150 as well.

The heat generating device 1 of the present invention may be employed in the generator system 150 in such a manner that the heat generating plate 151 of the steam generating module 152 is coupled to the heat generating plate 5 have.

In this case, the heat transmission plate 151 may also have a structure in which a conductive base material layer (e.g., a graphene layer, a metal hydride layer, a carbon nanotube layer, or the like) is coated on a metallic base plate .

When the power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the heat generating device 1 under this situation, the light beam output from the lamp 8 side is condensed and reflected by the condensing case 3- The reflective layer 7 and the reflection layer 7 are subjected to a rapid reflection reaction while being limited by their diffusion width so that they are gathered intensively on the side of the heat generating plate 5 located on the front face of the lamp 8 and the light collecting case 3 The light source undergoes a series of convergence procedures.

Of course, under these light condensing procedures, the atoms constituting the metallic base plate 5b, the conductive material layer 5a, and the like on the heat generating plate 5 side can vigorously cause a large-scale irregular vibration due to intensive collision with the photon As a result, the instantaneous exothermic state of high temperature ranging from 600 ° C to 1200 ° C can be quickly achieved on the heat generating plate 5 side.

Naturally, in the case where the heating plate 5 quickly forms an instantaneous heating state according to the light heating mechanism described above, the constituent atoms on the side of the heating plate 151 in contact with the heating plate 5 are also A large amount of irregular vibration corresponding to the heat generation state on the side of the heat generation plate 5 can be vigorously generated without difficulty. As a result, the heat transmission plate 151 is also capable of quickly generating a high temperature instantaneous heat state, .

Thus, when the heat generating transfer plate 151 has a high temperature instantaneous heating state ranging from 600 ° C to 1200 ° C, the liquid filled in the steam generating module 152 is vaporized by the heating action of the heat transmitting plate 151 The power generated by the power generation fan 154 is output to the power generation fan 154 via the steam output port 153. As a result, As a result, on the side of the user of the product using the generator system 150, based on the heating state of the heat transmission plate 151, the power generator 155, which is connected thereto, , And a series of power production effects can be flexibly enjoyed.

As described above, in the present invention, the lamp 8 is coupled with the power connection holder 2, the lamp 8 coupled to the power connection holder 2, and the power connection holder 2, A light collecting case 3 capable of reflecting the light beam output from the lamp 8 and condensing the light beam onto the front surface of the lamp 8 while accommodating the light beam while accommodating the light beam, The focal distance connector 4 for adjusting the focal distance of the light beam is disposed on the outermost surface of the light condensing case 3 so that the light is condensed on the front surface of the lamp 8 And a heating plate 5 capable of instantly generating a high-temperature heat state. The heating plate 5 can have structural characteristics that can be employed in various products in general, and can efficiently utilize light energy by concentrating light rays. (For example, DC 12V 30W to 55W supply voltage (For example, 600 DEG C to 1200 DEG C) can be quickly obtained even under a high temperature environment (for example, a low temperature environment) (For example, food cooker, water heater, water heater, boiler, heating heater, iron, dryer, coffee pot, water purifier, soldering equipment, etc.) consumes minimal power, , Cold water heating, removal of wrinkles in clothes, hot air output, coffee heating, heating of brazing object, etc.) can be normally performed. As a result, The problem can be effectively avoided.

19, the light emitting device 200 according to another embodiment of the present invention includes a power connection holder 202, a lamp 208, a light collecting case 203, a focal length connector 204, As shown in FIG.

At this time, the power connection holder 202 is connected to the power source via the electrical connection line 202a, and holds the lamp 208 and fixes it. In this case, the power connection holder 202 has a metal material, for example, an aluminum material.

Here, if the power source connected to the power connection holder 202 is operated by a portable battery, the light emitting device 202 of the present invention can be used wirelessly on the side of the product producer and the user of the product.

On the other hand, the lamp 208 (for example, a halogen lamp) is electrically connected to the electrical connection line 202a while being fitted to the power connection holder 202. When power is supplied from the outside, And the like.

The light collecting case 203 is coupled to the power connection holder 202 and reflects the light beam output from the lamp 208 while receiving the lamp 208. [ In this case, the light collecting case 203 has a metal material, for example, a brass material, and a protective plate 203a made of a transparent material for protecting the lamp 8 is additionally disposed on the front surface of the light collecting case 203.

At this time, on the inner side of the light collecting case 203, a condensed reflection inducing pattern 206 which forms a rounded bell shape and induces the front condensed reflection of the light beam on the lamp 208 is additionally disposed, 19, since the reflective layer 207 is additionally coated on the surface of the guiding pattern 206 to trigger the reflection of the light beam, when the light beam is emitted from the lamp 208 side, The condensing reflection guide pattern 206 and the reflecting layer 207 on the side of the condensing case 203 are subjected to a rapid reflection reaction while being restricted by the diffusion width thereof and the front face of the lamp 208 and the front face of the condensing case 203 And a series of convergence procedures that converge intensively. In this case, silver or gold may be selected as the reflective layer 207.

Under the above-described condensing condition, the focal length connector 204 is provided on the front surface of the condenser case 203 to block external leakage of the light beam output from the lamp 208 side, to define the focal length of the light beam, and the like .

In this case, a part of the focal length connector 204 may further be provided with a heat releasing hole 204a for externally discharging heat generated by the light rays.

At this time, as described above, the light beam output from the lamp 208 side is subjected to the action of the condensed reflection inducing pattern 206 and the reflective layer 207 on the light condensing case 203 side, The light emitting device 200 is subjected to a series of condensing procedures in which the lamp 208 and the light collecting case 203 are concentrated on the front surface of the light emitting device 200. Therefore, It is possible to effectively supply a large amount of light energy to the product side even by an extremely simple procedure.

Since the light emitting device 200 of the present invention efficiently utilizes the light energy by the concentration of the light rays, even under the minimum supply condition of the electric energy (for example, 12 V DC 30 W to 55 W supply condition) Supply effect can be achieved.

Particularly, since the light emitting device 200 of the present invention has a very simple structure in which the power connection holder 202, the lamp 208, the light collecting case 203 and the focal length connector 204 are integrally combined, The light emitting device 200 of the present invention can be employed in a variety of products for general use without any problem on the side of the producer and the user of the product.

As shown in FIG. 20, the light emitting device 200 according to another embodiment of the present invention can be effectively utilized, for example, in a solar cell field.

Under such a utilization procedure of the solar cell field, an environment in which the supply of sunlight is not smooth (for example, a night environment, a cloudy environment, etc.) comes, When a power source (for example, DC 12V 30W, DC 12V 50W, or the like) is supplied to the light emitting device 200 side, the light beams output from the lamp 208 side are condensed on the condensed- A series of photodiodes 207 and 208 which are concentrated on the side of the solar cell 301 located on the front face of the lamp 208 and the condenser case 203 The light converging process is performed.

Of course, under such a condensing procedure, the photovoltaic energy necessary for power generation can be efficiently received without difficulty on the side of the solar battery cell 301. As a result, in the environment where the solar battery is not supplied smoothly (for example, It is possible to effectively secure the power required for the charger 302, the electronic device 303, and the like even under a nighttime environment, a cloudy environment, and the like.

The present invention is not limited to a specific field, and exhibits a generally useful effect in various fields in which efficient use of electric energy / thermal energy / light energy is required.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the present invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof.

Such modified embodiments should not be understood individually from the technical idea and viewpoint of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

1: Heating appliance
2,202: Power connection holder
3,203: condenser case
4,204: Focal Length Connector
5: Heating plate
6,206: condensed reflection induction pattern
7,207: Reflective layer
8,208: Lamp
200: Light emitting device

Claims (8)

A power connection holder;
A lamp coupled to the power connection holder;
A condensing case for receiving the lamp in a state of being coupled with the power connection holder and reflecting the light beam output from the lamp and condensing the light beam onto the front surface of the lamp;
A focal distance connector disposed on a front surface of the light condensing case to adjust a focal distance of the light beam to condense the light beam;
And a heat generating plate disposed on a front surface of the focal length connector and generating heat by contact with the light beam condensed on the front surface of the lamp. The fusing connector according to claim 1, wherein the focal length connector is configured to fix the heat generating plate to the front surface of the condensing case and to block external leakage of the light beam output from the lamp side, And adjusts the focal distance of the formed light beam. The heat generating device according to claim 2, wherein a part of the focal distance connector is further provided with a heat releasing hole for externally discharging heat generated by the heat generating plate. The light-emitting device according to claim 1, wherein a condensed reflection inducing pattern is formed on the inner side of the light-collecting case so as to form a Bell shape and induce condensed reflection on the front surface of the light beam, Wherein a reflective layer is additionally coated for triggering the reflective layer. [2] The apparatus of claim 1, wherein the heating plate comprises: a metallic base plate;
And a layer of a conductive material coated on both sides of the base plate. [6] The method of claim 5, wherein the base plate has a brass or aluminum material, and the conductive material layer is made of a material selected from the group consisting of Graphene, Metallic hydrides and Carbon nanotubes . delete delete

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