KR20150124122A - Infrared ray activation LED candle - Google Patents

Abstract

A purpose of the present invention is to provide an LED candle driven by infrared ray, and the LED candle of the present invention comprises: a main body (10); a paraffin (20) inserted to the main body (10); a wick provided in the paraffin (20); an LED (32) embedded between the paraffin (20) and the main body (10); and an infrared sensor (36) connected with the LED (32), detects the infrared ray of a candlelight (28) in the wick (26) and drives the LED (32) by the infrared ray. The present invention enhances a decorative effect by emitting light from the LED by a reaction to the infrared rays generated from the candlelight (28).

Description

[0001] The present invention relates to an infrared ray candle,

The present invention relates to an LED candle that is driven to emit light by infrared rays, and more particularly, to an LED candle that is driven to emit light by an infrared ray, which is capable of doubling a decorative effect by emitting light in response to infrared rays generated when a candle is lit. will be.

Generally, a candle is composed of a body made of paraffin wax and a candle wick embedded in the center of the body. It is a well-known fact that a normal candle is used to light a candle core to obtain a candle, and to illuminate the surroundings using the light by the candle. In recent years, the function as a decoration for capturing the atmosphere of the surrounding environment has become more important. On the other hand, there is a candle which has a decoration sheet attached to the outer surface of the candle itself, and a decorative candle is added. There is an ornamental candle which uses an LED that lights the LED to recognize a candle burning the core of the candle itself. In addition, there is a problem in that power consumption (battery) is unnecessarily increased because LEDs often emit light by detecting other ambient light.

Korean Patent Laid-Open No. 10-2007-0013538 (published on Jan. 31, 2007) Published Japanese Patent Application No. 2003-0001422 (published on Jan. 10, 2003) Korean Patent Laid-Open No. 10-2012-0054269 (published May 25, 2010)

An object of the present invention is to provide an LED candle which is driven to emit light by an infrared ray which is emitted by an infrared ray generated when a candle is lit, Another object of the present invention is to provide an LED candle which is driven to emit light by a new infrared ray, which prevents waste of the power source while faithfully performing the function of decorating the candle itself, because the light is not turned on in the sunlight or general illumination.

According to an aspect of the present invention, Paraffin introduced into the main body; A core provided on the paraffin; An LED embedded between the paraffin and the main body; And an infrared sensor connected to the LED to detect the infrared ray of the candle attached to the wick to perform the light emission driving of the LED.

And the main body is made of a light-transmitting material such that the light of the LED is transmitted from the inner circumferential surface to the outer circumferential surface.

The main body is made of a transparent or semi-transparent container so that the light of the LED is radiated to the outside.

And the main body is provided with a plurality of recesses which are concave to further enter the outer surface.

Wherein the main body has a container shape in which the outer diameter gradually increases from the lower end to the middle, and the outer diameter gradually decreases from the height position of the boundary point toward the upper end.

The paraffin is characterized in that it is flexible so as to be able to enter when the surface is pressed, and has a soft property to maintain a constant block shape.

A printed circuit board mounted between the bottom surface of the main body and the bottom surface of the paraffin and having the LED mounted thereon and a battery connected to the printed circuit board and forming a battery insertion space between the printed circuit board and one surface of the printed circuit board, And a battery is electrically coupled between the printed circuit board and the battery support to constitute an LED module.

The LED module is embedded in a light-transmissive capsule and disposed between the main body and the paraffin.

The capsule is made of a silicon material mixed with a fluorescent material.

It is more preferable that a light diffusion film in the form of particles is mixed in the light transmissive capsule.

And a shielding member which surrounds the periphery of the infrared sensor and whose upper end is located higher than the upper end of the infrared sensor.

Wherein the infrared sensor is mounted on a printed circuit board and the shield member is formed in a single pipe shape so as to be fitted to the periphery of the infrared sensor so that the upper end of the shield member is higher than the upper end of the infrared sensor, And the shielding member is formed in a black color tube shape.

The LED is disposed between a bottom surface of the paraffin and a bottom surface of the main body, and a light diffusion plate is further provided between the LED and the paraffin.

It is preferable that a light diffusion film of a particle type is mixed in the light diffusion plate.

In the present invention, paraffin is put into a container-shaped main body having an upper opening, a paraffin is provided with a wick, an LED is embedded between the paraffin and the main body, and the light emitted from the LED is detected by infrared rays of a candle The present invention relates to an LED candle which is driven by an infrared ray and which is characterized in that it is equipped with an infrared sensor. In the present invention, when the candle is off, the LED does not react. The decorating function using the lending light is performed, so that the decorating property by the light of the candle and the LED is remarkably enhanced. The LED can be composed of RGB. In this case, light of various colors can be radiated through the main body, thereby giving a decorative effect and a colorful feeling.

1 is a perspective view of LED candles driven by infrared rays according to the present invention;
2 is a perspective view of an LED module, which is a main part of the present invention.
Fig. 3 is a longitudinal sectional view of Fig. 1
FIG. 4 is a longitudinal sectional view schematically showing a candle-lit state and LED light-emitting state of LED candles that are driven to be light-emitted by the infrared sensor of the present invention
5 is a longitudinal sectional view showing the configuration of another embodiment of the present invention
6 is a longitudinal sectional view showing the configuration of the LED module and the capsule, which are main parts of another embodiment of the present invention

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected,""coupled," or "connected. &Quot;

The paraffin 20 is inserted into the main body 10 and the core 26 is provided in the paraffin 20 and the LED 32 is inserted between the paraffin 20 and the main body 10, And the light emitted from the LEDs 32 is formed by an infrared ray sensor 36 for detecting the infrared rays of the candle 28 which is turned on the wicks 26. [

The main body 10 has a transparent or semitransparent container shape so that the light of the LED 32 can be emitted from the inside of the main body 10. It is important that the main body 10, whether transparent or translucent, is made of a light-transmissive container for emitting light from the LEDs 32. In addition, the main body 10 has a container shape having an inlet at an upper end and a bottom at a lower end. At this time, the main body 10 has a shape of a jar container having a convex portion at a substantially middle portion thereof. That is, the main body 10 has a container shape in which the outer diameter gradually increases from the lower end portion toward the middle portion, and gradually decreases from the height position of the boundary point (that is, the height at which the outer diameter decreases again) to the upper end portion. When the main body 10 is seen from the side, it forms a jar container shape whose center is convex than the upper and lower ends. A plurality of grooves 12 are formed on the outer surface of the main body 10. Each of the grooves 12 is a groove 12 recessed to be further inserted into the outer surface of the main body 10. Like grooves, each groove 12 is recessed from the outer surface of the main body 10 to the center thereof. The plurality of grooves 12 are arranged at regular intervals in the circumferential direction on the outer surface of the main body 10 with respect to the center of the main body 10. [ At this time, the grooves 12 are disposed at positions displaced from each other in the row of the main body 10. That is, when the vertical direction of the main body 10 is referred to as a row direction, the grooves 12 of the uppermost first row groove group are disposed at positions displaced from the grooves 12 of the second row groove group immediately below And the grooves 12 of the third groove group immediately below the second row groove group are disposed at positions displaced from the grooves 12 of the second row groove group. On the other hand, each groove 12 of the third row groove group is disposed at a position where it meets each groove 12 of the first row groove group. When the vertical lines along the vertical direction of the main body 10 are referred to, the grooves 12 of the first row groove group are not arranged in the same vertical direction line in the grooves 12 of the second row groove group And the grooves 12 of the first row groove group and the grooves 12 of the third row groove group are arranged on the same vertical line. In this way, the grooves 12 provided for each row of the main body 10 are arranged to be displaced from each other. When the grooves 12 are arranged at positions shifted from each other in the row, the light from the LED 32 emerges at a greater angle than when the light is emitted, which is better for decoration and the like. At this time, the grooves 12 are formed in a dome shape concave toward the center of the main body 10. Instead of the grooves 12, a plurality of protrusions may be provided on the outer surface of the main body 10 so as to protrude like a convex lens. In the case of the projection, it can be formed into a convex dome shape.

The paraffin 20 is the same as the paraffin 20 of a general candle in that it is a raw material for allowing the candle 28 to be continuously turned on when the core 26 is lit. However, in the present invention, the paraffin 20 is formed into a substantially convex block shape so as to enter the space for accommodating the paraffin 20 in the main body 10. At the same time, the paraffin (20) is not a hard characteristic unlike the paraffin (20) of a general candle, but a soft material which can be pressed by hand to some extent. Unlike the paraffin 20 of a general candle, the paraffin 20 in the present invention is made of a soft material which can be deformed to some extent. Of course, the paraffin 20 of the present invention is soft enough to enter the space of the inner paraffin 20 of the main body 10, but has a strength enough to hold the block shape. In addition, the paraffin 20 embedded in the main body 10 has a transparent or semi-transparent block structure so that the light of the LED 32 can pass through.

A wick 26 is planted at the center of the paraffin 20. The wick 26 is partly embedded in the paraffin 20 and the rest is on the top surface of the paraffin 20. [ A portion of the wick 26 is raised above the center of the top surface of the paraffin 20. [ When the wick 26 is lit, the candle 28 is held by the paraffin 20 of the ordinary candle, and when the wick 26 is raised above the paraffin 20, the candle 28 is not turned off .

The LEDs 32 are mounted on the upper surface of the printed circuit board 34 by soldering and the terminals of the infrared sensor 36 are mounted on the upper surface of the printed circuit board 34 by soldering. Of course, the terminals of the LEDs 32 and the terminals of the infrared sensor 36 are connected to each other in a circuit through the circuit pattern of the printed circuit board 34 so that the wick 26 provided on the paraffin 20 is lit When the infrared ray sensor 36 detects the infrared ray generated by the candle 28, the LED 32 is driven to emit light according to the detection signal of the infrared ray sensor 36. [

The infrared sensor 36 is mounted (soldered) on the printed circuit board 34 in a state where the infrared sensor 36 is elevated upward from the upper surface of the printed circuit board 34. And the terminals exposed downward of the infrared sensor 36 are mounted by soldering so as to be connected to the circuit pattern of the printed circuit board 34. The LEDs 32 are disposed at the center of the upper surface of the printed circuit board 34 and the infrared sensor 36 is disposed at the side of the LEDs 32. [ The printed circuit board 34 on which the infrared sensor 36 and the LED 32 are mounted is interposed between the bottom surface of the main body 10 and the bottom surface of the paraffin 20. [

The battery support 38 forms a space for inserting the battery 2 between one surface of the printed circuit board 34 (more precisely, the bottom surface of the printed circuit board 34). The battery support 38 includes a plate-shaped battery support plate portion 38a and at least two electrically conductive connection support pieces 38b provided on the battery support plate portion 38a and extending upward. The electrically conductive connection supporting piece 38b is bonded to the circuit pattern of the printed circuit board 34 at the bottom of the printed circuit board 34 so as to be energizable. The conductive connecting piece 38b is connected to the printed circuit board 34 by soldering. Therefore, a space for inserting the battery 2 into which the battery 2 can come in is secured between the battery support 38 and the printed circuit board 34. The space for inserting the battery 2 is secured between the bottom surface of the printed circuit board 34 and the battery supporting plate portion 38a. A spring is mounted on the bottom surface of the printed circuit board 34 so as to face the battery supporting plate portion 38a of the battery supporting body 38. The spring can be mounted on the printed circuit board 34 by soldering or the like. Therefore, when the battery 2 (the flat plate-shaped mercury battery 2) is inserted between the spring and the battery supporting plate portion 38a of the battery supporting body 38, the spring and the battery supporting body 38 are inserted into the printed circuit board An LED 32 mounted on the infrared sensor 34 and a battery 2 terminal capable of supplying the power of the battery 2 to the infrared sensor 36.

The LED module 32 and the infrared sensor 36 are mounted on the upper surface of the printed circuit board 34 and the LED module 30 having the battery supporting body 38 is mounted on the bottom surface of the printed circuit board 34, Is interposed between the main body (10) and the paraffin (20). The LED module 30 is interposed between the main body 10 and the paraffin 20 in a state in which the battery 2 is electrically energized between the spring on the bottom surface of the printed circuit board 34 and the battery supporting body 38, do. The LED module 30 is stably disposed between the bottom surface of the paraffin 20 and the bottom surface of the main body 10. [ The paraffin 20 is soft and soft enough to be depressed as described above so that the bottom surface of the paraffin 20 is convexly raised so that the LED module 30 is placed on the floor of the main body 10 Plane.

Further, the present invention further includes a shielding member 42 which surrounds the periphery of the infrared sensor 36 and whose upper end is higher than the upper end of the infrared sensor 36. The shielding member 42 itself has a single pipe structure in which the upper end portion and the lower end portion are opened so that the shielding member 42 is connected to the infrared ray sensor 36 through the opening portion of the lower end portion of the infrared ray sensor 36, The upper end portion of the shielding member 42 is disposed above the upper end of the infrared ray sensor 36. In this state, Preferably, the shielding member 42 is constructed in black so that only the infrared rays of the candle 28 reach the infrared sensor 36 and the other light is prevented from entering the side of the infrared sensor 36.

5 is a longitudinal sectional view showing a configuration of another embodiment of the present invention. 5, a light diffusion plate 52 is disposed between the LED 32 and the paraffin 20 in a state where the LED 32 is disposed between the bottom surface of the paraffin 20 and the bottom surface of the main body 10 . The light diffusing plate 52 may be configured to be supported by the fixing means such as a bracket fixed to the printed circuit board 34 and arranged above the LEDs 32. [ The optical diffusing plate 52 may be disposed between the paraffin 20 and the LED 32 when the optical diffusing plate 52 is disposed above the LED 32. [ It is to be understood that a known bracket or the like can be applied as the fixing means for disposing the light diffusion plate 52 adjacent to the LED 32. [ On the other hand, the light diffusing plate 52 is preferably configured to mix the particle-type light diffusion film. The light diffusing plate 52 may be a transparent or translucent plate through which the light of the LED 32 can pass. When the light diffusing plate 52 is molded, the light diffusing film, ) When the light diffusing plate 52 is mixed with the raw material for molding to uniformly stir the light diffusing plate 52, a plate structure in which the light diffusing film in the form of particles is uniformly dispersed throughout the light diffusing plate 52 can be obtained.

6 is a longitudinal sectional view showing a configuration of another embodiment of the present invention. 6, the LED module 30 is embedded in the light-transmissive capsule 54 and disposed between the main body 10 and the paraffin 20. The light- At this time, the capsule 54 is made of a silicon material mixed with a fluorescent material. The capsule body part in which the capsule 54 itself is divided into at least two parts may be coupled by a bonding means such as an adhesive so that the LED module 30 is embedded in the capsule 54. [ When the LED module 30 is accommodated in the two capsule body pieces and the end portions of the capsule body pieces which are in contact with each other are joined by a bonding means such as an adhesive agent, the structure in which the LED module 30 is stably embedded in the capsule 54 I get drunk. The capsule 54 having the built-in LED module 30 therein is interposed between the bottom surface of the paraffin 20 and the bottom surface of the main body 10. Preferably, the light-transmissive capsules 54 are also mixed with light diffusion films in the form of particles. Likewise, the capsule 54 may be a transparent or translucent material through which the light of the LED 32 can pass. When the capsule 54 is molded, the light diffusing film, which has been pulverized in the form of particles, When the capsule 54 is formed by mixing together the raw materials (silicon raw material) and stirring well, a structure in which the particle-shaped light diffusion films are uniformly dispersed throughout the capsule 54 can be obtained. It is preferable that the capsule 54 is fixed to the bottom surface of the main body 10 by fixing means such as an adhesive so that the LED module 30 is stably fixed in place. Of course, it is of course no problem to place the capsule 54 between the bottom surface of the paraffin 20 and the bottom surface of the main body 10. On the other hand, the LED module 30 is interposed between the paraffin 20 and the main body 10 in a state of being protected by a translucent cover. It is preferable that the translucent cover surrounds the LED module 30 and the paraffin 20 is provided on the translucent cover in this state and the LED module 30 and the translucent cover are provided on the bottom surface of the main body 10.

According to the present invention having the above-described configuration, since the wick 26 is not lit, the infrared light is not normally generated when the candle 28 is not turned on, so that the LED 32 is turned off, The infrared ray sensor 36 detects the infrared ray of the candle 28 and the LED 32 is turned on by the infrared ray detection signal. The effect of the present invention for detecting infrared rays by the infrared ray sensor 36 and lighting the LED 32 is as follows.

1. As long as the candle 28 is turned on, the light of the LED 32 is emitted to the outside through the main body 10, and the decorating function is performed by using the eliding light. At this time, the LEDs 32 may be composed of RGB. In this case, since light of various colors can be radiated through the main body 10, the decorative effect can be enhanced and a colorful feeling can be obtained. What is important in the present invention is that the candle 28 is turned on by the candle 28 and the LED 32 emits light by the infrared sensor 36, thereby doubling the decorative effect.

2. The main body 10 has a plurality of grooves 12 recessed to further enter the outer surface of the main body 10 so that the light is emitted in various angles due to the grooves 12 when the LED 32 emits light The decorative effect is further enhanced.

3. The main body 10 has a jar container shape in which the outer diameter gradually increases from the lower end to the middle and gradually decreases from the height position to the upper end of the boundary point so that the light emitted from the LED 32 is reflected by the convex portion So that it is better to enhance the decoration effect by the lighting.

4. A plurality of grooves 12 on the outer surface of the main body 10 form a bent portion for increasing the gripping force between the hand to hold the main body 10 by hand and the outer surface of the main body 10. [ The main body 10 can be easily slipped and fall on the floor from the hand holding the main body 10, so that the main body 10 can be more stabilized at the time of handling.

5. The paraffin 20 has a soft property to maintain a constant block shape while being flexible enough to be pushed when the surface is pressed. Therefore, when the paraffin 20 is inserted into the main body 10, have. It is also easy to remove the paraffin 20 from the main body 10 if necessary.

6. A battery 2 is electrically coupled between the printed circuit board 34 and the battery support 38 and an LED module 36 having an infrared sensor 36 and an LED 32 mounted on the printed circuit board 34 So that it is easy and quick to arrange the LED module 30 in which all the components are integrally modulated, between the paraffin 20 and the main body 10. The same is true when the LED module 30 is pulled out from the main body 10.

7. The battery 2 can be simply inserted into the battery insertion space between the printed circuit board 34 and the battery support 38, so that the battery 2 can be easily combined and separated.

8. Another embodiment of the present invention is provided with a shielding member 42 that surrounds the periphery of the infrared sensor 36 so that ambient light other than infrared rays of the candle 28 It is possible to prevent the battery 2 from being consumed unnecessarily and to prevent the battery 2 from being discharged while the LED 32 emits light only by the infrared ray generated when the candle 28 is turned on, ), The use period is extended so much more certainly.

9. The shielding member 42 can be prevented from reaching the infrared sensor 36 because of the black background so that the sunlight or the like reaches the infrared sensor 36 and the upper end opening of the shielding member 42 is erected in the direction toward the upper wick 26 So that the candle 28 is turned on only when the candle 28 is turned on. The infrared rays are detected only by the upper end of the infrared ray sensor 36 when the candle 28 is turned on and the remaining circumferential portion of the infrared ray sensor 36 surrounds the shielding member 42 so that the infrared ray sensor 36 receives less So that the sensitivity of the LEDs 32 to be emitted by the infrared rays of the candle 28 becomes as accurate and higher.

10. The upper end of the shielding member 42 is further raised above the upper end of the infrared ray sensor 36 so that sunlight enters the infrared ray sensor 36 and the LED 32 is lighted by the sunlight unnecessarily It is possible to reliably prevent the case. The sunlight can be inclined to the side of the infrared sensor 36 so that the shield member 42 is raised above the upper end of the infrared sensor 36 so that the sunlight reaches the infrared sensor 36 more reliably It is possible to more reliably prevent the light emitting drive of the LED 32 unnecessarily due to the influence of the sunlight other than the candle 28. [ The waste of the battery 2 is prevented as much as the emission of unnecessary LEDs 32 by sunlight is prevented.

11. In another embodiment of the present invention, an optical waveguide is disposed between the lower end of the LED 32 and the paraffin 20 and between the bottom surface of the main body 10 and between the LED 32 and the paraffin 20, The diffusing plate 52 is further provided so that the light of the LEDs 32 can be more diffused and allowed to pass through the main body 10 so that the decoration effect by the illumination of the LEDs 32 is better. In the case where the light diffusion plate 52 is provided with a particle type light diffusion film, the light diffusion film further spreads the light of the LED 32 more widely, so that it is more preferable to enhance the decoration effect by the light diffusion.

12. Since the LED module 30 is embedded in the light-transmissible capsule 54 and disposed between the main body 10 and the paraffin 20, the LED module 30 can be stably shielded, So that the decorative efficiency of the display device can be improved. The light-transmissible capsules 54 are mixed with a fluorescent material and are made of a silicone material, so that it is better to enhance the decoration efficiency by the fluorescent action. The capsules 54 themselves are made of silicone and have flexibility so that the LED module 30 can be more flexibly and securely protected . The LED module 30 is protected by the capsule 54 and the light diffusion efficiency is increased. In this case, the light-transmissible capsule 54 may also be provided with a light diffusion film in the form of a particle. In this case, the light diffusing film also diffuses the light of the LED 32 more widely through the light-transmissive capsule 54, It will be even better to increase the decoration effect by Meanwhile, the capsule 54 is formed by combining at least two capsule body pieces. If necessary, the capsule body 54 may be separated to open the capsule 54 to take out the LED module 30. [

The specific embodiments of the present invention have been described above. It is to be understood, however, that the scope and spirit of the present invention is not limited to these specific embodiments, and that various modifications and changes may be made without departing from the spirit of the present invention. If you have, you will understand.

Therefore, it should be understood that the above-described embodiments are provided so that those skilled in the art can fully understand the scope of the present invention. Therefore, it should be understood that the embodiments are to be considered in all respects as illustrative and not restrictive, The invention is only defined by the scope of the claims.

10. Main Body 12. Home
20. Paraffin 26. Wick
28. Candle 30. LED Module
32. LED 34. Printed Circuit Board
36. Infrared sensor 38. Battery support
38a. Battery support plate 38b. Connecting supporting piece
42. Shielding member 52. Optical diffuser plate
54. Capsules

Claims (10)

A main body 10;
A paraffin 20 injected into the main body 10;
A wick 26 provided on the paraffin 20;
An LED 32 embedded between the paraffin 20 and the main body 10;
And an infrared sensor 36 connected to the LED 32 to sense the infrared rays of the candle 28 attached to the wick 26 and to drive the LED 32 to emit light. An LED candle that is driven to emit light by infrared rays.
The method according to claim 1,
Wherein the main body (10) is made of a light transmissive material such that the light of the LED (32) is transmitted from the inner circumferential surface to the outer circumferential surface.
3. The method of claim 2,
Wherein the main body (10) has a plurality of grooves (12) recessed to further enter the outer surface of the main body (10).
The method of claim 3,
Wherein the main body (10) has a container shape in which the outer diameter gradually increases from the lower end to the middle, and the outer diameter gradually decreases from the height position of the boundary point to the upper end.
The method according to claim 1,
A printed circuit board 34 which is disposed between the bottom surface of the main body 10 and the bottom surface of the paraffin 20 and on which the LED 32 is mounted and a printed circuit board 34 connected to the printed circuit board 34, Further comprising a battery support body (38) forming a space for inserting the battery (2) between the battery case (2) and one surface of the circuit board (34) And the LED module (30) is configured to be energized so as to constitute the LED module (30).
6. The method of claim 5,
Wherein the LED module (30) is embedded in a light-transmissive capsule (54) and disposed between the main body (10) and the paraffin (20).
The method according to claim 6,
Wherein the capsule (54) is made of a silicon material mixed with a fluorescent material.
The method according to claim 1,
Further comprising a shielding member (42) which surrounds the periphery of the infrared sensor (36) and whose upper end is raised above the upper end of the infrared sensor (36).
9. The method of claim 8,
The infrared sensor 36 is mounted on a printed circuit board 34. The shield member 42 is formed in a single pipe shape and is fitted to the periphery of the infrared sensor 36, And the upper end of the shielding member 42 is located above the upper end of the infrared sensor 36 to block the ambient light from entering the infrared sensor 36. The shielding member 42 has a black- An LED candle that is driven to emit light by infrared rays.
The method according to claim 1,
The LEDs 32 are disposed between the bottom surface of the paraffin 20 and the bottom surface of the main body 10 and the optical diffusing plate 52 is further provided between the LEDs 32 and the paraffin 20 Wherein the light is emitted by an infrared ray.

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