KR20150089920A - Multi-color pen light - Google Patents

Abstract

The present invention is to provide multi-color pen light which can easily obtain a balance of color mixture by an emission color from a light emitting diode and is difficult to receive an influence on the color mixture by power consumption of a battery. The multi-color pen light comprises: a light emitting unit; and a grip unit. The grip unit includes: a light source unit including a red light emitting diode, a green light emitting diode, a blue light emitting diode, a gold light emitting diode, and a white light emitting diode; and a control unit for individually controlling light emission of each light emitting diode in the light source unit. The multi-color pen light is configured to obtain a specific emission color as the light emitting diodes are made to emit light individually or in multiple by the control unit. The multi-color pen light obtains a plurality of specific emission colors. The specific emission colors include: an emission color obtained by mixing light emitted from the white color diode and light emitted from the color diodes except for the white color diode; and an emission color obtained by mixing light emitted from the gold color diode and light emitted from the color diodes except for the gold color diode.

Description

Multicolor pen-light {MULTI-COLOR PEN LIGHT}

The present invention relates to a light emitting device such as a pen-light or a stick-light used mainly by a viewer or a participant in a concert or various events (collectively referred to as " concert " in this specification) Quot; light ". " Pen-light " in the present invention refers to the entirety of such a light emitting device).

The pen-light is held at the venue of a concert or the like, and the audience holds it by hand, and uses it by emitting light and lighting it. This is used, for example, to support an artist, or to allow many viewers to equally feel a sense of identity using pen-lights. Initially, only a monochromatic light was emitted in the form of a stick. After that, a pen-light having a complex shape such as a heart or a star (star), a pen-light for producing some colors, A new pen-light suitable for the planning and the purpose of each concert and the like, such as a flashing pen-light such as a neon sign, is requested, and also the needs for the audience's pen-light are diversified.

In recent years, for example, in a concert of an idol group in which each member has an image color of each of the members, in response to the progress of the stage, the pen-light is cheered by coloring and emitting light with the image color of each member, (Hereinafter, referred to as " multi-colored pen-light ") is required to emit light of a plurality of colors with a single pen-light , In particular, a pen-light in which a large number of luminous colors are obtained.

Currently, in many pen-lights, a light-emitting diode (LED) is used as a light source. As a multicolor pen-light, it has been proposed that three light emitting diodes (RGB) of a red light emitting diode, a blue light emitting diode, and a green light emitting diode are mounted and can emit light in various colors, as in Patent Document 1. This is to use the principle of the so-called three primary colors of light (Grassman's law, such as color tricolor) by mixing and adjusting lights emitted from RGB light emitting diodes to obtain luminescent colors.

When RGB light emitting diodes are used, theoretically, it is considered that it is possible to obtain pen-lights that emit color light only by using only three light emitting diodes, that is, in an infinite kind of color tone. In recent years, so-called full-color LEDs, in which three LEDs (RGB) are packaged together, are generally circulated, and it is more convenient to design and produce multicolor pen-lights by three primary colors.

However, in the pen-light, it is not always easy to take a subtle balance of color mixing by the three-color light emitting diodes as described later.

In addition, even if a desired luminescent color is obtained because the balance is originally taken, this can not be said to continue. The power of the pen-light is a battery, so that the power is limited and the power can not be supplied stably for a long period of time. The balance of the luminescent color (mixed color) becomes conspicuous due to consumption of the battery. As a result, Can not be obtained. Depending on the size of the battery (such as a button battery having a smaller amount of power) or the method of using the pen-light, the timing at which the luminescence color (color mixture) is not balanced soon comes to be expected.

The problem of the former is grasped only as a problem of adjustment and setting of the control means and a solution has been attempted from the viewpoint of how to control and program the RGB to obtain a desired color by taking balance of the RGB color mixture Patent Document 2 is somewhat related to this problem). However, in recent years, a considerable number of colors have been requested with a single pen-light (sometimes a color around 20 colors is requested), and a difference in luminescent color (for example, a difference between reddish purple and pink) It is not necessarily successful that RGB is obtained by subtle adjustment, programming, and stability.

As a solution to the latter problem, it is generally conceivable to use a step-up circuit or a current control circuit (device). However, it is difficult and costly to assemble it in pen-lights with limited size and weight. In addition, since the pen-light is usually used for shaking and it may be dropped by mistake, it is inevitable to some extent that the voltage-boosting circuit or the like may be damaged. If this is assembled, It may be increased.

It is in the present state that there is no effective means for continuing the balance of the color mixture by the RGB with respect to the latter problem. Therefore, in the case of the present RGB, when the desired color tone can not be obtained by consuming the battery to some extent , The user of the pen-light can not replace it with a fresh battery even though the battery still has power. However, this causes wasting of power remaining in the battery, resulting in an economic loss, and it is not easy to replace the battery during performance at a concert venue or the like, and it is unrealistic for a pen-write user to avoid such a situation as much as possible There is.

In the multicolor pen-light, how the desired color can be emitted by the RGB light emitting diodes (Patent Document 2 described above) and how the user can control the color development (Patent Document 3, Patent Document 4) has been proposed, but it can not cope with the solution to the above problem.

Patent Document 1: JP-A-2000-90702 Patent Document 2: Japanese Patent Application Laid-Open No. 2009-176697 Patent Document 3: JP-A-2013-235838 Patent Document 4: Japanese Utility Model Registration No. 3175039

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a multicolor pen-light which can easily take a balance of color mixing by light emission color from a light emitting diode and is relatively unaffected by color mixing by power consumption of a battery We will do it.

In the pen-light using the mixed color of the original luminescent color, it is necessary to expose the closed space (the side or upper part of the member that blocks the closed space) widely in a specific color by mixing color, instead of coloring / mixing at the point level , There is a characteristic different from the scene of color development by RGB of the display or the like, as the power source is limited to the current and the voltage of the battery, and the power is initially set at a peak and then only goes down.

There may be a difference in the power consumption of each light emitting diode of RGB, and individual light emitting diodes themselves may have individual differences in color development and power consumption. If current and voltage are limited, they are easily affected by these.

Under such circumstances, it has now been found that color mixing of RGB in the pen-light tends to cause difficulty in adjusting the green color. By separately mixing white and yellow colors, it is possible to obtain a balance of color mixture at the time of light emission of the color mixture of the pen-light, and it is possible to improve the balance of the color mixture at the time of light emission from being influenced by the consumption of the battery I found something.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems and it is an object of the present invention to solve the above problems by not only obtaining a balance of color mixture by RGB but also by an approach different from conventional color mixing and light emission by only RGB .

That is, in order to solve the above problems, the present invention provides, as a first side, a light emitting portion and a grip portion, wherein the grip portion is a red light emitting diode, a green light emitting diode, a blue light emitting diode, a yellow light emitting diode and a white light emitting diode And a control means for individually controlling the light emission of each light emitting diode of the light source portion so that a specific light emission color is obtained by individually or plural light emission of each of the light emitting diodes by the control means, A plurality of luminous colors are obtained and at least a specific luminous color to be obtained is a luminous color obtained by mixing at least light emitted from the white light emitting diodes and light emitted from the other light emitting diodes or light emitted from the yellow light emitting diodes The light emitting diodes Is no multi-color pen, characterized in that configured to include a light emission colors obtained by mixing the light-to provide a light.

Further, as a second aspect, the present invention provides the multicolor pen-light according to claim 1, wherein the multicolor pen-light according to claim 1 is provided in the vicinity of the light source unit, the luminescent color auxiliary means for assisting in collecting and mixing the light emitted from each of the light emitting diodes will be.

In addition, as a third aspect, the present invention provides the multicolor pen-light according to claim 1 or 2, wherein the light source unit further comprises a light emitting diode of a color other than the light emitting diode.

According to the present invention, in a multicolor pen-light using a plurality of light emitting diodes, it is possible to obtain an effect that it is easy to obtain a desired luminescent color even when the power consumption of the battery is consumed to lower the illuminance. In addition, even when the remaining amount of the battery is comparatively low, the color mixture is easily balanced and an effect of obtaining a luminescent color which is hard to obtain in the conventional pen-light such as yellow and light blue can be obtained.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a view showing an embodiment of a grip portion of a pen-light according to the present invention, and is a sectional view of a grip portion thereof. Fig.
2 is a view showing an embodiment of a pen-light according to the present invention.
3 is a view showing an example of the arrangement of light emitting diodes in one embodiment of the present invention (a plan view of the grip portion viewed from above).
4 is a view showing another example of the arrangement of light emitting diodes in one embodiment of the present invention (a top view of the grip portion viewed from above).
5 is a perspective view showing an example of a light condensing means according to the present invention.
Fig. 6 is a perspective view showing another example of the light condensing means according to the present invention; Fig.
7 is a view showing an example of the arrangement of light emitting diodes in another embodiment of the present invention (a plan view of the grip portion viewed from above).
8 is a view showing one modification of the pen-light according to the present invention, and is a sectional view of the grip portion.
FIG. 9 is a perspective view of a light source unit according to a modification of FIG. 8; FIG.
10 is a perspective view of a light source unit according to another modification of the present invention.
11 is a perspective view of a light source unit according to still another modification of the present invention.

Best Mode for Carrying Out the Invention Hereinafter, embodiments of the multicolor pen-light of the present invention will be described in detail with reference to the drawings.

(Example 1)

The multicolor pen-light of the present invention has a light emitting portion and a grip portion. Fig. 1 shows an embodiment of the grip portion 1 of the pen-light 5 (see Fig. 2) of the present invention. The grip portion (1) of the pen-light of the present invention has the light source portion (2) and the control means (3). The grip portion 1 may be provided with a battery accommodating portion for accommodating the battery 6 separately.

When the pen-light is used, for example, as shown in Fig. 2, a cover having a shape other than the rod shape is attached to the upper portion of the grip portion, and is used as the light-emitting portion 4. In general, the cover can be replaced if it is of the same standard.

The light source unit 2 is configured to include a red light emitting diode, a green light emitting diode, a blue light emitting diode, a yellow light emitting diode, and a white light emitting diode. Normally, the respective light emitting diodes 7A, 7B and the like are provided on the substrate, and these are arranged inside the grip portion 1. The arrangement of the light emitting diodes will be described later.

The control means 3 has a control program for individually controlling the light emission of each light emitting diode of the light source unit 2. [ The control program is programmed to cause each of the light emitting diodes to emit light with a specific color alone, or to emit a plurality of light emitting diodes and mix them to emit light with a specific color.

A plurality of light emission colors are obtained in one pen-light, and a switch 8, which is separately provided, is configured to be able to select a desired one of the light of a predetermined color tone.

In the mixed color of light emitted from the plurality of light emitting diodes, at least the luminescent color obtained by mixing the light emitted from the white light emitting diode and the light emitted from the other light emitting diodes, or the light emitted from the yellow light emitting diode, And light emitted from the diode is mixed to obtain a luminescent color.

As an example of the former (mixed color with a light emission color of a white light emitting diode), for example, a light emitting color of a white light emitting diode and a blue light emitting diode is mixed to obtain a light emitting color of a light color. In addition, it is possible to mix a light emission color of a white light emitting diode, a red light emitting diode and a blue light emitting diode to obtain a light emission color of a purple color.

As a result, for example, when described in the above-mentioned example, it is possible to obtain only the blue color with fine adjustment of the green color (fine adjustment) The luminescent color can be extremely easily obtained. Likewise, a luminescent color with a pale color which is difficult to obtain in practice can be easily obtained.

Further, by independently mixing the light emission from the white light emitting diodes in the mixed color, a plurality of the same system colors (for example, a light color similar to a blue color and a more white color) ) Can be realized.

As an example of the latter (mixed color with the light emission color of the yellow light emitting diode), for example, a light emission color of a yellow light emitting diode and a green light emitting diode is mixed to obtain a yellowish green light emission color, And obtaining a luminescent color of pale yellow green.

Thus, for example, in the above-described example, theoretically, a yellowish green luminescent color which can be obtained only by mixing and mixing light emitted from three red, green and blue light emitting diodes is extremely difficult, . In addition, the luminescent color of the yellowish green color, which is different from that of the yellowish green luminescent color and can not be emitted separately from the luminescent color of the prior art, can be easily obtained by simply mixing the luminescent color of the white light emitting diode.

In addition, even if the light emitting diodes of the same color exist, there is an individual difference in each light emitting diode, the power consumption is not necessarily uniform, and for example, a plurality of red light emitting diodes can not emit light in the same red color. Therefore, even if light emission of each diode is controlled in advance by the control means (such as a control program) and a specific tone is set to occur, the desired tone can not always be obtained, It is higher when the color is to be obtained by subtle blending of light.

In the case of emitting white light, it is theoretically possible to obtain white light emission by uniformly mixing R, G and B. However, it is not easy to obtain such a balance under the above-mentioned circumstances. In the case of RGB, white, As the strong white color, it causes a bias to color. According to the present invention, it is sufficient to emit only the white light emitting diode without mixing and fine adjustment by RGB, and more balanced white color can be easily obtained.

Similarly, in the case of emitting yellow light, green light is emitted theoretically by mixing red and green according to R, G, and B, but in reality, there is a tendency toward color saturation, as indicated by strong yellowish green color and strong yellowish red color. Also, the difference between orange and orange obtained by mixing red and green is also unlikely to occur if the delicate balance of the color mixture is lost. According to the present invention, it is possible to easily obtain a more balanced yellow color which is sufficient to emit only the yellow light emitting diode and which is different from the orange color, for example, without performing color mixing and fine adjustment by RGB.

Further, by providing the white light emitting diode in the light source portion 2, the pale color (more computational orange color) of the color obtained as described above (for example, orange color obtained from red and yellow) It can be easily obtained by merely mixing the luminescent color of the white light emitting diode.

In addition, in the case of coloring white or yellow, conventionally, a plurality of diodes are turned on to fine-tune the color mixture. However, according to the present invention, since the white light emitting diode or the yellow light emitting diode is merely developed by itself, , It is also possible to suppress the power consumption at the time of light emission.

According to the present invention, by mixing light emitted from a single light emitting diode and light emitted from two light emitting diodes other than a white light emitting diode without mixing light from three light emitting diodes of RGB in a subtle manner, . For example, the basic color of the JIS light source color (light source color), red (R), yellow (YR), yellow (Y), yellow (GY), green (G), blue (BG) (PB), the letter P, the red letter RP, the pink letter Pk, and the white letter W can be obtained by merely combining emission colors from at most two light emitting diodes.

This does not stop at the difficulty of merely combination or adjustment. In other words, it is possible to realize emission of a luminescent color which has been dull or pale or easily colored due to combination or adjustment of the color mixture in a clearer color tone. For example, yellow (YR, orange) has to be developed by color mixing of red and green light emitting diodes in the case of conventional (RGB). According to the present invention, the color of yellow and red Coloring can be achieved by mixing the light emitting diodes, so that it is possible to realize a luminescent color that is clearer than the conventional one.

By simply mixing the luminescent color of the white light emitting diode with the luminescent color thus obtained, it is possible to easily obtain a luminescent color, which has been difficult to distinguish so far, in a clear color tone.

Another important advantage of the present invention is that the use time (battery consumption) of a mixed color of white, light color, pink, yellow, etc., which was easily broken by the consumption time of the battery, The color tone closer to the original luminescent color can be obtained even if the illuminance is lowered by lowering the current and voltage from the power source. The results of comparative experiments are shown below for several luminescent colors.

(1) White light emission

For the conventional pen-light, RGB light emitting diodes were emitted to emit white light at a voltage of 4.5 V and a current of 50 mA using mixed color adjustment.

On the other hand, for the pen-light of the present invention, only a white light emitting diode was emitted at a voltage of 4.5 V and a current of 50 mA, to obtain a white luminescent color.

Next, the voltage of both pen-lights was lowered to 3.2 V and the current was reduced to 20 mA from the above-mentioned turned-on state. In the conventional pen-light, the color changed to a reddish luminescent color (so-called solid pink). This was evident at least in light of not being white light emission.

On the other hand, in the pen-light of the present invention, the light emission was slightly lowered, but the white light was emitted. This means that the white luminescence was maintained, that is, the brightness was slightly lowered.

(2) Light emitting color

For the conventional pen-light, light emitting diodes of RGB were emitted to obtain light emission (close to light) at a voltage of 4.5 V and a current of 41 mA using mixed color adjustment.

On the other hand, for the pen-light of the present invention, blue light emitting diodes and white light emitting diodes were emitted at the same voltage of 4.5 V and current of 41 mA to obtain light emitting colors.

Next, the voltage of both pen-lights was lowered to 3.0 V and the current to 4 mA from the above-mentioned turned-on state, and in the case of conventional pen-light, it changed to cyan. This was evident at first because it was not at least a light-emitting color.

On the other hand, in the pen-light according to the present invention, the light-emitting color luminescence was slightly reduced in roughness. This was the same as in the case of (1), except that the light emission was light and the brightness was slightly lowered.

(3) Pink light emission

For the conventional pen-light, RGB light emitting diodes were emitted, and pink light emission was obtained at a voltage of 4.5 V and a current of 51 mA using color mixture adjustment.

On the other hand, for the pen-light of the present invention, a red light-emitting diode and a white light-emitting diode were caused to emit light at a voltage of 4.5 V and a current of 51 mA to obtain a pink light-emitting color.

Next, the voltage of both pen-lights was lowered to 3.0 V and the current to 18 mA from the above-mentioned turned-on state, and in the case of the conventional pen-light, the color changed to red. This was evident at first, as it was not at least pink light emission color.

On the other hand, in the pen-light according to the present invention, the light emission was slightly reduced in luminance but it was a pink light emission. This was the same as in (1) and the like, but the brightness was slightly decreased.

(4) Yellow light emission

For the conventional pen-light, a light emission color of yellow (near-color) was obtained at a voltage of 4.5 V and a current of 41 mA using light-emitting diodes of R, G, and B using mixed color adjustment.

On the other hand, for the pen-light of the present invention, only the yellow light emitting diode was emitted with a voltage of 4.5 V and an electric current of 41 mA to obtain a yellow luminescent color.

Next, the voltage of both pen-lights was lowered to 3.0 V and the current to 16 mA from the above-mentioned turned-on state, and in the conventional pen-light, the color changed to orange. This was evident at first because it was not at least yellow light emission.

On the other hand, in the pen-light according to the present invention, the light emission was slightly reduced in brightness, but the yellow light was emitted. This means that, in other words, the light emitted was yellow, and the brightness was slightly lowered.

The above experimental example is an example, and a similar difference may occur even for other luminescent colors.

As is apparent from the above experiment, it was impossible to obtain a desired luminescent color despite the fact that the remaining amount of the battery remained to some extent in the past. Therefore, it was impossible to replace the battery. According to the present invention, Can be obtained. Therefore, the remaining amount of the battery can be more effectively used than in the prior art, and the replacement time of the battery can be delayed.

In the pen-light, it is necessary that the light from the light source portion is uniformly distributed throughout the side surface and the upper portion of the light-emitting portion (cover) 4, even if the light- In addition, when mixing light to obtain a color, light should be irradiated onto the entire upper and side surfaces of the light emitting portion in the obtained color tone. That is, the light emitting portion 4 has a predetermined space inside the cover, and the side surface and the upper portion of the cover have a certain area, and the light emission color needs to be obtained over all of them. However, in the case where the light emission from the light emitting diode is not only darkened as the distance from the light source decreases, but also when light emission colors are obtained by light emission of a plurality of light emitting diodes (for example, light emission of each light emitting diode of red, yellow, It is conceivable that the light emission color due to scattering or color mixing of the light emission of each light emitting diode is not obtained over the entirety described above.

From this point of view, it is appropriate that the light emitting diodes 7A, 7B and the like are provided close to each other. In the case of five light emitting diodes to be installed, for example, as shown in Fig. 3, the light emitting diodes may be disposed adjacent to each other in a substantially pentagonal shape, or four light emitting diodes may be arranged on the outer side and one Or the like.

As means for sufficiently illuminating the luminous color not only to the vicinity of the light source but also to the upper portion of the light emitting portion (cover) 4, it is conceivable to provide a lens for the luminous color near the light source portion. However, as in the present invention, in the case of using a configuration in which light emitted by mixing color is obtained by using, for example, five light-emitting diodes different from three RGB, not only one light emitting diode, , It is necessary to obtain the luminous color obtained by the color mixture not by the partial color but by the entire luminous part (cover) 4. In order to cope with this, in the present invention, when light from a light emitting diode is condensed and mixed, the mixed color is mixed to obtain a (desired) luminescent color, and the obtained luminescent color is mixed with the It is possible to provide the luminescent color auxiliary means for causing the light source unit 2 to deviate evenly. The shape of the luminous color auxiliary means, the light condensing position, the luminous angle and the like (the angle at which the cover side and upper portion are illuminated) are appropriately determined by the size, length, shape, arrangement of light emitting diodes and the like.

Fig. 5 shows an example of the luminescent color auxiliary means (luminescent color auxiliary means 10) used when the light emitting portion is cylindrical and the five light emitting diodes are arranged in a substantially pentagonal shape. Fig. 6 shows another example of the luminescent-color auxiliary means (luminescent-color auxiliary means 11). Fig. For example, the luminescent-color auxiliary means 10 shown in Fig. 5 can be connected to the outer frame 12 of the light source unit shown in Fig. As shown in FIG. The luminescent color auxiliary means shown in Fig. 6 is also provided so as to cover the top of each of the light emitting diodes 7A, 7B, and the like.

(Example 2)

In the present invention, when it is desired to obtain a luminescent color other than white or yellow, depending on a particular color, it is also possible to add a specific luminescent diode to such a color to emit light alone or to mix with another luminescent color It is possible.

For example, when it is desired to obtain some changes in the pink color, a pink light emitting diode is added, and the color of the pink color to be used as a base is to be independently emitted.

By mixing the luminescence of the white light emitting diode with this luminescence color, it is possible to easily obtain a thin pink color which has been conventionally difficult to distinguish from the basic luminescence color of pink, and it is also possible to obtain several luminescence colors as variations thereof.

In this case as well, it is appropriate that the light emitting diodes are provided close to each other. Fig. 7 shows an example in which six light emitting diodes 9a to 9f are arranged adjacent to each other.

In this case as well, the luminescent color auxiliary means can be provided which determines the size, length and shape of the light emitting portion, and the shape and the like which are appropriately determined by the arrangement of the light emitting diodes.

In addition, the addition of the light emitting diode needs to be performed within a limited space, and is limited by such a space. In particular, since it is necessary that the terminals of neighboring light emitting diodes are not in contact with each other, the number of light emitting diodes that can be added is limited.

(Example of modification)

In the above description, the light source unit 2 of the present invention has been described by taking the configuration in which the respective light emitting diodes are individually provided. However, each light emitting diode may be configured as a unit (packaged). An example of the light source unit 21 constructed as described above is shown in Figs. 8 to 11. Fig. Figs. 8 to 10 show an example in which five light emitting diodes are used, and Fig. 11 shows an example in which six light emitting diodes are used.

All of the inventions disclosed in this specification are not limited to a pen shape or a stick shape (rod shape) as a whole including the light emitting portion. That is, in any of the above-described inventions, it is possible to make various shapes such as decorating, or making the light emitting portion into a heart shape or a molding, and such is also included in "pen-light" in the present invention.

Conventionally, in a pen-light in which light is emitted in a plurality of colors by mixed color, it is difficult to obtain a balance of color mixture due to the color of light emitted from the light emitting diode, and the balance of light is broken by the passage of time. As a result, I had to replace the battery. According to the present invention, it is possible to easily obtain such a balance of color mixture, so that it is possible to obtain a color of luminescence which is unpreferably obtainable and which is difficult to obtain a difference in system color and system color. Further, even when a luminescent color is obtained by mixing color, it is possible to suppress a change in color tone accompanying power consumption of the battery. Therefore, it becomes possible to use the battery for a longer time, and it is advantageous in terms of economy and resources. Therefore, the present invention can make a great contribution to the art, and the industrial applicability is extremely high.

1:
2, 21: Light source part
3:
4:
5: Pen-Light
6: Battery
7A, 7B, 7C, 7D and 7E: Each light emitting diode
7a, 7b, 7c, 7d, 7e, and 7f: light emitting diodes
71A, 71B, 71C, 71D, 71E, and 7F:
8: Switch
9a, 9b, 9c, 9d, 9e, and 9f:
10, 11: luminescent color auxiliary means
12: Outer border of the light source

Claims (2)

A light emitting portion covered with a cover for illuminating the light emission color, and a grip portion,
The gripping portion includes:
A light source unit including a red light emitting diode, a green light emitting diode, a blue light emitting diode, a yellow light emitting diode, and a white light emitting diode,
And control means for individually controlling the light emission of each light emitting diode of the light source unit,
Wherein the control means is configured to obtain a specific luminescent color by individually or plurally emitting each of the light emitting diodes,
A plurality of the specific luminescent colors are obtained,
The specific luminous color obtained is obtained by mixing at least luminous color obtained by mixing light emitted from the white light emitting diode and light emitted from the other light emitting diodes or light emitted from the other light emitting diodes And a light emission color obtained by mixing emitted light,
A light-emitting color auxiliary means for condensing and mixing light emitted from each of the light-emitting diodes and illuminating the cover with a luminescent color obtained thereby is provided in the vicinity of the light source unit, and the battery or button battery is used as a power source Multicolor pen - light. The method according to claim 1,
Wherein the light source unit further comprises a light emitting diode of a color other than the light emitting diode.

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