JP2020080293A - Light generating instrument - Google Patents

Abstract

To provide a light generating instrument capable of satisfying improvement of a light generation rate, improvement of a healing effect, multidirectional dispersibility in light irradiation directions, convenience in use, down-sizing, a simplified configuration, compactification, weight saving, mitigation or reduction in a level of manufacturing difficulty, reduction in cost, etc.SOLUTION: A light generating instrument includes a light reflection body 11 and light generation means. A light leakage part 16 for leaking a light from an inner side of the light reflection body 11 to an outer side is provided on a peripheral wall of the light reflection body 11. In the light reflection body 11, part of the light generated from a light generation part of the light generation means is reflected by a light reflection surface of the light reflection body 11, and the reflected light exits to the outside of the light reflection body 11 through a light passage space 16 and a light passing surface of the light reflection body 11. Another part of the light generated from the light generation part of the light generation means exits to the outside of the light reflection body 11 from the light leakage part of the light reflection body 11.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a useful and useful light generating device suitable for various purposes such as a healing device, a lighting device, a light decoration device, a light decoration device, a light object, a light emitting type ornament, and a light emitting type wall hanging device.

A device having both a healing function and a lighting function is described in Patent Document 1 below. It is said that the instrument described in this document (hereinafter referred to as a conventional instrument) has the effects listed in the following <A01> to <A11>.
<01> When different-colored lights (plurality) having different wavelengths are emitted toward the light reflecting surface in the inner space of the casing, the light is reflected multiple times on the light reflecting surface, and the light is transmitted from the light transmitting surface to the outside of the casing. Light interference occurs because the light exits. As a result, various colors of colored light are generated in the inner space of the casing, which creates a fantastic atmosphere, which propagates from the light transmitting surface of the casing to the outside of the casing. When a user seeking healing is exposed to such light, he/she will be healed psychiatrically by experiencing the unique and fantastic light.
<02> Regarding the light energy emitted from the casing within the range of wavelength ≈ 360 nm to 830 nm or wavelength ≈ 300 nm to 900 nm, since the attention in the medical field has been paid, the treatment of diseases (diseases) and the activity of cells and tissues of the human body It is used for sterilization and sterilization of pathogenic bacteria. It is also used for growing plants and seafood. When it receives the irradiation, it effectively acts on the body to bring about the above-mentioned effects, which is significant in activating the physiological phenomenon of human. As a result, the user is freed from physical pain, fatigue, functional decline, injury or illness, and healed physiologically.
<03> The user can empirically understand that the energy of the light emitting diode emitted by reflection from the casing is effective for healing the mind and body. Moreover, it has the same positive psychological effects as the placebo effect. This becomes a suggestive effect and a condition, and the healing power of the user is naturally drawn out. This is especially effective for subjective symptoms such as stress.
<04> When the above-mentioned psychiatric effects, physiological effects, and psychological effects are superimposed, there are several times more healing effects than the effects of each alone, so exert a high degree of healing effect on the mind and body. You can
<05> The casing has a simple structure having a light reflecting surface and a light transmitting surface, and the light generating means also has a simple structure having a light emitting portion by a light emitting diode. Further, also in the relative relationship of the main constituent elements, since the light emitting portion of the light generating means only needs to be arranged and held in the inner space of the casing, the structure of the instrument is simplified in general.
<06> The light emitted from the light emitting diode is almost safe in the visible region, and is not the direct light of the LED light, but is reflected after being taken out to the outside of the casing, which further increases the safety. Moreover, since the LED reflected light can be taken out of the casing by simply energizing it, it can be said that the usage of a highly safe healing instrument is extremely simple.
<07> As described above, the light generating means mainly including the casing having the reflecting surface and the light emitting diode has a simple structure, and inexpensive constituent materials can be adopted. Therefore, the initial cost of the healing device can be kept low.
<08> As is well known, the light emitting diode has low power consumption. Therefore, the running cost of the healing tool when extracting the required light during use can be kept low. In addition, since the light emitting diode has a long life, the healing tool does not require much maintenance fee.
<09> In a healing instrument in which a transparent member is arranged in the casing, the LED light that reaches here undergoes transmission, refraction, reflection, etc., of which the LED light that has been refracted or reflected changes direction. Or Therefore, a plurality of paths of the LED reflected lights of different colors emitted to the outside of the casing are complicated and diversified. Therefore, the fantastic atmosphere due to the LED light exceeds that of the above <>, and the effect of healing psychiatrically also exceeds the above <>.
<10> When the casing is composed of an inner case, an outer case, and a united body, the inner case has a predetermined internal space. In this case, since the outer case has a degree of freedom in design and manufacturing, depending on this, it is possible to satisfy strength, stable installation property, appearance and the like.
<11> As mentioned above, the healing tool becomes a visual artwork that creates a fantastic atmosphere. It is versatile enough to be used for visual appreciation and also for commercial displays.

The conventional device disclosed in Patent Document 1 is useful and useful from the above description. However, there is still room for improvement in conventional appliances. The problems are as in the following <21> to <24>.
<21> The first problem of the conventional device is that the structure is bulky, the device is heavy, and the device is not compact. The reason is that the corresponding parts are incorporated in a large box-shaped casing. Of course, in the case of a bulky and heavy instrument, it takes a lot of space to install and hang it, and it becomes very inconvenient to carry or carry.
<22> The second problem of the conventional device is that the irradiation direction of light is limited only to the front of the box-shaped casing. This is because all the light reflected by the light-reflecting surface inside the box casing is emitted to the front of the box casing. In such a case, a region outside the front of the box-shaped casing is a dark part (dark side), and thus it is difficult to visually recognize the region.
<23> The third problem of the conventional device is that the structure is bulky and the number of parts and the types of parts are large, so that the difficulty in manufacturing the device is high. Therefore, a lot of manufacturing days and manufacturing time of the equipment are spent.
<24> The fourth problem of the conventional device is that the manufacturing cost increases due to the above-mentioned points (large device structure, high weight of the device, various parts, many manufacturing days, etc.), which is a product. This is because the cost of (equipment) is pushed up.

JP, 2008-272273, A

  In view of the above technical problems, the present invention improves the light generation rate, improves the healing effect, multidirectionally disperses the light irradiation direction, convenience in use, downsizing, simple configuration, and compactness. It is an object of the present invention to provide a light generating device that can satisfy the requirements of weight reduction, reduction or reduction of manufacturing difficulty, and low cost.

The light generating device according to the present invention is characterized by the technical contents of the following items 1 to 3 as means for solving the problems for achieving the intended purpose.
[Item 1]
A light reflector and a light generating means, and
The light reflector is any one selected from a pyramidal hollow solid shape, a paraboloid hollow solid shape, a truncated pyramidal hollow solid shape, and a truncated parabolic hollow solid shape. Of a hollow three-dimensional shape, and
The inner peripheral surface of the light reflector is formed of a light reflection surface, the front surface of the light reflector is a light passage surface, and
The light generating means has a light generating portion, and the light generating portion is equipped with a light emitting diode for emitting light toward the light reflecting surface of the light reflector, and
Regarding the light generating means, satisfying the condition that the light generating portion is opposite to the light passing surface and the condition that the light generating portion emits light toward the light reflecting surface, Is disposed and held in the light reflector, and a light passing space for passing light is provided around the light generating means in the light reflector, and
The light emitted from the light generating portion of the light generating means is reflected by the light reflecting surface of the light reflector, and the reflected light passes through the light passing space or the light passing surface of the light reflector. Out of the light reflector, and
The light generating device, wherein a light leaking part for leaking light from the inner side of the light reflector toward the outer side is provided on the peripheral wall of the light reflector.
[Item 2]
The light generating device according to the above item 1, wherein the light generating portion of the light generating means is equipped with a plurality of types of light emitting diodes for emitting lights of mutually different colors.
[Section 3]
The light-generating device as described in the above item 1 or 2, wherein one or more transparent bodies are arranged and held in the light reflector.

[Action (usage)]
<31> In the case of the light generating device according to the present invention, light is emitted from the light emitting diode of the light generating means (light generating portion) toward the light reflecting surface in the light reflector. The light from the light emitting diode is reflected by the light reflecting surface and then exits from the light reflecting surface through the light passing surface of the light reflecting body. In this way, the energy of the light emitted to the outside of the light reflector is applied to a part or a plurality of parts of the body of a person who is going to receive healing (hereinafter referred to as a user). A user who receives such light irradiation for an appropriate time is healed by the peculiarity of the light.
<32> On the other hand, the light generating device of the present invention also has a function as a lighting device. In the case of a lighting fixture, the light emitted from the light reflector to the outside of the light reflector as described above or the light leaking from the light leak portion of the peripheral wall of the light reflector to the outside of the light reflector is used as the illumination light.
<33> In the light generating device of the present invention, the light emitted from the light leakage portion to the outside of the light reflector eliminates the dark portion around the light reflector. That is, the light leaked from the light leaking portion raises the illuminance of the peripheral region of the light reflector while making the contour of the light reflector stand out, and thus the peripheral region becomes visible. This, of course, enhances the illumination function as a lighting fixture, but along with that also creates a situation in which a light beam is emitted from the light reflector, so the healing function as a healing fixture also increases.

  Since the light generating device according to the present invention is as described above, it has the same effect as the conventional device (see <01> to <11> above) as a healing device.

The light generating device according to the present invention further includes a healing device, a lighting device, a light decoration device, an illumination device, a light object, a light-emitting figurine, a light-emitting wall hanging device, etc. There are also unique effects such as 41> to <51>.
<41> The light reflector forming the main body of the light generating device of the present invention has a hollow solid shape having a shape such as a cone shape, a parabolic shape, a truncated cone shape, or a truncated parabolic shape. In the case of such a light reflector, the volume is about 1/3 of that of a conventional device having a box-shaped casing. Nevertheless, the light generating device of the present invention can emit light equal to or more than that of the conventional device. In other words, since a small device produces a large light output, it can be said that the extraction of big power with a small size has been technically established. Of course, in the case of the light generating device of the present invention, a large-scale large-scale device can be manufactured. Even in that case, unnecessary structural bulk does not occur.
<42> The light generating device of the present invention can perform high-quality healing depending on high light generating efficiency. One of the reasons is that the high light generation efficiency, which is important in this type of healing, is satisfactorily ensured as described above. One of the other reasons is that in the case of light-based healing, the unnecessary size of the device may be an impediment to the healing, which is avoided by miniaturizing the device. As a synergistic effect of these, a high degree of healing can be carried out.
<43> In the case of the light generating device of the present invention, since the light leak portion is provided on the peripheral wall of the light reflector, not only from the front (light passage surface) of the light reflector but also through the light leak portion of the light reflector. Light is also emitted in the circumferential direction. This means that multidirectional dispersion can be obtained in the light irradiation direction. The light in the circumferential direction of the light reflector in this case eliminates the occurrence of a dark portion in the peripheral portion of the light reflector. Therefore, as an illuminating device, an illuminating effect that more regions including the front region and the circumferential region of the light reflector can be visually recognized is obtained.
<44> In the case of the light generating device of the present invention which can obtain the multi-directional dispersion of the light irradiation direction as described above, radial light beams and dim light are generated around the light reflector. The healing effect is further enhanced by observing the fantastic atmosphere due to such light generation.
<45> The light reflector in the light generating device of the present invention has a hollow three-dimensional shape such as a cone shape, a parabolic shape, a truncated cone shape, or a truncated parabolic shape, so that the lower surface is wide and the center of gravity is low and stable. There is a nature. This is because the bottom of each part of the light reflector in the vertical direction has the maximum size, the size gradually decreases from the bottom to the top, and the top has the minimum size. The light generating device of the present invention having the stable light reflector as a main body is extremely easy to use because it can respond to any usage mode such as hanging, hanging, setting, carrying and carrying in a stable posture. Because it is one, it is highly convenient to use.
<46> As described above, the light reflector in the light generating device of the present invention emits light equal to or more than that of the conventional device, but has a small volume of about 1/3 of that of the conventional device. It is a thing. Moreover, the number of parts assembled in this light reflector is small. This achieves miniaturization of the light generating device while maintaining high function or high performance. In the case of the miniaturized light generating device of the present invention, the practical convenience is further enhanced because it is small.
<47> The light generating device of the present invention is one in which a small number of parts are assembled inside the light reflector. The light reflector in this case, whether it is a cone system or a parabolic system, is in itself a shape or structure that is well known, and is not particularly complicated. Further, the parts to be assembled in the light reflector, for example, the light generating means mainly composed of the light emitting diode can be provided as ready-made products and can be easily assembled in the light reflector. Therefore, in the case of the light-generating device of the present invention, it can be said that it has high function or high performance with a simple structure.
<48> In the case of the light generating device of the present invention, since a small light reflector is used as a base and all other main parts are assembled in the small light reflector, the device as a whole is extremely compact. You can say that.
<49> In one aspect of the light-generating device of the present invention, the constituent parts are two parts including the light reflector and the light-generating means, and in another aspect, only one part or two parts are added thereto. Therefore, in the case of the light generating device of the present invention, the weight saving of the device is sufficiently achieved.
<50> As described above, the light-generating device of the present invention satisfies the requirements for downsizing, a small number of parts, simplification of configuration, and adoption of ready-made parts. Bring That is, in the case of the light generating device of the present invention, the difficulty of manufacturing the device can be alleviated or reduced by downsizing, a small number of parts, simplification of the configuration, and adoption of existing parts.
<51> The miniaturization, the small number of parts, the simplification of the structure, the adoption of the existing parts, and the ease or reduction of the difficulty of manufacturing, which are observed in the light generating device of the present invention, bring about favorable results in the cost of the device. That is, in the case of the light generating device of the present invention, the device can be manufactured at a low cost due to the miniaturization, the small number of parts, the simplification of the configuration, the adoption of the existing parts, and the ease or reduction of the difficulty of manufacturing. Based on this, the device can be provided at a low price.

1 illustrates an embodiment of a light-generating device according to the present invention. 1A is a perspective view of a light generating device, FIG. 1B is a vertical cross-sectional view showing the internal structure of the light generating device, and FIG. 1C is a perspective view of a light generating means. It is a circuit block diagram of the light generation means in the light generation instrument of the present invention. It is what illustrated various other embodiments of the light generation instrument which concerns on this invention. 3(A) to 3(E) are perspective views of the light generating device.

  Regarding the light generating device according to the present invention, first, the embodiment illustrated in FIGS. 1 and 2 will be described, and then, the other embodiments illustrated in FIG. 3 will be described.

  In the light generating device illustrated in FIGS. 1A, 1B and 1C, 11 is a light reflector, 21 and 22 are transparent bodies, and 31 is a light generating means.

  The light reflector 11 of FIGS. 1A and 1B has a hollow three-dimensional shape of a cone system. As the conical shape of the light reflector 11 having the hollow three-dimensional shape, any shape is selected from a polygonal pyramid of a triangular pyramid or more and a seed cone (including a perfect circle and an elliptic cone). Incidentally, the light reflector 11 shown in FIGS. 1A and 1B has a hollow three-dimensional shape of a quadrangular pyramid. The light reflector 11 is manufactured in various sizes such as small size, medium size, and large size according to the scale of the device.

  Regarding the light reflector 11, for convenience of explanation, the upper side in FIGS. 1A and 1B may be referred to as a top portion, and the lower side in FIGS. 1A and 1B may be referred to as a bottom portion. Further, when describing each member and each part, the side facing the lower part in the light reflector 11 may be referred to as the front surface, and the side facing the upper part in the light reflector 11 may be referred to as the back surface. However, since the light reflector 11 does not have a uniform posture or orientation (direction) such as various postures in use, such an expression does not refer to an absolute part of the light reflector 11. .

  The light reflector 11 shown in FIGS. 1A and 1B is made of hard paper, paperboard/laminated paper, wood, glass (including tempered glass), ceramic, stone, gypsum, cement, plastic (synthetic resin), reinforced plastic ( FRP), soft rubber, semi-hard rubber, hard rubber, metal, etc., or a composite material in which two or more of them are combined. As a typical example thereof, the light reflector 11 is made of metal. As another typical example, the light reflector 11 is mainly made of plastic.

  The inner peripheral surface (inner surface) of the light reflector 11 is a light reflecting surface 12 having a light reflecting function. The light reflection surface 12 is formed by various means in consideration of the material of the light reflector 11. For example, when the light reflector 11 is made of metal such as steel, the inner peripheral surface (inner surface) of the light reflector 11 is mirror-finished by polishing (buffing), or the light reflector 11 is plated. Alternatively, it is formed by attaching a mirror surface film to the inner peripheral surface (inner surface) of the light reflector 11. In the case of the light reflector 11 made of paper, the light reflector 11 made of wood, the light reflector 11 made of plastic, etc., the light reflection surface 12 is formed by attaching a mirror surface film to the inner peripheral surface (inner surface) thereof. It In the case of the light reflector 11 made of glass or ceramic, a plate-shaped mirror is used. This plate-shaped mirror has a mirror on at least one side.

  The bottom surface side of the light reflector 11 is a light passage surface 13. As an example, the light passage surface 13 is an open surface of the light reflector 11. As another example, a plate-shaped or film-shaped light-transmissive material (transparent or translucent material) 14 may be attached to the open surface side of the light reflector 11 and closed. The light-transmissive material 14 may be attached to the light-reflecting body 11 by known means, for example, by adhesion, heat fusion, or metal fitting. Even if the bottom surface side of the light reflector 11 is closed by the light transmissive material 14 in this way, the light inside the light reflector 11 passes through the light transmissive material 14 on the light passage surface 13 side, and the light reflector 11 You can go out. The location is the light passage surface 13. In addition to this, a light passing space 15 also exists inside the light reflector 11. In this case, the remaining space after the transparent bodies 21 and 22 and the light generating means 31, which will be described later, are installed becomes the light passing space 15.

  A light leakage portion 16 for leaking light from inside the light reflector 11 toward the outside of the light reflector 11 is formed on the peripheral wall of the light reflector 11. The number of the light leakage portions 16 formed on the peripheral wall of the light reflector 11 may be one or plural. In the example of FIGS. 1A and 1B, a plurality (four) of light leakage portions 16 are formed dispersedly on the front wall, rear wall, left wall, right wall, etc. of the light reflector 11. The shape of the light leaking portion 16 may be any of a circle, an ellipse, a polygon, and an irregular shape. In the example of FIGS. 1A and 1B, a circular light leak portion 16 is formed on the four walls of the light reflector 11.

  The first means for forming the light leakage portion 16 in the light reflector 11 is to punch the peripheral wall of the light reflector 11. The hole after the perforation serves as the light leakage portion 16. On the other hand, when the light reflector 11 is composed of a transparent or semi-transparent light transmitting material and a light reflecting material (light reflecting film, mirror surface film or the like) attached to the inner surface of the light transmitting material, As a second means, the light leak portion 16 is formed by removing a part of the light reflecting material from the inner surface of the light reflector 11. On the other hand, the light reflector 11 has a transparent or semitransparent light transmitting material, a light reflecting material (light reflecting film, mirror surface film, etc.) attached to the inner surface of the light transmitting material, and an outer surface of the light transmitting material. When it is composed of an attached opaque material (opaque film), as a third means, the light leakage portion 16 is formed by removing predetermined portions of the light reflecting material and the opaque material. It Regarding the second means and the third means, a light-reflecting material or an opaque material, which is preliminarily drilled at predetermined locations, may be attached to the inner and outer surfaces of the light-transmitting material.

  In addition, as shown in FIGS. 1(A) and 1(B), for example, a handle for holding a device, a hanging device such as a device hanging support, and a hanging device for hanging a device on the top of the light reflector 11 or other parts. A related auxiliary tool 17 such as the above may be provided as necessary. On the other hand, a leg portion or a pedestal portion for installing the device may be provided on the bottom portion of the light reflector 11 as the related holder 17 as shown in FIGS.

  Furthermore, when any one or more of the alarm function, the sound function, the fragrance function, the insect control function, and the insecticidal function is added to the light generating device of the present invention, an alarm device, an acoustic device, an aromatic agent, an insecticide, and an insecticide are added. Any one or more of the agents and the like are attached inside and/or outside of the light reflector 11.

  The transparent bodies 21 and 22 attached to the inside of the light reflector 11 in FIGS. 1A and 1B are made of transparent materials as is obvious. The transparent bodies 21 and 22 may be solid type or hollow type, and may be colorless transparent or colored transparent. As a typical example, solid, colorless and transparent bodies 21 and 22 are adopted. The sizes of the transparent bodies 21 and 22 are set according to the size of the internal space of the light reflector 11, and the maximum diameter portion is often within the range of 2 to 30 cm. The transparent bodies 21 and 22 provided in the light reflector 11 may be plural as shown in the drawing, or may be single. When a plurality of transparent bodies 21 and 22 are used, the shapes may be the same or different, the sizes may be the same or different, the colors may be colorless and transparent, and the colors may be transparent. In FIGS. 1A and 1B, two transparent bodies 21 having different shapes and sizes are used. Of these, one transparent body 21 attached to the inner surface of the top of the light reflector 11 is a sphere (eg, a transparent member such as a crystal = a transparent jewel), and the other transparent body 21 is attached to the light passing surface 13 side of the light reflector 11. The transparent body 22 is composed of a polyhedron (diamond or diamond-like transparent member). When the transparent body 21 is made of a crystal ball, it is admired as a power stone in the streets, and therefore, it can be said to be desirable in terms of psychological action. When the transparent body 22 is composed of a polyhedral body (diamond of imitation) similar to diamond-cut diamond, it can be said that a polyhedron having a diamond-cut structure is desirable because the refraction and reflection of light are varied. In other examples, the transparent bodies 21 and 22 are made of one or more of transparent glass, transparent plastic, and transparent glass coated with transparent synthetic resin.

  The attachment of the transparent body 22 described above is as described later. That is, the transparent body 22 is mounted in the light reflector 11 by using the substrate member 32 of the light generating means 31. More specifically, the transparent body 22 is applied to the hole-shaped opening 33 at the center of the substrate member 32 and attached to that location.

  The light generating means 31 mainly composed of the light emitting diode (LED) 36 of FIG. 1B has a well-known electric circuit illustrated in FIG. The electric circuit of FIG. 2 is constructed by assembling required circuit components on the board member 32. As is clear with reference to FIG. 2, the light generating portion 34 for the LED equipment is provided on the upper surface (inward surface) of the substrate member 32, and is integrated with the outer peripheral portion of the substrate member 32. A plurality of mounting members (stays) 35 extending radially are provided.

  As the light emitting diode 36 in the light generating means 31 of FIG. 2, any light emitting diode that emits colored light can be adopted. In that case, the light emitting diode 36 is a combination of a plurality of types within the range from mono-color to full-color. The light emitting diode 36 in this illustrated example includes a red light emitting diode 36R, a green light emitting diode 36G, and a blue light emitting diode 36B in order to generate full-color light. As is well known, a specific full-color light emitting diode 36 is a device in which a predetermined LED is fixed to a substrate and the front surface thereof is covered with a transparent cover.

  The above-described full-color light emitting diode 36 is electrically incorporated into a known or well-known electric circuit as illustrated in FIG. 2 in order to emit light in an arbitrary color and change its brightness and color tone. There is. That is, the full-color light emitting diode 36 includes a central processing unit (CPU) 37, a read-only storage device (ROM) 38, a read/write storage device (RAM) 39, an input/output interface 40, a driver 41, a decoder 42, and The circuit is configured with three units of resistors R1 to R3, R4 to R6, R7 to R9 having different resistance values. The substrate member 32 having the light generating portion 34 for mounting the light emitting diode 36 is plate-shaped or block-shaped. It is an arbitrary plate or block selected from circles, polygons, rings, and variants. The substrate member 32 may be a solid body or a hollow body. The substrate member 32 in the illustrated example is plate-shaped and has a round ring shape. The material of the substrate member 32 is a single material or a composite material selected from metal, synthetic resin, wood, and hard rubber.

  The full-color light emitting diode 36 is attached to the substrate member 32 of the light generating means 31. It is attached to the back surface side of the substrate member 32 (upper surface side of FIGS. 1A and 1B), that is, to the light generating portion 34 corresponding to the upper surface portion of the substrate member 32. A plurality of full-color light emitting diodes 36 mounted by known means such as a fastening means using an adhesive and a fastening means using a metal fitting are distributed in the light generating portion 34 at equal or unequal intervals.

  The light generating means 31 mainly composed of the substrate member 32 having the light generating portion 34 is attached to the inside of the light reflector 11 via the attaching member 35, as is apparent from FIG. When the mounting member 35 in this case is formed of a hollow body such as a pipe or a channel member, the inner space of the hollow body may be used as a wiring space of the light emitting diode 36. The light generating means 31 is arranged in the light reflecting body 11 in a reverse (backward) posture such that the light generating portion 34 side to which the light emitting diode 36 is attached faces the inner side of the light reflecting body 11. By fixing the end portion of each mounting member 35 to the peripheral wall of the light reflector 11, it is held in the light reflector 11. For fixing the mounting member 35, any one or more of known means (welding, bonding, metal fittings, etc.) is adopted. In addition, when the end of each mounting member 35 penetrates the peripheral wall of the light reflector 11, a known metal stopper may be provided on the projecting end of each mounting member 35. As for the light generating means 31, there are one that uses a battery as a power source, one that uses a commercial power source as a power source, and one that can use both of them in a freely switchable manner. Among these, those using a commercial power source can use, as is well known, a means for rectifying an alternating current and connecting a resistor in series to limit a current, a means for controlling a phase, and the following means. That is, the light emitting diode 36 is connected to an AC power source via a rectifying diode/semiconductor switch, the semiconductor switch is turned on at a predetermined current of an AC half wave or less, and a current is passed through the light emitting diode 36. When the battery for the light generating means 31 is equipped, a battery housing that can be opened and closed from the outside is provided on the outer surface of the light reflector 11, the substrate member 32, or the inner surface of the light reflector 11.

  Regarding the two transparent bodies 21 and 22, as shown in FIGS. 1(B) and 1(C), one transparent body 22 is applied to the inner depth of the light reflector 11 and fixed thereto, and the other The transparent body 21 is attached to the substrate member 32 of the light generating means 31. For fixing and attaching the transparent bodies 21 and 22 in this way, an adhesive is used as an example, and a metal fitting is used as another example. In the latter case, the metal fitting may penetrate not only the light transmitting space 15 or the substrate member 32 but also the transparent body 21. In such a case, through holes may be formed in advance at predetermined positions of the transparent bodies 21 and 22.

  Thus, a space remains in the light reflector 11 after the transparent bodies 21 and 22 and the light generating means are installed. This remaining space becomes the light passing space 15 in the light reflector 11. Then, the light generated in the light reflector 11 goes out of the light reflector 11 from the light passage surface 13 and the light leakage portion 16 covered with the light transmissive material 14, and at that time, these lights are emitted. It will pass through the light passing space 15 in the light reflector 11.

  When the light generating device according to the present invention comprises the one illustrated in FIGS. 1 and 2, it is used as follows. That is, a predetermined control signal is output from the central processing unit (CPU) 37 by executing the on/off control program stored in the storage device (ROM) 37, and the control signal is input to the driver 41 via the interface 40. As a result, each full-color light emitting diode 36 in the light generator 34 in the light reflector 11 is controlled to be turned on and off. Further, each full-color light emitting diode 36 has a resistance value of the resistors R1 to R3, R4 to R6, R7 to R9 connected to the red light emitting diode 36R, the green light emitting diode 36G, and the blue light emitting diode 36B (the set resistance value is ), the full color light emitting diode 36 emits light of a predetermined color tone. Specifically, by executing the control program, the color tone, brightness, and the like at the time of light emission are held in a predetermined state. The color tone and brightness of the light in this case can be changed continuously or at regular time intervals depending on the setting of the control program, or can be maintained in a constant state. Of course, the light emitting state at this time can be changed or held at an arbitrary constant state by a manual adjustment operation.

  In the light reflector 11, the LED light emitted from each full-color light emitting diode 36 of the light generator 34 is reflected by the light reflecting surface 12 or reflected/refracted/transmitted by the transparent bodies 21/22. The light is emitted to the outside of the light reflector 11 and irradiated on the user. As described above, the user who is experiencing the LED irradiation light from the light generating device through all or part of the five senses of the body can, by using the LED irradiation light, have significant psychiatric, physiological and psychological healing. You will receive the

  The handling when the light generating device of the present invention is used as a visual appreciation or a commercial display is the same as the above. Specifically, it suffices to place the light generating device in a place for appreciation, a place for exhibition, or the like to put it into an operating state (electrically on state).

  Next, another kind of embodiment of the light generating device according to the present invention will be described as illustrated in FIGS. 3(A) to 3(E).

  In the case of the light generating device illustrated in FIG. 3A, the light reflector 11 has a conical hollow solid shape. The conical shape here includes a perfect circular shape and an elliptical shape. In the case of the light-generating device illustrated in FIG. 3B, the light-reflecting body 11 has a parabolic hollow solid shape. The light reflector 11 of the type shown in FIG. 3B also includes a hemispherical hollow solid shape. In the case of the light-generating device illustrated in FIG. 3C, the light-reflecting body 11 has a hollow three-dimensional shape of a truncated pyramid. In the light generating device illustrated in FIG. 3D, the light reflector 11 has a hollow three-dimensional shape of a truncated cone. In the light generating device illustrated in FIG. 3(E), the light reflector 11 has a hollow solid parabolic shape.

  Each of the light reflectors 11 in the light generating device illustrated in each drawing of FIG. 3 also has a light reflecting surface 12 on the inner surface of the peripheral wall, similar to the one illustrated in each drawing of FIG. 1 and FIG. The light leakage portion 16 is formed on the peripheral wall thereof. Needless to say, the light reflector 11 in each drawing of FIG. 3 is also equipped with each component necessary for healing and illumination in the same manner as in each of FIG. 1 and the embodiment of FIG. ing. Therefore, the light generating device according to the embodiment of FIGS. 3(A) to 3(E) also has the same healing function and illumination function as described in FIGS. 1(A) to 1(C) and 2. Becomes

  Other matters of each light generating device illustrated in each drawing of FIG. 3 are substantially the same as or similar to those of the embodiments shown in each drawing of FIG. 1 and FIG. 2. Therefore, regarding other matters in each light generating device illustrated in FIGS. 3A to 3E, the matters relating to the embodiment of FIGS. 1A to 1C and 2 are described. The description is omitted by referring to them.

  The light generating device according to the present invention has a healing effect when the LED light emitted from the light receiving device is received by the body. The product of the present invention is often useful and useful in the modern society in which a large amount of stress is applied and effective healing is required. On the other hand, the product of the present invention can also be applied to lighting equipment and the like. Therefore, the industrial applicability of the product of the present invention is high.

11 Light Reflector 12 Light Reflecting Surface 13 Light Passing Surface 14 Light Transmitting Material 15 Light Transmitting Space 16 Light Leakage Section 17 Related Auxiliary Tool 21 Transparent Body 22 Transparent Body 31 Light Generation Means 32 Substrate Member 33 Opening 34 Light Generation Section 35 Mounting member 36 Light emitting diode 36R Red light emitting diode 36G Green light emitting diode 36B Blue light emitting diode 37 Central processing unit (CPU)
38 Storage device (ROM)
39 Storage device (RAM)
40 Interface 41 Driver 42 Decoder

The light generating device according to the present invention is characterized by the technical contents of the following items 1 to 3 as means for solving the problems for achieving the intended purpose.
[Item 1]
A light reflector and a light generating means, and
The light reflector is any one selected from a pyramidal hollow solid shape, a paraboloid hollow solid shape, a truncated pyramidal hollow solid shape, and a truncated parabolic hollow solid shape. Of a hollow three-dimensional shape, and
The inner peripheral surface of the light reflector is formed of a light reflection surface, the front surface of the light reflector is a light passage surface, and
The light generating means has a light generating portion, and the light generating portion is equipped with a light emitting diode for emitting light toward the light reflecting surface of the light reflector, and
Regarding the light generating means, satisfying the condition that the light generating portion is opposite to the light passing surface and the condition that the light generating portion emits light toward the light reflecting surface, Is disposed and held in the light reflector, and a light passing space for passing light is provided around the light generating means in the light reflector, and
The light emitted from the light generating portion of the light generating means is reflected by the light reflecting surface of the light reflector, and the reflected light passes through the light passing space or the light passing surface of the light reflector. Out of the light reflector, and
The peripheral wall of the light reflector is provided with a light leak portion for leaking light from the inner side of the light reflector toward the outer side, and the light leak surface of the light reflector is provided by the light leak portion. Is partially lost , and
Light generation wherein the reflected light reflected by the light reflecting surface of the light reflector is simultaneously emitted outside the light reflector in a dispersed state through the light passing surface and the light leaking portion. Instrument.
[Item 2]
The light generating device according to the above item 1, wherein the light generating portion of the light generating means is equipped with a plurality of types of light emitting diodes for emitting lights of different colors.
[Section 3]
The light generating device as described in the above item 1 or 2, wherein one or more transparent bodies are arranged and held in the light reflector.

Claims (3)

A light reflector and a light generating means, and
The light reflector is any one selected from a pyramidal hollow solid shape, a paraboloid hollow solid shape, a truncated pyramidal hollow solid shape, and a truncated parabolic hollow solid shape. Of a hollow three-dimensional shape, and
The inner peripheral surface of the light reflector is formed of a light reflection surface, the front surface of the light reflector is a light passage surface, and
The light generating means has a light generating portion, and the light generating portion is equipped with a light emitting diode for emitting light toward the light reflecting surface of the light reflector, and
Regarding the light generating means, satisfying the condition that the light generating portion is opposite to the light passing surface and the condition that the light generating portion emits light toward the light reflecting surface, Is disposed and held in the light reflector, and a light passing space for passing light is provided around the light generating means in the light reflector, and
The light emitted from the light generating portion of the light generating means is reflected by the light reflecting surface of the light reflector, and the reflected light passes through the light passing space or the light passing surface of the light reflector. Out of the light reflector, and
The peripheral wall of the light reflector is provided with a light leak portion for leaking light from the inner side of the light reflector toward the outer side, and the light leak surface of the light reflector is provided by the light leak portion. A light-generating device characterized in that part of the light disappears.   The light generating device according to claim 1, wherein the light generating portion of the light generating means is equipped with a plurality of types of light emitting diodes for emitting lights of different colors.   The light-generating device according to claim 1 or 2, wherein one or more transparent bodies are arranged and held in the light reflector.