JP2018094199A - Backlight illumination device for shaped body - Google Patents

Abstract

PROBLEM TO BE SOLVED: To create a unique light atmosphere of a model by combining an indirect light irradiation with a model having a religious spiritual color such as a statue of Buddha or a statue of Mary, and the shape of the model itself is also indirect. It is intended to provide a backlit lighting device for a modeled body that can give an atmosphere more than a simple modeled shape in combination with the modeling of light. A backlit illuminating device for a modeled body includes a modeled body facing the front, an illuminating body provided on the back of the modeled body to irradiate light behind the modeled body, and illumination for projecting irradiation light from the illuminating body. It consists of a rear projection plate placed further behind the body. [Selection diagram] Fig. 1

Description

  The present invention relates to a back light irradiation device for a back-light shaped body from a light source provided behind a shaped body such as a Maria image, a Buddha image, a person, or an animal image.

Conventionally, for example, as an example of modeling body illumination, in a Buddhist image, etc., a back light device arranged behind the Buddha image is composed of an illumination body, the back light of the Buddha image is represented by light, and the back of the periphery of the modeling body such as a Buddha image is There is a technology that creates a fantastic religious atmosphere by irradiating and adding back light modeling to the Buddha image itself (for example, Patent Document 1).
Furthermore, light from the inside of the modeling body is irradiated in all directions on the rear wall surface from a number of through holes formed on the entire peripheral wall surface of the modeling body, and the light from the through holes is visualized and projected on the rear wall surface. There is a lamp shade that provides enjoyment of light images (for example, Patent Document 2).
All of these technologies are based on a combination of a modeled body and light, and were developed from various technical viewpoints from where and from what direction the light is irradiated and with which technical means. .

JP-A-8-173305 JP-A-5-205509 JP 2009-181903 A

However, a conventional statue such as a Buddha image in Patent Document 1 using a back light changes the atmosphere of the Buddha image and variations in the form of the back light by utilizing the light irradiation of the back light of the Buddha image, giving the viewer the severity of the Buddha image. It was just something to do.
Furthermore, in Patent Document 3, an illumination lamp is built in a hollow lamp shade, a translucent hole is bored, and the beauty of the lamp shade itself due to radiated light in all directions, and from the translucent hole, It is designed to give the enjoyment of light turbulence that light irradiation is projected on the wall.
However, although it is possible to see and enjoy the diverging light and the irradiation light to the rear blocking wall, it gives religious spiritual modeling to the shape of the modeled body, and the shape of the modeled body in harmony with the light It was not possible to enjoy the composition of collaboration with light, especially backlight, that impressed the significance of being included in the audience.
In other words, Patent Document 3 is a technology that is focused solely on enjoying the projected image of light, and therefore, only how to make the viewer recognize and enjoy various changes in light. It was a thing.
As described above, in the conventional technique, the religious spiritual meaning expressed by the shaped body is not given to the viewer by collaboration with light.

  In the present invention, a shaped object with a religious color is combined with indirect light irradiation from the back projection plate on the rear side to create a light atmosphere, and a shaped object is produced by the light of the backlight. It is intended to provide a back lighting illumination device for a shaped body that reflects the expression of the image and raises the entire outline to bring out the solemn atmosphere of the shaped body with light and to give an atmosphere that is higher than the shaped shape It is.

  The invention of claim 1 is a model body facing the front surface, an illuminating body provided behind the model body to irradiate light behind the model body, and further behind the illuminator to project the irradiation light from the illuminator. The present invention relates to a back projection illumination device and a back lighting device for a modeled body.

  The invention of claim 2 is characterized in that the illumination body is incorporated in a background shaped body formed integrally with the shaped body while being provided on the back of the shaped body.

  According to a third aspect of the present invention, a groove portion having a fixed shape is formed on the surface side of the background shaped body, and a light emitting tube containing LED chips is fitted into the hollow tube body at constant intervals, and the LED of the light emitting tube is fitted. A heat-dissipating through hole communicating with the interior of the background shaped body is formed in the groove bottom corresponding to the tip position.

  The invention of claim 4 is characterized in that glass particles whose outer surfaces are cut into polyhedrons are disposed at predetermined positions on the outer surface of the background shaped body.

  The invention according to claim 5 is characterized in that the rear projection plate is a translucent rear projection plate.

  According to the invention of claim 1, since the reflected light from the rear projection plate is interfered with and blocked by the Maria image as a reverse ray, the front surface of the Maria image is visually recognized in a dark and light atmosphere (space), but in the vicinity thereof, The combination of the backlight and the non-interfering light has the effect of clearly highlighting the outline of the Maria image and creating a religious spiritual solemn atmosphere that exceeds the shape of the Maria image in front.

  According to the invention of claim 2, the illuminating body is incorporated in the background shaped body formed integrally with the shaped body while being provided on the back of the shaped body, and is a hollow and substantially hemispherical attached to the back surface of the shaped body. Since the background shaped body has a light-transmitting hole of a predetermined shape on the peripheral wall and the illuminating body is housed inside the hollow body, there is no need to incorporate the illuminating body into the shaped body, and thus the form of the shaped body can be freely formed. Thus, there is an effect that can be made into a form having more religious spiritual significance.

  According to the invention of claim 3, the light emitting tube is surrounded by the left and right side surfaces and the bottom surface of the groove portion, and the heat of the LED chip is exhausted from the heat radiation through holes located on the back surface of the LED chip, thereby efficiently cooling the LED chip. Since the shape of the light emitting tube can be changed, the image of the light projected on the rear projection plate can be changed variously, and the structure of the illuminating body can be simply and economically advantageous. The luminous efficiency is also good, and there is an effect of enabling backlight illumination on a stable shaped body.

According to the invention of claim 4, by arranging the glass particles whose outer surface is cut into a polyhedron at a predetermined position on the outer surface of the background shaped body, the predetermined projection light is transmitted from the light transmission hole together with the light leakage from the background shaped body. Is projected on the side projection plane, and the diffused light diffused by diffuse reflection from the glass particles whose outer surface is cut into a polyhedron is also reflected on the rear projection plate, ceiling surface, floor By forming an object of light that is projected onto a projection surface body such as a surface or a wall and the projection light is complicatedly overlapped, it is possible to double the illusion of light to the viewer.
Further, the glass particles can be embedded in the recesses formed on the surface of the background modeled body, and the glass particles can be securely fixed and light light from the inner bottom surface of the recesses can be diffused through the glass particles. .

According to the invention of claim 5, since the rear projection plate is a translucent rear projection plate, the reflected light from the rear projection plate interferes with the modeling body as a reverse ray and is blocked. On the other hand, in the surrounding area, the back light and non-interfering light combine to clearly reveal the outline of the model, making it more religious and spiritual than the shape of the model. It has the effect of creating an atmosphere.
Moreover, it is not necessary to incorporate an illuminating body into the shaped body, and therefore, there is an effect that the shape of the shaped body can be freely formed to have a form having more religious spiritual significance.
By installing such a translucent rear projection plate, the image projected from the projector device is superimposed on the translucent rear projection plate while projecting the irradiation light from the illuminating body of the modeling object on the front surface of the translucent rear projection plate. can do. The semi-transparent rear projection plate displays a composite image that combines the illumination light from the illuminator and the image from the projector device, and displays various composite images depending on the installation location of the model. Various light effects can be performed by remodeling.

The front view of the backlight illumination apparatus of a molded object. The side view of the backlight illumination device of a modeling body. The rear view of the backlight illumination apparatus of a molded object. Cross-sectional explanatory drawing of the backlight illumination apparatus of a modeling body. The schematic diagram which shows the spreading | diffusion of the light from an illuminating body. The rear view which shows the shape of another light transmission hole. (A) Front view of illumination device (b) Cross-sectional view of illumination device incorporated in a shaped body. Cross-sectional explanatory drawing of another illuminating body. The front view of the backlight illumination apparatus of another modeling body. The rear view of the back lighting device of other modeling objects. The side view of the backlight illumination apparatus of another modeling body. (A) The front view which shows the annular groove part and through-hole of a background modeling body. (B) The front view which shows the tube body embedded by the annular groove part. AA sectional drawing in FIG.12 (b). The top view which shows the principal part of a tube body. The block diagram which shows the backlight illumination apparatus of another modeling body. The side view of the backlight illumination apparatus of another modeling body. The top view of the backlight illumination apparatus of another modeling body. Cross-sectional explanatory drawing of the backlight illumination apparatus of another modeling body. The rear view of the backlight illumination apparatus of the molded object which embedded the glass particle. Cross-sectional explanatory drawing of the backlight illumination apparatus of the molded object which embedded the glass particle. Sectional drawing which shows the form which stuck the glass particle to the recessed part of the lamp shade. (A) Front view of glass particles (b) Plan view of glass particles (c) Bottom view of glass particles. (A) Perspective view of glass particles (b) Perspective view of glass particles. The figure showing the projection image radiated | emitted from the cut surface of the glass particle. Sectional drawing which shows the 2nd form which stuck the glass particle to the recessed part of the lamp shade. Sectional drawing which shows the 3rd form which stuck the glass particle to the recessed part of the lamp shade. The perspective view which shows having made the modeling body and the background modeling body detachable. (A) The front view which shows another back projection board. (B) The top view which shows another back projection board. The front view of the backlight illumination apparatus of another modeling body. The side view of the backlight illumination apparatus of another modeling body. (A) Sectional drawing of another illuminating body. (B) Sectional drawing of another illuminating body. The side view of the backlight illumination apparatus of the modeling body using a semi-transmissive rear projection plate. The schematic diagram which moved the light and the image | video from the illuminating body and the projector apparatus to the semi-transmissive rear projection plate. (A) Front view of illuminating device (b) Explanatory drawing which shows the illuminating device incorporated in the molded object, and a semi-transmissive rear projection plate. Explanatory drawing which shows a modeling body and a semi-transmissive rear projection plate. The side view of the backlight illumination apparatus of the modeling body using a semi-transmissive rear projection plate. The side view of the backlight illumination apparatus of the modeling body using a semi-transmissive rear projection plate. The side view of the backlight illumination apparatus of the molded object using a design filter. The schematic diagram which shows the spreading | diffusion of the light from the backlight illumination apparatus of the molded object using a design filter. The side view of the backlight illumination apparatus of the molded object using a transflective rear projection plate and a design filter. The front view of the backlight illumination apparatus of the modeling body using a semi-transmissive back projection plate and a design filter.

An embodiment of the present invention will be described in detail with reference to the drawings.
The present invention basically includes a shaped body A facing the front surface, an illuminating body B provided on the back thereof and irradiating the back, and a rear projection for projecting light from the illuminating body B disposed behind the illuminating body B. In combination with the plate C, if necessary, the background model D is integrally formed on the back of the model A facing the front.

  1 to 4 are a front view, a side view, a rear view, and a cross-sectional explanatory view showing a configuration of a main embodiment of the present invention.

  The present invention has a configuration in which a shaped body A, an illuminating body B, and a rear projection plate C are used.

The shaped body A is basically composed of a standing image and a sitting image that embody religious or spiritual thought.
The model A facing the front is, for example, a Maria statue (for example, see FIGS. 1 to 4), a Buddha statue (for example, see FIGS. 29 and 30), a Christ statue, a goddess statue, or a kannon image. However, it is not limited to these, and it may be an animal or a building related to religious spiritual thought, such as a crane, a dragon, a giraffe, a typical Western church, a cross, a crown, etc. It is done.
The model A is modeled with ceramics, porcelain, synthetic resin, metal, glass, etc., and the material is not limited.

Moreover, the inside is formed hollow as necessary, or is formed into an internally filled mass.
This structure can be variously selected depending on the structure in which the illuminating body B described below is mounted on the back.
Below, the structure which formed the modeling body A hollow, opened the back, and provided the cover body G in the opening part so that attachment or detachment is possible is demonstrated.

In the hollow portion of the shaped body A, an illuminating body B for irradiating the back of the shaped body is accommodated.
The illuminating body B is composed of, for example, a filament type lamp, an LED, a micro projector, and the like.
As the illuminating body B, there are an embodiment of an illuminating device in which a filter having a light transmission hole formed later and a light source are integrated, or an embodiment in which a plurality of LEDs are incorporated in a hollow tube to form a light emitting tube.
The illuminating body B is in the form housed in the hollow interior of the shaped body A, or the form to be mounted on the back of the internally filled shaped body A as described later, or between the shaped body and the rear projection plate. Various structures such as forms are possible.

A rear projection plate C is disposed behind the illuminating body B in order to project the irradiation light.
The rear projection plate C has a size that protrudes outward from the outer shape of the Maria image of the shaped body A arranged on the front surface. That is, the width in the left-right direction of the rear projection plate C is larger than the width of the shaped body A, and the height in the vertical direction of the rear projection plate C is larger than the height of the shaped body A. By forming the rear projection plate C larger than the modeling body A in this way, the irradiation light irradiated from the back surface of the modeling body A is projected on the rear projection plate C so as to protrude outward from the outer shape of the modeling body A.
As the rear projection plate C, for example, a wall surface, a floor surface, a ceiling surface, a screen board, a translucent film or the like of a building is used. In addition, the Example of the rear projection board C using a translucent film is mentioned later separately.
For example, by using the rear projection plate C as a screen board, the irradiation light of the illuminating body B can be efficiently reflected as a reverse light beam on the modeling body A side.
As a method of installing the rear projection plate C, a structure in which the rear projection plate C is suspended from the ceiling may be used, or a structure in which the rear projection plate C is fixedly installed on a square frame may be used.

  When the illuminating body B is turned on by the configuration composed of the shaped body A, the illuminating body B, and the rear projection plate C, the sculpted body A such as a Buddha image or a Maria image with a religious color is larger than the shaped body A. The indirect light consisting of the reverse rays from the rear rear projection plate C formed is irradiated, and the entire outline of the shaped body A emerges due to the reverse rays, creating a unique light atmosphere of the shaped body A. Furthermore, the shaped body A In addition, the shape of the face on the front surface of the modeled body A can also provide a religious and spiritual atmosphere more than a simply modeled shape by indirect light leaking from the reverse rays to the periphery of the modeled body.

  In addition, as a structure for mounting the illuminating body B to the modeling body A, a form structure in which light is irradiated only to the rear of the modeling body A, or light irradiation should be applied to the rear and rear oblique directions of the modeling body using a light emitting tube. There may be a positional structure.

A specific structure for mounting the illuminating body B to the shaped body A will be described below.
As shown in FIGS. 1 to 4, the molded body A has a hollow interior, the illuminating body B is accommodated in the hollow interior of the rear opening, and a lid G can be freely mounted on the rear opening. The lid is closed.
A light transmitting hole 11 is formed in the lid G, and the light of the illumination body B is irradiated from the light transmitting hole 11.

  When the illuminating body B is turned on, the predetermined light transmitted through the light transmission hole 11 is irradiated to the rear projection plate C arranged behind the back of the model A, and a predetermined optical image by the light is projected on the rear projection plate C. This optical image is reflected forward from the rear projection plate C, recognized by the viewer as a reverse ray from behind the model A, illuminates the religious spiritual thought and religious shape of the model A from the back, Performs not only the beauty of body A but also the appearance of religious atmosphere and religious shadows.

That is, as shown in FIG. 5, the light L <b> 1 from the illuminating body B passes through the through hole 11 of the lid G attached to the back surface of the hollow shaped body A and is radiated to the screen board S. A light image composed of the through holes 11 is projected on the screen. Thereafter, the light L1 from the illuminating body B is reflected by the screen board S to become a reverse light L2, and the light of the backlight that has leaked forward without being interfered with the Maria image of the model A projects the expression of the Maria image of the model. It becomes like this.
Further, the reverse light L2 from the screen board S is interfered with the Maria image, and the front of the Maria image becomes a shadowed portion of the shadow of the reverse light, but becomes the non-interfering light around the Maria image in the reverse light shadow. The light L3 diffused on the outer periphery of the shaped body A, combined with the backlight shadow of the Maria image, allows the light L4 to lift the outline of the Maria image and create a solemn atmosphere of the Maria image with light. .
In addition, you may make it comprise the light transmission hole 11 in the back part of the molded object A. FIG. When a translucent form is used for the rear projection plate C, a composite image obtained by superimposing and combining images projected from a separately provided projector device while projecting an optical image formed of the light transmission holes 11 is variously projected. It is possible to produce light.

The shape of the light transmission hole 11 provided in the lid G can be configured in various shapes in consideration of the shape type of light projected on the rear projection plate C, the form of reflected light of the light, and the like.
For example, if the shape is such that a plurality of long holes are formed radially, the viewer can visually recognize the radial light image created by the plurality of long holes as the back light of the shaped object A, and the reflected light is shaped. It can be visually recognized by the viewer as a reverse ray from behind the body A, and the religious and spiritual significance of the shaped body A can be created in the shadow of light.

  The illuminating body B uses a normal light source lamp 17, but can further change the light emitted from the light transmission hole 11 by devising the shape of the filament of the lamp. In FIG. 4, reference numeral 17 a is a socket for the illumination lamp 17, 17 b is an electrical wiring, and 18 is a power supply for supplying electricity to the illumination lamp 17.

[Various shapes of light transmission holes]
In particular, by changing the shape of the light transmission hole 11 formed in the lid G in various ways, the shape of the light projected onto the rear projection plate C changes in various ways, and the religious spirit atmosphere of the shaped body A is further changed. be able to.

  For example, as described above, the light-transmitting holes 11 in FIG. 6 are formed in 12 long holes and arranged radially, so that a radial light image can be projected on the screen.

Moreover, as shown in FIG. 7, the illumination body accommodated in the hollow part of the molded object A can also be comprised by the box-shaped filter main body F1. Or as shown in FIG. 38, you may make it provide the box-shaped filter main body F1 incorporating the illumination body between a modeling body and a screen. This embodiment will be described later.
In other words, the box-shaped filter main body F1 containing the illumination lamp 17 is housed in the hollow portion of the shaped body A, the front opening F2 is provided in the filter main body F1, and a light image is formed in the front opening F2. A filter F is provided, and the design filter F is formed with a light transmission hole 11 composed of a circular hole and a plurality of radial holes.
Moreover, the illumination body accommodated in the hollow part of a modeling body can also be comprised with a micro projector.

That is, when the design filter F in which the light transmission hole 11 is formed is replaced, various changes in image light can be enjoyed on the screen depending on the type of the light transmission hole 11.
Furthermore, when a lens mechanism L is formed in which a lid opening G1 is formed in a part of the lid G, and the lens mechanism L can be freely expanded and contracted, the illumination lamp 17 and the rear projection inside the modeling body A are operated by operating the lens mechanism L. The image forming distance with the plate C can be adjusted, and even when the distance to the rear projection plate C is short, the image from the light transmission hole 11 can be clearly displayed.
Note that the box-shaped filter body F1 may be provided continuously on the back surface of the shaped body A without being stored in the hollow portion of the shaped body A.

Further, the illuminating body B has a configuration in which a reflecting mirror 19 is disposed behind the illumination lamp 17 as shown in FIG. 8, and the amount of light emitted from the light transmission hole 11 can be increased by the reflecting mirror 19. The amount of the reverse ray from the screen S also increases, and the light of the backlight that has leaked forward without being interfered with the Maria image of the modeling object A further reflects the expression of the Maria image of the modeling object.
Further, the reverse ray L2 from the screen board S is interfered with the Maria image, and the front of the Maria image becomes a shaded portion of the shadow of the reverse ray. The light L3 diffused at the outer periphery of the background shaped body D in this way, combined with the back light shadow of the Maria image, raises the outline of the Maria image, creating a solemn atmosphere of the Maria image. It can be brewed.

Further, as shown in FIG. 8, an illumination lamp 17 of the illuminating body B is provided in the modeling body A so as to be movable up and down along the wall surface inside the modeling body A.
That is, a rail 20 that allows the illumination lamp 17 to move is laid on the inner wall surface of the shaped body A, and a socket 17a is vertically movable along the rail 20.

  When the illuminating body B moves in the vertical direction along the rail 20, the direction and the amount of light emitted from each light transmission hole 11 change, and the amount of light diffused outward of the background shaped body D changes in the vertical direction. It will be. Therefore, the light image projected on the rear projection plate C is brightened and darkened in the vertical direction, and the religious atmosphere of the shaped body A can be further presented to the viewer in the backlit atmosphere with respect to the shaped body A.

Note that a front and rear rail mechanism that is movable in the front-rear direction as well as the vertical direction may be provided in the hollow portion of the shaped body A.
In this way, by providing the front and rear rail mechanism that enables the illuminating body B to move in the front-rear direction, the amount of light diffused outward of the background shaped body D can be changed in the front-rear direction. The brightness of the image projected on the projection plate C can be adjusted.

The light emitting tube 80 can be provided on the back surface of the modeling object A instead of the illumination lamp 17 of the illuminating object without accommodating the illuminating object B in the hollow modeling object A.
That is, it can be mounted on the surface of the lid G of the hollow shaped body A or attached to the back surface of the internally filled shaped body A.
Specifically, as shown in FIGS. 9 to 15, an annular groove D <b> 1 is formed in the back portion of the internally filled or hollow shaped body A, and the luminous tube 80 is embedded in the groove D <b> 1. The light emitting tube 80 is configured by incorporating LED chips 82a in a transparent or translucent hollow tube body 81 at regular intervals.
At the groove bottom portion of the annular groove portion D1, heat radiating through holes 11a and the like communicating with the exhaust heat space formed inside the shaped body A are formed at predetermined intervals so as to dissipate the radiant heat of the light emitting tube 80. ing.

  In the hollow portion of the tube body 81, an LED light source lamp 82 (see FIG. 15) in which an LED chip 82a mounted on a heat dissipation board 82b is electrically connected, and side radiation refractors 83a and 83b having a large light refractive index are provided. And built-in.

  As shown in FIG. 15, an LED illumination lamp 82 in which a plurality of LED chips 82a are connected via internal wirings 84a and 84b is connected to a driving power supply unit 85. In addition, a main body control unit 86 is connected to the power supply unit 85 in order to control dimming and lighting intervals of LEDs based on signals from the external controller 90. In the figure, 81a is the inner wall of the tube body 81, and 81b is a wiring hole. 84c and 84d are wiring, 84e and 84f are electrical connectors, 91 is a slave unit control unit, 86a is a communication unit, 91a is a child chip, and 92 is a battery.

  Furthermore, an air supply hole 81c and an air discharge hole 81d for supplying and discharging air for cooling the inside of the tube body 81 are formed in the left and right middle lower portions of the tube body 81 in the longitudinal direction.

  On the inner wall of the tube body 81, substantially triangular side-surface refracting bodies 83a and 83b are formed in the longitudinal direction on both walls excluding the inner wall portion in the vertical direction from the light emitting surface of the LED chip 82a. The side radiation refractors 83a and 83b are formed by dividing a substantially circular arc in cross section with a large refractive index of light into three parts.

  The luminous tube 80 can be turned on / off, dimmed, changed in color, and the like by an external controller 90.

  In order to air-cool the LED light source lamp 82, the air supply part 88 provided in the shaped body A has an air supply hole 81c at the bottom of the tube body 81 and an air discharge via a supply air pipe 87a and a discharge air pipe 87b. The holes 81d are communicated with each other, and air is circulated in the tube body 81 so as to cool the air. In FIG. 12A, reference numerals 11c and 11d denote an air discharge hole and an air supply hole formed at the bottom of the annular groove D1, and the end of the discharge air pipe 87b and the supply air pipe 87a The ends are connected in communication. Reference numeral 11b denotes a wiring hole formed in the bottom of the annular groove D1, and communicates the external wiring 84c and 84d of the LED light source lamp 82. 84e and 84f are connectors for connecting the external wirings 84c and 84d and the power supply unit 85.

The tube body 81 is embedded so as to project a half of the peripheral surface from the annular groove D1, and a side radiation refractor having a large light refractive index in the hollow inner wall of the tube body 81, particularly in the interior corresponding to the outer half peripheral surface. 83a and 83b are incorporated. Therefore, when the LED chip 82a is turned on, a part of the emitted light is incident on the side radiation refracting bodies 83a and 83b, refracted greatly, and the light transmitted through the protruding tube body 81 is incident on the surface of the modeling body A. Therefore, the emitted diffused light adds a shadow to the modeled body and gives a viewer a fantastic impression.
Since the above-described luminous tube 80 can be deformed by utilizing the characteristics of the tube, the luminous tube 80 can be freely deformed, for example, to form a light irradiation to the rear projection plate C on the rear surface of the Maria image of the shaped body A. It is possible to bend and install in a shape that can be freely changed.
Moreover, it is also possible to attach the light emitting tube 80 to the trunk | drum, the leg part, and the neck part of the modeling body A as a surrounding state as needed. In this way, the light emitting tube 80 is three-dimensionally deformed other than simply mounting the light emitting tube 80 on the back surface of the modeling object A, so that the light irradiation to the modeling object A is directly three-dimensional as well as the reverse rays from the rear projection plate C. By irradiating light from the light emitting tube 80, it is possible to further increase the religious spiritual significance of the shaped body A.

  The material of the tube body may be a translucent material other than transparent.

Further, the illuminating body can be incorporated in a space provided on the back surface of the shaped body A.
Next, the illuminating body 140 shown in FIGS. 29 to 31 includes a mechanism that can freely project the pattern of light to be projected in the vertical and horizontal directions of the rear projection plate C. The apparatus includes a built-in light source lamp 142 and The hemispherical main body 144 and a rotating body 145 that allows the inner periphery of the main body 144 to rotate freely.

  The sliding body 145 has a curved structure that allows the inner periphery of the main body 144 to freely rotate, and the rotating body 145 rotates the inner peripheral surface of the main body 144 in the vertical and horizontal directions, so that various kinds of light to the rear projection plate C can be obtained. The position of the pattern can be changed freely. Reference numeral 146 in FIG. 31 is a transparent glass fitted in a ring-shaped light transmission hole formed in the rotating body 145.

  The Buddha image A ′ shown in FIG. 29 and FIG. 30 has a built-in illuminator 140 with a space provided on the back of the Buddha image. By incorporating the illuminating body 140 in the space behind the Buddha image, it is possible to obtain the Buddha image with a good appearance.

The rear projection plate C is arranged behind the shaped body A, that is, in the irradiation direction of the illuminating body B.
You may comprise integrally with the molded object A, or the screen which utilized the wall surface of the architectural structure crops or hung behind the molded object A may be sufficient. The point is that it only needs to reflect the light irradiation from the illuminating body B, and the scene behind the shaped body A is formed by the light pattern, and the unique atmosphere including the back light of the shaped body A together with the shaped body A In addition to fulfilling the function of allowing the viewer to recognize the scenery, the light pattern irradiated on the rear projection plate C creates an atmosphere in which the shaped object A has a unique shadow as a reverse ray.

  The modeled body A, the illuminating body B, and the rear projection plate C of the example are configured as described above. In the following, the background modeled body D as a technique related to another example will be described in detail.

  In the above-described embodiments, the structure in which the illumination body is housed in the hollow interior of the modeling body or the structure that is mounted on the back surface of the modeling body has been described, but in addition to this structure, a background modeling body is separately provided on the back surface of the modeling body as follows. There is an example in which an illuminating body is provided on the background shaped body.

  As shown in FIGS. 16 to 18, the background shaped body D is a hollow semi-spherical body that can be attached to the back surface of the shaped body A, and a light-transmitting hole 11 having a predetermined shape is provided on the peripheral wall thereof. And it is set as the structure which accommodated the illuminating body B in the hollow inside.

  If the model A is a Maria statue, the back of the Maria image is deleted and only the front part of the Maria image is left, and a half-conical or semi-circular shape with a half halves on the back. A background shaped body D configured as above is attached.

Further, as shown in FIG. 18, the background shaped body D is configured as a hollow body 10 in which the illuminating body B can be housed, and the wall 10 a of the background shaped body D has a light transmission made of holes of various shapes. A hole 11 is formed.
The shape of the light-transmitting hole 11 is the same as that of the light-transmitting hole 11 already formed in the lid G of the hollow shaped body A, taking into account many requirements such as the shape of the shaped body, its significance, and the type of back light. It can be formed in various shapes.

  Glass particles whose outer surfaces are cut into polyhedrons are arranged at predetermined positions on the wall surface 10a of the background shaped body configured as described above.

Below, the Example which arrange | positions a glass particle in the predetermined position of a background modeling body is described, referring FIGS. 19-26.
In this embodiment, glass particles, for example, glass particles such as Swarovski particles (“Swarovski” is a registered trademark) are embedded or attached to the back of the modeled body A, that is, the peripheral wall or light transmission hole of the background modeled body D. In particular, they may be colored so that colors are expressed in the projection light.

When the irregular reflection function of such glass particles is projected not only on a simple light reflection mechanism but also on a projection plane arranged in the vicinity, the shape of the light source of the illumination lamp 3 is the same as that of a projection image from a large number of light transmission holes and is small. It is projected as a reduced scale image, and as many as the number of cut surfaces of the glass particles.

  Hereinafter, a structure in which glass particles are disposed on the surface of a ceramic ceramic body without glaze will be described in detail with reference to the drawings.

As shown in FIGS. 19 to 21, a large number of recesses 7 are formed in the peripheral wall 11 of the background modeled body, and glass particles 8 are embedded in the recesses 7.
In another embodiment, the bottom of the recess 7 is communicated with the interior of the background model D as a through-hole, and the opening is formed in a funnel shape (see FIG. 26).
In another embodiment, a thin film 7a (see FIG. 25) is stretched at the bottom opening of the recess 7.
The thin film 7a has a thickness of about 1 mm and is impregnated with a highly permeable resin 16 to adhere the glass particles 8.

  The glass particle 8 is made of a transparent material capable of emitting light L incident from the bottom surface 8b from the polygonal surface of the front surface 8a, and the glass particle 8 is made of a transparent material or a number of colors such as red, blue, yellow, and green.

  The material of the Swarovski particles contains 24% or more of lead oxide in glass, has high transparency, and has a refractive index of 1.52 or more.

  The form of light reflection of the Swarovski particles 8 in FIGS. 22 and 23 will be described. That is, as shown in FIG. 21, when light from the light source is incident from the pavilion portion 8e, light from one light source is incident on each of the eight lower girdle facets 8i and the sixteen lower main facets 8j. Light is reflected inside the Swarovski particles 8 and is emitted to the outside from the eight star facets 8g and the eight upper main facets 8h of the crown portion 8c, respectively, and has a narrow width as shown in FIG. Scaled V-shaped large and small projected images 61 and 62 are projected as images that are alternately arranged on the virtual circle C, and are projected on the back and surrounding projection planes of the model A. In FIG. 22 and FIG. 23, 8d is a girdle part.

  As shown in FIG. 26, when the lower half of the glass particle 8 is buried in a position close to the light transmission hole 22 of the background model D, for example, a position separated by about 3 mm, the light from the light source is transmitted through the light transmission hole. 22 is incident on a part of the cut surface of the crown portion 8c of the glass particle 8 and diffusely reflected, and is emitted from the table 8f to emit a weak shine.

  Moreover, as shown in FIG. 27, the modeling object A and the substantially semicircular background modeling object D are good also as a detachable structure. When assembling the background shaped body D integrally with the back surface of the shaped body A, a close contact structure is adopted in which the light of the illuminating body B does not leak from the fitting surface.

  Thus, by making the background modeling body D detachable, it is possible to change various light images projected on the screen by exchanging, and it is possible to produce light that suits the taste of the viewer.

  Furthermore, by forming a light-transmitting hole having a predetermined shape on the entire circumference of the background shaped body D, various lights diverge from the side of the outer peripheral surface of the shaped body to the surroundings, and not only the rear but also the rear projection plate. Light projection can be performed on a side wall surface or the like standing upright at an angle. For example, a peacock-shaped light pattern or a flower-shaped light pattern is projected on a wall, etc., and a beautiful light projection space can be formed in the entire space around the model body along with the change of light around the model body. There is an effect that can be done.

  In addition, the rear projection plate is not only arranged in a plane behind the modeled body, but also has a substantially U-shape in plan view or a mountain shape in plan view as shown in FIG. The image can be projected on the rear projection plate C to enjoy the change in the image of the entire space.

When the light emitting tube 80 is mounted on the surface of the background shaped body D in this way, a light emitting device in which an annular groove D1 is formed on the back surface of the background shaped body D, and LED chips are embedded in the hollow tube body at regular intervals. The tube 80 is embedded.
At the groove bottom portion of the annular groove portion D1, heat radiating through holes 11a and the like communicating with the exhaust heat space formed in the background shaped body D are formed at predetermined intervals so as to radiate the radiant heat of the light emitting tube 80. doing.

  In the following examples, a translucent film is used for the rear projection plate C. When this semi-transparent film is irradiated with predetermined light transmitted through the light transmission hole 11 on the back of the model A, it can project a predetermined light image by light and also from a projector device installed on the back side of the film. Images can be projected on top of each other, and from the front side of the film, it has a film structure that allows two images to be visually recognized. In the following, in FIG. 32 to FIG. 41, the same reference numerals as those described above are given, and a part of the overlapping description is omitted. Moreover, since the light effect using the translucent film for the rear projection plate C has the same effect in each example, a part of the overlapping description is omitted.

  32 and 33, the back-irradiation device for a modeled body has a configuration in which a translucent film is used for the rear projection plate C in the configuration of the back-light irradiation device for the modeled body illustrated in FIGS. The difference is that the rear projection plate C is erected between the wall surface W and the projector device is separately provided on the upper surface of the wall surface W.

  As shown in FIGS. 32 and 33, the translucent rear projection plate C is made of a translucent film that can project the image of the projector device Pj. The translucent film includes a black translucent film and a milky white translucent film having an equivalent function that allows the background to be seen through the film.

  By installing the translucent rear projection plate C between the back surface of the model A and the wall surface W, the irradiation light L1 from the illuminating body B in the model A is applied to the front surface of the translucent rear projection plate C. An image La projected from the projector device Pj installed on the back surface of the rear projection plate C while projecting a light image through the light transmission hole 11 behind the shaped body A can be superimposed on the translucent rear projection plate C. . On the translucent rear projection plate C, a composite image in which the irradiation light L1 from the illuminating body B and the image La from the projector device Pj are superimposed and combined is displayed, and depending on the installation location of the modeling body, Various kinds of light effects can be performed by recreating various composite images.

  In addition, although the projector apparatus Pj was installed in the wall surface W of the back surface side of the molded object A, if an image | video can be projected on the back surface or the front surface of the back projection board C, an installation place does not need to be specifically limited.

Specifically, as shown in FIG. 33, when the illuminating body B is turned on, the light L1 from the illuminating body B passes through the through hole 11 of the lid G attached to the back of the hollow shaped body A. A screen board S as a translucent rear projection plate C is irradiated, and an optical image made of the through holes 11 is projected onto the screen board S. Thereafter, the light L1 from the illuminating body B is reflected by the screen board S to become a reverse light L2, and the light of the backlight that has leaked forward without being interfered with the Maria image of the model A projects the expression of the Maria image of the model. It becomes like this.
Further, the reverse light L2 from the screen board S is interfered with the Maria image, and the front of the Maria image becomes a shadowed portion of the shadow of the reverse light, but becomes the non-interfering light around the Maria image in the reverse light shadow. The light L3 diffused on the outer periphery of the shaped body A, combined with the backlight shadow of the Maria image, allows the light L4 to lift the outline of the Maria image and create a solemn atmosphere of the Maria image with light. .
In addition, you may make it comprise the light transmission hole 11 in the back part of the molded object A. FIG. When a translucent form is used for the rear projection plate C, a composite image obtained by superimposing and combining images projected from a separately provided projector device while projecting an optical image formed of the light transmission holes 11 is variously projected. It is possible to produce light.

In addition, a projector device Pj is installed on the rear surface of the translucent rear projection plate C, and an image La projected from the projector device Pj is translucent to the translucent rear projection plate C. Then, a composite image projected onto the back surface of the illuminating body B and superimposed on the light L1 of the illuminating body B is displayed. By using the translucent rear projection plate C, it is possible to produce various kinds of light effects by changing to various composite images according to the installation location (for example, temple or church) of the modeled body.
Note that the reverse light L2 includes the reflected light of the light L1 from the illuminating body B and the light of the image La from the projector device Pj.

  Next, the back light irradiation device for a modeled body shown in FIG. 34 includes a point where a translucent film is used for the rear projection plate C, a modeled body A, and a wall surface W among the configurations of the backlight irradiation device for a modeled body shown in FIG. The difference is that the rear projection plate C is erected in between and a projector device is separately provided on the upper surface of the wall surface W.

  In the model A, a design filter F in which a light transmission hole 11 is formed is built in. By changing the design filter F of the filter body F1, various image lights can be obtained by the light transmission holes 11 of various designs. Can be projected on a semi-transparent screen and enjoyed.

  Further, on the translucent rear projection plate C, an image projected from the projector device Pj installed on the wall surface W is projected from the rear surface of the translucent rear projection plate C and superimposed with the light from the light transmission hole 11. The synthesized video can be displayed. By using the translucent rear projection plate C, it is possible to perform various kinds of light effects by making various composite images according to the installation location (for example, church) of the modeled body.

In addition, the lid body G behind the shaped body A is configured to be equipped with a lens mechanism L that is formed with a lid body opening G1 in a part of the lid body G and can be expanded and contracted. By operating this lens mechanism L, it is possible to adjust the image formation distance between the illumination lamp 17 inside the model A and the rear projection plate C, and even when the distance to the rear projection plate C is short, light transmission is possible. The image from the hole 11 can be clearly displayed.
Note that the box-shaped filter body F1 may be provided continuously on the back surface of the shaped body A without being stored in the hollow portion of the shaped body A.

  The back irradiation apparatus for a modeled body shown in FIG. 35 is between the point of using a translucent film for the rear projection plate C and the model A and the wall surface W in the configuration of the backlight irradiation apparatus for the modeled body shown in FIG. The difference is that the rear projection plate C is erected and a projector device is separately provided on the upper surface of the wall surface W.

  With this configuration, on the translucent rear projection plate C, an image projected from the projector device Pj is projected onto the rear surface of the translucent rear projection plate C, and the light from the light transmission hole 11 is further projected. A composite video superimposed with the video is displayed. By using the translucent rear projection plate C, it is possible to perform various kinds of light effects by making various composite images according to the installation location (for example, church) of the modeled body.

  36 is a back projection between a point where a translucent film is used for the rear projection plate C and the shaped body A and the wall surface W in the back light irradiation device for the shaped body shown in FIG. The difference is that the plate C is erected and a projector device is separately provided on the upper surface of the wall surface W.

  With this configuration, on the translucent rear projection plate C, an image projected from the projector device Pj is projected onto the rear surface of the translucent rear projection plate C, and an image of light from the light emitting tube 80 is further projected. And a composite video is displayed. By using the translucent rear projection plate C, it is possible to perform various kinds of light effects by making various composite images according to the installation location (for example, church) of the modeled body.

  The back light irradiating device for a shaped body shown in FIG. 37 is a back surface between the shaped body A ′ and the wall surface W in the back light irradiating device for the shaped body shown in FIG. The difference is that the projection plate C is erected and a projector device is separately provided on the upper surface of the wall surface W.

  Further, by installing a translucent rear projection plate C on the back surface of the modeling body A ′, the rear surface is projected while projecting the irradiation light L1 from the illumination body B of the modeling body A ′ on the front surface of the translucent rear projection plate C. Light and video La projected from the projector device Pj installed on the rear surface of the projection plate C can be superimposed on the translucent rear projection plate C. That is, on the translucent rear projection plate C, a composite image in which the irradiation light L1 from the illuminating body B and the image La from the projector device Pj are superimposed and combined is displayed. Depending on the situation, it is possible to produce various kinds of light effects by changing to various composite images.

  In the back irradiation apparatus for a modeled body shown in FIG. 20, similarly to the above-described embodiment, a translucent rear projection plate C is installed between the wall surface W and the modeled body A, and the projector apparatus Pj is further installed. By providing on the upper surface of the wall surface W, various kinds of light effects can be performed by the composite image.

[Other examples of filters]
Here, an embodiment of the filter body F1 having a box shape having a built-in illumination body B provided behind the shaped body A ′ will be described in detail.
A box-shaped filter main body F1 shown in FIGS. 38 and 39 includes a lighting body B inside, and a design filter F that forms a light image at the front opening of the main body F1 is provided. Forms a light transmission hole 11.

The filter body F1 is disposed at the tip of the legged stand. The filter main body F1 is disposed between the modeling body A ′ and the screen board S at a position close to the rear of the modeling body A ′.
The design filter F is provided with a plurality of light transmission holes 11, and the light of the illumination body B in the main body F <b> 1 is irradiated from the light transmission holes 11.

  When the illuminating body B in the filter body F1 is turned on, the rear projection plate C disposed behind the shaped body A ′ is irradiated with the predetermined light L1 transmitted through the light transmission hole 11 of the design filter F, and the predetermined light is applied. Is projected on the rear projection plate C, this light image is reflected forward from the rear projection plate C, and is recognized by the viewer as a reverse ray from behind the shaped object A ′, and the religious object of the shaped object A ′. It illuminates the spiritual thoughts and religious shapes from behind with the reverse rays and fulfills not only the beauty of the model A 'but also the appearance of the religious atmosphere and religious shadows.

Further, the light L1 from the illuminating body B is reflected by the screen board S to become a reverse light L2, and the light of the backlight that has leaked forward without being interfered with the modeling body A ′ reflects the expression of the modeling body A ′. Become.
Further, the reverse ray L2 from the screen board S is interfered with the modeling object A ′, and the front surface of the modeling object A ′ becomes a shaded portion of the shadow of the reverse light, but the periphery of the modeling object A ′ in the backlight shadow. The light L3 diffused on the outer periphery of the shaped body A ′ becomes a non-interfering light, and combined with the backlight shadow of the shaped body A ′, the light L4 causes the outline and appearance of the shaped body A ′ to emerge. The solemn atmosphere of the shaped body A 'can be created with light.

  40 and 41, the back light irradiating device for a modeled body has a rear projection plate C as a translucent rear projection plate C in the configuration of the back light irradiating device for a modeled body shown in FIG. This is a different configuration. Note that the rear projection plate C in FIG. 40 shows a state of being suspended from the ceiling.

  When the illuminating body B provided behind the shaped body A ′ is turned on, the rear projection plate C disposed behind the shaped body A ′ is irradiated with the predetermined light L1 transmitted through the light transmission holes 11 of the design filter F, and the light Is projected onto the rear projection plate C, and the light and the image La projected from the projector device Pj installed on the rear surface of the rear projection plate C can be superimposed on the translucent rear projection plate C. . That is, on the translucent rear projection plate C, a composite image in which the irradiation light L1 from the illuminating body B and the image La from the projector device Pj are superimposed and combined is displayed. Depending on the situation, it is possible to produce various kinds of light effects by changing to various composite images.

Further, the light L1 from the illuminating body B and the light of the image La from the projector device Pj are reflected and transmitted by the screen board S to become a reverse light L2, and the light of the backlight that has leaked forward without being interfered with the modeling body A ′ is light. The light reflects the expression of the model A '.
Further, the reverse ray L2 from the screen board S is interfered with the modeling object A ′, and the front surface of the modeling object A ′ becomes a shaded portion of the shadow of the reverse light, but the periphery of the modeling object A ′ in the backlight shadow. The light L3 diffused on the outer periphery of the shaped body A ′ becomes a non-interfering light, and combined with the backlight shadow of the shaped body A ′, the light L4 causes the outline and appearance of the shaped body A ′ to emerge. The solemn atmosphere of the shaped body A 'can be created with light. Such various light effects can fulfill not only the beauty of the shaped body A 'but also the appearance functions such as the religious atmosphere and the religious shadow.

The back-lighting device of this model is equipped with a robot function such as a hand, arm, head, and upper body, and a moving function, a bidirectional conversation function, and a facial expression function that changes to various expressions according to the environment and conversation. It may be a configuration.
The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the specific embodiments, and various modifications can be made within the scope of the gist of the present invention described in the claims.・ Change is possible.

A, A ′ Model B B Illuminator C Rear projection plate G Lid Pj Projector device S Screen board W Wall surface 10 Hollow body 11 Light transmission hole

Claims (5)

A shaped body facing the front,
An illuminating body provided behind the shaped body to irradiate light behind the shaped body;
A back lighting device for a modeled body, comprising a rear projection plate disposed further rearward of the illuminating body to project the irradiation light from the illuminating body, and a shaped body.   The backlit illumination device for a shaped body according to claim 1, wherein the illumination body provided on the back of the shaped body is incorporated in a background shaped body formed integrally with the shaped body. Form a groove with a fixed shape on the surface side of the background shaped body,
A light emitting tube containing LED chips is fitted into a hollow tube body at regular intervals in the groove, and a heat radiating through hole communicating with the interior of the background model is formed at the groove bottom corresponding to the LED chip position of the light emitting tube. The back lighting device for a shaped body according to claim 2 provided.   The back lighting device for a shaped body according to claim 2, wherein glass particles whose outer surface is cut into a polyhedron are disposed at predetermined positions on the outer surface of the background shaped body. The back lighting device for a shaped body according to any one of claims 1 to 4, wherein the rear projection plate is a translucent rear projection plate.