JP2020503072A - Hologram imaging device - Google Patents

Abstract

The present invention relates to a hologram image device that provides a hologram background effect for a mysterious and realistic effect of a model, and includes a screen provided behind the model, and a light emitting element that irradiates the screen with light. The screen contains glass beads, and when the light reaches, the reflected light of uniform brightness is diverged toward the model, and the light emitting element includes the model and the screen. The present invention relates to a hologram image apparatus which is provided so as to move between positions and realizes a three-dimensional hologram background effect system through three-dimensional light together with a three-dimensional model, thereby providing a mysterious feeling and wonderfulness.

Description

  The present invention relates to a hologram image device that provides a hologram background effect for a mysterious and realistic effect of a model.

  2. Description of the Related Art Generally, holograms are used in various fields, such as being provided as interior elements by adding a background effect to furniture in a room, and adding a sense of liveliness to character models appearing in science fiction and the like.

  In particular, holographic effects on traditional models are typically used to represent Jesus Christ, angels and saints in medieval Catholic works of art, or model objects such as the light profile coming from behind Buddha. The hologram is directed so that the hologram appears mainly on the head and the whole body of the model object. At this time, a background member is placed on the back of the model to draw the hologram background effect as an image, a circular frame is illuminated on the model, and lighting is used to produce a more mysterious effect at night. ing. As an example, Korean Patent Publication No. 10-2014-0140251 can be mentioned.

  On the other hand, as described above, in the conventional hologram production, the model object has a three-dimensional shape, whereas the picture or image for the hologram production is planar, so that it is not three-dimensional and does not give a real feeling, In addition, since a specially shaped frame is used for realism, even if a three-dimensional background effect is produced on the model object, it will give a rough feeling, and since the hologram is not substantial light, There is a problem that when touched, an artificial feeling is given. In addition, there is a problem that the screen surface of the background for the back hologram is not smooth, and the longer the period of use, the more the frame part shrinks gradually, and the light emitted from the light emitting diode is slightly distorted. There is also a problem that the brightness is not very good because the light applied to the fine striped pattern or the non-smooth part formed on the surface is irregularly reflected and scattered in all directions.

Republic of Korea Patent Publication No. 10-2014-0140251

  An object of the present invention is to provide a mysterious feeling and wonderfulness by realizing a three-dimensional hologram background production system using three-dimensional light together with a three-dimensional model when producing a hologram background effect of a model. It is in.

  In order to achieve the above object, the present invention includes a screen provided behind a model, and a light emitting element that irradiates the screen with light from between the model and the screen, wherein the screen is A hologram image that contains glass beads and, when light arrives, emits reflected light of uniform brightness toward the model, thereby producing a holographic background effect that shines on the model. Provide equipment.

  ADVANTAGE OF THE INVENTION According to this invention, a model object can be more lively produced by irradiating a model object with reflected light in a three-dimensional manner and producing an effect so that a hologram shines from the model object.

FIG. 2 is an exploded perspective view of the coupling according to the embodiment of the present invention. It is a figure showing the whole structure concerning other embodiments of the present invention. FIG. 7 is a view illustrating that an angle of a reflector according to another embodiment of the present invention is adjusted. It is a figure showing the whole structure concerning another embodiment of the present invention. FIG. 4 is a view illustrating a state in which a hologram background is rendered on a model according to an embodiment of the present invention. FIG. 9 is a view illustrating a state in which a hologram background is rendered on another model according to an embodiment of the present invention.

  The present invention is to produce a three-dimensional hologram background on a three-dimensional model, so that the model can be seen more vividly. Positioned, the reflected light is not scattered between the model and the screen and disappears, and the hologram can be added to the model like direct illumination.

  The screen described below is housed in a state of being wound in a container having an accommodation space therein, is shaped to be unfolded and spread out from the container when used, and is irradiated with light. Examples of typical screen display devices include a system that is embedded in the ceiling, a system that is mounted on a stand that is installed on the floor, and a system that simply attaches the screen to the wall. Since there are various types such as a system to be used, a plurality of the screen devices are omitted, and only a configuration irradiated with light is illustrated and described.

  Hereinafter, the light shape will be described as a circle, which is a normal hologram shape, and is not limited to a characteristic shape. The light pattern can be variously deformed and formed according to the character and characteristics of the model. Furthermore, the light emitting element that emits light may be any device that can generate light, but has the advantage of being small in size, having a long life, and can be made into various patterns like an LED light emitting diode. It is preferable to employ the present invention. In the present invention, a case where an LED is used to describe a preferred embodiment will be described as an example, and a person having ordinary knowledge in the technical field to which the present invention pertains. A preferred embodiment that can easily implement is described in detail. However, in describing the operation principle of the preferred embodiment of the present invention in detail, it is determined that specific descriptions of related known functions or configurations may unnecessarily obscure the gist of the present invention. In such a case, the detailed description is omitted, and a detailed description is given with reference to FIGS.

  FIG. 1 is a view showing an entire structure in which a hologram background is produced on a model object 10 according to an embodiment of the present invention. According to the present invention, a hologram background is produced behind the model 10 using the light emitting element 100 with respect to the model 10 which is an object to produce a hologram background. That is, the present invention includes a screen 200 at a predetermined distance behind the model 10 in order to produce a normal hologram of the model 10, and the light emitting device 100 is connected to the model 10 and the screen 200. And irradiates light so as to form an image on the screen 200. In one embodiment, the light emitting device according to the present invention is fixed to a built-in type or an external type so that light can be diverged to one side on the rear surface of the model, and irradiates the screen installed behind the model with light. Can be formed.

  Therefore, the present invention can provide an observer observing the present invention from the front of the model object with an illusion as if the hologram is emitted from the model object.

  Here, the screen 200 is formed so that when the light emitting element 100 emits light, the light can be reflected toward the model 10. Is coated. In particular, the screen 200 is manufactured to include glass beads so that the light pattern can produce a normal hologram background when a circular pattern appears upon receiving light. Here, the glass beads are bead powder made of glass, and when light is incident on the glass beads, the incident light is refracted inside the glass beads without irregularly reflecting in various directions, This means that the light can be further reflected in the light incident direction and has a wider reflection angle. When the screen 200 is irradiated with the light of the light emitting element 100, the light can be reflected at a wider reflection angle.

  Therefore, the above-mentioned screen of the present invention is different from a screen in which the brightness of reflected light formed on a normal white screen becomes thinner from the center to the edge, and a hologram background having uniform brightness such as surface illumination. Can be produced, and the model can be produced more mysteriously and realistically.

  In addition, the screen 200 can produce various forms of hologram backgrounds according to the distance from the light emitting element 100. That is, the light that forms an image on the screen 200 has various sizes and shapes according to the moving distance of the light that propagates from the light emitting element 100. In particular, the screen 200 is formed by mixing or blending glass beads of various sizes. In one embodiment, the screen 200 is manufactured by fabricating 30 μm glass beads from a cloth of a special color, When the glass beads of BT10 are applied to the cloth, if the moving distance of the light is lengthened, the cloth of the glass beads mainly acts, and the hologram background effect appears. The reflected light can produce a more three-dimensional light effect.

  In addition, the screen 200 may be formed by adding a plastic medium to make the three-dimensional shape more conspicuous. Here, the plastic medium has a size like sand that is larger and lighter than the glass beads, and when light enters, is definitely brighter than the glass beads, and a rainbow band is formed at the edge. Is clearly seen and usually has a size of 0.15 mm to 0.99 mm.

  Therefore, when the surface of the screen 200 made of glass beads is coated with a plastic medium (PB-3) of 0.15 mm to 0.36 mm in which a three-dimensional shape is most often displayed, a circular light formed of glass bead cloth is obtained. Within, another circle formed by plastic media may be created. Further, after mixing glass beads of a size or type different from the glass bead dough into the plastic media, and coating the surface of the glass bead dough, a larger number of three-dimensional circles are formed and a more three-dimensional shape is formed. Hologram background can be formed.

  FIGS. 2 and 3 show an overall structure for producing a hologram background on a model according to another embodiment of the present invention. Referring to these figures, a reflector 300 is provided between the light emitting device 100 of the present invention and a model, and the reflector reflects light generated from the light emitting device 100 and transmits the light to the screen. It is formed to face 200. That is, as shown in FIG. 2, the light traveling distance can be further increased by reflecting the light generated from the light emitting element 100 by the reflector 300 and irradiating the light onto the screen 200, so that various types of light can be obtained. A hologram background with a shape can be formed.

  Therefore, the light emitting element 100 is moved without taking the trouble of moving the fixed large model, and the shape of the hologram realized on the screen 200 is adjusted according to the characteristics and size of the model 10. Various shapes can be produced that match the shape or model image.

  On the other hand, the light emitting device 100 is formed so as to be able to reciprocate between the model object 10 and the screen 200 by electronic control or power, and reflects light according to the characteristics of the model object 10 or the use of the hologram background. Can be automatically changed. That is, since the shape of the reflected light of the screen 200 can be changed in real time, a lively and realistic effect of the model can be achieved.

  In particular, as shown in FIG. 3, the reflector 300 is formed so that the angle can be adjusted up and down or left and right so that the moving direction of light can be changed. That is, the light emitting element 100 is not limited to be provided at a specific position, and when light reaches the reflector 300 from any direction, the reflector 300 can project the arrived light on the screen 200. . As an embodiment, even if the light emitting elements 100 are provided at different positions according to the location or position where the model 10 is displayed, and the characteristics of interior accessories, the hologram background is provided behind the model 10. Can direct.

  FIG. 4 is a view showing an example in which the reflector 300 and the light emitting device 100 of the present invention are formed integrally with the model object 10. That is, it is embedded in the whole of the model object 10 or on the rear surface of one place where the effect of the hologram background is required so that the reflector 300 is exposed to the outside in an open state so that the reflector 300 can reflect light. The light emitting device 100 is formed so as to be able to be pulled out from the model object 10 to the one side so as to adjust a distance between the light emitting device 100 and the reflector 300.

  Further, the light emitting element 100 and the reflector 300 formed so as to be able to be pulled out can be connected and pulled out by a structure such as a support stand connected to the model object 10, but can be rotated 360 degrees in the vertical direction. Since the light can be directly radiated to the screen 200 without passing through the reflector 300 by rotating, the form of the hologram can be increased by expanding the range up to the screen 200 where the light moves. It can be more diverse.

  Meanwhile, the structure according to an example of the present invention is not limited to the illustrated one, and may be provided in a shape in which the components are completely embedded in the model 10, or may have the same color and various materials or configurations. The beauty of the model can be improved by using the elements.

  Therefore, one model 10 can be produced with a plurality of hologram backgrounds, and the plurality of hologram backgrounds can also be independently formed into different shapes. Therefore, by adjusting the brightness and size of the hologram background, An effect can be produced such that various three-dimensional effects including a sense of distance appear on the model object 10.

  FIGS. 5 and 6 show a state in which a hologram background is produced on various types of model objects 10 according to the present invention. That is, the present invention is to produce the hologram background on the model 10 by manufacturing the screen 200 with glass beads of 75 to 150 μm and placing the screen 200 at a close distance within 5 cm from the model 10. The model 10 and the screen 200 are integrated into a small size, or the large hologram background is formed at a position close to the large model 10 even if the large model 10 is used. Because of this, the three-dimensional reflected light from the screen 200 makes it possible to produce a realistic effect as if it were diverging from the model object 10.

  In particular, as shown in FIG. 6A, the present invention is monotonous without a three-dimensional effect before the hologram background is produced on the model 10 located on the same line in a small space. As shown in FIG. 6B, when the hologram background is produced, a three-dimensional effect is provided as if the model object 10 is distributed in a wide range according to the size and the degree of brightness of the hologram background. be able to.

  In addition, the reflector 300 is fixed to a rear surface of one or a plurality of model objects 10 where a hologram background is required, and is provided with at least one light emitting element 100 to produce the required number of hologram backgrounds. It can be formed as follows. That is, the reflector 300 provided at the rear of the model is formed so that the angle of the reflector 300 is adjusted. The reflector 300 is formed to be concave toward the screen 200 and diverges from a floor / ceiling or a left / right wall surface. The screen 200 can be irradiated with light by collecting the light.

Therefore, the reflected light that is brighter than the surroundings can be formed by the reflector 300 and the screen 200 containing the glass beads. A hologram background can be produced.

Claims (5)

A screen (200) provided behind the model object (10);
A light emitting element (100) for irradiating the screen (200) with light,
The screen (200) contains glass beads, and when light arrives, scatters reflected light of uniform brightness toward the model (10), and shines from the model (10). A hologram background like that is generated,
The hologram imaging apparatus, wherein the light emitting element (100) is provided to move between the model (10) and the screen (200), and produces hologram backgrounds of various shapes. The hologram imaging device further includes a reflector (300) between the model (10) and the light emitting element (100),
The hologram imaging device according to claim 1, wherein the light emitting element (100) faces the reflector (300), and light is reflected by the reflector (300) and illuminates the screen (200). The reflector (300) is formed such that an angle of the reflector is adjusted,
As the position of the light emitting device (100) moves and the inclination of the light changes, the angle provided is changed to move the light to the screen (200) so as to be located behind the model (10). The hologram imaging device according to claim 2, wherein the hologram imaging device is capable of performing the following. The reflector (300) is embedded in the rear surface of the model (10) with one of the reflectors being open,
The light emitting element (100) is provided so as to be drawn out from the model object (10) to one side,
The hologram image apparatus according to claim 2, wherein the degree of extension of the light emitting element is changed to produce hologram backgrounds of various shapes. The hologram imaging device according to claim 1, wherein the screen (200) is blended with at least one different type of glass beads, and various forms of a hologram background are produced according to the position of the light emitting element (100). .

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