KR102014612B1 - Device for multi-variation surface display with dynamic projection mapping and three dimensional curved surface cubic effect - Google Patents

Abstract

The present invention provides a dynamic real projection projection multi-variable surface device for obtaining a three-dimensional curved three-dimensional effect to obtain a clear three-dimensional effect from a variety of angles, such as the intersection or building corners, but not at the front.
The dynamic real projection projection multi-surface surface device for obtaining a dimensional curved three-dimensional effect according to a preferred embodiment of the present invention is a curved surface by a constant radius of curvature and a constant placement interval in the circumferential direction and vertical direction through the thickness in a predetermined area An outer curved plate having an outer lattice hole arranged thereon; An inner curved plate having an inner lattice hole spaced apart from the outer curved plate by a predetermined distance and having a predetermined radius of curvature and arranged in the same number in the outer lattice hole; A plurality of guide pipes having one end joined to the outer lattice hole side and the other end joined to the inner lattice hole side to connect the outer curved plate and the inner curved plate; An actuator slidably inserted into a plurality of guide pipes to move in and out of the outer curved plate; A transfer screw screwed to the rear end of the actuator; A driving motor fixed to the inner curved plate side to drive the feed screw forward and backward; And a flexible image film material disposed on the front surface of the inner curved plate and configured to display a contour in a three-dimensional image by a combination of protrusions of the actuators.

Description

Device for multi-variation surface display with dynamic projection mapping and three dimensional curved surface cubic effect

The present invention relates to an image projection multi-variable surface device that can physically deform the image film material to realize a three-dimensional image, in particular three-dimensional to obtain a clear three-dimensional effect from a variety of angles, such as the intersection or the corner of the building The present invention relates to a dynamic real projection projection multi-surface surface device for obtaining a curved three-dimensional effect.

Stereoscopic display technology is the ultimate display technology that is eager for humans, and the world is actively developing various stereoscopic display technologies using lasers, plasmas, and reflectors.

As a background technology of the present invention, US Pat. No. 6646840, '3D monitor and tactile scanner' has been proposed. It is provided with a plurality of linearly movable display elements parallel to the first axis, means for moving at least one of the display elements remotely in response to a broadcast signal. However, the background art has a structure in which the display elements are arranged in a planar manner, so that the stereoscopic image in the front direction is blurred, whereas the stereoscopic feeling in the side is inferior.

As another technology that is the background of the present invention, US Patent No. 6189246 proposes a 'three-dimensional advertising billboard'. This is a method of providing a three-dimensional display for advertisement in an advertisement signage, comprising: moving a plurality of rods arranged in a matrix at a position relative to a vertical plane on which the rod is moved by an actuator; The actuator is controlled based on the three-dimensional computer-assisted drawing in the computer, and the computer generates an input / output control signal to move the load. However, in the background art, a large number of rods appear on a plane, so that the stereoscopic image in the front direction is blurred, but the stereoscopic effect on the side is inevitably dropped, which is not applicable to the intersection or the corner of the building. have.

U.S. Patent # 6462840 U.S. Pat.No.6189246

It is an object of the present invention to provide a dynamic real projection projection multi-variable surface device for obtaining a three-dimensional curved three-dimensional effect to obtain a clear three-dimensional effect from various angles, such as intersections or building corners, but not at the front.

The dynamic real projection projection multi-surface surface device for obtaining a dimensional curved three-dimensional effect according to a preferred embodiment of the present invention is a curved surface by a constant radius of curvature and a constant placement interval in the circumferential direction and vertical direction through a certain area An outer curved plate having an outer lattice hole arranged thereon; An inner curved plate having an inner lattice hole spaced apart from the outer curved plate by a predetermined distance and having a predetermined radius of curvature and arranged in the same number in the outer lattice hole; A plurality of guide pipes having one end joined to the outer lattice hole side and the other end joined to the inner lattice hole side to connect the outer curved plate and the inner curved plate; An actuator slidably inserted into a plurality of guide pipes to move in and out of the outer curved plate; A transfer screw screwed to the rear end of the actuator; A driving motor fixed to the inner curved plate side to drive the feed screw forward and backward; And a flexible image film material disposed on the front surface of the inner curved plate and configured to display a contour in a three-dimensional image by a combination of protrusions of the actuators.

In addition, the outer lattice holes are characterized in that the neighbors are arranged to form a triangular arrangement structure.

In addition, the mounting table for supporting the outer curved plate and the inner curved plate; A plurality of table legs vertically connected to the mounting table; And a moving wheel mounted on each lower end of the table leg.

In the dynamic real projection projection multi-variable surface device for obtaining a three-dimensional curved three-dimensional effect according to the present invention, the actuator is arranged on the curved surface of the outer surface of the curved surface of the outer surface plate, and the appearance of the image material is physically deformed to express the three-dimensional effect, so that the intersection or building You can get a clear three-dimensional effect at various angles rather than at the corners or the front.

In addition, since the actuator moves in the radial direction, it is possible not only to show more various images but also to reduce the moving radius of the actuator, thereby reducing the number of installations.

In addition, when a plurality of actuators form a triangular arrangement, the three-dimensional stereoscopic feeling can be excellently expressed by deforming the image film material by a zigzag crossover effect.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is a perspective view of a dynamic real projection projection multi-surface surface device for obtaining a three-dimensional curved three-dimensional effect according to the present invention.
FIG. 2A is a perspective view from another angle of the apparatus shown in FIG. 1, with all the actuators protruding. FIG.
FIG. 2B is a perspective view of the apparatus shown in FIG. 1 from another angle, in which the actuators all protrude; FIG.
3 is a side view of FIG. 1;
4 is a plan view of FIG.
Figure 5 is a perspective view of the outer curved plate and the inner curved plate applied to the present invention.
Figure 6 is a front view of the outer curved plate applied to the present invention.
Figure 7a is an exploded perspective view of the actuator and the transfer screw applied to the present invention.
Figure 7b is a partial assembly state of the actuator and the transfer screw applied to the present invention.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

Dynamic real-projection projection multi-variable surface device 10 for obtaining a three-dimensional curved three-dimensional effect according to an embodiment of the present invention is the outer curved plate 12, the inner curved plate 14, a plurality of The guide pipe 16, the actuator 18, the transfer screw 20, the drive motor 22 and the image film material 24 are configured to be included.

The outer curved plate 12 has an outer lattice hole 12a which is arranged at a predetermined area through the thickness in the circumferential direction and in the circumferential direction and in the vertical direction, and is curved by a constant radius of curvature R1. Configured to form. As described above, the outer curved plate 12 has a radius of curvature R1 and thus has a partial cylindrical shape.

Here, the outer lattice holes 12a are preferably arranged such that neighboring ones form a triangular arrangement structure as shown in FIG. 6. This is because a plurality of actuators 18, which will be described later, are arranged in a triangular form for each outer lattice hole 12a, so that the image film material 24 can be deformed by the zigzag crossover effect so that the three-dimensional stereoscopic feeling can be excellently expressed. to be.

The inner curved plate 14 is disposed with a constant radius of curvature R2 spaced apart from the outer curved plate 12 by a predetermined distance G. The inner curved plate 14 has an inner grating hole 14a arranged in the same number as the outer grating hole 12a. Therefore, the inner lattice hole 14a has the same triangular arrangement structure when the outer lattice hole 12a has a triangular arrangement structure.

The inner curved plate 14 and the outer curved plate 12 may be made of a steel sheet or a synthetic resin plate having a predetermined thickness.

Each of the plurality of guide pipes 16 is joined at one end to the outer lattice hole 12a side and at the other end to the inner lattice hole 14a side. Therefore, the plurality of guide pipes 16 connect the outer curved plate 12 and the inner curved plate 14 at regular intervals. The guide pipe 16 has a rectangular cross section in this embodiment, but may have a five or six-sided cross section. The guide pipe 16 is not necessarily limited to this angular cross section, but may have a structure capable of linearly moving the actuator 18.

The actuators 18 are inserted in the plurality of guide pipes 16 so as to be slidably movable. The actuator 18 is in the form of a pipe having a rectangular cross section in the present embodiment, but is not limited to such a pipe shape. Actuator 18 may be less than or equal in length to guide pipe 16. Accordingly, the actuator 18 may be linearly moved in the radial direction while being supported by the guide pipe 16 and may be projected to the outside of the outer curved plate 12.

The transfer screw 20 is screwed to the rear end of the actuator 18 as shown in Figure 7a and 7b. Accordingly, the actuator 18 moves linearly in the radial direction in a state supported by the guide pipe 16 while maintaining the screw coupling with the feed screw 20 in accordance with the rotation direction of the feed screw 20. Appeared to the outside.

The drive motor 22 is fixed to the inner curved plate 14 side to rotate the feed screw 20 forward and reverse. At this time, all of the drive motor 22 is electrically connected to the controller (not shown) to receive the drive control.

The video film material 24 is disposed on the front surface of the inner curved plate 14. In this case, the edge of the image membrane material 24 may be fixed to the inner curved plate 14. The image film material 24 is flexible to express a three-dimensional stereoscopic screen. The imaging membrane material 24 may be a functional material coated on a woven fabric.

The operation of the dynamic real projection projection multi-surface surface device for obtaining the three-dimensional curved three-dimensional effect configured as described above will be described.

First, when the image is projected on the outer curved plate 12, the image is curved on the image film material 24 disposed on the outer curved plate 12.

In this state, when a plurality of drive motors 22 are selectively driven and controlled by a program executed in a controller (not shown), the actuators 18 screwed to the feed screw 20 on the outer curved plate 12 have different heights. The contour of the image is three-dimensionally expressed on the curved surface so as to protrude.

For example, when the human face is to be expressed, the actuator 18 protrudes the image membrane material 24 so that the forehead, nose, cheek, mouth part, and chin protrude.

As described above, according to the present invention, a three-dimensional display having a real feeling can be realized by physically modifying the contour of the image to be three-dimensionally displayed on the image film material 24. Therefore, it can be used for advertisement, film, exhibition and international event promotion. In particular, the actuator 18 is arranged on the curved surface of the outer curved plate 12 to move in and out to physically deform the image material to express a three-dimensional effect, so that a clear three-dimensional effect can be obtained at various angles, such as the intersection or the corner of the building. have.

In addition, since the actuator 18 moves in the radial direction, it is possible not only to show more various images but also to reduce the moving radius of the actuator 18, thereby reducing the number of installations.

In addition, when a plurality of actuators 18 form a triangular arrangement, the image film material 24 may be deformed by a zigzag crossover effect to exert a three-dimensional stereoscopic feeling.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

12: outer curved plate
14: inner surface plate
16: guide pipe
18: Actuator
20: transfer screw
22: drive motor
24: video film

Claims (3)

An outer curved plate having an outer lattice hole 12a which is curved with a constant radius of curvature R1 and is arranged with a constant spacing L1 and L2 in a circumferential and vertical direction through a thickness in a predetermined region ( 12);
An inner curved plate 14 having an inner lattice hole 14a that is spaced apart from the outer curved plate 12 by a predetermined distance and has a constant radius of curvature R2 and is arranged in the same number in the outer lattice hole 12a; ;
A plurality of guide pipes 16 having one end joined to the outer lattice hole 12a and the other end joined to the inner lattice hole 14a to connect the outer curved plate 12 and the inner curved plate 14; ;
An actuator (18) inserted into the plurality of guide pipes (16) so as to be slidably movable, the actuator (18) acting on the outer curved plate (12),
A transfer screw 20 screwed to the rear end of the actuator 18;
A drive motor 22 fixed to the inner curved plate 14 to drive the feed screw 20 forward and backward;
And a flexible image film material 24 disposed on the front surface of the inner curved plate 14 and configured to display a contour in a three-dimensional image by the projecting combination of the actuators 18.
Dynamic real projection multi-faceted surface device for obtaining a three-dimensional curved three-dimensional surface, characterized in that the outer lattice holes (12a) are arranged to form a triangular arrangement structure of the neighboring ones. delete The method of claim 1,
A mounting table 32 for supporting the outer curved plate 12 and the inner curved plate 14;
A plurality of table legs 34 vertically connected to the mounting table 32;
Dynamic real projection projection multi-variable surface device for obtaining a three-dimensional curved three-dimensional effect, characterized in that it further comprises; a moving wheel (36) mounted on each lower end of the table legs (34).

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