KR20090002380U - Multi image display device - Google Patents

Abstract

The present invention relates to a multi-image display apparatus that can be displayed simply and conveniently in visually realizing a plurality of images using a lenticular lens. More specifically, the lenticular lens 1; A frame 2 having a lens holder 6; A drive motor 3 to which the eccentric cam 4 is attached; And a printing plate 10 on which multiple images are printed.

Display Devices, Lenticular Lenses, Eccentric Cams, Advertising

Description

Multi image display device

 Stereoscopic images are more natural than two-dimensional images and have an advantage of making it easier for the viewer to visually imprint objects. Lenticular lenses are systems that can display stereoscopic images and use them for advertising and promotion. There has been a continuous desire to meet these demands, and in response to these demands, display devices using lenticular lenses have been developed.

The display device using the lenticular lens may implement a moving image that changes depending on a stereoscopic image or a position.

Lenticular may be defined as a kind of auto stereoscopic. This has been used extensively in the sense of "Auto" stereo, a technique for displaying three-dimensional images using binocular parallax, that is, without the use of tools such as special glasses.

In the early years, barrier technology that used binocular parallax through black strings was used rather than lenticular technique.In 1692, French artist GABoisClar presented his works to the audience at the exhibition. To introduce it in a unique way, I changed my gaze and created a device that expresses different pictures, and it became the first print using binocular parallax.

Later, in 1896, Barrier's technology, one step up in the United States by photographers Jacobson and Berthier, used binocular parallax, but in view of the fact that the early invention had to wear special glasses, they changed the image itself. By using a film with vertical lines called "prism" lens, it can be said to be the leader of modern "Auto stereographic".

Gabriel M., professor of physics in the United States in 1908. Gabriel M. Lippmann has developed a way of representing three-dimensional images through continuous lenses (Fly's-eyes), rather than a line-like image, which is the beginning of today's lenticular lenses. Since then, the invention of 3D graphic images has stagnated for some time without exceeding the limitations of printing technology, but in 1960, lenticular technology could be rapidly developed by the research of several large companies. Some companies have begun researching lenticular technology by launching a research institute, judging that lenticular technology can be an effective campaign if it is developed into advertising.

At the same time, graphic images using synthetic techniques, which were rapidly developed with the development of computer graphics technology, were produced by the US's Oger de Montebello as the first small lenticular 11 ”x14” (1978).

Generally, a lenticular lens is composed of a flat surface opposite to a concave lens and a flat surface on the opposite side. Depending on the purpose and size, the lenticular lens can directly print on the back surface of the flat surface or offset printing or digital output on paper, transparent film, and photo paper. Laminating is then performed to show multiple images.

Each concave protrusion is called a lenticule. The lenticules are arranged at regular intervals, depending on how many lenticules fit within one inch (10 LPI (also called LPI as LINE)) 15 LPI, 200 LPI, etc. Separate by. For example, 40 LPI (or 40 LINE) means that there are 40 lenticules (line of lens) in one inch.

In the conventional display apparatus using a lenticular lens, a person can observe a variety of photographs by adjusting the angle of the gaze due to movement.

Since a lenticular lens plate is attached to a paint plate on which a plurality of pictures are printed on the back side, in order to observe a moving image in which a plurality of pictures are represented, the lenticular plate needs to be tilted around or a person moves to change the position of the eyes. There was an inconvenience.

Utility Model Registration No. 20-0406547 discloses a lenticular that allows a plurality of photographs or drawings to be viewed through a single plane, and the lenticular plate is interlocked up and down, left and right through its lenticular lens linkage. It mentions a lenticular operating unit that can change the picture without the viewer moving. However, there is a problem in that the lenticular plate is driven and its structure is complicated.

Utility Model Registration No. 20-0230385 discloses a lenticular sign display means, which allows the lenticular sign to continuously rotate on a pedestal, which also drives the entire lenckular sign and its structure is complicated.

Patent Application No. 10-2000-0005511 shows that the two pictures printed on the paint plate are different from each other as the paint plate installed on the back of the lenticular plate is lifted from the inside of the case by the operation of the eccentric cam while being elastically supported by the spring. Disclosed is a billboard that allows two different advertisements. The application has a problem in that the two pictures are printed, respectively, and the structure is necessary to the elastic spring for driving the structure is complicated.

Patent application No. 10-2005-0102326 discloses a display apparatus using a lenticular lens, which has a problem in that a means for moving multiple image images up and down is complicated.

The display device developed in the related art has a structure for driving a plurality of image plates to display a moving image, which is complicated in structure, and thus, a manufacturing cost increases.

The present invention is designed to solve the above problems, and even if the entire billboard is not operated, only the printing plate installed between the lenticular lens and the frame mounting the lenticular lens is repeatedly moved up and down, and the multiple images printed on the printing plate are expressed three-dimensionally. It is an object of the present invention to provide a multi-image display device that increases the effect of promotion and lowers the manufacturing cost.

The above problem, the lenticular lens 1 according to the present invention; A frame 2 having a lens holder 6; A drive motor 3 to which the eccentric cam 4 is attached; And a printing plate 10 on which multiple images are printed.

The present invention repeats only the printing plate installed between the lenticular lens and the frame that mounts the lenticular lens up and down even if the entire advertising board is not operated. Due to the simplicity of the manufacturing cost is reduced.

Multi-image display device according to the present invention, the lenticular lens (1); A frame 2 having a lens holder 6; A drive motor 3 to which the eccentric cam 4 is attached; And a printing plate 10 on which multiple images are printed.

Preferably, the frame 2 having the lenticular lens mounting portion 6 may be further formed with an upper fixing protrusion 9 and a lower fixing protrusion 8.

Preferably, the frame 2 having the lenticular lens holder 6 may be further formed with an inner protruding grating 5.

In addition, preferably, the multi-image display apparatus further includes a clock driver 20.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a multi-image display device according to the present invention. However, the scope of the present invention is not specified or limited to the contents shown in the following drawings. The following drawings are only intended to describe the contents of the present invention, and those skilled in the art can appropriately refer to the contents of the present invention shown in the following drawings without departing from the scope of the present invention. The present invention can be implemented by changing.

1 is an exploded perspective view illustrating a multi-image display apparatus according to an exemplary embodiment of the present invention.

Multi-image display device according to the present invention, the lenticular lens (1); A frame 2 having a lens holder 6; A drive motor 3 to which the eccentric cam 4 is attached; And a printing plate 10 on which multiple images are printed.

The frame 2 having the lenticular lens holder 6 is provided with a lens holder 6 for mounting the lenticular lens 1 on its front surface. The lenticular lens 1 is mounted on the lens holder 6. Is mounted.

The lens holder 6 has a lens fixing protrusion 7 for fixing the lenticular lens 1 so that the lenticular lens 1 does not move when the lenticular lens 1 is mounted on the lens holder 6. Fix it.

The lens holder 6 is formed higher than the bottom surface of the frame 2, which is an eccentric printing plate 10 having multiple images printed between the lenticular lens 1 and the bottom surface of the frame 2. This is to prevent the cam 4 from contacting the lenticular lens.

Referring to FIG. 2, preferably, the upper support protrusion 9 and the lower support protrusion 8 may be further formed in the frame 2, and the upper support protrusion 9 may have an upper binding groove of the printing plate 10. 13 and the lower support projection (8) is located in the lower binding groove 12 of the printing plate 10, when the printing plate 10 is moved up and down, the printing plate 10 is fixed so as not to shake from side to side to provide a clearer image. to provide.

Preferably, a protruding grating 5 may be further formed on the bottom surface of the frame 2, on which the printing plate is located. When the printing plate 10 moves up and down, less friction occurs because the plate 10 is not in contact with the entire bottom surface of the frame 2 but because the plate 10 is in contact with the inner protruding grid 5, so that the driving plate of the printing plate 10 is driven more smoothly. The power consumption of the motor 3 is reduced accordingly, and the image conversion is also natural, so that it is possible to provide a clear multiple image.

Referring to FIG. 1, the frame 2 is provided with a drive motor 3 equipped with an eccentric cam 4 for moving up and down the printing plate 10 on which multiple images are printed.

The eccentric cam 4 connected to the shaft of the drive motor 3 has a constant diameter and is eccentrically coupled to the shaft of the drive motor. The diameter of the eccentric cam 4 is equal to the longitudinal axis length 11a of the printing plate binding portion 11, so that when the driving motor 3 rotates while the eccentric cam 4 and the printing plate binding portion 11 are bound. The rotational movement force generated by the rotation of the drive motor 3 is converted into a linear movement force moving up and down and transmitted to the printing plate 10.

Preferably, a fixed support portion 41 may be formed at the distal end of the eccentric cam 4 to maintain the binding state with the printing plate binding portion 11 when the driving motor 3 is driven.

The printing plate 10 on which multiple images are printed is positioned between the lenticular lens 1 and the frame 2. The printing plate 10 may be any one capable of printing an image such as papers, photo papers, films, or plastics.

Preferably, the printing plate is a material having a thickness and strength that is smooth enough to move when the printing plate is moved up and down by the drive motor (3).

The printing plate 10 is formed with a binding portion 11 that is engaged with the eccentric cam 4 portion of the drive motor (3).

Multiple images are printed on the printing plate 10. The multiple images are edited in one sheet using a computer-specific program. When the printing plate 10 moves up and down, the lenticular lens 1 Through it serves to provide a clear image of each complete.

Preferably, when the upper support protrusion 9 and the lower support protrusion 8 are further formed in the frame 2, the printing plate 10 may further include an upper binding groove 13 and a lower binding groove 12. Can be further formed.

The printing plate 10 is mounted on the bottom surface of the frame 2, and the binding unit 11 and the eccentric cam 4 of the printing plate 10 are bound together. When the upper support protrusion 9 and the lower support protrusion 8 of the frame 2 are further formed, the upper binding groove 13 and the lower binding groove 12 of the printing plate 10 may be further formed. The upper support protrusion 9 of the frame 2 is located at the upper binding groove 13 portion of the printing plate 10, and the lower support protrusion 8 of the frame is the lower binding groove 12 of the printing plate 10. Is positioned in the site so that the printing plate 10 does not shake left and right during the vertical movement of the printing plate 10.

Preferably, the multi-image display apparatus of the present invention may further include a clock driver 20.

5 is a perspective view of a multi-image apparatus further including a watch driving unit according to another exemplary embodiment of the present invention. The clock driver 20 includes an hour hand, a minute hand, and a second hand. The multi-image display apparatus in which the clock driver is added to the frame 2 is indispensable to achieve the best advertisement promotion effect by integrating with the attributes of the clock that are indispensable for people to observe.

1 to 3, the lenticular lens 1 is positioned on the lens holder 6 formed above the printing plate 10 mounted on the bottom surface of the frame 2. The lenticular lens 1 is attached to the lens fixing protrusion 7. When power is supplied to the drive motor 3, the drive motor 3 is rotated. The rotational motion force of the drive motor 3 is transmitted to the axis of the drive motor 3, the rotational motion force transmitted to the axis of the drive motor 3 is transmitted to the eccentric cam 4, the eccentric cam 4 and the printing plate 10 ) Is bound so that the printing plate 10 moves up and down. When the printing plate 10 repeats up and down, the multiple images printed on the printing plate 10 through the lenticular lens 1 are realized as each complete image and appear in real time.

3 is a perspective view illustrating the assembly of a multi-image apparatus according to a preferred embodiment of the present invention. Preferably, after assembling the frame 2, the printed plate 10 on which multiple images are printed, and the lenticular lens 1, an upper frame 21 that is coupled to the frame 2 may be added to enhance visual aesthetics. have.

The upper frame 21 may be implemented in various shapes that can be bonded to the frame 2, and the material for manufacturing the upper frame may be various materials such as plastic, metal, or wood.

4 is a front view illustrating that an image is converted according to the vertical movement of the printing plate 10. While the printing plate 10 is moved up and down by the driving motor 3 to which the eccentric cam 4 is attached, the multiple images are realized as individual images through the lenticular lens 1 and are clearly visible.

1 is an exploded perspective view of a multi-image display apparatus according to a preferred embodiment of the present invention.

2 is an exploded perspective view of a multi-image display apparatus according to another preferred embodiment of the present invention.

3 is a perspective view of the multi-image display device assembled according to a preferred embodiment of the present invention.

4 is a configuration diagram showing that an image is converted in accordance with the vertical movement of the printing plate 3.

5 is a perspective view of a multi-image display apparatus according to another preferred embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

1: lenticular lens 2: frame

3: drive motor 4: eccentric cam

5: internal protrusion grid 6: lens holder

7: Lens fixing protrusion 8: Lower support protrusion

9: upper support protrusion 10: printing plate

11: Print binding unit 12: Lower binding groove

13: top binding groove 14: multiple images

20: clock driving unit 21: upper frame 41: fixed support

Claims (5)

Lenticular lens 1; A frame 2 having a lenticular lens holder 6; A drive motor 3 to which the eccentric cam 4 is attached; And a printing plate (10) on which multiple images have been printed. The multi-image display apparatus according to claim 1, wherein the frame (2) having the lenticular lens holder (6) is further formed with an upper fixing protrusion (9) and a lower fixing protrusion (8). 2. Multi image display apparatus according to claim 1, characterized in that the frame (2) with the lenticular lens holder (6) is further formed with an internal protruding grating (5). The multi-image display apparatus according to claim 1, further comprising an upper frame (21). The multi-image display apparatus according to claim 1, further comprising a clock driver (20).

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