TWM288379U - Three-dimensional, omni-directional holographic display - Google Patents

Description

M288379

Fourth, the creative description (1) [New technology field] The device is related to a stereo omnidirectional hologram _ refers to the physical object that can be placed in it, in the image of the two, especially clear The ground is displayed at the top position. In addition to the stereo holographic hologram, the stereo hologram displayed can be rotated. The object can be displayed 360 degrees around the object, which can be used for viewing. /, observation Fan Yuan can [previous technology] press; general mirror according to the principle of reflection, the resulting image is a virtual image (Virtual Image), but _ is located inside the mirror, so its imaging The location we have no ^~ as it is, that is, we can't enter the mirror to get in touch with the image. Reaching out and touching what this creation calls "stereo" represents the object that appears. ρ Three-dimensional space. "All-round" means that the stereoscopic image has any orientation at 36 degrees. "H〇1〇graph" refers to the technique of θ = can-light (including general light source or visible light), which reconstructs the image of the object in the form of body. This creation is applicable to general daylight. ^ Source or light source, and can be used indoors or outdoors with any light source. It is not a holographic hologram of a photographic image reproduced by a laser and a special projected light. The projection of the hologram is a technique that applies natural phenomena and processes it with optical technology to reproduce the image. The creation of the "stereo omnidirectional holographic display device" is a device that can display a three-dimensional real image (T h r e e - d i m e n s i ο η Real Image), instead of a virtual image displayed by a general mirror.

Page 5 M288379

It can be seen from the above that the application of the full-image projection image can be used for display viewing, and the display of the three-dimensional road, through numerous design, experiment = extremely seeking improvement [new content] has the creation of this creation. The purpose of this creation is to carry out the three-dimensional real image of the three-dimensional real image. The first assembly is provided with a rotatable base in the center, and the piece 'in combination with the first assembly, the inner surface shape The second mirror is provided with a parabolic mirror reflection method (Holograph). The solid object on the clear platform can be rotated with the full image of the rotating body, so it can be used for display. The seeding can cause the physical object to display the gyroscopic image display device. The structure includes a first mirror having a parabolic shape for placing a solid object; and the second combination is provided with a counterbore relative to the first mirror; the first mirror and the second 'intersection The object is clearly displayed in the position of the hole in a three-dimensional holographic image, and 'the physical object displayed by the hole is made into a 360-degree stereoscopic all-round observation, and the following is only for the specific review of the member of the review committee.' And with a detailed description of the drawings, one step of understanding and understanding. , the various functions of the creation 'features, there are more [implementation] Please refer to the first picture, the first box and the internal, as shown in the figure, the creation includes: can be composed, the second assembly 2 〇; and the first assembly of the two opposite parabolic mirrors 1 the platform 30 of the object; and: disposed in the first assembly 10 for placing two opposite paraboloids to be displayed, so that the platform 30 can be rotated Actuator 4〇, in order to utilize the reflection effect, to make the object on the platform 3

Page 6 M288379 IV. Creation Instructions (3) The Hologram method is clearly and clearly displayed at the predetermined position. As will be described in detail below: The first assembly 10 is provided with a first mirror 丨丨, which is a parabolic mirror structure (which can be an electroplated metal film parabolic mirror), the first mirror 1 1 is provided with a hollow portion 1 1 1 to allow the hole 1 2 between the first assembly members to pass through; a support member 3 is disposed under the first assembly member 10 to be stably placed on the plane. The second assembly 2 can be combined with the first assembly by using a snap structure, and a second mirror t 2 1 (which can be a metal of electric ore) with a paraboloid shape relative to the first mirror is disposed therein. a film parabolic mirror) having a hole 22' at a predetermined position for displaying a stereo hologram and for viewing a full image of the physical object placed in the first assembly ;; the second assembly 20 is provided with a handle 23 for facilitating The two assemblies 20 are separated from the first assembly 1 〇. The cap 30 is disposed in the hollow portion hi of the first mirror 11, which is not a 9-level platform, but is the parabolic mirror of the first mirror n, but is a separate rotating table. For placing a physical object, the cylindrical body 31 is disposed through the aperture 2 of the first assembly 10. The square actuating member 40 can be a motor disposed under the first assembly member 1 , and its original shaft is just connected to the cylinder 31 of the cap 30 to drive the cap 30 to rotate. ', moving in May, as shown in the second and fourth figures, since the first mirror 11 is a mirror of the 'object', its focus is at I? A (that is, at 2 2 of the second assembly 2) The position of the second mirror 2 1 is also a parabolic mirror whose focus is on FB. If a physical object 50 is placed on the first assembly 1 ^ position (that is, on the FB at the center of the first mirror 11), it is determined by the above

J

Page 7 M288379 IV. Creation Description (4) 'I know that the physical object 50 is located at the focus FB of the second mirror 21, so that the light emitted by the focus FB is reflected by the second mirror 2 1 . Parallel light rays are then focused by the first mirror 1 1 at the position of I? A, so that the last imaged position of the physical object 50 is at the focus of the FA for viewing. It can be seen from the reflected optical path of the light of the third figure that the formed object image at the position of the focal point FA will cause the left and right position to be reversed and the position of the front and rear positions changed, but not upside down, and the resulting image is the actual focus. The position, so the image is a real image, this real image allows the naked eye to clearly recognize that 4 there is indeed an object in the FA position, so that anyone who sees this real image will often touch it by hand, but the FA is formed though It is a real image, but it is still an image. It is impossible to touch the object by hand. When the actuator 40 starts, it drives the bearing 30 to rotate, so the first mirror

The image formed on the focal point F A of 1 1 is a real image with a dynamic phenomenon. Since the actuating member 40 is a power device for providing rotation of the platform 30, the motive axis of the actuating member 40 has a linkage relationship with the cap 30. When the motive shaft rotates, the physical object on the cap 30 is rotated synchronously to make the FA The real image also rotates, so you can do stereoscopic observations of 360 degrees. In summary, the creation can display the physical objects placed in the structure in a stereoscopic and holographic manner in a clear and unambiguous manner at a predetermined position, in a holographic image. In addition to the ability of the three-dimensional hologram to display objects, the scope of the creation can be as close as 360 degrees. This creation places the position of the solid object and has the ability to rotate, which can further rotate the physical object, so

Page 8 M288379

Page 9 M288379 Simple description of the drawing [Simple description of the drawing] The first picture is a perspective view of the creation. The second picture is a three-dimensional exploded view of the creation. The third picture is the combined profile and optical schematic of the creation. The fourth figure is a hole opened by the second component, showing a schematic view of the stereoscopic hologram. [Description of main component symbols] 10____ First assembly 11·... First mirror 111.·· Hollow part 12·... Sub L 13. · · · Support 20·... Second assembly 21____ Second mirror 22. .·. 23·... Lifting 30.... Cap 31____ Cylinder 40·... Actuator 50____ Solid Object FA. FB. Focus

Page ίο

Claims (1)

M288379 V. Patent Application Scope - 1 · A stereo omnidirectional holographic display device includes: a first assembly member having a first mirror in the shape of a paraboloid, and a rotatable platform at a fixed position for And placing a physical object; and; pre-second assembly, combined with the first assembly, having a second mirror opposite to a mirror and having a parabolic shape, provided with a hole; The parabolic mirror reflection of the first mirror and the second mirror causes the solid object to be clearly and ^^ displayed in the position of the hole in a stereoscopic manner, and the physical object on the platform can be synchronized to ensure the pupil The stereoscopic hologram of the displayed physical object also forms a rotation.疋' 2 · The three-dimensional omnidirectional holographic display device according to item 1 of the patent application scope is provided with a support member under the first assembly member for stable placement on the surface; 3) as claimed in the first item The stereo omnidirectional hologram, wherein the second assembly is provided with a handle for separating and detaching the second assembly from the &第一From the first group 4 · The stereo omnidirectional holographic display H as described in claim 1 of the patent scope, wherein the cap can be driven by the movable member, the actuating member is placed under the first = placed, the original motion The shaft is connected to the cap. And the fittings are supplemented by 5, as in the stereoscopic omnidirectional holographic display described in the scope of claim i, wherein the first mirror of the first assembly is provided with a hollow portion for setting a Page 11