CN210405536U - Image stereoscopic viewing window - Google Patents

Abstract

The utility model relates to the technical field of optical images, in particular to an image three-dimensional viewing window which is characterized by comprising a viewing window front baffle, a viewing window inner frame and a viewing window outer frame, wherein the viewing window front baffle is of a rectangular annular plate-shaped structure, the length and width dimension of a window of the viewing window front baffle are matched with the screen dimension of a film reducing device, and the end surface of the viewing window inner frame is propped against the screen frame of the film reducing device; the shielding part of the baffle in front of the viewing window also shadows the screen of the equipment. Compared with the prior art, the beneficial effects of the utility model are as follows: 1) the existence sense of the image carrier screen is artificially weakened by the window, so that the image picture presents a transparent reality sense; the interlaced displacement generated between the image frame and the window generates the depth feeling of the image, and promotes the generation of the visual three-dimensional feeling of the image. 2) The system is suitable for multi-class and multi-specification image equipment, and the form and the specification of a 'window' are set according to different purposes and different fields.

Description

Image stereoscopic viewing window

Technical Field

The utility model relates to an optics image technical field especially relates to an applicable image third dimension window in multiple movie equipment screen that returns.

Background

The existing 3D image technology is complex in structure, forms a system by itself according to different imaging principles, and is different from a common single-lens shooting image system in the aspects of shooting, transmission, image restoration and the like. The 3D film viewing changes the usual visual imaging mode of people, and when various 3D images are viewed, the visual stereoscopic impression can be generated by adopting the special mode method of each system.

The human visual sense of stereoscopic vision is the visual perception that a stereoscopic image is generated in the brain by viewing a scene and an image through both eyes of a human. The binocular viewing scene is an element of generation of stereoscopic images in the brain. When a scene is viewed by one eye, the depth feeling and the stereoscopic impression when the scene is viewed by two eyes are obviously weakened, which is the obvious difference between the world viewed by two eyes and the world viewed by one eye. The image effect of the single lens is basically similar to the effect of seeing the world with one eye, and although the image effect has a realistic element, the image effect is not enough in the aspects of generating depth feeling and stereoscopic impression.

When a photo is watched by eyes, the visual impression is that the image is generated on the plane of the plane carrier image paper, and the brain can generate the cognition that the image on the photo is necessarily a plane image; when viewing a movie, the visual impression is that the image is generated above the plane of the screen carrier. When a person watches television, the visual perception is that the image is displayed on a glass plane carrier of a television display screen, and the brain can generate judgment similar to the picture watching, namely the image on the glass screen is necessarily plane. The flat impression of glass on a display screen and the flat impression of a paper are well established in the human brain, and the image presented on a flat support is necessarily flat — this is due to the inherent knowledge of the human brain.

Disclosure of Invention

The utility model aims at providing an image third dimension window overcomes prior art's is not enough, and still shadow equipment matches, according to still shadow equipment screen specification configuration in proportion, feels artificial weakening with the existence of image carrier itself, makes image picture and window produce crisscross displacement again, and its result is exactly that the ordinary image that makes the single-lens shoot produces the sense of depth to generate the vision third dimension of image in the human brain.

In order to achieve the above object, the utility model discloses a following technical scheme realizes:

an image stereoscopic window is characterized by comprising a window front baffle, a window inner frame and a window outer frame, wherein the window front baffle is of a rectangular annular plate-shaped structure, the length and width of a window of the window front baffle are matched with the size of a screen of image reduction equipment, and the end surface of the window inner frame abuts against the screen frame of the image reduction equipment; the shielding part of the baffle plate in front of the window can shadow the screen of the equipment.

The length of the front baffle of the window in the left-right direction is A, the length of the image restoration device in the left-right direction is B, A is 0.9 multiplied by B, the height of the front baffle of the window in the up-down direction is C, and the height of the image restoration device in the up-down direction is D, C is 0.92 multiplied by D.

The inner frame of the window is of a continuous structure, and the depth E of the inner frame is (0.1-0.15) multiplied by B.

The outer frame of the window is of a continuous or discontinuous structure, and the depth F of the outer frame of the window is the thickness of the E + reduction equipment.

The outer frame of the window is connected with the periphery of the image reduction device in any form of screws, glue or clamping grooves.

The front baffle of the window, the window inner frame and the window outer frame are of an integrated structure and are arranged on the wall surface or the ground where the image reduction equipment is located.

At least one of the window front baffle, the window inner frame and the window outer frame is made of metal, plastic or wood material or composite material made of any two materials of metal, plastic and wood.

The window outer frame is provided with a hole corresponding to a heat dissipation channel, a sound channel, a wiring channel and a remote control channel of the image return equipment.

The inner surfaces of the front baffle of the window and the inner frame of the window are matt black.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1) due to the effect of the window, the self-existence of the image carrier screen is artificially weakened, the image generates transparent reality in vision, a passive staggered displacement effect is generated between an image picture and the edge of the window due to the space, the image generates depth in vision, and the reality and the depth are overlapped to generate third dimension.

2) The visual window is suitable for being used by multi-class and multi-specification image equipment, the form and the specification of the visual window are set according to different purposes and different fields, special purpose manufacturing is specially needed, and the square is square, the circle is round, the form is variable and the size is different.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a rear view of fig. 1.

Fig. 3 is a sectional view taken along line a-a of fig. 1.

In the figure: 1-a window front baffle 1, 2-a window inner frame, 3-a window outer frame, 4-a screen of a film reduction device and 5-a film reduction device.

Detailed Description

The following embodiments are further described in the following:

in the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

See fig. 1-3, which are schematic structural views of embodiments of a stereoscopic viewing window of the present invention, to image frame 1600 mm: the film developing device comprises a 1000mm film developing device, a film developing device and a film developing device, wherein the film developing device comprises a window front baffle 1, a window inner frame 2 and a window outer frame 3, the window front baffle 1 is of a rectangular annular plate-shaped structure, the length and width of a window of the window front baffle 1 are matched with the size of a screen 4 of a film developing device, and the end surface of the window inner frame 2 abuts against a screen frame of the film developing device; baffle 1's left and right sides direction length A is 1440mm before the window, and length B is 1600mm about shadow equipment screen 4, and baffle 1's window up-down direction height C is 920mm before the window, and shadow equipment screen 4 is high D is 1000mm from top to bottom. The front baffle 1 of the viewing window shields part of the edge of the screen 4 of the device. The inner frame 2 of the window is of a continuous structure, and the depth E of the inner frame is 160 mm. The outer frame 3 of the window has a continuous or discontinuous structure and a depth F of 240 mm.

In an embodiment, the window frame 3 and the periphery of the image reduction device 5 can be connected by any form of screws, glue or slots. The window outer frame 3, the window inner frame 2 and the window outer frame 3 can also be made into an integrated structure and arranged on the wall surface or the ground where the image restoration equipment is located.

At least one of the window front baffle 1, the window inner frame 2 and the window outer frame 3 is made of metal, plastic and wood materials or made of composite materials made of any two materials of metal, plastic and wood.

The window frame 3 is provided with an opening corresponding to the heat dissipation, sound, wiring and remote control channel of the image reproducing device.

The inner surfaces of the front baffle 1 and the inner frame 2 of the window are processed into matt black, and the color of the outer surface is not limited. The window inner frame 2 is used for completely covering the non-imaging part of the image screen, and can prevent the screen frame from being exposed from the inner side of the window front baffle 1; secondly, light is prevented from entering from the periphery of the screen to interfere the image picture.

The utility model discloses a theory of operation is: the visual presence of the image carrier is eliminated or weakened by the window. The external image of the equipment has close relevance with the image carrier, if a television is seen, the glass display screen is sensed, the cognition of the brain to the image plane feeling of the television is enhanced, and therefore the elimination or change of the external image of the equipment plays an important role in eliminating the image carrier feeling. The utility model discloses a still shadow equipment screen additional window eliminates the vision of image carrier screen and exists and feel, makes still shadow equipment screen sink in the window withdrawal, has changed the appearance characteristic of still the outstanding screen of shadow equipment, is favorable to eliminating or weakening the vision of screen self to exist and feels.

It installs additional still to shadow equipment the utility model discloses behind the window, change people to the visual cognition of image, the image is developed by the screen and is changed into the window and develop promptly, makes the intrinsic visual reaction that has not had the image carrier to exist and feels in the people's brain that still shadow equipment outward appearance is cognitive changes, produces the new. The image display device has no image equipment sense, screen sense and image carrier sense, only images are seen but the carriers are not seen, and as a result, the image picture has transparent reality sense.

The window is used to generate a passive staggered displacement sense for the image. When a window of a room looks outwards, external real scenery can generate passive staggered displacement along with the movement of the head of a person, and certain passive staggered displacement is generated among the scenery at the upper part, the lower part, the left part, the right part, the far part, the middle part and the near part. The most obvious passive staggered displacement is near view passive staggered displacement, namely the passive staggered displacement of the joint of the window edge and the scenery outside the window, and the passive staggered displacement between the middle view and the distant view is matched, so that the depth sense is realized, and the visual perception of the real scenery is realized.

The image displayed on the screen of the image reproduction equipment is lack of passive staggered displacement so as to influence the generation of the depth feeling of the image, in order to enable the image to generate a passive staggered displacement effect, the staggered displacement feeling is generated by utilizing the space between the edge of a window and the image, and the image can also generate the depth feeling similar to a real scenery in human vision, so that the generation of the visual three-dimensional feeling of the image is ensured.

To sum up, the utility model is suitable for a novel third dimension TV set's design also is applicable to the function extension of current TV set for the 3D image can promote the third dimension and watch the effect. Can be in individual, family, amusement, movie & TV, control, place, exhibition, advertisement, teaching, simulation, scientific research etc. aspect wide application, the utility model is suitable for a TV set, display screen, advertisement window and large-scale LED display screen etc..

In order to be suitable for image and picture scale conversion, the front baffle plate 1 of the window can be further expanded to adopt a structure with variable size, so that the size of the window can be adjusted, and the window can be manually controlled or electrically controlled.

The above-mentioned embodiments are only specific examples selected for the purpose of illustrating the objects, technical solutions and advantages of the present invention in detail, but should not limit the scope of the present invention, and all modifications, equivalent substitutions and improvements made without departing from the spirit and principles of the present invention should fall within the scope of the present invention.

Claims (9)

1. An image stereoscopic window is characterized by comprising a window front baffle, a window inner frame and a window outer frame, wherein the window front baffle is of a rectangular annular plate-shaped structure, the length and width of a window of the window front baffle are matched with the size of a screen of image reduction equipment, and the end surface of the window inner frame abuts against the screen frame of the image reduction equipment; the shielding part of the baffle plate in front of the window can shadow the screen of the equipment.

2. The stereoscopic viewing window according to claim 1, wherein the length of the front bezel in the left-right direction is a, the length of the left-right direction of the screen of the image reconstruction device is B, and when a is 0.9 × B, the height of the front bezel in the up-down direction is C, and when D is D, C is 0.92 × D.

3. The stereoscopic viewing window according to claim 2, wherein the inner frame of the window has a continuous structure, and the depth E is (0.1-0.15) x B.

4. The image stereoscopic window of claim 3, wherein the outer frame of the window has a continuous or discontinuous structure and a depth F of E + reduction equipment thickness.

5. The image stereoscopic viewing window of claim 4, wherein the outer frame of the viewing window is connected to the periphery of the image reduction device by any one of screws, glue, or slots.

6. The image stereoscopic viewing window according to claim 1, wherein the front baffle, the inner frame and the outer frame are integrated and are disposed on a wall or a floor where the image restoration device is located.

7. A visual perception window according to claim 1, wherein at least one of the window front barrier, the window inner frame and the window outer frame is made of metal, plastic, wood material or a composite material made of any two of metal, plastic and wood.

8. A stereoscopic viewing window according to claim 1, 4 or 6, wherein the window frame has openings corresponding to heat dissipation, sound, wiring and remote control channels of the video playback device.

9. The image stereoscopic viewing window of claim 1, wherein the inner surfaces of the front barrier and the inner frame of the viewing window are made of matt black.

Images