CN201765429U - Holographic phantom imaging device - Google Patents

Abstract

The utility model discloses a holographic phantom imaging device, which comprises a top baffle plate (1), a liquid crystal display(2), a reflecting device (3), an imaging element (4) and a base (5), wherein the liquid crystal display(2) is embedded on the bottom of the top baffle plate (1), namely the inside top of the holographic phantom imaging device; the reflecting device (3) is formed by connecting three mirrors two by two; and the adjacent mirrors in the three mirrors mutually form an angle so as to refract and reflect the images of the exhibits displayed or played in the liquid crystal display(2). By using the device and method, three images of the exhibits displayed on the display can be used as an image source and a three-dimensional effect combining real object with phantom can be performed by utilizing the refraction and reflection of the mirrors, so as to achieve all-around product exhibit and increase the shopping experience of customers.

Description

Holographic phantom imaging device

Technical Field

The utility model relates to a field that the application of photoelectric technology combined especially relates to a holographic phantom image device, can be applied to the product show occasion of retail industries such as jewelry, furniture, car and advertisement trade.

Background

The current product display technology is generally performed in a two-dimensional picture browsing and video playing manner. However, the picture and video modes generally cannot achieve the effect of displaying all details of the product in all directions, and the user cannot examine the displayed contents at the favorite angle. Some existing modes for displaying products by adopting a three-dimensional (3D) technology have high manufacturing cost, long manufacturing time and low efficiency, so that the application is less. In addition, 3D glasses are needed to be worn to watch such 3D content, and some viewers experience poor experience due to uncomfortable physical phenomena such as dizziness, nausea, and even vomiting. More importantly, the audiences can only passively accept the contents, cannot observe the contents from the favorite angle, and experience effect is not good enough.

There are also techniques for projecting images through a projector using a hologram device and generating a three-dimensional effect through specular refraction and reflection. But the distance of projection imaging is limited, and the machine body is often bulky and inconvenient to use.

In conclusion, the existing product display technology has the defects of less prominent details, poor experience effect, and incapability of generating interaction due to passive acceptance of audiences.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a holographic phantom imaging device, which uses three images displayed on a display screen disposed at the top as an image source and uses mirror refraction and reflection to generate a 3D stereoscopic effect of a product.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

a holographic phantom imaging device comprises a display product, and the device mainly comprises a top baffle plate (1), a liquid crystal screen (2), a reflecting device (3), an imaging body (4) and a base (5); wherein,

the top shielding plate (1) is connected with the base (5) through a support column, and the top shielding plate (1) and the base (5) are identical in shape; the liquid crystal screen (2) is embedded in the bottom surface of the lower part of the top shielding plate (1), and the liquid crystal screen (2) can display completely same display product images in the form of three pictures; the reflecting device (3) is formed by connecting three pieces of semitransparent glass in pairs, the three pieces of semitransparent glass form a conical body, and the conical body is arranged between the base (5) and the top shielding plate (1) and used for generating a three-dimensional effect of the displayed product through reflection and refraction of the conical body; the imaging body (4) is laid on the top surface of the upper part of the base (5).

The support column of the device is rectangular, an opening is formed in the outer side of the support column, and articles can be placed or taken out through the opening.

Wherein, a player for playing video files is arranged in the base (5).

The player is connected with the liquid crystal screen (2) through a video line and used for displaying the content of the video file played by the player.

The imaging body (4) is a semitransparent mirror and is used for reflecting the mirror image of the display product and the image picture of the display product displayed by the liquid crystal screen (2).

The utility model provides a holographic phantom image device has following advantage:

three images of a displayed product displayed by a display screen arranged at the top of the device are used as image sources, and a three-dimensional effect is generated by utilizing mirror refraction and reflection, so that the size of the device can be effectively reduced, and the device is more portable and flexible. The device is three-sided visible, through 360 rotations, utilizes the device can combine together product material object and unreal image, realizes omnidirectional product show to can show each detail of product to spectator. Meanwhile, by utilizing the display technology, the interest of audiences can be fully aroused, the advertisement display effect is greatly improved, and the image and the status of the displayed brand goods in the mind of customers are enhanced. By utilizing the device, any multiple-style display can be provided, so that the merchant can see various styles as much as possible without increasing the actual stock, and the transaction opportunity is increased. The customer can freely select and enjoy the shopping at will, and the shopping experience of the customer is comprehensively improved.

Drawings

FIG. 1 is a schematic perspective view of a holographic phantom imaging device according to the present invention;

FIG. 2 is a schematic perspective view of a holographic phantom imaging apparatus according to the present invention;

FIG. 3 is a schematic diagram showing the positions of the shielding plate 1 and the liquid crystal screen 2 on the top of the holographic phantom imaging device of the present invention;

FIG. 4 is a schematic view of a three-dimensional effect of a product display using the holographic phantom imaging device of the present invention;

fig. 5 is a flow chart of an imaging method of the holographic phantom imaging device of the present invention.

Detailed Description

The device of the present invention will be described in further detail with reference to the accompanying drawings and embodiments of the present invention.

The utility model discloses a holographic phantom image device utilizes three-dimensional holographic image technique, has compensatied a great deal of not enough of two-dimensional picture and current three-dimensional show technique: for example, the two-dimensional picture display commodity can not fully embody details, can not generate a good interaction effect, and has poor user experience; the existing three-dimensional display technology is mainly displayed through screen playing, and is neither visual nor convenient.

The holographic phantom imaging device of the present invention as shown in fig. 1 and 2 has an outer portion made of transparent material and an inner structure substantially in the form of a three-sided cone, and viewers can see the inner portion through any one of the three sides. The device mainly comprises a top shielding plate 1, a liquid crystal screen 2 (not shown in the figure), a reflecting device 3, an imaging body 4 and a base 5. The liquid crystal screen 2 is embedded in the bottom surface of the lower part of the top shielding plate 1, namely the top surface inside the holographic phantom imaging device. The reflecting device 3 is formed by connecting three pieces of transparent semitransparent glass in pairs, and two adjacent pieces of the three pieces of semitransparent glass form a certain angle with each other so as to refract and reflect the image of the display product displayed or played in the liquid crystal screen 2. The imaging body 4, specifically a semitransparent mirror, is laid on the top surface of the upper part of the base 5, i.e. the bottom surface of the interior of the holographic phantom imaging device. .

Through the utility model discloses holographic phantom image device top shielding plate 1 and LCD screen 2, as shown in fig. 3, when playing the file, the LCD screen 2 on the top of product can play the image of three the same this show product, through the reflection of mirror surface, collects the three-dimensional image that forms after together and have real dimension space. The viewer can see a free-floating image (a stereoscopic image of the product) from the conical space inside the holographic illusion device, the image is suspended in the air, is free from contact with any frame and can rotate 360 degrees. The audience can watch the image from any angle to know the detail characteristics of each direction of the display product, and a better interactive experience effect is achieved.

In addition, the user can adjust the display size of the image on the liquid crystal screen 2 through the built-in software of the holographic phantom imaging device, so that the position and the size of the stereoscopic image can be adjusted. The built-in software has the function of adjusting the picture, and a user can adjust the size and the position of the image by only inserting the keyboard and pressing the corresponding function key according to the prompt content displayed on the screen. The holographic phantom imaging device can be internally provided with a real object, and the image can be positioned above the real object by adjusting the position and the size of the image, so that a human can generate a phantom of which the image is derived from the real object. The same presentation effect can also be achieved by playing a video file, as shown in fig. 4.

When the holographic phantom imaging device is used for displaying, a viewer does not need to wear any polarized glasses, can watch the 3D phantom three-dimensional display special effect as much as possible under the natural condition without constraint, generates strong depth feeling and gives visual impact to people.

Fig. 5 is a flowchart of an imaging method of the holographic phantom imaging device of the present invention, as shown in fig. 5, the method includes the following steps:

and step 501, setting up a frame of the holographic phantom imaging device. The frame is mainly divided into three parts: a base 5, a pillar and a top shield 1. The base 5 and the top shutter 1 are identical in shape. Flannelette is paved on the upward surface of the base 5, and a liquid crystal screen 2 is arranged on the downward surface of the top shielding plate 1. The liquid crystal display 2 is a whole and can display completely same contents in the form of three pictures. The support is a rectangular column, from the outside an opening (small door) can be opened, which is used for placing or taking out objects inside the device. The device comprises a liquid crystal display (2), a base, a player and a display screen, wherein the player for playing video files is arranged in the base of the device, and the player is connected with the liquid crystal display (2) through a video line and used for displaying the content of the video files played by the player.

And 502, building a reflecting device. The reflector consists of three pieces of translucent glass through which a line of sight can pass. The three pieces of glass together form a conical space. The cone is mounted between the base and the top shutter such that a cavity is formed within the cone.

Step 503, making a video of the content to be displayed. The method specifically comprises the following steps: and (3) taking photos by rotating the professional camera around the product for one circle, synthesizing the taken photos to form a model with three-dimensional effect, and then manufacturing the FLV file which can be played. Other video formats can be made as well, as long as the formats supported by the player arranged in the base can be adopted.

And step 504, playing the video through the built-in player. Three identical pictures are displayed on the display screen, and the pictures are reflected and refracted by a glass cone formed by the three pieces of glass to generate a three-dimensional effect.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (5)

1. A holographic phantom imaging device comprises a display product and is characterized in that the device mainly comprises a top baffle plate (1), a liquid crystal screen (2), a reflecting device (3), an imaging body (4) and a base (5); wherein,

the top shielding plate (1) is connected with the base (5) through a support column, and the top shielding plate (1) and the base (5) are identical in shape; the liquid crystal screen (2) is embedded in the bottom surface of the lower part of the top shielding plate (1), and the liquid crystal screen (2) can display completely same display product images in the form of three pictures; the reflecting device (3) is formed by connecting three pieces of semitransparent glass in pairs, the three pieces of semitransparent glass form a conical body, and the conical body is arranged between the base (5) and the top shielding plate (1) and used for generating a three-dimensional effect of the displayed product through reflection and refraction of the conical body; the imaging body (4) is laid on the top surface of the upper part of the base (5).

2. Holographic illusion imaging apparatus of claim 1, wherein the posts of the apparatus are rectangular and have an opening on the outside through which an object can be placed or removed.

3. Holographic illusion imaging device according to claim 1, characterized in that a player for playing video files is provided in the base (5).

4. Holographic phantom imaging device according to claim 3, characterized in that said player is connected to the liquid crystal screen (2) by a video line for displaying the content of the video files played by the player.

5. Holographic phantom imaging device according to claim 1, characterized in that said imaging body (4) is a semitransparent mirror reflecting the mirror image of said displayed product and the image picture of the displayed product displayed by the liquid crystal screen (2).

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