CN210465991U - Holographic particle interaction device - Google Patents

Abstract

The utility model discloses a holographic particle interaction device, which comprises a server, wherein the server is electrically connected with an infrared somatosensory device correspondingly, the infrared somatosensory device is electrically connected with a figure acquisition module correspondingly, the figure acquisition module is electrically connected with the server correspondingly, the server is also electrically connected with a projector correspondingly, and the projector is arranged in front of a holographic screen; the projector sets up in the position relative with holographic yarn curtain leave the space between projector and the holographic yarn curtain the below correspondence of holographic yarn curtain is equipped with infrared body and feels the device one side correspondence of projector is equipped with the fixed point light source. The interactive large screen that can see the actual existence is shown with the help of the large screen to traditional body sense, the utility model discloses holographic particle interactive installation changes the LED large screen into the projection, improves to the holographic yarn curtain on the basis of projecting apparatus curtain and can give the sensation of relying on the sky to form images under the dark field environment for holographic yarn curtain.

Description

Holographic particle interaction device

Technical Field

The utility model belongs to the technical field of interactive installation and specifically relates to holographic particle interactive installation.

Background

The holographic projection technology belongs to a 3D technology, and originally refers to a technology for recording and reproducing a real three-dimensional image of an object by utilizing an interference principle. Then, with the guidance of science fiction movies and commercial propaganda, the concept of holographic projection is gradually extended to commercial activities such as stage performance, exhibition and exhibition. However, the holography which we know at ordinary times is not the holography projection in the strict sense, but a holography projection technology of the type which uses Peltier's ghost, edge blanking and the like to realize 3D effect.

Holographic projections can be classified into several categories as follows. Transmission holographic projection, such as the technique invented by lisse and uppetticx, is performed by irradiating a holographic projection film with laser light and then viewing the reconstructed image from another direction. Later on, rainbow holographic projections could be illuminated with white light to view the reconstructed image. Rainbow holographic projection is widely used in fields such as credit card security and anti-counterfeiting and product packaging. These types of rainbow holographic projections typically form a surface relief pattern in a plastic film and then reconstruct the image by back-coating the film with aluminum film to transmit light through the film. Another common holographic projection technique is known as reflection holographic projection, or dannesota holographic projection. This technique can reconstruct an image by illuminating the film from the same direction as the viewer with a white light source and reconstructing a color image by reflection. Specular holographic projection is a related art technique for producing three-dimensional images by controlling the motion of a mirror over a two-dimensional surface. It constructs a holographic image by manipulating reflected or refracted light, whereas a lambertian holographic projection reconstructs a wavefront by diffracting light. The sensing range of the existing motion sensing device has certain limitation, and a large picture needs multiple cascade connections, so that a holographic particle interaction device needs to be designed.

SUMMERY OF THE UTILITY MODEL

To overcome the drawbacks of the prior art, holographic particle interaction devices are provided.

The utility model discloses a following scheme realizes:

a holographic particle interaction device comprises a server, wherein the server is correspondingly and electrically connected with an infrared somatosensory device, the infrared somatosensory device is correspondingly and electrically connected with a figure acquisition module, the figure acquisition module is correspondingly and electrically connected with the server, the server is also correspondingly and electrically connected with a projector, and the projector is arranged in front of a holographic screen;

the projector sets up in the position relative with holographic yarn curtain leave the space between projector and the holographic yarn curtain the below correspondence of holographic yarn curtain is equipped with infrared body and feels the device one side correspondence of projector is equipped with the fixed point light source.

The server is an electronic computer.

The infrared somatosensory device is a somatosensory camera.

The utility model has the advantages that:

the interactive large screen that can see the actual existence is shown with the help of the large screen to traditional body sense, the utility model discloses change the LED large screen into the projection, holographic particle interactive installation improves on the basis of projecting apparatus curtain and can give people the sensation of relying on the sky to form images for holographic yarn curtain under dark field environment.

Drawings

FIG. 1 is a block diagram of a holographic particle interaction apparatus according to the present invention;

FIG. 2 is a schematic structural diagram of the holographic particle interaction device of the present invention;

in the figure: 1 is the server, and 2 are infrared body feeling device, and 3 are people's shadow collection module, and 4 are the projecting apparatus, and 5 are holographic screen, and 6 are the fixed point light source, and 7 are the customer.

Detailed Description

The preferred embodiments of the present invention will be further described with reference to the accompanying drawings in which:

a holographic particle interaction device comprises a server 1, wherein the server 1 is correspondingly and electrically connected with an infrared somatosensory device 2, the infrared somatosensory device 2 is correspondingly and electrically connected with a figure acquisition module 3, the figure acquisition module 3 is correspondingly and electrically connected with the server 1, the server 1 is also correspondingly and electrically connected with a projector 4, and the projector 4 is arranged in front of a holographic screen 5; corresponding shadow is gathered through infrared body sensing device 2 and is handled the shadow through shadow collection module 3, and the information feedback after will handling is to server 1 again, gives the projecting apparatus through server 1 transmission signal, will collect information feedback through the projection of projecting apparatus and form images on the holographic veil, shows corresponding anthropomorphic or action and gives people the sound photoelectricity special effect of beautiful, and the background can be changed according to user's hobby.

Projector 4 sets up in the position relative with holographic yarn curtain 5 leave the space between projector 4 and the holographic yarn curtain 5 the below correspondence of holographic yarn curtain 5 is equipped with infrared body sensing device 2 one side correspondence of projector 4 is equipped with fixed point light source 6. The server 1 is an electronic computer. The infrared somatosensory device 2 is a somatosensory camera.

The projector 4 is a high-definition playing display light source and serves as a display window for the whole system, the holographic screen 5 serves as a special carrier and has high transparency, the holographic transparent effect is achieved, the holographic screen 5 can be customized according to actual conditions and customer requirements, specific material selection and manufacturing processes are known technologies, and repeated description is omitted. The somatosensory camera is used as an acquisition end and is a key point for connecting hardware and software in front, so that a real scene and software of an electronic computer are acted to generate an interactive connection point. The software loaded by the server 1 is an application program customized according to the required interaction situation, and the server is an operating environment of the software, wherein the software is programmed correspondingly according to the specific requirements of the client, and the specific principle, process and operating mode of the software are known technologies and are not described herein again. The fixed point light emitted by the fixed point light source 6 enables the client 7 to better watch and shoot pictures, and the effect of people and scenery integration can be better achieved.

In practical application, customer 7 is located between holographic yarn curtain 5 and projector 4, is equipped with projector and fixed point light source at customer 7's rear, is equipped with the holographic yarn curtain in customer's the place ahead the below correspondence of holographic yarn curtain is equipped with infrared body sensing device (promptly body sensing camera). The camera and the projector are felt through the interactive program connector customized on the electronic computer, the camera acquisition information is recognized and converted into interactive contents through the portrait acquisition module, the interactive contents are projected on the screen through the projector 4, the projector displays the interactive contents on the holographic screen through conversion, the area of the user experiencing the lighting of the fixed point light source is set for better framing and shooting of tourists, and the user can be more propagated.

The specific working process is as follows: the projector and the infrared somatosensory device are opened, the electronic computer is opened again, the signal of the electronic computer can be automatically identified through projection, then the picture of the electronic computer is synchronized, the somatosensory camera starts to automatically collect external infrared signals, then the external infrared signals are correspondingly transmitted to the projector, and then the signals are displayed on the holographic screen 5.

In this application, the specific process and the working principle that the somatosensory camera acquires information and the specific process and the working principle that the information is recognized and converted into interactive content by the portrait acquisition module are known technologies and are not repeated herein.

Although the invention has been shown and described in detail with respect to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (3)

1. A holographic particle interaction device, comprising: the device comprises a server (1), wherein the server (1) is correspondingly and electrically connected with an infrared somatosensory device (2), the infrared somatosensory device (2) is correspondingly and electrically connected with a figure acquisition module (3), the figure acquisition module (3) is correspondingly and electrically connected with the server (1), the server (1) is also correspondingly and electrically connected with a projector (4), and the projector (4) is arranged in front of a holographic screen (5);

projecting apparatus (4) set up in the position relative with holographic yarn curtain (5) leave the space between projecting apparatus (4) and holographic yarn curtain (5) the below correspondence of holographic yarn curtain (5) is equipped with infrared body and feels device (2) one side correspondence of projecting apparatus (4) is equipped with fixed point light source (6).

2. The holographic particle interaction device of claim 1, in which: the server (1) is an electronic computer.

3. The holographic particle interaction device of claim 1, in which: the infrared somatosensory device (2) is a somatosensory camera.

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