WO2021068393A1 - Image display method and display box body - Google Patents

Abstract

The present application discloses an image display method and a display box body. Wherein, the image display method is applied to the display box body, the display box body comprises a display box and an imaging assembly, wherein the display box is provided with a display window, the imaging assembly is arranged in the display box body at a first predetermined angle with the plane where the display window is located, and the image display method comprises: placing a display device into a space enclosed by the imaging assembly, the display window and the side wall of the display box, and placing the display screen of the display device towards the imaging assembly, wherein, the display screen is at a second predetermined angle with the plane where the display window is located, and the first predetermined angle is less than the second predetermined angle; displaying a first image on the display screen of the display device, and presenting a second image corresponding to the first image through the imaging assembly. The embodiment can use the imaging assembly arranged in the display box body to present the second image corresponding to the first image displayed by the display device, so that the display box body can be used to interact with consumers.

Description

Image display method and display box

Cross-references to related applications

This application claims the priority of the Chinese patent application 201910959929.X named "Image Display Method and Display Box" filed on October 10, 2019, and the entire content of this application is incorporated herein by reference.

Technical field

This application relates to the field of image display technology, and in particular to an image display method and a display box.

Background technique

At present, there are already many packaging boxes with exquisite appearance and high-quality materials on the market, which can give consumers a pleasing use experience.

However, these packaging boxes can only present static images to consumers, and they cannot make good use of the packaging boxes to interact with consumers.

Summary of the invention

The embodiment of the present application provides an image display method and a display box body, which can use the imaging component arranged in the display box body to present a second image corresponding to the first image displayed by the display device, so that the display box body can be used for consumption Interact with each other.

On the one hand, an embodiment of the present application provides an image display method, which is applied to a display box. The display box includes a display box and an imaging component. The display box has a display window. The imaging component and the plane of the display window are arranged at a first predetermined angle. Inside the display box;

Among them, the methods include:

Place the display device in the space enclosed by the imaging component, the display window and the side wall of the display box, and place the display screen of the display device facing the imaging component to achieve device assembly. Two predetermined angles, the first predetermined angle is smaller than the second predetermined angle;

The first image is displayed on the display screen of the display device, and a second image corresponding to the first image is presented through the imaging component for image playback, where the first image is a static image or a dynamic image.

Further, the display box has a first accommodating cavity and a second accommodating cavity that are adjacently arranged, the first accommodating cavity has a first light outlet that communicates with the second accommodating cavity, and the first light outlet is connected to the The display windows intersect;

Wherein, the equipment assembly step specifically includes:

The display device is placed in the first accommodating cavity, and the display screen of the display device faces and is parallel to the first light outlet.

Preferably, the imaging component includes a flat film, and the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet;

Wherein, the equipment assembly step further includes:

Put the article into the second accommodating cavity with the imaging component facing away from the display window.

Further, the image playback step specifically includes:

The display screen of the display device is made to play the first image of the target playback object in a single viewing angle to generate a planar light source corresponding to the first image, and the planar light source is reflected by the planar film to present the target playback The second image of the object in a single perspective.

Preferably, the imaging assembly includes at least three flat films, each of the flat films has a one-to-one corresponding to the display window, and the at least three flat films are distributed in a polygonal pyramid, and the polygonal pyramid The apex of the imaging component faces the first light exit port, so that each flat film and the corresponding display window are at the first predetermined angle, and the orthographic projection of the imaging component to the first light exit port completely covers the entire surface. State the first light outlet;

Wherein, the equipment assembly step further includes:

The article is put into the imaging assembly in the shape of a polygonal pyramid in the second accommodating cavity.

Further, the image playback step specifically includes:

Make the display screen of the display device play the first image of the target playback object in multiple viewing angles to generate a planar light source corresponding to the first image in each viewing angle, and the planar light source is reflected by the corresponding planar film , Presenting the second image of the target playback object in multiple viewing angles.

Preferably, the second image is presented with the article as a carrier or integrated with the article.

Further, the first accommodating cavity includes a plurality of first sub-accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, and a second sub-accommodating cavity is arranged between every two adjacent first sub-accommodating cavities. A light exit, the orthographic projection of the second light exit to the first light exit completely covers the first light exit;

Wherein, in the case that the first sub-accommodating cavity where the display device is placed is not adjacent to the second accommodating cavity, the method further includes:

A spherical lens is placed in the first sub-accommodating cavity between the first sub-accommodating cavity where the display device is placed and the second sub-accommodating cavity to perform image adjustment of the second image.

Further, the display box body further includes a second containing box, the display box is provided with a second opening communicating with the first sub-containing cavity, and the second containing box is movable through the second opening. Arranged in the first sub-accommodating cavity;

Wherein, the image adjustment step further includes:

Moving the second containing box in a direction perpendicular to the first light outlet;

and / or,

The second containing box is moved in a direction parallel to the first light outlet.

Preferably, the spherical lens is a multi-spherical lens, and the multi-spherical lens is rotatably arranged in the first sub-accommodating cavity;

Wherein, the image adjustment step further includes:

Rotate the multi-spherical lens, and change the multi-spherical lens to face the spherical surface of the display device.

Further, the display box body further includes a graphic code, and the graphic code is used by the display device to obtain the first image;

Wherein, the image playback step further includes:

The graphic code is scanned by the display device, so that the display device obtains the first image.

On the other hand, an embodiment of the present application provides a display box, including:

Display box, which has a display window;

An imaging component, the imaging component and the plane of the display window are arranged in the display box at a first predetermined angle;

The space enclosed by the imaging component, the display window and the side wall of the display box is used to place the display device, and the display screen of the display device and the plane where the display window is located are at a second predetermined angle, and the first predetermined angle is smaller than the second predetermined angle .

Further, the display box has a first accommodating cavity and a second accommodating cavity that are adjacently arranged, the first accommodating cavity has a first light outlet that communicates with the second accommodating cavity, and the first accommodating cavity is used for For placing the display device, the side wall of the second accommodating cavity adjacent to the first light outlet has the display window so that the first light outlet intersects the display window, and the imaging component is located at the Mentioned inside the second accommodating cavity.

Preferably, the imaging component includes a flat film, the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet, and in the second accommodating cavity, the imaging component faces away from the One side of the display window is used to place items.

Further, the display box has a first side wall, a first partition is arranged in the display box along a direction perpendicular to the first side wall, and the first partition enables the display box to have the The first accommodating cavity and the second accommodating cavity, the first partition is provided with the first light outlet, and the first side wall is provided with the display window.

Preferably, the imaging assembly includes at least three flat films, and the sidewall of the second accommodating cavity adjacent to the first light outlet has display windows corresponding to the flat films one-to-one, and the at least three A plurality of flat films are distributed in a polygonal pyramid, and the apex of the imaging component in the form of a polygonal pyramid is set facing the first light outlet, so that each flat film is at the first predetermined angle with the plane where the corresponding display window is located, so The orthographic projection of the imaging component to the first light outlet completely covers the first light outlet.

Preferably, the imaging assembly includes four flat films, the four flat films are distributed in quadrangular pyramids, the display box is a rectangular parallelepiped display box, and a bottom parallel to the display box is provided in the display box. The first partition of the wall, the first partition enables the display box to have the first accommodating cavity and the second accommodating cavity, the first partition is provided with the first light outlet, so Each side wall of the display box is respectively provided with the display window.

Further, it also includes:

Graphic code, the graphic code is used for the display device to obtain the first image to be played, and the graphic code is arranged on the display box body.

Preferably, the angle difference between the second predetermined angle and the first predetermined angle is in a range of 30-60°.

Preferably, the flat film is a plastic film, the thickness of the plastic film is 0.4-0.5mm, and the light transmittance of the plastic film is 85-90%, or the flat film is a holographic projection film. The thickness of the holographic projection film is 0.1 mm, and the light transmittance of the holographic projection film is 89%.

Further, the imaging component is fixedly connected to the second accommodating cavity, or the imaging component is detachably connected to a slot in the second accommodating cavity.

Further, it also includes:

A first accommodating box, the first accommodating box is provided with a first accommodating space for accommodating the display device, and the first accommodating space has a first space opening; wherein,

The display box is provided with a first opening communicating with the first accommodating cavity, the first accommodating box is detachably disposed in the first accommodating cavity through the first opening, and the first space The opening faces the first light exit port.

Further, the first accommodating cavity includes a plurality of first sub accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, and the first sub accommodating cavities are used to place the display device, and every two phases A second light outlet is arranged between the adjacent first sub-accommodating cavities, and the orthographic projection of the second light outlet to the first light outlet completely covers the first light outlet.

Further, the first sub-accommodating cavity is also used to place a spherical lens, so that the spherical lens is located between the first light outlet and the display device.

Further, it also includes:

A second accommodating box, the second accommodating box is provided with a second accommodating space for accommodating the display device or the spherical lens, the accommodating space has a second space opening penetrating the second accommodating box; wherein,

The display box is provided with a second opening communicating with the first sub-containing cavity, the second containing box is movably disposed in the first sub-containing cavity through the second opening, and the second The space opening surface, the second light outlet and the first light outlet form a light channel.

Preferably, the spherical lens is a multi-spherical lens, and the multi-spherical lens is rotatably arranged in the first sub-accommodating cavity.

The image display method and the display box body of the embodiment of the present application, the display box body includes a display box and an imaging component, the imaging component is arranged in the display box, because the imaging component and the plane of the display window are arranged in the display box at a first predetermined angle , And the imaging component, the display window and the side wall of the display box are enclosed to form a space for placing the display device. When in use, the display device can be put into the space, and the display screen of the display device and the plane where the display window is located A second predetermined angle greater than the first predetermined angle is placed toward the imaging component, so that when the first image is displayed on the display screen of the display device, a second image corresponding to the first image can be presented through the imaging component, so that the user can pass through Watch the second image presented in the display window, so that the display box can "talk by itself", so as to use the display box to interact with consumers, improve the interest of the display box, and improve the user experience. In addition, the display box The playback function of the body can be reused, so that the display box body is no longer a disposable item, reducing the waste of resources.

Description of the drawings

The features, advantages, and technical effects of exemplary embodiments of the present application will be described below with reference to the accompanying drawings.

Figure 1 is a schematic structural diagram of a display box provided by an embodiment of the present application;

2 is a cross-sectional view of the display box provided by the embodiment shown in FIG. 1 taken along the A-A plane;

Fig. 3 is an exploded view of a display box of an example of the embodiment shown in Fig. 1;

Figure 4 is an exploded view of another example of the display box of the embodiment shown in Figure 1;

5 is a cross-sectional view of the A-A side of the display box of another example of the embodiment shown in FIG. 1;

Figure 6 is a schematic structural diagram of a display box provided by another embodiment of the present application;

Figure 7 is a cross-sectional view of the B-B plane provided by the embodiment shown in Figure 6;

FIG. 8 is a schematic structural diagram of a display box provided by another embodiment of the present application;

Figure 9 is a cross-sectional view of the C-C plane of the display box provided by the embodiment shown in Figure 8;

FIG. 10 is a schematic flowchart of an image display method provided by an embodiment of the present application.

Detailed ways

The implementation of the present application will be described in further detail below with reference to the accompanying drawings and embodiments. The detailed description and drawings of the following embodiments are used to exemplarily illustrate the principle of the present application, but cannot be used to limit the scope of the present application, that is, the present application is not limited to the described embodiments.

In order to solve the problem of the prior art, the embodiment of the present application provides an image display method and a display box. The following first introduces the display box provided by the embodiment of the present application.

The embodiment of the present application provides a display box body, which includes a display box and an imaging component.

Wherein, the display box has a display window, the imaging component and the display window are arranged in the display box at a first predetermined angle on the plane, and the space enclosed by the imaging component, the display window and the side wall of the display box is used to place the display device and make the display The display screen of the device and the plane where the display window is located form a second predetermined angle, specifically, the first predetermined angle is smaller than the second predetermined angle.

In the embodiment of the present application, the display box includes a display box and an imaging component. The imaging component is arranged in the display box. Since the imaging component and the plane of the display window are arranged in the display box at a first predetermined angle, the imaging component and the display window It is enclosed with the side wall of the display box to form a space for placing the display device. When in use, the display device can be placed in the space, and the display screen of the display device and the plane where the display window is located are at a second angle greater than the first predetermined angle. Two predetermined angles are placed toward the imaging component, so that when the first image is displayed on the display screen of the display device, the second image corresponding to the first image can be presented through the imaging component, so that the user can watch the presented first image through the display window. Two images, so that the display box can "talk by itself" to use the display box to interact with consumers, improve the interest of the display box, and improve the user experience, and the playback function of the display box can be reused , So that the display box is no longer a disposable item, reducing the waste of resources.

The display box provided by the embodiment of the application may be a packaging box, and the display box of the display box may be a cylindrical display box, a polygonal prism display box, a polygonal table display box, a spherical display box, or an ellipsoid display box. Or special-shaped display box, there is no restriction here.

The display device described in the embodiment of the present application may be a smart phone, a tablet computer, a portable wearable device, etc., as long as it is an electronic device that has a display screen and can display images. The articles mentioned in this application embodiment can be any articles that need to be packaged and displayed, for example, bottled wine, bottled cosmetics, boxed goods, and so on.

In some embodiments of the present application, a bracket may be provided in the space enclosed by the imaging assembly, the display window, and the side wall of the display box. The bracket is used to fix the display device so that the display screen of the display device and the plane where the display window is located Two predetermined angles.

In other embodiments of the present application, the display box may have a first accommodating cavity and a second accommodating cavity that are arranged adjacently, the first accommodating cavity has a first light outlet that communicates with the second accommodating cavity, and the first accommodating cavity is used for When the display device is placed, the side wall of the second accommodating cavity adjacent to the first light outlet has a display window, so that the first light outlet intersects the display window, and the imaging component is located in the second accommodating cavity.

In these embodiments, there are multiple structures of imaging components, and imaging components of different structures are arranged in the second accommodating cavity in different ways.

In some embodiments of the present application, the imaging component includes a flat film, the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet, and the side of the imaging component facing away from the display window in the second accommodating cavity is used for placing items At this time, the second image corresponding to the first image of the target playback object displayed on the display screen of the display device at a single viewing angle can be presented through the imaging component, so as to realize the plane display of the image. Under the condition that the image can be presented, Reduce the complexity of the display box, thereby reducing the cost of the display box.

Wherein, when an article is placed in the second accommodating cavity, the article can be used as a carrier to present the second image, and when no article is placed in the second accommodating cavity, the second image can be presented on the imaging assembly.

Fig. 1 shows a schematic structural diagram of a display box provided by an embodiment of the present application. Fig. 2 shows a cross-sectional view of the display box provided by the embodiment shown in Fig. 1 from the A-A plane. Fig. 3 shows an exploded view of a display box of an example of the embodiment shown in Fig. 1.

Referring to Figures 1-2, the display box body includes a display box 100. The display box 100 is a rectangular parallelepiped display box. The display box 100 has a first side wall 111, a second side wall 112, a third side wall 113, and a The four side walls 114 and the two ends of the display box 100 have a top wall 115 and a bottom wall 116 opposite to each other.

Referring to FIGS. 2-3, the display box 100 is provided with a first partition 117 along a direction perpendicular to the first side wall 111 and the bottom wall 116, and the first partition 117 extends from the second side wall 112 to the fourth side wall 114. Separate the inner cavity of the display box 100 into two independent cavities, so that the display box 100 has a first accommodating cavity 121 and a second accommodating cavity 122. The first partition 117 is provided with a first light outlet 118 so that the first The accommodating cavity 121 has a first light outlet 118 communicating with the second accommodating cavity 122.

Wherein, the first accommodating cavity 121 is used to place a display device, and the display screen of the display device can be set toward the first light outlet 118, so that at least part of the planar light source emitted by the display screen of the display device can enter the second light outlet 118 through the first light outlet 118. Accommodation cavity 122. The second accommodating cavity 122 is used for placing articles, and the first side wall 111 of the second accommodating cavity 122 adjacent to the first partition 117 having the first light outlet 118 has a display window 150 for viewing articles. The shape of the display window 150 can be set arbitrarily. For example, the display window 150 can be an oblong display window to make the user more immersive.

In some other embodiments of the present application, the display box may also be divided into a first accommodating cavity and a second accommodating cavity through a carrier with a stepped surface, which will not be repeated here.

Continuing to refer to FIG. 2, the size of the first light outlet 118 may be the same as the size of the display screen of the display device. At this time, the front projection of the first light outlet 118 to the display screen of the display device completely covers the display screen of the display device; The size of the light outlet 118 may also be smaller than the size of the display screen of the display device. At this time, the front projection part of the first light outlet 118 onto the display screen of the display device covers the target area of the display screen of the display device. Actually, it needs to be set. The target area can be a regular polygonal area or an irregular polygonal area.

It should be noted that, in order to ensure the rendering effect of the holographic projection, the inner wall of the second accommodating cavity 122 needs to be set to a dark color, such as black, brown, etc. Correspondingly, the outer packaging of the article should also be set to a dark color. For example, the product display box body is set to be black or brown, and for another example, the product container is set to be black or brown.

Referring to Figures 2-3, the display box also includes an imaging component, the imaging component includes a flat film 130, the imaging component is arranged in the second containing cavity 122 between the first light outlet 118 and the object, and is located near the display window 150 On the side where the imaging component and the display window 150 are located, that is, the first side wall 111 is set at a first predetermined angle, and the display screen of the display device placed in the first accommodating cavity 121 and the display window 150 are located, that is, the first The side wall 111 is at a second predetermined angle, and the first predetermined angle is smaller than the second predetermined angle, so that the display screen of the display device and the imaging component are arranged at a predetermined angle.

In some embodiments of the present application, the planar film 130 is a rectangular film, the first edge of the planar film 130 is connected to the first partition 117, the second edge of the planar film 130 is connected to the top wall 115 of the display box 100, and the planar film 130 is connected to the top wall 115 of the display box 100. The third edge of the flat film 130 is connected to the first side wall 111 of the display box 100, and the fourth edge of the flat film 130 is connected to the bottom wall 116 of the display box 100, that is, the first edge of the flat film 130 is close to the display device. The third edge is far away from the display device, so that the orthographic projection of the imaging component to the first light outlet 118 completely covers the first light outlet 118, so that the imaging component can convert all the planar light sources entering the second receiving cavity 122 through the first light outlet 118 For the image, the orthographic projection of the imaging component onto the first side wall 111 completely covers the display window 160, which makes it unsuitable for the user to perceive the presence of the imaging component, and improves the aesthetics of the display box and the user experience.

In other embodiments, the first edge of the flat film can also be connected to the third side wall of the display box, and/or, the third edge of the flat film can also be connected to the second side wall of the display box, as long as it ensures imaging The orthographic projection of the component to the first light outlet completely covers the first light outlet and the orthographic projection of the imaging component to the first side wall completely covers the display window.

Continuing to refer to FIGS. 1-3, in the embodiment of the present application, the display box body may also be provided with a box cover 160 for covering the first side wall 111. The box cover 160 may be a flip cover, and the flip cover may be fixed on the outer surface of the display box 100 so that the first side wall 111 can be exposed when it is opened to expose the display window 150, and it is attached to the first side wall when the cover is closed. 111 on the outer surface so as to cover the display window 150. At this time, the box cover 160 may be provided with a first suction member or a buckle, and the first side wall 111 may be provided with a second suction member or a bayonet, so that the box cover 160 can pass through the first suction member and the second The suction member fits and is detachably connected to the first side wall 111, or the box cover 160 can be detachably connected to the first side wall 111 through a buckle and a bayonet fit.

In other embodiments, the box cover may also be a buckle cover, and the buckle cover may be sleeved on the outer surface of the display box to cover the display window to protect the structure and articles in the display box.

Continuing to refer to FIG. 3, the display box body further includes a first receiving box 140, the first receiving box 140 is provided with a first receiving space 141 for accommodating the display device, and the first receiving space 141 has a first space opening.

The display box 100 is provided with a first opening 119 communicating with the first accommodating cavity 121, the first accommodating box 140 can be detachably disposed in the first accommodating cavity 121 through the first opening 119, and the first space opening faces the first The light outlet 118 is provided. When in use, the display screen of the display device is placed in the first accommodating space 141 facing the first space opening, so that the display screen of the display device is set toward the first light outlet 118.

Specifically, when the first accommodating box 140 is disposed in the first accommodating cavity 121, the first accommodating box 140 has an outer wall that is flush with the first side surface 111 of the display box 100. A handle may be provided on the outer wall of the first accommodating box 140 to facilitate the user to withdraw the first accommodating box 140 from the first accommodating cavity 121.

Therefore, the first receiving box 140 can be used to better fix the position of the display device, thereby ensuring the effect of the presented image or video.

Figures 1-3 only show the case where the first opening 119 is located on the first side wall 111. It should be noted that the first opening can also be located on the top wall, the bottom wall or the fourth side wall, which will not be repeated here. .

In some embodiments of the present application, the display box body further includes a graphic code provided on the display box. The graphic code is used for the display device to obtain the first image corresponding to the target playback object to be played. The graphic code may be a two-dimensional code or a three-dimensional code. The graphic code can be generated based on the playback address information of the target playback object, or based on the playback application information of the target playback object. The target playback object may be a two-dimensional object, a three-dimensional object, or a holographic object, the display device may play a first image corresponding to the target playback object, and the first image may be a static image or a dynamic image.

Therefore, the user can scan the graphic code with the display device, so that the display device obtains the first image corresponding to the target playback object according to the information in the graphic code.

Specifically, the graphic code can be printed on the bottom wall of the first containing box 140, the graphic code can also be printed on the outer surface of the display box 100, and the graphic code can also be made into a graphic code card and placed in the first containing box. The bottom wall of the box 140 or the inside of the display box 100.

In some embodiments of the present application, the angle difference range between the second predetermined angle and the first predetermined angle, that is, the predetermined included angle range between the display screen of the display device and the imaging component may be 30-60°, and the error range may be ±3°. Preferably, the angle difference may be 45°. At this time, the ratio and size of the image played by the display device and the image presented by the imaging component are exactly the same.

In some embodiments of the present application, the flat film 130 may be a plastic film, the thickness of the plastic film is 0.4-0.5 mm, and the light transmittance of the plastic film is 85-90%.

In some examples, the plastic film may be a PVC film, the thickness of the PVC film is 0.4 mm, and the light transmittance is 85%. In other examples, the plastic film may be a PET film, the thickness of the PET film is 0.5 mm, the relative density of the sheet is 1.38, and the light transmittance is 90%.

In other embodiments of the present application, the planar film 130 may also be a holographic projection film, the thickness of the holographic projection film is 0.1 mm, and the light transmittance of the holographic projection film is 89%.

Continuing to refer to the display box 100 shown in FIG. 2, in some embodiments, the second side wall 112 and the fourth side wall 114 are provided with handles on one side close to the top wall 115, and both ends of the handle can be made of a nail. The buckle is fixed on the corresponding side wall, so that the user can easily transport it without a handbag, which is beautiful and environmentally friendly.

In some embodiments of the present application, the edge of the flat film 130 can be directly bonded and fixed to the corresponding surface, so that the imaging component can be fixedly connected in the second receiving cavity 122, so as to ensure that the position of the imaging component is fixed and the imaging component is fixed. Imaging effect. At this time, the top wall 115 and/or bottom wall 116 of the display box 100 needs to be set as a flip cover, and the user can turn over the top wall 115 and/or bottom wall 116 to form an extraction port on the second containing cavity 122 so that the user can pass through Take out the items from the exit. Wherein, the top wall 115 and/or the bottom wall 116 may be fixedly connected with a handle to facilitate the user to open.

Fig. 4 shows an exploded view of another example of the display box of the embodiment shown in Fig. 1. Fig. 5 shows a cross-sectional view of the A-A plane of the display box of another example of the embodiment shown in Fig. 1.

Referring to Figures 4-5, different from the display box shown in Figures 2-3, the inner surface of the first side wall 111 is provided with a first slot 132 and a first partition 117 along a direction perpendicular to the bottom wall 116. A second slot 131 is provided on a side surface facing the second receiving cavity 122 along a direction perpendicular to the bottom wall 116. The first edge of the flat film 130 can be detachably connected to the second slot 131, and the first edge of the flat film 130 can be detachably connected to the second slot 131. The three edges can be detachably connected to the first slot 132. Specifically, the flat film 130 can be inserted into the first slot 132 and the second slot 131 along a direction perpendicular to the bottom wall 116, so that the imaging assembly can be connected to the second receiving cavity. The slot in the 122 can be detachably connected.

In other embodiments, when the imaging assembly is detachably connected to the slot in the second accommodating cavity, the top wall may not be configured as a flip cover, but the first side wall of the display box may be configured as a flip cover. The surface grinder can be disassembled, and the user can turn over the first side wall to form a take-out port on the second accommodating cavity, and after disassembling the flat film, the user can take out items through the take-out port. At this time, the first slot can be arranged on the second side wall, and the second slot can be arranged on the first partition. Wherein, a handle can be fixedly connected to the first side wall to facilitate the user to open.

The display box shown in Figs. 1-5 only shows a case with a first accommodating cavity and an imaging assembly. In other embodiments of the present application, the display box may also have two or more first accommodating cavities and one second accommodating cavity. Wherein, two or more first accommodating cavities may be evenly or non-uniformly distributed along the circumferential direction of the second accommodating cavity. At this time, the second containing cavity is provided with an imaging component corresponding to each first containing cavity. In still other embodiments of the present application, the display box may also have two or more first containing cavities and the same number of second containing cavities as the first containing cavities. Wherein, one first accommodating cavity and one second accommodating cavity can form a group of display areas, and the first accommodating cavity in each group of display areas has a first light outlet communicating with the second accommodating cavity in the same group. At this time, an imaging assembly corresponding to the first accommodating cavity in the same group is provided in the second accommodating area in each group of display areas.

In some other embodiments of the present application, the imaging component includes at least three flat films, the at least three flat films are distributed in a polygonal pyramid, and the apex of the imaging component in the form of a polygonal pyramid is set facing the first light outlet, so that each flat film It is at a first predetermined angle to the plane where the corresponding display window is located, the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet, and the side wall of the second containing cavity adjacent to the first light outlet has the same film as the plane film. A corresponding display window is used for placing objects inside the imaging component in the form of a polygonal pyramid. At this time, the second image corresponding to the first image of the target playback object in multiple viewing angles played on the display screen of the display device can be presented through the imaging component, so as to use different flat films to display the second image of the target playback object in different viewing angles. The image realizes the three-dimensional display of the target playback object, which improves the user's visual experience.

Fig. 6 shows a schematic structural diagram of a display box provided by another embodiment of the present application. Fig. 7 shows a cross-sectional view of the B-B plane provided by the embodiment shown in Fig. 6.

6-7, the display box 200 is a rectangular parallelepiped display box, the display box 200 has a first side wall 211, a second side wall 212, a third side wall 213, and a fourth side wall 214 connected in sequence, and two display boxes 200 The end has a top wall 215 and a bottom wall 216 opposite to each other. The display box 200 is provided with a first partition 217 parallel to the bottom wall of the display box 200. The first partition 217 extends from the top wall 215 to the bottom wall 216. The inner cavity of the display box 200 is separated into two independent cavities, so that the display box 200 has a first accommodating cavity 221 and a second accommodating cavity 222. The cavity 221 has a first light outlet 218 communicating with the second receiving cavity 222.

Wherein, the first accommodating cavity 221 is used to place a display device, and the display screen of the display device can be set toward the first light outlet 218, so that at least part of the planar light source emitted by the display screen of the display device can enter the second light outlet 218 through the first light outlet 218. Accommodation cavity 222. The second accommodating cavity 222 is used to place articles. The first side wall 211, the second side wall 212, the third side wall 213 and the The fourth side walls 214 are respectively provided with display windows 230 for viewing objects. The shape of the display window 230 can be set arbitrarily. For example, the display window 230 can be an oblong display window to make the user more immersive.

It should be noted that, in order to ensure the rendering effect of the holographic projection, the inner wall of the second accommodating cavity 222 needs to be set to a dark color, such as black, brown, etc. Correspondingly, the outer packaging of the article should also be set to a dark color. For example, the product display box body is set to be black or brown, and for another example, the product container is set to be black or brown.

Continuing to refer to FIGS. 6-7, the imaging assembly may include four flat films 240, each of which is a triangular flat film of the same size, and each flat film 240 is at a first predetermined angle with the plane of the corresponding display window, and The four planar films 240 are distributed in a quadrangular pyramid, and the apex of the imaging component in the quadrangular pyramid is set facing the first light outlet 218, and the orthographic projection of the imaging component to the first light outlet 218 completely covers the first light outlet 218, and objects can be placed Inside the quadrangular pyramid, each flat film 240 is arranged in a one-to-one correspondence with the display window 230 on the side wall. The specific arrangement of the flat film 240 is similar to the embodiment shown in FIGS. 1-3, and will not be repeated here.

Continuing to refer to FIGS. 6-7, the display box body also includes a first receiving box 250, the first receiving box 250 is provided with a first receiving space 251 for accommodating the display device, the first receiving space 251 has a first space opening and a second space opening The first space opening is used to put the display device, and the second space opening is used to communicate with the first light outlet 218, so that the planar light source emitted by the display screen of the display device enters the second receiving cavity 222.

The display box 200 is provided with a first opening 219 communicating with the first accommodating cavity 221, the first accommodating box 240 can be detachably disposed in the first accommodating cavity 221 through the first opening 219, and the second space opening faces the first The light outlet 218 is set. When in use, the display screen of the display device is placed in the first accommodating space 251 facing the second space opening, so that the display screen of the display device is set toward the first light outlet 218.

Specifically, when the first accommodating box 250 is disposed in the first accommodating cavity 221, the first accommodating box 250 has an outer wall flush with the first side surface 211 of the display box 200. A handle may be provided on the outer wall of the first accommodating box 250 to facilitate the user to withdraw the first accommodating box 250 from the first accommodating cavity 221.

Therefore, the first receiving box 250 can be used to better fix the position of the display device, thereby ensuring the effect of the presented image or video.

Figures 6-7 only show the case where the first opening 219 is located on the first side wall 211. It should be noted that the first opening can also be located on the top wall, the second side wall, the third side wall, or the fourth side. Wall, I won’t go into details here.

In still other embodiments of the present application, the first accommodating cavity may include a plurality of first sub-accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, and the first sub-accommodating cavities are used to place the display device, and every two adjacent ones are adjacent to each other. A second light outlet is arranged between the first sub-accommodating cavities, and the orthographic projection of the second light outlet to the first light outlet completely covers the first light outlet. At this time, the display device can be placed in any first sub-accommodating cavity to adjust the size of the displayed image.

Fig. 8 shows a schematic structural diagram of a display box provided by another embodiment of the present application. Fig. 9 shows a C-C cross-sectional view of the display box provided by the embodiment shown in Fig. 8.

8-9, the display box 300 is a rectangular parallelepiped display box. The display box 300 has a first side wall 313, a second side wall 312, a third side wall 313, and a fourth side wall 314 that are connected in sequence, and a display box 300. The end has a top wall 315 and a bottom wall 316 opposite to each other. The display box 300 is provided with a first partition 317 perpendicular to the first side wall 313 and the top wall 315 of the display box 300. The first partition 317 is formed by the second partition 317. The side wall 312 separates the inner cavity of the display box 300 into two independent cavities toward the fourth side wall 314, so that the display box 300 has a first accommodating cavity and a second accommodating cavity 321. The first partition 317 is provided with The first light outlet 318 enables the first accommodating cavity to have a first light outlet 318 communicating with the second accommodating cavity 321.

In other embodiments, the display box can also be divided into a first accommodating cavity and a second accommodating cavity through a carrier with a stepped surface, which will not be repeated here.

It should be noted that the structure and arrangement of the imaging assembly 350 arranged in the second accommodating cavity 321 in the embodiment shown in FIGS. 8-9 are similar to the imaging assembly in the display box of the embodiment shown in FIGS. 1-5. I won't repeat them here.

Continuing to refer to FIG. 9, a second partition 331 may be provided in the first accommodating cavity, so that the first accommodating cavity includes two first sub-accommodating cavities 322 distributed in parallel along the direction perpendicular to the first light outlet 318. The accommodating cavity 322 is used to place a display device, and may also be used to place a spherical lens. A second light outlet 332 is provided between two adjacent first sub-accommodating cavities 322, that is, a second light outlet 332 connecting the two first sub-accommodating cavities 322 is provided on the second partition 331, and the second light outlet is The orthographic projection of the 332 to the first light outlet 318 completely covers the first light outlet 318, that is, the second light outlet 332 is not smaller than the first light outlet 318. At this time, the display device can be placed in any first sub-accommodating cavity 322 to adjust the size of the displayed image. When the display device is placed in the first sub-accommodating cavity 322 far away from the second containing cavity 321, a spherical lens can be placed in the first sub-accommodating cavity 322 close to the second containing cavity 321 so that the spherical lens is located at the first light outlet 318 And the display device to adjust the size of the image presented. Among them, the spherical lens may be a convex lens or a concave lens.

Continuing to refer to FIGS. 8-9, the display box body also includes a second containing box 340. The second containing box 340 is provided with a second containing space 341 for containing a display device or a spherical lens. The second containing space 341 has a second containing box 340 which penetrates through the second containing box 340. The second space opening of the second containing box 340, that is, the side wall of the second containing box 340 away from the first light outlet 318 and the side wall close to the first light outlet 318 are both provided with a second space opening, so that the second space opening surface and the second light outlet 332 and the first light outlet 318 form a light channel. The display box 300 is provided with a second opening 319 communicating with the first sub-containing cavity 322. The second containing box 240 can be detachably disposed in the first sub-containing cavity 322 through the second opening. Fix the position of the display device and the spherical lens well to ensure the effect of the displayed image.

Specifically, when the second accommodating box 340 is disposed in the first sub-accommodating cavity 322, the second accommodating box 340 has an outer wall that is flush with the first side wall 311 of the display box 300. A handle may be provided on the outer wall of the second accommodating box 340 to facilitate the user to withdraw the second accommodating box 340 from the first sub-accommodating cavity 322.

In some other embodiments of the present application, the second opening provided in the display box and communicating with the first sub-accommodating cavity may also have an extension, so that the user can drive the second accommodating box along the extension of the second opening through a handle. The first sub-containing cavity moves so that the second containing box is movably disposed in the first sub-containing cavity through the second opening, so that the display device or the spherical lens of the first sub-containing cavity can be changed relative to the first light outlet Position to change the position or size of the image presented.

Wherein, the extension part can be arranged along the direction of the second side wall to the fourth side wall. At this time, the distance between the second containing box and the first light outlet can be changed, and the extension part can also be along the direction from the bottom wall to the top wall. Setting, at this time, the area of the first light exit port covered by the orthographic projection of the second accommodating box to the first light exit port can be changed.

In some other embodiments of the present application, when the spherical lens is a multi-spherical lens, the multi-spherical lens is rotatably disposed in the first sub-accommodating cavity, for example, the first side wall and the third side wall are respectively provided with The rotating shaft and the multi-spherical lens are respectively fixedly connected to the two rotating shafts. By rotating the rotating shaft, the multi-spherical lens can be rotated to change the spherical surface of the multi-spherical lens facing the display device. Among them, the multi-spherical lens may be a convex-concave lens, that is, one side is a convex spherical surface, and one side is a concave spherical surface.

It should be noted that although the above embodiments only describe the rectangular parallelepiped display box, other shapes of display boxes are the same as the rectangular parallelepiped display box to achieve the display box body of the embodiment of the present application, and will not be repeated here. .

FIG. 10 shows a schematic flowchart of an image display method provided by an embodiment of the present application. The display box body may be the display box body provided in the above-mentioned display box body embodiment, that is, the display box body includes a display box and an imaging component, the display box has a display window, and the imaging component and the plane of the display window are arranged at a first predetermined angle In the display box. As shown in FIG. 10, the image display method may include:

S410. Put the display device into the space enclosed by the imaging component, the display window and the side wall of the display box, and place the display screen of the display device facing the imaging component to achieve device assembly, where the display screen and the display window are on the plane At a second predetermined angle, the first predetermined angle being smaller than the second predetermined angle;

S420. Enable the display screen of the display device to display the first image, and present a second image corresponding to the first image through the imaging component, and perform image playback, where the first image is a static image or a dynamic image.

In the embodiment of the present application, the display box includes a display box and an imaging component. The imaging component is arranged in the display box. Since the imaging component and the plane of the display window are arranged in the display box at a first predetermined angle, the imaging component and the display window It is enclosed with the side wall of the display box to form a space for placing the display device. When in use, the display device can be placed in the space, and the display screen of the display device and the plane where the display window is located are at a second angle greater than the first predetermined angle. Two predetermined angles are placed toward the imaging component, so that when the first image is displayed on the display screen of the display device, the second image corresponding to the first image can be presented through the imaging component, so that the user can watch the presented first image through the display window. Two images, so that the display box can "talk by itself" to use the display box to interact with consumers, improve the interest of the display box, and improve the user experience, and the playback function of the display box can be reused , So that the display box is no longer a disposable item, reducing the waste of resources.

In some embodiments of the present application, when a bracket is provided in the space enclosed by the imaging assembly, the display window, and the side wall of the display box, the display device can be fixed by the bracket so that the display screen of the display device and the plane where the display window is located are The second predetermined angle.

In some other embodiments of the present application, in the case that the display box has a first accommodating cavity and a second accommodating cavity arranged adjacently, the first accommodating cavity may have a first light outlet communicating with the second accommodating cavity, and the first The light outlet intersects with the display window. At this time, the device assembly step described in step S410 may specifically include:

The display device is placed in the first accommodating cavity, and the display screen of the display device faces and is arranged in parallel with the first light outlet.

In some embodiments of the present application, when the display box body further includes a first containing box, the first containing box is provided with a first containing space for containing the display device, the first containing space has a first space opening, and the display box is provided with a first containing space. There is a first opening communicating with the first accommodating cavity, and the first accommodating box can be detachably arranged in the first accommodating cavity through the first opening. At this time, the device assembly step described in step S410 may specifically include:

Place the display screen of the display device facing the bottom wall of the first accommodating box in the first accommodating box, make the display screen of the display device face the first space opening, and insert the first space opening towards the first light outlet into the first accommodating box. The first opening communicated with the cavity makes the display device fixed in the first accommodating cavity, and the display screen of the display device faces and is arranged in parallel with the first light outlet.

In the embodiment of the present application, after the second image is presented through the imaging component in step S420, the user can see the presented second image through the display window.

In the embodiment of the present application, the display device may display the first image of the target playback object, and the target playback object may be a two-dimensional object, a three-dimensional object, or a holographic object. When the first image is a static image, the second image is a static image, and when the first image is a dynamic image, the second image is a dynamic image.

Wherein, the angle difference between the second predetermined angle and the first predetermined angle, that is, when the predetermined included angle between the display screen of the display device and the imaging component is different, the second image may be an image after the first image is deformed according to the predetermined included angle .

In some embodiments of the present application, when the imaging component of the display box includes a flat film, the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet, as shown in FIGS. 1-3. At this time, the device assembly step described in step S410 may further include:

Put the article into the second accommodating cavity with the imaging component facing away from the side of the display window.

Further, the image playback step in step S420 may specifically include:

The display screen of the display device is made to play the first image of the target playback object in a single viewing angle to generate a planar light source corresponding to the first image. The planar light source is reflected by the flat film to present the second image of the target playback object in a single viewing angle.

In some embodiments, the display screen of the display device can display the first image of the target playback object under a single viewing angle in full screen, so that the planar light source generated when the display device plays the first image is reflected by the planar film to accommodate the second image. When an object is placed in the cavity, the object is used as a carrier to play the second image of the object in a single perspective. In other embodiments, the display screen of the display device may also display the first image of the target playback object in a single viewing angle in a part of the display area, which is not limited here.

At this time, the plane display of the target playback object can be realized, and the complexity of the display box can be reduced, and the cost of the display box can be reduced while ensuring that the presentation of the target playback object can be achieved.

In some other embodiments of the present application, when the imaging component of the display box includes at least three flat films, each flat film has a one-to-one corresponding display window, and the at least three flat films are distributed as polygonal pyramids. The apex of the imaging component of the polygonal pyramid is set facing the first light outlet, so that each flat film and the corresponding display window are at a first predetermined angle, and the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet, As shown in Figure 4-5. At this time, the device assembly step described in step S410 may further include:

The object is put into the imaging assembly in the shape of a polygonal pyramid in the second accommodating cavity.

Further, the image playback step in step S420 may specifically include:

Make the display screen of the display device play the first image of the target playback object in multiple viewing angles to generate a planar light source corresponding to the first image in each viewing angle. The planar light source is reflected by the corresponding planar film to show that the target playback object is in The second image in multiple viewing angles.

In some embodiments, the display screen of the display device may be divided into multiple display areas, and the size of each display area corresponds to the orthographic projection of the corresponding flat film onto the display device. Each display area displays the first image of the target playback object in one viewing angle, and each display area corresponds to a different viewing angle. For example, if it is divided into four display areas, the four display areas can sequentially display the target playback object first. The first image in the four viewing angles of, left, rear, and right, when the flat film is reflected, the second image of the first image in the four viewing angles of front, left, back, and right can be presented, so that the user is in each plane. Different viewing angles of the target playback object can be viewed on the mask, resulting in a stereoscopic display effect of the target playback object.

In the embodiment of the present application, the second image is presented with the article as a carrier or integrated with the article, so that the second image can be presented regardless of whether there is an article in the display box, which improves the flexibility of the display box to present images. Sex.

In still other embodiments of the present application, when the display box body further includes a graphic code, the graphic code is used for the display device to obtain the first image. At this time, the image playback step described in step S420 may further include:

The graphic code is scanned by the display device, so that the display device obtains the first image.

Thus, the user can use the display device to scan the graphic code, so that the display device obtains the playback address of the first image corresponding to the target playback object according to the information in the graphic code, or obtains the playback application used to play the first image corresponding to the target playback object Program to play the first image corresponding to the target playback object.

In still other embodiments of the present application, when the first accommodating cavity includes a plurality of first sub-accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, every two adjacent first sub-accommodating cavities A second light outlet is provided, and the orthographic projection of the second light outlet to the first light outlet completely covers the first light outlet, as shown in Figure 8-9.

In the case where the first sub-accommodating cavity where the display device is placed is not adjacent to the second containing cavity, take the display box shown in Figures 8-9 as an example, if the display device is placed in the first sub-accommodating away from the second containing cavity In the cavity, the image display method may also include:

A spherical lens is placed in the first sub-containing cavity between the first sub-containing cavity and the second sub-containing cavity where the display device is placed to adjust the image of the second image.

Taking the display box shown in Figures 8-9 as an example, a spherical lens can be placed in the first sub-accommodating cavity close to the second accommodating cavity. If a convex lens is placed, the displayed second image can be magnified. It is a concave lens, which can reduce the second image presented, and can also put in a convex lens and a concave lens with different spherical curvatures to flexibly adjust the size of the second image presented.

In some embodiments, the display box body further includes a second accommodating box, the second accommodating box is provided with a second accommodating space for accommodating the spherical lens, the display box is provided with a second opening communicating with the first sub-accommodating cavity, and the second accommodating box The box is movably arranged in the first sub-accommodating cavity through the second opening.

At this time, the above-mentioned image adjustment step may further include:

The second receiving box is moved in a direction perpendicular to the first light outlet to adjust the distance between the spherical lens and the display device, and to change the size of the second image presented.

Taking the spherical lens as a convex lens as an example, the convex lens can be brought close to the display device to enlarge the second image presented, or the convex lens principle display device can be used to reduce the presented second image.

In other embodiments, the display box body further includes a second accommodating box, the second accommodating box is provided with a second accommodating space for accommodating the spherical lens, the display box is provided with a second opening communicating with the first sub accommodating cavity, and the second accommodating box is provided with a second accommodating space for accommodating the spherical lens. The accommodating box is movably arranged in the first sub-accommodating cavity through the second opening.

In the case where multiple spherical lenses are placed between the display device and the second accommodating cavity, the above-mentioned image adjustment step may further include:

Moving the second containing box in a direction parallel to the first light outlet to make the at least one spherical lens leave the first light outlet to change the size of the second image presented.

Taking two spherical lenses placed between the display device and the second containing cavity, one spherical lens is a convex lens, and the other spherical lens is a concave lens as an example, the second containing box can be moved in a direction parallel to the first light outlet to make the convex lens The projection range from the first light outlet to the display device is left, so that the second image presented is reduced.

In still other embodiments, the spherical lens may be a multi-spherical lens, and the multi-spherical lens is rotatably disposed in the first sub-accommodating cavity.

For example, the multi-spherical lens may be a convex-concave lens, that is, one side is a convex spherical surface and one side is a concave spherical surface. At this time, the above-mentioned image adjustment step may further include:

Rotate the multi-spherical lens and change the multi-spherical lens to face the spherical surface of the display device to change the size of the second image presented.

Specifically, when the multi-spherical lens is rotated so that the convex spherical surface faces the display device, the presented second image can be enlarged, and when the multi-spherical lens is rotated so that the concave spherical surface faces the display device, the presented second image can be reduced.

As a result, the spherical lens can be used to flexibly change the size of the second image presented, and the user experience and interest can be improved.

It should also be noted that the exemplary embodiments mentioned in this application describe some methods or systems based on a series of steps or devices. However, the present application is not limited to the order of the above steps, that is, the steps may be performed in the order mentioned in the embodiments, or may be different from the order in the embodiments, or several steps may be performed at the same time.

Although the present application has been described with reference to the preferred embodiments, various improvements can be made to it without departing from the scope of the present application and the components therein can be replaced with equivalents. In particular, as long as there is no structural conflict, the various technical features mentioned in the various embodiments can be combined in any manner. This application is not limited to the specific embodiments disclosed in the text, but includes all technical solutions falling within the scope of the claims.

Claims (26)

1. An image display method applied to a display box body, the display box body comprising a display box and an imaging component, the display box has a display window, and the imaging component and the plane where the display window is located are arranged at a first predetermined angle Inside the display box;

   Wherein, the method includes:

   Put the display device into the space enclosed by the imaging component, the display window and the side wall of the display box, and place the display screen of the display device facing the imaging component to achieve device assembly, wherein , The display screen and the plane where the display window is located form a second predetermined angle, and the first predetermined angle is smaller than the second predetermined angle;

   The first image is displayed on the display screen of the display device, and a second image corresponding to the first image is presented through the imaging component for image playback, where the first image is a static image or a dynamic image.
2. The method according to claim 1, wherein the display box has a first accommodating cavity and a second accommodating cavity arranged adjacently, and the first accommodating cavity has a first light outlet communicating with the second accommodating cavity , The first light outlet intersects the display window;

   Wherein, the equipment assembly step specifically includes:

   The display device is placed in the first accommodating cavity, and the display screen of the display device faces and is parallel to the first light outlet.
3. The method according to claim 2, wherein the imaging component comprises a flat film, and the orthographic projection of the imaging component to the first light exit port completely covers the first light exit port;

   Wherein, the equipment assembly step further includes:

   Put the article into the second accommodating cavity with the imaging component facing away from the display window.
4. The method according to claim 3, wherein the step of playing the image specifically comprises:

   The display screen of the display device is made to play the first image of the target playback object in a single viewing angle to generate a planar light source corresponding to the first image, and the planar light source is reflected by the planar film to present the target playback The second image of the object in a single perspective.
5. The method according to claim 2, wherein the imaging component comprises at least three flat films, each of the flat films has a one-to-one corresponding to the display window, and the at least three flat films are distributed as polygonal pyramids , The apex of the imaging component in the form of a polygonal pyramid is set facing the first light outlet, so that each flat film and the plane of the corresponding display window are at the first predetermined angle, and the imaging component faces the first The orthographic projection of the light outlet completely covers the first light outlet;

   Wherein, the equipment assembly step further includes:

   The article is put into the imaging assembly in the shape of a polygonal pyramid in the second accommodating cavity.
6. The method according to claim 5, wherein the step of playing the image specifically comprises:

   Make the display screen of the display device play the first image of the target playback object in multiple viewing angles to generate a planar light source corresponding to the first image in each viewing angle, and the planar light source is reflected by the corresponding planar film , Presenting the second image of the target playback object in multiple viewing angles.
7. The method according to claim 4 or 6, wherein the second image is presented with the article as a carrier or integrated with the article.
8. 3. The method according to claim 2, wherein the first accommodating cavity comprises a plurality of first sub accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, and every two adjacent first sub accommodating cavities A second light outlet is arranged between the cavities, and the orthographic projection of the second light outlet to the first light outlet completely covers the first light outlet;

   Wherein, in the case that the first sub-accommodating cavity where the display device is placed is not adjacent to the second accommodating cavity, the method further includes:

   A spherical lens is placed in the first sub-accommodating cavity between the first sub-accommodating cavity where the display device is placed and the second sub-accommodating cavity to perform image adjustment of the second image.
9. The method according to claim 8, wherein the display box body further comprises a second containing box, the display box is provided with a second opening communicating with the first sub-containing cavity, and the second containing box passes through The second opening is movably arranged in the first sub-accommodating cavity;

   Wherein, the image adjustment step further includes:

   Moving the second containing box in a direction perpendicular to the first light outlet;

   and / or,

   The second containing box is moved in a direction parallel to the first light outlet.
10. The display box according to claim 8, wherein the spherical lens is a multi-spherical lens, and the multi-spherical lens is rotatably disposed in the first sub-accommodating cavity;

    Wherein, the image adjustment step further includes:

    Rotate the multi-spherical lens, and change the multi-spherical lens to face the spherical surface of the display device.
11. The method according to claim 1, wherein the display box body further comprises a graphic code, and the graphic code is used by the display device to obtain the first image;

    Wherein, the image playback step further includes:

    The graphic code is scanned by the display device, so that the display device obtains the first image.
12. A display box is characterized in that it comprises:

    A display box, the display box having a display window;

    An imaging component, the imaging component and the plane of the display window are arranged in the display box at a first predetermined angle;

    Wherein, the space enclosed by the imaging component, the display window and the side wall of the display box is used to place a display device, and the display screen of the display device and the plane where the display window is located are at a second predetermined angle , The first predetermined angle is smaller than the second predetermined angle.
13. The display box body according to claim 12, wherein the display box has a first accommodating cavity and a second accommodating cavity that are adjacently arranged, and the first accommodating cavity has a communication with the second accommodating cavity. The first light outlet, the first accommodating cavity is used to place a display device, and the sidewall of the second accommodating cavity adjacent to the first light outlet has the display window so that the first light outlet is connected to The display windows intersect, and the imaging component is located in the second accommodating cavity.
14. The display box according to claim 13, wherein the imaging component comprises a flat film, and the orthographic projection of the imaging component to the first light exit completely covers the first light exit, and the second light exit Inside the accommodating cavity, the side of the imaging component facing away from the display window is used for placing articles.
15. The display box body according to claim 14, wherein the display box has a first side wall, and a first partition is provided in the display box along a direction perpendicular to the first side wall, and the The first partition allows the display box to have the first accommodating cavity and the second accommodating cavity, the first partition is provided with the first light outlet, and the first side wall is provided with The display window.
16. The display box according to claim 13, wherein the imaging assembly includes at least three flat films, and a sidewall of the second containing cavity adjacent to the first light outlet has a flat surface Facial masks have a one-to-one corresponding display window, the at least three flat films are distributed in a polygonal pyramid, and the apex of the imaging component in the form of a polygonal pyramid is set facing the first light outlet, so that each flat film is associated with a corresponding display The plane where the window is located is at the first predetermined angle, and the orthographic projection of the imaging component to the first light outlet completely covers the first light outlet.
17. The display box according to claim 16, wherein the imaging component comprises four flat films, the four flat films are distributed in a quadrangular pyramid, the display box is a rectangular parallelepiped display box, and the display The box is provided with a first partition parallel to the bottom wall of the display box, the first partition enables the display box to have the first accommodating cavity and the second accommodating cavity, the first partition The board is provided with the first light outlet, and each side wall of the display box is provided with the display window.
18. The display box according to claim 12, further comprising:

    Graphic code, the graphic code is used for the display device to obtain the first image to be played, and the graphic code is arranged on the display box body.
19. The display box according to claim 12, wherein the angle difference between the second predetermined angle and the first predetermined angle is in the range of 30-60°.
20. The display box according to claim 14 or 16, wherein the flat film is a plastic film, the thickness of the plastic film is 0.4-0.5mm, and the light transmittance of the plastic film is 85-90% Or, the planar film is a holographic projection film, the thickness of the holographic projection film is 0.1 mm, and the light transmittance of the holographic projection film is 89%.
21. The display box according to claim 13, wherein the imaging component is fixedly connected to the second accommodating cavity, or the imaging component is detachably connected to the slot in the second accommodating cavity .
22. The display box according to claim 13, further comprising:

    A first accommodating box, the first accommodating box is provided with a first accommodating space for accommodating the display device, and the first accommodating space has a first space opening; wherein,

    The display box is provided with a first opening communicating with the first accommodating cavity, the first accommodating box is detachably disposed in the first accommodating cavity through the first opening, and the first space The opening faces the first light exit port.
23. The display box according to claim 13, wherein the first accommodating cavity comprises a plurality of first sub-accommodating cavities distributed in parallel along a direction perpendicular to the first light outlet, and the first sub-accommodating cavities For placing the display device, a second light outlet is arranged between every two adjacent first sub-accommodating cavities, and the orthographic projection of the second light outlet to the first light outlet completely covers the The first light outlet.
24. 23. The display box according to claim 23, wherein the first sub-accommodating cavity is also used to place a spherical lens, so that the spherical lens is located between the first light exit port and the display device.
25. The display box according to claim 24, further comprising:

    A second accommodating box, the second accommodating box is provided with a second accommodating space for accommodating the display device or the spherical lens, the accommodating space has a second space opening penetrating the second accommodating box; wherein,

    The display box is provided with a second opening communicating with the first sub-containing cavity, the second containing box is movably disposed in the first sub-containing cavity through the second opening, and the second The space opening surface, the second light outlet and the first light outlet form a light channel.
26. The display box according to claim 24, wherein the spherical lens is a multi-spherical lens, and the multi-spherical lens is rotatably disposed in the first sub-accommodating cavity.

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