CN110738924A

CN110738924A - Image display method and display box body

Info

Publication number: CN110738924A
Application number: CN201910959929.XA
Authority: CN
Inventors: 张琛
Original assignee: Zhejiang Mayun Public Welfare Foundation
Current assignee: Zhejiang Mayun Public Welfare Foundation
Priority date: 2019-10-10
Filing date: 2019-10-10
Publication date: 2020-01-31
Anticipated expiration: 2039-10-10
Also published as: CN110738924B; WO2021068393A1

Abstract

The invention discloses a 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 component, the display box is provided with a display window, the imaging component and the plane of the display window are arranged in the display box body at a -th preset angle, the image display method comprises the steps of placing display equipment into a space formed by the imaging component, the display window and the side wall of the display box in a surrounding mode, enabling a display screen of the display equipment to face the imaging component, enabling the display screen of the display equipment to display a -th image and displaying a second image corresponding to a -th image through the imaging component, and enabling the imaging component arranged in the display box body to display the second image corresponding to the -th image displayed by the display equipment according to the embodiment of the invention, so that the display box body can be used for interacting with consumers.

Description

Image display method and display box body

Technical Field

The invention belongs to the technical field of image display, and particularly relates to image display methods and display box bodies.

Background

At present, a plurality of packaging boxes with exquisite appearances and excellent materials are available on the market, and the packaging boxes can provide pleasant use experiences for consumers.

However, these packages only present static images to the consumer and do not make good use of the package for interaction with the consumer.

Disclosure of Invention

The embodiment of the invention provides image display methods and display boxes, which can display a second image corresponding to a th image displayed by display equipment by using an imaging component arranged in the display box, so that the display box can be used for interacting with consumers.

, the embodiment of the present invention provides methods for displaying images, which are applied to a display box, where the display box includes a display box and an imaging component, the display box has a display window, and the imaging component and the display window are arranged in the display box at a th predetermined angle;

the method comprises the following steps:

placing the display device into a space formed by the imaging assembly, the display window and the side wall of the display box in an enclosing manner, and placing a display screen of the display device towards the imaging assembly to realize device assembly, wherein the display screen and the plane of the display window form a second preset angle, and the th preset angle is smaller than the second preset angle;

enabling a display screen of the display device to display th images, and presenting second images corresponding to th images through the imaging component for image playing, wherein the th images are static images or dynamic images.

In a second aspect, an embodiment of the present invention provides display cases, including:

the display box is provided with a display window;

the imaging assembly and the plane where the display window is located are arranged in the display box body at a preset angle ;

the space formed by the imaging assembly, the display window and the side wall of the display box in a surrounding mode is used for placing the display device, the display screen of the display device and the plane where the display window is located are in a second preset angle, and the th preset angle is smaller than the second preset angle.

The image display method and the display box body provided by the embodiment of the invention comprise the display box and the imaging component, wherein the imaging component is arranged in the display box, the imaging component and the display window are arranged in the display box at the th preset angle on the plane, and the imaging component, the display window and the side wall of the display box surround to form a space for placing display equipment, when the display box is used, the display equipment can be placed in the space, and the display screen of the display equipment and the plane of the display window are placed towards the imaging component at the second preset angle larger than the th preset angle, so that when the th image is displayed on the display screen of the display equipment, the second image corresponding to the th image can be presented through the imaging component, a user can watch the presented second image through the display window, the display box body can speak by himself, the display box body is used for interacting with a consumer, the interestingness of the display box body is improved, the use experience of the user is improved, and the play function of the display box body can be repeatedly used, the display box body is no longer -time articles, and the waste of resources is reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a display case provided by embodiments of the present invention;

FIG. 2 is a cross-sectional view taken along the line A-A of the display case provided in the embodiment of FIG. 1;

FIG. 3 is an exploded view of example display cases of the embodiment shown in FIG. 1;

FIG. 4 is an exploded view of another example display cases of the embodiment shown in FIG. 1;

FIG. 5 is a cross-sectional view A-A of another example display boxes of the embodiment of FIG. 1;

FIG. 6 is a schematic structural view of a display case according to still another embodiments of the present invention;

FIG. 7 is a cross-sectional view taken along the plane B-B of the embodiment of FIG. 6;

FIG. 8 is a schematic structural view of a display case according to still another embodiments of the present invention;

FIG. 9 is a cross-sectional view of the display case provided in the embodiment of FIG. 8, taken along the plane C-C;

fig. 10 is a flowchart illustrating an image displaying method according to embodiments of the present invention.

Detailed Description

Mode for the invention the features and exemplary embodiments of various aspects of the present invention will be described in detail below, and for the purposes of making the objects, aspects and advantages of the present invention more apparent and understood in detail, the present invention will be described in further with reference to the accompanying drawings and specific embodiments, it being understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention.

It should be noted that, in this document, relational terms such as , second and the like are only used to distinguish entities or operations from another entities or operations, but not necessarily requires or implies any such actual relationship or order between these entities or operations, furthermore, the terms "comprises", "comprising" or any other variation thereof are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a family of elements does not include only those elements but also other elements not expressly listed or inherent to such process, method, article, or apparatus.

In order to solve the problems in the prior art, the embodiment of the present invention provides image display methods and display boxes.

The embodiment of the invention provides display boxes, and each display box comprises a display box and an imaging component.

The display box is provided with a display window, the imaging assembly and the plane where the display window is located are arranged in the display box body at th preset angle, a space formed by the imaging assembly, the display window and the side wall of the display box is used for placing display equipment, a display screen of the display equipment and the plane where the display window is located are made to be at a second preset angle, and specifically, the th preset angle is smaller than the second preset angle.

In the embodiment of the invention, the display box body comprises the display box and the imaging component, the imaging component is arranged in the display box, the imaging component and the plane of the display window are arranged in the display box body at the th preset angle, and the imaging component, the display window and the side wall of the display box enclose a space for placing the display equipment, when the display box is used, the display equipment can be placed in the space, and the display screen of the display equipment and the plane of the display window are placed towards the imaging component at the second preset angle larger than the th preset angle, so that when the th image is displayed on the display screen of the display equipment, the second image corresponding to the th image can be displayed through the imaging component, a user can watch the displayed second image through the display window, the display box body can speak by himself to utilize the display box body to interact with a consumer, the interestingness of the display box body is improved, the use experience of the user is improved, and the playing function of the display box body can be repeatedly used, so that the display box body is a -time article, and the waste of resources is reduced.

The display box body provided by the embodiment of the invention can be a packaging box, and the display box of the display box body can be a cylindrical display box, a polygonal frustum display box, a spherical display box, an ellipsoidal display box or a special-shaped display box, which is not limited herein.

The display device in the embodiment of the invention can be a smart phone, a tablet personal computer, a portable wearable device and the like, and is only an electronic device which has a display screen and can display images. The articles described in the embodiments of the present invention may be any articles that need to be packaged and displayed, for example, bottled wine, bottled cosmetics, boxed goods, etc.

In embodiments of the present invention, a bracket may be disposed in a space defined by the imaging assembly, the display window, and the side wall of the display box, and the bracket is used to fix the display device such that the display screen of the display device and the plane of the display window form a second predetermined angle.

In other embodiments of the present invention, the display box may have a th receiving chamber and a second receiving chamber disposed adjacent to each other, the th receiving chamber has a th light emitting port communicating with the second receiving chamber, the th receiving chamber is used for placing the display device, a side wall of the second receiving chamber adjacent to the th light emitting port has a display window, so that the th light emitting port intersects with the display window, and the imaging component is located in the second receiving chamber.

In these embodiments, the imaging assembly has a plurality of structures, and the imaging assemblies of different structures are disposed in different manners in the second accommodating cavity.

In embodiments of the present invention, the imaging component includes a planar film, the orthographic projection of the imaging component to the th light outlet completely covers the th light outlet, and the second accommodating cavity and the side of the imaging component facing away from the display window are used for placing articles, at this time, a second image corresponding to the th image of the target playing 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 implement the planar display of the image, and reduce the complexity of the display box under the condition of ensuring that the image can be presented, thereby reducing the cost of the display box.

Wherein, under the condition that article are placed in the second accommodating cavity, the second image or the second view can be presented by using the article as a carrier, and under the condition that the article are not placed in the second accommodating cavity, the second image can be presented on the imaging assembly.

Fig. 1 shows a schematic structural view of display cases according to the present invention, fig. 2 shows a cross-sectional view taken along the plane a-a of the display cases of the embodiment of fig. 1, and fig. 3 shows an exploded view of exemplary display cases of the embodiment of fig. 1.

Referring to fig. 1-2, the display box comprises a display box 100, the display box is a cuboid display box, the display box 100 has th side wall 111, second side wall 112, third side wall 113 and fourth side wall 114 connected in sequence, and the display box 100 has top wall 115 and bottom wall 116 arranged oppositely at two ends.

Referring to fig. 2-3, a partition 117 is disposed in the display box 100 along a direction perpendicular to the th side wall 111 and the bottom wall 116, the th partition 117 separates the inner cavity of the display box 100 into two independent cavities from the second side wall 112 to the fourth side wall 114, so that the display box 100 has a accommodating cavity 121 and a second accommodating cavity 122, the th partition 117 is provided with a th light outlet 118, and the th accommodating cavity 121 has a th light outlet 118 communicated with the second accommodating cavity 122.

The th accommodating cavity 121 is used for placing a display device, the display screen of the display device can be arranged towards the th light outlet 118, so that at least part of the plane light source emitted by the display screen of the display device can enter the second accommodating cavity 122 through the th light outlet 118, the second accommodating cavity 122 is used for placing articles, the th side wall 111 of the second accommodating cavity 122 adjacent to the th partition plate 117 with the th light outlet 118 is provided with a display window 150 for viewing articles, the shape of the display window 150 can be arbitrarily arranged, for example, the display window 150 can be an oblong display window, so that a user can feel more immersive.

In other embodiments of the present invention, the display box can be further divided into a accommodating cavity and a second accommodating cavity by a bearing member with a stepped surface, which is not described herein.

With reference to fig. 2, the size of the th 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 th light outlet 118 onto the display screen of the display device completely covers the display screen of the display device, the size of the th light outlet 118 may also be smaller than the size of the display screen of the display device, at this time, the front projection of the th light outlet 118 onto the display screen of the display device partially covers the target area of the display screen of the display device, wherein the target area may be set according to actual needs, and the target area may be a regular polygon area or an irregular polygon area.

It should be noted that, in order to ensure the 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., and accordingly, the outer package of the article needs to be set to a dark color, such as the product display box is set to black or brown, etc., and further, for example, the product container is set to black or brown, etc.

Referring to fig. 2-3, the display box further includes an imaging module, the imaging module includes planar films 130, the imaging module is disposed in the second receiving cavity 122 between the light outlet 118 and the object and on the side of the object near the display window 150, the imaging module is disposed in the plane of the display window 150, i.e., the th sidewall 111, at a th predetermined angle, the display screen of the display device placed in the th receiving cavity 121 is disposed in the plane of the display window 150, i.e., the th sidewall 111, at a second predetermined angle, and the th predetermined angle is smaller than the second predetermined angle, so that the display screen of the display device is disposed in a predetermined angle with the imaging module.

In some embodiments of the present invention , the planar film 130 is a rectangular film, the edge of the planar film 130 is connected to the baffle 117, the second edge of the planar film 130 is connected to the top wall 115 of the display box 100, the third edge of the planar film 130 is connected to the side wall 111 of the display box 100, and the fourth edge of the planar film 130 is connected to the bottom wall 116 of the display box 100, such that the edge of the planar film 130 is adjacent to the display device and the third edge of the planar film 130 is away from the display device, such that the orthographic projection of the imaging assembly onto the light outlet 118 completely covers the light outlet 118, such that the imaging assembly is capable of converting all of the planar light source entering the second receiving cavity 122 through the light outlet 118 into an image, and the orthographic projection of the imaging assembly onto the side wall 111 completely covers the display window 160, such that the user is not able to perceive the presence of the imaging assembly, thereby enhancing the aesthetic appearance of the display box and the user experience of the user.

In other embodiments, the th edge of the planar film can be attached to the third sidewall of the display case and/or the third edge of the planar film can be attached to the second sidewall of the display case as long as it ensures that the orthographic projection of the imaging assembly onto the th light outlet completely covers the th light outlet and the orthographic projection of the imaging assembly onto the th sidewall completely covers the display window.

With continued reference to fig. 1-3, in an embodiment of the present invention, the display case body may further include a cover 160 for covering the th sidewall 111. the cover 160 may be a flip cover that is secured to an outer surface of the display case 100 such that the cover can be opened to expose the th sidewall 111 to expose the display window 150, and when closed, the cover fits over an outer surface of the th sidewall 111 to cover the display window 150. at this time, a th engaging member or snap may be provided on the cover 160, and a second engaging member or snap may be provided on the th sidewall 111 such that the cover 160 can be detachably connected to the th sidewall 111 by engaging the th engaging member with the second engaging member, or the cover 160 can be detachably connected to the th sidewall 111 by engaging the snap and the snap.

In still other embodiments, the cover may also be a snap-fit cover that fits over the outer surface of the display case to cover the display window and protect the structure and items inside the display case.

With continued reference to FIG. 3, the display case body further includes an th accommodating box 140, the th accommodating box 140 is provided with a th accommodating space 141 for accommodating the display device, and the th accommodating space 141 has a th space opening.

The display box 100 is provided with a opening 119 communicated with the th accommodating cavity 121, the th accommodating box 140 can be detachably arranged in the th accommodating cavity 121 through the th opening 119, and a th space opening is arranged facing the th light outlet 118. in use, a display screen of the display device is placed in the th accommodating space 141 towards the th space opening, so that the display screen of the display device is arranged facing the th light outlet 118.

Specifically, when the th accommodation box 140 is disposed in the th accommodation cavity 121, the th accommodation box 140 has an outer wall flush with the th side 111 of the display box 100. a pull handle may be disposed on the outer wall of the th accommodation box 140 to facilitate the user to withdraw the th accommodation box 140 from the th accommodation cavity 121.

Thus, the th accommodation case 140 can be utilized to better fix the position of the display device, thereby securing the effect of the presented image or video.

Fig. 1 to 3 only show that the th opening 119 is located on the th side wall 111, it should be noted that the th opening may also be located on a top wall, a bottom wall, or a fourth side wall, which is not described herein again.

In embodiments of the present invention, the display box further includes a graphic code, where the graphic code is used for the display device to obtain a th image corresponding to a target playing object to be played, where the graphic code may be a two-dimensional code, a three-dimensional code, or the like, and the graphic code may be generated based on playing address information of the target playing object, or based on playing application information of the target playing object, where the target playing object may be a two-dimensional object, a three-dimensional object, or a holographic object, the display device may play a th image corresponding to the target playing object, and the th image may be a static image or a dynamic image.

Therefore, the user can scan the graphic code by using the display device, and the display device can acquire the th image corresponding to the target playing object according to the information in the graphic code.

Specifically, the graphic code may be printed on the bottom wall of the th accommodation box 140, the graphic code may be printed on the outer surface of the display box 100, and the graphic code may be manufactured into graphic code cards, which are placed on the bottom wall of the th accommodation box 140 or inside the display box 100.

In embodiments of the present invention, the angle difference between the second predetermined angle and the predetermined angle, i.e. the predetermined angle between the display screen of the display device and the imaging assembly, may be in the range of 30-60 °, and the error may be ± 3 °.

In embodiments of the present invention, the flat film 130 can be a plastic film having a thickness of 0.4-0.5mm and a light transmittance of 85-90%.

In cases, the plastic film can be a PVC film having a thickness of 0.4mm and a light transmission of 85%. in another cases, the plastic film can be a PET film having a thickness of 0.5mm, a relative sheet density of 1.38, and a light transmission of 90%.

In other embodiments of the present invention, the flat film 130 can also be a holographic projection film, the holographic projection film has a thickness of 0.1mm and a light transmittance of 89%.

With continued reference to the display box 100 shown in fig. 2, in the embodiments, the sides of the second side wall 112 and the fourth side wall 114 near the top wall 115 are provided with handles, and two ends of each handle can be respectively fixed on the corresponding side wall by buttons, so that the user can conveniently transport without a handbag, and the display box is beautiful and environment-friendly.

In the embodiments of the present invention, the edge of the flat film 130 can be directly bonded to the corresponding surface, so that the imaging component can be fixedly connected to the second receiving cavity 122, thereby ensuring the position of the imaging component is fixed, and ensuring the imaging effect of the imaging component, in this case, it is desirable that the top wall 115 and/or the bottom wall 116 of the display box 100 is configured as a flip cover, and the user can flip open the top wall 115 and/or the bottom wall 116 to form an outlet on the second receiving cavity 122, so that the user can take out the article through the outlet, wherein a pull handle can be fixedly connected to the top wall 115 and/or the bottom wall 116 to facilitate the user to open.

Fig. 4 shows an exploded view of another example display cases of the embodiment of fig. 1 fig. 5 shows a cross-sectional view a-a of another example display cases of the embodiment of fig. 1.

Referring to fig. 4-5, unlike the display case shown in fig. 2-3, the th side wall 111 has a th slot 132 on its inner surface in a direction perpendicular to the bottom wall 116, the th partition 117 has a second slot 131 on its side surface facing the second receiving cavity 122 in a direction perpendicular to the bottom wall 116, the th edge of the planar membrane 130 can be detachably connected to the second slot 131, the third edge of the planar membrane 130 can be detachably connected to the th slot 132, and specifically, the planar membrane 130 can be inserted into the th slot 132 and the second slot 131 in a direction perpendicular to the bottom wall 116, so that the imaging module can be detachably connected to the slots in the second receiving cavity 122.

In other embodiments, when the imaging component is detachably connected to the slot in the second receiving cavity, the top wall may not be configured as a flip, but the th side wall of the display box may be configured as a flip, and the th side wall may be flipped open by a user because the flat grinder is detachable, so that an outlet is formed on the second receiving cavity, and after the flat film is detached, the user may take out an article through the outlet.

The display box shown in FIGS. 1-5 only shows that there are th th receiving chambers and imaging components, in other embodiments of the present invention, the display box may also have two or more 0 th receiving chambers and 1 second receiving chambers, wherein two or more 2 th receiving chambers may be uniformly or non-uniformly distributed along the circumference of the second receiving chambers, at which time there are imaging components corresponding to each 3 th receiving chamber, in yet another 4 embodiments of the present invention, the display box may also have two or more 5 th receiving chambers and the same number of second receiving chambers as the 6 th receiving chambers, wherein th receiving chambers and second receiving chambers may form sets of display regions, and the th receiving chamber in each set of display regions has a light outlet port in communication with the second receiving chamber in the same set, at which there is provided corresponding imaging component in the same set.

In other embodiments of the present invention, the imaging module includes at least three planar films, the at least three planar films are distributed as a multi-pyramid, a vertex of the imaging module in the form of the multi-pyramid faces the light-emitting port, so that each planar film and a plane where the corresponding display window is located are at the th predetermined angle, an orthographic projection of the imaging module to the th light-emitting port completely covers the th light-emitting port, a sidewall of the second accommodating chamber adjacent to the light-emitting port has a display window corresponding to the planar film , and the imaging module in the form of the multi-pyramid is used for placing an article.

Fig. 6 shows a schematic structural view of a display case provided by embodiments of the present invention, and fig. 7 shows a cross-sectional view taken along plane B-B of the embodiment shown in fig. 6.

Referring to fig. 6 to 7, the display box 200 is a rectangular parallelepiped display box, the display box 200 has

th side walls

211, 212 th side walls, 213 th side walls and 214 connected in sequence, and the two ends of the display box 200 have top walls 215 and bottom walls 216 arranged oppositely, a th partition 217 parallel to the bottom wall of the display box 200 is arranged in the display box 200, the th partition 217 separates the inner cavity of the display box 200 into two independent cavities from the top wall 215 to the bottom wall 216, so that the display box 200 has a th accommodating cavity 221 and a second accommodating cavity 222, the th partition 217 has a th light outlet 218, and the th accommodating cavity 221 has a th light outlet 218 communicated with the second accommodating cavity 222.

The -th containing cavity 221 is used for placing a display device, the display screen of the display device can be disposed towards the -th light outlet 218, so that at least part of the plane light emitted by the display screen of the display device can enter the second containing cavity 222 through the -th light outlet 218. the second containing cavity 222 is used for placing articles, and the -th side wall 211, the second side wall 212, the third side wall 213 and the fourth side wall 214 of the second containing cavity 222 adjacent to the -th partition 217 with the -th light outlet 218 are respectively provided with a display window 230 for viewing the articles.

It should be noted that, in order to ensure the 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., and accordingly, the outer package of the article needs to be set to a dark color, such as the product display box is set to black or brown, etc., and further, for example, the product container is set to black or brown, etc.

With continued reference to fig. 6-7, the imaging assembly may include four planar films 240, each of the planar films 240 is a triangular planar film with the same size, each of the planar films 240 forms a predetermined angle with a plane where the corresponding display window is located, the four planar films 240 are distributed as four pyramids, a vertex of the imaging assembly in the shape of a four pyramid faces the light-emitting port 218, a forward projection of the imaging assembly to the light-emitting port 218 completely covers the light-emitting port 218, an article may be placed inside the four pyramids, each of the planar films 240 corresponds to the display window 230 on the side wall, and a specific arrangement manner of the planar films 240 is similar to the embodiment shown in fig. 1-3, which is not described herein.

With continued reference to FIGS. 6-7, the display case further includes a accommodating case 250, a accommodating case 250 is provided with an accommodating space 251 for accommodating the display device, a accommodating space 251 has a spatial opening and a second spatial opening, a spatial opening is used for accommodating the display device, and the second spatial opening is used for communicating with the light outlet 218, so that the planar light source emitted from the display screen of the display device enters the second accommodating chamber 222.

The display box 200 is provided with a opening 219 communicated with the th accommodating chamber 221, the th accommodating box 240 can be detachably disposed in the th accommodating chamber 221 through the th opening 219, and a second space opening is disposed facing the th light outlet 218. in use, a display screen of the display device is placed in the th accommodating chamber 251 toward the second space opening such that the display screen of the display device is disposed toward the th light outlet 218.

Specifically, in the case where the th accommodation box 250 is placed in the th accommodation cavity 221, the th accommodation box 250 has an outer wall flush with the th side 211 of the display box 200. a pull handle may be provided on the outer wall of the th accommodation box 250 to facilitate the user to withdraw the th accommodation box 250 from the th accommodation cavity 221.

Thus, the th containment box 250 can be utilized to better secure the position of the display device, thereby ensuring the effect of the rendered image or video.

Fig. 6 to 7 only show that the th opening 219 is located on the th side wall 211, and it should be noted that the th opening may also be located on the top wall, the second side wall, the third side wall, or the fourth side wall, which is not described herein again.

In still other embodiments of the present invention, the th accommodating cavity may include a plurality of th sub-accommodating cavities distributed in parallel along a direction perpendicular to the th light outlet, the th sub-accommodating cavity is used for accommodating a display device, a second light outlet is disposed between every two adjacent th sub-accommodating cavities, and a forward projection of the second light outlet to the th light outlet completely covers the th light outlet.

Fig. 8 shows a schematic structural view of a display case provided in accordance with still another embodiments of the present invention, and fig. 9 shows a cross-sectional view through plane C-C of the display case provided in accordance with the embodiment of fig. 8.

Referring to fig. 8 to 9, the display box 300 is a cuboid display box, the display box 300 has th side wall 313, second side wall 312, third side wall 313 and fourth side wall 314 connected in sequence, and the two ends of the display box 300 have top wall 315 and bottom wall 316 arranged oppositely, a th partition 317 perpendicular to the th side wall 313 and the top wall 315 of the display box 300 is arranged in the display box 300, the th partition 317 divides the inner cavity of the display box 300 into two independent cavities from the second side wall 312 to the fourth side wall 314, so that the display box 300 has th accommodating cavity and second accommodating cavity 321, the th partition 317 is provided with light outlet 318, and the th accommodating cavity has th light outlet 318 communicated with the second accommodating cavity 321.

In other embodiments, the display box may be further divided into a accommodating cavity and a second accommodating cavity by a bearing member with a stepped surface, which is not described herein.

It should be noted that the structure and the arrangement of the imaging assembly 350 disposed in the second accommodating cavity 321 in the embodiment shown in fig. 8 to 9 are similar to those of the imaging assembly in the display box in the embodiment shown in fig. 1 to 5, and are not repeated herein.

With continued reference to fig. 9, second partition boards 331 may be disposed in the th receiving cavity, such that the th receiving cavity includes two th sub-receiving cavities 322 distributed in parallel in a direction perpendicular to the th light outlet 318, and the rd sub-receiving cavity 322 is used for placing a display device, and may also be used for placing a spherical lens, a second light outlet 332 is disposed between two adjacent th sub-receiving cavities 322, that is, a second light outlet 332 communicating with the two th sub-receiving cavities 322 is disposed on the second partition board 331, and a forward projection of the second light outlet 332 to the 6857 th light outlet 318 completely covers the th light outlet 318, that is, the second light outlet 332 is not smaller than the th light outlet 318, at this time, the display device may be placed in any th sub-receiving cavity 322 to adjust a size of a presented image, when the display device is placed in the th sub-receiving cavity 322 far from the second receiving cavity 321, a size of the presented image may be adjusted by placing a spherical lens between the second light outlet 322 to adjust a size of the spherical lens, or a spherical lens 73784.

With continued reference to fig. 8-9, the display box body further includes a second accommodating box 340, the second accommodating box 340 is provided with a second accommodating space 341 for accommodating the display device or the spherical lens, the second accommodating space 341 has a second space opening penetrating through the second accommodating box 340, that is, the side wall of the second accommodating box 340 far away from the light outlet 318 and the side wall near the light outlet 318 are provided with second space openings, so that the second space opening surface, the second light outlet 332 and the light outlet 318 form a light path, the display box 300 is provided with a second opening 319 communicated with the sub-accommodating cavity 322, the second accommodating box 240 can be detachably disposed in the sub-accommodating cavity 322 through the second opening, and the positions of the display device and the spherical lens can be better fixed by the second accommodating box 340, thereby ensuring the effect of the presented image.

Specifically, in the case where second accommodation box 340 is disposed in sub-accommodation chamber , second accommodation box 340 has an outer wall flush with side wall 311 of of display box 300. a pull handle may be provided on the outer wall of second accommodation box 340 to facilitate the user's withdrawal of second accommodation box 340 from sub-accommodation chamber .

In other embodiments of the present invention, the second opening of the display box, which is disposed in communication with the th sub-accommodation cavity, may further have an extension portion, so that a user can move the second accommodation box along the extension portion of the second opening in the th sub-accommodation cavity by pulling a handle, so that the second accommodation box is movably disposed in the th sub-accommodation cavity through the second opening, and thus the relative position of the display device or the spherical lens of the th sub-accommodation cavity and the th light outlet can be changed to change the position or size of the presented image.

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

In still other embodiments of the present invention, in the case that the spherical lens is a multi-spherical lens, the multi-spherical lens is rotatably disposed in the sub-receiving cavity, for example, the side wall and the third side wall are respectively provided with a rotating shaft, the multi-spherical lens is respectively fixedly connected to the two rotating shafts, and the multi-spherical lens can be rotated by rotating the rotating shafts to change the spherical surface of the multi-spherical lens facing the display device, wherein the multi-spherical lens can be a convex-concave lens, i.e., the side is a convex spherical surface and the side is a concave spherical surface.

It should be noted that, although the above embodiments only describe the rectangular parallelepiped display box, the display boxes with other shapes are the same as the method for implementing the display box body of the embodiment of the present invention on the rectangular parallelepiped display box, and are not described herein again.

Fig. 10 is a schematic flow chart illustrating an image displaying method according to embodiments of the present invention, in which the display box may be the display box provided in the above-mentioned embodiment of the display box, that is, the display box includes a display box and an imaging component, the display box has a display window, and the imaging component is disposed in the display box at a predetermined angle from a plane of the display window, as shown in fig. 10, the image displaying method may include:

s410, placing the display device into a space formed by the imaging component, the display window and the side wall of the display box in a surrounding manner, and placing the display screen of the display device towards the imaging component to realize device assembly, wherein the display screen and the plane of the display window are at a second preset angle, and the -th preset angle is smaller than the second preset angle;

and S420, displaying th images on a display screen of the display device, presenting second images corresponding to th images through the imaging assembly, and playing the images, wherein the th images are static images or dynamic images.

In the embodiments of the present invention, when the bracket is disposed in the space defined 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 of the display window form a second predetermined angle.

In other embodiments of the present invention, in the case that the display box has a th accommodating cavity and a second accommodating cavity which are adjacently disposed, the th accommodating cavity may have a th light outlet communicated with the second accommodating cavity, and the th light outlet intersects with the display window, at this time, the device assembling step in step S410 may specifically include:

the display device was placed in the th receiving cavity with its display screen facing and parallel to the th light outlet.

In the embodiments of the invention, where the display case body further includes a th accommodating case, the 0 th accommodating case is provided with a th accommodating space for accommodating the display device, the th accommodating space has a th spatial opening, the display case is provided with a th opening communicating with the th accommodating chamber, and the th accommodating case can be detachably disposed in the th accommodating chamber through an th opening, at this time, the device assembling step of step S410 can specifically include:

the bottom wall of the display screen of the display device facing away from the th accommodation box was placed in the th accommodation box with the display screen of the display device open to the th space, the th space opening was inserted toward the th light exit port into the th opening communicating with the th accommodation chamber, the display device was fixed in the th accommodation chamber, and the display screen of the display device was oriented toward and arranged in parallel with the th light exit port.

In the embodiment of the present invention, 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 an embodiment of the present invention, the display device may display th image of a target play object, which may be a two-dimensional object, a three-dimensional object, or a holographic object, when the th image is a static image, the second image is a static image, and when the th image is a dynamic image, the second image is a dynamic image.

When the angle difference between the second predetermined angle and the th predetermined angle is different, that is, the predetermined included angle between the display screen of the display device and the imaging assembly is different, the second image may be the th image after being deformed according to the predetermined included angle.

In the embodiments of the present invention, in the case that the imaging component of the display box body includes a planar film, the orthographic projection of the imaging component to the th light outlet completely covers the th light outlet, as shown in fig. 1-3, at this time, the device assembling step of step S410 may further include:

the article is placed into the second receiving cavity on the side of the imaging assembly facing away from the display window.

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

and enabling a display screen of the display device to play the th image of the target playing object under the single visual angle to generate a planar light source corresponding to the th image, wherein the planar light source reflects through the planar film to present a second image of the target playing object under the single visual angle.

In embodiments, the display screen of the display device may display the th image of the target playing object at a single viewing angle in full screen, so that the planar light source generated when the th image is played by the display device is reflected by the planar film, and in a case where an article is placed in the second containing cavity, the article is used as a carrier to play the second image of the target playing object at the single viewing angle.

At the moment, the plane display of the target playing object can be realized, and the complexity of the display box body is reduced under the condition that the target playing object can be presented, so that the cost of the display box body is reduced.

In other embodiments of the present invention, in the case that the imaging component of the display box includes at least three planar films, each of the planar films has a display window , the at least three planar films are distributed in a multi-pyramid shape, the vertex of the imaging component in the multi-pyramid shape is disposed facing the light outlet, so that each of the planar films and the corresponding display window are at a predetermined angle of , and the orthographic projection of the imaging component to the light outlet completely covers the light outlet, as shown in fig. 4-5, at this time, the device assembling step of step S410 may further include:

and placing the object into the second accommodating cavity and the imaging assembly in the shape of the polygonal pyramid.

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

and enabling a display screen of the display device to play th images of the target playing object under multiple visual angles to generate a planar light source corresponding to the th image under each visual angle, wherein the planar light source reflects through a corresponding planar film to present a second image of the target playing object under the multiple visual angles.

In , the display screen of the display device can be divided into multiple display areas, each display area having a size corresponding to the orthographic projection of the corresponding plane film to the display device, each display area displays the th image of the target playing object at viewing angles, and each display area corresponds to a different viewing angle, for example, if the display area is divided into four display areas, the four display areas can sequentially display the th image of the target playing object at four viewing angles, namely front, left, back and right, and after the plane film is reflected, the second image of the th image at four viewing angles, namely front, left, back and right, can be presented, so that the user can view different viewing angles of the target playing object on each plane film, and the effect of stereoscopic display of the target playing object is generated.

In the embodiment of the invention, the second image is presented by taking the article as a carrier or fusing the article into bodies, so that the second image can be presented no matter whether the article is in the display box body or not, and the flexibility of presenting the image in the display box body is improved.

In still other embodiments of the present invention, in the case that the display box further includes a graphic code, the graphic code is used for the display device to obtain the th image, at this time, the image playing step in step S420 may further include:

the graphic code is scanned by the display device to cause the display device to acquire an th image.

Therefore, the user can scan the graphic code by using the display device, and enable the display device to acquire the th image playing address corresponding to the target playing object according to the information in the graphic code, or acquire the th image playing application program corresponding to the target playing object, so as to play the th image corresponding to the target playing object.

In still embodiments of the present invention, in the case that the accommodating chamber includes a plurality of sub-accommodating chambers distributed in parallel along a direction perpendicular to the light-emitting port, a second light-emitting port is disposed between every two adjacent sub-accommodating chambers, and the orthographic projection of the second light-emitting port to the light-emitting port completely covers the light-emitting port, as shown in fig. 8-9.

In the case that the th sub-receiving cavity for placing the display device is not adjacent to the second receiving cavity, taking the display box shown in fig. 8-9 as an example, if the display device is placed in the th sub-receiving cavity far away from the second receiving cavity, the image displaying method may further include:

a spherical lens is placed in the th sub-accommodation chamber between the th sub-accommodation chamber and the second accommodation chamber where the display device is placed, and image adjustment of the second image is performed.

Taking the display box shown in fig. 8-9 as an example, a spherical lens may be placed in the th sub-receiving cavity close to the second receiving cavity, if a convex lens is placed, the second image may be enlarged, if a concave lens is placed, the second image may be reduced, and a convex lens and a concave lens with different spherical curvatures may be placed, so as to flexibly adjust the size of the second image.

In , the display box further comprises a second accommodating box having a second accommodating space for accommodating the spherical lens, the display box has a second opening communicating with the th sub-accommodating cavity, and the second accommodating box is movably disposed in the th sub-accommodating cavity through the second opening.

At this time, the image adjusting step may further include:

the second containing case is moved in a direction perpendicular to the th light outlet to adjust the distance between the spherical lens and the display device, changing the size of the second image presented.

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

In other embodiments, the display box further comprises 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 communicated with the th sub-accommodating cavity, and the second accommodating box is movably arranged in the th sub-accommodating cavity through the second opening.

In a case where a plurality of spherical lenses are placed between the display device and the second receiving chamber, the image adjusting step described above may further include:

moving the second containing box in the direction parallel to the th light outlet makes at least spherical lenses leave the th light outlet, changing the size of the second image presented.

Taking the example that two spherical lenses, spherical lenses being convex lenses and spherical lenses being concave lenses, are placed between the display device and the second accommodating chamber, the second accommodating box can be moved in a direction parallel to the th light outlet, so that the convex lens leaves the projection range of the th light outlet to the display device, so as to reduce the second image presented.

In still other embodiments, the spherical lens can be a multi-spherical lens rotatably disposed in the th sub-receiving cavity.

For example, the multi-spherical lens may be a convex-concave lens, i.e. side is a convex spherical surface and side is a concave spherical surface, and at this time, the image adjusting step may further include:

rotating the multi-spherical lens and changing the sphere of the multi-spherical lens towards the display device changes the size of the second image presented.

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

Therefore, the size of the second image can be flexibly changed by using the spherical lens, and the use experience and the interestingness of the user are improved.

It should be further noted that the exemplary embodiments of the present invention describe methods or systems based on series of steps or devices, however, the present invention is not limited to the order of the steps, that is, the steps may be performed in the order mentioned in the embodiments, may be performed in a different order than the embodiments, or may be performed simultaneously.

As described above, only the specific embodiments of the present invention are provided, and it can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the system, the module and the unit described above may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again. It should be understood that the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive various equivalent modifications or substitutions within the technical scope of the present invention, and these modifications or substitutions should be covered within the scope of the present invention.

Claims

The image display method is applied to a display box body, the display box body comprises a display box and an imaging component, the display box is provided with a display window, and the imaging component and a plane where the display window is located are arranged in the display box body at a preset angle of degrees;

wherein the method comprises the following steps:

placing a display device into a space formed by the imaging assembly, the display window and the side wall of the display box in an enclosing manner, and placing a display screen of the display device towards the imaging assembly to realize device assembly, wherein the display screen and the plane of the display window are at a second preset angle, and the -th preset angle is smaller than the second preset angle;

enabling a display screen of the display device to display an th image, and presenting a second image corresponding to the th image through the imaging component for image playing, wherein the th image is a static image or a dynamic image.
2. The method of claim 1 wherein said display box has th receiving cavity and a second receiving cavity disposed adjacent to each other, said th receiving cavity having th light outlet communicating with said second receiving cavity, said th light outlet intersecting said display window;

wherein the equipment assembling step specifically comprises:

the display device is placed in the th accommodating cavity, and the display screen of the display device faces and is parallel to the th light outlet.
3. The method of claim 2, wherein the imaging assembly comprises a planar film and an orthographic projection of the imaging assembly onto the light exit port completely covers the light exit port;

wherein the device assembling step further comprises:

placing an item into the second receiving cavity on a side of the imaging assembly facing away from the display window.
4. The method according to claim 3, wherein the image playing step specifically comprises:

and enabling a display screen of the display device to play th images of a target playing object at a single viewing angle to generate a planar light source corresponding to the th image, wherein the planar light source reflects through the planar film to present a second image of the target playing object at the single viewing angle.
5. The method of claim 2, wherein the imaging assembly comprises at least three planar films, each having corresponding display windows, the at least three planar films being distributed as a polygonal pyramid, the apex of the imaging assembly in the shape of a polygonal pyramid being disposed facing the light outlet such that each planar film is at the predetermined angle from the plane of the corresponding display window, the orthographic projection of the imaging assembly onto the light outlet completely covering the light outlet;

wherein the device assembling step further comprises:

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

enabling a display screen of the display device to play th images of a target playing object at multiple viewing angles to generate a planar light source corresponding to th image at each viewing angle, wherein the planar light source reflects through the corresponding planar film to present a second image of the target playing object at multiple viewing angles.
7. The method of claim 4 or 6, wherein the second image is presented with the item as a carrier or fused with the item as volumes.
8. The method as claimed in claim 2, wherein the th accommodating cavity comprises a plurality of th accommodating sub-cavities distributed in parallel along a direction perpendicular to the th light outlet, a second light outlet is disposed between every two adjacent th accommodating sub-cavities, and a forward projection of the second light outlet to the th light outlet completely covers the th light outlet;

wherein, in a case where the th sub-receiving cavity where the display device is placed is not adjacent to the second receiving cavity, the method further comprises:

and a spherical lens is placed in a th sub accommodation cavity between the th sub accommodation cavity for placing the display device and the second accommodation cavity, and image adjustment of the second image is performed.
9. The method of claim 8, wherein said display case further comprises a second receptacle, said display case being provided with a second opening in communication with said th sub-receptacle, said second receptacle being movably disposed within said th sub-receptacle through said second opening;

wherein the image adjusting step further comprises:

moving the second accommodation box in a direction perpendicular to the th light outlet;

and/or the presence of a gas in the gas,

moving the second accommodation box in a direction parallel to the th light outlet.
10. The display case of claim 8, wherein the spherical lens is a multi-spherical lens rotatably disposed in the th sub-receiving cavity;

wherein the image adjusting step further comprises:

rotating the multi-spherical lens and changing the multi-spherical lens towards the spherical surface of the display device.
11. The method of claim 1, wherein the display box further comprises a graphical code for the display device to capture the th image;

wherein the image playing step further comprises:

and scanning the graphic code by using the display device to enable the display device to acquire the th image.
A display case of the type 12, , comprising:

a display box having a display window;

the imaging assembly and the plane where the display window is located are arranged in the display box body at a preset angle of th;

the space formed by the imaging assembly, the display window and the side wall of the display box in a surrounding mode is used for placing display equipment, a display screen of the display equipment and a plane where the display window is located form a second preset angle, and the -th preset angle is smaller than the second preset angle.
13. The display box body of claim 12, wherein the display box has th containing cavity and a second containing cavity arranged adjacently, the th containing cavity has th light outlet communicated with the second containing cavity, the th containing cavity is used for placing a display device, the side wall of the second containing cavity adjacent to the th light outlet has the display window, so that the th light outlet intersects with the display window, and the imaging component is located in the second containing cavity.
14. The display case of claim 13, wherein the imaging assembly comprises a planar film, an orthographic projection of the imaging assembly to the light outlet completely covers the light outlet, and the side of the imaging assembly facing away from the display window within the second receiving cavity is for placement of an item.
15. The display box body of claim 14, wherein the display box has an th side wall, a th partition is disposed in the display box body along a direction perpendicular to the th side wall, the th partition enables the display box body to have the th accommodating cavity and the second accommodating cavity, the th partition is provided with the th light outlet, and the th side wall is provided with the display window.
16. The display case of claim 13, wherein the imaging assembly comprises at least three planar films, the side wall of the second receiving cavity adjacent to the th light outlet has a display window corresponding to the planar film , the at least three planar films are distributed as a polygonal pyramid, the vertex of the imaging assembly in the shape of the polygonal pyramid is disposed facing the th light outlet, each planar film is disposed at the th predetermined angle with respect to the plane of the corresponding display window, and the orthographic projection of the imaging assembly to the th light outlet completely covers the th light outlet.
17. The display box of claim 16, wherein the imaging assembly comprises four planar films distributed as a rectangular pyramid, the display box is a rectangular parallelepiped display box, a th partition parallel to the bottom wall of the display box is disposed in the display box, the th partition makes the display box have the th accommodating cavity and the second accommodating cavity, the th partition is provided with the th light outlet, and each side wall of the display box is provided with the display window.
18. The display case of claim 12, further comprising:

and the graphic code is used for the display equipment to acquire the th image to be played, and is arranged on the display box body.
19. The display case of claim 12, wherein the second predetermined angle differs from the predetermined angle by an angle in the range of 30-60 °.
20. The display case of claim 14 or 16, wherein the planar film is a plastic film having a thickness of 0.4-0.5mm and a light transmittance of 85-90%, or wherein the planar film is a holographic projection film having a thickness of 0.1mm and a light transmittance of 89%.
21. The display case of claim 13, wherein the imaging component is fixedly connected to the second receiving cavity, or the imaging component is detachably connected to a slot in the second receiving cavity.
22. The display case of claim 13, further comprising:

an th accommodating box, the th accommodating box being provided with a th accommodating space for accommodating the display device, the th accommodating space having a th space opening, wherein,

the display box is provided with a opening communicated with the th accommodating cavity, the th accommodating box is detachably arranged in the th accommodating cavity through the th opening, and the th space opening is arranged facing the th light outlet.
23. The display box body of claim 13, wherein the th accommodating cavity comprises a plurality of th sub-accommodating cavities distributed in parallel along a direction perpendicular to the th light outlet, the th sub-accommodating cavity is used for accommodating the display device, a second light outlet is arranged between every two adjacent th sub-accommodating cavities, and the forward projection of the second light outlet to the th light outlet completely covers the th light outlet.
24. The display case of claim 23, wherein the th sub-receiving cavity is further configured to receive a spherical lens such that the spherical lens is located between the th light outlet and the display device.
25. The display case of claim 24, further comprising:

a second accommodation box provided with a second accommodation space that accommodates the display device or the spherical lens, the accommodation space having a second space opening that penetrates the second accommodation box; wherein,

the display box is provided with a second opening communicated with the th sub-containing cavity, the second containing box is movably arranged in the th sub-containing cavity through the second opening, and the second space opening surface, the second light outlet and the th light outlet form a light channel.
26. The display case of claim 24, wherein the spherical lens is a multi-spherical lens rotatably disposed in the th sub-receiving cavity.