KR101652579B1 - Method and apparatus for displaying electronic display device - Google Patents

Abstract

The present invention provides a display method and a display apparatus of an electronic display device. The display method is for displaying an image of an electronic display device on a packaging box for packaging the electronic display device. The display method includes an image processing step of processing the image information to be displayed by the electronic display device and a display step of displaying the image displayed by the electronic display device on the packaging box. A display method and a display apparatus for an electronic display device according to the present invention display an image displayed by an electronic display device on a packaging box and combine the image displayed by the electronic display device with the surrounding environment in which the packaging box is located, Realizes the fusion of virtual and reality. The present invention not only prevents the packaging box from being simply discarded, but also leads to a desirable user experience.

Description

TECHNICAL FIELD [0001] The present invention relates to a display apparatus and a display apparatus for an electronic display apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a display technology, and more particularly, to a display method and apparatus of an electronic display device for displaying an image displayed on an electronic display device on a packaging box.

Conventional display technology is an image that is displayed directly through an electronic display device, both of a two-dimensional display technology and a three-dimensional display technology, in general. The image displayed in such a display mode is naturally restricted to the screen border of the display. Especially, when the image displayed in three dimensions is limited to the display frame, the viewer feels depressed and seriously affects the three-dimensional visual experience. For example, in the case of displaying one three-dimensional road surface extending to the front of the screen, the display image limited to the display frame is given a visual impression that the road surface is cut off to the spectator, And seriously affect the visual experience of 3D images.

Also, as a conventional example of a packaging box for an electronic display device such as a cellular phone or an IPAD, most of the paper box packaging is used and the packaging box is disposed after the electronic product is taken out. On the other hand, an attempt to electronicize some of the packaging boxes has begun. For example, the following packaging box has been disclosed in U.S. Patent No. 8,3170,884. The packaging box includes a wireless communication unit, and the wireless communication unit is for receiving recognition information regarding the article in the packaging box transmitted from the data transmitter. The packaging box further includes a display and a processor, the processor collecting the received recognition information and causing the display to display recognition information of the article in the packaging box. The display, the processor and the communication unit are integrated into the packaging box. Accordingly, the conventional packaging box enables the article in the packaging box to be recognized by recognizing the label of the object in the packaging box, and the information for the article in the packaging box can be displayed for the purpose of recognition, Change, loss or the like, and it is also understood that such a packing box having a display function is merely relevant information on the article in the packing box and for checking without opening the box. However, for a user of an electronic display device, if the electronic display device is separated from the packaging box, the packaging box loses its use value, and the displayable packaging box adding the counting function of recording or loss change naturally has a cost This cost is naturally passed on to the consumer, and the consumer pays the cost, but does not get the corresponding use value. Ultimately, the consumer typically throws away this type of packaging box, but the packaging box is worn with electronics and related components such as a processor and a display, which causes waste and environmental pollution.

According to the present invention, based on at least one of the above-mentioned problems, an image displayed by an electronic display device is displayed on a packaging box, and an image displayed by the electronic display device and a surrounding environment in which the packaging box is located are fused, And a display method of an electronic display device that realizes convergence of reality. This not only keeps the packaging box from being discarded easily, but also brings a desirable user experience.

In view of the above, the present invention provides a display method of an electronic display device for displaying an image of an electronic display device on a packaging box for packing the electronic display device, wherein the display method comprises: There is provided a display method of an electronic display device including an image processing step of processing image information and a display step of displaying an image displayed by the electronic display device on the packaging box.

Further, the image processing step may further include an image inversion processing step of performing an inversion operation on the image to be displayed.

Further, the image reversal processing step may further include an image preprocessing sub-step of performing preprocessing on the image information, and an image pixel rearrangement sub-step of rearranging the pixels of the picture after the image preprocessing.

Further, the image processing step may include a step of, based on the intensity of the surrounding environment of the packaging box, adjusting the luminance / contrast of the image to be displayed by the electronic display device and the gamma value of the electronic display device / Contrast adjustment step.

Furthermore, the display method further includes a step of confirming the putting-out state of the electronic display device, which confirms the putting-out state of the electronic display device, before the image processing step.

Further, the display method may further include, before the image processing step, recognizing the type of the electronic display device and downloading an image matching the electronic display device type.

Further, the display method may further include determining whether the electronic display device is in the three-dimensional display mode before the image processing step, and if the electronic display device is not in the three-dimensional display mode, If the electronic display device is in the three-dimensional display mode, acquiring the positional information of the spectator; and mixing and arranging stereoscopic parallax image pixels.

Further, the display method may further include a confirmation step of confirming an electrical connection between the packaging box and the electronic display device before the image processing step.

Further, the display method may further include displaying the control information of the electronic display device on the packaging box after the image processing step, and transmitting the control information to the electronic display device by the packaging box.

Further, the electronic display device is a bell-shaped stereoscopic display device or a stereoscopic display device.

Further, the electronic display device may be any one of a mobile communication terminal, a flat display device, a game device, or a personal computer.

The present invention also provides a display device of an electronic display device including a packaging box and an electronic display device, the packaging box housing the electronic display device and displaying an image of the electronic display device on a packaging box, An image processing module for processing the image information to be displayed by the electronic display device and a display module for displaying the image displayed by the electronic display device on the packaging box is provided do.

Furthermore, the image processing module further includes an image inversion processing module for performing an inversion operation on the image to be displayed.

Further, the image reversal processing module further includes an image preprocessing sub-module for preprocessing the image information, and an image pixel rearrangement sub-module for rearranging the pixels of the preprocessed picture.

Further, the image processing module may further include a display brightness / contrast control unit for adjusting a brightness / contrast of an image to be displayed by the electronic display device and a gamma value of the electronic display device based on the intensity of the surrounding environment of the packaging box, And a contrast adjustment module.

Furthermore, the display apparatus further includes an electronic display device setting status confirming module for determining a setting status of the electronic display device.

Further, the display device further includes a recognition module for recognizing the type of the electronic display device and a download module for downloading the image matched to the electronic display device type.

The display device further includes a display mode recognition module for recognizing whether the electronic display device is in the three-dimensional display mode, a position acquisition module for acquiring position information of the spectator when the electronic display device is in the three-dimensional display mode, And a mixed arrangement module of the stereoscopic parallax image pixels for mixing and arranging the pixels of the left eye view image and the right eye view image of the parallax image at a constant ratio.

Furthermore, the display device further includes a confirmation module for confirming an electrical connection between the packaging box and the electronic display device.

Furthermore, the display device further includes a control information display module for displaying the control information of the electronic display device on the packaging box, and a control information transmitting module for transmitting the control information to the electronic display device by the packaging box.

Further, the electronic display device is a bell-shaped stereoscopic display device or a stereoscopic display device.

Furthermore, the electronic display device may be any one of a mobile communication terminal, a flat display device, a game device, or a personal computer.

The display method and display apparatus of the electronic display device according to the present invention process image information to be displayed by the electronic display device and display the image displayed by the electronic display device on the packaging box, In addition, the image displayed by the electronic device is displayed on the packaging box so that the user has a new experience of no border. In addition, the image displayed by the electronic display device and the surrounding environment in which the packaging box is located are fused to the packaging box to realize a fusion of virtual and reality.

These and / or additional aspects and advantages of the present invention will be apparent and readily apparent from the following description of an embodiment of the invention, taken in conjunction with the accompanying drawings. here,
BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic perspective view of a closed state of a display device according to a first embodiment; Fig.
Fig. 2 is a schematic perspective view showing the open state of the display device according to the first embodiment. Fig.
Fig. 3 shows an enlarged schematic view of a perspective view of a display device and a part of its structure according to the first embodiment.
4 is a perspective view of an angle-adjusted oblique view of the display device according to the first embodiment.
Fig. 5 is a schematic perspective view showing a strap structure in the case where the display device according to the first embodiment includes the auxiliary functional unit. Fig.
Fig. 6 is a schematic perspective view of a closed state of a packaging box of a display device according to a second embodiment. Fig.
Fig. 7 is a schematic perspective view showing a strap opening structure of the packaging box of the display device according to the second embodiment. Fig.
8 is a schematic view of a light path in the display state of the display device according to the second embodiment.
Fig. 9 is a schematic perspective view showing a strap structure in a case where the packaging box of the display device according to the second embodiment is provided with the auxiliary functional unit.
10 is a schematic perspective view of a closed state of the display device according to the third embodiment.
Fig. 11 is a schematic perspective view of a strapping structure in the open state of the packaging box of the display device according to the third embodiment. Fig.
12 shows a schematic view of a light path in the display state of the display device according to the third embodiment.
13 is a schematic perspective view showing a strap structure in a case where the packaging box of the display device according to the third embodiment is provided with the auxiliary functional unit.
Fig. 14 is a schematic perspective view of a packaging box of a display device according to a fourth embodiment in a closed state. Fig.
Fig. 15 is a schematic perspective view of a strap opening structure of the packaging box of the display device according to the fourth embodiment. Fig.
16 is a schematic view of a light path in the display state of the display device according to the fourth embodiment.
17 is a perspective view schematically showing a case in which the display device according to the fourth embodiment includes the auxiliary functional unit.
18 is a schematic perspective view of a closed state of a display device according to a fifth embodiment.
Fig. 19 is a schematic perspective view showing a strap structure of the packaging box of the display device according to the fifth embodiment in an opened state. Fig.
20 is a schematic view showing an electrical connection structure of a packaging box and an electronic display device among the display devices according to the sixth embodiment of the present invention.
21 shows a schematic circuit structure of a packaging box according to a sixth embodiment of the present invention.
22 is a schematic circuit diagram of an electronic display device according to a sixth embodiment of the present invention.
Fig. 23 shows a schematic view of the imaging principle of the display device of the present invention.
24A is a schematic view of the image forming principle of a conventional bare-form stereoscopic display apparatus.
24B is a schematic view of the image forming principle of the bare-type stereoscopic display apparatus of the present invention.
Fig. 25 shows a schematic view of the principle of image formation in the stereoscopic display apparatus of the present invention. Fig.
26 shows a flowchart of a display method of an electronic display device according to the seventh embodiment of the present invention.
27A is an image displayed by the electronic display device according to the seventh embodiment of the present invention without image reversal processing.
FIG. 27B is an image displayed after the image reversal processing of the electronic display device according to the seventh embodiment of the present invention.
28 is a flowchart of a display method of an electronic display device according to an eighth embodiment of the present invention.
29 is a flowchart of a display method of an electronic display device according to a ninth embodiment of the present invention.
30 is a flowchart of a display method of an electronic display device according to a tenth embodiment of the present invention.
31A is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention in which control information at the time of music reproduction of the electronic display device is displayed.
FIG. 31B is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention, in which control information when the electronic display device is called is displayed. FIG.
FIG. 31C is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention, showing control information at the time of displaying a web page of the electronic display device. FIG.
32 is a schematic view of a module of a display device according to Embodiment 11 of the present invention.
33 shows a flowchart of a display method of an electronic display device according to a twelfth embodiment of the present invention.
34 shows a control method of controlling an electronic display device through a packaging box according to the thirteenth embodiment of the present invention.
35 shows a control method for controlling an electronic display device through a packaging box according to the fourteenth embodiment of the present invention.
36 is a schematic structural view of a control device for controlling an electronic display device through a packaging box according to a fourteenth embodiment of the present invention.
37 shows a method of controlling the interaction between the packaging box and the electronic display device according to the fifteenth embodiment of the present invention.
38 is a structural schematic view of a control device for implementing the interaction between the packaging box and the electronic display device according to the fifteenth embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features and advantages of the present invention will become more apparent from the following detailed description taken in connection with the accompanying drawings, in which: FIG. It should be noted that the features of the embodiments and the examples of the present application can be combined with each other in a situation in which they do not conflict with each other.

Although the present invention has been described in detail in the following description for a better understanding of the present invention, the present invention may be embodied in other forms than those described herein. Therefore, the present invention is not limited to the specific embodiments disclosed below.

An electronic display device according to the present invention refers to a display device capable of displaying an image, such as a mobile communication terminal, a flat panel display device, a personal computer, a game device, or the like. The packaging box according to the present invention is for packing the electronic display device and protects the electronic display device from being easily damaged and makes it convenient to store and transport the electronic display device. The packaging box according to the present invention not only performs all the functions of the conventional packaging box but also can display the image displayed by the electronic display device on the packaging box and can display the image displayed by the electronic display device and the surrounding environment It fuses virtual box with real box. Particularly, in the stereoscopic image electronic display device, the fusion of the image displayed by the electronic display device and the surrounding environment in which the packaging box is located becomes more realistic, the fusion effect of the virtual reality is better and the conventional display frame is overcome We propose new display notions. This not only makes the packaging box not to be easily discarded but also allows the user to experience a new experience and becomes part of the entertainment life of the user.

Embodiment 1

The present invention provides a display device, wherein the display device includes an electronic display device having a display surface and a packaging box. Wherein the packaging box includes a package, a first connection structure, a movable connection structure, and a projection reflection member, the package including a reception structure and a support structure, . The projection reflecting member includes a first end and a second end opposite to the first end, and the projection reflecting member also includes a first surface and a second surface facing the first surface. The first end of the projection reflecting member is connected to the receiving structure through the first connecting structure and the second end of the projection reflecting member is operatively connected to the supporting structure through the movable connecting structure. A virtual image of an image displayed by the electronic display device is formed on a second surface side of the projection reflecting member when the display device displays the image.

Further, when the display device displays or when the packaging box receives and displays the electronic display device, the receiving structure is positioned on the first surface side of the projection reflecting member, It is located on the two sides.

Further, the first side faces the receiving structure and the second side faces the support structure.

Further, when the display device displays or when the packaging box receives and displays the electronic display device, the light rays of the image displayed by the electronic display device are projected and reflected by the projection reflecting member, A virtual image of the image is formed on the second surface side of the image.

Further, when the display device displays or when the packaging box receives and displays the electronic display device, a certain space is formed between the support structure and the second surface of the projection reflecting member, Located.

Further, the receiving structure includes a connecting end and a free end facing the connecting end, and the first end of the projection reflecting member is connected to the connecting end of the receiving structure through the first connecting structure.

Further, the support structure includes a connection plane, a connection end, and a free end facing the connection end, and the connection plane is provided between the connection end of the support structure and the free end of the support structure. The second surface of the projection reflection member faces the connection plane. The free end of the receiving structure and the connecting end of the supporting structure are located on the same side and the free end of the supporting structure and the connecting end of the receiving structure are located on the same side.

Further, the receiving structure and the supporting structure are parallel to each other.

Further, the support structure is formed with a receiving space, and the receiving space is for receiving a part related to the electronic display device.

Further, the receiving structure may further include a first boundary end connecting the free end of the receiving structure and the connecting end of the receiving structure, and the projection reflecting member may have a second boundary connecting the first connecting end and the second connecting end, Wherein a length of the first boundary end of the receiving structure and a length of a second boundary end of the projection reflecting member are equal to each other. The supporting structure includes a third boundary end connecting the free end of the supporting structure and the connecting end of the supporting structure, and the length of the third boundary end and the length of the first boundary end of the receiving structure are equal to each other. Thus, when the receiving structure is covered with the supporting structure, the package forms a rectangular parallelepiped structure.

Furthermore, when the display device displays or when the packaging box receives and displays the electronic display device, the display surface of the electronic display device forms a certain angle with the first surface of the projection reflection member. Further, the angle is an acute angle. The angle is preferably between 30 degrees and 60 degrees. It is most preferable that the angle is 45 degrees, and the ratio of the displayed virtual image and the displayed image of the electronic display device coincide with each other.

Furthermore, the projection reflecting member may be transparent when the display device displays or is transparent when the packaging box receives and displays the electronic display device. Further, the projection reflection member may be thinner, and thus it is possible to prevent the occurrence of the overlapped image due to the thickness of the projection reflection member itself.

Furthermore, when the display device is not displayed or when the packaging box is not covered, the covering structure can be covered with the projection reflection member, and the projection reflection member and the reception structure together can be covered with the support structure Can be overwritten.

Furthermore, a light absorbing layer is formed on the surface of the supporting structure which forms an acute angle with the second surface of the projection reflecting member. The light absorbing layer is preferably a dark color layer. And more preferably black mat layer, and thus to prevent the projected light rays to substantially absorb the projected light through the projection reflecting member affecting the contrast and brightness of the virtual image can be such that the virtual image the image is clearer All.

Further, the package further includes a viewing angle adjusting mechanism for adjusting a viewing position of the virtual image to adjust a viewing angle.

Furthermore, the package further includes a power supply unit, a circuit connection unit and a communication interface unit, the communication interface unit being connected to the power supply unit via the circuit connection unit, And is connected to the device. When the electronic display device requires charging, the power supply unit can charge the electronic display device. Further, the package further includes a control unit, and the control unit is connected to the power supply unit and the communication interface unit via the circuit connection unit. In this way, when the electronic display device is received and displayed in the receiving structure, the control right of the electronic display device can be left to the control unit and the electronic display device can be operated through the control unit.

Next, the display and non-display process of the display device will be described in detail.

The receiving structure receiving the electronic display device is subjected to an action of an external force so that a certain space is formed between the second surface of the projection reflecting member connected to the receiving structure and the supporting structure, So that the displayed image forms a virtual image in the space. Since the space is realistic scenes, the finally formed virtual image is located in a realistic three-dimensional space. In particular, when the electronic display device displays a three-dimensional image, the combination of the three-dimensional image and the realistic scene overcomes the edge limit of the electronic display device, thereby allowing people to experience a more realistic three-dimensional scene. For example, as described in the background section, when a three-dimensional image is displayed on a three-dimensional continuous road, when the three-dimensional image is displayed on a conventional three-dimensional display device, However, when the image is displayed on the display device according to the present invention, it is possible to overcome such drawbacks, to realize an effect of displaying without a border, and to give an unlimited imagination space to people. Of course, the display device according to the present invention can be used not only for a three-dimensional image display but also for a two-dimensional image display, and a visual experience can be improved by combining a two-dimensional image and a real three-dimensional space. Further, the electronic display device of the present invention may be a three-dimensional electronic display device of a bell-shaped type or a three-dimensional electronic display device of a glasses type.

When the receiving structure accommodating the electronic display device described above receives an external force to bring the projection reflecting member into close contact with the supporting structure, the display device is in a non-display state, and the display device has an apparently integral structure.

Of course, when the electronic display device and the packaging box are combined into an overall product, they may also be referred to as a packaging device. All such titles are within the scope of protection of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a display device according to an embodiment of the present invention; FIG.

Example 1

1 to 4, a display device 100 includes an electronic display device 1 having a display surface 11 and a packaging box (not shown) A first connection structure 3, a movable connection structure 4, and a projection reflection member 5. The package 2 includes a receiving structure 21 and a supporting structure 22 and the receiving structure 21 is for accommodating the electronic display device 1. The receiving structure 21 includes a connecting end 21a and a free end 21b opposed to the connecting end 21a and the projection reflecting member 5 includes a first end 51 and a second end And the second reflecting surface 51 facing the projection reflecting member 5 and the projection reflecting member 5 further includes a first surface 53 and a second surface 54 facing the first surface 53 . The first side 53 faces the receiving structure 21 and the second side 54 faces the support structure 22. [ The first end 51 of the projection reflecting member is connected to the connecting end 21a of the receiving structure 21 through the first connecting structure 3 and the second end 52 are movably connected to the support structure 22 via the movable connection structure 4. When the display device 100 is opened or when the packaging box receives and displays the electronic display device, the electronic display device 1 displays on the second surface 54 side of the projection- A virtual image of the image is formed.

The receiving structure 21 of the present embodiment includes a hollow frame 211 and the frame 211 is provided in a form surrounding the hollow to form a receiving space 212 for accommodating the electronic display device 1. The accommodation space 212 is adapted to the electronic display device 1. An opening (not shown) is formed in the free end 21b of the receiving structure 21 so as to insert the electronic display device 1 into the receiving space 212. Obviously, the receiving structure 21 is not limited to the shape provided in the present embodiment, but it can accommodate the electronic display device 1, expose the display surface 11 of the electronic display device 1, It is sufficient that the virtual image of the image is formed on the side of the second surface 54 of the projection reflecting member 5 after the light ray of the image displayed on the projection reflecting member 5 is projected.

The supporting structure 22 according to the present embodiment is a rectangular hollow box body and the supporting structure 22 is used to accommodate other parts of the display device 100, for example, a specification sheet, an earphone, a USB data line, do. The support structure 22 includes a connection plane 221, a connection end 222 and a free end 223 facing the connection end 222. The connection end 222 of the support structure 22, The connection plane 221 is provided between the free ends 223 of the support structure 22. The second surface 54 of the projection reflecting member 5 faces the connection plane 221. [ The free end 21b of the receiving structure 21 and the connecting end 222 of the supporting structure 22 are located on the same side and the connecting end 21a of the receiving structure 21 and the supporting structure 22 The free ends 223 of the first and second plates 224 and 226 are located on the same side. In this embodiment, the receiving structure 21 is parallel to the supporting structure 22.

The receiving structure 21 has two first boundary ends 21c connecting the free end 21b of the receiving structure 21 and the connecting end 21a of the receiving structure 21 in the present embodiment And the projection reflection member 5 includes two second boundary ends 5a connecting the first connection end 51 and the second connection end 52, The length of the two boundary ends 21c and the length of the second boundary end 5a of the projection reflecting member 5 are equal to each other. The support structure 22 includes two third boundary ends 22a connecting the free end 223 of the support structure 22 and the connection end 221 of the support structure 22, The length of the boundary end 22a and the length of the boundary end 21c of the receiving structure 21 are equal to each other. Thus, when the receiving structure 21 is covered with the support structure 22, the package 2 and the rectangular parallelepiped structure are formed.

The second end 52 of the projection reflective member 5 is operatively connected to the connection end 222 of the support structure 22.

The movable connection structure 4 of the present embodiment includes a connection and position fixing shaft 41 formed on the side of the second end 52 of the projection reflecting member 5 and a connecting and positioning shaft 41 formed on the connecting end 222 of the supporting structure 22 And includes a connecting and locating shaft sleeve 42. A position fixing protrusion 411 is formed on the connection and position fixing shaft 41 and a position fixing protrusion 411 is formed on an inner side surface of the connection and position fixing shaft sleeve 42 in correspondence with the position fixing protrusion 411 Is formed. The connection and position fixing shaft 41 is inserted into the connection and position fixing shaft sleeve 42 and the position fixing protrusion 411 is engaged with the position fixing groove. Of course, the connection and position fixation shaft 41 may be mounted to the support structure 22 and, correspondingly, the connection and position fixation shaft sleeve 42 may be attached to the second end 52 of the projection < As shown in FIG. In addition, the position fixing protrusion 411 may be formed in the connection and position fixing shaft sleeve 42, and the position fixing groove may be formed in the connection and position fixing shaft 41. Meanwhile, the movable connection structure 4 is not limited to the structure provided in the embodiment of the present invention, and may be any of various conventional rotatable position fixing structures, for example, a hinge structure. Such a rotatable position fixing structure is common, so that other embodiments will not be described any further.

The first connection structure 3 of the present embodiment is a movable connection structure and the first connection structure 3 is connected to the first end 51 of the projection reflecting member 5 and the connection end of the reception structure 21 21a, and the structures of the first connection structure 3 and the movable connection structure 4 are the same. Of course, the first connection structure 3 may be different from the movable connection structure 4. Likewise, the first connection structure 3 is not limited to the structure provided in the embodiment of the present invention, but may be any other conventional rotatable position fixing structure, for example, a hinge structure. Such a rotatable position fixing structure is common, so that other embodiments will not be described any further.

The projection reflecting member 5 of this embodiment includes a projection reflecting element 55 and a fixing member 56 for fixing the projection reflecting element 55. The fixing member 56 is a transparent fixing member.

The projection reflecting element 55 of this embodiment is a device having a coating layer on its surface and capable of controlling the projection reflectance according to the environmental light. Of course, when power is supplied, the projection reflection element 55 may use a liquid crystal glass element (also referred to as an electrically controlled liquid crystal glass), and adjust the light transmittance through a voltage control in a power application state to adapt to a changing light environment.

Next, how the display device of this embodiment is switched from the undisplayed state to the display state will be described in detail.

The receiving structure 21 receives the action of an external force and interlocks the projection reflecting member 5. That is, the projection reflecting member 5 rotates with respect to the receiving structure 21 through the first connecting structure 3, and the projection reflecting member 5 is moved through the movable connecting structure 4 to the supporting structure 22 So that a predetermined space is formed between the receiving structure 21 and the first surface 53 of the projection reflecting member 5 and the space between the supporting structure 22 and the projection reflecting member 5 So that a certain space is formed between the second surfaces 54. The display surface 11 of the electronic display device 1 accommodated therein and the first surface 53 of the projection reflecting member 5 form a 45 degree angle and the second surface of the projection reflecting member 5 54 and the connection plane 221 of the support structure 22 have a 45-degree angle, the formed virtual image has a size and a ratio with the image displayed by the electronic display device, and the display effect is optimized. 2, the receiving structure 21 and the supporting structure 22 are parallel to each other, and the projection reflecting member 5 (see Fig. 2) in which the receiving structure 21 and the supporting structure 22 are connected ) Also forms an acute angle with both, so that the display state is similar to the forward " Z " shape or the forward " Z " In addition, since the receiving structure 21 is located above the support structure 22 when viewing, the visual experience of the virtual image is not reduced due to the influence of the display screen rays of the electronic display device itself when the spectator views . In this embodiment, both the receiving structure 21 and the supporting structure 22 are designed as a relatively regular rectangular parallelepiped. This " Z " shaped structure design ensures that the entire display is more stable and anesthetized. When the projection reflecting member 5 of the display device is connected to the receiving structure 21 and the supporting structure 22 in the other symmetrical direction, when the display device displays or when the packaging box displays the electronic display It is self-evident that when the device is housed and displayed, it forms a structure similar to a reverse " Z " shape or a reverse " Z " By the same token, when the packaging box is opened, it forms a structure similar to the reverse " Z " or reverse " Z "

Alternatively, the package of the present embodiment may further include a viewing angle adjusting mechanism 6, and the viewing angle adjusting mechanism 6 is installed in the supporting structure 22. The support structure 22 includes a first portion 22A and a second portion 22B and the first portion 22A and the second portion 22B are engaged in a box, The connection end 222 of the connection portion 22 and the connection plane 221 are formed in the first portion 22A. The connecting plane 221 of the second surface 54 of the projection reflecting member 5 and the first portion 22A of the supporting structure 22 forms an acute angle. The viewing angle adjusting mechanism 6 of the present embodiment is formed on a surface that is engaged with the first portion 22A and the second portion 22B and the viewing angle adjusting mechanism 6 is formed on the first portion 22A A slide block 61 provided corresponding to the second portion 22B to be engaged with the slide block 61 and a position fixing structure 63 provided in the slide groove 62. [ The position fixing structure 63 includes an elastic member (not shown) for connecting the position fixing ball (not shown) and the position fixing ball to the lower portion of the slide groove 62 to provide an elastic force. In this embodiment, The elastic member is a spring. The display apparatus 100 according to the preferred embodiment adjusts the viewing time through the viewing angle adjusting mechanism 6 and specifically controls the viewing angle of the first portion 22A or the second portion 22B of the supporting structure 22. [ So that the first portion 22A slides along the slide groove 62 with respect to the second portion 22B by a predetermined distance to change the viewing time. Of course, the visual adjustment mechanism 6 is not limited to the structure provided in this embodiment, and for example, the visual adjustment mechanism 6 may be a movable adjustment mechanism that is operatively connected to the lower portion of the support structure 22 , The movable adjusting mechanism is operated to cause the supporting structure 22, the projection reflecting member 5 and the receiving structure 21 thereof to rotate relative to the viewing angle adjusting mechanism 6, and the supporting structure 22, The reflective member 5 and the receiving structure 21 maintain a relatively fixed state to implement the viewing adjustment function without affecting the image formation space of the virtual image.

5, the embodiment of the present invention further includes a subsidiary functional unit including a circuit connection unit 7, a power supply unit 8 and a communication interface unit 9. [ The circuit connection unit 7 includes a pressure switch (not shown) and a connection circuit (not shown), and the pressure switch is installed in the movable connection structure 4 and / or the first connection structure 3. The power supply unit 8 is connected to the communication interface unit 9 via the circuit connection unit 7 to charge the electronic display device 1 when the electronic display device 1 needs to be charged . The pressure switch is arranged such that the first surface 53 of the receiving structure 21 and the projection reflection member 5 form a predetermined angle and the second surface 54 of the projection reflection member 5 and the supporting structure 22 The pressure switch is opened so that the communication interface unit 9 and the power supply unit 8 are connected. In this embodiment, the communication interface unit 9 is a USB interface unit, and may be a unit having a communication function such as a Bluetooth unit.

Further, the package further comprises a control member 10 provided on the support structure 22, and the control member 10 may be specifically a touch structure. The touch structure includes a control circuit unit (not shown) and a display screen (not shown), and the touch structure is connected to the power supply unit 8 and the USB interface unit via a circuit connection unit 7. The touch structure is inlaid on the surface of the support structure 22 at a position where the virtual image is not rotatable through the movable connection structure (not shown), so that when the touch structure rotates 180 degrees, And again rotates 180 degrees so that the screen faces the inside of the support structure to protect the screen of the touch structure. Of course, the touch structure may be inlaid directly on the surface of the support structure 22 without installing the movable connection structure, so that the screen may be directed outward. If the screen protection effect is further considered, the screen surface may be made lower than the surface of the surface body. Further, the control member 10 is also a button-type control structure having simply one or a plurality of buttons, and the circuit connection unit correspondingly sets a circuit unit of a corresponding function corresponding to the button of the button control structure And may implement corresponding functional controls.

5, the additional functional unit of the package 2 according to the present embodiment further includes a photographing unit F provided on the free end 21b side of the receiving structure 21, . The photographing unit F is connected to the USB interface unit via the circuit connecting unit 7 to make a connection with the electronic display device 1. The circuit connecting unit 7 is connected to the photographing unit F The supply unit 8 is connected. In this manner, the photographing unit F can form a virtual image on the second surface 54 side of the projection reflecting member 5 after photographing the corresponding image, displaying the image through the electronic display device 1, and so on. Of course, the electronic display device 1 may further include an image processing unit, thereby acquiring image information of a person's face or eyes through the photographing unit F, and transmitting the image information to the electronic display device 1 And the time of the image displayed by the electronic display device 1 is adjusted by using the image processing unit of the electronic display device 1 so that the screen displayed by the electronic display device 1 automatically displays the viewers' And can be changed to follow.

Example 2

6 to 9, the display device 100 includes an electronic display device having a display surface (not shown) and a packaging box (not shown), the packaging box including a package 2, (2) includes a receiving structure (21) and a supporting structure (22), and the receiving structure (21) includes a movable connecting structure (4) and a projection reflecting member Is for housing the electronic display device. The receiving structure 21 includes a connecting end 21a and a free end 21b opposed to the connecting end 21a and the projection reflecting member 5 includes a first end 51 and a second end (52) facing the first reflective surface (51) and the reflective projection member (5) also includes a first surface (53) and a second surface (54) facing the first surface (53) do. The first side 53 faces the receiving structure 21 and the second side 54 faces the support structure 22. [ The first end 51 of the projection reflecting member 5 is connected to the connecting end 21a of the receiving structure 21 through the first connecting structure and the second end of the projection reflecting member 5 52 are operatively connected to the support structure 22 via the movable connection structure 4. When the display device 100 displays or when the packaging box receives and displays the electronic display device, a virtual image of the image displayed by the electronic display device is displayed on the second surface 54 side of the projection reflecting member 5, Is displayed.

The receiving structure 21 of the present embodiment has a rectangular shape and includes a hollow frame 211. The frame 211 is provided in a space surrounding the hollow space 211 to accommodate the electronic display device 212 And the accommodation space 212 is adapted to an electronic display device. Obviously, the receiving structure 21 is not limited to the shape provided in the present embodiment, but it is possible to accommodate the electronic display device and expose the display surface of the electronic display device, It is only necessary to form a virtual image of the image on the second surface of the projection reflecting member after passing through the member. The display device according to the present embodiment may further include a capping member E which is engaged with the receiving structure 21 and the projection reflecting member 5 to form a chamber H The chamber H may be a closed chamber and a surface of the projection reflecting member 5 facing the first surface 53 may be an open chamber. The capping member E may be a transparent body.

The support structure 22 of this embodiment is a hollow triangular pyramid, and the support structure 22 can be used to house other components of the display device. The support structure 22 includes a connection plane 221, a connection end 222 and a free end 223 facing the connection end 222. The connection end 222 of the support structure 22, The connection plane 221 is provided between the free ends 223 of the support structure 22. The second surface 54 of the projection reflecting member 5 faces the connection plane 221. [ The free end 223 of the receiving structure 22 and the connecting end 222 of the supporting structure 22 are located on the same side and the connecting end 21a of the receiving structure 21 and the supporting structure 22 The free ends 223 of the first and second plates 224 and 226 are located on the same side. In this embodiment, the receiving structure 21 is parallel to the supporting structure 22 when the display device 100 is displayed.

The support structure 22 of the present embodiment further includes a light absorbing layer (not shown), and the light absorbing layer is formed on the surface of the support structure 22 on the second surface 54 side of the projection reflecting member 5 (The connection plane 221 in the embodiment). The light absorbing layer is for absorbing the light ray projected from the projection reflecting member which occurs during image display, and the partially projected light ray is reflected again to affect the contrast and brightness of the virtual image, prevent.

The first connection structure of the present embodiment is a fixed connection structure. That is, the connection end 21a of the receiving structure 21 is fixedly connected to the projection reflecting member 5 via the fixed connection structure. The display surface of the electronic display device accommodated in the receiving structure 21 and the first surface 53 of the projection reflecting member 5 have a predetermined angle and may be specifically acute and preferably between 30 and 60 degrees , And most preferably 45 degrees. The fixed connection structure may be various fixed structures such as a fastening structure.

The movable connection structure 4 of the present embodiment is the same as the first embodiment and therefore will not be described here any further.

Since the projection reflecting member 5 of this embodiment is the same as Embodiment 1, it will not be described here any further.

Next, how the display device of this embodiment is switched from the undisplayed state to the display state will be described in detail.

The receiving structure 21 receives the action of an external force and rotates the projection reflecting member 5 against the supporting structure 2. [ That is, the projection reflecting member 5 rotates with respect to the support structure 22 via the movable connection structure 4, and is arranged between the receiving structure 21 and the first surface 53 of the projection reflecting member 5 A certain space is formed and a certain space is formed between the support structure 22 and the second surface 54 of the projection reflecting member 5. The display surface of the electronic display device housed therein and the first surface 53 of the projection reflecting member 5 form an angle of 45 degrees and the second surface 54 of the projection reflecting member 5 and the second surface When the surface of the support structure 22 on the side of the display unit 54 is 45 degrees, the ratio of the size of the virtual image formed and the size ratio of the image displayed by the electronic display device are matched and the display effect is optimized. In this embodiment, the receiving structure 21 is a rectangular parallelepiped, and the supporting structure 22 is a triangular pyramid. In the present embodiment, when the display is displayed, the receiving structure containing the electronic display device is positioned on the upper side of the supporting structure, and the image ray is directly incident on the projection reflecting member 5, And a virtual image is formed on the side of the light guide plate 54. Through this structural design, the image rays emitted by the electronic display device do not affect the visual experience of the spectators when viewing the virtual image. That is, the light rays emitted by the electronic display device prevent the spectator from viewing the virtual image (affecting the contrast and brightness of the virtual image screen), so that the entire display device is placed more stably and finely.

The visual adjustment mechanism of the display device or the packaging box according to the present embodiment is realized through the movable connection structure 4 and the viewing angle can be adjusted by rotating the projection reflecting member 5 with respect to the support structure 22. [ It is also possible to provide a visual adjustment mechanism directly below the support structure 22 and turn the entire receiving structure 21, the projection reflecting member 5 and the support structure 22 against the viewing angle adjusting mechanism, 21, the projection reflection member 5, and the support structure 22, the position adjustment function can be realized and the size of the image formation space of the virtual image can be prevented from being influenced.

Preferably, the embodiment of the present invention may further include a subsidiary functional unit, and the subsidiary functional unit includes the same configuration as the first embodiment, and will not be described here any further.

Furthermore, the photographing unit is installed at the free end 21a of the receiving structure 21. [

Embodiment 2

The present invention further provides a display device including an electronic display device having a display surface and a packaging box. The packaging box further includes a package, a projection reflecting member, and a movable connection structure, and the package includes a receiving structure and a supporting structure, and the receiving structure is for housing the electronic displaying device. Wherein the projection reflection member includes a connection end and a free end opposite to the connection end, the projection reflection member further includes a first surface and a second surface facing the first surface, Is operatively connected to the support structure through the movable connection structure. When the display device displays, the image displayed by the electronic display device forms a virtual image on the second surface side of the projection reflecting member after passing through the projection reflecting member.

Further, when the display device displays or when the packaging box displays and displays the electronic display device, the support structure and the accommodation structure are located on the first surface side of the projection reflecting member.

Here, when the display device displays or when the packaging box accommodates and displays the electronic display device, a certain space is formed between the display surface of the electronic display device and the first surface of the projection reflection member.

Furthermore, when the display device displays or when the packaging box receives and displays the electronic display device, the display surface of the electronic display device and the first surface of the projection reflection member form a constant angle. Furthermore, the angle is an acute angle. Further, the angle is from 30 degrees to 60 degrees, furthermore, the angle is 45 degrees.

Here, the projection reflection member covers the package through the movable connection structure when the display device is not displayed or when the packaging box is not displayed and is covered. Furthermore, the projection reflecting member covers the package and then forms a box body with the package.

Further, when the display device is not displayed or when the packaging box is not displayed and is covered, the projection reflecting member covers the receiving structure of the package.

Further, when the display structure is not displayed or when the packaging box is not covered, the projection reflection member covers the support structure of the package.

Further, the support structure is formed with a receiving space for receiving the related parts of the electronic display device.

Next, details of the display and non-display process of the display device will be described in detail through specific display and non-display processes.

Wherein the projection reflection member moves under the action of an external force so that a predetermined space is formed between the first surface of the projection reflecting member and the display surface of the electronic display device, Thereby forming a virtual image. Since the space is a realistic scene, the finally formed virtual image is located in a realistic three-dimensional space. In particular, when the electronic display device displays a three-dimensional image, the combination of the three-dimensional image and the realistic scene overcomes the limitation of the display interface of the electronic display device so that people can experience a more realistic three-dimensional scene. For example, as described in the background section, when a three-dimensional image is displayed along a continuous path, in the case of a conventional three-dimensional display device, the road surface is not extended due to the limitation of the display boundary of the electronic display device, However, if the image is displayed on the display device of the present invention, it is possible to overcome such drawbacks, to realize the effect of displaying without boundaries, and to give an infinite imagination space to people. Of course, the display device of the present invention is not limited to the three-dimensional image display but can also display a two-dimensional image. The combination of two-dimensional and realistic three-dimensional space allows the user to experience a new experience.

When the projection reflecting member is brought into close contact with the package, the display device is in an undisplayed state, and the display device is apparently box-shaped.

 It is preferable that the embodiment of the present invention further includes a subsidiary functional unit, and the subsidiary functional unit includes the same configuration as in the first embodiment, and thus will not be described here.

Of course, when the electronic display device and the packaging box are combined into one product, they can be referred to as a packaging device. All such altered designations fall within the scope of protection of the present invention.

Example 3

10 to 13, the display device 100 includes an electronic display device 1 having a display surface (not shown) and a packaging box (not shown) ), A projection reflecting member 3, and a movable connection structure (not shown). The packaging body 2 includes a receiving structure 21 and a supporting structure 22 and the receiving structure 21 is for housing the electronic display device 1. [ The projection reflection member 3 includes a connection end 31 and a free end 32 facing the connection end 31. The projection reflection member 3 also has a first face 33 and a second face 33, Wherein the second surface 34 faces the receiving structure 21 and the connecting end 31 of the projection reflecting member 3 is located on the side opposite to the first surface 33, And is operatively connected to the support structure 22 via the movable connection structure. When the display device displays or when the packaging box receives and displays the electronic display device 1, the image displayed by the electronic display device 1 passes through the projection reflection member 3, A virtual image is formed on the second surface 34 side of the optical disc 3.

The support structure 22 is a hollow box and the support structure 22 is formed with a receiving groove that is open at least on one side of the support structure 22. The receiving structure 21 is formed at least on the support structure 22, It is a receiving groove which is open on one side. Thus, the image light emitted by the display surface 11 of the electronic display device 1 can be incident on the projection reflecting member 3. [ The support structure 22 includes a connection end 22a and a free end 22b facing the connection end 22a and the connection end 31 of the projection reflection member 3 is connected to the movable connection structure And is connected to the connection end 22a of the support structure 22 through the support structure 22. When the projection reflection member 3 covers the support structure 22, The free ends 22b of the support structure 22 are located at the same end.

Here, the projection reflecting member 3 includes a projection reflecting element 35 and a fixing member 36 for fixing the projection reflecting element 35, and the fixing member 36 is a transparent fixing member .

The projection reflecting element 35 of this embodiment is a device having a coating layer on its surface and capable of adjusting the projection reflectance according to an environmental light ray. Of course, when power is supplied, the projection reflection element 35 may use a liquid crystal glass element (also referred to as an electric control liquid crystal glass), and may adjust the light transmittance through voltage regulation in the energized state to adapt to the changing light environment have.

Here, since the movable connection structure 4 of this embodiment is the same as the movable connection structure of the first embodiment, it will not be described here. In addition, such a movable connection structure is not limited to the structure provided by the embodiment of the present invention, but may be other various conventional rotatable position fixing structures, for example, a hinge structure. Such a rotatable position fixing structure is common, so other embodiments will not be described further.

Next, how the display device in this embodiment is switched from the undisplayed state to the display state by combining FIG. 10 and FIG. 12 will be described in detail.

The projection reflecting member 3 is rotated with respect to the supporting structure 22 under the action of an external force so that the display surface 11 of the electronic display device 1 accommodated in the receiving structure 21, So that the first surface (33) of the base (3) is at a predetermined angle. In this manner, the image displayed by the electronic display device 1 can form a virtual image on the second surface 34 side of the projection reflecting member 3. [ In the present embodiment, the predetermined angle is 45 degrees. When there is no need to display, the projection reflecting member 3 covers the receiving structure 21.

Furthermore, the package of the present embodiment further includes the viewing angle adjusting mechanism 6, and the viewing angle adjusting mechanism 6 is the same as in Embodiment 1, and will not be described further herein. Of course, the viewing angle adjusting mechanism 6 is not limited to the structure provided in this embodiment. For example, the viewing angle adjusting mechanism 6 may be a movable adjusting mechanism operatively connected to a lower portion of the supporting structure, The supporting structure 22, the projection reflecting member 3 and the receiving structure 21 are rotated relative to the viewing angle adjusting mechanism 6 by operating the supporting structure 22, the projection reflecting member 3, The space between the receiving structures 21 is maintained in a relatively fixed state to implement the time adjusting function without affecting the image forming space of the virtual image.

It is preferable that the embodiment of the present invention further includes a subsidiary functional unit, which is the same as in the first embodiment, and will not be described here any further.

Example 4

14 to 17, a display device 100 includes an electronic display device 1 having a display surface (not shown) and a packaging box, the packaging box including a package 2, (Not shown), a movable connection structure (not shown), a reflective member 5 and a fixed connection structure (not shown), the package 2 including a receiving structure 21 and a supporting structure 22 , The receiving structure (21) is for housing the electronic display device (1). The receiving structure 21 includes a first connecting end 211 and a second connecting end 212 and the supporting structure 22 includes a first connecting end 221 and a second connecting end 222 And the second connection end 222 of the support structure 22 and the first connection end 211 of the reception structure 21 are connected through a fixed connection structure and the projection reflection member 3 is connected to the connection end 31 and a free end 32 facing the connecting end 31. The projection reflection member 3 includes a first surface 33 and a second surface 34 facing the first surface 33. The connection end 31 of the projection reflection member 3 has a first surface 33, And is operatively connected to the first connection end 221 of the support structure 22 through the movable connection structure. The reflective member 5 is attached to or fixed to the support structure 22. One end of the reflective member 5 is close to the first connection end 211 of the receiving structure 21, And is close to the connecting end 31 of the projection reflecting member 3. The reflecting member 5 and the receiving structure 21 form a constant angle, and in the present embodiment, the angle is 45 degrees. When the display device 100 displays or when the packaging box receives and displays the electronic display device, the image displayed by the electronic display device 1 passes through the projection reflection member 3, A virtual image is formed on the second surface 34 side of the optical disc 3.

Here, the display surface 11 of the electronic display device 1 received in the receiving structure 21 is installed at an angle of 45 degrees with the reflecting member 5. The reflecting surface 33 of the projection reflecting member 3 has a certain angle with the display surface 11 of the electronic display device 1 and the predetermined angle is an acute angle and preferably 30 to 60 degrees , And most preferably 45 degrees.

Here, since the projection reflecting member 3 is the same as the projection reflecting member of the third embodiment, it is not described here.

Since the movable connection structure 4 of this embodiment is the same as the movable connection structure of the first embodiment, this is not described here any further. By the same token, such a movable connection structure is not limited to the structure provided in the embodiment of the present invention, but may be other various conventional rotatable position fixing structures, for example, a hinge structure. Such a rotatable position fixing structure is common so that other embodiments will not be described further.

Next, how the display device in the present embodiment is switched from the non-display state to the display state and from the display state to the non-display state will be described in detail.

The projection reflecting member 3 is rotated with respect to the supporting structure 22 under the action of an external force so that the display surface of the electronic display device 1 housed inside the receiving structure 21 is rotated So as to form a predetermined angle with the first surface (33). In this manner, the image displayed by the electronic display device 1 can form a virtual image on the second surface 34 side of the projection reflecting member 3. [ When it is not necessary to display the projection reflection member 3, the projection reflection member 3 covers the receiving structure 21 and the supporting structure 22 under the action of an external force.

Furthermore, the package of the present embodiment further includes the viewing angle adjusting mechanism 6, and the viewing angle adjusting mechanism 6 of this embodiment is the same as the viewing angle adjusting mechanism of the first embodiment, and will not be described here. Since the visual adjustment mechanism 6 of this embodiment is simple and the entire structure is reasonable, when the viewing angle is adjusted through the viewing angle adjustment mechanism, the visual adjustment mechanism 6 influences the image formation space on the second surface 34 side of the projection reflection member 3 Do not. Of course, the viewing angle adjusting mechanism 6 is not limited to the structure provided in this embodiment. For example, the viewing angle adjusting mechanism 6 may be a movable adjusting mechanism movably connected to the lower portion of the supporting structure 22, The supporting structure 22, the projection reflecting member 3 and the receiving structure 21 thereof are rotated relative to the viewing angle adjusting mechanism 6 by operating the movable adjusting mechanism and the supporting structure 22, The relative fixation between the housing 3 and the receiving structure 21 can be maintained so that the viewing adjustment function can be implemented without affecting the image formation space of the virtual image.

It is preferable that the embodiment of the present invention further includes a subsidiary functional unit, and the subsidiary functional unit includes the same configuration as in the first embodiment, and will not be described here any further.

Example 5

18 and 19, the display device 100 includes an electronic display device 1 having a display surface (not shown) and a packaging box (not shown) A projection reflecting member 3 and a movable connection structure 4. The package 2 includes a receiving structure 21 and a supporting structure 22. [ The receiving structure 21 is for accommodating the electronic display device 1. The projection reflection member 3 includes a connection end 31 and a free end 32 facing the connection end, and the projection reflection member 3 also has a first surface 33, And the connecting end 31 of the projection reflecting member 3 is operatively connected to the supporting structure 22 via the movable connecting structure 4. The supporting structure 22 has a first surface 34 and a second surface 34, An image displayed by the electronic display device 1 is displayed on the projection reflection member 3 after passing through the projection reflection member 3 when the display device displays or when the packaging box receives and displays the electronic display device. A virtual image is formed on the second surface 34 side.

The receiving structure 21 of the present embodiment includes a hollow frame 211 and the frame 211 is provided in a hollow shape to form a receiving space 212 for receiving the electronic display device 1 The accommodation space 212 is adapted to the electronic display device 1. The receiving structure 21 includes a connecting end 21a and a free end 21b.

The support structure 22 is a hollow box body. The display device further includes a fixed connection structure (not shown), and the connection end 21a of the reception structure 21 is fixed to the connection end 31 of the projection reflection member 3 via the fixed connection structure , And the receiving structure (21) forms a fixed angle with the projection reflecting member (3). The fixed angle is an acute angle, preferably between 30 degrees and 60 degrees, and most preferably between 45 degrees.

The projection reflecting member 3 is subjected to an external force to pivot the receiving structure 21 into or out of the supporting structure 22. [

In this embodiment, the projection reflecting member 3 is the same as the projection reflecting member according to the third embodiment, and will not be described here.

Since the movable connection structure 4 of this embodiment is the same as the movable connection structure of the third embodiment, it will not be described here any further. In the same manner, such a movable connection structure is not limited to the structure provided by the embodiment of the present invention, but may be other various conventional rotatable position fixing structures, for example, a hinge structure. Such a rotatable position fixing structure is common so that other embodiments will not be described further.

Next, how the display device in the present embodiment is switched from the non-display state to the display state and from the display state to the non-display state will be described in detail.

The projection reflecting member 3 rotates with respect to the supporting structure 22 under the action of an external force so that the display surface of the electronic display device 1 received in the receiving structure 21 and the reflecting surface of the projection reflecting member 3, So that the first surface 33 of the first lens unit 30 forms a predetermined angle. In this manner, the image displayed by the electronic display device 1 can form a virtual image on the second surface 34 side of the projection reflecting member 3. [ When it is not necessary to display, the projection reflecting member 3 covers the supporting structure 22. [

The present embodiment may further include a visual adjustment mechanism, and the visual adjustment mechanism is the movable connection structure. That is, the movable connection structure not only functions to actively connect the projection reflection member and the support structure, but also has a function of adjusting the viewing angle. Specifically, the projection reflecting member is rotated by the receiving structure in response to the action of the movable connecting structure. Since the accommodation structure and the first surface of the projection reflecting member form a fixed angle, the space in which the virtual image on the second surface side of the projection reflecting member is located can be adjusted without affecting the formation of the virtual image of the electronic display device, It controls the time. Further, since the projection reflecting member of this embodiment is operatively connected to the edge of the supporting structure, it hardly affects the image forming space of the virtual image on the second surface side of the projection reflecting member in the process of adjusting the viewing angle.

It is preferable that the embodiment of the present invention further includes a subsidiary functional unit, and the subsidiary functional unit includes the same configuration as the first embodiment, and will not be described here any further.

Embodiment 3

Example 6

20 to 22, FIG. 20 is a schematic view showing an electrical connection structure of a packaging box and an electronic display device in a display device according to a sixth embodiment of the present invention, FIG. 21 is a schematic view Fig. 22 is a schematic circuit diagram of an electronic display device according to a sixth embodiment of the present invention. Fig. As shown in Fig. 20, the packaging box 180 and the electronic display device 1 are electrically connected. The packaging box 180 and the electronic display device 1 transmit signals. There are various ways in which the packaging box 180 and the electronic display device 1 are electrically connected to each other. The packaging box 180 may be a direct connection by a wire and may be an electrical connection by radio, for example, a Bluetooth communication system, ), A WiFi method, an RFID communication method, or a connection method using a USB interface module.

21, the packaging box 180 includes a first control unit 120, a first storage unit 130, a first display unit 140, and a first communication unit 150, The control unit 120 is connected to the first storage unit 130, the first communication unit 150 and the first display unit 140, respectively. The first control unit 120 is for controlling the entire packaging box. For example, the first control unit 120 may be a central processing unit (CPU) or a digital signal processor. The first storage unit 130 is for storing information necessary for operation of the package box, and includes one RAM (RAM) and one ROM (ROM). The RAM is an operating memory and the ROM stores codes and instructions for controlling the entire packing box 180 by the first control unit 120. [ The first communication unit 150 is for establishing communication between the packaging box 180 and the electronic display device 1 or the network and the first communication unit 150 is a USB interface module, a WIFI module, an NFC communication module, an RFID A communication module or a Bluetooth communication module. It is preferable to use a USB interface module. The USB interface module includes a USB control module and a USB interface. The USB control module controls a USB interface module. The USB interface is connected to the USB interface of the electronic display device 1 And transmits the data. The USB interface is also used as a power supply interface, so that the electronic display device 1 can be charged by using a power source on the packaging box or an external connection power source. The first display unit 140 displays control information for controlling the electronic display device 1 by the packaging box. The first display unit 140 is preferably a touch display screen. When the control information for controlling the electronic display device 1 is displayed on the touch display screen, the user directly operates the touch display screen to display the electronic display device 1 ). ≪ / RTI > The packaging box 180 can externally connect a city alternating current or a DC power source to supply electric power.

Further, based on any of the embodiments described above, in one specific embodiment, the packaging box may further include a power source 110 for providing operating power to the circuitry of the entire packaging box, as shown in Fig. Also, the power source 110 can charge the electronic display device 1 as a charging power source, so that the packaging box 180 can be used as a mobile power source. The power source 110 may be a battery, a solar cell, a fuel cell, or an energy charging device. Since the packaging box 180 can be used as a mobile power source, the user's experience of using the packaging box can be improved.

Further, on the basis of any of the above-described embodiments, in one specific embodiment, the packaging box of the present invention further includes a photographing unit 160. [ The photographing unit 160 is for photographing an image and transmitting the photographed image to the electronic display device 1 or the packing box 180. Thus, the packaging box 180 can also be used as a camera, allowing the user to experience a new experience.

Further, based on the above-described arbitrary embodiment, in a specific embodiment, the packaging box 180 of the present invention further includes an audio amplifier such as a sound device, and the audio amplifier is controlled by the control of the first control unit 120 . Audio data such as music is stored in the first storage unit 130 of the packaging box 180 and the packaging box 180 can be used as a music reproduction apparatus since the audio equipment is installed, Can be reproduced through the packaging box 180. [0064] In this way, the user's experience with the packaging box is improved.

Furthermore, in one specific embodiment, the packaging box 180 of the present invention further includes a first image processing unit, which is connected to the first control unit 120, And processes the received image information and displays the image on the first display unit 140 or on the electronic display device 1 after the processing. For example, when the electronic display device 1 is controlled through the packaging box 180, when the packaging box 180 receives the control information transmitted by the electronic display device 1, And generates corresponding icons easily recognizable by the user on the basis of the control information. For example, when the electronic display device 1 is called, the control information is transmitted to the package box 180, and the first image processing unit correspondingly generates a normal call connection and a call termination icon based on the control information, 1 display unit 140 as shown in FIG. When the first display unit 140 is the touch display screen, the user can directly use the icon corresponding to the touch control to make a call connection or terminate the call. Of course, in the case of not the touch display screen, the user can operate the input device which is externally connected after viewing the displayed icon or by using the button provided in the packing box. The first image processing unit generates the corresponding icon based on the control information and displays it on the first display unit of the package box, so that it becomes convenient for the user to control the electronic display device through the package box. In addition, the first image processing unit can process an image to be displayed by the electronic display device, and this function is the same as that of the image processing unit 220 of the electronic display device described below. Can be referenced.

22, the electronic display device 1 of the present invention includes a second control unit 210, a second storage unit 230, a second display unit 240, and a second communication unit 250 And the second control unit 210 is connected to the second storage unit 230, the second display unit 240 and the second communication unit 250, respectively. The second control unit 210 is for controlling the entire electronic display device 1. For example, the second control unit 210 is a CPU (central processing unit) or a digital signal processor. The second storage unit 230 is for storing information required for operation of the electronic display device, and includes one RAM (RAM) and one ROM (ROM). The RAM is an operating memory and the ROM stores codes and instructions for controlling the entire packing box 180 by the second control unit 210. [ The second communication unit 250 is for communicating with the first communication unit 150 or network of the packaging box 180 and the second communication unit 250 is for communicating with the USB interface module, the WIFI module, the NFC communication module, the RFID communication Module or a Bluetooth communication module. It is preferable to select a USB interface module, and the USB interface module includes a USB control module and a USB interface. The USB control module controls the USB interface module, and the USB interface is connected to the USB interface of the packing box 180 to implement data transmission. The second display unit 240 displays an image, for example, a two-dimensional image or a three-dimensional image. The second display unit 240 may be any one of a liquid crystal display, an OLED display, and an LED display.

Further, based on any of the above-described embodiments, in one specific embodiment, the electronic display device 1 further includes an image processing unit 220. [ The image processing unit 220 processes the image to be displayed by the second display unit 240 and transmits it to the second display unit 240 for display after processing. The specific processing method of the image processing unit 220 is the same as that of the image processing according to the fourth embodiment, and will not be described here any further.

Embodiment 4

Embodiment 4 of the present invention provides a display method of an electronic display device based on the mechanical structure of the display device and the circuit structure of the display device according to Embodiments 1 to 3 above. Of course, such a display method is not limited to the mechanical structure of the display device and the circuit structure of the display device described in the first to third embodiments, and the mechanical structure of the display device described in the first to third embodiments and the circuit Simple modifications based on the structure are also within the scope of protection of the present invention. In order to maintain the simplicity of the specification, the mechanical structure of the display device and the circuit structure of the display device are not further described in the following embodiments.

Example 7

First, in order to help understand the display method of the electronic display device according to the present invention, the present invention is based on the configuration of the display device according to the first embodiment. However, the present invention is not limited to the configuration of the display device according to the first embodiment, and the configuration of the display device according to other embodiments and various modified configurations based thereon are also applied. Next, the display principle for displaying the image displayed by the electronic display device on the packaging box according to the present invention will be described by combining the drawings.

23 shows a schematic view of the principle of image formation of the display device according to the present invention. Here, the electronic display device may be a mobile phone, a computer, a game machine, a flat display device, or the like capable of displaying a two-dimensional screen. 23, reference numeral 101 denotes a plane in which the receiving structure is located, reference numeral 102 denotes a plane in which the projection reflecting member is located, and reference numeral 103 denotes a plane in which the supporting structure is located. If the user places the cell phone on the receiving structure, that is, if the cell phone screen is located in the plane 101, the light rays representative of the signal strength of the point A, emitted at an arbitrary point A on the cell phone screen, Since the angle between the receiving structure and the projection reflecting member is less than 90 degrees after entering the spectator's eye due to the reflection of the member, the viewer sees the image of point A at the point B behind the projection reflecting member. In addition, since the projection reflection member has the projection ability, the viewer also sees the real object and the scene behind the projection reflection member, thereby realizing a display effect in which the virtual image and the real world are merged.

24A is a schematic view of the image forming principle of a conventional baffle type stereoscopic display device, and FIG. 24B is a schematic view of the image forming principle of a baffle type stereoscopic display device of the present invention. The electronic display device may be a mobile phone, a computer, a game machine, or the like capable of displaying a three-dimensional screen. 24A shows a screen of the electronic display device on a plane 104, in which a and b represent points corresponding to the same point of the actual scene at the left eye view and the right eye view having time lags, c and d represent the left eye view and the right eye, And points corresponding to other identical points in the actual scene at the time. The rays emitted from points a, b, c, and d pass through any device capable of directing spectroscopy to the rays of a lens array, a parallax barrier array, And synthesized in the cerebrum to obtain two points of E and F, respectively. In FIG. 24B, the case where the projection reflecting member is parallel to the receiving structure is exemplified. On the basis of FIG. 24A, after placing one projection reflecting mirror 105 in parallel in front of the plane 104, The image point formed after passing through the liquid crystal panel 105 is a '. The same equals b ', c', d 'are stores of b, c, and d, respectively. The stereoscopic shop observed by the viewer through the projection reflecting mirror 105 changes into E 'and F', and forms a three-dimensional sensation. However, in comparison with the existing stereoscopic display effect, the positions of E 'and F' observed by the spectator in FIG. 24B are the images in which E and F observed by the viewer in FIG. 24A are mirrored along the horizontal axis. In this case, the user sees an image that is displayed by the electronic display device.

As shown in Fig. 25, the user can see through the spectacles 106 a shop a 'and a shop a' behind the projection reflection mirror 103 at two points a and b having parallaxes on the plane 101 on which the display screen of the electronic display device is located, And b '. When the light emitted from point a enters the right eye through the right eye lens and the light emitted from point b enters the left eye through the left eye lens, the angle between the mounting plane 101 and the projection mirror 102 The light rays emitted from a and b are reflected through the projection reflection mirror 102 and enter the user's glasses. The user wears the stereoscopic glasses and projects the projected reflection mirror 102 to the three- You will see the shop (E).

Reference is made to Fig. 26 based on the description of the image forming principle of the display device including the bell-shaped stereoscopic display device and the spectacles stereoscopic display device. Fig. 26 shows a flowchart of a display method of an electronic display device according to a seventh embodiment of the present invention. As shown in Fig. 26, the display method includes the following steps.

S1, an image processing step for processing the image information to be displayed by the electronic display device. Here, the image information includes characters, pictures and video.

The image processing step specifically includes sub-steps below.

S11, a video reversal processing step for performing an inversion operation on an image to be displayed. Since a mirror image of the image displayed by the electronic display device is displayed on the packaging box, it is necessary to reverse the image to be displayed so that the image displayed on the packaging box is displayed normally.

27A and 27B, FIG. 27A is an image displayed in a state in which the electronic display device according to the seventh embodiment of the present invention does not undergo image reversal processing, FIG. 27B is a view showing an electronic image according to the seventh embodiment of the present invention And the display device is the image displayed after using the image reversal processing of the present invention. 27A and 27B, when the image processing is not performed, the geometric figures such as the polygon ABCDEFG, the trapezoid HIJK, and the character TEXT displayed by the electronic display device proceed in a manner that conventional electronic display devices normally display, The packaging box of the present invention is embodied as an image in which the right and left sides are exchanged with each other. According to the principle of mirroring, the polygon ABCDEFG originally located on the left side of the trapezoid HIJK appears on the right side of the trapezoid HIJK, and at the same time the point A of the polygon ABCDEFG changes from the leftmost side of the trapezoidal HIJK to the rightmost side of the trapezoidal HIJK. At the same time, the displayed character TEXT changes in accordance with the principle of mirroring as described above. The image displayed in this way is a single inlaid image, which degrades the user experience. It is necessary to further enhance the user experience by performing image processing on the image to be displayed by the electronic display device so that the image displayed on the packaging box is normally displayed. Specifically, it is necessary to perform image reversal processing in a customized manner according to the type of the image information to be displayed, and to reverse the image to be displayed by the electronic display device as shown in Fig. 27B. In this way, the user sees the normal image shown in Fig. 27A in the packaging box. The concrete steps of the image reversal processing are as follows.

Step 1, Image preprocessing step for preprocessing the image information. Specifically, the image preprocessing includes recognizing image information including a character, a picture, and a video, and performing a corresponding preprocessing according to different image information. More specifically, when the video information is a picture, it is not necessary to perform a pre-processing on the picture. When the video information is a character, the bitmap picture corresponding to the character is redrawn. In case of video, (I.e., a picture corresponding to each frame).

Step 2, rearranging the image pixels rearranging the pixels of the picture after preprocessing. The rearrangement of picture pixels can be implemented in the following manner. That is, the pixels of a picture of a width include an M × N matrix array, and the N pixels of the first row are 0, 1, 2, 3 ... N-3, N-2, N-1, and N, the order should be changed. That is, the rightmost pixel N is arranged at the leftmost pixel 0 position, the pixel N-1 is arranged at the position of the pixel 1, and the pixel N-2 is arranged at the position of the pixel 2. Through the arrangement, the image is inverted.

According to the image reversal processing method described above, the image displayed by the electronic display device can be normally displayed on the packaging box of the present invention, and the user can normally view the image displayed by the electronic display device in the packaging box. The user does not have to open the packaging box to open out the electronic display device, and the user can also directly experience various display effects and functional effects of the electronic display device.

S12 is a display luminance / contrast adjusting step, which adjusts the luminance / contrast of the image to be displayed by the electronic display device and / or adjusts the gamma value of the electronic display device based on the intensity of the surrounding environment of the packaging box, By adjusting the display brightness and contrast of the electronic display device and / or by adjusting the gamma value of the electronic display device, the display effect of the image in the packaging box is improved.

In a specific embodiment, the adjustment of the display brightness / contrast is implemented through the following steps.

A light-sensitive element is installed in an electronic display device or a packaging box, and a luminance data value of the environment surrounding the current packaging box is obtained through the light-sensitive element. And calculates a difference value between the luminance data value and a predetermined threshold value (luminance data value corresponding to display of the electronic display device in a normal environment). If the difference value is a positive value, it indicates that the surrounding environment of the packaging box is relatively bright, which is disadvantageous to the image display on the packaging box. In this case, the brightness / contrast of the image is adjusted or the gamma value of the electronic display device is adjusted Should be. If the difference value is a negative value, the brightness / contrast of the image must be adjusted correspondingly or the gamma value of the electronic display device must be adjusted accordingly based on the magnitude of the negative value. For example, as the luminance of the environment surrounding the packaging box is reduced, the brightness / contrast of the image is appropriately reduced and the gamma value of the electronic display device is adjusted. In this manner, the power consumption of the electronic display device is further reduced while satisfying the normal display effect. As another example, as the luminance of the environment surrounding the packaging box is reduced, the display effect of the electronic display device can be improved even without changing the luminance / contrast of the image and the gamma value of the electronic display device. A typical method is to construct a table based on the environmental brightness, the luminance / contrast of the image correspondingly and the gamma value of the electronic display device, and calculate the difference value and the brightness / contrast of the image or the electronic display device A correspondence relationship is established for the gamma value. Contrast value of the image or the gamma value of the electronic display device correspondingly to the corresponding difference, the luminance / contrast value of the current image or the gamma value of the electronic display device is converted into the luminance / contrast value of the image corresponding to the difference value Brightness / contrast value or the gamma value of the electronic display device. Of course, the brightness / contrast value of the image and the gamma value of the electronic display device can be adjusted simultaneously according to the brightness of the ambient light.

In more detail, in a specific embodiment, the luminance / contrast value of an image and / or the gamma value of an electronic display device may be adjusted using the following specific steps to achieve a display effect adapted to the environmental luminance.

Step 1, a threshold value in the case where an image is displayed in a normal environment is set in advance, the threshold value is 50, the value in a dark room environment is 0, and the value in a strong light condition is 100.

Step 2, the data of the photosensitive element is obtained in real time, the data of the photosensitive element is collected, and the corresponding value is converted accordingly.

Step 3, the difference value between the numerical value of the photosensitive element and the threshold value is obtained. Assuming that the difference value is?, It is explained that the environment light is bright when?> 0, and the environmental light is brighter as the? Value is larger, and the brightness / contrast value of the image and / or the gamma value of the electronic display device are correspondingly Explain that you need to make adjustments. It is explained that the environment ray is dark when? < 0, the ambient light becomes darker with smaller? value, and the luminance / contrast value of the image and / or the gamma value of the electronic display device need to be adjusted correspondingly .

When the brightness / contrast of a width image can be adjusted using a simple image gradation linear transformation, the computation formula for adjusting the brightness / contrast is as follows.

y = [x-127.5 x (1-B)] k + 127.5 x (1 + B)

Here, x is the pixel value before the adjustment and y is the pixel value after the adjustment.

Where B takes [-1,1] and is used for brightness control, and k is used for contrast control. Since arctan (k) takes [1,89], k = tan ((45 + 44 × c) / 180 × Π). Where c takes [-1,1]. Generally, the contrast is set using the above values.

In particular, when B = 0, y = (x-127.5) x k + 127.5, where only the contrast is controlled. When c = 0, when k = 1, when y = x + 255 x B, only the luminance is adjusted.

Adjusts the brightness / contrast of the image and / or adjusts the gamma value of the electronic display device according to the ambient light luminance around the packaging box. By doing so, the screen effect of the image displayed on the packaging box can be improved, and the real feeling of fusion of virtual reality and reality can be improved.

S2, a display step of displaying the image displayed by the electronic display device on the packaging box. The electronic display device displays the image subjected to the image processing described above, and the image displayed by the electronic display device is displayed on the packaging box according to the structure of the packaging box described above.

According to the display method of the electronic display device of the present invention described above, the image displayed by the electronic display device is displayed on the packaging box, and the image displayed by the electronic display device and the surrounding environment in which the packaging box is located are fused Realize the fusion of virtual and reality. Not only does the packaging box be easily discarded, but also allows the user to have a desirable experience.

Example 8

Referring to FIG. 28, FIG. 28 is a flowchart of a display method of an electronic display device according to an eighth embodiment of the present invention. As shown in Fig. 28, the display method of the electronic display device according to the eighth embodiment of the present invention is different from the display method of the electronic display device according to the seventh embodiment of the present invention in the following aspects. In other words, in addition to displaying the image displayed by the electronic display device in the display box of the step S2 in the package box, it further includes the following step before step S2 in one embodiment.

S112, a step of confirming a state of putting the electronic display device. More specifically, when the electronic display device is in a resting state in which the electronic display device is placed at a specified position of the packaging box, the image displayed by the electronic display device is displayed on the packaging box More fully displayed, and can have a more preferable image display effect. In addition, when the electronic display device is not in the designated position, the display signal is outputted to present to the user that the electronic display device is to be put in the set position. There are many ways to make decisions, for example using a multi-axis gyroscope, orientation sensor, or a USB interface module of a USB device on a packaging box. Preferably, when the USB interface module of the USB device on the packaging box is used and the packaging box and the electronic display device are both in an operating state when the electronic display device is placed in the packaging box, the USB interface module And the USB interface module of the USB device on the packaging box are electrically connected and the electronic display device is placed at the specified position. On the other hand, in one modified embodiment, the state of the electronic display device on the packaging box includes a normal laying state and a turned state. Herein, the normal putting-down state indicates that the electronic display device is in the specified position of the packaging box, and the in-put state indicates that the electronic display device has a phase difference of 180 degrees from the case where it is normally placed, that is, And is rotated 180 degrees on the same horizontal plane.

S1 ', a step of processing the image information to be displayed by the electronic display device. At this time, the image reversal processing of the existing step S11 'includes the following steps.

S11a, a step of judging whether the electronic display device is in a normal laying state or in an inoperative state.

S11b, a step of inverting the image to be displayed in accordance with the state of laying of the electronic display device. In the case where the electronic display device is in the normal putting state, the mode is reversed by the method of Figs. 27A and 27B of Embodiment 7, and when the electronic display device is in the inching state, the image to be displayed is also inverted according to the mirroring principle. This is similar to the image reversal processing in the seventh embodiment, and differs only in the following aspects. That is, the rearrangement of the image pixels at this time depends on the way that the M pixels in the first column are exchanged in order from top to bottom. The exchange method is similar to the right and left exchange method. That is, the first pixel of the first row is exchanged with the first pixel of the Mth row, and the second pixel of the first row and the second pixel of the Mth row are exchanged. For example, the pixels of the first row and the pixels of the M-th row may be exchanged, and the pixels of the second row and the pixels of the M-1-th row may be exchanged, I will not explain it here anymore.

Further, based on any of the above-described embodiments, the display method of the electronic display device according to the present invention in one modified embodiment further includes the following steps.

S113, a step of recognizing the type of the electronic display device. Here, the type of the electronic display device includes a mobile communication terminal, a flat panel display, a personal computer, a game device, and an operating system installed in each of them. After the electronic display device is mounted on the packaging box, the image formats required by the different types of electronic display devices are different from each other, for example, the stereoscopic image format and the general plane image format are different from each other. There is also a difference in the effect displayed in electronic display devices of the type. For example, when a picture suitable for displaying a mobile communication terminal is displayed on a game device of a different operating system, there is a difference in the display effect.

S114, a step of downloading an image matching the electronic display device type. The electronic display device is connected to the network in a conventional wired or wireless manner, for example, and downloads an image matching an electronic display device type from an application store. For example, when a mobile communication terminal having an android operating system is connected to a network, an image suitable for the mobile communication terminal is automatically searched and downloaded and displayed on the mobile communication terminal. The downloaded image may preferably be stored in an electronic display device or a packaging box and stored in an electronic display device.

Further, based on any of the above-described embodiments, the display method of the electronic display device according to the present invention in one modified embodiment further includes the following steps.

S115, a step of determining whether the electronic display device is in the three-dimensional display mode, and if the electronic display device is not in the three-dimensional display mode, the process directly goes to step S1;

S116, a step of obtaining position information of the spectator. Specifically, the viewer is traced using the tracking device mounted on the packaging box to determine the position of the viewer.

S117, a step of mixing and arranging the pixels of the stereoscopic parallax image. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view. For example, the step of mixing and arranging the pixels of the stereoscopic parallax image includes the following steps.

Step 1, a pixel array index coefficient table is constructed. Specifically, a width of a stereoscopic image is divided into a left eye image L and a right eye image R, and the current left eye image L is divided into three sub pixels, that is, a red sub pixel value L _R , The right subpixel value L _G and the right subpixel value L _B and the right eye image R includes three subpixels, that is, a red subpixel value R _R , a green subpixel value R _G , Value (R _B ). In a typical case, the mixed pixel value of a width of a stereoscopic image has one stereoscopic display area which is relatively fixed as merely a mixture of left and right pixels, and when the spectator is not located in the area, images are overlapped, , And it is necessary to appropriately adjust the mixing ratio coefficient of the left eye image and the right eye image, that is, the pixel array index coefficient (k), depending on the viewer's position. The pixel array index coefficient (k) can be verified by experiments. When obtaining the most preferable stereoscopic image from different angles, the mixing ratio of the left eye image and the right eye image is analyzed to determine the k value of the corresponding viewing angle, And the k value of the pixel array index coefficient table. Of course, k values can be determined in other ways, for example, a linear function or a mathematical model of a non-linear function can be used. Determining the pixel array index coefficients may also be implemented using various other prior art techniques and is not described further herein.

Step 2, the pixel array index coefficient corresponding to the viewer position is inquired according to the position of the spectator. This is because a one-to-one correspondence relationship between the viewer position and the pixel array index coefficient is established in the pixel array index coefficient table.

Step 3, rearrange the sub-pixels of the stereoscopic image. For example, the following formula is implemented by the pixel array coefficient index table of the constructed sub-pixel to obtain mixed pixel values of new stereoscopic images.

N _R = L _R x k + R _R (1-k);

N _G = L _G x k + R _G (1-k);

N _B = L _B x k + R _B x (1-k);

Here, k is a pixel array index coefficient, 0? K? 1.

The above is only a simple example, and the mixed arrangement of the stereoscopic parallax image pixels of the present invention can be realized by using other conventional methods, and will not be described here.

Then, step S1 'is executed.

The display method of the electronic display device improves the display effect when the three-dimensional image is displayed on the packaging box. At the same time, through the structure of the packaging box according to the present invention, when the box surrounding environment of the packaging box is a realistic scene, the finally formed virtual image is located in a realistic three-dimensional space. In particular, when the electronic display device displays a three-dimensional image, the combination of the three-dimensional image and the realistic scene overcomes the limitation of the display interface of the electronic display device, thereby allowing people to experience a more true three-dimensional scene. For example, as described in the background section, when a three-dimensional image is displayed on a three-dimensional continuous road, when the three-dimensional image is displayed on a conventional three-dimensional display device, However, when the image is displayed on the display device according to the present invention, it is possible to overcome the above disadvantages and realize an effect of displaying without a border and give an infinite imagination space to people. Of course, the display device according to the present invention can be used not only for a three-dimensional image display but also for a two-dimensional image display, and can enable people to experience a new experience by combining a two-dimensional image and a realistic three-dimensional space.

In addition, in some applications, such as a shooting game game application or a car racing game application, when a user moves his / her body, a tracking device of a packaging box detects a change in a user's observation position or time, The present invention realizes an effect similar to that in which the user tilts to see more scenes by changing the position of the user, thereby increasing the display hobbies of the packaging box and improving the user experience.

Example 9

29 is a flowchart of a method of displaying an electronic display device according to the ninth embodiment of the present invention. As shown in Fig. 29, the display method of the electronic display device according to the ninth embodiment of the present invention includes the following steps.

S10, a confirmation step to confirm the electrical connection between the packaging box and the electronic display device. Here, the electrical connection between the packaging box and the display device is mainly performed by a wire connection, a pair of USB interface modules, a WiFi connection, an NFC connection, a Bluetooth connection, or an RFID Method connection.

Specifically, the checking step includes the following substeps:

S11, a receiving sub-step of receiving an electrical signal transmitted by the electronic display device,

S12, and a confirmation sub step of returning one response signal to the electronic display device after the packaging box receives the electrical signal. The electrical connection between the electronic display device and the packaging box is confirmed through the above-described method.

S20, an image processing step of processing the image information to be displayed by the electronic display device. Is the same as step S1 in the seventh embodiment, and will not be described here any further.

S30, a display step of displaying the image displayed by the electronic display device on the packaging box. Is the same as step S2 of the seventh embodiment, and will not be described here any further.

The eighth embodiment and the seventh embodiment of the present invention are different from each other in step S10. If it is confirmed in step S10 that communication is established between the electronic display device and the packaging box, It is possible to conveniently control the electronic display device through the packaging box or to charge the electronic display device through the packaging box.

The display method of an electronic display device according to the present invention is a display method of an electronic display device in which an image displayed by an electronic display device is displayed on a packaging box so that a packaging box and an electronic display device establish a communication connection, So that the electronic display device can be charged through the packaging box. Thus, the packaging box is used as a moving power source. Not only does the packaging box not be easily discarded, but also allows the user to experience a new experience.

Example 10

Referring to FIG. 30, FIG. 30 is a flowchart of a display method of an electronic display device according to a tenth embodiment of the present invention. As shown in Fig. 30, the display method of the electronic display device according to the tenth embodiment of the present invention and the ninth embodiment of the present invention are different from each other in addition to the steps S10, S20, and S30, .

S40, displaying the control information of the electronic display device on the packaging box. Specifically, a display screen is provided on a box body of the packaging box, and the packaging box receives a signal including information to be controlled for the electronic display device as a signal transmitted by the electronic display device. After receiving the signal, the packing box displays control information for the electronic display device included in the signal on the display screen.

S50, the packaging box transmits the control information to the electronic display device. Based on the control information for the electronic display device displayed on the packaging box, the control information is transmitted to the electronic display device through the packaging box to implement the control for the electronic display device.

The display method of the electronic display device according to the tenth embodiment of the present invention implements the control of the package box with respect to the electronic display device through the above-described steps. In this manner, in the packaging box in which the electronic display device is housed, not only the display image of the electronic display device can be displayed on the packaging box, but also the control on the electronic display device is implemented through the packaging box, . On the other hand, since the operation control of the electronic display device is not required, the problem that the user frequently tears the packaging box or damages the packaging box when the electronic display device is housed in the box body of the packaging box is reduced.

Specifically, an application example of the control of the packaging box with respect to the display device will be described with reference to Figs. 31A, 31B and 31C. 31A is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention, showing control information for music reproduction of the electronic display device. FIG. 31B is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention, showing control information for a case where an electronic display device is called. FIG. 31C is a diagram showing a display screen of a packaging box in a display method of an electronic display device according to a tenth embodiment of the present invention, showing control information for a case of displaying a web page of the electronic display device. 31A, when the electronic display device reproduces the music, the electronic display device transmits information for controlling the music reproduction to the packaging box, and the packaging box receives the information for controlling the music reproduction, And displays the icon on the display screen of the packaging box. Preferably, the display screen is a touch display screen, the icon code 91 is a virtual button for controlling the music reproduction / stop, and the icon code 92 is a fast forward virtual button for switching the music to the next music. When the user tries to stop the music reproduction by touching the virtual button 91, the packaging box receives the control information input by the user, and then transmits a corresponding control command to control the electronic display device to stop the music reproduction . Similarly, when the user tries to listen to the next music, if the virtual button 92 is touched, the packaging box controls the electronic display device to transmit the corresponding control command after receiving the user's command to switch the music to the next music.

31B, when the electronic display device is a mobile communication terminal, when the mobile communication terminal is called, the mobile communication terminal transmits the call-related control information to the packaging box, After receiving the control information, the associated virtual buttons 93 and 94 are generated on the touch display screen. Here, the virtual button 93 is a call connection button and 94 is a call end button. The user can touch the corresponding virtual button according to his / her needs, and the packing box transmits the corresponding control information to the electronic display device to implement a call connection or a call termination. Further, in addition to the virtual buttons 93 and 94, the electronic display device may transmit the sender's basic information, for example, a contact name, a telephone number, and the like to the package box, The basic information of the contact person can be displayed on the screen. In this way, the user does not have to operate the electronic display device in a flickering manner when viewing the image displayed by the electronic display device, which is displayed on the packaging box, thereby enhancing convenience for the user.

Similarly, as shown in FIG. 31C, when a user accesses the network through an electronic display device and views an article, a web page displayed by the electronic display device is displayed in the packaging box. The electronic display device transmits the control information of the web page to the packaging box, and the packaging box displays the virtual buttons 95, 96, 97 and 98 corresponding to the touch display screen after receiving the control information of the web page. Here, 95 is a retreat button, 96 is a move up button, 97 is a move down button, and 98 is a forward button. The user can arbitrarily browse the contents of the web page through the virtual buttons 95, 96, 97 and 98 when browsing the web page. Furthermore, in addition to the virtual buttons 95, 96, 97 and 98, when displaying a web page, the electronic display device can also transmit URL information and the like to the packaging box. The packaging box receives the URL information, Display on the display screen. Here, the URL information includes a website and a site name. The user can input the URL information or the like on the touch display screen of the packaging box to carry the electronic display device and input the effect. Briefly, a URL display field of one touch display screen is displayed. When the user selects a text box, a virtual keyboard pops up for the user to input. Through the above-described control method for the web page, the user has a new user experience.

Example 11

In accordance with the seventh to tenth embodiments, the present invention provides a display device, wherein the display device includes a packaging box and an electronic display device, the electronic display device is housed in a packaging box, Is for displaying an image displayed by the electronic device. 32 is a schematic view of a module of a display apparatus according to Embodiment 11 of the present invention. Here,

An image processing module 310 for processing image information to be displayed by the electronic display device,

And an electronic display module 320 for displaying the image displayed by the electronic display device on the packaging box.

Further, in one modified embodiment, the display device further includes a confirmation module 300 for confirming an electrical connection between the package box and the electronic display device, and the confirmation module 300 is connected to the image processing module 310 .

Furthermore, in one modified embodiment, the display device includes a control information display module 330 for displaying the control information of the electronic display device on the packaging box, a control for transmitting the control information to the electronic display device And an information transmission module 340. The sequential connections are as follows. The confirmation module 300 is connected to the image processing module 310. The image processing module 310 is connected to the electronic display module 320 and the electronic display module 320 is connected to the control information display module 330 And the control information display module 330 are connected to the control information transmission module 340.

Further, the display device further includes an execution module 350 for executing a corresponding operation based on the received control information. The execution module 350 is connected to the control information transmission module 340.

It should be noted that the image processing module 310, the electronic display module 320 and the execution module 350 may be installed in the electronic display device and the verification module 300, the control information display module 330, The control information transmitting module 340 may be installed in the package box. Of course, the present invention is not limited to such an installation method, and other installation methods for implementing the display device of the present invention may be used.

The display device according to the present invention implements control of the packaging box for the electronic display device. Thus, the packaging box in which the electronic display device is housed can not only display the image displayed by the electronic display device on the packaging box, but also can implement control over the electronic display device through the packaging box, . On the other hand, since there is no need to operate the electronic display device directly, the case where the user often breaks the packaging box or damages the packaging box when the electronic display device is housed in the box body of the packaging box is reduced.

Example 12

Referring to Fig. 33, Fig. 33 is a flowchart of a display method of an electronic display device according to a twelfth embodiment of the present invention. As shown in Fig. 33, the display method of the electronic display device according to the twelfth embodiment of the present invention further includes the following steps between step S10 and step S20 based on the eleventh embodiment.

S112, a step of confirming a state of putting the electronic display device. Specifically, it is determined whether the electronic display device is in the set position of the packaging box. If the electronic display device is placed in a resting state at the designated position of the packaging box, the image displayed by the electronic display device And can have a more preferable image display effect. If the electronic display device is not in the set position, the presentation signal is sent to present the electronic display device to the user to put the designated display position. There are many ways to make decisions, for example using a multi-axis gyroscope, orientation sensor, or a USB interface module of a USB device on a packaging box. Preferably, when the USB interface module of the USB device on the packaging box is used and the packaging box and the electronic display device are both in an operating state when the electronic display device is placed in the packaging box, the USB interface module And the USB interface module of the USB device on the packaging box are electrically connected and the electronic display device is placed at the specified position.

Further, based on the above-described embodiment of the present embodiment, in one modified embodiment, the display method of the electronic display device according to the present invention further includes the following steps.

S113, a step of recognizing the type of the electronic display device. Here, the type of the electronic display device includes a mobile communication terminal, a flat panel display, a personal computer, a game device, and an operating system installed in each of them. There is a difference in the effect that the image formats required by different types of electronic display devices are different from each other and the same images are displayed in different types of electronic display devices after the electronic display devices are installed in the packaging box. For example, when a picture suitable for displaying a mobile communication terminal is displayed on a game device of a different operating system, there is a difference in the display effect.

S114, a step of downloading an image matching the electronic display device type. The electronic display device is connected to the network in a conventional wired or wireless manner, for example, and downloads an image matching an electronic display device type from an application store. For example, when a mobile communication terminal having an Android operating system is connected to a network, an image suitable for the mobile communication terminal is automatically searched for and downloaded to an electronic display device for display.

Further, based on any one of the above-described two embodiments of the present embodiment, in one modified embodiment, the display method of the electronic display device according to the present invention further includes the following steps.

S115, a step of determining whether the electronic display device is in the three-dimensional display mode, and if the electronic display device is not in the three-dimensional display mode, the process directly goes to step S1;

S116, a step of obtaining position information of the spectator. Specifically, the viewer is traced using the tracking device mounted on the packaging box to determine the position of the viewer.

S117, a step of mixing and arranging the pixels of the stereoscopic parallax image. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view.

The display method of the electronic display device improves the display effect when the three-dimensional image is displayed on the packaging box. Further, in a conventional electronic display device having a three-dimensional display function, when a water surface or a road surface image extending from the screen is displayed, a display effect that is inconsistent with everyday life is formed due to limitations due to the existence of a screen border, I feel fatigue. In the structure of the packaging box according to the present invention, when viewing the stereoscopic image through the projection reflecting mirror installed in the packaging box of the present invention, the viewer views the real world contents due to the projection function of the projection reflecting mirror, Since there is no border, it has a transparent display screen effect without a border, and has an effect of not easily feeling visual fatigue.

Embodiment 5

Embodiment 5 of the present invention provides a control method for controlling an electronic display device through a packaging box based on the mechanical structure of the display device and the circuit structure of the display device according to Embodiments 1 to 3 above. Of course, such a control method is not limited to the mechanical structure of the display device and the circuit structure of the display device described in the first to third embodiments, and the mechanical structure of the display device described in the first to third embodiments and the circuit structure of the display device Are also within the scope of protection of the present invention. In order to maintain the simplicity of the specification, the mechanical structure of the display device and the circuit structure of the display device are not further described in the following embodiments.

Example 13

Referring to FIG. 34, FIG. 34 is a control method for controlling an electronic display device through a packaging box according to a thirteenth embodiment of the present invention. As shown in Fig. 33, the control method of controlling the electronic display device through the packaging box according to the thirteenth embodiment of the present invention includes the following steps.

S200, a confirmation step of confirming the electrical connection between the packaging box and the electronic display device.

S210, receiving the signal transmitted by the electronic display device. The received signal includes control information for controlling the electronic display device.

S220, a display step of displaying control information of the electronic display device on a display device of the packaging box, based on a signal transmitted and received by the electronic display device.

S230, a control step of controlling the electronic display device on the basis of the control information of the electronic display device, which is displayed on the display device. The detailed description of the control step can be referred to the description in the above embodiment, and will not be described here any further.

Specific control method embodiments can be referenced in Figures 31a, 31b and 31c and are not described further herein.

Embodiment 13 of the present invention implements the control of the packaging box for the electronic display device through the above-described control method. When the electronic display device is housed in the packaging box, the user can control the electronic display device without removing the electronic display device, thereby making the operation of the user convenient and improving the user experience.

Example 14

Referring to FIG. 35, FIG. 35 shows a control method of controlling an electronic display device through a packaging box according to a fourteenth embodiment of the present invention. As shown in Fig. 34, the control method of controlling the electronic display device through the packaging box according to the fourteenth embodiment of the present invention further includes a step S240 of displaying the image displayed by the electronic display device on the packaging box And differs from the thirteenth embodiment of the present invention.

The control method for controlling the electronic display device through the packaging box according to the fourteenth embodiment of the present invention not only implements the control of the packaging box for the electronic display device but also implements displaying the image of the electronic display device on the packaging box . The user can control the electronic display device through the packaging box according to his / her needs and implement the image he / she wants to view. The image can be seen through the packaging box according to the present invention, and in particular, the stereoscopic image has an effect of not easily feeling visual fatigue.

Specifically, in a specific embodiment, when the packaging box transmits a command for movie reproduction to the electronic display device, the electronic display device inquires whether the corresponding movie is present in the storage module, or if the electronic display device A movie is downloaded through the Internet and played back on an electronic display device, and then the packaging box displays an image of the movie played by the electronic display device.

Further, between steps S230 and S240,

And a settling state determining step of determining the settled state of the electronic display device. Specifically, it is judged whether or not the electronic display device is in a putting state at a designated position of the packaging box. The image displayed by the electronic display device is more fully displayed in the packaging box and can have a more preferable image display effect only if the electronic display device is placed in the putting state at the designated position of the packaging box. If the electronic display device is not in the set position, the presentation signal is sent to present the electronic display device to the user to put the designated display position. There are a variety of ways to determine if it is in the designated position, for example, a multi-axis gyroscope, an orientation sensor, or a USB interface module of a USB device on the packaging box. Preferably, when the USB interface module of the USB device on the packaging box is used and the packaging box and the electronic display device are both in an operating state when the electronic display device is placed in the packaging box, the USB interface module And the USB interface module of the USB device on the packaging box are electrically connected and the electronic display device is placed at the specified position.

Further, on the basis of the above-described embodiment, in one modified embodiment, the display method of the electronic display device according to the present invention further includes the following steps.

Recognition phase: recognizes the type of electronic display device. Here, the type of the electronic display device includes a mobile communication terminal, a flat panel display, a personal computer, a game device, and an operating system installed in each of them. There is a difference in the effect that the image formats required by different types of electronic display devices are different from each other and the same images are displayed in different types of electronic display devices after the electronic display devices are installed in the packaging box. For example, when a picture suitable for displaying a mobile communication terminal is displayed on a game device of a different operating system, there is a difference in the display effect.

Downloading Step: Download the video that matches the electronic display device type. The electronic display device is connected to the network in a conventional wired or wireless manner, for example, and downloads an image matching an electronic display device type from an application store. For example, when a mobile communication terminal having an Android operating system is connected to a network, an image suitable for the mobile communication terminal is automatically searched for and downloaded to an electronic display device for display.

Further, based on any one of the above-described two embodiments, in one modified embodiment, the method of controlling an electronic display device according to the present invention further includes the following steps.

Display mode recognition step. It is recognized that the electronic display device is in the three-dimensional display mode. If the electronic display device is not in the three-dimensional display mode, it goes directly to step S1, and further includes the following step if the electronic display device is in the three-dimensional display mode.

Position acquisition step: Obtain the position information of the observer. Specifically, the observer is traced using the tracking device mounted on the box, and the position of the observer is determined.

Mixed arrangement of stereoscopic parallax image pixels: Mixed pixels of stereoscopic parallax images are arranged. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view.

Through the control method, the user can control the electronic display device according to his / her needs, thereby improving the user's experience of using the electronic display device.

Correspondingly, the present invention also provides a control device for controlling an electronic display device through a packaging box, corresponding to the control method. Here, the packaging box houses an electronic display device, and the packaging box displays an image displayed by the electronic display device. 36, there is shown a schematic structural view of a control device for controlling an electronic display device through a packaging box according to a fourteenth embodiment of the present invention. The control device includes the following modules.

The confirmation module 400 is for confirming the electrical connection between the packaging box and the electronic display device.

Receiving module 410 is for receiving a signal transmitted by the electronic display device. The received signal includes control information for controlling the electronic display device.

Packaging box display module 420: A display unit of the packaging box displays control information of the electronic display device, based on a signal transmitted and received by the electronic display device.

Control module 430: controls the electronic display device based on the control information of the electronic display device displayed on the display unit.

Further, in a specific embodiment, the control device according to the present invention further includes a display module for displaying the image displayed by the electronic display device on the package box.

Furthermore, in a specific embodiment, the control device according to the present invention further includes a release status confirmation module for confirming a release status of the electronic display device.

Furthermore, in a specific embodiment, the control device according to the present invention further includes a recognition module for recognizing the type of the electronic display device, and a download module for downloading the image matched to the electronic display device type.

Further, in one specific embodiment, the control device according to the present invention further comprises the following modules.

Display mode recognition module: It is for recognizing whether the electronic display device is in the three-dimensional display mode.

Position Acquisition Module: This is to acquire the position information of the spectator when the electronic display device is in the three-dimensional display mode. Specifically, the tracking device mounted on the packaging box is used to track the spectators and determine the position of the spectators.

Mixed array module of stereoscopic parallax image pixels: It is to arrange the pixels of the left eye view image and the right eye view image of the stereoscopic parallax image by mixing them at a certain ratio. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view.

The control device for controlling the electronic display device through the packaging box according to the present invention improves the user's experience by allowing the user to control the electronic display device according to his / her needs.

Embodiment 6

Embodiment 6 of the present invention provides a method of controlling interaction between a packaging box and an electronic display device, based on the mechanical structure of the display device and the circuit structure of the display device according to Embodiments 1 to 3 above. Of course, such an interaction control method is not limited to the mechanical structure of the display device described in the first to third embodiments and the circuit structure of the display device, and the mechanical structure of the display device described in the first to third embodiments and the display device Simple modifications based on the circuit structure are also within the scope of protection of the present invention. In order to maintain the simplicity of the specification, the mechanical structure of the display device and the circuit structure of the display device are not further described in the following embodiments.

Example 15

Referring to Fig. 37, Fig. 37 shows a method of controlling the interaction between the packaging box and the electronic display device according to the fifteenth embodiment of the present invention. As shown in Fig. 37, the control method for implementing the interaction between the packaging box and the electronic display device according to the fifteenth embodiment of the present invention includes the following steps.

S300, Step: Confirm the electrical connection between the packaging box and the electronic display device.

S310, Main Control Device Determination Step: Depending on the execution state of the electronic display device and the packaging box, either the electronic display device or the packaging box is determined as the main control device, and the other of the electronic display device and the packaging box is set as the slave control device . Here, the execution state indicates whether the electronic display device and the application program currently being executed by the package box and the electronic display device are in the dormant state, the standby state, or the awakening state. If the electronic display device is running an application such as a movie, game, music, or telephone call, the packaging box is determined as the main control device, and if the electronic display device immediately enters the sleeping state, the standby state, or the awakening state, The electronic display device is determined as the main control device.

S320, receiving a control command: Receiving a control command transmitted from the main control device.

S330, execution step: the slave control device executes the control command. That is, the slave control device executes an operation corresponding to the control command. The subordinate control device executes the corresponding operation based on the received control command.

In the control method for implementing the interaction according to the embodiment of the present invention, the main control device completely controls the slave control device. At the same time, the main control device and the slave control device are not fixed, but may be any of the packaging box and the electronic display device as the main control device and the other as the slave control device according to actual needs. In this way, the user is allowed to operate more conveniently, thereby improving the user experience.

In one specific embodiment, when the electronic display device soon enters the standby state, the electronic display device is set as the main control device, and immediately before entering the standby state, one standby command is transmitted to the packaging box as the slave control device. The packaging box immediately executes the standby operation upon receiving the standby command, and the packaging box and the electronic display device enter standby mode together.

In one specific embodiment, when the electronic display device is playing music, the packaging box is the main control device, and the user transmits a control command through the packaging box to control the reproduction, stop, or advance of the music. When the packaging box is the main control device, it is the same as the control method of the fifth embodiment, and will not be described here.

In one specific embodiment, when the electronic display device enters the sleep state soon, the electronic display device is set as the main control device, and one sleep command is transmitted to the packaging box as the slave control device immediately before entering the sleep state, When the packaging box receives the dormancy command, the packaging box immediately performs a dormancy operation, and the packaging box and the electronic display device enter a dormant state together.

In a specific embodiment, when the electronic display device enters the awake state from the dormancy state, the electronic display device is set as the main control device, and after the electronic display device awakens, one awake command is sent to the packaging box . The packaging box immediately executes the awakening operation after receiving the awakening command, and the packaging box and the electronic display device are awakened together.

Further, in another embodiment, the packaging box that enters the sleeping state, the standby state, or the awakening state may be a main control device and the electronic display device may be a slave control device. In this manner, when the packaging box enters the sleeping state, the standby state, or the awakening state, the electronic display device also enters the sleeping state, the standby state, or the awakening state synchronously with the above-described interaction control method according to the present invention.

Furthermore, the control method for implementing the interaction between the packaging box and the electronic display device according to the sixth embodiment of the present invention further includes a display step of displaying the image displayed by the electronic display device on the packaging box.

Further, in an alternative embodiment, the electronic display device further includes an image processing step of processing the image information to be displayed prior to the displaying step.

Further, between step S330 and step S340, it may further comprise a step of confirming a putting-out state of the electronic display device. Specifically, when the electronic display device is placed in a resting state at a specified position of the packaging box, the image displayed by the electronic display device is displayed on the packaging box And more preferable image display effect can be obtained. If the electronic display device is not in the set position, the presentation signal is outputted to present the electronic display device to the user so that the electronic display device is put in the designated position. There are many ways to make decisions, for example using a multi-axis gyroscope, orientation sensor, or a USB interface module of a USB device on a packaging box. Preferably, when the USB interface module of the USB device on the packaging box is used and the packaging box and the electronic display device are both in an operating state when the electronic display device is placed in the packaging box, the USB interface module And the USB interface module of the USB device on the packaging box are electrically connected and the electronic display device is placed at the specified position.

Further, on the basis of the above-described embodiment, in one modified embodiment, the display method of the electronic display device according to the present invention further includes the following steps.

Recognition phase: recognizes the type of electronic display device. Here, the type of the electronic display device includes a mobile communication terminal, a flat panel display, a personal computer, a game device, and an operating system installed in each of them. There is a difference in the effect that the image formats required by different types of electronic display devices are different from each other and the same images are displayed in different types of electronic display devices after the electronic display devices are installed in the packaging box. For example, when a picture suitable for mobile communication terminal display is displayed on a flat panel display having different operating systems, there is a difference in the display effect.

Downloading Step: Download the video that matches the electronic display device type. The electronic display device is connected to the network in a conventional wired or wireless manner, for example, and downloads an image matching an electronic display device type from an application store. For example, when a mobile communication terminal having an Android operating system is connected to a network, an image suitable for the mobile communication terminal is automatically searched for and downloaded to an electronic display device for display.

Further, based on any one of the above-described two embodiments, in one modified embodiment, the method of controlling an electronic display device according to the present invention further includes the following steps.

Display mode recognition step. It is recognized that the electronic display device is in the three-dimensional display mode. If the electronic display device is not in the three-dimensional display mode, it goes directly to step S1, and further includes the following step if the electronic display device is in the three-dimensional display mode.

Location acquisition step: Obtain the location information of the spectator. Specifically, the viewer is traced using the tracking device mounted on the packaging box to determine the position of the viewer.

Mixing arrangement step of stereoscopic parallax image pixels: The left eye view and the right eye view image of stereoscopic parallax images are mixed and arranged at a certain ratio. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view.

Through the interaction control method, the user can control the electronic display device according to his / her needs, thereby improving the user's experience of using the electronic display device.

Correspondingly, the present invention also provides an apparatus for controlling an interaction between a packaging box and an electronic display device corresponding to the interaction control method. Here, the packaging box houses an electronic display device, and the packaging box displays an image displayed by the electronic display device. 38, there is shown a schematic structural view of a control device for implementing the interaction between the packaging box and the electronic display device according to the fifteenth embodiment of the present invention. The interaction control device includes the following modules.

The confirmation module 500 is for confirming the electrical connection between the packaging box and the electronic display device.

Main Control Device Determination Module 510: Determines either the electronic display device or the packaging box as the main control device according to the execution state of the electronic display device and the packaging box, and sets the other of the electronic display device and the packaging box as slave control This is to confirm the device. Here, the execution state indicates whether the electronic display device and the application program currently being executed by the package box and the electronic display device are in the dormant state, the standby state, or the awakening state. If the electronic display device is running an application such as a movie, game, music, or telephone call, the packaging box is determined as the main control device, and if the electronic display device immediately enters the sleeping state, the standby state, or the awakening state, The electronic display device is determined as the main control device.

Control command receiving module 520: This is for receiving a control command transmitted from the main control device.

Execution module 530: is for executing a control command of a slave control device. In other words, the slave control device executes the corresponding operation by the execution module 530 according to the received control command.

Furthermore, in one specific embodiment, the control device according to the present invention further includes a display module 540 for displaying the image displayed by the electronic display device on the packaging box.

Further, in a specific embodiment, the control device according to the present invention further includes a release status confirmation module for confirming a release status of the electronic display device.

Further, in a specific embodiment, the control device according to the present invention further includes a recognition module for recognizing the type of the electronic display device, and a download module for downloading an image matched to the type of the electronic display device.

Further, in one specific embodiment, the control device according to the present invention further comprises the following modules.

Display mode recognition module: for recognizing whether the electronic display device is in the three-dimensional display mode

Position Acquisition Module: This is for acquiring the position information of the spectator when the electronic display device is in the three-dimensional display mode. Specifically, the viewer is traced using the tracking device mounted on the packaging box to determine the position of the viewer.

Mixed array module of stereoscopic parallax image pixels: It is to arrange the pixels of the left eye view image and the right eye view image of the stereoscopic parallax image by mixing them at a certain ratio. Specifically, when determining the position information of a spectator, a current right eye view having a motion parallax with respect to a current left eye view and a previous right eye view having a motion parallax with respect to the previous left eye view is generated based on the positional information, And the stereoscopic image is synthesized using the right eye view.

In the interaction control apparatus of the packaging box and the electronic display device according to the sixth embodiment of the present invention, the main control device completely controls the slave control device. In addition, the main control device and the slave control device are not fixed, but may be any of the packaging box and the electronic display device as the main control device and the other as the slave control device according to actual needs. In this way, the user can operate more conveniently, thereby improving the user experience.

The foregoing is a preferred embodiment of the present invention, but the present invention is not limited thereto. The present invention can be variously changed and changed by those skilled in the art. For example, portions of the method in the present invention may be implemented in software or through hardware circuitry, which is a simple modification well known to those of ordinary skill in the art. Further, in the display method of the electronic display device, the control method of the electronic display device by the packaging box, and the interaction control method of the electronic display device and the packaging box, the order of the step can be changed, It is a simple change well known to the person. All changes, equivalents, and improvements that come within the spirit and scope of the present invention are within the protection scope of the present invention.

Claims (22)

A display method of a display device for an electronic display device which displays an image of an electronic display device on a packaging box for packing the electronic display device,
Wherein the packaging box includes a projection reflecting member for projecting an image displayed on the display device and the electronic display device to display a virtual image,
In the display method,
An image processing module configured to process image information to be displayed by the electronic display device;
And a display step in which the display module displays the image displayed by the electronic display device on the packaging box,
The display method may further include, before the image processing step,
Further comprising a step of confirming a release status of the electronic display device, the electronic display device release status confirmation module determining a release status of the electronic display device. The method according to claim 1,
Wherein the image processing step comprises:
Further comprising an image reversal processing step of reversing an image to be displayed by the image processing module. 3. The method of claim 2,
Wherein the image reversal processing step comprises:
An image preprocessing sub-step in which the image preprocessing sub-module preprocesses image information,
Wherein the image pixel rearrangement sub-module rearranges the pixels of the picture after the image preprocessing. 3. The method of claim 2,
Wherein the image processing step comprises:
Wherein the image processing module is operable to display luminance / contrast of an image to be displayed by the electronic display device and gamma value of the electronic display device based on the intensity of the surrounding environment of the packaging box, Further comprising the step of adjusting. delete The method according to claim 1,
The display method may further include, before the image processing step,
The recognition module recognizing the type of the electronic display device;
And downloading an image matching the type of the electronic display device by the download module. The method according to claim 1,
The display method may further include, before the image processing step,
Wherein the display mode recognizing module further comprises a step of determining whether the electronic display device is in the three-dimensional display mode, and if the electronic display device is not in the three-dimensional display mode, If so,
The location acquiring module acquiring the location information of the spectator,
Wherein the mixed array module further comprises a mixture arrangement step of mixing pixels of the left eye view image and the right eye view image of the stereoscopic parallax image at a predetermined ratio and arranging the pixels of the stereoscopic parallax image. The method according to claim 1,
Prior to the image processing step,
Further comprising a confirming step of confirming an electrical connection between the packaging box and the electronic display device. 9. The method of claim 8,
After the image processing step,
The control information display module displaying the control information of the electronic display device on the packaging box,
Further comprising the step of the control information transmitting module transmitting the control information to the electronic display device by the packaging box. The method according to claim 1,
Wherein the electronic display device is a bell-shaped stereoscopic display device or a spectacles stereoscopic display device. 11. The method according to claim 1 or 10,
Wherein the electronic display device is one of a mobile communication terminal, a flat display device, a game device, or a personal computer. A packaging box and an electronic display device, wherein the packaging box accommodates the electronic display device and displays an image of the electronic display device on a packaging box,
The packaging box includes a display device And a projection reflecting member for projecting an image displayed on the electronic display device to display a virtual image,
The display device includes:
An image processing module for processing image information to be displayed by the electronic display device;
And a display module for displaying the image displayed by the electronic display device on the packaging box,
The display device includes:
Further comprising an electronic display device setting status confirming module for confirming a setting status of the electronic display device. 13. The method of claim 12,
The image processing module includes:
Further comprising a video reversal processing module for performing an inversion operation on an image to be displayed. 14. The method of claim 13,
Wherein the image reversal processing module comprises:
An image preprocessing sub-module for preprocessing the image information,
Further comprising an image pixel rearrangement sub-module for rearranging the pixels of the picture after the image preprocessing.
14. The method of claim 13,
The image processing module includes:
A display luminance / contrast adjustment module for adjusting at least one of a luminance / contrast of an image to be displayed by the electronic display device and a gamma value of the electronic display device based on the intensity of the surrounding environment of the packaging box And the display device.
delete 13. The method of claim 12,
The display device includes:
A recognition module for recognizing the type of the electronic display device;
And a download module for downloading an image matched to the type of the electronic display device.
13. The method of claim 12,
The display device includes:
A display mode recognition module for recognizing whether the electronic display device is in the three-dimensional display mode,
A position acquiring module for acquiring position information of a spectator when the electronic display device is in a three-dimensional display mode,
Further comprising a mixed arrangement module of stereoscopic parallax image pixels for mixing and arranging pixels of a left eye view image and a right eye view image of a stereoscopic parallax image at a predetermined ratio.
13. The method of claim 12,
The display device includes:
Further comprising: a confirmation module for confirming an electrical connection between the packaging box and the electronic display device.
20. The method of claim 19,
The display device includes:
A control information display module for displaying the control information of the electronic display device on the packaging box,
And a control information transmitting module for transmitting the control information to the electronic display device by the packaging box.
13. The method of claim 12,
Wherein the electronic display device is a bell-shaped stereoscopic display device or a spectacles stereoscopic display device. 22. The method according to claim 12 or 21,
Wherein the electronic display device is one of a mobile communication terminal, a flat display device, a game device, or a personal computer.

Images