CN211087779U - Display device and electronic equipment - Google Patents

Abstract

An embodiment of the utility model provides a display device and electronic equipment, display device includes: the controller, and a camera, a display screen and unidirectional glass which are electrically connected with the controller; the one-way glass is provided with a light transmitting surface and a reflecting surface, and the screen of the display screen faces the light transmitting surface of the one-way glass; the camera is arranged on one side of the screen which is far away from the display screen, and a lens of the camera faces to the light-transmitting surface of the unidirectional glass; the display device further comprises a display piece with adjustable transparency, wherein the display piece is electrically connected with the controller and faces the reflecting surface of the one-way glass. The embodiment of the utility model provides an in camera hide under the display screen to display device's visual effect has been promoted.

Description

Display device and electronic equipment

Technical Field

The embodiment of the utility model provides a relate to electronic equipment technical field, especially relate to a display device and electronic equipment.

Background

The existing electronic equipment is generally provided with a camera to meet the shooting requirement, and the setting mode of the camera has two types: one is fixedly arranged at the edge of the display screen, and the other is movably arranged at the edge of the display screen and pops up when in use.

However, the cameras in the two arrangements can be seen, which affects the visual effect of the display device.

SUMMERY OF THE UTILITY MODEL

An embodiment of the utility model provides a display device and electronic equipment.

The embodiment of the utility model provides a display device includes: the controller, and a camera, a display screen and unidirectional glass which are electrically connected with the controller; the one-way glass is provided with a light transmitting surface and a reflecting surface, and the screen of the display screen faces the light transmitting surface of the one-way glass; the camera is arranged on one side of the screen which is far away from the display screen, and a lens of the camera faces to the light-transmitting surface of the unidirectional glass; the display device further comprises a display piece with adjustable transparency, wherein the display piece is electrically connected with the controller and faces the reflecting surface of the one-way glass.

In an embodiment of the present invention, the display element is a light adjusting glass, and the light adjusting glass covers the reflecting surface of the one-way glass.

In an embodiment of the present invention, the display member is a light adjusting film, and the light adjusting film is attached to the reflecting surface of the one-way glass.

In an embodiment of the present invention, the display screen includes a transparent display screen and a translucent display screen embedded in a predetermined region of the transparent display screen, the transparent display screen has a first surface and a second surface opposite to each other, the translucent display screen has a third surface and a fourth surface opposite to each other, the first surface and the third surface are in a same plane, and the second surface and the fourth surface are in a same plane; the camera and the one-way glass are correspondingly arranged on two sides of the semitransparent display screen.

In an embodiment of the present invention, the size of the one-way glass is not smaller than the size of the translucent display screen, the size of the display is not smaller than the size of the one-way glass, and the one-way glass is attached to the translucent display screen; and/or the camera, the one-way glass, the display part and the semitransparent display screen are correspondingly provided with a plurality of lenses, and the sizes of the one-way glass and the display part are the same as that of the semitransparent display screen.

In an embodiment of the present invention, the display screen has a transparent region and a non-transparent region, and the one-way glass is correspondingly disposed above the transparent region; the camera corresponds set up in the below in printing opacity region to can see through printing opacity region with one-way glass gathers the image and is in non-printing opacity regional demonstration.

In an embodiment of the present invention, the size of the one-way glass is not smaller than the size of the light-transmitting area of the display screen, and the size of the display is not smaller than the size of the one-way glass; the one-way glass is attached to the light transmission area of the display screen.

The utility model discloses an embodiment, the regional correspondence of light transmission of camera and display screen is provided with a plurality ofly, one-way glass with the size of display with the regional size of light transmission is the same.

Based on the same inventive concept, an embodiment of the present invention provides an electronic device, which includes the display device described above.

In one embodiment of the present invention, the electronic device includes at least two of the display devices; under the condition that the electronic equipment comprises two display devices, the two display devices are respectively arranged on two sides of the electronic equipment, which are opposite to each other; or, in a case where the electronic apparatus includes a first body and a second body rotatable with respect to the first body, the at least two display devices are respectively provided to the first body and the second body of the electronic apparatus.

An embodiment of the utility model provides a display device and electronic equipment, wherein, display device includes: the controller, and a camera, a display screen and unidirectional glass which are electrically connected with the controller; the one-way glass is provided with a light transmitting surface and a reflecting surface, and the screen of the display screen faces the light transmitting surface of the one-way glass; the camera is arranged on one side of the screen which is far away from the display screen, and a lens of the camera faces to the light-transmitting surface of the unidirectional glass; the display device further comprises a display piece with adjustable transparency, wherein the display piece is electrically connected with the controller and faces the reflecting surface of the one-way glass. The embodiment of the utility model provides an in camera hide under the display screen to display device's visual effect has been promoted.

The above description is only an overview of the technical solution of the present invention, and in order to make the technical means of the present invention clearer and can be implemented according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present invention and accompanying drawings.

Drawings

Fig. 1 is a first exploded view of a display device (side surface) according to an embodiment of the present invention;

fig. 2 is a second exploded schematic view of a display device (side surface) according to an embodiment of the present invention;

fig. 3 is a third schematic view illustrating disassembly of a display device (side surface) according to an embodiment of the present invention.

Description of reference numerals:

100-display device, 10-controller, 20-camera, 30-display screen, 310-screen, 320-transparent display screen, 321-first surface, 322-second surface, 330-semi-transparent display screen, 331-third surface, 332-fourth surface, 40-one-way glass, 410-light-transmitting surface, 420-reflecting surface and 50-display element.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

In the case of conflict, the embodiments and features of the embodiments of the present invention can be combined with each other. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

First, the "user side" will be explained below.

The user side: when the user uses the display device 100, the side of the display device 100 facing the user is the user side, for example: the display device 100 is a mobile phone, and a user views information such as text and/or images displayed on a screen of the mobile phone, so that a side of the mobile phone facing the user is a user side.

An embodiment of the present invention provides a display device 100, as shown in fig. 1, the display device 100 includes: the controller 10, the camera 20 electrically connected with the controller 10, the display screen 30 and the one-way glass 40; the unidirectional glass 40 has a light-transmitting surface 410 and a reflecting surface 420, and the screen 310 of the display screen 30 faces the light-transmitting surface 410 of the unidirectional glass 40; the camera 20 is arranged on the side of the screen 310 away from the display screen 30, and the lens of the camera 20 faces the light-transmitting surface 410 of the one-way glass 40; the display device 100 further includes a display element 50 with adjustable transparency, wherein the display element 50 is electrically connected to the controller 10 and disposed toward the reflective surface 420 of the one-way glass 40.

Specifically, the display device 100 in the above is an electronic device or a display component of an electronic device for displaying information such as text and/or images, and includes: mobile phones, tablet computers, and the like.

The controller 10 in the above is at least used for controlling the power on or off of the components in the display device 100, such as: the controller 10 controls the power-on of the camera 20 so that the camera 20 can take pictures/photographs, the controller 10 controls the power-on of the display screen 30 so that the display screen 30 can display information such as text and/or images, the controller 10 controls the power-off of the display screen 30, and the controller 10 controls the power-on of the display 50 so that the light transmittance/transparency of the display 50 is adjusted.

The camera 20 in the above is used to realize front-view imaging or rear-view imaging of the display device 100 (hereinafter, both front-view imaging is taken as an example), for example: when the user on the user side faces the display device 100, self-timer shooting, which is idle shooting, can be performed.

The display screen 30 is used for displaying the information such as the text and/or the image, for example: the display 30 is a liquid crystal display that can display information such as characters and/or images when energized, and has low power consumption and low radiation.

The above-mentioned one-way glass 40 is a one-way see-through glass, which is also called a single-mirror, single-reflection glass or mirror glass, and the transparent surface 410 of the one-way glass 40 is oriented toward the screen 310 of the display 30, so that the information displayed on the screen 310 of the display 30 can be displayed through the one-way glass 40 and viewed by the user located at the user side, but when the display 30 is not powered, the one-way glass 40 presents a mirror to the user when the user looks at the one-way glass 40 from the side of the reflection surface 420 of the one-way glass 40 along the direction from the one-way glass 40 to the display 30.

When the display element 50 is powered on, the transparency can be adjusted, that is, the light transmittance of the display element 50 can be adjusted, and when the camera 20 or the display screen 30 of the display element 50 works, the light transmittance of the display element 50 is 100%, that is, the display element 50 is transparent; when the camera 20 and the display screen 30 are not in operation, the light transmittance of the display element 50 is 0%, that is, the display element 50 is opaque, and then the display element 50 may be light-adjusting glass, and the light-adjusting glass covers the reflecting surface 420 of the one-way glass 40; the display element 50 may also be a light adjusting film, which is attached to the reflecting surface 420 of the unidirectional glass 40; the display 50 may also be a light adjusting film sandwiched between two layers of glass; of course, in the implementation process, the display element 50 may also be other structures or composite materials with adjustable light transmittance, and the embodiment of the present invention is not limited in particular.

Next, three different usage scenarios of the display device 100 will be described.

Scene one: the user views information such as characters and/or images displayed on the display screen 30

The controller 10 simultaneously controls the camera 20 not to be powered on, controls the display 30 to be powered on to display information such as text and/or images on the screen 310 of the display 30, controls the light transmittance of the display 50 to be 100% to make the display 50 in a fully transparent state, and controls the information such as text and/or images displayed on the screen 310 of the display 30 to sequentially pass through the one-way glass 40 and the display 50 from the light transmitting surface 410 side of the one-way glass 40 to be seen by a user on the user side, so that the user can see the information such as text and/or images displayed on the display 30, and structurally, because the camera 20 is on one side of the display 30, and when the user views the text and/or images on the display 30, the camera 20 is shielded by the picture of the display 30, namely hidden under the display 30, so that the camera 20 cannot be seen, thereby improving the visual effect of the display device.

Scene two: the user uses the camera/photographing function of the camera 20

The controller 10 simultaneously controls the camera 20 to be powered on to enable the camera 20 to be in a shooting/photographing state, controls the display screen 30 not to be powered on, that is, controls the display screen 30 to be in a black screen-rest state (although the display screen 30 is in the black screen-rest state, it is transparent), and controls the light transmittance of the display 50 to be 100% to enable the display 50 to be in a full transparent state, at this time, the camera 20 may sequentially pass through the display screen 30, the one-way glass 40, and the display 50 to collect a person or an object on the user side and within the shooting range, and in this process, because the display screen 30 is in the black screen-rest state, the one-way glass 40 presents a mirror surface shape to reflect the person or the object on the user side within the shooting range. Such as: the user is carrying out the auto heterodyne, and the user can preview through the image of reflection in one-way glass 40, and then has realized the function of making a video recording/shooing of camera 20, and structurally, because camera 20 is in one side of display screen 30, and the in-process that the user made a video recording/shooing, what the user saw is that one-way glass 40 goes up the image of reflection, and can not see camera 20 behind the display screen 30 behind it to display device's visual effect has been promoted.

Scene three: the user does not use the display device 100

The controller 10 simultaneously controls the camera 20 not to be powered on to work, controls the display screen 30 not to be powered on, that is, the display screen 30 is in a black screen state, and controls the light transmittance of the display piece 50 to be 0% so as to enable the display piece 50 to be in an opaque state, at this time, when a user at the user side views the display device 100, the opaque display piece 50 shields the one-way glass 40 and the display screen 30 and the camera 20 at the back of the one-way glass, that is, hides under the display screen 30, so that the camera 20 cannot be seen, and the visual effect of the display device is improved. Here, when the user does not use the display device 100, the display device 100 is in a black state due to the opaque shielding effect of the display 50, which is the same as the state when the conventional display device is not used, and conforms to the use habit of the user.

In the embodiment, firstly, through the cooperation of the controller, the camera, the display screen, the one-way glass and the display piece, the camera is hidden behind the display screen and cannot be seen, so that the visual effect of the display device is improved; and secondly, the transparency of the display piece is adjusted, so that the display device is in the same state as the existing electronic equipment when not used, and is attached to the use habit of a user.

In an embodiment of the present invention, the display screen 30 includes a transparent display screen 320 and a translucent display screen 330 embedded in a predetermined region of the transparent display screen 320, the transparent display screen 320 has a first surface 321 and a second surface 322 opposite to each other, the translucent display screen 330 has a third surface 331 and a fourth surface 332 opposite to each other, the first surface 321 and the third surface 331 are in a same plane, and the second surface 322 and the fourth surface 332 are in a same plane; the camera 20 and the one-way glass 40 are correspondingly disposed on two sides of the translucent display 330.

Specifically, the translucent display 330 is a part of the transparent display 320 and forms a complete display 30 with the transparent display 320, such as: referring to fig. 2, the translucent display 330 is a central portion of the transparent display 320, and the thickness of the translucent display 330 is the same as the thickness of the transparent display 320, the third surface 331 of the translucent display 330 is flush with the first surface 321 of the transparent display 320, and the fourth surface 332 is flush with the second surface 322 of the transparent display 320; it can be understood that the translucent display 330 and the transparent display 320 can be integrally formed, which not only saves the manufacturing time, but also makes the connection between the translucent display 330 and the transparent display 320 more secure; it should be noted that the translucent display 330 can only display images when powered on, and when not powered on, the light transmittance thereof is greater than 0%, so that the camera 20 can penetrate through the translucent display 330 and capture people or objects located within the shooting range.

Next, three different usage scenarios of the display device 100 will be described.

Scene one: the user views information such as characters and/or images displayed on the display screen 30

The controller 10 simultaneously controls the camera 20 not to be powered on, controls the transparent display screen 320 to be powered on to enable the transparent display screen 320 to display information such as characters and/or images, controls the translucent display screen 330 to be powered on to enable the translucent display screen 330 to display information such as characters and/or images, and controls the light transmittance of the display element 50 to be 100% to enable the display element 50 to be in a fully transparent state, at this time, the information such as the text and/or the image displayed on the transparent display 320 and the information such as the text and/or the image displayed on the semi-transparent display 330 form a complete information such as the text and/or the image, and the complete text and/or image information can pass through the unidirectional glass 40 and the display element 50 from the side of the light-transmitting surface 410 of the unidirectional glass 40 in sequence, so that the user at the user side can view the information, thereby, the user can see the information such as the characters and/or the images displayed on the display screen 30; structurally, the camera 20 is located on one side of the display screen 30, and when the user views the text and/or the image on the display screen 30, the camera 20 is shielded by the picture of the translucent display screen 330 of the display screen 30, that is, hidden under the display screen 30, so that the camera 20 cannot be seen, and the visual effect of the display device is improved.

Scene two: photographing function of user using camera 20

The controller 10 simultaneously controls the camera 20 to be powered on to enable the camera 20 to be in a shooting/photographing state, controls the transparent display screen 320 to be powered on to enable the transparent display screen 320 to correspondingly present a person or an object on the user side and within the shooting range, controls the translucent display screen 330 to be not powered on to enable the camera 20 to be capable of penetrating through the translucent display screen 330 and collecting the person or the object on the user side, and controls the light transmittance of the display 50 to be 100% to enable the display 50 to be in a fully transparent state, at this time, the camera 20 can sequentially penetrate through the display screen 30, the one-way glass 40 and the display 50 to collect the person or the object on the user side and within the shooting range, in the process, the translucent display screen 330 cannot display the image at the corresponding position collected by the camera 20 due to the fact that the translucent display screen 330 is not powered on, so that the display screen 30 lacks the image at the position corresponding to the translucent display screen 330, however, the one-way glass 40 positioned at one side of the translucent display 330 and corresponding to the position of the translucent display 330 assumes a mirror-like shape to reflect the portion of the missing image so that it constitutes a complete image with the image presented by the transparent display 320. Such as: the user is autodyned, user's face is in the within range of making a video recording, and user's nose presents through one-way glass 40 reflection, other facial images outside the nose present on transparent display screen 320, and then shoot, thereby realized camera 20's function of shooing, and structurally, because camera 20 is in one side of display screen 30, and the in-process that the user made a video recording/was shot, what the user saw is the image that reflects on one-way glass 40, and can not see camera 20 behind the display screen 30 behind it, thereby display device's visual effect has been promoted.

Scene three: the user does not use the display device 100

The controller 10 simultaneously controls the camera 20 not to be powered on to work, controls the transparent display screen 320 not to be powered on, namely, controls the transparent display screen 320 to be in a black screen state, controls the semitransparent display screen 330 not to be powered on, and controls the light transmittance of the display part 50 to be 0% so as to enable the display part 50 to be in an opaque state, at this time, when a user at the user side looks at the display device 100, the opaque display part 50 shields the one-way glass 40 and the display screen 30 behind the one-way glass 40 and the camera 20 behind the display screen 30, namely, hides under the display screen 30, so that the camera 20 cannot be seen, and the visual effect of the display device is improved. Here, when the user does not use the display device 100, the display device 100 is in a black state due to the opaque shielding effect of the display 50, which is the same as the state when the conventional display device is not used, and conforms to the use habit of the user.

In an embodiment of the present invention, the size of the one-way glass 40 is not smaller than the size of the translucent display 330, and the size of the display 50 is not smaller than the size of the one-way glass 40; wherein, the one-way glass 40 is pasted on the semitransparent display screen 330; and/or a plurality of cameras 20, unidirectional glass 40 and display pieces 50 are arranged corresponding to the translucent display screen 330, and the sizes of the unidirectional glass 40 and the display pieces 50 are the same as that of the translucent display screen 330.

In an embodiment of the present invention, the size of the one-way glass 40 is not smaller than the size of the translucent display 330, and the size of the display 50 is not smaller than the size of the one-way glass 40; wherein, the one-way glass 40 is attached to the translucent display 330.

Specifically, the translucent display 330 is not powered during the photographing process, such as: the user carries out self-photographing, the position corresponding to the semi-transparent display screen 330 is supposed to display the nose of the user, however, in the photographing process, the semi-transparent display screen 330 is not powered on, so the semi-transparent display screen 330 does not display the nose of the user, and the reflecting surface 420 of the one-way glass 40 corresponding to the position of the semi-transparent display screen 330 faces to the user, presents a mirror state and can reflect the nose of the user, in order to completely fill up the image at the position of the semi-transparent display screen 330 on the display screen 30, so that the user can watch the complete head portrait of the user through the transparent display screen 320 and the one-way glass 40 and carry out self-photographing, therefore, the size of the one-way glass 40 is not less than the size of the semi-transparent display screen 330 and can cover the vacancy/missing caused by; of course, it is preferable that the size of the one-way glass 40 is equal to that of the translucent display 330.

Then, the display 50 is used for shielding the one-way glass 40 when the display device 100 is not in use, so that the display device 100 is in a black state, not in a mirror state in which the one-way glass 40 can reflect, and therefore the size of the display 50 is not smaller than that of the one-way glass 40; of course, it is preferable that the size of the display member 50 is equal to that of the one-way glass 40.

In this embodiment, through the size setting of one-way glass, display element and translucent display screen, not only make the camera hide behind the display screen, can not be seen promptly to display device's visual effect has been promoted, made moreover to present complete image through the cooperation of transparent display screen and one-way glass.

Further, referring to fig. 3, the size of the one-way glass 40 and the display member 50 are equal to the size of the translucent display 330.

Specifically, the size of the one-way glass 40 and the size of the display element 50 are both equal to the size of the translucent display 330. in the implementation, referring to fig. 3, the peripheries of the one-way glass 40 and the display element 50 can be reinforced by arranging common glass so that the plane size of the one-way glass 40 and the plane size of the display element 50 are both the same as the plane size of the display 30. The camera in this embodiment is hidden behind the display screen, can not be seen promptly to display device's visual effect has been promoted.

In an embodiment of the present invention, the camera 20, the one-way glass 40 and the display 50 are all provided with a plurality of corresponding to the translucent display 330, and the size of the one-way glass 40 and the size of the display 50 are the same as the size of the translucent display 330.

Specifically, the number of the cameras 20, the number of the unidirectional glasses 40, and the number of the display elements 50 are all the same as the number of the semitransparent display screens 330, that is, the number of the cameras 20, the number of the unidirectional glasses 40, and the number of the display elements 50 are all the same as the number of the semitransparent display screens 330, and one camera 20, one semitransparent display screen 330, one unidirectional glass 40, and one display element 50 are on the same horizontal line and form a group of camera modules, and the number of the cameras 20, the unidirectional glasses 40, and the display elements 50 are all the same as the number of the semitransparent display screens 330, that is, a plurality of groups of camera modules are arranged on one display device 100, and the plurality of groups of camera modules make the shooting effect better.

It should be noted that, in the foregoing, the plurality of cameras 20 are in the same vertical plane, the plurality of translucent display screens 330 are on the same transparent display screen 320, the plurality of unidirectional glasses 40 are in the same vertical plane, and the plurality of display elements 50 are in the same vertical plane, so that while ensuring a better shooting effect, the size of the display device is not increased.

In an embodiment of the present invention, the size of the one-way glass 40 is not smaller than the size of the translucent display 330, and the size of the display 50 is not smaller than the size of the one-way glass 40; wherein, the one-way glass 40 is pasted on the semitransparent display screen 330; and, camera 20, one-way glass 40, display 50 all correspond with translucent display 330 and are provided with a plurality ofly, and the size of one-way glass 40 and display 50 is the same with translucent display 330's size, and from this, the camera in this embodiment is hidden behind the display, can not be seen promptly to display device's visual effect has been promoted, and the multiunit subassembly of making a video recording has promoted the effect of making a video recording/taking a picture.

In one embodiment of the present invention, the display 30 has a transparent region and a non-transparent region, and the one-way glass 40 is correspondingly disposed above the transparent region; the camera 20 is correspondingly arranged below the light transmission area so as to be capable of acquiring images through the light transmission area and the one-way glass 40 and displaying the images in the non-light transmission area.

Specifically, the display 30 has a transparent region and a non-transparent region, where the transparent region is transparent to light and the non-transparent region is opaque to light; the above-mentioned upper and lower sides refer to the display device 100 being laid horizontally with the user side facing upward, the user side being the upper side, and the other side being the lower side.

When the display device 100 is used for displaying characters and/or images, the controller 10 controls the camera 20 not to be powered on, controls the display screen 30 to be powered on so that the transparent area and the non-transparent area of the display screen 30 can display information such as characters and/or images in a matching manner, and controls the light transmittance of the display 50 to be 100% so that the display 50 is in a fully transparent state, in the process, the transparent area of the display screen 30 displays images, the non-transparent area also displays images, and the images displayed by the transparent area and the images displayed by the non-transparent area form a complete image, structurally, as the camera 20 is arranged on one side of the display screen 30, and when a user views the characters and/or images on the display screen 30, the camera 20 is shielded by the pictures of the transparent area of the display screen 30, so that the camera 20 is hidden behind the display screen and cannot be seen, thereby improving the visual effect of the display device.

In the process of taking a picture by the display device 100, the controller 10 controls the camera 20 to be powered on, controls the non-light-transmission area to be powered on to present a partial image of a person or an object in a shooting range, controls the light-transmission area to be not powered on, and controls the light transmittance of the display 50 to be 100%, the camera 20 sequentially penetrates through the light-transmission area and the one-way glass 40 to collect images, and one part of the collected images is displayed through the non-light-transmission area, and the other part of the collected images is reflected by the one-way glass 40, and the images reflected by the one-way glass 40 and the images displayed by the non-light-transmission area form a complete image.

When the display device 100 is not used, the controller 10 controls the camera 20 not to be powered on, the display screen 30 not to be powered on and the light transmittance of the display element 50 to be 0%, at this time, when a user at the user side views the display device 100, the opaque display element 50 shields the one-way glass 40, the display screen 30 behind the one-way glass 40 and the camera 20 behind the display screen 30, so that the camera 20 is hidden behind the display screen, namely cannot be seen, and the visual effect of the display device is improved. Here, when the user does not use the display device 100, the display device 100 is in a black state due to the opaque shielding effect of the display 50, which is the same as the state when the conventional display device is not used, and conforms to the use habit of the user.

Further, the size of the one-way glass 40 is not smaller than the size of the light-transmitting area of the display screen 30, and the size of the display piece 50 is not smaller than the size of the one-way glass 40; the one-way glass 40 is attached to the transparent region of the display 30, so that the one-way glass 40 can reflect images and fill the gap of the non-transparent region, and the display member 50 can shield the one-way glass 40, so that the display device is in a black state when not in use, which is the same as that of the existing display device.

Specifically, the light-transmitting area is not powered during the photographing process, so that the light-transmitting area cannot display the photographed image during the photographing process, such as: the user carries out self-shooting, the nose of the user is displayed at the position corresponding to the light transmission area, however, in the shooting process, the light transmission area is not electrified, so that the user cannot see the nose of the user on the display screen 30, the reflecting surface 420 of the one-way glass 40 corresponding to the light transmission area faces the user, the mirror surface of the one-way glass reflects the nose of the user and fills the gap of the non-light transmission area, so that the user can preview the complete head portrait of the user through the light transmission area of the display screen 30 and the one-way glass 40 and carry out self-shooting, therefore, the size of the one-way glass 40 is not smaller than that of the light transmission area, the gap caused by the light transmission area can be covered, and the one-way glass is matched with the non-light transmission area of the; of course, it is preferable that the size of the one-way glass 40 is equal to the size of the light transmission region.

Then, the display 50 is used for shielding the one-way glass 40 when the display device 100 is not in use, so that the display device 100 is in a black state, not in a mirror state in which the one-way glass 40 can reflect, and therefore the size of the display 50 is not smaller than that of the one-way glass 40; of course, it is preferable that the size of the display member 50 is equal to that of the one-way glass 40.

In an embodiment of the present invention, the light-transmitting regions of the camera 20 and the display screen 30 are correspondingly provided with a plurality of pieces, and the size of the one-way glass 40 and the size of the display piece 50 are the same as the size of the light-transmitting regions.

Specifically, a plurality of light transmission areas of the camera 20 and the display screen 30 are correspondingly arranged, and one camera 20 and one light transmission area are on the same horizontal line, so that a plurality of cameras 20 in one display device 100 can shoot people or objects on the user side at the same time, and the shooting effect is better; the sizes of the one-way glass 40 and the display 50 are the same as the size of the light-transmitting area, so that the one-way glass 40 can reflect an image and fill the gap of the non-light-transmitting area, and the display 50 can shield the one-way glass 40 so that the display device is the same as the existing display device when not in use, and is in a black state.

Based on the same inventive concept, the embodiment of the utility model provides an electronic equipment is provided, this electronic equipment includes: the display device 100 described above.

In this embodiment, through assembling display device on electronic equipment for the camera is hidden behind the display screen, can not be seen promptly, thereby has promoted display device's visual effect.

Further, the electronic apparatus includes at least two display devices 100; in the case where the electronic apparatus includes two display devices 100, the two display devices 100 are respectively disposed on two sides of the electronic apparatus, which are opposite to each other; or, in the case where the electronic apparatus includes a first body and a second body rotatable with respect to the first body, at least two display devices 100 are respectively provided at the first body and the second body of the electronic apparatus.

Specifically, in the above case where the electronic device includes two display devices 100, the two display devices 100 are respectively disposed on two opposite sides of the electronic device, that is, the front and the back of the electronic device can display text and/or images, and can also take pictures; in the above, in the case where the electronic apparatus includes the first body and the second body rotatable with respect to the first body, the at least two display devices 100 are respectively provided to the first body and the second body of the electronic apparatus, such as: a mobile phone is folded.

This embodiment is through assembling display device on electronic equipment for the camera can not be seen, thereby has promoted display device's visual effect.

It should be noted that the controller 10 of the display device 100 may be provided separately, or may be a processor of an electronic device, and the embodiment of the present invention is not limited in particular.

It should be noted that the display device in the electronic device provided by the embodiment of the present invention is similar to the description of the display device embodiment described above, and has similar beneficial effects to the display device embodiment described above. For technical details not disclosed in the embodiments of the electronic device of the present invention, please refer to the description of the embodiments of the display device of the present invention for understanding, and the description thereof is omitted here for brevity.

In the description of the present invention, it is to be understood that the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature.

In addition, in the description of the present invention, it should be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In addition, in the present invention, unless otherwise explicitly specified or limited, the terms "connected", and the like are to be construed broadly, and may be, for example, a mechanical connection or an electrical connection; the term "connected" refers to a direct connection or an indirect connection through an intermediate medium, and refers to a connection between two elements or an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the terms in the present invention is understood by those skilled in the art according to specific situations.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A display device, comprising: the controller, and a camera, a display screen and unidirectional glass which are electrically connected with the controller; wherein,

the one-way glass is provided with a light transmitting surface and a reflecting surface, and the screen of the display screen faces the light transmitting surface of the one-way glass;

the camera is arranged on one side of the screen which is far away from the display screen, and a lens of the camera faces to the light-transmitting surface of the unidirectional glass;

the display device further comprises a display piece with adjustable transparency, wherein the display piece is electrically connected with the controller and faces the reflecting surface of the one-way glass.

2. The display device according to claim 1, wherein the display member is a light control glass, and the light control glass covers a reflective surface of the one-way glass.

3. The display device according to claim 1, wherein the display member is a light adjusting film attached to a reflection surface of the unidirectional glass.

4. The display device according to claim 1, wherein the display screen comprises a transparent display screen and a translucent display screen embedded in a predetermined region of the transparent display screen, the transparent display screen has a first surface and a second surface opposite to each other, the translucent display screen has a third surface and a fourth surface opposite to each other, the first surface and the third surface are in the same plane, and the second surface and the fourth surface are in the same plane; the camera and the one-way glass are correspondingly arranged on two sides of the semitransparent display screen.

5. The display device according to claim 4, wherein the size of the one-way glass is not smaller than the size of the translucent display screen, the size of the display member is not smaller than the size of the one-way glass, and the one-way glass is attached to the translucent display screen; and/or the camera, the one-way glass, the display part and the semitransparent display screen are correspondingly provided with a plurality of lenses, and the sizes of the one-way glass and the display part are the same as that of the semitransparent display screen.

6. The display device according to claim 1, wherein the display screen has a light-transmitting area and a non-light-transmitting area, and the one-way glass is correspondingly disposed above the light-transmitting area; the camera corresponds set up in the below in printing opacity region to can see through printing opacity region with one-way glass gathers the image and is in non-printing opacity regional demonstration.

7. The display device according to claim 6, wherein the size of the one-way glass is not smaller than the size of the light-transmitting area of the display screen, and the size of the display member is not smaller than the size of the one-way glass;

the one-way glass is attached to the light transmission area of the display screen.

8. The display device according to claim 6, wherein a plurality of light-transmitting areas are provided corresponding to the camera and the display screen, and the size of the one-way glass and the size of the display member are the same as the size of the light-transmitting area.

9. An electronic apparatus characterized in that the electronic apparatus includes the display device according to any one of claims 1 to 8.

10. The electronic device according to claim 9, wherein the electronic device comprises at least two of the display devices;

under the condition that the electronic equipment comprises two display devices, the two display devices are respectively arranged on two sides of the electronic equipment, which are opposite to each other; or,

in a case where the electronic apparatus includes a first body and a second body rotatable with respect to the first body, the at least two display devices are respectively provided to the first body and the second body of the electronic apparatus.

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