CN108833792B - WYSIWYG mirror image shooting method, device and terminal - Google Patents

Abstract

The invention discloses a WYSIWYG mirror image shooting method, a device and a terminal, wherein the device comprises a frame body, a shooting device, a control device, a screen and a one-way perspective mirror, the front part of the frame body is provided with an opening, the control device is connected with the shooting device, the screen is arranged at the top, the bottom, the left part or the right part of the frame body and is used for displaying images output by the control device, the one-way perspective mirror and the shooting device are arranged in the frame body, one end of the one-way perspective mirror is close to or in contact with the screen and forms an included angle with the screen at a certain angle, the other end of the one-way perspective mirror is close to or in contact with the opening of the frame body, and a lens of the shooting device. The invention can realize that the user looks at the screen mirror image reflected by the one-way perspective mirror, the portrait displayed in the screen mirror image is also the final photo effect obtained after shooting, and the self-service shooting effect can be realized.

Description

WYSIWYG mirror image shooting method, device and terminal

Technical Field

The invention relates to a shooting device, in particular to a WYSIWYG mirror image shooting method, a WYSIWYG mirror image shooting device and a terminal machine, and belongs to the technical field of shooting.

Background

The traditional photo shooting method is characterized in that special personnel adopt a camera to assist shooting, then export and process photos, and finally display results, because a photographed person cannot control the process, the photo quality depends on others or even fortune, the cost is high, the time consumption is long, the effect is low, the experience is poor, and the satisfaction of the public is difficult.

At present, though the self-service camera on the market reduces the labor cost, assists the masses to shoot independently and completes the certificate photo collection. The principle is that a display screen is arranged at a position close to the camera, the image of a person shot by the camera is synchronously displayed through computer processing, and the person can adjust the posture of the person according to the image in the display screen to achieve a satisfactory effect.

However, the self-service camera described above still has the following disadvantages:

1) the cost is high: although the existing self-service camera reduces manual assistance, various equipment and instruments are added, the cost is high, and the installation, transportation and maintenance costs are high and exceed the bearing capacity of general consumer groups.

2) Time consumption is as follows: the existing self-service camera has various functions, multiple operation flows and troublesome operation, and the time for people to take photos and obtain receipt is long.

3) What is seen is not obtained: although the existing photographing self-service machines allow people to participate in the photographing process and master the ownership to a certain degree, the preview effect seen by the prior art is not the final or optimal effect, the self-service machines are provided with cameras above a computer display screen or at other positions close to the display screen, and the eyes of individuals seeing real-time portrait in the display screen are not in front view but have a deviation angle, or are up or down or left or right; if the eyes are required to be in front view, the user needs to look at the camera, so that the portrait situation in the display screen cannot be checked naturally, and the posture of the user cannot be adjusted in real time; finally, people must shoot and look at the lens, and cannot achieve the natural effects of 'what you see is what you get' and looking at the mirror to shoot.

Disclosure of Invention

The first objective of the present invention is to provide a what-you-see-is-what-you-get mirror image shooting device to solve the above-mentioned drawbacks of the prior art, which can realize that a user looks at a mirror image reflected by a one-way perspective mirror, i.e. can observe in real time the portrait actually shot by the user in a shooting device, i.e. the portrait displayed in the mirror image is also the final photo effect obtained after shooting, and can realize the what-you-see-is-what-you-get self-service shooting effect, so that the user can quickly adjust the expression, posture, dressing, etc. according to the image displayed in the mirror image in the self-service shooting process to obtain a satisfactory photo or a qualified photo, and an input device is adopted, and the shooting effect is previewed through other output devices (such as a mobile device carried by the user) after imaging, thereby improving the efficiency and quality of self.

The second objective of the present invention is to provide a terminal comprising the above-mentioned camera.

A third object of the present invention is to provide a WYSIWYG mirror image photographing method based on the above photographing apparatus.

The first purpose of the invention can be achieved by adopting the following technical scheme:

a what-you-see-is-what-you-get mirror image capture device, comprising: including the frame body, shooting equipment, controlgear, screen and one-way perspective mirror, the front portion opening of the frame body, controlgear links to each other with shooting equipment, the screen sets up at the top, bottom, left part or the right part of frame body for the image of display control equipment output, one-way perspective mirror and shooting equipment set up inside the frame body, and the one end of one-way perspective mirror is close or contact screen to be the contained angle of certain angle with the screen, the other end is close or contact frame body opening, and the camera lens of shooting equipment sees through one-way perspective mirror towards the frame body opening.

Further, the frame body is of a cuboid structure, and the one-way perspective mirror is of a flat-plate rectangular structure;

when the screen is arranged on the top of the frame body, the one-way perspective mirror forms included angles with the top plane, the bottom plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the left plane and the right plane of the frame body respectively, the reflecting surface of the one-way perspective mirror faces to the front part and the top junction of the frame body, and the light transmitting surface of the one-way perspective mirror faces to the rear part and the bottom junction of the frame body;

when the screen is arranged at the bottom of the frame body, the one-way perspective mirror forms included angles with the top plane, the bottom plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the left plane and the right plane of the frame body respectively, the reflecting surface of the one-way perspective mirror faces to the front part and the bottom junction of the frame body, and the light transmitting surface of the one-way perspective mirror faces to the rear part and the top junction of the frame body;

when the screen is arranged at the left part of the frame body, the one-way perspective mirror forms included angles with the left plane, the right plane, the front plane and the rear plane of the frame body at certain angles respectively and is vertical to the top plane and the bottom plane of the frame body respectively, the reflecting surface of the one-way perspective mirror faces to the front part and the left junction of the frame body, and the light transmitting surface of the one-way perspective mirror faces to the rear part and the right junction of the frame body;

the screen sets up when the frame body right part, the contained angle of certain angle is formed with the left part front surface, the right part plane, anterior plane and the rear portion plane of frame body respectively to the one-way perspective mirror is perpendicular with the top plane and the bottom plane of frame body respectively, and the reflecting surface of one-way perspective mirror is towards the front portion and the right part juncture of frame body, and the light-transmitting surface of one-way perspective mirror is towards the rear portion and the left part juncture of frame body.

Further, the screen is a display, and the screen is connected with the control device.

Furthermore, the shooting device further comprises a projector, the projector is arranged inside the frame body and connected with the control device, and a lens of the projector faces the screen.

Furthermore, the shooting device further comprises a first moving mechanism, and the first moving mechanism is connected with the control device and used for driving the frame body to move.

Furthermore, the shooting device further comprises a second moving mechanism, wherein the second moving mechanism is arranged inside the frame body, is connected with the control device and is used for driving the shooting device to move.

The first purpose of the invention can also be achieved by adopting the following technical scheme:

a device for shooting a visible-to-acquired mirror image comprises a frame body, shooting equipment, control equipment, a first screen, a second screen, a first one-way perspective mirror and a second one-way perspective mirror, wherein the front part of the frame body is provided with an opening, the control equipment is connected with the shooting equipment, the first screen and the second screen are respectively arranged at the top and the bottom of the frame body or at the left part and the right part of the frame body and are used for displaying an image output by the control equipment, the shooting equipment, the first one-way perspective mirror and the second one-way perspective mirror are arranged inside the frame body, one end of the first one-way perspective mirror is close to or in contact with the first screen and forms an included angle with the first screen, one end of the second one-way perspective mirror is close to or in contact with the second screen and forms an included angle with the second screen, the other end of the first one-way perspective mirror is connected with the other end of the second one-way perspective mirror, the lens of the shooting equipment passes through the joint of the first one-way perspective lens and the second one-way perspective lens and faces the opening of the frame body.

Further, the frame body is of a cuboid structure, and the first one-way perspective mirror and the second one-way perspective mirror are both of flat-plate rectangular structures;

when the first screen and the second screen are respectively arranged at the top and the bottom of the frame body, the first one-way perspective mirror respectively forms included angles with the top plane, the front plane and the rear plane of the frame body at certain angles and is respectively vertical to the left plane and the right plane of the frame body, the reflecting surface of the first one-way perspective mirror faces to the front part and the top junction of the frame body, and the light transmitting surface of the first one-way perspective mirror faces to the rear part and the bottom junction of the frame body; the second one-way perspective mirror forms included angles with the bottom plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the left plane and the right plane of the frame body respectively, the reflecting surface of the second one-way perspective mirror faces to the junction of the front part and the bottom of the frame body, and the light transmitting surface of the second one-way perspective mirror faces to the junction of the rear part and the top of the frame body;

when the first screen and the second screen are respectively arranged at the left part and the right part of the frame body, the first one-way perspective mirror respectively forms included angles with the left plane, the front plane and the rear plane of the frame body at certain angles and is respectively vertical to the top plane and the bottom plane of the frame body, the reflecting surface of the first one-way perspective mirror faces to the front part and the left junction of the frame body, and the light transmitting surface of the first one-way perspective mirror faces to the rear part and the right junction of the frame body; the second one-way perspective mirror forms included angles with the right plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the top plane and the bottom plane of the frame body respectively, the reflecting surface of the second one-way perspective mirror faces to the front part and the right junction of the frame body, and the light transmitting surface of the second one-way perspective mirror faces to the rear part and the left junction of the frame body.

Further, the first screen and the second screen are both displays, and the first screen and the second screen are respectively connected with the control device.

Furthermore, the shooting device further comprises a first projector and a second projector, the first projector and the second projector are arranged inside the frame body and are respectively connected with the control device, a lens of the first projector faces the first screen, and a lens of the second projector faces the second screen.

Furthermore, the shooting device further comprises a first moving mechanism, and the first moving mechanism is connected with the control device and used for driving the frame body to move.

Furthermore, the shooting device further comprises a second moving mechanism, wherein the second moving mechanism is arranged inside the frame body, is connected with the control device and is used for driving the shooting device to move.

The second purpose of the invention can be achieved by adopting the following technical scheme:

a terminal comprises a case and the shooting device, wherein the shooting device is arranged in the case.

Furthermore, the terminal machine further comprises a telescopic component, the telescopic component is connected with the top of the case, and the tail end of the telescopic component is provided with a lifting background cloth.

The third purpose of the invention can be achieved by adopting the following technical scheme:

a what-you-see-is-what-you-get mirror shot method, the method comprising:

after receiving a shooting instruction sent by a user, the shooting equipment shoots a portrait of the user through a light-transmitting surface of the one-way perspective mirror and transmits the portrait of the user to the control equipment;

the control equipment compares the shot user portrait with preset parameters in the system and processes the user portrait;

the control equipment overturns the processed user portrait and outputs the overturned user portrait to a screen for displaying;

the reflecting surface of the one-way perspective mirror reflects the mirror image of the screen out to present the portrait of the user.

The third purpose of the invention can be achieved by adopting the following technical scheme:

a what-you-see-is-what-you-get mirror shot method, the method comprising:

after receiving a shooting instruction sent by a user, the shooting equipment shoots a portrait of the user through the joint of the first one-way perspective mirror and the second one-way perspective mirror and transmits the portrait of the user to the control equipment;

the control equipment compares the shot user portrait with preset parameters in the system and processes the user portrait;

the control equipment turns over the processed user portrait, divides the turned user portrait into two parts, and respectively outputs the two parts of the user portrait to the first screen and the second screen for display;

the reflecting surface of the first one-way perspective mirror reflects the mirror image of the first screen, the reflecting surface of the second one-way perspective mirror reflects the mirror image of the second screen, and the combination presents the portrait of the user.

Compared with the prior art, the invention has the following beneficial effects:

1. the shooting device of the invention realizes the effect of 'what you see is what you get', utilizes the principle of the one-way perspective mirror, can arrange the one-way perspective mirror in a frame body, enables a user to look ahead at the mirror image reflected by the one-way perspective mirror, simultaneously, because the lens of the shooting equipment penetrates through the one-way perspective mirror and faces the opening of the frame body, the user can see the effect of the projection of the shooting equipment from the mirror image, in addition, a moving mechanism is also arranged, the control equipment can rapidly control the moving mechanism to move the frame body and/or the shooting equipment according to the image condition obtained by the shooting equipment, the human face is centered, finally, the photo effect of 'what you see is what you get' is obtained, the user can see and correct the performance of the user in real time like looking at the mirror just by looking ahead at the portrait reflected by the one-way perspective mirror, the user experience is improved, and the self-service shooting efficiency, The quality of the picture is improved.

2. The shooting device has the characteristics of portability and low cost, the shooting equipment, the one-way perspective mirror and the screen are packaged in the lightproof frame body, the frame body protects components arranged in the frame body, a closed shooting space similar to a darkroom is provided, the reflection quality of shooting and the one-way perspective mirror is ensured, other peripheral equipment is reduced, the integral weight of the shooting device is reduced, the volume is reduced, the cost is reduced, and the portable shooting device can be used for enabling professional self-help shooting everywhere without environmental limitation; in addition, two screens and two one-way perspective mirrors are utilized to form an M-shaped structure, the thickness of the whole shooting device between the front and the back is reduced, the space utilization rate is improved to the utmost extent, and the requirement that public services account for less space resources is met.

3. The shooting device has an intelligent shooting function, adopts international advanced 'fool' artificial intelligence concept design, and any public user can remind the user to pay attention to shooting items according to the simple 'human-computer interaction' prompt guidance of the system through human-computer interaction modes such as whole-course humanized intelligent voice, character and image prompt, so that the user is guided to sit upright and adjust the head and body posture, the system identifies the face position of the user in real time, the position of the frame body and/or the shooting equipment is automatically adjusted according to the face position, and after the face position meets the shooting requirement through automatic detection and judgment, a voice instruction is sent out, the best image is automatically captured, and the user can easily complete portrait shooting without pressing a shooting button.

Drawings

Fig. 1 is a perspective view of an imaging device according to embodiment 1 of the present invention.

Fig. 2 is a schematic side view of a camera device according to embodiment 1 of the present invention.

Fig. 3 is a schematic view of the shooting principle of the shooting apparatus according to embodiment 1 of the present invention.

Fig. 4 is a schematic diagram of a reflection effect of the photographing device according to embodiment 1 of the invention.

Fig. 5 is a perspective view of an imaging device according to embodiment 2 of the present invention.

Fig. 6 is a schematic side view of a camera device according to embodiment 2 of the present invention.

Fig. 7 is a schematic diagram of a reflection effect of the photographing device in embodiment 2 of the invention.

Fig. 8 is a perspective view of an imaging device according to embodiment 3 of the present invention.

Fig. 9 is a schematic top view of a camera device according to embodiment 3 of the present invention.

Fig. 10 is a schematic diagram of a reflection effect of the photographing device according to embodiment 3 of the invention.

Fig. 11 is a perspective view of an imaging device according to embodiment 4 of the present invention.

Fig. 12 is a schematic top view of a camera device according to embodiment 4 of the present invention.

Fig. 13 is a schematic diagram of a reflection effect of the photographing device according to embodiment 4 of the invention.

Fig. 14 is a perspective view of an imaging device according to embodiment 5 of the present invention.

Fig. 15 is a schematic side view of a camera device according to embodiment 5 of the present invention.

Fig. 16 is a schematic diagram of a reflection effect of the photographing device according to embodiment 5 of the invention.

Fig. 17 is a perspective view of an imaging device according to embodiment 6 of the present invention.

Fig. 18 is a side view of a camera device according to embodiment 6 of the present invention.

Fig. 19 is a schematic diagram of a reflection effect of the photographing device according to embodiment 6 of the invention.

Fig. 20 is a perspective view of an imaging device according to embodiment 7 of the present invention.

Fig. 21 is a schematic top view of a camera device according to embodiment 7 of the present invention.

Fig. 22 is a schematic diagram of a reflection effect of the photographing device according to embodiment 7 of the invention.

Fig. 23 is a perspective view of an imaging apparatus according to embodiment 8 of the present invention.

Fig. 24 is a schematic top view of a camera according to embodiment 8 of the present invention.

Fig. 25 is a schematic diagram of a reflection effect of the photographing device according to embodiment 8 of the invention.

Fig. 26 is a perspective view of an imaging device according to embodiment 9 of the present invention.

Fig. 27 is a side view of a camera device according to embodiment 9 of the present invention.

Fig. 28 is a schematic diagram of a reflection effect of the photographing device according to embodiment 9 of the invention.

Fig. 29 is a perspective view of an imaging apparatus according to embodiment 10 of the present invention.

Fig. 30 is a schematic top view of a camera according to embodiment 10 of the present invention.

Fig. 31 is a schematic diagram of a reflection effect of the photographing device according to embodiment 10 of the invention.

Fig. 32 is a perspective view of an imaging device according to embodiment 11 of the present invention.

Fig. 33 is a side view of a camera device according to embodiment 11 of the present invention.

Fig. 34 is a schematic diagram of a reflection effect of the photographing device according to embodiment 11 of the invention.

Fig. 35 is a perspective view of an imaging apparatus according to embodiment 12 of the present invention.

Fig. 36 is a schematic top view of a camera according to embodiment 12 of the present invention.

Fig. 37 is a schematic diagram of a reflection effect of the photographing device according to embodiment 12 of the invention.

Fig. 38 is a perspective view of a terminal according to embodiment 13 of the present invention.

Fig. 39 is a perspective view of a terminal according to embodiment 14 of the present invention.

Fig. 40 is a perspective view of a terminal according to embodiment 15 of the present invention.

In fig. 1 to 25, 1-frame body, 2-shooting device, 3-input device, 4-control device, 5-screen, 6-one-way perspective mirror, 61-light transmission surface, 62-reflection surface, 7-toughened glass, 8-projector.

In fig. 26 to 40, 1-frame body, 2-photographing device, 3-input device, 4-control device, 5-first screen, 6-second screen, 7-first one-way see-through mirror, 71-first light transmission surface, 72-first reflection surface, 8-second one-way see-through mirror, 81-second light transmission surface, 82-second reflection surface, 9-tempered glass, 10-first projector, 11-second projector, 12-cabinet, 13-telescopic member, 14-lifting background cloth.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited thereto.

Example 1:

as shown in fig. 1 and 2, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus, which includes a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, and a half-mirror 6, wherein the frame body 1 is a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion, and a right portion, and the front portion is open, the screen 5 is disposed at the bottom of the frame body 1, specifically, inside the bottom portion of the frame body 1, the half-mirror 6 is installed inside the frame body 1 and has a light-transmitting surface 61 and a reflecting surface 62, the photographing device 2 is disposed inside the frame body 1 and behind the half-mirror 6, and the control device 4 is connected to the photographing device 2, the input device 3, and the screen 5 through data transmission lines or other wireless transmission means.

The frame body 1 is made of a lightproof material, and the inner surface of the frame body is coated with an anti-reflection coating; specifically, the bottom inboard of the frame body 1 is provided with the screens that match with the size of screen 5 and the screw hole that is used for fixed screen 5, and the effect of the frame body 1 lies in: 1) the one-way perspective mirror 6, the shooting device 2 and the screen 5 which are arranged inside the frame body 7 are protected; 2) provides a closed environment similar to a darkroom for the one-way perspective mirror 6, and ensures that the one-way perspective mirror 6 can exert the one-way light transmission performance thereof.

In order to move the frame body 1, the shooting device of the embodiment further includes a first moving mechanism (not shown in the figure), the first moving mechanism is connected to the control device 4, and the frame body 1 is driven by the first moving mechanism to move; the first moving mechanism includes a first driving component and a first moving track, the frame body 1 is disposed on the first moving track, in this embodiment, the first driving component includes a lifting driving component and a horizontal driving component, the first moving track includes a lifting track and a horizontal track, the lifting driving component is used for driving the frame body 1 to move up and down (i.e. move in the vertical direction) along the lifting track, and the horizontal driving component is used for driving the frame body 1 to move left and right (i.e. move in the horizontal direction) along the horizontal track.

The shooting device of the embodiment further comprises tempered glass 7, wherein the tempered glass 7 has high light transmittance and an explosion-proof function, is a transparent colorless structure and is arranged at the front opening of the frame body 1; specifically, the anterior opening part of the frame body 1 is provided with the size assorted screens with toughened glass 7 and the screw hole that is used for fixed toughened glass 7 for toughened glass 7 can be fixed on the screens of the anterior opening part of the frame body 1 through screw and screw hole cooperation, makes the frame body 7 form airtight structure, and its effect lies in: 1) each part in the protection frame body 1 is not damaged by the outside; 2) utilize its high light transmissivity, guarantee that the light outside the frame body 1 can see through toughened glass 7 and reach one-way perspective mirror 6, reach shooting equipment 2, the user can see the mirror image that screen 5 at frame body 1 top appears on one-way perspective mirror 6 through toughened glass 7 and one-way perspective mirror 6 simultaneously.

The shooting device 2 adopts a digital camera, the lens of the digital camera faces the light-transmitting surface 61 of the one-way perspective lens 6 and faces the frame body 1 through the one-way perspective lens 6, and the acquired portrait information can be transmitted to the control device for image processing, so that the image can be displayed on the screen 5.

In order to move the shooting device 2, the shooting device of the embodiment further includes a second moving mechanism (not shown in the figure), the second moving mechanism is disposed inside the frame body 1 and behind the one-way perspective mirror 6, the second moving mechanism is connected to the control device 4, and the shooting device 2 is driven by the second moving mechanism to move; the second moving mechanism includes a second driving component and a second moving track, the shooting device 2 is disposed on the second moving track, in this embodiment, the second driving component includes a lifting driving component and a horizontal driving component, the second moving track includes a lifting track and a horizontal track, the lifting driving component is used for driving the shooting device 2 to move up and down (i.e. move in the vertical direction) along the lifting track, and the horizontal driving component is used for driving the shooting device 2 to move left and right (i.e. move in the horizontal direction) along the horizontal track.

The second moving mechanism is taken as an example for explanation in the present embodiment, and the following is specifically taken:

the lifting driving assembly comprises a lifting motor and a lifting screw rod, the lifting rail comprises a lifting slide rail and a lifting slide block, the lifting slide block is arranged on the lifting slide rail in a sliding mode, the shooting device 2 is fixed on the lifting slide block, preferably, the shooting device 2 is fixed on the lifting slide block through screws, the lifting slide block is provided with threaded holes and is connected with the lifting screw rod through the threaded holes, and after the lifting motor rotates, the lifting screw rod is driven to rotate, so that the shooting device 2 on the lifting slide block moves up and down along the lifting slide rail.

Those skilled in the art can understand that the lifting driving assembly of this embodiment can also adopt another structure, the lifting driving assembly includes a lifting motor, a belt and two synchronizing wheels, the two synchronizing wheels are respectively disposed at the upper and lower ends of the lifting driving assembly, the lifting motor is connected with one of the synchronizing wheels, the two synchronizing wheels are connected through the belt, the lifting slider is slidably disposed on the lifting slide rail, the shooting device 2 is fixed on the lifting slider and is fixedly connected with the belt, after the lifting motor rotates, the synchronizing wheel connected with the lifting motor is driven to rotate, the other synchronizing wheel is rotated through the belt, and in the process of rotating the belt, the shooting device 2 is driven to move up and down along the lifting slide rail.

Horizontal drive assembly includes horizontal motor and horizontal lead screw, horizontal track includes horizontal slide rail and horizontal slider, horizontal slider slides and sets up on horizontal slide rail, lift drive assembly fixes on horizontal slider, horizontal slider opens threaded hole, and link to each other with horizontal lead screw through the threaded hole, horizontal motor rotates the back, drive horizontal lead screw and rotate, lift drive assembly on the messenger horizontal slider moves about along horizontal slide rail, thereby make shooting equipment 2 on the lift slider move about along horizontal slide rail along with lift drive assembly.

Those skilled in the art can understand that the horizontal driving assembly of this embodiment can also adopt another structure, the horizontal driving assembly includes a horizontal motor, a belt and two synchronizing wheels, the two synchronizing wheels are respectively disposed at the left and right ends of the horizontal driving assembly, the horizontal motor is connected with one of the synchronizing wheels, the two synchronizing wheels are connected through the belt, the horizontal slider is slidably disposed on the horizontal sliding rail, the lifting driving assembly is fixed on the horizontal slider and is fixedly connected with the belt, after the horizontal motor rotates, the synchronizing wheel connected with the horizontal motor is driven to rotate, the other synchronizing wheel is rotated through the belt, in the process of the belt rotation, the lifting driving assembly on the horizontal slider is driven to move left and right along the horizontal sliding rail, so that the shooting device 2 on the lifting slider moves left and right along the horizontal sliding rail along with the lifting driving assembly.

As can be seen from the above, the specific structure of the first moving mechanism and the second moving mechanism is realized by the existing components, and although the corresponding drawings are not provided herein, those skilled in the art can understand that. In addition, the first driving assembly may also be a lifting driving assembly, and accordingly, the first moving track is a lifting track, so that the frame body 1 can only move up and down, and the first driving assembly may also be a horizontal driving assembly, and accordingly, the first moving track is a horizontal track, so that the frame body 1 can only move left and right; similarly, the second driving assembly may also be a lifting driving assembly, and accordingly, the second moving rail may be a lifting rail, so that the photographing apparatus 2 can only move up and down, and the second driving assembly may also be a horizontal driving assembly, and accordingly, the second moving rail may be a horizontal rail, so that the photographing apparatus 2 can only move left and right.

The input device 3 adopts a touch screen for man-machine interaction, is arranged below the front part of the frame body 1 and is fixedly connected with the lower edge of the frame body 1, and a user can operate the input device 3 and feed instructions back to the control device 4.

The control device 4 adopts an industrial personal computer, can display the image acquired by the shooting device 2 on the screen 5 after real-time processing according to the instruction of the input device 3, and has multiple functions of shooting, rephotography, voice recognition, image optimization processing, special effect processing, communication with an external network, data uploading, data downloading, printing and the like.

The screen 5 adopts a flat panel display, is fixed on a clamping position on the inner side of the bottom of the frame body 1 through the matching of a screw and a threaded hole, can display the portrait information acquired by the control equipment 4 from the shooting equipment 2 on the screen 5 through operation, and the image is a dynamic real-time picture and is synchronous with the portrait acquired by the shooting equipment 2 in real time.

The one-way perspective mirror 6 is a flat rectangular structure, one end of the one-way perspective mirror 6 is close to or in contact with the screen 5 and forms an included angle with the screen 5 at a certain angle, the other end of the one-way perspective mirror is close to or in contact with an opening of the frame body 1, specifically, the one-way perspective mirror 6 respectively forms included angles (the optimal angle is 45 degrees) with the top plane, the bottom plane, the front plane and the rear plane of the frame body 1 and is respectively perpendicular to the left plane and the right plane of the frame body 1, the reflecting surface 62 of the one-way perspective mirror 6 faces the junction of the front part and the bottom part of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be realized, double images do not exist, imaging is clear, light rays can be turned at a certain angle, namely the light rays emitted by the screen 5 are reflected to human eyes, a person positioned at the front part, allowing the user to see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the top part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: the light on one side of the reflecting surface 62 is stronger than the light on one side of the light transmitting surface 61, and the reflecting surface 62 can present mirror reflection, so that the user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can see through the one-way perspective mirror 6 to capture the image of a person.

As shown in fig. 1, 3 and 4, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is displayed on the screen 5, and if necessary, the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the portrait condition displayed on the screen 5, so that the face of the person is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the top of the frame body 1 is the background of the one-way perspective mirror 6, no light source exists, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and as a certain included angle (optimally 45 degrees) is formed between the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located, the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, the user can see the image displayed on the screen 5 in real time, and as one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting equipment 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting equipment 2, the control equipment 6 can perform corresponding mirror image turning processing on the collected portrait of the user and display the portrait on the screen 5, and the image displayed on the screen 5 seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 2:

as shown in fig. 5 and 6, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, a half mirror 6, a first moving mechanism (not shown) and a second moving mechanism (not shown), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and a front opening, the screen 5 being provided on the top portion of the frame body 1, particularly, on the inside of the top portion of the frame body 1, the half mirror 6 being installed inside the frame body 1, having a light-transmitting surface 61 and a reflecting surface 62, the photographing device 2 and the second moving mechanism being provided inside the frame body 1, and the photographing device 2 and the second moving mechanism being located behind the half mirror 6, the control device 4 being respectively connected to the photographing device 2, the half, The input device 3, the screen 5, the first moving mechanism and the second moving mechanism are connected.

The inside of the top of the frame body 1 of the embodiment is provided with a clamping position matched with the size of the screen 5 and a threaded hole for fixing the screen 5, and correspondingly, the screen 5 is fixed on the clamping position on the inside of the top of the frame body 1 through the matching of a screw and the threaded hole; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

The one-way perspective mirror 6 of the embodiment forms included angles with the top plane, the bottom plane, the front plane and the rear plane of the frame body 1 at certain angles (the optimal angle is 45 degrees), and is perpendicular to the left plane and the right plane of the frame body 1, the reflecting surface 62 of the one-way perspective mirror 6 faces to the junction of the front part and the top part of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be achieved, ghost images do not exist in imaging, imaging clarity is guaranteed, light can be turned at a certain angle, namely, the light emitted by the screen 5 is reflected to human eyes, a person positioned at the front part of the frame body 1 receives an image which is reflected to the human eyes by the screen 5 through the one-way perspective mirror 6, and the user can see; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the bottom part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: because the light on one side of the reflecting surface 62 is stronger than the light on one side of the light transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that the user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the lens of the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can see the one-way perspective mirror 6 to capture the image of a person.

As shown in fig. 5 and 7, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is displayed on the screen 5, and if necessary, the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the portrait condition displayed on the screen 5, so that the face of the person is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the bottom of the frame body 1 is the background of the one-way perspective mirror 6, no light source exists, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and as a certain included angle (optimally 45 degrees) is formed between the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located, the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, the user can see the image displayed on the screen 5 in real time, and as one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting equipment 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting equipment 2, the control equipment 6 can perform corresponding mirror image turning processing on the collected portrait of the user and display the portrait on the screen 5, and the image displayed on the screen 5 seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 3:

as shown in fig. 8 and 9, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, a half mirror 6, a first moving mechanism (not shown) and a second moving mechanism (not shown), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and a front opening, the screen 5 being provided at the left portion of the frame body 1, particularly, at the inner side of the left portion of the frame body 1, the half mirror 6 being installed inside the frame body 1, having a light-transmitting surface 61 and a reflecting surface 62, the photographing device 2 and the second moving mechanism being provided inside the frame body 1, and the photographing device 2 and the second moving mechanism being located behind the half mirror 6, the control device 4 being respectively connected to the photographing device 2, the second moving, The input device 3, the screen 5, the first moving mechanism and the second moving mechanism are connected.

The inner side of the left part of the frame body 1 of the embodiment is provided with a clamping position matched with the size of the screen 5 and a threaded hole for fixing the screen 5, and correspondingly, the screen 5 is fixed on the clamping position of the inner side of the left part of the frame body 1 through the matching of a screw and the threaded hole; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

The one-way perspective mirror 6 of the embodiment forms included angles with a left plane, a right plane, a front plane and a rear plane of the frame body 1 at certain angles (the optimal angle is 45 degrees), and is perpendicular to a top plane and a bottom plane of the frame body 1 respectively, a reflecting surface 62 of the one-way perspective mirror 6 faces to the junction of the front part and the left part of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be achieved, ghost images do not exist in imaging, imaging clarity is guaranteed, light can be turned at a certain angle, namely, the light emitted by the screen 5 is reflected to human eyes, a person positioned at the front part of the frame body 1 receives an image of the screen 5 reflected to the human eyes through the one-way perspective mirror 6, and the user can see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the right part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: because the light on one side of the reflecting surface 62 is stronger than the light on one side of the light transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that the user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the lens of the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can see the one-way perspective mirror 6 to capture the image of a person.

As shown in fig. 8 and 10, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is displayed on the screen 5, and if necessary, the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the portrait condition displayed on the screen 5, so that the face of the person is centered; the unidirectional perspective mirror 6 is observed from the direction of the screen 5, the right part of the frame body 1 is the background of the unidirectional perspective mirror 6, no light source exists, the screen 5 emits strong light, the reflecting surface 62 of the unidirectional perspective mirror 6 has a good reflection imaging effect, and as the plane where the unidirectional perspective mirror 6 is located and the plane where the screen 5 is located form a certain included angle (optimally 45 degrees), the unidirectional perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, the user can see the image displayed on the screen 5 in real time, and as one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting equipment 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting equipment 2, the control equipment 6 can perform corresponding mirror image turning processing on the collected portrait of the user and display the portrait on the screen 5, and the image displayed on the screen 5 seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 4:

as shown in fig. 11 and 12, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, a half mirror 6, a first moving mechanism (not shown) and a second moving mechanism (not shown), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and the front portion being open, the screen 5 being provided at the right portion of the frame body 1, particularly, at the inside of the right portion of the frame body 1, the half mirror 6 being installed inside the frame body 1, having a light-transmitting surface 61 and a reflecting surface 62, the photographing device 2 and the second moving mechanism being provided inside the frame body 1, and the photographing device 2 and the second moving mechanism being located behind the half mirror 6, the control device 4 being respectively connected to the photographing device 2, the second, The input device 3, the screen 5, the first moving mechanism and the second moving mechanism are connected.

The inner side of the right part of the frame body 1 of the embodiment is provided with a clamping position matched with the size of the screen 5 and a threaded hole for fixing the screen 5, and correspondingly, the screen 5 is fixed on the clamping position of the inner side of the right part of the frame body 1 through the matching of a screw and the threaded hole; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

The one-way perspective mirror 6 of the embodiment forms included angles with a left plane, a right plane, a front plane and a rear plane of the frame body 1 at certain angles (the optimal angle is 45 degrees) respectively, and is perpendicular to a top plane and a bottom plane of the frame body 1 respectively, a reflecting surface 62 of the one-way perspective mirror 6 faces to the junction of the front part and the right part of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be achieved, ghost images do not exist in imaging, imaging clarity is guaranteed, light can be turned at a certain angle, namely, the light emitted by the screen 5 is reflected to human eyes, a person positioned at the front part of the frame body 1 receives an image of the screen 5 reflected to the human eyes through the one-way perspective mirror 6, and the user can see; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the left part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: because the light on one side of the reflecting surface 62 is stronger than the light on one side of the light transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that the user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the lens of the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can see the one-way perspective mirror 6 to capture the image of a person.

As shown in fig. 11 and 13, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is displayed on the screen 5, and if necessary, the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the portrait condition displayed on the screen 5, so that the face of the person is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the left part of the frame body 1 is the background of the one-way perspective mirror 6, no light source exists, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and as a certain included angle (optimally 45 degrees) is formed between the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located, the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, the user can see the image displayed on the screen 5 in real time, and as one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting equipment 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting equipment 2, the control equipment 6 can perform corresponding mirror image turning processing on the collected portrait of the user and display the portrait on the screen 5, and the image displayed on the screen 5 seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 5:

as shown in fig. 14 and 15, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, an half mirror 6, a projector 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion and being open at the front portion, the screen 5 being provided at the bottom of the frame body 1, specifically being provided inside the bottom of the frame body 1, the projector 8 being installed inside the frame body 1 with its lens facing the screen 5 and capable of projecting an image output from the control device 4 onto the screen 5, the half mirror 6 being installed inside the frame body 1 and having a light transmission surface 61 and a reflection surface 62, the photographing device 2 and the second moving mechanism being provided inside the frame body 1, and the shooting device 2 and the second moving mechanism are both positioned behind the one-way perspective mirror 6, and the control device 4 is respectively connected with the shooting device 2, the input device 3, the projector 8, the first moving mechanism and the second moving mechanism.

One end of the one-way perspective mirror 6 is close to or contacts the screen 5 and forms an included angle with the screen 5 at a certain angle, and the other end is close to or contacts the frame body opening, specifically, the one-way perspective mirror 6 forms an included angle (the optimal angle is 45 degrees) with the top plane, the bottom plane, the front plane and the rear plane of the frame body 1 respectively and is perpendicular to the left plane and the right plane of the frame body 1 respectively, the reflecting surface 62 of the one-way perspective mirror 6 faces the junction of the front part and the bottom part of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be realized, double images do not exist, imaging is clear, light can be bent at a certain angle, namely, the light of the screen 5 is reflected to human eyes, a person positioned at the front part of the frame body 1 is enabled to receive images reflected to the human eyes by the screen 5 through, allowing the user to see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the top part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: the light on one side of the reflecting surface 62 is stronger than the light on one side of the light-transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that a user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the image of a person through the one-way perspective mirror 6; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

As shown in fig. 14 and 16, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is projected on the screen 5 through the projector 8, and the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the condition of a portrait projected by the projector 8 if necessary, so that a human face is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the top of the frame body 1 is the background of the one-way perspective mirror 6, no light source exists, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and as a certain included angle (optimally 45 degrees) is formed between the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located, the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, the user can see the image displayed on the screen 5 in real time, and as one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting device 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting device 2, the control device 6 can perform corresponding mirror image turning processing on the collected portrait of the user, and then the portrait of the user is projected on the screen 5 through the projector 8, and the mirror image seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Further, the photographing apparatus of the embodiment further includes a prism (not shown in the figure), and light emitted from the lens of the projector 8 is projected on the screen 5 through the prism, that is, the projector 8 can project an image output by the control device on the screen 5 through the prism.

Further, the screen 5 of the embodiment needs to ensure that the image projected by the projector 8 is clear, and may be a bottom plane of the frame body 1, a bottom plane on which a projection film is attached or a projection coating is coated, or a projection curtain installed at the bottom of the frame body 1.

Example 6:

as shown in fig. 17 and 18, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus, which includes a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, an one-way see-through mirror 6, a projector 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), the frame body 1 is a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and a front opening, the screen 5 is disposed on the top of the frame body 1, specifically, inside the top portion of the frame body 1, which may be a top plane on which a projection film is attached or a projection coating is applied, which may be a projection screen or the like mounted on the top portion of the frame body 1, the projector 8 is mounted inside the frame body 1 with its lens facing the screen 5, which may project an image output, the one-way perspective mirror 6 is installed inside the frame body 1 and is provided with a light transmitting surface 61 and a reflecting surface 62, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, the shooting device 2 and the second moving mechanism are both located behind the one-way perspective mirror 6, and the control device 4 is connected with the shooting device 2, the input device 3, the projector 8, the first moving mechanism and the second moving mechanism respectively.

One end of the one-way perspective mirror 6 is close to or contacts the screen 5 and forms an included angle with the screen 5 at a certain angle, and the other end is close to or contacts the frame body opening, specifically, the one-way perspective mirror 6 forms an included angle (the optimal angle is 45 degrees) with the top plane, the bottom plane, the front plane and the rear plane of the frame body 1 respectively and is perpendicular to the left plane and the right plane of the frame body 1 respectively, the reflecting surface 62 of the one-way perspective mirror 6 faces the front part and the top junction of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be realized, double images do not exist, imaging is clear, light can be bent at a certain angle, namely, the light of the screen 5 is reflected to human eyes, a person positioned at the front part of the frame body 1 is enabled to receive images reflected to the human eyes by the screen 5 through the one-, allowing the user to see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the bottom part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: the light on one side of the reflecting surface 62 is stronger than the light on one side of the light-transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that a user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the image of a person through the one-way perspective mirror 6; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

As shown in fig. 17 and 19, the photographing principle of the photographing apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is projected on the screen 5 through the projector 8, and the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the condition of a portrait projected by the projector 8 if necessary, so that a human face is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the bottom of the frame body 1 is the background of the one-way perspective mirror 6, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and the one-way perspective mirror 6 can reflect the image displayed on the screen 5 due to the fact that a certain included angle (optimally 45 degrees) is formed between the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located, namely the direction observed by a user, so that the user can see the image displayed on the screen 5 in real time, and the user can only see the image displayed on the screen 5 without seeing the shooting device 2 due to the fact that one side of the shooting device 2 has; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting device 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting device 2, the control device 6 can perform corresponding mirror image turning processing on the collected portrait of the user, and then the portrait of the user is projected on the screen 5 through the projector 8, and the mirror image seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 7:

as shown in fig. 20 and 21, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, an one-way see-through mirror 6, a projector 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and a front opening, the screen 5 being provided at the left portion of the frame body 1, specifically being provided inside the left portion of the frame body 1, which may be a left portion plane on which a projection film is attached or a projection coating is applied, which may be a left portion plane on which a projection coating is attached, which may be a projection screen 8 installed inside the frame body 1, with its lens facing the screen 5, which may project an image output by the control device 4, the one-way perspective mirror 6 is installed inside the frame body 1 and is provided with a light transmitting surface 61 and a reflecting surface 62, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, the shooting device 2 and the second moving mechanism are both located behind the one-way perspective mirror 6, and the control device 4 is connected with the shooting device 2, the input device 3, the projector 8, the first moving mechanism and the second moving mechanism respectively.

One end of the one-way perspective mirror 6 is close to or contacts the screen 5 and forms an included angle with the screen 5 at a certain angle, and the other end is close to or contacts the frame body opening, specifically, the one-way perspective mirror 6 respectively forms included angles (the optimal angle is 45 degrees) with the left plane, the right plane, the front plane and the rear plane of the frame body 1 and is respectively perpendicular to the top plane and the bottom plane of the frame body 1, the reflecting surface 62 of the one-way perspective mirror 6 faces the front part and the left part junction of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, so that mirror surface imaging can be realized, double images do not exist, imaging is clear, light rays can be turned at a certain angle, namely, the light rays emitted by the screen 5 are reflected to human eyes, a person positioned at the front part of the frame body 1 receives images of the screen 5 reflected to the human eyes through the one-, allowing the user to see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the right part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: the light on one side of the reflecting surface 62 is stronger than the light on one side of the light-transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that a user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the image of a person through the one-way perspective mirror 6; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

As shown in fig. 20 and 22, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is projected on the screen 5 through the projector 8, and the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the condition of a portrait projected by the projector 8 if necessary, so that a human face is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the right part of the frame body 1 is the background of the one-way perspective mirror 6, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 has a good reflection imaging effect, and as the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located form a certain included angle (optimally 45 degrees), the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, so that the user can see the image displayed on the screen 5 in real time, and because one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting device 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting device 2, the control device 6 can perform corresponding mirror image turning processing on the collected portrait of the user, and then the portrait of the user is projected on the screen 5 through the projector 8, and the mirror image seen by the user through the one-way perspective mirror 6 is the portrait of the user.

Example 8:

as shown in fig. 23 and 24, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus, which includes a frame body 1, a photographing device 2, an input device 3, a control device 4, a screen 5, an one-way see-through mirror 6, a projector 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), the frame body 1 is a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and the front portion is open, the screen 5 is disposed at the right portion of the frame body 1, specifically, inside the right portion of the frame body 1, which may be a right portion plane on which a projection film or a projection coating is applied, which may be a right portion plane on which a projection coating is applied, which may be a projection screen or the like mounted at the right portion of the frame body 1, the projector 8 is mounted inside the frame body 1, with, the one-way perspective mirror 6 is installed inside the frame body 1 and is provided with a light transmitting surface 61 and a reflecting surface 62, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, the shooting device 2 and the second moving mechanism are both located behind the one-way perspective mirror 6, and the control device 4 is connected with the shooting device 2, the input device 3, the projector 8, the first moving mechanism and the second moving mechanism respectively.

One end of the one-way perspective mirror 6 is close to or contacts the screen 5 and forms an included angle with the screen 5 at a certain angle, and the other end is close to or contacts the frame body opening, specifically, the one-way perspective mirror 6 respectively forms included angles (the optimal angle is 45 degrees) with the left plane, the right plane, the front plane and the rear plane of the frame body 1 and is respectively perpendicular to the top plane and the bottom plane of the frame body 1, the reflecting surface 62 of the one-way perspective mirror 6 faces the front part and the right part junction of the frame body 1, the reflecting surface 62 is plated with a layer of material with single-sided reflection performance, mirror surface imaging can be realized, double images do not exist, imaging is clear, light rays can be turned at a certain angle, namely, the light rays emitted by the screen 5 are reflected to human eyes, a person positioned at the front part of the frame body 1 receives images of the screen 5 reflected to the human eyes through the one-way perspective, allowing the user to see the image; the light-transmitting surface 61 of the one-way perspective mirror 6 faces the junction of the rear part and the left part of the frame body 1, since the shooting device 2 is positioned behind the one-way perspective mirror 2, and the lens of the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective mirror 6, external light is emitted into the shooting device 2 through the one-way perspective mirror 6, and the lens of the shooting device 2 penetrates through the one-way perspective mirror 6 and then penetrates through the toughened glass 7 to shoot a portrait; the principle is as follows: the light on one side of the reflecting surface 62 is stronger than the light on one side of the light-transmitting surface 61, the reflecting surface 62 can present mirror reflection, so that a user can see the image displayed on the screen 5 through the one-way perspective mirror 6 and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the image of a person through the one-way perspective mirror 6; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described as in embodiment 1.

As shown in fig. 23 and 25, the photographing principle of the photographing apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the shooting device 2 faces the light-transmitting surface 61 of the one-way perspective lens 6, the shooting device 2 can shoot a clear image of a user through the one-way perspective lens 6 and the toughened glass 7 and transmit the clear image to the control device 4, an image output by the control device 4 is projected on the screen 5 through the projector 8, and the control device 4 can control the first moving mechanism to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 according to the condition of a portrait projected by the projector 8 if necessary, so that a human face is centered; the one-way perspective mirror 6 is observed from the direction of the screen 5, the left part of the frame body 1 is the background of the one-way perspective mirror 6, the screen 5 emits strong light, the reflecting surface 62 of the one-way perspective mirror 6 presents good reflecting imaging effect, and as the plane where the one-way perspective mirror 6 is located and the plane where the screen 5 is located form a certain included angle (optimally 45 degrees), the one-way perspective mirror 6 can reflect the image displayed on the screen 5, namely the direction observed by a user, so that the user can see the image displayed on the screen 5 in real time, and because one side of the shooting device 2 has no light source, the user can only see the image displayed on the screen 5 but can not see the shooting device 2; because the image displayed on the screen 5 seen by the user is the mirror image reflected by the one-way perspective mirror 6, and because the shooting device 2 directly collects the portrait of the user, in order to ensure that the user sees the portrait of the user collected by the shooting device 2, the control device 6 can perform corresponding mirror image turning processing on the collected portrait of the user, and then the portrait of the user is projected on the screen 5 through the projector 8, and the mirror image seen by the user through the one-way perspective mirror 6 is the portrait of the user.

The shooting device of the above embodiments 1 to 8 specifically shoots the flow as follows:

s1, the photographing device receives a wake-up command from a user, and the standby state is changed to an operating state, where the wake-up command may be, but is not limited to, any one of the following commands:

a) a voice instruction; b) detecting a human body by infrared; c) touch clicking; d) a rocker and a button; e) and a remote controller.

And S2, the shooting device sends out a prompt to guide the user to use, and the prompt can be any one or more of the following prompts:

a) voice prompt; b) displaying a prompt; c) help description text; d) and (6) carrying out graphical prompt.

S3, the control device 4 acquires image information through the shooting device 2, displays the acquired image on the screen 5 in real time, analyzes the image, automatically judges the portrait position, controls the first moving mechanism to drive the frame body and/or the second moving mechanism to drive the shooting device 2 to move to the best shooting position, and prompts a user to send a shooting instruction after the position adjustment is completed.

S4, the shooting device receives a shooting instruction of the user, and the shooting instruction can be, but is not limited to, any one of the following instructions:

a) presetting a voice instruction; b) clicking a button; c) presetting expression and action instructions; d) touch clicking; e) and a remote controller.

S5, the shooting device 2 shoots the user, the control device 4 compares the shot portrait with preset parameters in the system, processes the portrait (such as cutting and the like), and turns over after the portrait is processed, and the turned portrait is displayed on the screen 5 for the user to confirm.

And S6, the shooting device 2 continuously shoots the user, and the control device 4 calculates a plurality of shot images, screens and processes the images to obtain images with good effects, so that the user can preview and select the images.

S7, the shooting device receives a confirmation instruction of the user, and the confirmation instruction may be, but is not limited to, any one of the following instructions:

a) presetting a voice instruction; b) clicking a button; c) presetting expression and action instructions; d) touch clicking; e) and a remote controller.

S8, the shooting device sends the photo to the user, and the sending method may be, but is not limited to, any of the following methods:

a) print delivery, such as remote printing, direct printing, and the like; b) internet transmission such as QQ, wechat, email, etc.

Example 9:

as shown in fig. 26 to 28, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus, which includes a frame body 1, a photographing device 2, an input device 3, a control device 4, a first screen 5, a second screen 6, a first half mirror 7 and a second half mirror 8, wherein the frame body 1 is a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and the front portion is open, the first screen 5 is disposed on the top portion of the frame body 1, specifically on the inside of the top portion of the frame body 1, the second screen 6 is disposed on the bottom portion of the frame body 1, specifically on the inside of the bottom portion of the frame body 1, the first half mirror 7 and the first half mirror 8 are both flat rectangular structures and are installed inside the frame body 1, one end of the first half mirror 7 is close to or in contact with the first screen 5 and forms a first angle with the first screen 5, one end of the second one-way perspective mirror 8 is close to or contacts the second screen 6 and forms a second included angle with the second screen 6, and the other end of the first one-way perspective mirror 7 is connected with the other end of the second one-way perspective mirror 8, so that it can be understood that, after the two ends are connected, the first one-way perspective mirror 7 and the second one-way perspective mirror 8 necessarily form a third included angle with a certain angle, the third angle is a sum of the first angle and the second angle, the first half mirror 7 has a first light-transmitting surface 71 and a first reflecting surface 72, the second half mirror 8 has a second light-transmitting surface 81 and a second reflecting surface 82, the photographing device 2 is disposed inside the frame body 1, and is located the rear of single-direction perspective mirror 6, and controlgear 4 passes through data transmission line or other wireless transmission modes and links to each other with shooting equipment 2, input device 3, first screen 5, second screen 6 respectively.

The frame body 1 is made of a lightproof material, and the inner surface of the frame body is coated with an anti-reflection coating; specifically, the top inboard of the frame body 1 is provided with the screens that match with the size of first screen 5 and the screw hole that is used for fixed first screen 5, and the bottom inboard is provided with the screens that match with the size of second screen 6 and the screw hole that is used for fixed second screen 6, and the effect of the frame body 1 lies in: 1) the shooting device 2, the first screen 5, the second screen 6, the first half mirror 7 and the second half mirror 8 which are arranged inside the frame body 7 are protected; 2) the first one-way perspective mirror 7 and the second one-way perspective mirror 8 are provided with a closed environment similar to a darkroom, and the first one-way perspective mirror 7 and the second one-way perspective mirror 8 can play a role in one-way light transmission.

In order to move the frame body 1, the shooting device of the embodiment further includes a first moving mechanism (not shown in the figure), the first moving mechanism is connected to the control device 4, and the frame body 1 is driven by the first moving mechanism to move; the first moving mechanism includes a first driving component and a first moving track, the frame body 1 is disposed on the first moving track, in this embodiment, the first driving component includes a lifting driving component and a horizontal driving component, the first moving track includes a lifting track and a horizontal track, the lifting driving component is used for driving the frame body 1 to move up and down (i.e. move in the vertical direction) along the lifting track, and the horizontal driving component is used for driving the frame body 1 to move left and right (i.e. move in the horizontal direction) along the horizontal track.

The shooting device of the embodiment further comprises tempered glass 9, wherein the tempered glass 9 has high light transmittance and an explosion-proof function, is a transparent colorless structure and is arranged at the front opening of the frame body 1; specifically, the anterior opening part of the frame body 1 is provided with the screens with toughened glass 9's size assorted and the screw hole that is used for fixed toughened glass 9 for toughened glass 9 can be fixed on the screens of the anterior opening part of the frame body 1 through screw and screw hole cooperation, makes frame body 7 form airtight structure, and its effect lies in: 1) each part in the protection frame body 1 is not damaged by the outside; 2) utilize its high light transmissivity, guarantee that the light outside the frame body 1 can be through toughened glass 9 arrival one-way perspective mirror 6, reachs and shoot equipment 2, and the user can pass through toughened glass 9, first one-way perspective mirror 7 and the one-way perspective mirror 8 of second simultaneously, can see the mirror image that first screen 5 and second screen 6 combination appear on the junction of first one-way perspective mirror 7 and the one-way perspective mirror 8 of second.

The shooting device 2 is a digital camera, which is arranged inside the frame body 1, is specifically fixed at the rear side inside the frame body 1, is located behind the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and has a lens facing to the joint of the first light transmission surface 71 and the second light transmission surface 81, and opens towards the frame body 1 through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and can transmit the collected portrait information to the control device through a data transmission line for image processing, so that the image can be divided into two parts, wherein one part is displayed on the screen of the first screen 5, and the other part is displayed on the screen of the second screen 6, for example, in the shot portrait, the part above the neck of the portrait is displayed on the screen of the first screen 5, and the part below the neck of the portrait is displayed on the screen of the second screen 6.

In order to move the shooting device 2, the shooting device of the embodiment further includes a second moving mechanism (not shown in the figure), the second moving mechanism is disposed inside the frame body 1 and behind the one-way perspective mirror 6, the second moving mechanism is connected to the control device 4, and the shooting device 2 is driven by the second moving mechanism to move; the second moving mechanism includes a second driving component and a second moving track, the shooting device 2 is disposed on the second moving track, in this embodiment, the second driving component includes a lifting driving component and a horizontal driving component, the second moving track includes a lifting track and a horizontal track, the lifting driving component is used for driving the shooting device 2 to move up and down (i.e. move in the vertical direction) along the lifting track, and the horizontal driving component is used for driving the shooting device 2 to move left and right (i.e. move in the horizontal direction) along the horizontal track.

The first moving mechanism is taken as an example in the present embodiment, and the following is specifically described:

the lifting driving assembly comprises a lifting motor and a lifting screw rod, the lifting track comprises a lifting slide rail and a lifting slide block, the lifting slide block is arranged on the lifting slide rail in a sliding mode, the frame body 1 is fixed on the lifting slide block, preferably, the frame body 1 is fixed on the lifting slide block through screws, the lifting slide block is provided with a threaded hole and is connected with the lifting screw rod through the threaded hole, and after the lifting motor rotates, the lifting screw rod is driven to rotate, so that the frame body 1 on the lifting slide block moves up and down along the lifting slide rail.

It can be understood by those skilled in the art that the lifting driving assembly of the present embodiment may also adopt another structure, the lifting driving assembly includes a lifting motor, a belt and two synchronizing wheels, the two synchronizing wheels are respectively disposed at the upper and lower ends of the lifting driving assembly, the lifting motor is connected with one of the synchronizing wheels, the two synchronizing wheels are connected through the belt, the lifting slider is slidably disposed on the lifting slide rail, the frame body 1 is fixed on the lifting slider and is fixedly connected with the belt, after the lifting motor rotates, the synchronizing wheel connected with the lifting motor is driven to rotate, the other synchronizing wheel is rotated through the belt, and in the process of rotating the belt, the frame body 1 is driven to move up and down along the lifting slide rail.

Horizontal drive assembly includes horizontal motor and horizontal lead screw, horizontal track includes horizontal slide rail and horizontal slider, horizontal slider slides and sets up on horizontal slide rail, lift drive assembly fixes on horizontal slider, horizontal slider opens threaded hole, and link to each other with horizontal lead screw through the threaded hole, horizontal motor rotates the back, drive horizontal lead screw and rotate, lift drive assembly on the messenger horizontal slider moves about along horizontal slide rail, thereby frame body 1 on the messenger lift slider moves about along horizontal slide rail along with lift drive assembly.

Those skilled in the art can understand that the horizontal driving assembly of this embodiment can also adopt another structure, the horizontal driving assembly includes a horizontal motor, a belt and two synchronizing wheels, the two synchronizing wheels are respectively disposed at the left and right ends of the horizontal driving assembly, the horizontal motor is connected with one of the synchronizing wheels, the two synchronizing wheels are connected through the belt, the horizontal slider is slidably disposed on the horizontal sliding rail, the lifting driving assembly is fixed on the horizontal slider and is fixedly connected with the belt, after the horizontal motor rotates, the synchronizing wheel connected with the horizontal motor is driven to rotate, the other synchronizing wheel is rotated through the belt, in the process of the belt rotation, the lifting driving assembly on the horizontal slider is driven to move left and right along the horizontal sliding rail, so that the frame body 1 on the lifting slider moves left and right along the horizontal sliding rail along with the lifting driving assembly.

As can be seen from the above, the specific structure of the first moving mechanism and the second moving mechanism is realized by the existing components, and although the corresponding drawings are not provided herein, those skilled in the art can understand that. In addition, the first driving assembly may also be a lifting driving assembly, and accordingly, the first moving track is a lifting track, so that the frame body 1 can only move up and down, and the first driving assembly may also be a horizontal driving assembly, and accordingly, the first moving track is a horizontal track, so that the frame body 1 can only move left and right; similarly, the second driving assembly may also be a lifting driving assembly, and accordingly, the second moving rail may be a lifting rail, so that the photographing apparatus 2 can only move up and down, and the second driving assembly may also be a horizontal driving assembly, and accordingly, the second moving rail may be a horizontal rail, so that the photographing apparatus 2 can only move left and right.

The input device 3 adopts a touch screen for man-machine interaction, is arranged below the front part of the frame body 1 and is fixedly connected with the lower edge of the frame body 1, and a user can operate the input device 3 and feed instructions back to the control device 4.

The control device 4 adopts an industrial personal computer, can divide the image collected by the shooting device 2 into two parts after real-time processing according to the instruction of the input device 3, and displays the two parts on the first screen 5 and the second screen 6, and has multiple functions of shooting, rephotography, voice recognition, image optimization, special effect processing, communication with an external network, data uploading, data downloading, printing and the like.

The first screen 5 and the second screen 6 are flat screens, wherein the first screen 5 is fixed on the clamping position on the inner side of the top of the frame body 1 through the matching of a screw and a threaded hole, the second screen 6 is fixed on the clamping position on the inner side of the bottom of the frame body 1 through the matching of a screw and a threaded hole, the portrait information collected by the control device 4 from the shooting device 2 can be divided into two parts through operation and displayed on the first screen 5 and the second screen 6, and the image is a dynamic real-time image and is synchronous with the portrait collected by the shooting device 2 in real time.

The first one-way perspective mirror 7 forms an angle (preferably 45 degrees) with the top plane, the front plane and the rear plane of the frame body 1, and is perpendicular to the left plane and the right plane of the frame body 1, the first reflective surface 72 faces the front and the top junction of the frame body 1, the first light-transmitting surface 71 faces the rear and the bottom junction of the frame body 1, the second one-way perspective mirror 8 forms an angle (preferably 45 degrees) with the bottom plane, the front plane and the rear plane of the frame body 1, and is perpendicular to the left plane and the right plane of the frame body 1, the second reflective surface 82 faces the front and the bottom junction of the frame body 1, the second light-transmitting surface 81 faces the rear and the top junction of the frame body 1, that is, the third preferred angle between the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is 90 degrees, the first screen 5, the second screen 6, the first one-way perspective lens 7 and the second one-way perspective lens 8 form a vertical M-shaped structure in the frame body 1, so that the thickness of the whole shooting device between the front and the back can be reduced; the first reflecting surface 72 and the second reflecting surface 82 are plated with a layer of material with single-sided reflecting performance, so that mirror surface imaging can be realized, double images do not exist in imaging, clear imaging can be ensured, light rays can be turned at a certain angle, namely, the light rays of the first screen 5 and the second screen 6 are reflected to human eyes, a person positioned in the front of the frame body 1 receives an image that the first screen 5 reflects to the human eyes through the first one-way perspective mirror 7 and the second screen 6 through the second one-way perspective mirror 8, and a user sees a combined image, because the shooting device 2 is positioned behind the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and the lens of the shooting device 2 faces the joint of the first light transmitting surface 71 and the second light transmitting surface 81, external light rays are transmitted into the shooting device 2 through the first one-way perspective mirror 7 and the second one-way perspective mirror 8, the lens of the shooting device 2 transmits the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror, then, the portrait is shot through the toughened glass 9; the two pieces of one-way perspective mirror have the following principle: the light on one side of the first reflecting surface 72 and the second reflecting surface 82 is stronger than the light on one side of the first light transmitting surface 71 and the second light transmitting surface 72, the first reflecting surface 72 and the second reflecting surface 72 can present mirror reflection, so that the user can see the image combination displayed by the first screen 5 and the second screen 6 through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the portrait through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8.

As shown in fig. 26 and 28, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the lens of the shooting device 2 faces the joint of the first light-transmitting surface 71 and the second light-transmitting surface 81, the shooting device 2 can shoot a clear image of a user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 and the toughened glass 9 and transmit the clear image to the control device 4, the control device 4 controls the first moving mechanism to move the frame body 1 up and down according to the image condition obtained by the shooting device 2, so that the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 (namely the intersection line of the two one-way perspective mirrors) is opposite to the face of the user, if necessary, the first moving mechanism is controlled to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 left and right, so that the face of the user is centered, then the control device 4 divides the face of the user into two parts to output, and then respectively presents the images, wherein the first screen 5 displays the part above the neck of the portrait, and the second screen 6 displays the part below the neck of the portrait; the first one-way perspective mirror 7 is observed from the direction of the first screen 5, and the second one-way perspective mirror 8 is observed from the direction of the second screen 6, the first screen 5 and the second screen 6 emit stronger light, the first reflecting surface 72 of the first one-way perspective mirror 7 and the second reflecting surface 82 of the second one-way perspective mirror 8 present good reflection imaging effect, because the plane where the first one-way perspective mirror 7 is located and the plane where the first screen 5 is located form a certain angle, and the plane where the second one-way perspective mirror 8 is located and the plane where the second screen 6 is located form a certain angle, the first one-way perspective mirror 7 can reflect the image displayed on the first screen 5, the second one-way perspective mirror 8 can reflect the image displayed on the second screen 6, that is, the direction of observation of the user, the mirror image displayed by the combination of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, so that the user can see the image combination displayed on the first screen 5 and the second screen 6 in real time, that is the user's whole image combination, and since there is no light source on one side of the photographing apparatus 2, the user can only see the images of the first screen 5 and the second screen 6 without seeing the photographing apparatus 2; because the images of the first screen 5 and the second screen 6 seen by the user are mirror images reflected by the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and because the user portrait is directly collected by the shooting device 2, in order to ensure that the user sees the user portrait collected by the shooting device 2, the control device 4 can perform corresponding mirror image turning processing on the collected user portrait, and then performs split-screen display through the first screen 5 and the second screen 6, so that the images seen by the user through the connection part of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 are the user portrait.

The control device 4 controls the first moving mechanism to move the frame body 1 up and down according to the image condition obtained by the shooting device 2, so that the connection part of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is opposite to the face, specifically: the control device 4 obtains the image through the shooting device 2, when the image has a face, a face tracking algorithm is adopted to quickly position the eye position of the face in each frame, then the eye horizontal position (eye horizontal line) in the face is automatically judged, then the offset direction and the distance of the eye horizontal line compared with the frame body 1 are obtained by comparing the difference value of the current eye horizontal line and the closing line of the one-way perspective mirror (the intersecting line of the two one-way perspective mirrors), so that the first moving mechanism moving frame body 1 is driven to move towards the eye horizontal line, and the closing line of the one-way perspective mirror is enabled to be opposite to the eye horizontal line by moving the position of the frame body 1 up and down.

Example 10:

as shown in fig. 29 to 31, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a first screen 5, a second screen 6, a first half mirror 7, a second half mirror 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and the front portion being open, the first screen 5 being disposed at the left portion of the frame body 1, specifically inside the left portion of the frame body 1, the second screen 6 being disposed at the right portion of the frame body 1, specifically inside the right portion of the frame body 1, the first half mirror 7 and the first half mirror 8 being installed inside the frame body 1, one end of the first half mirror 7 being close to or in contact with the first screen 5, and forms a first included angle with the first screen 5 at a certain angle, one end of the second one-way perspective mirror 8 is close to or contacts with the second screen 6 and forms a second included angle with the second screen 6 at a certain angle, and the other end of the first one-way perspective mirror 7 is connected with the other end of the second one-way perspective mirror 8, it can be understood that, after the two ends are connected, the first one-way perspective mirror 7 and the second one-way perspective mirror 8 necessarily form a third included angle at a certain angle, the third included angle is the sum of the first included angle and the second included angle, the first one-way perspective mirror 7 has a first light transmission surface 71 and a first reflection surface 72, the second one-way perspective mirror 8 has a second light transmission surface 81 and a second reflection surface 82, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, and the shooting device 2 and the second moving mechanism are both positioned behind the one-way perspective mirror 6, the control device 4 is respectively connected with the shooting device 2, the second moving, The input device 3, the first screen 5, the second screen 6, the first moving mechanism and the second moving mechanism are connected.

The left inner side of the frame body 1 of the embodiment is provided with a clamping position matched with the size of the first screen 5 and a threaded hole for fixing the first screen 5, correspondingly, the first screen 5 is fixed on the clamping position on the left inner side of the frame body 1 through the matching of a screw and the threaded hole, the right inner side of the frame body 1 is provided with a clamping position matched with the size of the first screen 5 and a threaded hole for fixing the second screen 6, and correspondingly, the second screen 6 is fixed on the clamping position on the right inner side of the frame body 1 through the matching of a screw and the threaded hole; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described in embodiment 9.

The first one-way perspective mirror 7 of the present embodiment forms an angle (preferably 45 degrees) with the left plane, the front plane and the rear plane of the frame body 1, respectively, and is perpendicular to the top plane and the bottom plane of the frame body 1, the first reflective surface 72 thereof faces the front and left junctions of the frame body 1, the first light transmissive surface 71 faces the rear and right junctions of the frame body 1, the second one-way perspective mirror 8 forms an angle (preferably 45 degrees) with the right plane, the front plane and the rear plane of the frame body 1, respectively, and is perpendicular to the left plane and the right plane of the frame body 1, the second reflective surface 82 thereof faces the front and right junctions of the frame body 1, and the second light transmissive surface 81 faces the rear and left junctions of the frame body 1, that is, the third angle between the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is preferably 90 degrees, the first screen 5, the second screen 6, the first one-way perspective lens 7 and the second one-way perspective lens 8 form a horizontal M-shaped structure in the frame body 1, so that the thickness of the whole shooting device between the front and the back can be reduced; the first reflecting surface 72 and the second reflecting surface 82 are plated with a layer of material with single-sided reflecting performance, so that mirror surface imaging can be realized, double images do not exist in imaging, clear imaging can be ensured, light rays can be turned at a certain angle, namely, the light rays of the first screen 5 and the second screen 6 are reflected to human eyes, a person positioned in the front of the frame body 1 receives an image that the first screen 5 reflects to the human eyes through the first one-way perspective mirror 7 and the second screen 6 through the second one-way perspective mirror 8, and a user sees a combined image, because the shooting device 2 is positioned behind the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and the lens of the shooting device 2 faces the joint of the first light transmitting surface 71 and the second light transmitting surface 81, external light rays are transmitted into the shooting device 2 through the first one-way perspective mirror 7 and the second one-way perspective mirror 8, the lens of the shooting device 2 transmits the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror, then, the portrait is shot through the toughened glass 9; the two pieces of one-way perspective mirror have the following principle: the light on one side of the first reflecting surface 72 and the second reflecting surface 82 is stronger than the light on one side of the first light transmitting surface 71 and the second light transmitting surface 72, the first reflecting surface 72 and the second reflecting surface 72 can present mirror reflection, so that the user can see the image combination displayed by the first screen 5 and the second screen 6 through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture the portrait through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8.

As shown in fig. 29 and 31, the photographing principle of the photographing apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the lens of the shooting device 2 faces the joint of the first light-transmitting surface 71 and the second light-transmitting surface 81, the shooting device 2 can shoot a clear image of a user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 and the toughened glass 9 and transmit the clear image to the control device 4, the control device 4 controls the first moving mechanism to move the frame body 1 left and right according to the image condition obtained by the shooting device 2, so that the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 (namely the intersection line of the two one-way perspective mirrors) is opposite to the face of the user, if necessary, the first moving mechanism is controlled to move the frame body 1 up and down and/or the second moving mechanism to move the shooting device 2, so that the face of the user is centered, then the control device 4 divides the face of the user into two parts to output, and then respectively presents the images, wherein the first screen 5 displays the left half of the portrait and the second screen 6 displays the right half of the portrait; the first one-way perspective mirror 7 is observed from the direction of the first screen 5, and the second one-way perspective mirror 8 is observed from the direction of the second screen 6, the first screen 5 and the second screen 6 emit stronger light, the first reflecting surface 72 of the first one-way perspective mirror 7 and the second reflecting surface 82 of the second one-way perspective mirror 8 present good reflection imaging effect, because the plane where the first one-way perspective mirror 7 is located and the plane where the first screen 5 is located form a certain angle, and the plane where the second one-way perspective mirror 8 is located and the plane where the second screen 6 is located form a certain angle, the first one-way perspective mirror 7 can reflect the image displayed on the first screen 5, the second one-way perspective mirror 8 can reflect the image displayed on the second screen 6, that is, the direction of observation of the user, the mirror image displayed by the combination of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, so that the user can see the image combination displayed on the first screen 5 and the second screen 6 in real time, that is the user's whole image combination, and since there is no light source on one side of the photographing apparatus 2, the user can only see the images of the first screen 5 and the second screen 6 without seeing the photographing apparatus 2; because the images of the first screen 5 and the second screen 6 seen by the user are mirror images reflected by the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and because the user portrait is directly collected by the shooting device 2, in order to ensure that the user sees the user portrait collected by the shooting device 2, the control device 4 can perform corresponding mirror image turning processing on the collected user portrait, and then performs split-screen display through the first screen 5 and the second screen 6, so that the images seen by the user through the connection part of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 are the user portrait.

The control device 4 controls the first moving mechanism to move the frame body 1 left and right according to the image condition obtained by the shooting device 2, so that the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is opposite to the face, specifically: the control device 4 obtains the image through the shooting device 2, when the image has a face, a face tracking algorithm is adopted to quickly position the eye position of the face in each frame, then the center position (face center line) between two eyes in the face is automatically judged, then the offset direction and the distance of the face center line compared with the frame body 1 are obtained by comparing the difference value of the current face center line and the one-way perspective mirror closing line (referring to the intersecting line of the two one-way perspective mirrors), so that the first moving mechanism is driven to drive the frame body 1 to move towards the face center line, and the one-way perspective mirror closing line is opposite to the face center line by moving the position of the frame body 1 left and right.

Example 11:

as shown in fig. 32 to 34, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus including a frame body 1, a photographing device 2, an input device 3, a control device 4, a first screen 5, a second screen 6, a first projector 10, a second projector 11, a first one-way see-through mirror 7, a second one-way see-through mirror 8, a first moving mechanism (not shown in the drawings), and a second moving mechanism (not shown in the drawings), the frame body 1 being a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion, and a right portion, and the front portion being open, the first screen 5 being disposed at the top portion of the frame body 1, specifically inside the top portion of the frame body 1, the second screen 6 being disposed at the bottom portion of the frame body 1, specifically inside the bottom portion of the frame body 1, the first projector 10 and the second projector 11 being installed inside the frame body 1, a lens of the first projector 10 facing the first screen 5, a part of the portrait output by the control device 4 can be projected on the first screen 5, the second screen 6 of the lens of the second projector 11 can project another part of the portrait output by the control device 4 on the second screen 6, the first one-way perspective mirror 7 and the first one-way perspective mirror 8 are both flat rectangular structures and are installed inside the frame body 1, one end of the first one-way perspective mirror 7 is close to or in contact with the first screen 5 and forms a first included angle with the first screen 5, one end of the second one-way perspective mirror 8 is close to or in contact with the second screen 6 and forms a second included angle with the second screen 6, the other end of the first one-way perspective mirror 7 is connected with the other end of the second one-way perspective mirror 8, it can be understood that after the two ends are connected, the first one-way perspective mirror 7 and the second one-way perspective mirror 8 necessarily form a third included angle with a certain angle, the third included angle is the sum of the first included angle and the second included angle, the first one-way perspective mirror 7 is provided with a first light transmission surface 71 and a first reflection surface 72, the second one-way perspective mirror 8 is provided with a second light transmission surface 81 and a second reflection surface 82, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, the shooting device 2 and the second moving mechanism are both located behind the one-way perspective mirror 6, and the control device 4 is respectively connected with the shooting device 2, the input device 3, the first projector 10, the second projector 11, the first moving mechanism and the second moving mechanism.

The first one-way perspective mirror 7 forms an angle (preferably 45 degrees) with the top plane, the front plane and the rear plane of the frame body 1, and is perpendicular to the left plane and the right plane of the frame body 1, the first reflective surface 72 faces the front and the top junction of the frame body 1, the first light-transmitting surface 71 faces the rear and the bottom junction of the frame body 1, the second one-way perspective mirror 8 forms an angle (preferably 45 degrees) with the bottom plane, the front plane and the rear plane of the frame body 1, and is perpendicular to the left plane and the right plane of the frame body 1, the second reflective surface 82 faces the front and the bottom junction of the frame body 1, the second light-transmitting surface 81 faces the rear and the top junction of the frame body 1, that is, the third preferred angle between the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is 90 degrees, the first screen 5, the second screen 6, the first one-way perspective lens 7 and the second one-way perspective lens 8 form a vertical M-shaped structure in the frame body 1, so that the thickness of the whole shooting device between the front and the back can be reduced; the first reflecting surface 72 and the second reflecting surface 82 are plated with a layer of material with single-sided reflecting performance, so that mirror surface imaging can be realized, double images do not exist in imaging, clear imaging can be ensured, light rays can be turned at a certain angle, namely, the light rays of the first screen 5 and the second screen 6 are reflected to human eyes, a person positioned in the front of the frame body 1 receives an image that the first screen 5 reflects to the human eyes through the first one-way perspective mirror 7 and the second screen 6 through the second one-way perspective mirror 8, and a user sees a combined image, because the shooting device 2 is positioned behind the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and the lens of the shooting device 2 faces the joint of the first light transmitting surface 71 and the second light transmitting surface 81, external light rays are transmitted into the shooting device 2 through the first one-way perspective mirror 7 and the second one-way perspective mirror 8, the lens of the shooting device 2 transmits the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror, then, the portrait is shot through the toughened glass 9; the two pieces of one-way perspective mirror have the following principle: the light on one side of the first reflecting surface 72 and the second reflecting surface 82 is stronger than the light on one side of the first light transmitting surface 71 and the second light transmitting surface 72, the first reflecting surface 72 and the second reflecting surface 72 can present mirror reflection, so that the user can see the image combination displayed by the first screen 5 and the second screen 6 through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture a portrait through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described in embodiment 9.

As shown in fig. 32 and 34, the shooting principle of the shooting apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the lens of the shooting device 2 faces the joint of the first light-transmitting surface 71 and the second light-transmitting surface 81, the shooting device 2 can shoot a clear image of a user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 and the toughened glass 9 and transmit the clear image to the control device 4, the control device 4 controls the first moving mechanism to move the frame body 1 up and down according to the image condition obtained by the shooting device 2, so that the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 (namely the intersection line of the two one-way perspective mirrors) is opposite to the face of the user, if necessary, the first moving mechanism is controlled to move the frame body 1 and/or the second moving mechanism to move the shooting device 2 left and right, so that the face of the user is centered, then the control device 4 divides the portrait into two parts to be output, and then projects the two parts on the first screen 5 and the second screen, wherein the first screen 5 displays the part above the neck of the portrait, and the second screen 6 displays the part below the neck of the portrait; the first one-way perspective mirror 7 is observed from the direction of the first screen 5, and the second one-way perspective mirror 8 is observed from the direction of the second screen 6, the first screen 5 and the second screen 6 emit strong light, the first reflecting surface 72 of the first one-way perspective mirror 7 and the second reflecting surface 82 of the second one-way perspective mirror 8 present good reflection imaging effect, because the plane where the first one-way perspective mirror 7 is located and the plane where the first screen 5 is located form a certain included angle, and the plane where the second one-way perspective mirror 8 is located also forms a certain included angle with the second screen 6, the first one-way perspective mirror 7 can reflect the image displayed on the first screen 5, the second one-way perspective mirror 8 can also reflect the image displayed on the second screen 5, that is, the direction observed by the user, the mirror image of the whole user presented by the combination of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, so that the user can see the image combination displayed on the first screen 5 and the second screen 6 in real time, and since there is no light source on one side of the photographing apparatus 2, the user can only see the images of the first screen 5 and the second screen 6 without seeing the photographing apparatus 2; because the images of the first screen 5 and the second screen 6 seen by the user are mirror images reflected by the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and because the user portrait is directly collected by the shooting device 2, in order to ensure that the user sees the user portrait collected by the shooting device 2, the control device 4 performs corresponding mirror image turning processing on the collected user portrait, and then the collected user portrait is divided into two parts for projection by the first projector 10 and the second projector 11, so that the image seen by the user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is the user portrait.

Further, the photographing apparatus of the embodiment further includes a first prism (not shown in the figure) and a second prism (not shown in the figure), light emitted from the lens of the first projector 10 is projected onto the first screen 5 through the first prism, that is, the first projector 10 can project a part of the portrait output by the control device 4 onto the first screen 5 through the first prism, and light emitted from the lens of the second projector 11 is projected onto the second screen 6 through the second prism, that is, the second projector 11 can project another part of the portrait output by the control device 4 onto the second screen 6 through the second prism.

Further, the first screen 5 of the embodiment needs to ensure that the image projected by the first projector 10 is clear, and may be a top plane of the frame body 1, a top plane on which a projection film or a projection coating is pasted, a projection curtain installed on the top of the frame body 1, and the like, and similarly, the second screen 6 needs to ensure that the image projected by the second projector 11 is clear, and may be a bottom plane of the frame body 1, a bottom plane on which a projection film or a projection coating is pasted, or a projection curtain installed at the bottom of the frame body 1, and the like.

Example 12:

as shown in fig. 35 to 37, the present embodiment provides a what-you-see-is-what-you-get mirror image photographing apparatus, which includes a frame body 1, a photographing device 2, an input device 3, a control device 4, a first screen 5, a second screen 6, a first projector 10, a second projector 11, a first one-way see-through mirror 7, a second one-way see-through mirror 8, a first moving mechanism (not shown in the figure) and a second moving mechanism (not shown in the figure), wherein the frame body 1 is a rectangular parallelepiped structure having a front portion, a rear portion, a top portion, a bottom portion, a left portion and a right portion, and the front portion is open, the first screen 5 is disposed at the left portion of the frame body 1, specifically inside the left portion of the frame body 1, which may be a left portion plane of the frame body 1, a left portion plane on which a projection film or a projection coating is applied, a left portion plane on which a projection coating is applied, a projection screen or the like installed at the left portion, the second screen 6 is arranged at the right part of the frame body 1, specifically arranged at the right inner side of the frame body 1, can be a right plane of the frame body 1, can also be a right plane on which a projection film is pasted or a projection coating is coated, and can also be a projection curtain and the like arranged at the right part of the frame body 1, the first projector 10 and the second projector 11 are arranged inside the frame body 1, the lens of the first projector 10 faces the first screen 5, can project one part of the portrait output by the control device 4 on the first screen 5, the lens of the second projector 11 faces the second screen 5, can project the other part of the portrait output by the control device 4 on the first screen 5, the first one-way perspective mirror 7 and the first one-way perspective mirror 8 are both in a flat rectangular structure and are arranged inside the frame body 1, one end of the first one-way perspective mirror 7 is close to or in contact with the first screen 5, and forms a first included angle with the first screen 5 at a certain angle, one end of the second one-way perspective mirror 8 is close to or contacts with the second screen 6 and forms a second included angle with the second screen 6 at a certain angle, and the other end of the first one-way perspective mirror 7 is connected with the other end of the second one-way perspective mirror 8, it can be understood that, after the two ends are connected, the first one-way perspective mirror 7 and the second one-way perspective mirror 8 necessarily form a third included angle at a certain angle, the third included angle is the sum of the first included angle and the second included angle, the first one-way perspective mirror 7 has a first light transmission surface 71 and a first reflection surface 72, the second one-way perspective mirror 8 has a second light transmission surface 81 and a second reflection surface 82, the shooting device 2 and the second moving mechanism are arranged inside the frame body 1, and the shooting device 2 and the second moving mechanism are both positioned behind the one-way perspective mirror 6, the control device 4 is respectively connected with the shooting device 2, the second moving, The input device 3, the first projector 10, the second projector 11, the first moving mechanism, and the second moving mechanism are connected.

The first one-way perspective mirror 7 of the present embodiment forms an angle (preferably 45 degrees) with the left plane, the front plane and the rear plane of the frame body 1, respectively, and is perpendicular to the top plane and the bottom plane of the frame body 1, the first reflective surface 72 thereof faces the front and left junctions of the frame body 1, the first light transmissive surface 71 faces the rear and right junctions of the frame body 1, the second one-way perspective mirror 8 forms an angle (preferably 45 degrees) with the right plane, the front plane and the rear plane of the frame body 1, respectively, and is perpendicular to the left plane and the right plane of the frame body 1, the second reflective surface 82 thereof faces the front and right junctions of the frame body 1, and the second light transmissive surface 81 faces the rear and left junctions of the frame body 1, that is, the third angle between the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is preferably 90 degrees, the first screen 5, the second screen 6, the first one-way perspective lens 7 and the second one-way perspective lens 8 form a horizontal M-shaped structure in the frame body 1, so that the thickness of the whole shooting device between the front and the back can be reduced; the first reflecting surface 72 and the second reflecting surface 82 are plated with a layer of material with single-sided reflecting performance, so that mirror surface imaging can be realized, double images do not exist in imaging, clear imaging can be ensured, light rays can be turned at a certain angle, namely, the light rays of the first screen 5 and the second screen 6 are reflected to human eyes, a person positioned in the front of the frame body 1 receives an image that the first screen 5 reflects to the human eyes through the first one-way perspective mirror 7 and the second screen 6 through the second one-way perspective mirror 8, and a user sees a combined image, because the shooting device 2 is positioned behind the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and the lens of the shooting device 2 faces the joint of the first light transmitting surface 71 and the second light transmitting surface 81, external light rays are transmitted into the shooting device 2 through the first one-way perspective mirror 7 and the second one-way perspective mirror 8, the lens of the shooting device 2 transmits the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror, then, the portrait is shot through the toughened glass 9; the two pieces of one-way perspective mirror have the following principle: the light on one side of the first reflecting surface 72 and the second reflecting surface 82 is stronger than the light on one side of the first light transmitting surface 71 and the second light transmitting surface 72, the first reflecting surface 72 and the second reflecting surface 72 can present mirror reflection, so that the user can see the image combination displayed by the first screen 5 and the second screen 6 through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and cannot see the shooting device 2, and meanwhile, when the shooting device 2 shoots, the lens of the shooting device 2 can capture a portrait through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8; the photographing apparatus 2, the input apparatus 3, the control apparatus 4, the first moving mechanism, and the second moving mechanism of the present embodiment are specifically described in embodiment 9.

As shown in fig. 35 and 37, the photographing principle of the photographing apparatus of the present embodiment is as follows:

one side of the shooting device 2 has no light source, and because the lens of the shooting device 2 faces the joint of the first light-transmitting surface 71 and the second light-transmitting surface 81, the shooting device 2 can shoot a clear image of a user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 and the toughened glass 9 and transmit the clear image to the control device 4, the control device 4 controls the first moving mechanism to move the frame body 1 left and right according to the image condition obtained by the shooting device 2, so that the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 (namely the intersection line of the two one-way perspective mirrors) is opposite to the face of the person, if necessary, the first moving mechanism is controlled to move the frame body 1 up and down and/or the second moving mechanism to move the shooting device 2, so that the face of the person is centered, then the control device 4 divides the face of the person into two parts to be output, and then projects the two parts on the first screen 5 and, wherein the first screen 5 displays the left half of the portrait and the second screen 6 displays the right half of the portrait; the first one-way perspective mirror 7 is observed from the direction of the first screen 5, and the second one-way perspective mirror 8 is observed from the direction of the second screen 6, the first screen 5 and the second screen 6 emit stronger light, the first reflecting surface 72 of the first one-way perspective mirror 7 and the second reflecting surface 82 of the second one-way perspective mirror 8 present good reflection imaging effect, because the plane where the first one-way perspective mirror 7 is located and the plane where the first screen 5 is located form a certain angle, and the plane where the second one-way perspective mirror 8 is located and the plane where the second screen 6 is located form a certain angle, the first one-way perspective mirror 7 can reflect the image displayed on the first screen 5, the second one-way perspective mirror 8 can reflect the image displayed on the second screen 6, that is, the direction of observation of the user, the mirror image displayed by the combination of the first one-way perspective mirror 7 and the second one-way perspective mirror 8, so that the user can see the image combination displayed on the first screen 5 and the second screen 6 in real time, that is the user's whole image combination, and since there is no light source on one side of the photographing apparatus 2, the user can only see the images of the first screen 5 and the second screen 6 without seeing the photographing apparatus 2; because the images of the first screen 5 and the second screen 6 seen by the user are mirror images reflected by the first one-way perspective mirror 7 and the second one-way perspective mirror 8, and because the user portrait is directly collected by the shooting device 2, in order to ensure that the user sees the user portrait collected by the shooting device 2, the control device 4 performs corresponding mirror image turning processing on the collected user portrait, and then the collected user portrait is divided into two parts for projection by the first projector 10 and the second projector 11, so that the image seen by the user through the joint of the first one-way perspective mirror 7 and the second one-way perspective mirror 8 is the user portrait.

The specific shooting process of the shooting device of the above embodiments 9 to 12 is as follows:

s1, the photographing device receives a wake-up command from a user, and the standby state is changed to an operating state, where the wake-up command may be, but is not limited to, any one of the following commands:

a) a voice instruction; b) detecting a human body by infrared; c) touch clicking; d) a rocker and a button; e) and a remote controller.

And S2, the shooting device sends out a prompt to guide the user to use, and the prompt can be any one or more of the following prompts:

a) voice prompt; b) displaying a prompt; c) help description text; d) and (6) carrying out graphical prompt.

S3, the control device 4 obtains image information through the shooting device 2, displays the obtained images on the first screen 5 and the second screen 6 in real time, analyzes the images, automatically judges the portrait position, controls the first moving mechanism to drive the frame body 1 and/or the second moving mechanism to drive the shooting device 2 to move to the best shooting position, and prompts a user to send a shooting instruction after the position adjustment is completed.

S4, the shooting device receives a shooting instruction of the user, and the shooting instruction can be, but is not limited to, any one of the following instructions:

a) presetting a voice instruction; b) clicking a button; c) presetting expression and action instructions; d) touch clicking; e) and a remote controller.

S5, the shooting device 2 shoots the user, the control device 4 compares the shot portrait with preset parameters in the system, processes the portrait (such as cutting and the like), turns over the portrait after the processing is finished, and divides the turned portrait into two parts to be displayed on the first screen 5 and the second screen 6 for the user to confirm.

And S6, the shooting device 2 continuously shoots the user, and the control device 4 calculates a plurality of shot images, screens and processes the images to obtain images with good effects, so that the user can preview and select the images.

S7, the shooting device receives a confirmation instruction of the user, and the confirmation instruction may be, but is not limited to, any one of the following instructions:

a) presetting a voice instruction; b) clicking a button; c) presetting expression and action instructions; d) touch clicking; e) and a remote controller.

S8, the shooting device sends the photo to the user, and the sending method may be, but is not limited to, any of the following methods:

a) print delivery, such as remote printing, direct printing, and the like; b) internet transmission such as QQ, wechat, email, etc.

In embodiments 1 to 12, the shooting device 2 may also be a camera 2 or other devices capable of shooting and image collecting; the input device 3 may also be a mouse, a keyboard, a bluetooth device, a wireless device, an infrared device, a joystick, a voice device, or other input devices, and the input device 3 may also be disposed on the left side or the right side of the front portion of the frame body 1, and it can be understood by those skilled in the art that, in addition to inputting instructions by the user using the input device 3, the user may also input instructions by motions (such as various gestures, etc.), and the shooting device 2 shoots and performs motion recognition of the user to receive instructions; the control device 4 may also be a tablet, a mobile phone, a raspberry pi and other development versions, and the like, and the control device 4 is not limited to the position shown in the drawing.

Example 13:

as shown in fig. 38, the present embodiment provides a terminal, which may be a self-service camera terminal, a self-service camera and certificate terminal, and the like, and includes a case 12 and the camera of the above embodiments 1 to 12, and the camera is disposed in the case 12.

Example 14:

as shown in fig. 39, the present embodiment provides a terminal device which is a portable terminal device and is much smaller in size than the terminal device of embodiment 13, and similarly, the photographing devices of the above embodiments 1 to 12 are provided in the cabinet 12 of the terminal device.

Example 15:

as shown in fig. 40, in this embodiment, on the basis of the terminal of embodiment 14, a telescopic member 13 is added, and the telescopic member 13 is connected to the top of the case 12, so that the telescopic member 13 can be extended and retracted relative to the case 12, and the lifting background cloth 14 is disposed at the end of the telescopic member 13, so that when in use, the lifting background cloth 14 can be put down, thereby providing a perfect portrait shooting environment.

In summary, the shooting device of the present invention realizes the effect of "what you see is what you get", and utilizes the principle of the one-way perspective mirror, a one-way perspective mirror can be arranged in a frame body, so that a user looks straight at a mirror image reflected by the one-way perspective mirror, and at the same time, because the lens of the shooting device penetrates through the one-way perspective mirror and faces the opening of the frame body, the user can see the effect of the projection of the shooting device from the mirror image, and in addition, a moving mechanism is arranged, and the control device can rapidly control the moving mechanism to move the frame body and/or the shooting device according to the image condition obtained by the shooting device, so as to center the face of the person, and finally obtain the effect of "what you see is what you get", and the user can see and get the performance of the person and correct the person in real time like a mirror image shot by the user only needing to look straight at the one-way perspective mirror, thereby, The quality of the picture is improved.

The above description is only for the alternative embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution of the present invention and the inventive concept thereof within the scope of the present invention, which is disclosed by the present invention, and all those skilled in the art belong to the protection scope of the present invention.

Claims (7)

1. A what-you-see-is-what-you-get mirror image capture device, comprising: the device comprises a frame body, a shooting device, a control device, a first screen, a second screen, a first one-way perspective mirror and a second one-way perspective mirror, wherein the front opening of the frame body is opened, the control device is connected with the shooting device, the first screen and the second screen are respectively arranged at the top and the bottom of the frame body or at the left part and the right part of the frame body, the first screen and the second screen are used for displaying images output by the control device, the shooting device, the first one-way perspective mirror and the second one-way perspective mirror are arranged inside the frame body, one end of the first one-way perspective mirror is close to or in contact with the first screen and forms an included angle with a certain angle with the first screen, one end of the second one-way perspective mirror is close to or in contact with the second screen and forms an included angle with a certain angle with the second screen, the other end of the first one-way perspective mirror is connected with the other end of the second one-way perspective, the camera lens of the shooting equipment penetrates through the joint of the first one-way perspective lens and the second one-way perspective lens and faces to the opening of the frame body, the control equipment carries out corresponding mirror image turning processing on the collected portrait of the user, screen division display is carried out through the first screen and the second screen, and the image seen through the joint of the first one-way perspective lens and the second one-way perspective lens is the portrait of the user;

the device further comprises a first moving mechanism and/or a second moving mechanism; the first moving mechanism is connected with the control equipment and is used for driving the frame body to move; the second moving mechanism is arranged in the frame body, connected with the control equipment and used for driving the shooting equipment to move;

when the first screen and the second screen are respectively arranged at the top and the bottom of the frame body, the control device controls the first moving mechanism to move up and down the frame body according to the image condition obtained by the shooting device, so that the joint of the first one-way perspective mirror and the second one-way perspective mirror is opposite to the face of a person, and when the face of the person is not centered, the control device controls the first moving mechanism to move the frame body left and right and/or the second moving mechanism to move the shooting device, so that the face of the person is centered; wherein, the image condition that controlgear acquireed according to shooting equipment, the frame body is moved up and down to control first moving mechanism, makes the junction of first single direction perspective mirror and second single direction perspective mirror just face, specifically is: the control equipment acquires an image through the shooting equipment, when the image is recognized to have a human face, a human face tracking algorithm is adopted, the human eye position of the human face is quickly positioned in each frame, the horizontal position of eyes in the human face is automatically judged, the offset direction and the distance of the human eye horizontal line compared with the frame body are obtained by comparing the difference value of the current human eye horizontal line and the closing line of the one-way perspective mirror, so that the first moving mechanism is driven to move the frame body to the human eye horizontal line, and the closing line of the one-way perspective mirror is enabled to be opposite to the human eye horizontal line by moving the frame body up and;

when the first screen and the second screen are respectively arranged at the left part and the right part of the frame body, the control equipment controls the first moving mechanism to move the frame body left and right according to the image condition obtained by the shooting equipment, so that the joint of the first one-way perspective mirror and the second one-way perspective mirror is opposite to the face of a person, and when the face of the person is not centered, the control equipment controls the first moving mechanism to move the frame body up and down and/or the second moving mechanism to move the shooting equipment, so that the face of the person is centered; wherein, the control equipment controls the first moving mechanism to move the frame body left and right according to the image condition obtained by the shooting equipment, so that the joint of the first one-way perspective mirror and the second one-way perspective mirror is just opposite to the face, specifically: the control equipment acquires an image through shooting equipment, when the image is recognized to have a face, a face tracking algorithm is adopted, the position of the eye of the face is quickly positioned in each frame, the central position between two eyes in the face is automatically judged, then the offset direction and the distance of the face central line compared with the frame body are obtained by comparing the difference value of the current face central line and the one-way perspective mirror closing line, so that the first moving mechanism is driven to drive the frame body to move towards the face central line, and the one-way perspective mirror closing line is enabled to be opposite to the face central line by moving the position of the frame body left and right.

2. A WYSIWYG mirror image capture device as set forth in claim 1 wherein: the frame body is of a cuboid structure, and the first one-way perspective lens and the second one-way perspective lens are both of flat-plate rectangular structures;

when the first screen and the second screen are respectively arranged at the top and the bottom of the frame body, the first one-way perspective mirror respectively forms included angles with the top plane, the front plane and the rear plane of the frame body at certain angles and is respectively vertical to the left plane and the right plane of the frame body, the reflecting surface of the first one-way perspective mirror faces to the front part and the top junction of the frame body, and the light transmitting surface of the first one-way perspective mirror faces to the rear part and the bottom junction of the frame body; the second one-way perspective mirror forms included angles with the bottom plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the left plane and the right plane of the frame body respectively, the reflecting surface of the second one-way perspective mirror faces to the junction of the front part and the bottom of the frame body, and the light transmitting surface of the second one-way perspective mirror faces to the junction of the rear part and the top of the frame body;

when the first screen and the second screen are respectively arranged at the left part and the right part of the frame body, the first one-way perspective mirror respectively forms included angles with the left plane, the front plane and the rear plane of the frame body at certain angles and is respectively vertical to the top plane and the bottom plane of the frame body, the reflecting surface of the first one-way perspective mirror faces to the front part and the left junction of the frame body, and the light transmitting surface of the first one-way perspective mirror faces to the rear part and the right junction of the frame body; the second one-way perspective mirror forms included angles with the right plane, the front plane and the rear plane of the frame body at certain angles respectively and is perpendicular to the top plane and the bottom plane of the frame body respectively, the reflecting surface of the second one-way perspective mirror faces to the front part and the right junction of the frame body, and the light transmitting surface of the second one-way perspective mirror faces to the rear part and the left junction of the frame body.

3. A WYSIWYG mirror image capture device according to claim 1 or 2 wherein: the first screen and the second screen are both displays, and the first screen and the second screen are respectively connected with the control device.

4. A WYSIWYG mirror image capture device according to claim 1 or 2 wherein: the shooting device further comprises a first projector and a second projector, the first projector and the second projector are arranged inside the frame body and are connected with the control device respectively, the lens of the first projector faces the first screen, and the lens of the second projector faces the second screen.

5. A terminal machine comprises a chassis, and is characterized in that: the camera of any of claims 1-4, further comprising the camera disposed within a chassis.

6. A terminal as claimed in claim 5, wherein: the terminal machine further comprises a telescopic component, the telescopic component is connected with the top of the case, and the tail end of the telescopic component is provided with lifting background cloth.

7. A WYSIWYG mirror image shooting method based on the device of any one of claims 1-4, characterized in that: the method comprises the following steps:

after receiving a shooting instruction sent by a user, the shooting equipment shoots a portrait of the user through the joint of the first one-way perspective mirror and the second one-way perspective mirror and transmits the portrait of the user to the control equipment;

the control equipment compares the shot user portrait with preset parameters in the system and processes the user portrait;

the control equipment turns over the processed user portrait, divides the turned user portrait into two parts, and respectively outputs the two parts of the user portrait to the first screen and the second screen for display;

the reflecting surface of the first one-way perspective mirror reflects the mirror image of the first screen, the reflecting surface of the second one-way perspective mirror reflects the mirror image of the second screen, and the combination presents the portrait of the user.

Images