CN114513593B - Mass picture acquisition working method - Google Patents

Abstract

The invention provides a working method for collecting mass pictures, which comprises the following steps: s1, reading user identity information; s2, shooting an image of a user; and S3, uploading the shot image data to a cloud management control platform to be bound with a user for storage. The invention can acquire pictures at different angles, and is convenient for a therapist to grasp the condition of the user.

Description

Mass picture acquisition working method

Technical Field

The invention relates to the technical field of picture acquisition, in particular to a working method for acquiring mass pictures.

Background

The oral cavity endoscope is a common instrument used in oral examination, can snap the internal environment in the oral cavity, clearly judge, and mark the illness state of a user so as to improve the cure and treatment efficiency of the illness state. Patent application number 2019203476677, entitled "an oral panoramic image shooting device", discloses including shooting handle and shooting head subassembly, shooting head subassembly rotatable setting is in the one end of shooting handle, and shooting head subassembly includes the shooting head of quadrature arrangement, and the shooting head is the recess shape, is provided with the camera module in the bottom of shooting head, and the notch end of shooting head all sets up towards the inboard of right angle contained angle; the oral panoramic image shooting device provided in the technical scheme has the advantages that the structure is simple, the use is convenient, the orthorhombic relation is formed between the tooth labial surface and the occlusal surface, the orthorhombic arranged cameras are adopted, the tooth labial surface and the occlusal surface can be shot simultaneously, the shooting distance is limited by the shooting head, the shooting angle and the shooting distance are unchanged, the freedom degree of movement of the cameras is reduced, and the image acquisition quality is greatly improved.

Disclosure of Invention

The invention aims at least solving the technical problems existing in the prior art, and particularly creatively provides a working method for collecting mass pictures.

In order to achieve the above object of the present invention, the present invention provides a method for collecting and working mass pictures, comprising the steps of:

s1, reading user identity information;

s2, shooting an image of a user;

S3, uploading the shot image data to a cloud management control platform to be bound with a user for storage;

S4, downloading the image of the user to the computer terminal for viewing.

In a preferred embodiment of the present invention, the following steps are included in step S1:

S11, approaching the induction card to the input display device, wherein the induction card stores the identity information of the user, including one or any combination of name, gender, age, identification card number, address and hospitalization IDD number, and the wireless induction unit inducts and reads the identity information of the user;

and S12, storing the user identity information acquired in the step S11 in a controller, and uploading the user identity information and the image data shot corresponding to the user identity information to a cloud management control platform after the image data are acquired.

In a preferred embodiment of the present invention, the following steps are included in step S2:

s21, a user sits on the seat, and the height of the transverse fixing plate II is adjusted through the ascending key or/and the descending key, so that the height of the biting block is equal to the height of the mouth of the user:

when the controller detects that a user presses the lifting key, the controller sends a forward rotation control signal to the screw rod motor of the controller, and the screw rod motor rotates forward to enable the moving nut to drive the U-shaped moving frame to move upwards;

When the controller detects that a user presses a descending button, the controller sends a reverse control signal to a screw rod motor of the controller, and the screw rod motor reverses to enable a moving nut of the controller to drive a U-shaped moving frame to move downwards;

S22, a user takes out the mouth sleeve and the forehead sleeve from the accommodating box, the mouth sleeve is sleeved on the biting block, and the forehead sleeve is sleeved on the arc-shaped plate;

s23, the controller judges whether the occlusion sensor detects an occlusion signal, the leaning sensor detects a leaning signal and the detection key outputs a start detection signal:

if the controller continuously receives the occlusion signal detected by the occlusion sensor, the abutting signal detected by the abutting sensor and the start detection signal output by the detection key after preparation is finished, the controller sends a forward rotation control signal to the first screw motor of the controller, the first screw motor rotates forward to drive the vertical moving plate to approach the second vertical moving plate by the moving nut, and the controller sends a forward rotation control signal to the second screw motor of the controller, and the second screw motor rotates forward to drive the vertical moving plate to approach the first vertical moving plate by the moving nut; when the distance between the first vertical moving plate and the second vertical moving plate is dcm, cm represents the length unit cm, and the first vertical moving plate and the second vertical moving plate stop moving;

Otherwise, returning to the step S23;

S24, the controller sends a control command for generating the image data of the user tooth part to the image generating device, and sends a ray emission control command to the ray emitting device, the ray emitting device emits X rays, the X rays penetrate through the face of the user, and the image generating device generates the image data of the initial position of the user and is recorded as I ₀;

S25, the controller sends a forward rotation control signal to the rotating motor, the rotating motor rotates forward, the rotating output driving end drives the U-shaped rotating frame to rotate clockwise by degrees, the/() controller sends a control command for generating image data of the teeth of the user to the image generating device and sends a radiation emission control command to the radiation emitting device, the radiation emitting device emits X rays, the X rays penetrate through the face of the user, the image generating device generates image data of the/> degrees and records the image data as/>

S26, the controller sends a reverse rotation control signal to the rotating motor, and the rotating motor reverses to enable the rotating output driving end to drive the U-shaped rotating frame to rotate anticlockwise to return to the initial position; after returning to the initial position, the controller sends a reverse control signal to the rotating motor, the rotating motor is reversed, the rotating motor rotates to enable the rotary output driving end to drive the U-shaped rotary frame to rotate anticlockwise by degrees, ||represents an absolute value, | controller sends a control command for generating image data of the teeth of a user to the image generating device, and sends a ray emission control command to the ray emitting device, the ray emitting device emits X rays, the X rays penetrate through the face of the user, and the image generating device generates image data of the angle/> and records the image data as/>

And S27, the controller sends a forward rotation control signal to the rotating motor, and the rotating motor rotates forward to enable the rotating output driving end to drive the U-shaped rotating frame to rotate clockwise to return to the initial position.

In a preferred embodiment of the present invention, step S0 is further included before step S1, and the step of inputting the work code into the input display device includes the steps of:

s01, the input display controller judges whether an unlocking trigger command output by an unlocking key is received or not:

if the input display controller receives an unlocking trigger command output by the unlocking key, executing the next step;

if the input display controller does not receive the unlocking trigger command output by the unlocking key, continuing to wait, and returning to the step S01;

S02, obtaining the current time, adding time division seconds of the current time to obtain the iteration times, inputting the iteration times, respectively carrying out a ₀ times of iterative hash calculation on all numbers by a display controller to obtain an iterative code, and sequentially displaying the numbers corresponding to the iterative code on all the number keys according to the sequence from left to right and from top to bottom after the iterative code is sequenced from big to small or from small to big;

S03, acquiring an input working password, and judging whether the input working password is consistent with a preset working password stored in an input display controller:

If the input working password is consistent with the preset working password stored in the input display controller, the input display controller sends a working signal to the controller;

if the input working password is inconsistent with the preset working password stored in the input display controller, returning to the step S02.

In a preferred embodiment of the present invention, the method for calculating the number of iterations is:

a₀＝a_hours+a_minutes+a_seconds，

wherein a _hours represents the number of hours in the current time;

a _minutes represents the number of minutes in the current time;

a _seconds represents the number of seconds in the current time;

a ₀ represents the number of iterations.

In a preferred embodiment of the present invention, the method for calculating the superposition code is:

Wherein num represents one of the numbers 1 to 9;

code (num) represents the stack code corresponding to one of the numbers 1-9;

Representing a ₀ iterative hash calculations on one of the numbers 1-9.

In summary, due to the adoption of the technical scheme, the invention can acquire pictures at different angles, so that a therapist can grasp the condition of a user conveniently.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a schematic block diagram of a flow of the present invention.

Fig. 2 is a schematic structural view of the present invention.

Fig. 3 is a schematic view of the structure of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

The invention also discloses a working method for collecting mass pictures, which is shown in figure 1 and comprises the following steps:

s1, reading user identity information;

s2, shooting an image of a user;

S3, uploading the shot image data to a cloud management control platform to be bound with a user for storage;

S4, downloading the image of the user to the computer terminal for viewing.

In a preferred embodiment of the present invention, the following steps are included in step S1:

S11, approaching the induction card to the input display device, wherein the induction card stores the identity information of the user, including one or any combination of name, gender, age, identification card number, address and hospitalization ID number, and the wireless induction unit inducts and reads the identity information of the user;

and S12, storing the user identity information acquired in the step S11 in a controller, and uploading the user identity information and the image data shot corresponding to the user identity information to a cloud management control platform after the image data are acquired.

Or/and in step S2, the following steps are included:

S21, a user sits on the seat, and the height of the transverse fixing plate II 3 is adjusted through the ascending key or/and the descending key, so that the height of the biting block 15 is equal to the height of the mouth of the user:

when the controller detects that a user presses the lifting key, the controller sends a forward rotation control signal to the screw rod motor of the controller, and the screw rod motor rotates forward to enable the moving nut to drive the U-shaped moving frame to move upwards;

When the controller detects that a user presses a descending button, the controller sends a reverse control signal to a screw rod motor of the controller, and the screw rod motor reverses to enable a moving nut of the controller to drive a U-shaped moving frame to move downwards;

S22, a user takes out the mouth sleeve and the forehead sleeve from the accommodating box, and sleeves the mouth sleeve on the biting block 15 and sleeves the forehead sleeve on the arc-shaped plate 13;

s23, the controller judges whether the occlusion sensor detects an occlusion signal, the leaning sensor detects a leaning signal and the detection key outputs a start detection signal:

If the controller continuously receives the occlusion signal detected by the occlusion sensor, the abutting signal detected by the abutting sensor and the start detection signal output by the detection key after preparation is finished, the controller sends a forward rotation control signal to the first screw motor of the controller, the first screw motor rotates forward to drive the first vertical moving plate 11 to approach the second vertical moving plate 14 by the moving nut of the controller, and the controller sends a forward rotation control signal to the second screw motor of the controller, and the second screw motor rotates forward to drive the second vertical moving plate 14 to approach the first vertical moving plate 11 by the moving nut of the controller; when the distance between the first vertical moving plate 11 and the second vertical moving plate 14 is dcm, cm represents the length unit cm, and the first vertical moving plate 11 and the second vertical moving plate 14 stop moving;

Otherwise, returning to the step S23;

S24, the controller sends a control command for generating the image data of the user teeth to the image generating device 12, and sends a ray emission control command to the ray emitting device 16, the ray emitting device 16 emits X rays, the X rays penetrate through the face of the user, and the image generating device 12 generates the image data of the initial position of the user, which is marked as I ₀;

S25, the controller sends a forward rotation control signal to the rotating motor 7, the rotating motor 7 rotates forward, the rotating output driving end drives the U-shaped rotating frame to rotate clockwise by degrees, the/() controller sends a control command for generating user tooth image data to the image generating device 12 and sends a radiation emission control command to the radiation emitting device 16, the radiation emitting device 16 sends X rays, the X rays penetrate through the face of a user, and the image data of/> angles is generated by the image generating device 12 and recorded as image data of

S26, the controller sends a reverse rotation control signal to the rotating motor 7, and the rotating motor 7 reverses to enable the rotating output driving end to drive the U-shaped rotating frame to rotate anticlockwise and return to the initial position; after returning to the initial position, the controller sends a reverse control signal to the rotating motor 7, the rotating motor 7 reverses to enable the rotating output driving end of the rotating motor 7 to drive the U-shaped rotating frame to rotate anticlockwise by degrees, |represents an absolute value, | controller sends a control command for generating image data of the teeth of a user to the image generating device 12, and sends a ray emission control command to the ray emitting device 16, the ray emitting device 16 sends X rays, the X rays penetrate through the face of the user, and image data of an angle/> is generated by the image generating device 12 and is recorded as/>

And S27, the controller sends a forward rotation control signal to the rotating motor 7, and the rotating motor 7 rotates forward, so that the rotating output driving end drives the U-shaped rotating frame to rotate clockwise to return to the initial position.

Or/and before step S1, further comprising step S0, wherein the step of inputting the working password into the input display device comprises the following steps:

s01, the input display controller judges whether an unlocking trigger command output by an unlocking key is received or not:

if the input display controller receives an unlocking trigger command output by the unlocking key, executing the next step;

if the input display controller does not receive the unlocking trigger command output by the unlocking key, continuing to wait, and returning to the step S01;

S02, obtaining the current time, adding time division seconds of the current time to obtain the iteration times of the current time, wherein the calculation method of the iteration times is as follows:

a₀＝a_hours+a_minutes+a_seconds，

wherein a _hours represents the number of hours in the current time;

a _minutes represents the number of minutes in the current time;

a _seconds represents the number of seconds in the current time;

a ₀ represents the number of iterations;

The input display controller performs a ₀ times of iterative hash computation on all numbers respectively to obtain an iterative code, and the computing method of the iterative code is as follows:

Wherein num represents one of the numbers 1 to 9;

code (num) represents the stack code corresponding to one of the numbers 1-9;

Representing a ₀ iterative hash calculations for one of the numbers 1-9; preferably, an MD5 algorithm of hexadecimal results is adopted, and the hexadecimal can be correspondingly converted into decimal so as to facilitate the judgment of the size.

After the iterative codes are ordered from big to small or from small to big, the numbers corresponding to the iterative codes are sequentially displayed on all the number keys according to the sequence from left to right and from top to bottom; for example, the current time obtained is 02:01:02, the current time obtained by the iteration number is 01:04:00, the current time obtained by the iteration times is 03:01:01, the number of iterations is calculated as follows for the number 1:

the 5 iterative hash calculations are performed on number 2 as follows:

the 5 iterative hash calculations are performed on number 3 as follows:

the 5 iterative hash calculations are performed on number 4 as follows:

The stacking codes are arranged from small to large: d ₅＜c₅＜e₅＜b₅;

The number corresponding to the overlap code is: 32 41. The digits are generally arranged in the order 12 34, and through the method, the order of the digits on the keys is changed to 32 41. The safe use of the working password can be enhanced.

S03, acquiring an input working password, and judging whether the input working password is consistent with a preset working password stored in an input display controller:

If the input working password is consistent with the preset working password stored in the input display controller, the input display controller sends a working signal to the controller;

if the input working password is inconsistent with the preset working password stored in the input display controller, returning to the step S02.

In a preferred embodiment of the present invention, downloading the image of the user to the computer terminal for viewing in step S4 includes the steps of:

S41, the cloud management control platform judges whether a login cloud management control platform control command is received or not:

If the cloud management control platform receives a control command for logging in the cloud management control platform, executing the next step;

If the cloud management control platform does not receive the control command for logging in the cloud management control platform, continuing to wait, and returning to the step S41;

s42, the cloud management control platform acquires an ID number of a computer terminal to be logged in the cloud management control platform, wherein the ID number is a CPU serial number;

S43, inquiring the mobile phone number corresponding to the ID number of the computer terminal according to the ID number of the computer terminal, and sending a login code to the mobile phone number;

S44, the computer terminal judges whether the input login code is consistent with the first code generated by the computer terminal:

If the input login code is consistent with the first code generated by the computer terminal, the computer terminal generates a security code and sends the security code to the cloud management control platform; the first code is generated in the following way:

IDcode′＝HashF[Ti′ΞIDnum′]，

wherein denotes a hash calculation;

ti' represents the ID number sending time of the computer terminal;

IDnum' represents the ID number of the computer terminal;

IDcode' represents a first code generated by the computer terminal;

xi represents a matching coupler; intercepting the first six bits of the first code as a login code;

If the input login code is inconsistent with the first code generated by the computer terminal, the computer terminal is the first login terminal of the user;

S45, after the cloud management control platform receives the security code, judging whether the security code received by the cloud management control platform is consistent with the check code generated by the cloud management control platform or not:

If the security code received by the cloud management control platform is consistent with the check code generated by the cloud management control platform, the computer terminal successfully logs in the cloud management control platform; step S46 is performed;

If the security code received by the cloud management control platform is inconsistent with the check code generated by the cloud management control platform, the computer terminal fails to log in the cloud management control platform;

S46, downloading the image data of the corresponding user from the cloud management control platform to the computer terminal for viewing.

In a preferred embodiment of the present invention, the generation method of the login code in step S43 includes the following steps:

S431, acquiring the ID number time of the computer terminal for transmitting the computer terminal;

S432, obtaining an ID code of the computer terminal according to the ID number sending time of the computer terminal and the ID number of the computer terminal; the ID code is generated by the following steps:

IDcode＝HashF[TiΞIDnum]，

wherein denotes a hash calculation;

ti represents the ID number time of the computer terminal sent by the computer terminal received by the cloud management control platform;

IDnum denotes that the cloud management control platform receives the ID number of the computer terminal;

IDcode denotes an ID code generated by the cloud management control platform;

xi represents a matching coupler;

S433, the first six bits of the ID code are intercepted as the login code.

The invention also discloses a processing system of the mass picture collecting working method, which comprises a fixed mounting base, wherein the fixed mounting base is provided with a vertical mounting column 6, the vertical mounting column 6 is provided with a moving structure capable of moving up and down on the vertical mounting column 6, the moving structure is provided with a rotating structure capable of rotating on the moving structure, and the rotating structure is provided with an image shooting device for shooting the image of the teeth of the user 17;

The comfortable gesture of user is adjusted through the movable structure, and the image data of different angle tooth portions is shot to the image shooting device through the rotating structure and is transmitted to the cloud management control platform for storage.

In a preferred embodiment of the invention, the moving structure comprises a vertical moving plate 2, a first transverse fixing plate 1 is arranged at the top end of the vertical moving plate 2, a second transverse fixing plate 3 is arranged at the bottom end of the vertical moving plate 2, and the vertical moving plate 2, the first transverse fixing plate 1 and the second transverse fixing plate 3 form a U-shaped moving frame;

A biting block 15 for biting the mouth of the user 17 is arranged at the upper part of the tail end of the second transverse fixing plate 3, a biting sensor for sensing biting of the user 17 into the biting block 15 is arranged on the biting block 15, and a biting signal output end of the biting sensor is connected with a biting signal input end of the controller;

An input display device fixed mounting seat for fixedly mounting an input display device is arranged on the vertical moving plate 2, the input display device is fixedly mounted on the input display device fixed mounting seat, and an input display data end of the input display device is connected with a data connection end of the controller;

a screw nut is arranged in the vertical mounting column 6, a moving nut on the screw nut is fixedly mounted with the vertical moving plate 2, and a screw motor of the screw nut is connected with an up-and-down moving forward-and-backward rotating control end of the controller; when the controller sends a forward rotation control signal to the screw rod motor, the screw rod motor rotates forward, so that the moving nut drives the U-shaped moving frame to move upwards; when the controller sends a reverse control signal to the screw motor, the screw motor reverses, so that the moving nut drives the U-shaped moving frame to move downwards.

In a preferred embodiment of the invention, the input display device comprises a rectangular shell, a display screen 4 and M input keys 5 are embedded on the surface of the shell, namely a1 st input key, a2 nd input key, a3 rd input key, a … … rd input key and an M th input key, a PCB circuit board fixed mounting seat for fixedly mounting a PCB circuit board is arranged in the shell, the PCB circuit board is fixedly mounted on the PCB circuit board fixed mounting seat, and an input display controller, a wireless sensing unit and a data transmission unit are arranged on the PCB circuit board;

The display data end of the display screen 4 is connected with the display data end of the input display controller, the first end of the mth input key is connected with the mth end of the key input of the input display controller, and the second end of the mth input key is connected with the power supply ground; at this time, the first end of the 1 st input key is connected with the 1 st end of the key input of the input display controller, and the second end of the 1 st input key is connected with the power ground; the first end of the 2 nd input key is connected with the 2 nd end of the key input of the input display controller, and the second end of the 2 nd input key is connected with the power ground; the first end of the 3 rd input key is connected with the 3 rd end of the key input of the input display controller, and the second end of the 3 rd input key is connected with the power ground; … …; the first end of the Mth input key is connected with the Mth end of the key input of the input display controller, and the second end of the Mth input key is connected with the power supply ground; the sensing data output end of the wireless sensing unit is connected with the sensing data input end of the input display controller, the data transmission end of the input display controller is connected with the data transmission end of the data transmission unit, and the data connection end of the data transmission unit is connected with the data connection end of the controller. Inputting a working password of the instrument through a key, and starting the instrument to work; the user can read the identity of the user by using the induction card (identity card and social security card) through induction of the wireless induction unit. The 1 st input key, the 2 nd input key, the 3 rd input key, … … th input key and the M th input key can be respectively a variable-display digital key and a fixed-function key, wherein the 1 st input key, the 2 nd input key, the 3 rd input key, the … … th input key and the 10 th input key are variable-display digital keys, and are respectively a 1 st variable-display digital input key, a 2 nd variable-display digital input key, a 3 rd variable-display digital input key, a … … th variable-display digital input key and a 10 th variable-display digital input key, the 1 st variable-display digital input key comprises a 1 st key and a 1 st digital display screen arranged on the 1 st key, a first end of the 1 st key is connected with a 1 st end of key input of an input display controller, and a digital display end of the 1 st digital display screen is connected with a 1 st end of digital display data of the input display controller, and 1' =1, 2, 3, … … and 10 are that: the 1 st display change number input key comprises a 1 st key and a 1 st number display screen arranged on the 1 st key, wherein the first end of the 1 st key is connected with the 1 st end of the key input of the input display controller; the 2 nd display change number input key comprises a 2 nd key and a 2 nd number display screen arranged on the 2 nd key, wherein the first end of the 2 nd key is connected with the 2 nd end of the key input of the input display controller; the 3 rd display change number input key comprises a 3 rd key and a 3 rd number display screen arranged on the 3 rd key, wherein the first end of the 3 rd key is connected with the 3 rd end of the key input of the input display controller; the 4 th display change number input key comprises a 4 th key and a 4 th number display screen arranged on the 4 th key, wherein the first end of the 4 th key is connected with the 4 th end of the key input of the input display controller; the 5 th display change number input key comprises a 5 th key and a 5 th number display screen arranged on the 5 th key, wherein the first end of the 5 th key is connected with the 5 th end of the key input of the input display controller; the 6 th display change number input key comprises a 6 th key and a 6 th number display screen arranged on the 6 th key, wherein the first end of the 6 th key is connected with the 6 th end of the key input of the input display controller; the 7 th display change number input key comprises a 7 th key and a 7 th number display screen arranged on the 7 th key, wherein the first end of the 7 th key is connected with the 7 th end of the key input of the input display controller; the 8 th display change number input key comprises an 8 th key and an 8 th number display screen arranged on the 8 th key, wherein the first end of the 8 th key is connected with the 8 th end of the key input of the input display controller; the 9 th display change number input key comprises a 9 th key and a 9 th number display screen arranged on the 9 th key, wherein the first end of the 9 th key is connected with the 9 th end of the key input of the input display controller; the 10 th display change number input key comprises a 10 th key and a 10 th number display screen arranged on the 10 th key, wherein the first end of the 10 th key is connected with the 10 th end of the key input of the input display controller; the 10 display change digital input keys of the 1 st digital display screen, the 2 nd digital display screen, the 3 rd digital display screen, the 4 th digital display screen, the 5 th digital display screen, the 6 th digital display screen, the 7 th digital display screen, the 8 th digital display screen, the 9 th digital display screen and the 10 th digital display screen display the numbers of which are 0 to 9 and are completely different. The keys with fixed functions comprise one or any combination of a determination key, a back key, a cancel key and an unlocking key, and the key functions can be set according to actual conditions.

In a preferred embodiment of the present invention, the rotating structure comprises a transverse rotating plate 10, a first vertical moving plate 11 and a second vertical moving plate 14 are arranged at two ends of the transverse rotating plate 10, and the transverse rotating plate 10, the first vertical moving plate 11 and the second vertical moving plate 14 form a U-shaped rotating frame;

A rotating motor 7 is arranged at the tail end of the first transverse fixing plate 1, the rotating output driving end of the rotating motor 7 is fixed with a transverse rotating plate 10, and the forward rotation control end of the rotating motor 7 is connected with the rotating forward and reverse rotation control end of the controller; when the controller sends a forward rotation control signal to the rotating motor 7, the rotating motor 7 rotates forward, so that the rotating output driving end drives the U-shaped rotating frame to rotate clockwise; when the controller sends a reverse rotation control signal to the rotating motor 7, the rotating motor 7 reverses, so that the rotating output driving end drives the U-shaped rotating frame to rotate anticlockwise;

A first screw nut and a second screw nut are arranged in the transverse rotating plate 10, a first moving nut on the first screw nut is fixedly arranged at the top end of the first vertical moving plate 11, a first screw motor on the first screw nut is connected with a first left-right moving positive and negative rotating control end of the controller, and when the controller sends a positive rotating control signal to the first screw motor, the first screw motor rotates positively to enable the first moving nut to drive the first vertical moving plate 11 to approach the second vertical moving plate 14; when the controller sends a reverse control signal to the first screw motor, the first screw motor reverses to drive the first vertical moving plate 11 to move away from the second vertical moving plate 14 by the moving nut;

The second moving nut of the screw nut II is fixedly arranged at the top end of the second vertical moving plate 14, the second screw motor on the screw nut II is connected with a second left-right moving positive and negative rotation control end of the controller, and when the controller sends a positive rotation control signal to the second screw motor, the second screw motor positively rotates to enable the second moving nut to drive the second vertical moving plate 14 to approach the first vertical moving plate 11; when the controller sends a reverse control signal to the screw motor II, the screw motor II reverses, so that the moving nut II drives the vertical moving plate II 14 to be far away from the vertical moving plate I11.

In a preferred embodiment of the invention, the first transverse fixing plate 1 is further provided with a forehead rest device, the forehead rest device comprises a through hole penetrating through the first transverse rotating plate 10, the vertical supporting rod 8 passes through the through hole and is vertically arranged at the lower part of the first transverse fixing plate 1, the tail end of the lower part of the vertical supporting rod 8 is provided with an arc-shaped plate 13 which is matched with the forehead size of the user 17, the arc-shaped plate 13 is provided with a leaning sensor, and a leaning signal output end of the leaning sensor is connected with a leaning signal input end of the controller.

In a preferred embodiment of the present invention, the image capturing device includes a radiation emitting device 16 disposed in the second vertically movable plate 14 and an image generating device 12 disposed in the first vertically movable plate 11;

The control end of the ray emitting device 16 is connected with the ray control end of the controller, and the image sending end of the image generating device 12 is connected with the image receiving end of the controller;

or/and a control board fixed mounting seat for fixedly mounting a control board is arranged in the vertical mounting column 6, the control board is fixedly mounted on the control board fixed mounting seat, a controller and a data transmission module are arranged on the control board, and the data transmission module comprises a data wireless transmission module or/and a data wired transmission module;

The data wireless transmission module comprises a data wireless WiFi transmission module or/and a data wireless Bluetooth transmission module, wherein the data transmission end of the data wireless WiFi transmission module is connected with the WiFi data transmission end of the controller, and the data transmission end of the data wireless Bluetooth transmission module is connected with the Bluetooth data transmission end of the controller;

The data wired transmission module comprises a wired hundred-megacard transmission module or/and a wired gigabit network card transmission module, wherein the wired hundred-megacard transmission module is connected with a hundred-megadata transmission end of the controller, and the wired gigabit network card transmission module is connected with a gigabit data transmission end of the controller;

uploading shot image data to a cloud management control platform through one of a wireless WiFi transmission module, a data wireless Bluetooth transmission module, a wired hundred megacard transmission module and a wired kilomega card transmission module;

or/and the vertical mounting column 6 comprises a voice prompt alarm arranged on the vertical mounting column, wherein the voice data end of the voice prompt alarm is connected with the voice data end of the controller; when the biting sensor detects that the user bites the biting block 15 and the leaning sensor does not detect that the forehead of the user leans against the arc-shaped plate 13, the voice prompt warning device sends prompt information, and the prompt information is that the forehead is leaned against the arc-shaped plate 13;

When the leaning sensor detects that the forehead of the user leans against the arc-shaped plate 13 and the biting sensor does not detect that the user bites against the biting block 15, the voice prompt warning device sends prompt information, and the prompt information is that the user bites against the biting block 15;

When the biting sensor detects that the user bites the biting block 15 and the leaning sensor detects that the forehead of the user leans against the arc-shaped plate 13, the controller sends a control command for generating the image data of the teeth of the user to the image generating device 12 and sends a ray emission control command to the ray emitting device 16, the ray emitting device 16 sends X rays, the X rays penetrate through the face of the user, and the image generating device 12 generates the image data of the teeth of the user; the controller transmits a forward rotation control command or a reverse rotation control command to the rotating electric machine 7, and the image generating device 12 generates -angle user tooth image data,/> represents clockwise rotation/> -angle from the initial position,/> represents counterclockwise rotation/> -angle from the initial position, and/> -represents non-rotation at the initial position;

or/and a recovery box for recovering the used mouth cover and the forehead cover and a containing box for storing the unused mouth cover or/and forehead cover are arranged at the lower end of the second transverse fixing plate 3, and a plurality of mouth covers or/and forehead covers are arranged in the containing box;

Or/and further comprises a movable seat for a user to sit on beside the vertical mounting column 6;

Or/and the second transverse fixing plate 3 is provided with a key set for adjusting the height of the U-shaped movable frame, the key set comprises an ascending key, a descending key and a detection key, the first end of the ascending key is connected with the power ground, the second end of the ascending key is connected with the ascending control signal input end of the controller, and when a user presses the ascending key, the controller sends a forward rotation control signal to the screw rod motor, and the screw rod motor rotates forward to enable the movable nut to drive the U-shaped movable frame to move upwards;

The first end of the descending button is connected with the power ground, the second end of the descending button is connected with the descending control signal input end of the controller, when a user presses the descending button, the controller sends a reversing control signal to the screw rod motor of the controller, and the screw rod motor reverses to enable the moving nut of the screw rod motor to drive the U-shaped moving frame to move downwards;

the first end of the detection key is connected with the power ground, the second end of the detection key is connected with the detection control signal input end of the controller, when a user presses the detection key and the occlusion sensor detects that the user bites the biting block 15, the abutment sensor detects that the forehead of the user abuts against the arc-shaped plate 13, the controller sends a control command for generating the image data of the teeth of the user to the image generating device 12 and sends a radiation emission control command to the radiation emitting device 16, the radiation emitting device 16 emits X rays, the X rays penetrate through the face of the user, and the image generating device 12 generates the image data of the teeth of the user; the controller transmits a forward rotation control command or a reverse rotation control command to the rotating electric machine 7, and the image generating device 12 generates -angle user tooth image data indicating clockwise rotation/> angle from the initial position,/> indicating counterclockwise rotation/> angle from the initial position, and/> indicating non-rotation at the initial position.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (3)

1. The working method for collecting mass pictures is characterized by comprising the following steps of:

s0, inputting a working password into the input display device, wherein the method for inputting the working password into the input display device comprises the following steps:

s01, the input display controller judges whether an unlocking trigger command output by an unlocking key is received or not:

if the input display controller receives an unlocking trigger command output by the unlocking key, executing the next step;

if the input display controller does not receive the unlocking trigger command output by the unlocking key, continuing to wait, and returning to the step S01;

S02, obtaining the current time, adding time division seconds of the current time to obtain the iteration times of the current time, wherein the calculation method of the iteration times is as follows:

a₀＝a_hours+a_minutes+a_seconds，

wherein a _hours represents the number of hours in the current time;

a _minutes represents the number of minutes in the current time;

a _seconds represents the number of seconds in the current time;

a ₀ represents the number of iterations;

The input display controller performs a ₀ iterative hash calculations on the numbers 1 to 9 respectively to obtain an overlapped code, and the calculation method of the overlapped code is as follows:

Wherein num represents one of the numbers 1 to 9;

code (num) represents the stack code corresponding to one of the numbers 1-9;

Representing a ₀ iterations of hash calculations for one of the numbers 1-9;

After the iterative codes are ordered from big to small or from small to big, the numbers corresponding to the iterative codes are sequentially displayed on all the number keys according to the sequence from left to right and from top to bottom;

S03, acquiring an input working password, and judging whether the input working password is consistent with a preset working password stored in an input display controller:

If the input working password is consistent with the preset working password stored in the input display controller, the input display controller sends a working signal to the controller;

If the input working password is inconsistent with the preset working password stored in the input display controller, returning to the step S02;

s1, reading user identity information;

s2, shooting an image of a user;

S3, uploading the shot image data to a cloud management control platform to be bound with a user for storage;

S4, downloading the image of the user to the computer terminal for viewing.

2. The working method for collecting mass pictures according to claim 1, wherein the step S1 comprises the following steps:

S11, approaching the induction card to the input display device, wherein the induction card stores the identity information of the user, including one or any combination of name, gender, age, identification card number, address and hospitalization IDD number, and the wireless induction unit inducts and reads the identity information of the user;

and S12, storing the user identity information acquired in the step S11 in a controller, and uploading the user identity information and the image data shot corresponding to the user identity information to a cloud management control platform after the image data are acquired.

3. The working method for collecting mass pictures according to claim 1, wherein the step S2 comprises the following steps:

S21, a user sits on the seat, and the height of the transverse fixing plate II (3) is adjusted through the ascending key or/and the descending key, so that the height of the biting block (15) is equivalent to the height of the mouth of the user:

when the controller detects that a user presses the lifting key, the controller sends a forward rotation control signal to the screw rod motor of the controller, and the screw rod motor rotates forward to enable the moving nut to drive the U-shaped moving frame to move upwards;

When the controller detects that a user presses a descending button, the controller sends a reverse control signal to a screw rod motor of the controller, and the screw rod motor reverses to enable a moving nut of the controller to drive a U-shaped moving frame to move downwards;

S22, a user takes out the mouth sleeve and the forehead sleeve from the accommodating box, the mouth sleeve is sleeved on the biting block (15), and the forehead sleeve is sleeved on the arc-shaped plate (13);

s23, the controller judges whether the occlusion sensor detects an occlusion signal, the leaning sensor detects a leaning signal and the detection key outputs a start detection signal:

If the controller continuously receives the occlusion signal detected by the occlusion sensor, the abutting signal detected by the abutting sensor and the start detection signal output by the detection key after preparation is finished, the controller sends a forward rotation control signal to the first screw motor of the controller, the first screw motor rotates forward to drive the first vertical moving plate (11) to approach the second vertical moving plate (14), and the controller sends a forward rotation control signal to the second screw motor, and the second screw motor rotates forward to drive the second vertical moving plate (14) to approach the first vertical moving plate (11); when the distance between the first vertical moving plate (11) and the second vertical moving plate (14) is dcm, cm represents the length unit cm, and the first vertical moving plate (11) and the second vertical moving plate (14) stop moving;

Otherwise, returning to the step S23;

S24, the controller sends a control command for generating image data of the teeth of the user to the image generating device (12), and sends a ray emission control command to the ray emitting device (16), the ray emitting device (16) emits X rays, the X rays penetrate through the face of the user, and the image generating device (12) generates image data of the initial position of the user and is marked as I ₀;

S25, the controller sends a forward rotation control signal to the rotating motor (7), the rotating motor (7) rotates forward, the rotating output driving end drives the U-shaped rotating frame to rotate clockwise by degrees, the/() controller sends a control command for generating image data of the teeth of the user to the image generating device (12) and sends a ray emission control command to the ray emitting device (16), the ray emitting device (16) sends X rays, the X rays penetrate through the face of the user, and the image data of the/> angles are generated by the image generating device (12) and recorded as/>

S26, the controller sends a reverse rotation control signal to the rotating motor (7) of the U-shaped rotating frame, and the rotating motor (7) reverses to enable the rotating output driving end of the U-shaped rotating frame to drive the U-shaped rotating frame to rotate anticlockwise to return to the initial position; after returning to the initial position, the controller sends a reverse control signal to the rotating motor (7), the rotating motor (7) reverses to enable the rotating output driving end of the rotating motor to drive the U-shaped rotating frame to rotate anticlockwise by degrees, |represents an absolute value, | controller sends a control command for generating image data of the teeth of a user to the image generating device (12), and sends a ray emission control command to the ray emitting device (16), the ray emitting device (16) emits X rays, the X rays penetrate through the face of the user, the image generating device (12) generates image data of an angle/> , and the image data is recorded as

And S27, the controller sends a forward rotation control signal to the rotating motor (7) of the U-shaped rotating frame, and the rotating motor (7) rotates forward to enable the rotating output driving end of the U-shaped rotating frame to drive the U-shaped rotating frame to rotate clockwise to return to the initial position.