CN113341776A - Remote sharing intelligent vision screening instrument and remote control method and system thereof - Google Patents
Remote sharing intelligent vision screening instrument and remote control method and system thereof Download PDFInfo
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- 238000013475 authorization Methods 0.000 claims abstract description 34
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- 230000007246 mechanism Effects 0.000 description 14
- 230000005802 health problem Effects 0.000 description 8
- 238000007689 inspection Methods 0.000 description 7
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- 201000009487 Amblyopia Diseases 0.000 description 2
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- 210000001525 retina Anatomy 0.000 description 2
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- A61B3/10—Objective types, i.e. instruments for examining the eyes independent of the patients' perceptions or reactions
- A61B3/103—Objective types, i.e. instruments for examining the eyes independent of the patients' perceptions or reactions for determining refraction, e.g. refractometers, skiascopes
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- A—HUMAN NECESSITIES
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- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B3/00—Apparatus for testing the eyes; Instruments for examining the eyes
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Abstract
The invention discloses a remote sharing vision screening instrument and a remote control method and a remote sharing system thereof, wherein the vision screening instrument comprises a vision screening instrument body, and the vision screening instrument body is arranged on an adjusting module; the network communication module, the adjusting module and the vision screening instrument body are in signal connection with the control module; the network communication module is used for being in communication connection with a remote server and receiving an authorization instruction sent by the remote server; the control module is used for responding to the authorization instruction and generating a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body; the adjusting module is used for responding to the first control instruction and adjusting the vision screening instrument body to be at a set position; the vision screening instrument body is used for responding to the second control instruction, screening the vision of the user, acquiring the vision data of the user and sending the vision data of the user to the control module; the control module is used for uploading the vision data of the user to the remote server through the network communication module.
Description
Technical Field
The invention relates to the technical field of vision screening equipment, in particular to a remote sharing intelligent vision screening instrument and a remote control method and system thereof.
Background
With the rapid development of science and technology, electronic screen display equipment is widely popularized, and televisions, mobile phones, PADs and everywhere visible electronic advertisement screens are full of glasses of people. The more prominent the vision problems of people, the more and more amblyopia phenomena of even children. The visual condition is checked at regular time every year, which becomes the most core requirement for effectively and timely finding out the visual problems. The detection of the vision screening instrument is the main detection means of amblyopia personnel, has the advantages of objectivity, accuracy and quickness, and is needed to be used in the vision screening process. The basic principle of the vision screening instrument is that an infrared light source is projected to the retina, light reflected back through the retina presents different patterns under different refraction states, and a camera records pupil patterns and obtains data such as a sphere lens, a cylinder lens, an axis and the like through calculation.
At present, the existing vision screening instrument mainly has the following defects:
1. the vision screening instrument on the market is handheld, an optometrist needs to hold the equipment by hand, the instrument is manually operated by the optometrist, and the possibility of inaccurate vision screening optometry caused by experience factors of the operator is provided.
2. Meanwhile, the existing vision screening instrument is basically used in professional glasses shops and ophthalmologic hospitals, and the problems of high examination cost, inconvenience in reservation and examination and the like are not favorable for people to carry out a large amount of vision screening requirements for a long time anywhere at any time.
3. Especially for children and infants with low fitting degree, the application limitation of the optometry in hospitals for matching the infants and the infants is limited.
4. The screening data files of each user have no electronic storage management function, and are not suitable for the long-term management and monitoring of the vision condition of the user.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides a remote sharing intelligent vision screening instrument and a remote control method and system thereof, which aim to solve the technical problems in the background art.
In a first aspect, the application provides a remote sharing vision screening instrument, which comprises a vision screening instrument body, a control module, an adjusting module and a network communication module; the vision screening instrument body is arranged on the adjusting module; the network communication module, the adjusting module and the vision screening instrument body are in signal connection with the control module; wherein the content of the first and second substances,
the network communication module is used for being in communication connection with a remote server and receiving an authorization instruction sent by the remote server;
the control module is used for responding to the authorization instruction and generating a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body;
the adjusting module is used for responding to the first control instruction and adjusting the vision screening instrument body to be at a set position;
the vision screening instrument body is used for responding to the second control instruction, screening the vision of the user, acquiring the vision data of the user and sending the vision data of the user to the control module;
the control module is used for uploading the user vision data to the remote server through the network communication module.
Furthermore, an identification code is arranged on the vision screening instrument body, the identification code is uniquely corresponding to the vision screening instrument body and serves as an authentication mark for obtaining authentication from the remote server.
Further, the remote server receives a screening request generated after the user scans the identification code through the mobile terminal, and generates the authorization instruction according to the screening request; the screening request carries identification information of the vision screening instrument body and user personal information.
Further, the network communication module comprises a 4G module, a 5G module and/or a WiFi module.
In a second aspect, the present application further provides a method for remotely controlling a vision screening apparatus, which is applied to the vision screening apparatus of the first aspect, and comprises:
establishing communication connection with a remote server through a network communication module;
receiving an authorization instruction sent by the remote server;
the control module responds to the authorization instruction and generates a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body;
the adjusting module responds to the first control instruction and adjusts the vision screening instrument body to be at a set position;
the vision screening instrument body responds to the second control instruction, screens the vision of the user, obtains the vision data of the user and sends the vision data of the user to the control module;
and the control module uploads the vision data of the user to the remote server through the network communication module.
Further, a user scans an identification code through a mobile terminal to generate a screening request, and the screening request is sent to the remote server, wherein the screening request carries identification information of the vision screening instrument body and personal information of the user;
the remote server generates the authorization instruction according to the screening request.
Further, the identification code is arranged on the vision screening instrument body, the identification code is uniquely corresponding to the vision screening instrument body and serves as an authentication mark for obtaining authentication from the remote server.
Further, the network communication module comprises a 4G module, a 5G module and/or a WiFi module.
In a third aspect, the present application further provides a remote control system for a vision screening instrument, including a vision screening instrument and a remote server, where the vision screening instrument includes a vision screening instrument body, a control module, an adjustment module, and a network communication module; the vision screening instrument body is arranged on the adjusting module; the network communication module, the adjusting module and the vision screening instrument body are in signal connection with the control module; wherein the content of the first and second substances,
the network communication module is used for being in communication connection with the remote server and receiving an authorization instruction sent by the remote server;
the control module is used for responding to the authorization instruction and generating a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body; the adjusting module is used for responding to the first control instruction and adjusting the vision screening instrument body to be at a set position;
the vision screening instrument body is used for responding to the second control instruction, screening the vision of the user, acquiring the vision data of the user and sending the vision data of the user to the control module;
the control module is used for uploading the user vision data to the remote server through the network communication module.
Further, an identification code is arranged on the vision screening instrument body, the identification code is uniquely corresponding to the vision screening instrument body and is used as an authentication mark for obtaining authentication from the remote server;
the remote server receives a screening request generated after a user scans the identification code through a mobile terminal, and generates the authorization instruction according to the screening request; the screening request carries identification information of the vision screening instrument body and user personal information.
The invention has the beneficial effects that:
the remote sharing vision screening instrument can improve the utilization rate of the vision screening instrument, improve the user experience, reduce the popularization and use cost of the vision screening instrument, facilitate the user to detect and screen the vision condition anytime and anywhere, effectively monitor, control and relieve the vision health problem of the masses of people, and further improve the vision health problem of the masses of people.
And the control module automatically controls the inspection process without manual operation, thereby avoiding the phenomenon of inaccurate detection data caused by the empirical difference of manual operation. The system adopts unattended remote control, does not need personnel management, and is suitable for laying various scenes. Saving a large amount of labor cost. So that it becomes possible for the user to check the price cheaper or even for periodic free. With remote storage, there is no prior art function of remotely storing and managing individual vision data.
Drawings
In order to more clearly illustrate the detailed description of the invention or the technical solutions in the prior art, the drawings that are needed in the detailed description of the invention or the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.
Fig. 1 is a schematic structural diagram of a remote shared vision screening apparatus according to an embodiment of the present disclosure;
fig. 2 is a schematic structural diagram of a remote shared vision screening apparatus according to an embodiment of the present application;
fig. 3 is a flowchart of a remote control method of a vision screening apparatus according to an embodiment of the present application;
fig. 4 is a schematic structural diagram of a remote control system of a vision screening apparatus according to an embodiment of the present application.
Detailed Description
Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.
It is to be noted that, unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the invention pertains.
As shown in fig. 1-2, in a first aspect, an embodiment of the present application provides a remote shared vision screening instrument, which includes a vision screening instrument body 1, and further includes a control module 2, an adjustment module 3, and a network communication module 4. The vision screening instrument body 1 is installed on the adjusting module 3. The network communication module 4, the adjusting module 3 and the vision screening instrument body 1 are in signal connection with the control module 2. The network communication module 4 is used for being in communication connection with a remote server and receiving an authorization instruction sent by the remote server. The control module 2 is used for responding to the authorization instruction, and generating a first control instruction for controlling the adjusting module 3 and a second control instruction for controlling the vision screening instrument body 1. The adjusting module 3 is used for responding to the first control instruction and adjusting the vision screening instrument body 1 to be in a set position. The vision screening instrument body 1 is used for responding to the second control instruction, screening the vision of the user, obtaining the vision data of the user and sending the vision data of the user to the control module 2. The control module 2 is used for uploading the vision data of the user to a remote server through the network communication module 4.
Specifically, the vision screening instrument body 1 is provided with the identification code 5, the identification code 5 is in unique correspondence with the vision screening instrument body 1 and serves as an authentication mark for obtaining authentication from a remote server, the identification code 5 is in one-to-one correspondence with the vision screening instrument, and each identification code 5 is unique. When a user needs to check eyesight, the identification code 5 can be scanned through a client on a mobile terminal such as a smart phone, the client can be WeChat, Paibao and/or a browser, the identification code 5 comprises a link of a verification page, after the user scans the identification code 5 and enters the verification page, personal information of the user is input, a screening request can be generated, and then the generated screening request is sent to a remote server.
And after receiving the screening request sent by the mobile terminal, the remote server generates an authorization instruction according to the screening request. The screening request carries identification information of the vision screening instrument body 1 and personal information of the user. The identification information of the vision screening instrument body 1 contains IP address information, the remote server establishes communication with the network communication module 4 on the corresponding vision screening instrument through the IP address information, and sends an authorization instruction to the corresponding control module 2. The control module 2 controls the adjustment module 3 and the vision screening instrument body 1 to work only after receiving an authorization instruction sent by the remote server.
The identification code 5 can be a printed two-dimensional code, and the two-dimensional code is pasted on the vision screening instrument body 1. Or, the vision screening instrument body 1 is provided with a display screen, and the identification code 5 can be displayed on the display screen, and at this time, the identification code 5 can be a two-dimensional code generated randomly.
Specifically, the network communication module 4 includes a 4G module, a 5G module, and/or a WiFi module. The control module 2 may be an arm processor.
In this embodiment, the adjusting module 3 includes a positioning mechanism 6, and a left and right adjusting mechanism 7, a height adjusting mechanism 8, and a front and back adjusting mechanism 9 that are sequentially installed, and the positioning mechanism 6 and the vision screening instrument body 1 are installed on the front and back adjusting mechanism 9.
The positioning mechanism 6 is in signal connection with the control module 2. The positioning mechanism 6 comprises a camera 10, a distance sensor 11, a processor and a wireless communication module, wherein the camera 10, the distance sensor 11 and the wireless communication module are in signal connection with the processor. The processor starts to work after receiving the first control instruction sent by the control module 2 through the wireless communication module.
The camera 10 is used for shooting a face image of a person to be measured. The distance sensor 11 is used for measuring the distance between the distance sensor 11 and the face of the person to be measured. The processor receives the face image shot by the camera 10 and the distance measured by the distance sensor 11, performs eye feature recognition on the face image, and determines the position deviation between the vision screening instrument and the eyes of the person to be tested; the processor generates a position adjusting instruction according to the position deviation and the distance, and the left and right adjusting mechanism 7, the height adjusting mechanism 8 and the front and back adjusting mechanism 9 act according to the position adjusting instruction, so that the position of the vision screening instrument body 1 is automatically adjusted, and the vision screening instrument body 1 can perform vision inspection on a user according to a standard inspection flow.
Specifically, the processor is an arm processor. The distance sensor 11 is a laser displacement sensor. The wireless communication module is a 4G module, a 5G module or a WiFi module.
The positions of the camera 10 and the distance sensor 11 relative to the vision screening instrument body 1 are fixed, so that the relative displacement between the camera 10 and the distance sensor 11 and the vision screening instrument body 1 needs to be corrected during debugging, an image shot by the camera 10 is the same as an image shot by the vision screening instrument body 1, and the distance measured by the distance sensor 11 is the distance between the vision screening instrument body 1 and the face of a person to be tested. Image recognition software is written in the processor, and can perform eye feature recognition on the image shot by the camera 10, determine the position deviation between the vision screening instrument body 1 and the eyes of the person to be tested, and adjust the position of the vision screening instrument body 1 according to the position deviation.
After the vision screening instrument body 1 is adjusted to the standard position, the processor sends a feedback signal to the control module 2, after the control module 2 receives the feedback signal, the control module sends a second control instruction to the vision screening instrument body 1, and the vision screening instrument body 1 starts to perform vision inspection on the user. After the examination of vision screening appearance body 1 is accomplished, can send user's eyesight data for control module 2, control module 2 uploads to the long-range server through network communication module 4 and stores, and the user downloads this user's eyesight data from the long-range server through mobile terminal, can inquire the inspection result.
Specifically, the left and right adjusting mechanism 7 is a horizontally arranged first servo sliding table, and the first servo sliding table is arranged on the base 12. The height adjusting mechanism 8 is a vertically arranged second servo sliding table, and the bottom end of the second servo sliding table is fixedly arranged on the first servo sliding table. The front and back adjusting mechanism 9 is a horizontally arranged third servo sliding table, and the third servo sliding table is installed on the second servo sliding table.
The remote sharing vision screening instrument can be placed in public places such as public areas of various communities, airports, high-speed rails, markets, schools, administrative service centers and hospitals, the utilization rate of the vision screening instrument is improved, the user experience is improved, the popularization and use cost of the vision screening instrument is reduced, convenience is brought to users to detect and screen vision conditions anytime and anywhere, the vision health problems of vast people are effectively monitored and controlled, and therefore the vision health problems of the vast people are further improved.
And the control module automatically controls the inspection process without manual operation, thereby avoiding the phenomenon of inaccurate detection data caused by the empirical difference of manual operation. The system adopts unattended remote control, does not need personnel management, and is suitable for laying various scenes. Saving a large amount of labor cost. So that it becomes possible for the user to check the price cheaper or even for periodic free. With remote storage, there is no prior art function of remotely storing and managing individual vision data.
In a second aspect, as shown in fig. 3, an embodiment of the present application further provides a remote control method for a vision screening apparatus, which is applied to the vision screening apparatus of the first aspect. The remote control method comprises the following steps:
s100: establishing communication connection with a remote server through a network communication module 4;
s101: receiving an authorization instruction sent by a remote server;
s102: the control module 2 responds to the authorization instruction, and generates a first control instruction for controlling the adjusting module 3 and a second control instruction for controlling the vision screening instrument body 1;
s103: the adjusting module 3 responds to the first control instruction and adjusts the vision screening instrument body 1 to be at a set position;
s104: the vision screening instrument body 1 responds to the second control instruction, screens the vision of the user, obtains the vision data of the user and sends the vision data of the user to the control module 2;
s105: the control module 2 uploads the vision data of the user to a remote server through the network communication module 4.
Further, the user scans the identification code 5 through the mobile terminal to generate a screening request, and the screening request is sent to the remote server, wherein the screening request carries the identification information of the vision screening instrument body 1 and the personal information of the user. The remote server generates authorization instructions according to the screening request.
Further, identification code 5 sets up on eyesight sieve appearance body 1, and identification code 5 is the only correspondence with eyesight sieve appearance body 1 to as the authentication mark be used for obtaining the authentication from remote server. The identification codes 5 are in one-to-one correspondence with the vision screening instruments, and each identification code 5 is unique.
When a user needs to check eyesight, the identification code 5 can be scanned through a client on a mobile terminal such as a smart phone, the client can be WeChat, Paibao and/or a browser, the identification code 5 comprises a link of a verification page, after the user scans the identification code 5 and enters the verification page, personal information of the user is input, a screening request can be generated, and then the generated screening request is sent to a remote server.
And after receiving the screening request sent by the mobile terminal, the remote server generates an authorization instruction according to the screening request. The screening request carries identification information of the vision screening instrument body 1 and personal information of the user. The identification information of the vision screening instrument body 1 contains IP address information, the remote server establishes communication with the network communication module 4 on the corresponding vision screening instrument through the IP address information, and sends an authorization instruction to the corresponding control module 2. The control module 2 controls the adjustment module 3 and the vision screening instrument body 1 to work only after receiving an authorization instruction sent by the remote server.
The identification code 5 can be a printed two-dimensional code, and the two-dimensional code is pasted on the vision screening instrument body 1. Or, the vision screening instrument body 1 is provided with a display screen, and the identification code 5 can be displayed on the display screen, and at this time, the identification code 5 can be a two-dimensional code generated randomly.
Further, the network communication module 4 includes a 4G module, a 5G module, and/or a WiFi module.
The remote control method of the vision screening instrument improves the utilization rate of the vision screening instrument, improves user experience, reduces the popularization and use cost of the vision screening instrument, facilitates the user to detect and screen vision conditions anytime and anywhere, effectively monitors and controls the vision health problems of the masses of people, and further improves the vision health problems of the masses of people.
In a third aspect, as shown in fig. 4, embodiments of the present application further provide a remote control system for a vision screening apparatus, including the vision screening apparatus according to the first aspect and a remote server. The vision screening instrument comprises a vision screening instrument body 1, a control module 2, an adjusting module 3 and a network communication module 4; the vision screening instrument body 1 is arranged on the adjusting module 3; the network communication module 4, the adjusting module 3 and the vision screening instrument body 1 are in signal connection with the control module 2. The network communication module 4 is used for being in communication connection with a remote server and receiving an authorization instruction sent by the remote server. The control module 2 is used for responding to the authorization instruction, and generating a first control instruction for controlling the adjusting module 3 and a second control instruction for controlling the vision screening instrument body 1. The adjusting module 3 is used for responding to the first control instruction and adjusting the vision screening instrument body 1 to be in a set position. The vision screening instrument body 1 is used for responding to the second control instruction, screening the vision of the user, obtaining the vision data of the user and sending the vision data of the user to the control module 2. The control module 2 is used for uploading the vision data of the user to a remote server through the network communication module 4.
Further, the vision screening instrument body 1 is provided with an identification code 5, the identification code 5 is uniquely corresponding to the vision screening instrument body 1 and serves as an authentication mark for acquiring authentication from a remote server. The remote server receives a screening request generated after a user scans the identification code 5 through the mobile terminal, and generates an authorization instruction according to the screening request; wherein, the screening request carries the identification information of the vision screening instrument body 1 and the personal information of the user.
The application provides a remote control system of vision screening appearance can improve the rate of utilization of vision screening appearance, has promoted user experience, reduces the popularization and use cost of vision screening appearance, and convenience of customers detects the screening vision condition anytime and anywhere, and the vision health problem of vast people is alleviated in effective monitoring, control to further improve the vision health problem of vast national.
And the control module automatically controls the inspection process without manual operation, thereby avoiding the phenomenon of inaccurate detection data caused by the empirical difference of manual operation. The system adopts unattended remote control, does not need personnel management, and is suitable for laying various scenes. Saving a large amount of labor cost. So that it becomes possible for the user to check the price cheaper or even for periodic free. With remote storage, there is no prior art function of remotely storing and managing individual vision data.
Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention, and they should be construed as being included in the following claims and description.
Claims (10)
1. The utility model provides a long-range sharing eyesight screening appearance, includes the eyesight screening appearance body, its characterized in that: the device also comprises a control module, an adjusting module and a network communication module; the vision screening instrument body is arranged on the adjusting module; the network communication module, the adjusting module and the vision screening instrument body are in signal connection with the control module; wherein the content of the first and second substances,
the network communication module is used for being in communication connection with a remote server and receiving an authorization instruction sent by the remote server;
the control module is used for responding to the authorization instruction and generating a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body;
the adjusting module is used for responding to the first control instruction and adjusting the vision screening instrument body to be at a set position;
the vision screening instrument body is used for responding to the second control instruction, screening the vision of the user, acquiring the vision data of the user and sending the vision data of the user to the control module;
the control module is used for uploading the user vision data to the remote server through the network communication module.
2. The remote shared vision screening instrument of claim 1, wherein: the vision screening instrument body is provided with an identification code, the identification code is uniquely corresponding to the vision screening instrument body and serves as an authentication mark for obtaining authentication from the remote server.
3. The remote shared vision screening instrument of claim 2, wherein: the remote server receives a screening request generated after a user scans the identification code through a mobile terminal, and generates the authorization instruction according to the screening request; the screening request carries identification information of the vision screening instrument body and user personal information.
4. The remote shared vision screening instrument of claim 1, wherein: the network communication module comprises a 4G module, a 5G module and/or a WiFi module.
5. A method of remote control of a vision screening apparatus for use with the vision screening apparatus of claim 1, comprising:
establishing communication connection with a remote server through a network communication module;
receiving an authorization instruction sent by the remote server;
the control module responds to the authorization instruction and generates a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body;
the adjusting module responds to the first control instruction and adjusts the vision screening instrument body to be at a set position;
the vision screening instrument body responds to the second control instruction, screens the vision of the user, obtains the vision data of the user and sends the vision data of the user to the control module;
and the control module uploads the vision data of the user to the remote server through the network communication module.
6. The remote control method of a vision screening apparatus of claim 5, wherein: a user scans an identification code through a mobile terminal to generate a screening request, and the screening request is sent to the remote server, wherein the screening request carries identification information of the vision screening instrument body and personal information of the user;
the remote server generates the authorization instruction according to the screening request.
7. The remote control method of a vision screening apparatus of claim 6, wherein: the identification code is arranged on the vision screening instrument body, uniquely corresponds to the vision screening instrument body and serves as an authentication mark for obtaining authentication from the remote server.
8. The remote control method of a vision screening apparatus of claim 5, wherein: the network communication module comprises a 4G module, a 5G module and/or a WiFi module.
9. The utility model provides a remote control system of vision screening appearance, includes vision screening appearance and remote server, its characterized in that: the vision screening instrument comprises a vision screening instrument body, a control module, an adjusting module and a network communication module; the vision screening instrument body is arranged on the adjusting module; the network communication module, the adjusting module and the vision screening instrument body are in signal connection with the control module; wherein the content of the first and second substances,
the network communication module is used for being in communication connection with the remote server and receiving an authorization instruction sent by the remote server;
the control module is used for responding to the authorization instruction and generating a first control instruction for controlling the adjusting module and a second control instruction for controlling the vision screening instrument body; the adjusting module is used for responding to the first control instruction and adjusting the vision screening instrument body to be at a set position;
the vision screening instrument body is used for responding to the second control instruction, screening the vision of the user, acquiring the vision data of the user and sending the vision data of the user to the control module;
the control module is used for uploading the user vision data to the remote server through the network communication module.
10. The remote control system for a vision screening apparatus of claim 9, wherein: the vision screening instrument body is provided with an identification code, the identification code is uniquely corresponding to the vision screening instrument body and is used as an authentication mark for acquiring authentication from the remote server;
the remote server receives a screening request generated after a user scans the identification code through a mobile terminal, and generates the authorization instruction according to the screening request; the screening request carries identification information of the vision screening instrument body and user personal information.
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