CN108961590B

CN108961590B - Shared self-service vision detection station and vision detection method thereof

Info

Publication number: CN108961590B
Application number: CN201811185577.9A
Authority: CN
Inventors: 刘燎
Original assignee: Beijing Tong Ming Eye Instrument Development Co ltd
Current assignee: Beijing Tong Ming Eye Instrument Development Co ltd
Priority date: 2018-10-11
Filing date: 2018-10-11
Publication date: 2024-04-19
Anticipated expiration: 2038-10-11
Also published as: CN108961590A

Abstract

The invention relates to a shared self-help vision detection station and a vision detection method thereof, comprising the following steps: detecting a pavilion; the detection cabinet is arranged at the detection pavilion and provided with a touch screen opening and a display screen opening; the detection case is arranged at the lower part of the inner side of the detection cabinet; the display screen is arranged on the display screen bracket and corresponds to the display screen opening; the touch screen is arranged on the touch screen bracket, the screen corresponds to the touch screen opening, the upper part of the screen is a vision detection area for displaying vision detection images, and the lower part of the screen is a touch adjusting key; a mini mirror comprising a test tube, wherein a plurality of optical lenses are arranged on the inner side of the test tube; the test tube comprises a test cannula and a rotating cannula, and the port of the rotating cannula is internally connected with a rotating ocular; the test cannula is provided with a test mark, and the rotary cannula is provided with an indication mark; the housing comprises a support plate and a cover plate; the front of the detection cabinet is provided with a fee payment unit. By placing detection stations in public places such as communities, schools and the like, myopia patients can more conveniently track own vision changes and monitor refractive development.

Description

Shared self-service vision detection station and vision detection method thereof

Technical Field

The invention belongs to the technical field of vision testing, and particularly relates to a shared self-service vision testing station and a vision testing method thereof.

Background

Eyes are organs that help us perceive light, and better help us understand the surrounding environment than other 5 sensory perceptions.

Good vision will accompany life and eye and vision care should be taken from a young age. Knowing vision problems and eye conditions is very important, which will help you keep vision healthy all the time.

Vision refers to the ability of the retina to resolve images. The quality of vision is determined by the size of the retina's ability to resolve images, however, when the refractive medium of the eye (e.g., cornea, lens, vitreous, etc.) becomes turbid or there is refractive error (including myopia, hyperopia, astigmatism, etc.), the vision of the eye is degraded even if the retina functions well. Refractive media of the eye are turbid and can be treated using surgery, while refractive irregularities require correction with lenses.

With age, vision also changes. The vision is detected regularly, so that the vision decline and the occurrence of eye diseases can be effectively avoided.

Near vision examination can be used to know the accommodation ability of eyes, and can be used in combination with far vision examination to diagnose whether there are ametropia (including astigmatism, myopia and hyperopia) and presbyopia or whether there are organic lesions such as cataract, fundus lesions, etc.

For vision testing, accuracy and precision are required, so that a regular hospital or eye store is generally required for special testing, however, time is the biggest problem for people with busy work and lessons.

To eyesight self-service detection, prior art provides a self-service eyesight testing arrangement, including first mounting bracket, the second mounting bracket, the back shaft, a plurality of carousel and a plurality of character board, first mounting bracket is located the second mounting bracket top, the back shaft is vertical to be arranged, back shaft one end is connected with first mounting bracket, the back shaft other end is connected with the second mounting bracket, a plurality of carousel interval arrangements are epaxial and carousel and back shaft rotation are connected, be equipped with different vision values on each carousel, the quantity of character board is unanimous with the quantity of carousel and a character board and a carousel fixed connection, all be equipped with the character on the character board and the character size on each character board is corresponding with the vision value on the carousel that it is connected, still be equipped with a plurality of pilot lamps on each character board, the quantity of pilot lamps on each character board is unanimous with the quantity of characters on this character board and each pilot lamp and each character board one-to-one set up. The self-service vision testing device has the advantages of simple structure, convenience and flexibility in use, low cost, low energy consumption, high reliability and the like. However, the self-service vision testing device provided by the prior art realizes vision detection through the character board, and the accuracy of the testing result is to be questionable.

Disclosure of Invention

The embodiment of the invention aims to provide a shared self-service vision detection station and a vision detection method thereof, which solve the problem that the existing vision detection is inconvenient for people.

In order to achieve the above purpose, the shared self-help vision detection station and the vision detection method thereof provided by the embodiment of the invention enable a myopic patient to more conveniently track own vision change and monitor refractive development by arranging the detection station in public places such as communities, schools, markets and the like.

Specifically, the technical scheme adopted by the embodiment of the invention is as follows:

A shared self-service vision inspection station, the inspection station comprising: a detection booth is vertically placed; the detection cabinet is vertically arranged at one end of the width direction of the bottom surface of the inner side of the detection booth along the height direction of the detection booth, a touch screen opening and a display screen opening are arranged on the upper part of the front surface of the detection cabinet at intervals from bottom to top along the height direction of the detection cabinet, a touch screen bracket is arranged at the position, corresponding to the touch screen opening, of the inner side of the detection cabinet, and a display screen bracket is arranged at the position, corresponding to the display screen opening; the detection cabinet is arranged at the lower part of the inner side of the detection cabinet, an integrated control board, an analysis processor arranged on the integrated control board and a data memory in communication connection with the analysis processor are arranged in the detection cabinet, and a display screen interface and a touch screen interface which are respectively in communication connection with the analysis processor on the integrated control board are arranged on the surface of the detection cabinet; the display screen is arranged on the display screen bracket of the detection cabinet, the display screen corresponds to the display screen opening of the detection cabinet, and the input end of the display screen is in communication connection with the display screen interface of the detection cabinet; the touch screen is arranged on the touch screen bracket of the detection cabinet, the touch screen corresponds to the touch screen opening of the detection cabinet, the input end of the touch screen is in communication connection with the touch screen interface of the detection cabinet, the upper part of the touch screen is a vision detection area for presenting vision detection images, and the lower part of the touch screen is a touch adjusting key for adjusting the vision detection images in the vision detection area; the mini mirror comprises a test tube, one end of the test tube corresponds to the vision detection area of the touch screen, the other end of the test tube corresponds to eyes of a detector, a plurality of optical lenses for detecting the vision of the human eyes are arranged on the inner side of the test tube at intervals along the axial direction of the test tube, and the optical lenses are matched with the test tube to form an optical test system for detecting the vision of the human eyes; the test tube comprises a test cannula and a rotary sleeve sleeved at one end of the test cannula in a rotary mode, one end, far away from the rotary sleeve, of the test cannula corresponds to the vision detection area of the touch screen, the optical lenses are respectively arranged in the test cannula and the rotary sleeve, and a rotary eyepiece is connected to a port, far away from the test cannula, of the rotary sleeve in a inscription mode; a plurality of test marks are arranged on the outer wall of one end of the rotating sleeve close to the test sleeve at equal intervals along the periphery of the test sleeve, correspondingly, an indication mark corresponding to the test mark is arranged on the outer wall of one end of the rotating sleeve close to the test sleeve, so that indication and limitation of the rotating amplitude of the rotating sleeve around the test sleeve are formed, the rotating sleeve rotates once, and the indication mark corresponds to one of the test marks once; the cover shell is arranged on the front surface of the detection cabinet positioned at the outer side of the touch screen opening, the cover shell comprises two support plates which are convexly arranged at the outer sides of the two ends of the touch screen opening in the width direction along the plane direction perpendicular to the touch screen opening, one end of one support plate, which is far away from the touch screen opening, is rotationally connected with a cover plate, the other end of the cover plate is lapped on the other support plate, the cover plate corresponds to the vision detection area of the touch screen, at least one jack is arranged on the surface of the cover plate, the mini-mirror test insertion tube extends into the inner side of the cover shell from the jack, and the test mark of the test insertion tube is positioned at the outer side of the cover plate; and one side of the front surface of the detection cabinet is provided with a fee payment unit in communication connection with the integrated control board.

Further, a wireless network card in communication connection with the analysis processor is arranged on a detection case integrated control board arranged on the inner side of the detection cabinet, and the detection case is in communication connection with a server arranged at a far end through the wireless network card to upload vision detection data stored in the data memory; a plurality of vision testing APP which are respectively arranged in the mobile phones of the testers, wherein the vision testing APP are respectively connected with the server through the mobile phones in a communication way; a two-dimensional code in communication connection with the server is arranged on one side of the front surface of the detection cabinet, and a two-dimensional code detector scans the two-dimensional code to download the vision detection APP or focuses on a WeChat applet by scanning the two-dimensional code; the data memory is a hard disk.

Further, an alignment frame is arranged on the touch screen in the vision detection area, so that the alignment of the test cannula of the test tube and the vision detection area of the touch screen is formed; the periphery of one end part of the test insertion tube, which is opposite to the touch screen, is convexly provided with an alignment plate matched with the alignment frame, the surface of the alignment plate is provided with an alignment hole, and the test insertion tube is inserted into the alignment hole and is aligned with the alignment frame through the alignment plate; the number of the mini mirrors is2, correspondingly, the number of the housing cover plate jacks is2, and the number of the alignment holes on the alignment plate is 2.

Further, a supporting table for supporting and abutting the elbow of the detector is convexly arranged on the front surface of the detection cabinet below the opening of the touch screen; the front surface of the detection cabinet below the display screen opening is recessed inwards to form a recessed part, the touch screen opening is arranged in the recessed part, the supporting table is arranged on the front surface of the detection cabinet below the recessed part, and the housing is covered on the recessed part; the fee payment unit is a two-dimension code and/or a coin collector.

Further, a height-adjustable seat is vertically arranged on one end, far away from the detection cabinet, of the bottom surface of the inner side of the detection booth.

Further, the vision detection image in the vision detection area comprises two bars arranged at intervals, the two bars are in communication connection with the touch adjusting key, and adjustment of increasing or reducing the distance between the two bars is formed until the two bars coincide.

Further, the two strips are respectively a red strip and a green strip, are arranged along the width direction of the vision detection area and are distributed at intervals along the length direction of the vision detection area, and the red strip and the green strip are overlapped to form a yellow strip; the touch adjustment keys include a "-" key representing a reduction in the spacing between two blocks and a "+" key representing an increase in the spacing between two blocks.

Further, the number of the test marks on the test cannula is 9, and the test marks correspond to the numbers 1-9 and are distributed at equal intervals along the periphery of the test cannula.

Meanwhile, the invention also provides a vision testing method of the shared self-service vision testing station, which comprises the following steps:

1) A inspector enters a detection pavilion, downloads a vision detection APP or a two-dimensional code on a scanning detection cabinet to pay attention to a WeChat applet corresponding to the vision detection APP, starts the vision detection APP or the WeChat applet, completes registration and activation, and establishes a personal test file;

2) Watching a using course played by a display screen;

3) Rotating a cover plate of the housing to be in butt joint with the support plates, aligning the alignment plates to the alignment frames, supporting the support table by elbows, and adjusting the height of the seat to a comfortable position, wherein the number of mini mirrors on the cover plate is 1;

4) Rotating the rotating sleeve to ensure that the indication mark corresponds to a number '1' in the test mark;

5) The method comprises the steps that an eye is close to and aligned with a rotary sleeve rotary eyepiece, a vision detection image displayed in a vision detection area of a touch screen is watched through the rotary eyepiece, a detector observes a red bar and a green bar, a "-" key or a "+" key in a touch adjusting key displayed on the touch screen is clicked, the distance between the red bar and the green bar is adjusted until the red bar and the green bar are completely overlapped to form a solid yellow bar, a test is completed, test data are transmitted to an analysis processor, and a next key displayed on one side of the lower part of the touch screen is clicked;

6) Rotating the rotating sleeve to enable the indication mark to correspond to the number '2' in the test mark, repeating the step 5) to adjust the distance between the red bar and the green bar until the red bar and the green bar are completely overlapped and form a solid yellow bar, and clicking a 'next step' key displayed on one side of the lower part of the touch screen;

7) Rotating the rotating sleeve to enable the indication mark to correspond to the number '3' in the test mark, repeating the step 5), sequentially rotating the rotating sleeve to enable the indication mark to correspond to the numbers '4', '5', '6', '7', '8', '9' in the test mark respectively, repeating the step 5) once for each indication mark, until the operation of adjusting and overlapping the interval between the red bar and the green bar for 9 times to form a yellow bar is completed, completing 9 times of vision test of one eye of a tester, transmitting test data of the eye to an analysis processor for analysis processing, storing analysis processing results in a data memory, and uploading the analysis processing results to a server through a wireless network card;

8) Rotating the rotating sleeve to enable the indication mark to correspond to the number '1' in the test mark again, enabling the other eye of the tester to approach and align with the rotating sleeve rotating eyepiece, repeating the step 5) until the 9 vision tests of the eye of the tester are completed, transmitting test data of the eye to an analysis processor for analysis processing, storing an analysis processing result in a data memory, and uploading the analysis processing result to a server through a wireless network card;

9) Selecting and saving or discarding vision test results of both eyes of the tester, wherein the vision test results comprise spherical readings and astigmatism ranges of both eyes of the tester;

10 The inspector inquires the personal vision detection result through the vision detection APP, obtains the test result through the two-dimensional code generated by scanning the touch screen through the mobile phone, accesses the personal vision file through binding the micro-signal, and records the history measurement data.

Further, when the number of mini mirrors on the cover plate of the housing is 2, the detection method provided by the invention comprises the following steps:

2) Watching a using course played by a display screen;

8) The other eye of the inspector is aligned with the corresponding rotary ocular lens, the steps 5) to 7) are repeated until the 9 vision tests of the eye of the inspector are completed, test data of the eye are transmitted to an analysis processor for analysis processing, and analysis processing results are stored in a data memory and uploaded to a server through a wireless network card;

The embodiment of the invention has the beneficial effects that:

The convenience is as follows: compared with the traditional vision testing method for off-line hospitals and stores, the vision testing method has the advantages that no reservation, no traffic jam and no queuing are caused, and a user can independently complete vision testing through a shared self-service vision testing station arranged in public places such as communities, schools and markets.

The accuracy is that: by using sophisticated optics (mini-mirrors) and the assistance of an intelligent operating system, the user will obtain more accurate and reliable detection data than today's online vision testing by software alone.

Safety: the results of the test will be processed and stored up to the server in the secure encryption.

Sharing: the user can record historical data through the online APP and/or the WeChat applet, compare the result, can also share test data with doctors, is convenient for vision prevention and control, and the user can learn healthy eye knowledge in an online community to purchase economical eye care products.

The people are benefited; the establishment of the low-age children refractive development files is popularized through free and convenient vision detection, and the myopia incidence risk is effectively reduced through monitoring and timely treatment.

Drawings

FIG. 1 is a schematic diagram of a shared self-service vision inspection station employing a single mini-mirror according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a single mini mirror in a shared self-help vision inspection station according to an embodiment of the present invention;

fig. 3 is a schematic display diagram of a touch screen in a shared self-service vision inspection station according to an embodiment of the present invention;

Fig. 4 is a schematic diagram of a connection and coordination structure between a shared self-service vision detection station and a server and a vision detection APP using a single mini-mirror according to an embodiment of the present invention;

Fig. 5 is a schematic diagram of a connection and matching structure of components such as an integrated control board in a detection chassis in a shared self-service vision detection station according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a shared self-service vision inspection station employing dual mini-mirrors according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a dual mini-mirror configuration in a shared self-help vision inspection station according to an embodiment of the present invention;

fig. 8 is a schematic diagram of a structure of a cover plate in a shared self-service vision inspection station using double mini mirrors according to an embodiment of the present invention.

1, Detecting a pavilion;

2. the device comprises a detection cabinet 21, a touch screen opening 22, a display screen opening 23, a supporting table 24 and a concave part;

3. a display screen;

4. Touch screen, 41, vision test image, 410, bar, 411, red bar, 412, green bar, 42, vision test area, 43, touch adjustment key, 431, "-" key, 432, "+" key;

5. Mini mirror, 51, test tube, 52, test cannula, 521, test mark, 522, alignment plate, 523, alignment hole, 53, rotating sleeve, 531, indication mark, 54, rotating eyepiece;

6. the shell, 61, the support plate, 62, the cover plate, 63 and the jack;

7. a seat;

10. The device comprises a detection case 11, an integrated control board 12, an analysis processor 13, a data memory 14, a display screen interface 15, a touch screen interface 16 and a wireless network card;

100. A server;

200. A mobile phone.

Detailed Description

Further advantages and effects of the present invention will become apparent to those skilled in the art from the disclosure of the present invention, which is described by the following specific examples.

It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the invention to the extent that it can be practiced, since modifications, changes in the proportions, or otherwise, used in the practice of the invention, are not intended to be critical to the essential characteristics of the invention, but are intended to fall within the spirit and scope of the invention. Also, the terms such as "upper", "lower", "left", "right", "middle", etc. are used herein for descriptive purposes only and are not intended to limit the scope of the invention for which the invention may be practiced or for which the relative relationships may be altered or modified without materially altering the technical context.

Example 1

Referring to fig. 1 to 5, the present invention provides a shared self-service vision inspection station, which includes: the detection booth 1 is vertically arranged; the detection cabinet 2 is vertically arranged at one end of the inner side bottom surface of the detection booth 1 in the width direction along the height direction of the detection booth 1, a touch screen opening 21 and a display screen opening 22 are arranged at intervals from bottom to top on the upper part of the front surface of the detection cabinet 2 along the height direction of the detection cabinet 2, a touch screen bracket (not shown) is arranged at the inner side of the detection cabinet 2 corresponding to the position of the touch screen opening 21, and a display screen bracket (not shown) is arranged at the position corresponding to the position of the display screen opening 22; the detection cabinet 10 is arranged at the lower part of the inner side of the detection cabinet 2, an integrated control board 11, an analysis processor 12 arranged on the integrated control board 11 and a data memory 13 in communication connection with the analysis processor 12 are arranged in the detection cabinet 10, and a display screen interface 14 and a touch screen interface 15 which are respectively in communication connection with the analysis processor 12 on the integrated control board 11 are arranged on the surface of the detection cabinet 10; the display screen 3 is arranged on the display screen support of the detection cabinet 2, the screen of the display screen 3 corresponds to the display screen opening 22 of the detection cabinet 2, and the input end of the display screen 3 is in communication connection with the display screen interface 14 of the detection cabinet 10; the touch screen 4 is arranged on the touch screen bracket of the detection cabinet 2, the screen of the touch screen 4 corresponds to the touch screen opening 21 of the detection cabinet, the input end of the touch screen 4 is in communication connection with the touch screen interface 15 of the detection cabinet 10, the upper part of the screen of the touch screen 4 is provided with a vision detection area 42 for presenting a vision detection image 41, and the lower part of the screen of the touch screen 4 is provided with a touch adjusting key 43 for adjusting the vision detection image 41 in the vision detection area 42; the at least one mini mirror 5 for detecting vision comprises a test tube 51, one end of the test tube 51 corresponds to the vision detection area 42 of the touch screen 4, the other end corresponds to eyes of a person to be detected, a plurality of optical lenses (not shown) for detecting vision of the person are arranged on the inner side of the test tube 51 at intervals along the axial direction of the test tube 51, and the optical lenses are matched with the test tube 51 to form an optical test system for detecting vision of the person; the test tube 51 comprises a test cannula 52 and a rotary sleeve 53 rotatably sleeved at one end of the test cannula 52, one end of the test cannula 52 far away from the rotary sleeve 53 corresponds to the vision detection area 42 of the touch screen 4, the plurality of optical lenses are respectively arranged in the test cannula 52 and the rotary sleeve 53, and a rotary eyepiece 54 is inscribed in a port at one end of the rotary sleeve 53 far away from the test cannula 52; a plurality of test marks 521 are arranged on the outer wall of one end of the test cannula 52, which is close to the rotating cannula 53, at equal intervals along the outer circumference of the test cannula 52, correspondingly, an indication mark 531 corresponding to the test mark 521 is arranged on the outer wall of one end of the rotating cannula 53, which is close to the test cannula 52, so as to form indication and limitation of the rotating amplitude of the rotating cannula 53 around the test cannula 52, and the rotating cannula 53 rotates once, so that the indication mark 531 corresponds to one of the test marks 521 once; the cover shell 6 is arranged on the front surface of the detection cabinet 2 positioned at the outer side of the touch screen opening 21 in a covering manner, the cover shell 6 comprises two support plates 61 which are convexly arranged at the outer sides of the two ends of the touch screen opening 21 in the width direction along the plane direction perpendicular to the touch screen opening 21, one end of one support plate 61 far away from the touch screen opening 21 is rotatably connected with a cover plate 62, the other end of the cover plate 62 is lapped on the other support plate 61, the cover plate 62 corresponds to the vision detection area 42 of the touch screen 4, at least one jack 63 is arranged on the surface of the cover plate 62, the test insertion tube 52 of the mini mirror 5 extends into the inner side of the cover shell 6 from the jack 63, and a test mark 521 of the test insertion tube 52 is positioned at the outer side of the cover plate 62; the detection cabinet 2 is provided with a fee payment unit (not shown) on the front side thereof, which is in communication connection with the integrated control board.

Further, a wireless network card 16 in communication with the analysis processor 12 is installed on the integrated control board 11 of the detection case 10 installed inside the detection cabinet 2, and the detection case 10 is in communication connection with the server 100 installed at the far end through the wireless network card 16, so as to upload vision detection data stored in the data storage 13; a plurality of vision test APPs (not shown) respectively installed in the inspector's mobile phones 200, the plurality of vision test APPs being respectively connected to the server 100 through the mobile phones 200 in a communication manner; a two-dimensional code (not shown) in communication with the server 100 is provided on one side of the front surface of the detection cabinet 2, and a two-dimensional code detector scans the two-dimensional code to download the vision detection APP or scans a two-dimensional code to pay attention to a WeChat applet; the data storage 13 is a hard disk.

Further, the fee payment unit is a two-dimension code and/or a coin collector.

Further, the vision testing image 41 located in the vision testing area 42 includes two bars 410 disposed at intervals, and the two bars 410 are communicatively connected to the touch adjusting key 43, so as to form an adjustment of increasing or decreasing the interval between the two bars 410 until the two bars 410 overlap.

Further, the two strips 410 are respectively a red strip 411 and a green strip 412, which are arranged along the width direction of the vision detection area 42 and are arranged at intervals along the length direction of the vision detection area 42, and the red strip 411 and the green strip 412 are overlapped to form a yellow strip (not shown); the touch adjustment key 43 includes a "-" sign key 431 representing a reduction in the space between two blocks and a "+" sign key 432 representing an increase in the space between two blocks.

Further, the number of the test marks 521 on the test cannula 52 is 9, corresponding to the numbers 1 to 9, and the test marks 521 are equidistantly arranged along the outer circumference of the test cannula 521.

When the number of mini mirrors 5 on the cover plate 62 of the housing 6 is 1, the invention provides a vision testing method of a shared self-service vision testing station, which comprises the following steps:

1) The inspector enters into the inspection booth 1, downloads a vision inspection APP or a two-dimensional code on a scanning inspection cabinet to pay attention to a WeChat applet corresponding to the vision inspection APP, starts the vision inspection APP or the WeChat applet, completes registration and activation, and establishes a personal test file;

2) Viewing the use course played by the display screen 3;

3) Rotating the cover plate 62 of the housing 6 to be in butt joint with the support plate 61, aligning the alignment plates 522 with the alignment frames 44 by 1 mini-mirrors 5 on the cover plate 62, supporting the support table 23 by elbows, and adjusting the height of the seat 7 to a comfortable position;

4) Rotating the rotating sleeve 53 ensures that the indication identifier 531 corresponds to the number "1" in the test identifier 521;

5) Rotating the eyepiece 54 with one eye close to and aligned with the rotating sleeve 53, viewing the vision inspection image 41 displayed in the vision inspection area 42 of the touch screen 4 through the rotating eyepiece 54, wherein a person detecting the vision inspection image can observe a red bar 411 and a green bar 412, clicking a "-" number key 431 or a "+" number key 432 in a touch adjustment key 43 displayed on the touch screen 4, adjusting the interval between the red bar 411 and the green bar 412 until the red bar 411 and the green bar 412 are completely overlapped and form a solid yellow bar, completing a test, transmitting test data to the analysis processor 12, and clicking a "next" key (not shown) displayed on one side of the lower portion of the touch screen 4;

6) Rotating the rotating sleeve 53 to enable the indication mark 531 to correspond to the number "2" in the test mark 521, repeating the step 5) to adjust the interval between the red bar 411 and the green bar 412 until the red bar 411 and the green bar 412 are completely overlapped and form a solid yellow bar, and clicking a "next" button displayed on one side of the lower portion of the touch screen 4;

7) Rotating the rotating sleeve 53 to enable the indication mark 531 to correspond to the number "3" in the test mark 521, repeating the step 5), then sequentially rotating the rotating sleeve 53 to enable the indication mark 531 to correspond to the numbers "4", "5", "6", "7", "8", "9" in the test mark 521 respectively, repeating the step 5 once for each indication mark, until the operation of adjusting and overlapping the interval between the red bar 411 and the green bar 412 for 9 times and forming a yellow bar is completed, completing 9 vision tests on one eye of a tester, transmitting test data of the eye to the analysis processor 12 for analysis processing, storing analysis processing results in the data memory 13, and uploading the analysis processing results to the server 100 through the wireless network card 16;

8) Rotating the rotating sleeve 53 to enable the indication mark 531 to correspond to the number "1" in the test mark 521 again, enabling the other eye of the tester to approach and align with the rotating sleeve 53, rotating the ocular lens 54, repeating the step 5) until 9 vision tests of the eye of the tester are completed, transmitting test data of the eye to the analysis processor 12 for analysis processing, storing analysis processing results in the data storage 13, and uploading the analysis processing results to the server 100 through the wireless network card 16;

10 The inspector inquires the personal vision detection result through the vision detection APP, obtains the test result through a two-dimensional code (not shown) generated by scanning the screen of the touch screen 4 through the mobile phone, accesses the personal vision file through binding micro signals, and records history measurement data.

Further, the vision test results include spherical readings and astigmatism ranges of both eyes of the tester.

The appearance design of the detection pavilion 1 is a square and regular small pavilion, the appearance is fashionable, the space is spacious, high-quality materials are selected, the manufacturing process is exquisite, the detection pavilion 1 can be easily attractive bright spots from the appearance, the detection pavilion 1 can be respectively arranged in communities, schools, shopping malls and other public places, vision detection can be independently completed, and compared with the traditional vision testing of an off-line hospital and a store, no reservation, no traffic jam and no queuing are caused.

The whole detection station is fully automatically operated, works for 24 hours, does not need to be attended by people, and can automatically complete the strength test by a user and pay by cash, payment treasures, weChat and Unionpay.

The light in the detection booth 1 is soft, the light layout is reasonable, and the special light measurement and adjustment are performed;

The optical test system for detecting the eyesight of the human eye, which is formed by matching the plurality of optical lenses in the mini-mirror 5, is adopted by professional eyesight detection equipment, and the optical test system of Miniscope product manufactured by eyeque company in the United states is adopted to determine the refraction error through pixel driving test, so that the myopia degree is determined.

The mini mirror 5 is matched with the red bar 411 and the green bar 412 of the vision detection image 41 and the matching design of touching the "-" number key 431 or the "+" number key 432 in the adjusting key 43, the myopia degree of eyes of a detector is judged through the process of overlapping the red bar 411 and the green bar 412 to form a yellow bar, the indication mark 531 of the rotating sleeve 53 corresponds to 9 times of the test mark 521 of the test insertion tube 52, 9 times of tests are completed, the accuracy of test data is ensured, and the professional optometry level is achieved.

The bill receiving device in the fee payment unit adopts an international brand bill identifying device, so that the identifying rate is high, and counterfeit bills are rejected; 1000 paper money can be stored in the cashbox, and the business requirement of three days can be met; the cashbox is provided with an independent safety lock, so that the safety of money is ensured.

Example 2

The front of the detection cabinet 2 below the touch screen opening 21 is convexly provided with a supporting table 23 for supporting and abutting against the elbow of a detector; the front surface of the detection cabinet 2 below the display screen opening 22 is recessed inwards to form a recessed part 24, the touch screen opening 21 is arranged in the recessed part 24, the supporting table 23 is arranged on the front surface of the detection cabinet 2 below the recessed part 24, and the housing 6 is covered on the recessed part 24;

The height-adjustable seat 7 is vertically arranged at one end of the inner bottom surface of the detection booth 1 far away from the detection cabinet 2.

The supporting table 23 is matched with the adjustable design of the seat 7, so that a person to be detected can conveniently adjust the comfortable sitting posture, and vision detection is facilitated.

The procedure is as in example 1.

Example 3

An alignment frame 44 is arranged on the screen of the touch screen 4 in the vision detection area 42, and a test cannula 52 of the test tube 51 is aligned with the vision detection area 42 of the touch screen 4; an alignment plate 522 matched with the alignment frame 44 is convexly arranged on the periphery of one end part of the test insertion tube 52 opposite to the touch screen 4, an alignment hole 523 is formed in the surface of the alignment plate 522, and the test insertion tube 52 is inserted into the alignment hole and aligned with the alignment frame 44 through the alignment plate 522;

the matching design of the alignment frame 44 and the alignment plate 522 can conveniently and quickly align the mini-mirror 5 with the vision testing area 42 of the touch screen 4, so as to ensure the accuracy of the vision testing result.

The procedure is as in example 1.

Example 4

Referring to fig. 3 to 8, the number of mini mirrors 5 is 2, correspondingly, the number of jacks 63 of the cover plate 62 of the housing 6 is 2, and the number of alignment holes 523 of the alignment plate 522 is 2.

When the number of mini mirrors 5 on the cover plate 62 of the housing 6 is 2, the vision testing method of the shared self-service vision testing station provided by the invention comprises the following steps:

2) Viewing the use course played by the display screen 3;

8) The other eye of the inspector is aligned to the corresponding rotary eyepiece 54, the steps 5) to 7) are repeated until the 9 vision tests of the eye of the inspector are completed, the test data of the eye are transmitted to an analysis processor for analysis processing 12, and the analysis processing result is stored in a data memory 13 and is uploaded to a server 100 through a wireless network card 16;

10 The inspector inquires the personal vision testing result through the vision testing APP, the inspector obtains the testing result through the two-dimensional code generated by scanning the screen of the touch screen 4 by the mobile phone, accesses the personal vision file through binding micro signals, records the history measurement data, and the vision testing result comprises the spherical reading and the astigmatism range of the eyes of the inspector.

Wherein one eye of the tester cannot view the vision test image 41 displayed in the vision test area 42 of the touch screen 4 through its corresponding mini-mirror 5 while the other eye performs the vision test through the corresponding mini-mirror 5.

The design of the double mini mirrors 5 is convenient for a tester to perform vision detection, so that the step of returning to 1 after the mini mirrors 5 are tested once is omitted, and the accuracy of binocular testing is ensured.

The procedure is as in example 1.

While the invention has been described in detail in terms of general description and specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made or some functional modules can be deleted based on the invention. Accordingly, such modifications or improvements or omissions may be made without departing from the spirit of the inventions.

Claims

1. A shared self-service vision inspection station, the inspection station comprising:

the detection pavilion (1) is vertically placed;

The detection cabinet (2) is vertically arranged at one end of the width direction of the bottom surface of the inner side of the detection booth (1) along the height direction of the detection booth (1), a touch screen opening (21) and a display screen opening (22) are arranged at intervals from bottom to top on the upper part of the front of the detection cabinet (2) along the height direction of the detection cabinet (2), a touch screen bracket is arranged at the position, corresponding to the touch screen opening (21), of the inner side of the detection cabinet (2), and a display screen bracket is arranged at the position, corresponding to the display screen opening (22);

the detection cabinet (10) is arranged at the lower part of the inner side of the detection cabinet (2), an integrated control board (11), an analysis processor (12) arranged on the integrated control board (11) and a data memory (13) in communication connection with the analysis processor (12) are arranged in the detection cabinet (10), and a display screen interface (14) and a touch screen interface (15) which are respectively in communication connection with the analysis processor (12) on the integrated control board (11) are arranged on the surface of the detection cabinet (10);

The display screen (3) is erected on the display screen support of the detection cabinet (2), the screen of the display screen (3) corresponds to the display screen opening (22) of the detection cabinet (2), and the input end of the display screen (3) is in communication connection with the display screen interface (14) of the detection cabinet (10);

The touch screen (4) is arranged on the touch screen support of the detection cabinet (2), the screen of the touch screen (4) corresponds to the touch screen opening (21) of the detection cabinet, the input end of the touch screen (4) is in communication connection with the touch screen interface (15) of the detection cabinet (10), the upper part of the screen of the touch screen (4) is a vision detection area (42) for presenting a vision detection image (41), and the lower part of the screen of the touch screen (4) is a touch adjusting key (43) for adjusting the vision detection image (41) in the vision detection area (42);

The mini mirror (5) for detecting eyesight comprises a test tube (51), one end of the test tube (51) corresponds to the eyesight detection area (42) of the touch screen (4), the other end of the test tube corresponds to eyes of a detector, a plurality of optical lenses for detecting eyesight of a person are axially arranged at intervals along the test tube (51) inside the test tube (51), and the optical lenses are matched with the test tube (51) to form an optical test system for detecting eyesight of the person;

The test tube (51) comprises a test cannula (52) and a rotary sleeve (53) rotatably sleeved at one end of the test cannula (52), one end of the test cannula (52) far away from the rotary sleeve (53) corresponds to the vision detection area (42) of the touch screen (4), the optical lenses are respectively arranged in the test cannula (52) and the rotary sleeve (53), and a rotary eyepiece (54) is connected in a port at one end of the rotary sleeve (53) far away from the test cannula (52);

A plurality of test marks (521) are arranged on the outer wall of one end of the test cannula (52) close to the rotating cannula (53) at equal intervals along the peripheral direction of the test cannula (52), correspondingly, an indication mark (531) corresponding to the test mark (521) is arranged on the outer wall of one end of the rotating cannula (53) close to the test cannula (52), indication and limitation of the rotating amplitude of the rotating cannula (53) around the test cannula (52) are formed, the rotating cannula (53) rotates once, and the indication mark (531) corresponds to one of the test marks (521) once;

The detection cabinet comprises a housing (6) and is characterized in that the housing (6) is arranged on the front side of a detection cabinet (2) positioned on the outer side of a touch screen opening (21), the housing (6) comprises two support plates (61) which are convexly arranged on the outer sides of two ends of the touch screen opening (21) in the width direction along the plane direction of the touch screen opening (21), one end of one support plate (61) far away from the touch screen opening (21) is rotatably connected with a cover plate (62), the other end of the cover plate (62) is lapped on the other support plate (61), the cover plate (62) corresponds to a vision detection area (42) of the touch screen (4), at least one jack (63) is formed in the surface of the cover plate (62), a mini-mirror (5) is used for testing a cannula (52) to extend into the inner side of the housing (6) from the jack (63), and a test mark (521) of the test cannula (52) is positioned on the outer side of the cover plate (62). One side of the front surface of the detection cabinet (2) is provided with a fee payment unit which is in communication connection with the integrated control board;

A wireless network card (16) which is in communication connection with the analysis processor (12) is arranged on a detection cabinet (10) integrated control board (11) arranged on the inner side of the detection cabinet (2), and the detection cabinet (10) is in communication connection with a server (100) arranged at a far end through the wireless network card (16) to upload vision detection data stored in the data storage (13);

A plurality of vision detection APP which are respectively arranged in the mobile phone (200) of the inspector and are respectively in communication connection with the server (100) through the mobile phone (200);

A two-dimensional code in communication connection with the server (100) is arranged on one side of the front surface of the detection cabinet (2), and a two-dimensional code detector scans the two-dimensional code to download the vision detection APP or scans a two-dimensional code to pay attention to a WeChat applet;

The data storage (13) is a hard disk;

an alignment frame (44) is arranged on the screen of the touch screen (4) positioned in the vision detection area (42), and a test cannula (52) of the test tube (51) is aligned with the vision detection area (42) of the touch screen (4);

An alignment plate (522) matched with the alignment frame (44) is convexly arranged on the periphery of one end part of the test insertion tube (52) opposite to the touch screen (4), an alignment hole (523) is formed in the surface of the alignment plate (522), and the test insertion tube (52) is inserted into the alignment hole (523) and is aligned with the alignment frame (44) through the alignment plate (522);

the number of the mini mirrors (5) is 2, correspondingly, the number of the jacks (63) of the cover plate (62) of the housing (6) is 2, and the number of the alignment holes (523) on the alignment plate (522) is 2;

the front surface of the detection cabinet (2) positioned below the touch screen opening (21) is convexly provided with a supporting table (23) for supporting and abutting against the elbow of a detector;

The front of the detection cabinet (2) below the display screen opening (22) is recessed inwards to form a recessed part (24), the touch screen opening (21) is formed in the recessed part (24), the supporting table (23) is arranged on the front of the detection cabinet (2) below the recessed part (24), and the housing (6) is covered on the recessed part (24);

the fee payment unit is a two-dimension code and/or a coin collector.

2. The shared self-help vision inspection station according to claim 1, characterized in that a height-adjustable seat (7) is vertically arranged at one end of the inner bottom surface of the inspection booth (1) far away from the inspection cabinet (2).

3. The shared self-service vision testing station according to claim 1, wherein the vision testing image (41) located within the vision testing area (42) comprises two spaced apart bars (410), the two bars (410) being in communication with the touch adjustment key (43) to form an adjustment of increasing or decreasing spacing between the two bars (410) until the two bars (410) coincide.

4. A shared self-help vision testing station according to claim 3, wherein the two strips (410) are respectively a red strip (411) and a green strip (412), which are arranged along the width direction of the vision testing area (42) and are arranged at intervals along the length direction of the vision testing area (42), and the red strip (411) and the green strip (412) are overlapped to form a yellow strip;

The touch adjustment keys (43) include a "-" key (431) representing a reduction in the space between two blocks and a "+" key (432) representing an increase in the space between two blocks.

5. The shared self-help vision inspection station according to claim 1, wherein the number of the test marks (521) on the test cannula (52) is 9, and the test marks correspond to the numbers 1-9 and are equidistantly arranged along the periphery of the test cannula (52).

6. A vision testing method for a shared self-service vision testing station as defined in any one of claims 1-5, said testing method comprising the steps of:

1) A inspector enters a detection booth (1), downloads a vision detection APP or a two-dimensional code on a scanning detection cabinet to pay attention to a WeChat applet corresponding to the vision detection APP, starts the vision detection APP or the WeChat applet, completes registration and activation, and establishes a personal test file;

2) Watching a use course played by a display screen (3);

3) The cover plate (62) of the rotary housing (6) is in butt joint with the support plates (61), the number of mini mirrors (5) on the cover plate (62) is 1, the alignment plates (522) are aligned with the alignment frames (44), the support table (23) is supported by the elbows, and the height of the seat (7) is adjusted to a comfortable position;

4) -rotating the rotating sleeve (53), ensuring that the indication mark (531) corresponds to the number "1" in the test mark (521);

5) Rotating an eyepiece (54) by approaching and aligning one eye to the rotating sleeve (53), watching a vision detection image (41) displayed in a vision detection area (42) of a touch screen (4) through the rotating eyepiece (54), observing a red bar (411) and a green bar (412) by a detector, clicking a "-" number key (431) or a "+" number key (432) in a touch adjusting key (43) displayed on the touch screen (4), adjusting the interval between the red bar (411) and the green bar (412) until the red bar (411) and the green bar (412) are completely overlapped and form a solid yellow bar, completing one test, transmitting test data to an analysis processor (12), and clicking a "next" key displayed on one side of the lower part of the touch screen (4);

6) Rotating the rotating sleeve (53) to enable the indication mark (531) to correspond to the number '2' in the test mark (521), repeating the step 5) to adjust the interval between the red bar block (411) and the green bar block (412) until the red bar block (411) and the green bar block (412) are completely overlapped and form a solid yellow bar block, and clicking a 'next step' key displayed on one side of the lower part of the touch screen (4);

7) Rotating the rotating sleeve (53) to enable the indication mark (531) to correspond to the number '3' in the test mark (521), repeating the step 5), then sequentially rotating the rotating sleeve (53) to enable the indication mark (531) to correspond to the numbers '4', '5', '6', '7', '8', '9' in the test mark (521) respectively, repeating the step 5) once for each indication mark, until the operation of adjusting and overlapping the interval between the red bar (411) and the green bar (412) for 9 times and forming the yellow bar is completed, completing the 9 times of vision test of one eye of a tester, transmitting the test data of the eye to an analysis processor (12), analyzing and processing results to be stored in a data memory (13), and uploading the analysis and processing results to a server (100) through a wireless network card (16);

8) Rotating the rotating sleeve (53) to enable the indication mark (531) to correspond to the number '1' in the test mark (521), enabling the other eye of the tester to approach and align with the rotating sleeve (53) to rotate the ocular lens (54), repeating the step 5) until the 9 vision tests of the eye of the tester are completed, transmitting test data of the eye to the analysis processor (12) for analysis processing, storing analysis processing results in the data memory (13), and uploading the analysis processing results to the server (100) through the wireless network card (16);

10 The inspector inquires the personal vision detection result through the vision detection APP, obtains the test result through the two-dimensional code generated by scanning the screen of the touch screen (4) through the mobile phone, accesses the personal vision file through binding micro signals, and records the history measurement data.