CN104146684A - Blinder type dizziness detector - Google Patents
Blinder type dizziness detector Download PDFInfo
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- CN104146684A CN104146684A CN201410287837.9A CN201410287837A CN104146684A CN 104146684 A CN104146684 A CN 104146684A CN 201410287837 A CN201410287837 A CN 201410287837A CN 104146684 A CN104146684 A CN 104146684A
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Abstract
The invention provides a blinder type dizziness detector which comprises a blinder with an elastic fastening strap and a dizziness detection device arranged on the blinder. The dizziness detection device comprises four parts which are an infrared source module plate, a control main board, a camera module plate and a screen module plate sequentially arranged from inside to outside. The four parts are connected integrally through pluggable keys and fixed on the blinder. In detection, the head of a patient is placed on the right position, infrared light generated by an infrared source illuminates the surfaces of eyeballs, a camera module obtains a nystagmus video image and sends obtained video image signals to the control main board to be processed, and key video frame pupil center marks and a nystagmus curve graph are drawn out and displayed on a screen to be provided for doctors or professional staff as reference for disease diagnosis. The blinder type dizziness detector is small in size, low in weight, compact in structure, high in integration level, and low in cost, achieves modularization of a collecting device, and has good portability.
Description
Technical field
The invention belongs to technical field of medical instruments, relate to a kind of dizzy checkout equipment, relate in particular to the dizzy detector of a kind of eyeshield formula, be mainly used in the detection analysis of the dizzy symptom of nystagmus.
Background technology
Dizzyly be considered to for a long time a kind of very difficult definition, cannot measure, diagnose the syndrome that is full of challenge, treatment and is full of problem.Subjective sensation when its outbreak can be summarized as Four types.(1) dizzy: a kind of rotation sense of self and external environment; (2) faint: the sensation before a kind of fainting or while being about to faint; (3) unbalance: a kind of sensation that cannot keep balance; (4) dizzy or non-specific dizziness: a kind of more ambiguous, dizzy or dizzy sensation of being difficult to describe.This Four types affects clinical practice so far, but constantly suffers in recent years the query of clinical practice and research.17 hospitals by under 5 famous medical college of the U.S.'s state-run commune hospital fund support have participated in research, by following the tracks of 300 many cases patients with vertigo, find that patient over half can not affirm its symptom or describe accurately.This research is also respectively from the angle of more than 400 emergency treatment doctors and 300 many cases Emergency Patients, further studied the effect of 4 kinds of classical subjective sensation types in diagnosis.Found that, the error of overemphasizing or rely on the type of subjective sensation to diagnose is larger, the probability of mistaken diagnosis is higher, too relies on the character of subjective sensation to differentiate that source of disease uncertainty is larger, in conjunction with other features of paresthesia epilepsy and bedside inspection carrys out difference maincenter and periphery may be more accurate.HINTS bedside method of diagnosis is exactly wherein a kind of.HINTS is being collectively referred to as of a pulse testing, nystagmus, eye three bedside inspections of deflection.The sensitivity of HINTS bedside inspection technique and accuracy, all higher than early mri, especially contribute to the false vestibular neuronitis of differentiating that in acute vertiginous syndrome vestibular neuronitis and apoplexy cause.
No. 200510041843.7 patents of Chinese patent disclose a kind of Electronystagmogram, ear ending blood flow signal synchronous analyzer for detecting, be used for dizzy disease to diagnose, its general information is as follows: cause nystagmus and the dizzy autonomic nervous dysfunction of causing according to dizzy, thereby the peripheral vessel spasm that causes face causes face's tip blood supply insufficiency, the clinical symptoms of ear ending blood supply insufficiency, launch directive eyeball surface by low-light, form hot spot-form the hot spot of beating when nystagmus hot spot at eyeball surface, the hot spot of beating adopts video camera (CCD) to obtain nystagmic image, and by grating device by nystagmic kinematic axis to differentiating nystagmus horizontal vibration amplitude or vertical amplitude, or unordered trembling, grating device is horizontal grate, in the time of nystagmus horizontal vibration amplitude, hot spot is beated and is broadcast figure for horizontal continuity, in the time of nystagmus vertical amplitude because grating device is horizontal grate, the hot spot seriality of beating is cut into breakpoint ripple figure by horizontal grate, gather by ccd signal, computer processing calculates frequency, amplitude, identification nystagmus is vertical amplitude or horizontal vibration amplitude.The problem that this detecting instrument exists has: (1) detect dizzy according to one of be only vertical amplitude or horizontal vibration amplitude nystagmus, not intuitively Electronystagmogram or accurately nystagmus data as diagnosis basis; (2) when the position of grating is incorrect, can be to nystagmic kinematic axis to causing a deviation; (3) in the time that low-light transmitting is inhomogeneous or angle is incorrect, also may be to nystagmic kinematic axis to causing a deviation.(4) because the formation of hot spot is the hot spot that eyeball surface forms, not the light directly being sent by pupil, cause diagnostic result may occur error.(5) relate to computer and host computer, integrated level is low, and cost is relatively high; In addition, it is bulky, detects and makes troubles to Diagnosis of Vertigo.
Summary of the invention
The object of the invention is for problems of the prior art, provide that a kind of integrated level is high, efficiency is high, the dizzy detector of eyeshield formula that precision is high.
The dizzy detector of eyeshield formula of the present invention, comprises with the eyeshield of elastic fastening belt and is arranged on the dizzy checkout gear on eyeshield; Described dizzy checkout gear comprises the infrared light supply module plate setting gradually from inside to outside by eyeshield, controls mainboard, photographic head module plate, and four parts of screen module plate, and four parts are linked into an integrated entity and are fixed on eyeshield by plug key.
Described infrared light supply module plate comprises light source module base board, be embedded in the half-reflecting half mirror in the circular hole of light source die group substrate middle part, fixedly be located at half-reflecting half mirror infrared light supply and resistance around, infrared light supply and resistance are connected with control mainboard with pad by wire.For infrared light is radiated on eyeball uniformly, be conducive to the generation of pupil locator data, resistance and infrared light supply are alternately evenly arranged in the periphery of half-reflecting half mirror.On infrared light supply module group substrates, be also provided with flash lamp, for take patient head image in the time that diagnosis starts, identify as diagnosing patient.
Described photographic head module plate comprises photographic head module group substrates and is arranged on the camera on photographic head module group substrates, and described photographic head is connected with control mainboard by the transmission pin of camera signals interface circuit; Control on mainboard and be provided with the circular hole corresponding with half-reflecting half mirror, camera is corresponding by this circular hole with half-reflecting half mirror, and the center of camera and half-reflecting half mirror is on same axis.
The operated key that described screen module plate comprises display screen and is connected with operating system, screen module plate is connected with control mainboard by transmission line.
Described control mainboard comprises microprocessor, drive system, and operating system, position sensor and external memory storage, and microprocessor is by transmission line and drive system, Android operating system, position sensor, external memory storage link; Wherein drive system comprises webcam driver system, screen drive system, and position sensor drive system, external memory storage read-write drive; State or the data of drive system to corresponding hardware are read, and write operation, makes each component working; Android operating system comprises with the specifically labelled eyeball image of pupil center and presenting, nystagmus curve plotting in real time, in the input and output of user operation commands and testing process with the various operations of user interactions; Position sensor obtains the three-dimensional x in detector place, y, z coordinate, and transfer data to microprocessor, microprocessor converts three-dimensional horizontal and vertical angle to these date processing, and draws measured's head 3D model, then is reflected on the screen that screen module does through data wire; The signal of video signal that microprocessor obtains photographic head module plate is processed, and obtains with the specifically labelled eyeball image of pupil center and nystagmus curve chart, and result is reflected to screen; Data in external memory stores testing process.Control mainboard and also comprise voice system, be used for sending prompting or warning voice, for auxiliary treatment.
When detection, eyeshield formula detector of the present invention is fixed on to patient's head, makes patient's eye through just to the checkout gear on eyeshield.Infrared aperture on infrared light supply module plate is launched uniform infrared light supply and is radiated on eyes, after reflection, gathered by photographic head module plate through half-reflecting half mirror, and the eyeball signal of video signal of the nystagmus state that is accompanied by that collects through control the corresponding parts processing of mainboard, result (comprising with the specifically labelled eyeball image of pupil center and the curve chart of nystagmus analytical data in real time) is drawn by Android system respectively and is fed back to the both sides of screen.Meanwhile, the data signal of Android system call position sensor system, represents now patient's head orientation with number of people 3D head portrait, and is presented in the middle of screen, these information detect diagnosis reference for doctor or stakeholder.After detecting diagnosis, the data (comprising nystagmus image and nystagmus curvilinear coordinate data etc.) that detect diagnosis all can store external memory storage into, for diagnosis reference and statistics treatment.
The relative prior art of the present invention has following characteristics and effect:
1, the present invention utilizes the physical property of half-reflecting half mirror, prolongation iris virtual representation in half-reflecting half mirror arrives the distance of photographic head, to meet the requirement of photographic head focal length, realize that photographic head can automatically be focused in the time of shooting at close range, the accurate function of focusing, rapid focus, ensured the quality of image collection;
2, to adopt pupil center's location algorithm to have efficiency high in the present invention, precision high, can carry out fast each two field picture, accurately pupil center location, nystagmus analytical data is accurate in real time, and (x axle is as the time taking coordinate curve, y axle comprises the x coordinate of pupil with respect to the video image lower left corner, y coordinate and pupil rotating curve) form embody, gross data is more accurate, detect diagnosis basis more reliable;
3, the present invention adopts the wearing mode of eyeshield, size, and weight meets human body head geometry, and comfort level is high; With elasticity broadband, the diagnostic equipment is fixed on to people's head, in the time that position attitude changes, the diagnostic equipment there will not be obviously trembles;
4, the present invention, in diagnostic procedure, reminds operation or operation exception to report to the police by voice system in time, is beneficial to the generation of pupil locator data, guarantees to detect the accuracy of diagnosis;
5, the present invention utilizes external memory storage to preserve the data of patient diagnosis, and the data that are saved can reproduce patient's diagnostic procedure, facilitates medical diagnosis on disease and illness analysis and the state of an illness to improve and analyzes, and is conducive to statistics treatment.
6, the present invention is by infrared light supply module plate, control mainboard, photographic head module plate, four parts of screen module plate are linked into an integrated entity and are fixed on eyeshield by plug key, volume is little, lightweight, compact conformation, and integrated level is high, and cost is low, not only realize the modularity of harvester, and made it have good portability.
Brief description of the drawings
Fig. 1 is structural representation of the present invention.
Fig. 2 is the structural representation of infrared light supply module plate of the present invention.
Fig. 3 is using state figure of the present invention.
Detailed description of the invention
Below in conjunction with accompanying drawing, structure and the operation principle of the dizzy detector of eyeshield formula of the present invention are described further.
With reference to Fig. 1, the dizzy detector of a kind of eyeshield formula, comprises with the eyeshield 1 of elastic fastening belt and is arranged on the dizzy checkout gear on eyeshield.Wherein dizzy checkout gear adopts the design of module, according to apart from eyes from the close-by examples to those far off (by eyeshield from inside to outside) be followed successively by infrared light supply module plate 5, control mainboard 4, photographic head module plate 3, screen module plate 2, on four part-structures, connect by plug key, in function, connect by various transmission lines and circuit.Wherein photographic head module and infrared light supply module composition nystagmus video image acquisition device, photographic head module and infrared light supply module are placed by controlling perforate on a mainboard formula of being separated by so that in minimum space high definition imaging closely.Screen is positioned at the outermost layer of the diagnostic equipment, for man-machine interaction.Whole device size, weight meets human body head geometry, has good comfort level and hommization and experiences.
Infrared light supply module 5 plates comprise light source module base board 5-4, be embedded in the half-reflecting half mirror 5-1 in the circular hole of light source die group substrate middle part, fixedly be located at half-reflecting half mirror 5-1 infrared light supply 5-2 and resistance 5-3 around, infrared light supply 5-2 and resistance 5-3 are connected (with reference to Fig. 2) with pad 5-5 with control mainboard 4 by wire.For infrared light is radiated on eyeball uniformly, be conducive to the generation of pupil locator data, infrared light supply 5-2 and resistance 5-3 are alternately evenly arranged in the periphery of half-reflecting half mirror 5-1.On infrared light supply module group substrates 5-4, be also provided with flash lamp 5-6, while eyeball being carried out to image acquisition under the darker condition of light, flash lamp can play light filling effect.
Photographic head module plate 3 comprises photographic head module group substrates and is arranged on the camera on photographic head module group substrates, the transmission pin of this photographic head by camera signals interface circuit with control mainboard 4 and be connected; On control mainboard 4, be provided with the circular hole corresponding with half-reflecting half mirror 5-1, camera is corresponding by this circular hole with half-reflecting half mirror, and the center of camera and half-reflecting half mirror on same axis (with reference to Fig. 1).
Screen module plate 2 is connected with control mainboard 4 by transmission line.The operated key (comprising touching type operation key and pressing type operation key) that screen module plate comprises display screen and is connected with operating system.The effect of operated key is that user carries out button operation to dizzy emergency treatment checkout equipment.By operated key, corresponding operation signal can pass through the microprocessor MPU processing of mainboard through transmission line, and consequential signal after treatment is fed back to screen through transmission line, and screen can present user's operation.On screen, be also designed with shift knob, for the whole apparatus system of opening and closing.
Control mainboard 4 and comprise microprocessor, drive system, operating system, position sensor and external memory storage, and microprocessor is by transmission line and drive system, and operating system, position sensor, external memory storage connect; Wherein drive system comprises webcam driver system, screen drive system, and position sensor drive system, external memory storage read-write drive; State or the data of drive system to corresponding hardware are carried out read-write operation, make each component working; Operating system comprises with the specifically labelled eyeball image of pupil center and presenting, nystagmus curve plotting in real time, in the input and output of user operation commands and testing process with the various operations of user interactions; Position sensor obtains the three-dimensional x in detector place, y, z coordinate, and transfer data to microprocessor, microprocessor converts three-dimensional horizontal and vertical angle to these date processing, and draws measured's head 3D model, then is reflected on the screen that screen module does through data wire; The signal of video signal that microprocessor obtains photographic head module plate is processed, result after treatment comprises two parts: a part is by pupil center's telltale mark on original eyeball imaging belt, another part is taking the eyeball image lower left corner as coordinate, obtain the coordinate of pupil center, and show in the mode of curve.This two parts result, through transmission line, is reflected on screen.
Under different position attitudes, there will be the not symptom of autonomous nystagmus according to the head of dizzy Disease, the present invention is using voice device prompting, allow patient's head in correct orientation, and the Infrared irradiation producing by infrared light supply is at eyeball surface, photographic head module obtains nystagmus video image simultaneously, and by the video signal obtaining through controlling mainboard processing, draw key video sequence frame pupil center's labelling and nystagmus curve chart, and presented by screen, supply doctor or professional person as medical diagnosis on disease foundation.
Claims (6)
1. the dizzy detector of eyeshield formula, comprise the eyeshield (1) with elastic fastening belt and be arranged on the dizzy checkout gear on eyeshield (1), it is characterized in that: described dizzy checkout gear comprises the infrared light supply module plate (5) setting gradually from inside to outside by eyeshield, control mainboard (4), photographic head module plate (3), (2) four parts of screen module plate, and four parts are linked into an integrated entity and are fixed on eyeshield by plug key;
Described infrared light supply module plate comprises light source module base board (5-4), be embedded in the half-reflecting half mirror (5-1) in the circular hole of light source die group substrate middle part, fixedly be located at half-reflecting half mirror (5-1) infrared light supply (5-2) and resistance (5-3) around, infrared light supply (5-2) and resistance (5-3) are connected with control mainboard (4) with pad (5-5) by wire;
Described photographic head module plate (3) comprises photographic head module group substrates and is arranged on the camera on photographic head module group substrates, and described photographic head is connected with control mainboard (4) by the transmission pin of camera signals interface circuit;
Described screen module plate (2) is connected with control mainboard (4) by transmission line;
On described control mainboard (4), be provided with the circular hole corresponding with half-reflecting half mirror (5-1), camera is corresponding by this circular hole with half-reflecting half mirror, and the center of this camera and half-reflecting half mirror is on same axis;
Described control mainboard comprises microprocessor, drive system, and operating system, position sensor and external memory storage, and microprocessor is by transmission line and drive system, and operating system, position sensor, external memory storage connect; Wherein drive system comprises webcam driver system, screen drive system, and position sensor drive system, external memory storage read-write drive; State or the data of drive system to corresponding hardware are carried out read-write operation, make each component working; Operating system comprises with the specifically labelled eyeball image of pupil center and presenting, nystagmus curve plotting in real time, in the input and output of user operation commands and testing process with the various operations of user interactions; Position sensor obtains the three-dimensional x in detector place, y, z coordinate, and transfer data to microprocessor, microprocessor converts three-dimensional horizontal and vertical angle to these date processing, and draws measured's head 3D model, then is reflected on screen through data wire; The signal of video signal that microprocessor obtains photographic head module plate is processed, and obtains with the specifically labelled eyeball image of pupil center and nystagmus curve chart, and result is reflected to screen; Data in external memory stores testing process.
2. the dizzy detector of a kind of eyeshield formula as claimed in claim 1, is characterized in that: on described infrared light supply module plate, resistance and infrared light supply are alternately evenly arranged in the periphery of half-reflecting half mirror.
3. the dizzy detector of a kind of eyeshield formula as claimed in claim 1, is characterized in that: on described infrared light supply module plate, be also provided with flash lamp (5-6).
4. the dizzy detector of a kind of eyeshield formula as claimed in claim 1, is characterized in that: the mainboard of controlling also comprises the voice system being connected with microprocessor.
5. the dizzy detector of a kind of eyeshield formula as claimed in claim 1, is characterized in that: the operated key that described screen module plate (2) comprises display screen and is connected with operating system.
6. the dizzy detector of a kind of eyeshield formula as claimed in claim 1, is characterized in that: described operating system is Android operating system.
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CN106491074A (en) * | 2016-11-22 | 2017-03-15 | 天津志听医疗科技有限公司 | Convertible Electronystagmogram instrument |
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CN107440689A (en) * | 2017-08-21 | 2017-12-08 | 复旦大学附属眼耳鼻喉科医院 | A kind of vertigo diagnosis and therapy system |
CN110693453A (en) * | 2019-10-28 | 2020-01-17 | 上海志听医疗科技有限公司 | Head throwing suppression tester |
CN111653148A (en) * | 2020-06-04 | 2020-09-11 | 中国人民解放军空军特色医学中心 | Flight attitude simulation method and device |
CN111801043A (en) * | 2018-01-19 | 2020-10-20 | 儿童国家医疗中心 | Biological assay for non-invasive detection of drug use and physiological conditions |
CN113031269A (en) * | 2021-03-08 | 2021-06-25 | 北京正远展览展示有限公司 | VR shows dizzy governing system of anti-dazzle |
CN115836837A (en) * | 2023-02-20 | 2023-03-24 | 潍坊医学院附属医院 | Ophthalmologic inspection apparatus |
CN116172532A (en) * | 2023-04-27 | 2023-05-30 | 南京友德邦医疗科技有限公司 | Disposable pressure sensor |
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US11129567B2 (en) | 2016-01-04 | 2021-09-28 | University Industry Foundation, Yonsei University Wonju Campus | Portable nystagmus examination device |
WO2017119659A1 (en) * | 2016-01-04 | 2017-07-13 | 연세대학교 원주산학협력단 | Portable nystagmus examination device |
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CN107440689A (en) * | 2017-08-21 | 2017-12-08 | 复旦大学附属眼耳鼻喉科医院 | A kind of vertigo diagnosis and therapy system |
WO2019037674A1 (en) * | 2017-08-21 | 2019-02-28 | 复旦大学附属眼耳鼻喉科医院 | Vertigo diagnosis and treatment system |
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CN110693453A (en) * | 2019-10-28 | 2020-01-17 | 上海志听医疗科技有限公司 | Head throwing suppression tester |
CN111653148A (en) * | 2020-06-04 | 2020-09-11 | 中国人民解放军空军特色医学中心 | Flight attitude simulation method and device |
CN113031269A (en) * | 2021-03-08 | 2021-06-25 | 北京正远展览展示有限公司 | VR shows dizzy governing system of anti-dazzle |
CN115836837A (en) * | 2023-02-20 | 2023-03-24 | 潍坊医学院附属医院 | Ophthalmologic inspection apparatus |
CN116172532A (en) * | 2023-04-27 | 2023-05-30 | 南京友德邦医疗科技有限公司 | Disposable pressure sensor |
CN116172532B (en) * | 2023-04-27 | 2023-08-04 | 南京友德邦医疗科技有限公司 | Disposable pressure sensor |
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