CN109674629A - A kind of view light training method of cloud data calculation - Google Patents

Abstract

The invention discloses a kind of view light training methods of cloud data calculation, belong to field of medical device.Including left eyeshield plate and right eyeshield plate；Nosepiece band is provided between the left eyeshield plate and right eyeshield plate；One end of the nosepiece band is connect with the side of left eyeshield plate by sliding connector；Circular hole is provided on the left eyeshield plate and right eyeshield plate；Processor is provided on the horizontal concrete chute；The left extension rod and right extension rod are symmetrical along processor；Display screen is provided between the other end of the left extension rod and the other end of right extension rod；Motor is provided with below the connecting rod；One end of the push rod is connect with U-typed bracket；The both ends of the U-typed bracket are provided with image capture module；The output end of described image acquisition module and the input terminal of display screen connect；Memory module is provided on the connecting rod.The present invention can acquire the eyes image of patient in real time, and in transmission on display screen.

Description

A kind of view light training method of cloud data calculation

Technical field

The invention belongs to field of medical device, are related to a kind of view light training method of cloud data calculation.

Background technique

Eye movement ability training is applied and raw training method according to the physilogical characteristics and visual characteristic of human eye, can be shown Write the comprehensive visual ability for improving eye.It is primarily adapted for use in crowd's excess eye-using, the student for lacking eyesight movement, computer use Person, long campaigns paperwork person, asthenopia this.And existing vision training apparatus, self benefit of patient can only be passed through Adjusting is made with sight training instrument, doctor can not learn adjustment process from the external world.

Summary of the invention

It is an object of the invention to: a kind of view light training method of cloud data calculation is provided, it being capable of real-time display Eye adjustment process instructs patient to adjust at any time convenient for doctor.

The technical solution adopted by the invention is as follows: a kind of view light training method of cloud data calculation: including left eyeshield Plate and right eyeshield plate, the left eyeshield plate are connect with right eyeshield plate by horizontal concrete chute, and horizontal concrete chute is on left eyeshield plate and the right side The top of eyeshield plate；Nosepiece band is provided between the left eyeshield plate and right eyeshield plate；One end of the nosepiece band and left eyeshield The side of plate is connected by sliding connector, and the other end is connect with the side of right eyeshield plate by sliding connector；The left shield It is provided with circular hole on eye plate and right eyeshield plate, and is uniformly arranged several flexible spheres on the inside of circular hole；The horizontal concrete chute On be provided with processor；The horizontal concrete chute is connect with one end of one end of left extension rod, right extension rod, and left extension rod, the right side Extension rod is vertical with horizontal concrete chute；The left extension rod and right extension rod are symmetrical along processor；The left extension rod it is another It is provided with display screen between end and the other end of right extension rod, and display screen is in the top of left extension rod, right extension rod；It is described The middle-end of left extension rod is connect with the middle-end of right extension rod by connecting rod；Motor is provided with below the connecting rod；The motor Side connect with connecting rod, the connection of one end of the other side and push rod；One end of the push rod is connect with U-typed bracket；" U " The both ends of type bracket are provided with image capture module；Described image acquisition module is aligned with the geometric center of circular hole；Described image The output end of acquisition module and the input terminal of display screen connect；Memory module, and image capture module are provided on the connecting rod Output end and memory module input terminal connect；The output end of the processor and the input terminal of motor connect.

A kind of view light training method of cloud data calculation, it is characterised in that: the following steps are included:

A: being X-axis by the horizontal line of origin, by origin by setting the geometric center of eyeball as coordinate axis origin Vertical line is Y-axis, presets eye standard coordinate P_t(Q(X₀, Y₀), W (X₁, Y₁), E (X₂, Y₂))；

B: image capture module (the coordinate P of acquisition eyes of patients_k(Q(X_k, Y_k), W (X_k, Y_k), E (X_k, Y_k))；

C: the coordinate Q (X of patient's inner eye corner is acquired respectively_k, Y_k), the coordinate W (X of the tail of the eye_k, Y_k), the seat at upper eyelid midpoint Mark E (X_k, Y_k)；

D: by by eyes of patients coordinate P_k(Q(X_k, Y_k), W (X_k, Y_k), E (X_k, Y_k)) and preset standard coordinate P_t(Q(X₀, Y₀), W (X₁, Y₁), E (X₂, Y₂)) compare

Patient will be worn on face depending on light instrument for training, and nose is contacted with nosepiece band, reduces nose and regards the pressure of light instrument for training Power contact, the eye of patient are aligned with circular hole, and image capture module acquires the image of eye through circular hole, and image is passed respectively Transport to display screen and memory module.Due to being provided with elastic sphere at circular hole, the fatigue of eye can be alleviated.When image is adopted When collection module fails to collect accurate eyes image at the first time, processor controls electric motor starting, and motor drive push rod, which is done, to be stretched Contracting movement, i.e. adjustment image capture module is at a distance from eye, until collecting accurate eyes image.Meanwhile doctor can By the eyes image on display screen, the eye dynamic of patient is instructed, convenient for improving view light training effect.

It, being capable of hand since left extension rod is connect by horizontal concrete chute with left eyeshield plate, right eyeshield plate with right extension rod Position in the horizontal direction of dynamic adjustment image capture module.

Further, the acquisition visual angle of described image acquisition module is aligned with the geometric center of circular hole, and in same level On face.

Further, described image acquisition module is cmos sensor.

Further, the memory module is DRAM dynamic memory.

Further, the nosepiece band is arc-shaped, and the contact portion of nose is provided with memory foam.

Further, anti-skidding ear hook is provided on the left eyeshield plate and right eyeshield plate.

In conclusion by adopting the above-described technical solution, the beneficial effects of the present invention are:

1. a kind of view light training method of cloud data calculation of the present invention controls motor by processor, adjusts image The distance between acquisition module and eye can collect more accurate eyes image, meanwhile, doctor can pass through display screen On eyes image, instruct patient eye dynamic, convenient for improve view light training effect.

2. a kind of view light training method of cloud data calculation of the present invention, in the contact portion of view light instrument for training and nose It is provided with nosepiece band, can reduce the friction between nose.

3. a kind of view light training method of cloud data calculation of the present invention, elastic sphere is arranged at circular hole, can subtract The fatigue of light eye.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be to needed in the embodiment attached Figure is briefly described, it should be understood that the following drawings illustrates only certain embodiments of the present invention, therefore is not construed as pair The restriction of range for those of ordinary skill in the art without creative efforts, can also be according to this A little attached drawings obtain other relevant attached drawings, in which:

Fig. 1 is structural schematic diagram of the invention；

Marked in the figure: the left eyeshield plate of 1-, the right eyeshield plate of 2-, 3- horizontal concrete chute, 4- nosepiece band, 5- sliding connector, 6- circle Hole, 7- elastic sphere, 8- processor, the left extension rod of 9-, the right extension rod of 10-, 11- display screen, 12- connecting rod, 13- motor, 14- The anti-skidding ear of U-typed bracket, 15- image capture module, 16- memory module, 17- hooks.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that described herein, specific examples are only used to explain the present invention, not For limiting the present invention, i.e., described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is logical The component for the embodiment of the present invention being often described and illustrated herein in the accompanying drawings can be arranged and be designed with a variety of different configurations.

Therefore, the detailed description of the embodiment of the present invention provided in the accompanying drawings is not intended to limit below claimed The scope of the present invention, but be merely representative of selected embodiment of the invention.Based on the embodiment of the present invention, those skilled in the art Member's every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

It should be noted that the relational terms of term " first " and " second " or the like be used merely to an entity or Operation is distinguished with another entity or operation, and without necessarily requiring or implying between these entities or operation, there are any This actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method, article or equipment not only include those elements, but also Further include other elements that are not explicitly listed, or further include for this process, method, article or equipment it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including described There is also other identical elements in the process, method, article or equipment of element.

Feature and performance of the invention are described in further detail below with reference to embodiment.

Embodiment one

A kind of view light training method for cloud data calculation that present pre-ferred embodiments provide, including left eyeshield plate 1 With right eyeshield plate 2, left eyeshield plate 1 is connect with right eyeshield plate 2 by horizontal concrete chute 3, and horizontal concrete chute 3 is on left eyeshield plate 1 and the right side The top of eyeshield plate 2；Nosepiece band 4 is provided between left eyeshield plate 1 and right eyeshield plate 2；One end of nosepiece band 4 and left eyeshield plate 1 Side connected by sliding connector 5, the other end passes through sliding connector 5 with the side of right eyeshield plate 2 and connect；Left eyeshield plate 1 and right eyeshield plate 2 on be provided with circular hole 6, and several flexible spheres 7 are uniformly arranged on the inside of circular hole；It is set on horizontal concrete chute 3 It is equipped with processor 8；Horizontal concrete chute 3 is connect with one end of one end of left extension rod 9, right extension rod 10, and left extension rod 9, the right side prolong Boom 10 is vertical with horizontal concrete chute 3；Left extension rod 9 is symmetrical along processor 8 with right extension rod 10；The other end of left extension rod 9 Be provided with display screen 11 between the other end of right extension rod 10, and display screen 11 left extension rod 9, right extension rod 10 it is upper Side；The middle-end of left extension rod 9 is connect with the middle-end of right extension rod 10 by connecting rod 12；The lower section of connecting rod 12 is provided with motor 13； The side of motor 13 is connect with connecting rod, one end connection of the other side and push rod；One end of push rod is connect with U-typed bracket 14；"U" The both ends of type bracket 14 are provided with image capture module 15；Image capture module 15 is aligned with the geometric center of circular hole 6；Image is adopted The output end of collection module 15 is connect with the input terminal of display screen 11；Memory module 16, and Image Acquisition mould are provided on connecting rod 12 The output end of block 15 is connect with the input terminal of memory module 16；The output end of processor is connect with the input terminal of motor 13.

A kind of view light training method of cloud data calculation, it is characterised in that: the following steps are included:

A: being X-axis by the horizontal line of origin, by origin by setting the geometric center of eyeball as coordinate axis origin Vertical line is Y-axis, presets eye standard coordinate P_t(Q(X₀, Y₀), W (X₁, Y₁), E (X₂, Y₂))；

B: the coordinate P of the acquisition eyes of patients of image capture module 15_k(Q(X_k, Y_k), W (X_k, Y_k), E (X_k, Y_k))；

C: the coordinate Q (X of patient's inner eye corner is acquired respectively_k, Y_k), the coordinate W (X of the tail of the eye_k, Y_k), the seat at upper eyelid midpoint Mark E (X_k, Y_k)；

D: by by eyes of patients coordinate P_k(Q(X_k, Y_k), W (X_k, Y_k), E (X_k, Y_k)) and preset standard coordinate P_t(Q(X₀, Y₀), W (X₁, Y₁), E (X₂, Y₂)) compare.

Patient will be worn on face depending on light instrument for training, and nose is contacted with nosepiece band 4, reduces nose and regards the pressure of light instrument for training Power contact, the eye of patient are aligned with circular hole 6, and image capture module 15 acquires the image of eye through circular hole 6, and image is divided Supplementary biography transports to display screen 11 and memory module 16.Due to being provided with elastic sphere 7 at circular hole 6, the tired of eye can be alleviated Labor.When image capture module 15 fails to collect accurate eyes image at the first time, processor 8 controls motor 13 and starts, Motor 13 drives push rod to do stretching motion, i.e. adjustment image capture module 16 is at a distance from eye, until collecting accurate eye Portion's image.Meanwhile doctor by the eyes image on display screen 11, can instruct the eye dynamic of patient, convenient for improving view light Training effect.

Since left extension rod 9 is connect by horizontal concrete chute 3 with left eyeshield plate 1, right eyeshield plate 2 with right extension rod 10, The position in the horizontal direction of image capture module 15 can be manually adjusted

Embodiment two

The present embodiment is on the basis of example 1, it is preferable that the acquisition visual angle of image capture module 15 is several with circular hole 6 What center alignment, and in same level.

Preferably, image capture module 15 is cmos sensor.

Preferably, memory module 16 is DRAM dynamic memory.

Preferably, nosepiece band 4 is arc-shaped, and the contact portion of nose is provided with memory foam.

Preferably, anti-skidding ear hook 17 is provided on left eyeshield plate 1 and right eyeshield plate 2.

The foregoing is merely illustrative of the preferred embodiments of the present invention, the protection scope being not intended to limit the invention, any Those skilled in the art within the spirit and principles in the present invention made by any modifications, equivalent replacements, and improvements etc., It should all be included in the protection scope of the present invention.

Claims (7)

1. an optometry training method of cloud data computing mode, it is characterized in that: comprise left eye protector (1) and right eye protector (2), described left eye protector (1) and right eye protector ( 2) Connected by the transverse chute (3), and the transverse chute (3) is above the left eye guard (1) and the right eye guard (2); the left eye guard (1) and the right eye guard A nose protector (4) is arranged between the plates (2); one end of the nose protector (4) is connected to one side of the left eye protector (1) through a sliding connector (5), and the other end is connected to the right eye protector (1). One side of the eye plate (2) is connected by a sliding connector (5); circular holes (6) are provided on both the left eye protection plate (1) and the right eye protection plate (2), and the inner sides of the circular holes are uniform A plurality of elastic spheres (7) are provided; a processor (8) is arranged on the transverse chute (3); the transverse chute (3) and one end of the left extension rod (9) and the right extension rod (10) one end is connected, and the left extension rod (9) and the right extension rod (10) are both perpendicular to the transverse chute (3); the left extension rod (9) and the right extension rod (10) are symmetrical along the processor (8) A display screen (11) is arranged between the other end of the left extension rod (9) and the other end of the right extension rod (10), and the display screen (11) is located between the left extension rod (9) and the right extension rod Above (10); the middle end of the left extension rod (9) and the middle end of the right extension rod (10) are connected by a connecting rod (12); a motor (13) is arranged below the connecting rod (12) One side of the motor (13) is connected with the connecting rod, and the other side is connected with one end of the push rod; one end of the push rod is connected with the "U" type bracket (14); the "U" type bracket ( Both ends of 14) are provided with an image acquisition module (15); the image acquisition module (15) is aligned with the geometric center of the circular hole (6); the output end of the image acquisition module (15) is aligned with the display screen (11) The connecting rod (12) is provided with a storage module (16), and the output end of the image acquisition module (15) is connected with the input end of the storage module (16); the output end of the processor is connected to the input end of the storage module (16). The input of the motor (13) is connected. 2. The optometry training method of a cloud data calculation method according to claim 1, characterized in that: the acquisition angle of view of the image acquisition module (15) is aligned with the geometric center of the circular hole (6), and in the same on the horizontal plane. 3 . The optometry training method according to claim 1 , wherein the image acquisition module ( 15 ) is a CMOS sensor. 4 . 4 . The optometry training method according to claim 1 , wherein the storage module ( 16 ) is a DRAM dynamic memory. 5 . 5 . The optometry training method according to a cloud data calculation method according to claim 1 , wherein the nose protection band ( 4 ) is arc-shaped, and a memory foam is provided in the contact part with the nose. 6 . 6. The optometry training method of a cloud data computing method according to claim 1, characterized in that: the left eye protection plate (1) and the right eye protection plate (2) are both provided with non-slip ear hooks ( 17). 7. the optometry training method of a kind of cloud data computing mode according to claim 1, is characterized in that: comprise the following steps: A: By setting the geometric center of the eyeball as the origin of the coordinate axis, the horizontal line passing through the origin is the X axis, and the vertical line passing through the origin is the Y axis, and the standard eye coordinates P _t (Q(X ₀ , Y ₀ ), W(X ₁ , Y ₁ ), E(X ₂ , Y ₂ )); B: The image acquisition module (15) acquires the coordinates P _k (Q(X _k , Y _k ), W(X _k , Y _k ), E(X _k , Y _k )) of the patient’s eye; C: Collect the coordinates Q (X _k , Y _k ) of the patient's inner canthus, the coordinates W (X _k , Y _k ) of the outer canthus, and the coordinates E (X _k , Y _k ) of the middle point of the upper eyelid; D: By comparing the patient's eye coordinates P _k (Q(X _k , Y _k ), W(X _k , Y _k ), E(X _k , Y _k )) with the preset standard coordinates P _t (Q(X _{0 )} , Y ₀ ), W(X ₁ , Y ₁ ), E(X ₂ , Y ₂ )) for comparison.