CN112914967A - Visual function training feedback system based on synoptophore and use method thereof - Google Patents

Abstract

The invention relates to a visual function training feedback system based on a co-viewing machine, wherein the co-viewing machine host comprises a medical care operation screen, a medical care cloud, a patient cloud and a circuit control system, the co-viewing machine host is connected with the medical care operation screen, the medical care operation screen is connected with the medical care cloud and the patient cloud, the circuit control system comprises a left eye simulation motion system, a right eye simulation motion system, a left eye optical path system and a right eye optical path system, and the left eye simulation motion system comprises a left horizontal motion assembly, a left up-down motion assembly, a left height fine adjustment assembly and a left rotation motion assembly. The invention has the advantages that: the cloud automatically inputs pictures with different contents and degrees to the display screen so as to improve the training interest of the patient and ensure the training effect; patient training archives are recorded to patient's training result, generate training data system, and the doctor looks over the training effect at any time through calling out high in the clouds archives, in time adjusts the training scheme, has solved the training scheme and has not pointed, the not accurate scheduling problem of training scheme.

Description

Visual function training feedback system based on synoptophore and use method thereof

Technical Field

The invention relates to the field of medical instruments, in particular to a visual function training feedback system based on a synoptophore and a using method thereof.

Background

The existing homography machine for visual function training mainly comprises two lens cones, a dial, a base and a plastic picture. The two lens cones are respectively provided with an illumination system, a picture slot, a reflector and a lens, and the left eye and the right eye of a patient can observe pictures in the left lens cone and the right lens cone through the lens. In the checking process, a pair of pictures are required to be respectively arranged in the two lens cones, so that the left eye and the right eye of a patient respectively see through the lenses of the left lens cone and the right lens cone to watch the pictures in the reflector, the two pictures are fused into one picture through the autonomous image fusion function, and the image fusion range of the patient is trained by changing the position of the lens cones. Traditional plastic pictures are generally provided with 3-5 sets of pictures with different degrees for each type of training of each machine. The traditional equipment has the following defects: 1. the number of pictures is small, the patient is easy to generate memory inertia in the training process, and the training effect is poor; 2. traditional pictures need manual replacement by doctors, are cumbersome, waste time and are easy to misplace.

Disclosure of Invention

The invention aims to solve the problems and provides a visual function training feedback system based on a synoptophore and a using method thereof.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: the visual function training feedback system based on the synoptophore comprises a medical care operation screen, a medical treatment cloud end, a patient cloud end and a circuit control system, the co-viewing machine host is connected with a medical care operation screen which is connected with a medical treatment cloud and a patient cloud, the circuit control system comprises a left eye motion simulation system, a right eye motion simulation system, a left eye optical path system and a right eye optical path system, the system for simulating the left eye movement comprises a left horizontal movement component, a left up-and-down movement component, a left height fine adjustment component and a left rotation movement component, the simulated right eye movement system comprises a right horizontal movement component, a right up-and-down movement component, a right height fine adjustment component and a right rotation movement component, the left eye optical path system comprises a left lens, a left lens barrel and a left optical brush component, and the right eye optical path system comprises a right lens, a right lens barrel and a right optical brush component.

The medical cloud automatically gives an intelligent visual training scheme according to the acquired visual function data of the patient and the information of the age, sex and the like of the patient, and then feeds the training scheme back to the medical care operation screen, and the medical care operation screen feeds back to the picture matched with the characteristics and the indications of the patient.

The application method of the visual function training feedback system based on the synoptophore comprises the following steps:

s1, the left eye optical path system displays pictures needed by a patient, the pictures are projected through a 6.5D convex lens in a left lens barrel and onto a left half shading and half returning lens, images reflected by the left half shading and half returning lens enter the left eye of the patient, the patient can see the images displayed on a left display screen, and a doctor can see cornea reflecting points of the patient through the left half shading and half returning lens and judge the training condition of the patient;

s2, the right eye optical path system and the left eye optical path system are the same in structure and principle;

s3, the left optical brush component is placed between the left display screen and the left lens cone, the right optical brush component is placed between the right display screen and the right lens cone, when a patient needs to use the left optical brush component or the right optical brush component for training, the optical brush function needs to be started on the medical care operation screen, the patient can do optical brush training through the left optical brush component or the right optical brush component, and single-eye or double-eye simultaneous training can be achieved;

s4, the left horizontal motion assembly in the simulated left eye motion system comprises a left manual horizontal motion rod, the right horizontal motion assembly in the simulated right eye motion system comprises a right manual horizontal motion rod, and a patient or a doctor can simulate the horizontal motion of eyeballs through the left manual horizontal motion rod and the right manual horizontal motion rod;

s5, the left up-down movement assembly comprises a left up-down adjusting screw rod, the right up-down movement assembly comprises a right up-down adjusting screw rod, and the movement states of the eyeballs in the up-down direction can be simulated respectively;

and S6, the left height fine adjustment assembly and the right height fine adjustment assembly comprise helical gears and helical racks, and fine adjustment of movement of the eyes in the up-down direction can be simulated respectively. The left rotary motion assembly and the right rotary motion assembly contain a lead screw and a nut and can simulate the rotary motion of eyeballs;

s7, the whole mechanical system of the host machine of the synoptophore simulates nine directions of eyeball movement, so that horizontal strabismus and vertical strabismus can be achieved, and training of a patient with rotary strabismus can be better completed through setting of the machine in the training process.

After adopting the structure, the invention has the following advantages: aiming at patients with different ages, sexes and symptoms, the cloud automatically inputs pictures with different contents and degrees on the display screen so as to improve the training interest of the patients and ensure the training effect; the training data system is generated by transmitting the training result of the patient to the cloud end through the acquisition handle and recording the training file of the patient, and a doctor can check the training effect at any time and adjust the training scheme in time by calling the cloud end file, so that the problems that the training scheme is not targeted, the training scheme is not accurate and the training effect is not fed back are solved; the doctor can master preoperative vision function training data, a basis is provided for the strabismus operation, and accurate operation amount control is facilitated; the traditional picture is made of plastic, the invention is changed into electronic screen display, the picture has various types, and the picture can adapt to patients with different ages and sexes from the pattern type, and can be matched with different degrees for examination according to the symptoms and the squint degree of the patients from the picture degree.

Drawings

Fig. 1 is a schematic structural diagram of a visual function training feedback system based on a synoptophore and a using method thereof.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Combine figure 1, look function training feedback system based on machine of looking simultaneously, the host computer of looking simultaneously is including doctorsing and nurses operation screen, medical treatment high in the clouds, patient high in the clouds, circuit control system, the operation screen is doctorsed and nurses to host computer connection, doctors and nurses the operation screen and connects medical treatment high in the clouds and patient high in the clouds, circuit control system is including simulation left eye moving system, simulation right eye moving system, left eye optical path system, right eye optical path system, simulation left eye moving system contains left horizontal motion subassembly, left up-and-down motion subassembly, left height fine-tuning subassembly, left rotation motion subassembly, simulation right eye moving system contains right horizontal motion subassembly, right up-and-down motion subassembly, right height fine-and-down motion subassembly, right rotation motion subassembly, left eye optical path system contains left camera lens, left lens cone, left optical brush subassembly, right eye optical path system contains right camera lens, right lens cone, Right wiper subassembly.

The medical cloud automatically gives an intelligent visual training scheme according to the acquired visual function data of the patient and the information of the age, sex and the like of the patient, and then feeds the training scheme back to the medical care operation screen, and the medical care operation screen feeds back to the picture matched with the characteristics and the indications of the patient.

The application method of the visual function training feedback system based on the synoptophore comprises the following steps:

s1, the left eye optical path system displays pictures needed by a patient, the pictures are projected through a 6.5D convex lens in a left lens barrel and onto a left half shading and half returning lens, images reflected by the left half shading and half returning lens enter the left eye of the patient, the patient can see the images displayed on a left display screen, and a doctor can see cornea reflecting points of the patient through the left half shading and half returning lens and judge the training condition of the patient;

s2, the right eye optical path system and the left eye optical path system are the same in structure and principle;

s3, the left optical brush component is placed between the left display screen and the left lens cone, the right optical brush component is placed between the right display screen and the right lens cone, when a patient needs to use the left optical brush component or the right optical brush component for training, the optical brush function needs to be started on the medical care operation screen, the patient can do optical brush training through the left optical brush component or the right optical brush component, and single-eye or double-eye simultaneous training can be achieved;

s4, the left horizontal motion assembly in the simulated left eye motion system comprises a left manual horizontal motion rod, the right horizontal motion assembly in the simulated right eye motion system comprises a right manual horizontal motion rod, and a patient or a doctor can simulate the horizontal motion of eyeballs through the left manual horizontal motion rod and the right manual horizontal motion rod;

s5, the left up-down movement assembly comprises a left up-down adjusting screw rod, the right up-down movement assembly comprises a right up-down adjusting screw rod, and the movement states of the eyeballs in the up-down direction can be simulated respectively;

and S6, the left height fine adjustment assembly and the right height fine adjustment assembly comprise helical gears and helical racks, and fine adjustment of movement of the eyes in the up-down direction can be simulated respectively. The left rotary motion assembly and the right rotary motion assembly contain a lead screw and a nut and can simulate the rotary motion of eyeballs;

s7, the whole mechanical system of the host machine of the synoptophore simulates nine directions of eyeball movement, so that horizontal strabismus and vertical strabismus can be achieved, and training of a patient with rotary strabismus can be better completed through setting of the machine in the training process.

When the invention is implemented specifically, aiming at patients of different ages, sexes and symptoms, the cloud automatically inputs pictures of different contents and degrees to the display screen so as to improve the training interest of the patients and ensure the training effect; the training data system is generated by transmitting the training result of the patient to the cloud end through the acquisition handle and recording the training file of the patient, and a doctor can check the training effect at any time and adjust the training scheme in time by calling the cloud end file, so that the problems that the training scheme is not targeted, the training scheme is not accurate and the training effect is not fed back are solved; the doctor can master preoperative vision function training data, a basis is provided for the strabismus operation, and accurate operation amount control is facilitated; the traditional picture is made of plastic, the invention is changed into electronic screen display, the picture has various types, and the picture can adapt to patients with different ages and sexes from the pattern type, and can be matched with different degrees for examination according to the symptoms and the squint degree of the patients from the picture degree.

The present invention and its embodiments have been described above, but the description is not limitative, and the actual structure is not limited thereto. It should be understood that those skilled in the art should understand that they can easily make various changes, substitutions and alterations herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (3)

1. Visual function training feedback system based on synoptophore, it includes synoptophore host computer, its characterized in that: the host computer of looking at is including doctorsing and nurses operation screen, medical treatment high in the clouds, patient high in the clouds, circuit control system, the operation screen is doctorsed and nurses in the connection of host computer of looking at, the operation screen is connected medical treatment high in the clouds and patient high in the clouds of doctorsing and nurses, circuit control system is including simulation left eye moving system, simulation right eye moving system, left eye optical path system, right eye optical path system, simulation left eye moving system contains left horizontal motion subassembly, left up-and-down motion subassembly, left height fine-tuning subassembly, left rotation motion subassembly, simulation right eye moving system contains right horizontal motion subassembly, right up-and-down motion subassembly, right height fine-tuning subassembly, right rotation motion subassembly, left eye optical path system contains left camera lens, left lens cone, left optical brush subassembly, right eye optical path system contains right camera lens, right lens cone, right optical brush.

2. The co-ordinate-based visual function training feedback system according to claim 1, wherein: the medical cloud automatically gives an intelligent visual training scheme according to the acquired visual function data of the patient and the information of the age, sex and the like of the patient, and then feeds the training scheme back to the medical care operation screen, and the medical care operation screen feeds back to the picture matched with the characteristics and the indications of the patient.

3. The application method of the visual function training feedback system based on the synoptophore is characterized in that: it comprises the following steps:

s1, the left eye optical path system displays pictures needed by a patient, the pictures are projected through a 6.5D convex lens in a left lens barrel and onto a left half shading and half returning lens, images reflected by the left half shading and half returning lens enter the left eye of the patient, the patient can see the images displayed on a left display screen, and a doctor can see cornea reflecting points of the patient through the left half shading and half returning lens and judge the training condition of the patient;

s2, the right eye optical path system and the left eye optical path system are the same in structure and principle;

s3, the left optical brush component is placed between the left display screen and the left lens cone, the right optical brush component is placed between the right display screen and the right lens cone, when a patient needs to use the left optical brush component or the right optical brush component for training, the optical brush function needs to be started on the medical care operation screen, the patient can do optical brush training through the left optical brush component or the right optical brush component, and single-eye or double-eye simultaneous training can be achieved;

s4, the left horizontal motion assembly in the simulated left eye motion system comprises a left manual horizontal motion rod, the right horizontal motion assembly in the simulated right eye motion system comprises a right manual horizontal motion rod, and a patient or a doctor can simulate the horizontal motion of eyeballs through the left manual horizontal motion rod and the right manual horizontal motion rod;

s5, the left up-down movement assembly comprises a left up-down adjusting screw rod, the right up-down movement assembly comprises a right up-down adjusting screw rod, and the movement states of the eyeballs in the up-down direction can be simulated respectively;

and S6, the left height fine adjustment assembly and the right height fine adjustment assembly comprise helical gears and helical racks, and fine adjustment of movement of the eyes in the up-down direction can be simulated respectively. The left rotary motion assembly and the right rotary motion assembly contain a lead screw and a nut and can simulate the rotary motion of eyeballs;

s7, the whole mechanical system of the host machine of the synoptophore simulates nine directions of eyeball movement, so that horizontal strabismus and vertical strabismus can be achieved, and training of a patient with rotary strabismus can be better completed through setting of the machine in the training process.

Images