KR20190143429A - Ocular muscle training method and system - Google Patents

Abstract

An object of the present invention is to provide a vision training system which includes a vision training unit and a display device and is configured to enable a visual image displayed on the display device to be perceived in a predetermined size by a user, thereby obtaining a desired vision training effect, and a vision training method. To this end, according to the present invention, the vision training system comprises: a vision training unit including a main body worn on an eye portion of a user and at least one training lens installed in the main body; a display device including a display unit for displaying a visual image; a main distance sensor installed in the vision training unit or the display device and configured to sense a distance between both sides; and a control unit configured to adjust a size of the visual image displayed on the display unit based on main distance information signals sensed by the main distance sensor.

Description

OCULAR MUSCLE TRAINING METHOD AND SYSTEM

The present invention relates to a vision training system and a vision training method.

Human vision is highly related to ciliary muscles. To strengthen this ciliary muscle, training can be made to contract or relax the ciliary muscle by changing the diopter of the lens placed in front of the eye. At this time, if the user can visually train in a state in which the size of the visual image can be constantly recognized, an intended training effect can be obtained. In other words, the user perceives the visual image smaller as the distance from the visual image becomes smaller, and the visual image becomes larger as the distance gets closer. In this way, the distance between the user and the visual image is unintentionally changed during the vision training. If the size of the visual image changes, the effect of the intended vision training cannot be obtained.

However, the conventional vision training apparatuses do not correspond to the change in the size of the visual image generated according to the distance change between the visual image and the vision training apparatus, and thus there is a problem in that the intended vision training effect is not obtained.

It is an object of the present invention to provide a vision training system and a vision training method that can achieve the intended vision training effect by allowing the user to recognize the visual image displayed on the display device in a certain size.

Vision training system according to the present invention for achieving the above object is a vision training unit having a main body worn on the eye portion of the user, and at least one training lens installed in the main body; A display device having a display unit for displaying a visual image; A main distance sensor installed in the vision training unit or the display device and detecting a distance between both sides; And a controller configured to adjust the size of the visual image displayed on the display unit based on the main distance information signal detected by the main distance sensor.

The controller may be configured to calculate an image correction amount based on a distance difference from a predetermined reference distance based on the main distance information signal, and control the display to display the visual image to which the calculated image correction amount is applied. .

And the main distance sensor is preferably installed in the sight training unit.

In addition, the vision training unit has a vision training unit communication unit for communicating with the display device, the display apparatus has a display device communication unit for communicating with the vision training unit, the controller is the main distance information signal to the display device A sight training unit controller for controlling the sight training unit communication unit to be transmitted; and a display device controller for adjusting the size of the visual image based on the main distance information signal received from the sight training unit through the display device communication unit. It is desirable to.

The visual acuity training unit includes an auxiliary distance sensor that detects a distance from an eye portion of the user, and the controller includes a main distance information signal detected by the main distance sensor and an auxiliary distance information signal detected by the auxiliary distance sensor. It is preferable to adjust the size of the visual image based on the integrated distance information signal including.

According to an aspect of the present invention, there is provided a vision training method comprising: preparing a display apparatus for displaying a visual image and a vision training unit interoperating with the display apparatus; Sensing a distance between the display device and the vision training unit; Adjusting the size of the visual image based on the sensed distance.

The preparing of the display apparatus and the vision training unit may include separating the display apparatus and the vision training unit by a predetermined reference distance, and displaying a visual image having a size corresponding to the reference distance on the display apparatus. It is preferable to include the step of.

The adjusting of the size of the image may include calculating an image correction amount based on a distance difference from the preset reference distance, and displaying the visual image on which the calculated image correction amount is applied to the display device. It is preferable.

In addition, when the distance between the display device and the vision training unit is out of a predetermined limit distance range including the preset reference distance, it is preferable to further include a step of notifying the user by visual, auditory or tactile expression.

The visual acuity training system and the visual acuity training method according to the present invention can obtain an intended visual acuity training effect by allowing a user to recognize a visual image displayed on a display device in a predetermined size.

1 is a schematic diagram of a vision training system according to the present invention,
2 is a control block diagram of a vision training system according to the present invention,
3 is a reference diagram for explaining a vision training system according to the present invention,
4 is a graph showing the relationship between the distance between the vision training unit and both sides of the display device and the size of the visual image;
5 (B) shows an example of the size of the visual image at the reference distance, Figure 5 (A) and (C) is an example of the visual image when the distance from the reference distance is short and away from each other Represented by
6 is a flowchart showing a vision training method according to the present invention.

1 is a schematic diagram of a vision training system including a vision training unit 200 and a display apparatus 100 according to the present invention, Figure 2 is a control block diagram of a vision training system according to the present invention. As shown in Figures 1 and 2, the vision training system includes a display device 100 for displaying a visual image and a vision training unit 200 worn on the user's eyes. After the user wears the vision training unit 200 on his head, the user performs vision training while recognizing the visual image displayed on the display apparatus 100.

The display apparatus 100 includes a display unit 130 on which a visual image is displayed, a communicator 110 communicating with the vision training unit 200, and a controller 150 controlling them. The display apparatus 100 may be adopted among various kinds of display apparatuses such as LCD, LED, tablet PC, and smart phone. The display apparatus 100 may be coupled to the vision training unit 200 to be movable along the line of sight of the vision training unit 200. The display apparatus 100 includes a user input unit 120 through which a user may input information or a signal into the vision training system. The user input unit 120 may be adopted among various input devices such as a voice recognition or a touch screen and a keypad. In addition, the display apparatus 100 may include a notification unit 140 that may transmit information to the user through sight, hearing, or touch. The notification unit 140 may include a display, a speaker, and a motor.

3 is a reference diagram for explaining a vision training system according to the present invention. Referring to FIG. 3 together with FIGS. 1 and 2, the vision training unit 200 is worn on the user's eye and has a main body 270 having a through hole 271 penetrated along the user's eyeline. At least one training lens 273 installed in 270.

When the training lens 273 is one, the user may train the eye muscles while alternately repeating the state in which the training lens 273 is disposed in front of the eyes and the state in which the training lens 273 is removed. When there are a plurality of training lenses 273, a user may perform vision training by alternately arranging training lenses 273 having different diopters in front of the eyes E for a predetermined time. The plurality of lenses may be configured in a revolver type arranged in a circumferential direction on a disc or a linear type sequentially arranged in a straight structure, and may be alternately arranged in front of a user's eyes. That is, in the case of the revolver type, as the disc rotates, lenses disposed along the circumferential direction may be alternately arranged in front of the user's eyeball E. In the case of the linear type, the lens may be arranged by the linear structure of the user's eyeball. (E) may be arranged alternately from the front.

The vision training unit 200 includes a driving unit 220 capable of moving the training lens 273. The driving unit 220 has a motor and / or a solenoid, and rotates a disc-shaped revolver in the case of a revolver type and linearly moves a linear structure in the case of a linear type. Meanwhile, the vision training unit 200 may directly move the training lens 273 by the user without the driving unit 220.

The vision training unit 200 includes a main distance sensor 230 installed on the front. The main distance sensor 230 detects the distance L1 from the display apparatus 100 and generates a main distance information signal. The main distance sensor 230 includes an infrared light emitting unit emitting infrared rays and an infrared light receiving unit receiving infrared rays. Accordingly, the main distance sensor 230 generates a main distance information signal based on time information from when the infrared light is output from the infrared light emitter to when the infrared light is received by the infrared light receiver. The main distance sensor 230 may be adopted among various types of distance sensors such as infrared rays, lasers, and ultrasonic waves.

The vision training unit 200 has a communication unit 210 that communicates with the display apparatus 100, and a control unit 250 that controls the communication unit 210 and the driver 220. The controller 250 controls the communication unit 210 to transmit the main distance information signal generated from the main distance sensor 230 to the display apparatus 100.

4 is a graph showing the relationship between the distance between the sight training unit 200 and both sides of the display apparatus 100 and the size of the visual image. As shown in FIG. 4, the size of the visual image M increases as the distance between the two sides increases. The size function of the visual image according to the distance between the two sides is individually adopted according to the vision. Generally, the Randolph algorithm is adopted. The display apparatus controller 150 calculates the size of the visual image M based on the function in FIG. 4 based on the main distance information signal received from the vision training unit 200 and displays it on the display 130. The display device controller 150 is a distance L1 from the display device 100 sensed by the main distance sensor 230 and a pre-stored main distance sensor 230 to a place where the user's eye part E is generally located. It is preferable to determine the size of the visual image M based on the sum of the distances L2 + L3.

On the other hand, in order to more accurately measure the distance (L1 + L2 + L3) from the user's eye portion E to the display device 100, the vision training unit 200 is the user's eye portion as shown in FIG. It may include an auxiliary distance sensor 240 for detecting the distance (L3) and (E). The auxiliary distance sensor 240 detects a distance L3 to the user's eye portion E, which may vary according to a user's face shape and a habit of putting a face on the body eyepiece 275.

The auxiliary distance sensor 240 includes an infrared light emitting unit emitting infrared rays and an infrared light receiving unit receiving infrared rays. Accordingly, the auxiliary distance sensor 240 generates an auxiliary distance information signal based on time information from when the infrared light is output from the infrared light emitter to when the infrared light is received by the infrared light receiver. The auxiliary distance sensor 240 may be adopted among various types of distance sensors such as infrared rays, lasers, and ultrasonic waves. In this case, the visual acuity training unit control unit 250 receives a main distance information signal detected by the main distance sensor 230 and an integrated distance information signal including an auxiliary distance information signal detected by the auxiliary distance sensor 240 through the communication unit 210. Send to the display device 100. The display apparatus controller 150 calculates the size of the visual image M based on the integrated distance information signal received from the vision training unit 200. The integrated distance information signal includes a distance L1 between the vision training unit 200 and the display apparatus 100, a distance L2 between the main distance sensor 230 and the auxiliary distance sensor 240, and an auxiliary distance sensor 240. ) And the distance L3 to the user's eyes.

5 (B) shows an example of the size of the visual image at the reference distance, Figure 5 (A) and (C) is an example of the visual image when the distance from the reference distance is shorter and farther away It is shown as.

The vision training system sets a reference distance between the vision training unit 200 and the display apparatus 100. This reference distance is preferably set to 40 cm. This reference distance can be changed according to the setting. When the user turns on and wears the vision training unit 200 and is spaced apart from the display apparatus 100 by a reference distance, a visual image M at the reference distance as shown in FIG. Begins. The distance as much as the reference distance is detected through the main distance sensor 230, it can be guided to the user through the notification unit 140.

When the user deviates from the reference distance during the vision training, the display apparatus controller 150 calculates an image correction amount according to the distance difference from the reference distance, and the visual image M to which the calculated image correction amount is applied is displayed on the display unit 130. Control to display on That is, when the distance between the display apparatus 100 and the vision training unit 200 is shorter than the reference distance, the image correction amount according to the distance difference with the reference distance based on the function as shown in FIG. As shown in FIG. 5, when the visual image M becomes smaller and farther than the reference distance, the visual image M becomes large as shown in FIG. 5C.

According to this structure, the present visual training system can constantly recognize the size of the visual image (M) even if the distance to the display device 100 changes while the user wears the visual training unit 200. Accordingly, the user can obtain the intended vision training effect.

On the other hand, when the vision training unit 200 and the display device 100 is wired, the vision training unit 200 and the display device 100 does not have a communication unit (110, 210), only one of the two have a control unit It may be.

The main distance sensor 230 may be installed in the display apparatus 100.

The visual acuity training unit controller 250 may send the main distance information signal detected by the main distance sensor 230 to the display apparatus 100, but not for the visual image size to which the image correction amount is applied based on the graph of FIG. 4. You can also send a control command signal.

6 is a flowchart showing a vision training method according to the present invention. As shown in FIG. 6, the method for visual acuity training first prepares a display apparatus 100 displaying a visual image and a vision training unit 200 interoperating with the display apparatus 100 (S10). The display apparatus 100 and the vision training unit 200 may be integrated, detachable, or detachable.

When the display apparatus 100 and the vision training unit 200 are prepared, the user may arbitrarily set the reference distance through the user input unit 120 (S20). When the user inputs the reference distance through the user input unit 120, the input reference distance is applied (S22). When the user does not input the reference distance, the preset reference distance is applied (S21). Here, the reference distance is preferably between 35 and 45 cm. And the reference distance is preferably set to a predetermined reference distance range. For example, when the reference distance is input to 40cm, it is set to a predetermined reference distance range around the input reference distance, such as 38 to 42cm or 35 to 45cm.

When the reference distance is set, the main distance sensor 230 detects the distance between the display apparatus 100 and the vision training unit 200 (S30). In operation S40, it is determined whether the detected distance corresponds to a predetermined reference distance range. Here, when the detected distance is out of the predetermined reference distance range, the notification unit 140 informs the user of the deviation of the reference distance range (S41). When guided in this way, the user can adjust the distance between the display apparatus 100 and the vision training unit 200. Then again detects the distance between the display device 100 and the vision training unit 200 (S30). If the detected distance corresponds to the reference distance range, the user's vision is measured (S50). Measuring the eyesight of a user can be made in various ways. For example, the display unit 130 displays a small visual image that can be seen with a very good visual acuity, and then increases the visual image based on a signal input through the user input unit 120 when the user recognizes the visual image. You can measure your eyesight. On the contrary, after displaying a large visual image that can be seen even with low vision on the display 130 and gradually reducing the visual image based on a signal input through the user input unit 120 when the user cannot recognize the visual image. A user's vision can also be measured. Meanwhile, the eyesight of the user may be input through the user input unit 140 in advance. This vision measurement step (S50) is preferably performed only when the user uses the first sight training system.

When the user's vision measurement is completed, a visual image according to the reference distance for each sight is displayed on the display 130 (S60). When the visual image is displayed on the display apparatus 100, the vision training unit controller 250 performs vision training by controlling the driving unit 220 so that the training lens 273 is alternately moved (S70).

When the training lens 273 is one, the user may train the eye muscles while alternately repeating the state in which the training lens 273 is disposed in front of the eyes and the state in which the training lens 273 is removed. When there are a plurality of training lenses 273, the user may perform visual acuity training by alternately arranging training lenses 273 having different diopters in front of the eyes for a predetermined time. The plurality of lenses may be configured in front of a user by being configured as a revolver type arranged in a circumferential direction on a disc or a linear type sequentially arranged in a linear manner.

The main distance sensor 230 detects the distance between the display apparatus 100 and the vision training unit 200 continuously or intermittently while the vision training is in progress (S80). The main distance sensor 230 is installed in the vision training unit 200. The main distance sensor 230 may be installed in the display apparatus 100.

While detecting the distance between the display apparatus 100 and the vision training unit 200, if a distance difference greater than the reference distance and a predetermined distance difference occurs, the size of the visual image is adjusted (S90). The controller calculates an image correction amount based on a distance difference from the reference distance, and causes the visual image to which the calculated image correction amount is applied is displayed on the display apparatus 100. That is, when the user wears the visual acuity training unit 200 away from the display apparatus 100, the visual image displayed on the display apparatus 100 is increased according to a preset function, and the visual acuity training unit 200 is displayed on the display apparatus 100. When it approaches, the visual image becomes smaller according to the preset function. Here, there is a limit in that the visual image displayed on the display apparatus 100 becomes smaller or larger, and the corresponding distance range is referred to as a predetermined limit distance range.

When the distance between the display apparatus 100 and the vision training unit 200 deviates from a predetermined limit distance range including a preset reference distance, the user may be visual, auditory, and / or tactile expression through the notification unit 140. Notify

By such a training method, even if the distance from the display apparatus 100 displaying the visual image during the vision training while the user wears the vision training unit 200 is outside the reference distance range, The size is consistent to achieve the intended vision training effect.

100: display device 110: communication unit
130: display unit 150: control unit
200: sight training unit 210: communication unit
220: drive unit 230: main distance sensor
240: auxiliary distance sensor 250: control unit
270: main body 271: through hole
273: training lens 275: eyepiece

Claims (11)

In the vision training system,
A vision training unit having a body worn on an eye portion of a user and at least one training lens installed in the body;
A display device having a display unit for displaying a visual image;
A main distance sensor installed in the vision training unit or the display device and detecting a distance between both sides;
And a control unit for adjusting the size of the visual image displayed on the display unit based on the main distance information signal detected by the main distance sensor. The method of claim 1,
The control unit calculates an image correction amount based on a distance difference from a predetermined reference distance based on the main distance information signal, and controls the visual image to which the calculated image correction amount is applied to be displayed on the display unit. Training system. The method of claim 2,
The main distance sensor is a sight training system, characterized in that installed in the sight training unit. The method of claim 3,
The sight training unit has a sight training unit communication unit for communicating with the display device,
The display device has a display device communication unit for communicating with the vision training unit,
The control unit,
The visual training unit control unit for controlling the vision training unit communication unit so that the main distance information signal is transmitted to the display device, and the visual image based on the main distance information signal received from the vision training unit through the display device communication unit. Sight training system comprising a display device control unit for adjusting the size of the. The method of claim 3,
The sight training unit,
It includes an auxiliary distance sensor for detecting the distance to the eye portion of the user,
The control unit,
And a visual training system for adjusting the size of the visual image based on an integrated distance information signal including a main distance information signal detected by the main distance sensor and an auxiliary distance information signal detected by the auxiliary distance sensor. In the vision training method,
Preparing a display apparatus displaying a visual image and a vision training unit interoperating with the display apparatus;
Displaying the visual image on the display device;
Sensing a distance between the display device and the vision training unit;
And adjusting the size of the visual image based on the sensed distance. The method of claim 6,
Preparing a display device for displaying the visual image and the vision training unit to work with the display device,
Separating the display apparatus from the vision training unit by a predetermined reference distance;
Vision training method comprising the step of measuring the eyesight of the user. The method of claim 7, wherein
Displaying the visual image on the display device,
And displaying a visual image of the size according to the measured visual acuity and the reference distance. The method of claim 7, wherein
The step of separating the display device and the vision training unit by a predetermined reference distance,
Receiving a reference distance through a user input unit;
And a step of separating the display apparatus and the vision training unit by the reference distance received through the user input unit. The method of claim 6,
Adjusting the size of the image,
Calculating an image correction amount according to a distance difference from the preset reference distance;
And displaying the visual image to which the calculated image correction amount is applied, on the display device. The method of claim 6,
And when the distance between the display apparatus and the vision training unit deviates from a predetermined limit distance range including the preset reference distance, informing the user by visual, auditory or tactile expression. Training method.

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