CN210785294U - Portable vision training instrument - Google Patents

Abstract

The utility model discloses a portable vision training instrument, which is applied to the vision training of users and comprises a shell, a display module, a storage module, an audio power amplification module, a power module, an information input module and a control module; the utility model discloses a portable visual training appearance can make reasonable training plan for different users to different users 'eyesight circumstances, ensures visual training's effect, can help the user carry out the distant and near point visual training of high-efficient fruit anytime and anywhere simultaneously.

Description

Portable vision training instrument

Technical Field

The utility model belongs to the eyesight training field, a special design portable eyesight training appearance.

Background

The pathogenesis of the myopia is that the eyes see objects in close range for a long time, so that the near-far adjusting ability of ciliary muscles, crystalline lenses and the like of the eyes is lost, and the axial distance of the eyeballs is elongated and fixed for a long time. At present, most of techniques related to vision adjustment adopt a Betz vision training method and a dynamic image means to exercise eyes at various angles in up-down, left-right and front-back directions, so as to change the front-back axis of the extended eyeball and achieve the purpose of improving vision, but the effect is very little and even no effect is achieved. In the prior art, the eye acupuncture points are used for massaging, and although the eyes feel comfortable due to relaxation after use, the actual vision cannot be improved. In the prior art, the eye is linearly reciprocated back and forth to exercise the adjusting capability of ciliary muscles, but the speed is slow, the eye can not be intensively adjusted, the eye can not form obvious back and forth adjusting memory effect, and the effect of improving the eyesight is not obvious.

SUMMERY OF THE UTILITY MODEL

The utility model provides a portable visual training appearance, its easy operation conveniently carries, can satisfy the daily visual training of user and use. The specific technical scheme is as follows.

A portable vision training instrument comprising a housing, the housing comprising:

the display module is embedded in one surface of the shell;

the storage module is arranged in the shell and comprises a built-in storage unit and an extended storage unit, and the extended storage unit corresponds to the extended storage opening on the shell;

the audio power amplification module is arranged inside the shell and corresponds to the hole on the shell;

the power supply module is arranged in the shell and corresponds to the charging socket on the shell;

the information input module comprises an operation key and an information input circuit, the operation key is movably embedded in the shell, and the information input circuit is arranged in the shell;

and the control module is arranged in the shell and connected with the display module, the storage module, the audio power amplification module, the power supply module and the information input module.

Specifically, the portable vision training instrument further comprises: the infrared distance measuring module is embedded in the shell and used for detecting the distance between the portable vision training instrument and a user in real time; the infrared distance measuring module is connected with the control module.

Specifically, the portable vision training instrument further comprises: the camera module is embedded in the shell and used for detecting whether the user is positioned right in front of the portable vision training instrument in real time; the camera module is connected with the control module.

Specifically, the display module comprises an LCD (liquid crystal display) screen and a display control unit, and the display control unit is respectively connected with the LCD screen and the control module.

Specifically, the audio power amplification module comprises an audio processing unit, an internal speaker and an external earphone output unit; the audio processing unit is connected with the control module, the built-in loudspeaker and the external earphone output unit.

In particular, the apertures include distributed apertures and headphone apertures; the internal loudspeaker corresponds to the distributed orifice, and the external earphone output unit corresponds to the earphone orifice.

Specifically, the power supply module comprises a charging interface unit, a power supply management unit, a battery and an electricity conversion unit; the power supply management unit is connected with the power supply and the electric conversion unit; the electric conversion unit is connected with the charging interface unit and the battery; the charging interface unit corresponds to the charging check button.

Specifically, the operation keys include a video speed adjustment key, a volume adjustment key, a background music selection key, a play stop key, and a power switch key.

The portable vision training instrument according to any one of the above descriptions, further comprising a light sensing module for detecting the external actual brightness of the portable vision training instrument in real time; the light induction module is connected with the control module.

The utility model has the advantages as follows:

the utility model discloses a portable visual training appearance can make reasonable training plan for different users to different users 'eyesight circumstances, ensures visual training's effect, can help the user carry out the distant and near point visual training of high-efficient fruit anytime and anywhere simultaneously.

Drawings

Fig. 1 is a schematic structural view of a vision training apparatus according to an embodiment of the present disclosure;

FIG. 2 is a schematic block circuit diagram of a vision training apparatus according to an embodiment of the present disclosure;

fig. 3 is a schematic overall configuration diagram of a vision training apparatus according to an embodiment of the present disclosure.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings.

The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings:

as shown in fig. 1, fig. 2 and fig. 3, the vision training apparatus of the embodiment of the present invention includes a housing, and the housing of the embodiment is made of a high molecular polymer, such as polyethylene, and has the characteristics of high durability and drop resistance;

further comprising:

a display module embedded on a surface of the housing 100; the display module is used for displaying dynamic images;

the storage module is arranged in the shell and comprises a built-in storage unit and an extended storage unit, and the extended storage unit corresponds to the extended storage opening on the shell; the storage module is used for storing data information of the dynamic image;

the audio power amplification module is arranged inside the shell and corresponds to the hole on the shell; the audio power amplification module is used for playing music;

the power supply module is arranged in the shell and corresponds to the charging socket on the shell;

and the information input module comprises an operation key and an information input circuit, such as a USB interface and the like. The operation key can be movably embedded in the shell, and the information input circuit is arranged in the shell; the information input module is used for inputting information;

the portable training instrument further comprises a light sensing module, wherein the light sensing module is used for sensing the using environment of the portable vision training instrument and adjusting the display brightness of the display module according to the brightness of the environment, so that the eyes of a user can adapt to the environment, the user can quickly enter the vision training state, and the vision training effect is improved.

And the control module is arranged in the shell and is connected with the display module, the storage module, the audio power amplification module, the power supply module, the information input module and the light sensing module.

In this embodiment, the portable vision training instrument further includes an infrared ranging module embedded in the housing for detecting a distance between the portable vision training instrument and a user in real time; the infrared distance measuring module is connected with the control module. Specifically, the control module controls the infrared ranging module in real time to detect the distance between the user and the real-time vision training instrument so as to ensure that the user is in the correct vision training distance and prevent the user from being capable of correcting dislocation caused by other factors.

In this embodiment, the portable vision training instrument further includes a camera module embedded in the housing for detecting whether the user is located right in front of the portable vision training instrument in real time; the camera module is connected with the control module. The camera module is used for shooting images of the head of a user in real time and transmitting the shooting information to the control module for image processing, so that the portable vision training instrument can be placed in the position right in front of the user to be detected, and the user can be guaranteed to correctly use the vision training instrument for vision training.

In this embodiment, the display module is used for displaying dynamic images, and the display module includes an LCD liquid crystal screen 1 and a display control unit, and the display control unit is connected to the LCD liquid crystal screen 1 and the control module respectively.

In this embodiment, the audio power amplifying module includes an audio processing unit, an internal speaker, and an external earphone output unit; the audio processing unit is connected with the control module, the built-in loudspeaker and the external earphone output unit. The audio power amplification module is used for playing background music corresponding to the dynamic images.

In the present embodiment, the apertures include a distributed aperture 2 and an earpiece aperture 3; the internal loudspeaker corresponds to the distributed orifice 2, and the external earphone output unit corresponds to the earphone orifice 3. The diversity of the orifices is set, so that a user can select different listening modes in different environments, and the training effect is improved.

In this embodiment, the storage module is configured to store data information of a moving image, including related information such as video, audio, or a moving image for training.

In this embodiment, the power module includes a charging interface unit, a power management unit, a battery, and an electricity conversion unit; the power supply management unit is connected with the power supply and the electric conversion unit; the electric conversion unit is connected with the charging interface unit and the battery; the charging interface unit corresponds to the charging socket 4.

In the present embodiment, the operation keys include a video time speed setting key 5, a volume adjustment key 6, a background music selection key 7, a play stop key 8, and a power switch key 9. Furthermore, the keys respectively correspond to the display module, the audio power amplification module, the control module and the power supply module.

In this embodiment, the portable eyesight training instrument is small in size and convenient to carry and use. The portable vision training instrument is 8 cm in length, 5cm in width, 0.5 cm in thickness and as big as a mobile phone, and is convenient for a user to use at any time and any place

According to another aspect of the present embodiment, there is provided a vision training method based on the above portable vision training instrument, including the following steps:

in this embodiment, the vision training method further includes: the vision training instrument is placed right in front of the eyes of the user and is positioned on the same horizontal plane with the eyes of the user; the reference distance is greater than or equal to 10cm and less than or equal to 15 cm.

In this embodiment, the vision training method further includes: and the user uses the vision training instrument to start through the power switch key and plays the dynamic image through the play stop key.

In this embodiment, the vision training method further includes: the user looks directly into the dynamic image in the display module and adjusts the distance as the dynamic image changes.

In this embodiment, the vision training method further includes: the user performs temporary operation in the midway according to the playing time, and then plays the dynamic image again until the training is finished

In this embodiment, the vision training method further includes: and the user circularly executes the training method according to the using effect of the vision training instrument.

In this embodiment, the playing the moving image includes: the marker displayed in the dynamic image is specifically displayed as a process in which the marker is a loop that is gradually decreased from large to small and then gradually increased from small to large.

In this embodiment, the vision training method further includes: and playing sound according to the playing speed of the dynamic image and the frequency time information of the adjusting distance.

In this embodiment, the user takes a sitting posture or stands, places the vision training instrument at a position about 10cm from the eyes, the height of the vision training instrument is equal to the height of the eyes, a person wearing the myopia glasses can place the vision training instrument far as appropriate, the distance of the vision training instrument is adjusted within 15cm to be clear, the play switch key is turned on, and the display module plays videos to train the vision.

According to a second aspect of the present embodiment, there is provided another vision training method based on the above portable vision training instrument, comprising the following steps:

setting a visible target object, and setting the distance at which a user can clearly see the target object as a reference distance;

and setting the playing speed and the playing time of the dynamic image according to the reference distance, setting the distance for the user to watch the dynamic image and adjusting the frequency of the distance to generate a corresponding vision training method.

In this embodiment, the vision training method further includes: acquiring vision data information of a user; the user vision data information comprises historical vision data information and current vision data information. Such as the refractive medium of the user's eye, etc.

In this embodiment, the vision training method further includes: and setting vision training time according to the current vision data information.

In this embodiment, the number of vision training cycles is set according to the vision training time.

In this embodiment, the setting of the visual target object includes: the visual target object is arranged right in front of the eyes of the user and on the same horizontal line with the eyes of the user.

In this embodiment, the visual target is disposed at the center of the screen of the moving image.

In the present embodiment, the moving image includes: the visual properties of the dynamic image may be adjusted according to the user performing the vision training process.

In the present embodiment, the moving image includes: the dynamic process of the dynamic image is a cyclic process that the image is changed from big to small and then from small to big. In another embodiment, the images in the dynamic image can be any variation of letters, Chinese characters, various pictures and photos.

In this embodiment, the vision training method further includes: and playing sound according to the playing speed of the dynamic image and the frequency time information of the adjusting distance. In another embodiment, the sound includes background music, which may or may not be present during playing of the dynamic image, and may also be configured with sounds such as vocals, videos, novels, songs, vocals, instrumental music, and other audio files according to personal preferences.

In this embodiment, the vision training method further includes: when the vision training performed by the user is finished, acquiring the vision data information of the user; the obtained user vision data information is used for storing and comparing with the previous user data information, and the effect of vision training is reflected.

According to yet another embodiment of the present invention, there is provided a method for using a portable training apparatus based on the above, comprising the steps of:

the user starts the vision training instrument through the power switch key;

playing the dynamic image in the display module through the play stop key;

adjusting the playing speed and the playing time of the dynamic image through the video time speed setting key;

selecting background music corresponding to the dynamic image through the background music selection key, and adjusting the volume of the background music by using the volume;

and controlling the playing to be paused midway, played again and stopped by the playing stop key.

The utility model discloses must start to use behind the fixed instrument of strict accordance with the operation step, ensure that the instrument height is suitable, the left and right sides position is suitable, the front and back position is suitable, ensures that the image is in user's dead ahead to motion straight line in the dynamic image is 90 degrees vertical states with user's eyes place plane. The method mainly comprises the following steps:

1, a user adopts a sitting posture or a standing posture, and the head of the user is kept straight; 2, setting the height of the instrument by using an adjustable bracket, preferably the height of the instrument from the ground is equal to the height of the ground connected with the midpoint of two eyes; 3, setting the position of the instrument by using the adjustable bracket, and preferably enabling the instrument to be positioned right in front of a user; 4 adjusting the distance position of the instrument or adjusting the distance position of the instrument according to the actual vision condition of the user after the instrument is played, so that the user can see the minimum image clearly. The used images of the utility model are implanted into the mobile phone, the mp4 or other portable playing devices and then used at will, otherwise, the training effect is not obvious due to the misalignment of the image movement direction line and the front and back adjusting line of the eyeball, and even the serious consequence of the strabismus of the eyes of the user is caused.

The utility model exercises ciliary muscle adjusting ability of the user by using the pure near-far adjustment dynamic image which accords with the user, is beneficial to the eyes to quickly generate memory effect, recovers the adjusting function of the eyes and promotes the eyesight to recover to normal; the speed suitable for the practical far and near adjustment of the eyes of a user is adopted to adjust the dynamic images to do the circulating reciprocating motion of far and near distances at a medium speed and rapidly without stopping, the speed of the dynamic images accords with the adjustment speed of ciliary muscles, the eyeball is simulated to be extruded, stretched, re-extruded and re-stretched, the three-dimensional adjustment capability of the ciliary muscles is exercised, and after the dynamic images are continuously used for a period of time, the eyeball can generate a memory effect and can consciously adjust far and near distances, so that the aim of vision training is fulfilled.

Furthermore, the embodiment of the utility model provides a portable visual training appearance's simple structure, the size is small and exquisite, facilitates the use, generates the cost, is applicable to most families.

The above embodiments are merely for full disclosure and not for limitation, and all changes that can be made without inventive step based on the inventive idea of the present invention should be considered as the scope of the disclosure of the present application.

Claims (9)

1. The utility model provides a portable visual training appearance, is applied to user's visual training, portable visual training appearance includes the casing, its characterized in that still includes:

the display module is embedded in one surface of the shell;

the storage module is arranged in the shell and comprises a built-in storage unit and an extended storage unit, and the extended storage unit corresponds to the extended storage opening on the shell;

the audio power amplification module is arranged inside the shell and corresponds to the hole on the shell;

the power supply module is arranged in the shell and corresponds to the charging socket on the shell;

the information input module comprises an operation key and an information input circuit, the operation key is movably embedded in the shell, and the information input circuit is arranged in the shell;

and the control module is arranged in the shell and connected with the display module, the storage module, the audio power amplification module, the power supply module and the information input module.

2. The portable vision training apparatus of claim 1, further comprising: the infrared distance measuring module is embedded in the shell and used for detecting the distance between the portable vision training instrument and a user in real time; the infrared distance measuring module is connected with the control module.

3. The portable vision training apparatus of claim 1, further comprising: the camera module is embedded in the shell and used for detecting whether the user is positioned right in front of the portable vision training instrument in real time; the camera module is connected with the control module.

4. The portable vision training apparatus of claim 1, wherein the display module comprises an LCD screen and a display control unit, and the display control unit is connected to the LCD screen and the control module respectively.

5. The portable vision training apparatus of claim 1, wherein the audio power amplification module comprises an audio processing unit, an internal speaker and an external earphone output unit; the audio processing unit is connected with the control module, the built-in loudspeaker and the external earphone output unit.

6. The portable vision training instrument of claim 5, wherein the apertures comprise distributed apertures and headphone apertures; the internal loudspeaker corresponds to the distributed orifice, and the external earphone output unit corresponds to the earphone orifice.

7. The portable vision training instrument of claim 1, wherein the power supply module comprises a charging interface unit, a power management unit, a battery, and an electrical conversion unit; the power supply management unit is connected with the power supply and the electric conversion unit; the electric conversion unit is connected with the charging interface unit and the battery; the charging interface unit corresponds to the charging check button.

8. The portable vision training apparatus of claim 1, wherein the operation keys include a video speed adjustment key, a volume adjustment key, a background music selection key, a play stop key, and a power on/off key.

9. The portable vision training apparatus of any one of claims 1 to 8, further comprising a light sensing module for detecting an actual brightness outside the portable vision training apparatus in real time; the light induction module is connected with the control module.

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