CN112859385A - Intelligent myopia prevention device - Google Patents

Abstract

The embodiment of the invention relates to an intelligent device and discloses an intelligent myopia prevention device. The method comprises the following steps: the wearable glasses frame is characterized in that a retractable micro roller shutter is respectively arranged on a left lens frame and a right lens frame of the glasses frame, and covers the lens frames when the roller shutters are put down; the glasses frame is also provided with a photosensitive module and a control module, and the miniature roller shutter and the photosensitive module are in communication connection with the control module; the photosensitive module is used for detecting the brightness of light and sending the brightness detection result to the control module; the control module is used for receiving the brightness detection result, controlling the micro roller shutter to be placed down when the brightness detection result is lower than the set brightness threshold value, and controlling the micro roller shutter to be folded up when the brightness detection result is not lower than the set brightness threshold value. Therefore, whether the glasses are suitable for eyes (such as reading or doing homework) can be determined according to the light brightness on the basis of the traditional glasses, and the miniature roller shutter on the lens frame is controlled to be put down under the condition of too dark light, so that a user (such as a child) is prevented from reading or doing homework in a dark environment.

Description

Intelligent myopia prevention device

Technical Field

The embodiment of the invention relates to intelligent equipment, in particular to an intelligent myopia prevention device.

Background

With the high-speed development of economy in China, the living conditions of people are better and better, the requirements on the next generation are higher and higher, the children look like dragon and the women look phoenix, the reading burden of the current children is heavier, and in addition, the children like to play mobile phones and electronic games, the eyes are frequently used excessively, the percentage of the myopia eyes is higher and higher, so that the prevention and the protection of the myopia of the children are more and more important.

Disclosure of Invention

It is an object of embodiments of the present invention to provide an intelligent anti-myopia device that can help a user (e.g. a child) avoid using his or her eyes (e.g. reading or doing work) in a dark environment.

An embodiment of the present invention provides an intelligent myopia prevention device, including:

the wearable glasses frame is characterized in that a retractable micro roller shutter is arranged on each of a left lens frame and a right lens frame of the glasses frame, and the roller shutters cover the lens frames when being put down;

the glasses frame is also provided with a photosensitive module and a control module, and the miniature roller shutter and the photosensitive module are in communication connection with the control module;

the photosensitive module is used for detecting the light brightness and sending the brightness detection result to the control module;

the control module is used for receiving the brightness detection result, controlling the miniature roller shutter to be put down when the brightness detection result is lower than a set brightness threshold value, and controlling the miniature roller shutter to be put up when the brightness detection result is not lower than the set brightness threshold value.

Compared with the prior art, the embodiment of the invention can add a photosensitive function on the basis of the traditional glasses, determine whether the glasses are suitable for eyes (such as reading or doing work) according to the light brightness, and control the miniature roller shutter on the lens frame to be put down under the condition of too dark light, thereby avoiding users (such as children) from reading or doing work in a dark environment.

As a further improvement, the intelligent myopia prevention device may further include: the timing module is in communication connection with the control module; the timing module starts timing when the control module controls the miniature roller shutter to be folded, and sends a signal to the control module when the timing reaches a set time threshold; the control module is also used for controlling the miniature roller shutter to be put down after receiving the signal of the timing module. Thereby helping the user (e.g., a child) to control the eye wear time.

As a further improvement, the left side and the right side of the glasses frame are provided with telescopic support frames, and the support frames are in communication connection with the control module; the glasses frame is also provided with a displacement sensor which is in communication connection with the control module and used for detecting the distance between the glasses frame and a book and sending the distance detection result to the control module; the control module is further used for controlling the support frame to extend out when the distance detection result is lower than a set distance threshold value, and controlling the support frame to keep a retraction state when the detection result is not lower than the set distance threshold value. Thereby correcting the reading posture of the children and keeping the eyes of the children and the books at a certain distance.

As a further improvement, the telescopic support frame comprises at least two hollow short columns, the inner diameter of each short column is sequentially reduced, and the short columns are overlapped layer by layer in a contracted state; one end of the telescopic support frame is connected with one side of the glasses frame, the other end of the telescopic support frame is suspended in the air, and a sucker is arranged at the top of the suspended end; in the extended state, the short columns extend in sequence, and the top sucker is used for propping against the desktop; in the retracted state, each short column section is retracted and respectively telescoped to be perpendicular to one side of the glasses frame.

As a further improvement, the telescopic support frame is made of light metal.

As a further improvement, no lens may be arranged in the lens frame.

As a further improvement, the intelligent myopia prevention device may further include: the control module is in communication connection with a user terminal or a remote control platform through the wireless communication module, receives a control instruction or a setting instruction from the user terminal or the remote control platform, or reports data to the user terminal or the remote control platform. Thereby the head of a family can be through cell-phone APP remote control intelligence myopia prevention device.

As a further improvement, the control instruction includes at least one of: the instruction for controlling the miniature roller shutter to be retracted or put down or the instruction for controlling the telescopic support frame to be extended or retracted; the control module is also used for identifying the received control command, and controlling the miniature roller shutter to be folded or put down or controlling the telescopic support frame to be extended or retracted according to the identified result.

As a further improvement, the setting instruction includes at least one of: a brightness threshold setting instruction, a time threshold setting instruction, or a distance threshold setting instruction; the control module is further used for identifying the received setting instruction and setting the brightness threshold, the time threshold or the distance threshold according to the identified result.

As a further improvement, the control module is further configured to send, through the wireless communication module, a brightness detection result from the photosensitive module, a timing result from the timing module, and/or a distance detection result from the displacement sensor to the user terminal or a remote control platform.

Drawings

One or more embodiments are illustrated by way of example in the accompanying drawings, which correspond to the figures in which like reference numerals refer to similar elements and which are not to scale unless otherwise specified.

FIG. 1 is a schematic structural diagram of an intelligent myopia prevention device according to various embodiments of the present invention;

fig. 2 is a schematic diagram of connection of modules in an intelligent myopia prevention device according to various embodiments of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, it will be appreciated by those of ordinary skill in the art that numerous technical details are set forth in order to provide a better understanding of the present application in various embodiments of the present invention. However, the technical solution claimed in the present application can be implemented without these technical details and various changes and modifications based on the following embodiments.

The following embodiments are divided for convenience of description, and should not constitute any limitation to the specific implementation manner of the present invention, and the embodiments may be mutually incorporated and referred to without contradiction.

A first embodiment of the present invention relates to an intelligent myopia prevention apparatus, as shown in fig. 1, including:

a wearable glasses frame 101, wherein the left and right lens frames 102 of the glasses frame 101 are respectively provided with an electric control retractable micro rolling screen 103, the rolling screen 103 can be gray black, and the rolling screen 103 can cover the lens frames 102 when being put down. The lens frame 102 may not have a lens therein.

The glasses frame 101 is provided with a control module 104, the upper left corner and the upper right corner of the glasses frame 101 are respectively provided with a photosensitive module 105, and the internal control circuit of the micro roller shutter 103 and the photosensitive module 105 are respectively in communication connection with the control module 104.

The light sensing module 105 is used for detecting the brightness of the light and sending the brightness detection result to the control module 104.

The control module 104 is configured to receive the brightness detection result, and control the micro roller shutter 105 to be put down to cover the lens frame when the brightness detection result is lower than the set brightness threshold; when the brightness detection result is not lower than the set brightness threshold, the micro roller shutter 105 is controlled to be retracted, so that the eyes can be used normally.

Compared with the prior art, the embodiment of the invention adds the photosensitive function and the control function on the basis of the traditional glasses, thereby automatically determining whether the glasses are suitable for eyes (such as reading or doing homework) according to the light brightness, and controlling the micro roller shutter on the lens frame to be put down under the condition of too dark light, thereby preventing users (such as children) from reading or doing homework in a dark environment.

As a further improvement, the intelligent myopia prevention device may further include: a timing module 106 communicatively coupled to the control module 104; the timing module 106 starts timing when the control module 104 controls the micro roller shutter 105 to be retracted, and sends a signal to the control module 104 when the timing reaches a set time threshold, such as 45 minutes to 1 hour; the control module 104 is further configured to control the micro roller shutter 104 to put down to cover the eyes of the user after receiving the signal from the timing module 106, so as to help the user (e.g., a child) control the eye-using time and allow the eyes to rest.

The working process of the intelligent myopia prevention device can be as follows: the brightness threshold and the eye time threshold are set in the control module in advance. After a user wears a glasses frame like a child, the intelligent myopia prevention device is powered on, the light sensor is started, the timing module starts timing, the control module receives the brightness detection result of the light sensor at regular time, judges whether the brightness detection result is lower than a brightness threshold value, if the brightness detection result is lower than the brightness threshold value, the light is too dark, the micro roller shutter on the glasses frame is controlled to be opened, the eyes of the child are shielded, the eyes of the child can have a rest, and the situation that the eyes read under dim light to cause eye fatigue is avoided; if the brightness detection result is judged to be higher than or equal to the brightness threshold value, no processing is carried out; when the timed time reaches a preset eye use time threshold value, the timing module sends a signal to the control module, and the control module controls the miniature roller shutter on the spectacle frame to be put down to shield eyes and enable the eyes to start to rest. Thereby avoiding the user (such as children) reading or doing homework in dark environment or using eyes for too long time.

The process is not absolutely fixed and can be adaptively changed according to the specific functions of the modules. For example, it is not necessary for the control module to determine whether the brightness of light is sufficient, and for some light sensors with basic determination functions, a brightness threshold may be set inside the light sensor, the light sensor detects the brightness at regular time, and only when the brightness detection result exceeds the preset brightness threshold, the brightness signal is sent to the control module, and after the control module receives the brightness signal, the micro roller shutter on the mirror frame is directly controlled to open without determination, so as to shield the eyes of the child.

Can also set up the opening time threshold value at intelligence myopia prevention device, miniature roll of curtain on the picture frame is opened, when hiding child's eyes, timing module restarts the timing, after eyes rest a period, when reaching the opening time threshold value, timing module sends the second signal to control module, control module receives the miniature roll of curtain of control after the second signal and rolls up, children can continue to read, if light still is very dark this moment, control module can control puts down miniature roll of curtain once more, do not let children use the eye under dim light. Thus achieving the effect of protecting eyes.

The second embodiment of the invention relates to an intelligent myopia prevention device, which is further improved on the basis of the first embodiment. As shown in fig. 2, in the present embodiment, the left and right sides of the glasses frame 101 are provided with electrically controlled telescopic supports 107, and the control circuit of the support 107 is connected to the control module 104 in a communication manner; the glasses frame 101 is further provided with a displacement sensor 108, such as a CMOS laser displacement sensor, which is in communication connection with the control module 104, and is used for detecting the distance between the glasses frame 101 and the book, and sending the distance detection result to the control module 104; the control module 104 is further configured to control the supporting frame 107 to extend when the received distance detection result is lower than a set distance threshold, such as lower than 35cm, and control the supporting frame 107 to maintain the retracted state when the received distance detection result is not lower than the set distance threshold.

As a further improvement, the telescopic support frame 107 is made of light metal material, and comprises at least two hollow short columns, the inner diameter of each short column is sequentially reduced, and the short columns are overlapped layer by layer in a contraction state; one end of the telescopic support frame 107 is connected with one side of the glasses frame, the other end of the telescopic support frame is suspended in the air, and a sucker is arranged at the top of the suspended end; in the extended state, the short columns extend in sequence, and the top sucker is used for propping against the desktop; thereby correcting the reading posture of the children and keeping the eyes of the children and the books at a certain distance; in the retracted state, each short column joint is retracted and respectively telescoped to be perpendicular to one side of the glasses frame.

A third embodiment of the invention relates to an intelligent myopia prevention device, which is further improved on the basis of the first or second embodiment. In this embodiment, the intelligent myopia prevention device may further include a wireless communication module 109, and the control module 104 is in communication connection with the user terminal or the remote control platform through the wireless communication module, and receives a control instruction or a setting instruction from the user terminal or the remote control platform, or reports data to the user terminal or the remote control platform.

Wherein, the control instruction may include: the command for controlling the miniature roller shutter to be folded or unfolded, the command for controlling the telescopic support frame to be extended or retracted and the like. The control module is also used for identifying the received control command, and controlling the miniature roller shutter to be retracted or put down or controlling the telescopic support frame to be extended or retracted according to the identified result.

The setting instructions may include: a brightness threshold setting instruction, a time threshold setting instruction, or a distance threshold setting instruction, or the like; the control module is also used for identifying the received setting instruction and setting the brightness threshold, the time threshold or the distance threshold according to the identified result.

Thereby the head of a family can be through cell-phone APP remote control intelligence myopia prevention device.

As a further improvement, the control module may be further configured to transmit the brightness detection result from the light sensing module, the timing result from the timing module, and/or the distance detection result from the displacement sensor to a user terminal or a remote control platform through the wireless communication module. So that parents can know the eye using environment and the eye using frequency of the children at any time and determine whether to intervene.

Specifically, in this embodiment, the data reported by the intelligent myopia prevention device may include a brightness detection result detected by the photosensitive module at regular time, a distance detection result detected by the displacement sensor at regular time, a winding-up time length of the micro roller shutter calculated by the timer, a winding-down time length of the micro roller shutter calculated by the timer, a feedback of the execution control instruction, for example, a feedback of the execution instruction of controlling the winding-up or winding-down of the micro roller shutter, a feedback of the execution instruction of controlling the extension of the retractable support frame, a feedback of the execution instruction of controlling the retraction of the retractable support frame, and the like.

The control module of the intelligent myopia prevention device can directly report data to the user terminal through the wireless communication module, or the control module can report the data to the remote control platform through the wireless communication module, and the user terminal is connected with the remote control platform by itself to acquire related data.

In addition, the control module can also comprise an automatic mode and a manual mode, and the currently applicable mode is selected according to the instruction of a user. In the automatic mode, the control module performs automatic judgment and control according to the mode of the first or second embodiment of the invention; in the manual mode, the control module performs specific control according to a control instruction of a user terminal or a remote control platform, such as controlling the miniature roller shutter to be retracted or put down, or controlling the retractable support frame to extend or retract.

For example, the parents can close the automatic control mode and change the automatic control mode into a manual control mode, the parents see the signal that the head of a child is low or the light is dark on a user terminal such as a mobile phone, and can automatically determine whether to remotely send a control instruction through the mobile phone, manually control the telescopic support frame to lift out to support a table or put down a miniature roller shutter in a glasses frame, so that the eyes of the child can have a rest.

During concrete realization, the head of a family can receive the prompt message of light luminance and distance through in the cell-phone APP, but the head of a family remote control opens the curtain, packs up metal support, lets child continue reading with correct posture and reads. The intelligent myopia prevention device comprises a wireless communication module of LTE CAT-M/NB-IOT, can communicate with a mobile phone, informs parents of opening a curtain when needed through a mobile phone APP, enables the eyes of a child to have a rest, enables the eyes of the child to have a certain distance from a book when needing to stretch out a metal support, and can perform related operations and actions.

The wireless communication module is preferably an LTE CAT-M/NB-IoT communication module, the LTE CAT-M/NB-IoT communication module can work under the condition of low power consumption, the cost is reduced, the device can work for a longer time by using the same electric quantity, and the wireless communication module is very suitable for the requirement of the embodiment because the data volume transmitted by the wireless communication module every day is very small in the embodiment.

The wireless communication module of this embodiment can not need the voice function, and its main role is to make intelligent myopia prevention device can go to user terminal cell-phone APP to data transmission such as specific light, time, distance.

In specific implementation, the whole development can use MCU and Embedded AT software in the wireless communication module to realize the function of the control module, and an external MCU or Flash is not required to be additionally added, so that the cost of the intelligent myopia prevention device can be reduced to the lowest.

The wireless communication module of the intelligent myopia prevention device can be Embedded with an SIM (Embedded SIM) card and an antenna, so that the intelligent myopia prevention device can communicate with a mobile phone APP (application) or a remote control platform through short messages or data transmission, and has a wireless communication function. Or, the wireless communication module also can have the wifi function, and through wifi network access home LAN, through the LAN and cell-phone APP or the remote control platform of family carry out communication.

Through this embodiment, through having added wireless communication module such as LTE CAT-M/NB-IoT at intelligent myopia prevention device, can make them have with the communication ability of cell-phone, can be from the last data transfer who obtains of device to the cell-phone, can send information such as light luminance, time of using the eye, eyes books distance to the APP on the keeper cell-phone on long-range, the head of a family can be used for conveniently monitoring user's the process of using the eye, the head of a family can monitor child's condition of using the eye at any time like this, and can manual remote control intelligent myopia prevention device, put down the operation of glasses curtain or extension metal rod support. So, through intelligent myopia prevention device, the head of a family can control children's time of using the eye and with the eye distance. By insisting on using the intelligent myopia prevention device every day, the purpose of preventing myopia can be achieved.

It will be understood by those of ordinary skill in the art that the foregoing embodiments are specific examples for carrying out the invention, and that various changes in form and details may be made therein without departing from the spirit and scope of the invention in practice.

Claims (10)

1. An intelligent myopia prevention device, comprising:

the wearable glasses frame is characterized in that a retractable micro roller shutter is arranged on each of a left lens frame and a right lens frame of the glasses frame, and the roller shutters cover the lens frames when being put down;

the glasses frame is also provided with a photosensitive module and a control module, and the miniature roller shutter and the photosensitive module are in communication connection with the control module;

the photosensitive module is used for detecting the light brightness and sending the brightness detection result to the control module;

the control module is used for receiving the brightness detection result, controlling the miniature roller shutter to be put down when the brightness detection result is lower than a set brightness threshold value, and controlling the miniature roller shutter to be put up when the brightness detection result is not lower than the set brightness threshold value.

2. The intelligent myopia prevention device of claim 1, further comprising: the timing module is in communication connection with the control module;

the timing module starts timing when the control module controls the miniature roller shutter to be folded, and sends a signal to the control module when the timing reaches a set time threshold;

the control module is also used for controlling the miniature roller shutter to be put down after receiving the signal of the timing module.

3. The intelligent myopia prevention device of claim 1, wherein telescopic supports are arranged on the left side and the right side of the glasses frame, and the supports are in communication connection with the control module;

the glasses frame is also provided with a displacement sensor which is in communication connection with the control module and used for detecting the distance between the glasses frame and a book and sending the distance detection result to the control module;

the control module is further used for controlling the support frame to extend out when the distance detection result is lower than a set distance threshold value, and controlling the support frame to keep a retraction state when the detection result is not lower than the set distance threshold value.

4. The intelligent myopia prevention device of claim 3, wherein the retractable support comprises at least two hollow short columns, the inner diameter of each short column is sequentially reduced, and the short columns are overlapped layer by layer in a retracted state;

one end of the telescopic support frame is connected with one side of the glasses frame, the other end of the telescopic support frame is suspended in the air, and a sucker is arranged at the top of the suspended end;

in the extended state, the short columns extend in sequence, and the top sucker is used for propping against the desktop; in the retracted state, each short column section is retracted and respectively telescoped to be perpendicular to one side of the glasses frame.

5. The intelligent myopia prevention device of claim 1, wherein the retractable support frame is made of light metal.

6. The intelligent myopia prevention device of claim 1, wherein no lens is disposed within the lens frame.

7. The intelligent myopia prevention device of claim 1, further comprising: the control module is in communication connection with a user terminal or a remote control platform through the wireless communication module, receives a control instruction or a setting instruction from the user terminal or the remote control platform, or reports data to the user terminal or the remote control platform.

8. The intelligent myopia prevention device of claim 7, wherein the control instructions include at least one of: the instruction for controlling the miniature roller shutter to be retracted or put down or the instruction for controlling the telescopic support frame to be extended or retracted;

the control module is also used for identifying the received control command, and controlling the miniature roller shutter to be folded or put down or controlling the telescopic support frame to be extended or retracted according to the identified result.

9. The intelligent myopia prevention device of claim 7, wherein the setup instructions include at least one of: a brightness threshold setting instruction, a time threshold setting instruction, or a distance threshold setting instruction;

the control module is further used for identifying the received setting instruction and setting the brightness threshold, the time threshold or the distance threshold according to the identified result.

10. The intelligent myopia prevention device of claim 7, wherein the control module is further configured to send the brightness detection result from the photosensitive module, the timing result from the timing module, and/or the distance detection result from the displacement sensor to the user terminal or a remote control platform through the wireless communication module.

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