BE1028116B1 - Auxiliary device and method for vision correction based on infrared distance measurement - Google Patents

Abstract

The present invention discloses an auxiliary device and method for vision correction based on infrared distance measurement, the device comprising a frame body, a plurality of miniature infrared distance meters, a microprocessor, a bluetooth device, an alarm indicator and a power supply. Through multiple miniature infrared range finders, the device can recognize the distance information of a target object in front of the user in real time, and communicates through a Bluetooth device with an external terminal having a calculation and analysis capability, and the external device can perform analysis and processing of the Data is realized and the processing results are sent back to a microprocessor by the Bluetooth device, and in accordance with the data results sent back, the microprocessor can trigger the alarm to start to alert the user to adjust the eye posture. With the method, the two conditions - the distance of the target object to the user's eyes and the time the target object is in the same spatial position - are used as early warning conditions to more precisely advise the user to maintain the correct eye use habits, what is more humane.

Description

'BE2020 / 5861 Auxiliary device and method for vision correction based on infrared distance measurement

TECHNICAL FIELD The present invention relates to the technical field of auxiliary devices for vision correction, in particular an auxiliary device and method for vision correction based on infrared distance measurement.

BACKGROUND ART At present, more and more people are suffering from myopia as people rely more and more on electronic products and have problems such as improper use of the eyes and poor eye usage habits. Many people wear frame glasses to correct their eyesight, but ordinary nearsighted glasses can only improve the refractive errors of nearsighted people and cannot adjust the eye use habits of people suffering from nearsightedness or pseudomyopia. Elementary and middle school students have insufficient self-discipline and knowledge of eye hygiene and safety, and they study at a desk for a long time in school, with their eyes too close to books. There is often the phenomenon that they keep a certain distance from books or other objects for a long time. Even if they wear normal glasses, their nearsightedness often increases due to inappropriate eye use habits. The role of normal glasses is not played obviously. Because of this, it has become an urgent problem for those skilled in the art to provide an auxiliary device for vision correction which indicates incorrect eye habits in real time.

CONTENT OF THE PRESENT INVENTION In view of this, the present invention provides an auxiliary device for vision correction based on infrared distance measurement, which can be connected to an external terminal and, through cooperation with the external terminal, can output a timely when the eye is too close is at the target object or is at a certain distance from the target object for too long a period of time in order to solve the problem of the existing vision corrective measures that the eye use habits of the people suffering from myopia or pseudomyopia cannot be adjusted and thus the degree of Myopia can easily be increased due to improper eye use habits. In order to achieve the above object, the present invention adopts the following technical solution:

a vision correction auxiliary device based on infrared rangefinder, comprising a frame body, a plurality of miniature infrared rangefinders, a microprocessor, a bluetooth device, an alarm indicator and a power supply; wherein the plurality of miniature infrared range finders are fixedly installed on the front edge of the frame body, and wherein the microprocessor, the bluetooth device, the alarm indicator and the power supply are each encapsulated inside on one side of the frame body, and wherein the plurality of miniature Infrared rangefinder, the bluetooth device and the alarm detector are each electrically connected to the microprocessor, and wherein the power supply is electrically connected to the microprocessor, the bluetooth device, the alarm detector and the multiple miniature infrared rangefinders. In the present invention, the miniature infrared range finders are mainly used to acquire the range data between the range finders and a target object in real time, the data is preprocessed by the microprocessor and then sent through the Bluetooth device to an external terminal communicating with it After the analysis by the external terminal device, the data is sent back to the microprocessor by the Bluetooth device, in accordance with the data results sent back, the microprocessor controls the alarm to start, in order to advise the user to adjust the eye position.

Preferably, the frame body comprises a mounting frame and two connecting legs, wherein the two connecting legs are symmetrically mounted on the two end portions of the mounting frame, and wherein the multiple miniature infrared range finders are each mounted on the front edge of the mounting frame, and one of the two connecting legs is a hollow one having inner cavity in the central portion, and wherein the microprocessor, the bluetooth device and the power supply are each encapsulated in the inner cavity, and wherein the alarm indicator is mounted on a trailing end of the connecting leg. The frame body is basically the same as the eyeglass frame (namely, the mounting frame) and the eyeglass legs (the connecting legs), with the miniature infrared range finders mounted at an appropriate position on the front end of the eyeglass frame, and other circuit components mounted in an eyeglass leg; so that the user can receive the advisory information accurately, the alarm indicator is mounted on a trailing end of the spectacle leg so that the alarm indicator can come close to the ear of the user.

The mounting frame preferably comprises two square frames and a connecting rod, the two square frames being firmly connected to one another by the connecting rod, and wherein the two connecting legs are each mounted on the outer end portion of the two square frames, and the multiple miniature infrared range finders each are mounted on the front edge of the two square frames.

Preferably, the miniature infrared rangefinders are provided in number of 12, the 12 miniature infrared rangefinders being arranged at two apex angles of the outside of the front end and the midpoint of four edges of the front end of each square frame.

A plane which is formed by the 4 miniature infrared range finders arranged at two vertex angles of the outer side of the front end of each square frame is preferably defined as a coronal plane and a plane oriented perpendicular to the coronal plane is defined as the sagittal plane, with that being defined by FIG Miniature infrared rangefinder arranged at two vertex angles of the outside of the front end of each square frame, infrared emitted an angle of 80 ° -90 ° with the coronal plane and an angle of 10 ° -20 ° with the sagittal plane.

In addition, the angle that the infrared emitted by the range finders at the center point on the left and right side makes with the sagittal axis is smaller than the angle of the range finders at the four corners of the outside, at the same time the angle that that through the one at the center point The miniature infrared range finders distributed between the upper and lower ram include infrared emitted with the sagittal axis, smaller than the angle of the range finders at the four corners of the outside. By appropriately adjusting the angle of the infrared rays emitted by the miniature infrared rangefinders, it can be ensured that the four infrared rays at the four corners of the outside with the square frame can enclose a triangular pyramid detection space, with the other 8 miniature infrared Rangefinder the enclosed detection space is divided into 8 parts in order to facilitate spatial positioning of the target object.

A control switch, which is electrically connected to the microprocessor, is preferably also arranged on one of the connecting legs. The control switch is mainly used to control the switching on and off of the circuit components, so that the power supply is disconnected by the control switch when not in use and connected before use in order to ensure a longer lasting power supply. A metal strip is preferably arranged in the interior of the other of the connecting legs, the two connecting legs having the same weight. In order to ensure the comfort of the user when carrying the device, a metal strip is arranged in the connecting leg without mounted circuit components, so that the two connecting legs have the same weight, there is no problem that one side is heavy and the other is light and thus the effect of use and the comfort of wearing are impaired.

The power supply is preferably a rechargeable battery, a charging interface furthermore being arranged on the connecting leg at a position facing the power supply, which is electrically connected to the rechargeable battery. The battery can be conveniently charged through the charging interface in order to ensure normal operation of the device.

On the other hand, the present invention further provides an auxiliary method for vision correction based on infrared ranging, comprising: collecting a plurality of sets of ranging data of the target object in real time; Dividing the detection area into a plurality of spaces in advance, determining the spatial position of the object in accordance with the obtained plural sets of distance data, and obtaining the time information of the target object at the current spatial position; Comparing the obtained distance data with the preset distance threshold and comparing the obtained time information with the preset time threshold; If the distance data meets the preset distance threshold and the time information exceeds the preset time threshold, an early warning is issued to advise the user to maintain proper eye posture. The distance threshold value is preferably 5 cm-20 cm and the time threshold value 30 s. If a target in the same or adjacent room has a distance to any of the 8 miniature infrared rangefinders other than the four corner rangefinders of 5cm-20cm in the sagittal axis and is in the same or adjacent room for more than 30s, the Early warning condition fulfilled, the user is now advised to observe the eye posture.

From the above technical solutions it can be seen that, compared to the prior art, the present invention provides an auxiliary device and method for vision correction based on infrared distance measurement Recognize in front of the user in real time and communicates through a Bluetooth device with an external terminal with a calculation and analysis capability, the analysis and processing of the data are implemented by the external device, the processing results are sent back to a microprocessor by the Bluetooth device In accordance with the returned data results, the microprocessor can trigger the alarm device to start, in order to advise the user to adjust the eye posture, with the method the two conditions - the distance of the target object to the eyes of the user ers and the time in which the target object is in the same spatial position - used as early warning conditions to more precisely advise the user to maintain the correct eye use habits, which is more humane.

> BE2020 / 5861

BRIEF DESCRIPTION OF THE DRAWING In order to explain the technical solution in the embodiments of the present invention or from the prior art more clearly, the figures to be used in the explanation of the embodiment or for the prior art are briefly presented below.

Obviously, the figures described below show only a few embodiments of the present invention. Those of ordinary skill in the art can obtain other figures based on the figures provided without creative work.

FIG. 1 shows a schematic overall structural view of an auxiliary device for vision correction based on infrared distance measurement according to the present invention. FIG. 2 shows a schematic partial structural view of an auxiliary device based on infrared distance measurement for vision correction from a different perspective in an embodiment of the present invention. FIG. 3 shows a schematic representation of the state of the spaces "divided" by the infrared emitted by the miniature infrared range finder from a perspective in an embodiment of the present invention. FIG. 4 shows a schematic representation of the state of the rooms "divided" by the infrared emitted by the miniature infrared range finder from a different perspective in an embodiment of the present invention. LIST OF REFERENCE NUMERALS 1-12 miniature infrared range finder 13 control switch 14 microprocessor 15 bluetooth device 16 charging interface 17 alarm indicator 18 power supply 19 metal strip 20 frame body 201 mounting frame 202 connecting leg

DETAILED DESCRIPTION In connection with figures in the embodiment of the present invention, the technical solutions in the embodiment of the present invention will be clearly and fully explained below. Obviously, the illustrated embodiments are not all embodiments, but only a part of embodiments of the present invention. All other embodiments recognized by those of ordinary skill in the art

Fields obtained on the basis of the embodiments in the present invention without creative work should be considered to be within the scope of the present invention. See FIG. 1, an embodiment of the present invention discloses an auxiliary device for vision correction based on infrared distance measurement, comprising a frame body 20, several miniature infrared distance meters, a microprocessor 14, a Bluetooth device 15, an alarm indicator 17 and a power supply 18 ; wherein the plurality of miniature infrared range finders are fixedly installed on the front edge of the frame body 20, and wherein the microprocessor 14, the bluetooth device 15, the alarm indicator 17 and the power supply 18 are each encapsulated inside on one side of the frame body 20, and wherein the plurality of miniature infrared range finders, the Bluetooth device 15 and the alarm indicator 17 are each electrically connected to the microprocessor 14, and wherein the Bluetooth device 15 is communicatively connected to an external terminal, and wherein the power supply 18 is each connected to the microprocessor 14, the bluetooth device 15, the alarm indicator 17 and the multiple miniature infrared range finders is electrically connected. See Figure 2, the frame body 20 comprises in particular a mounting frame 201 and two connecting legs 202, wherein the two connecting legs 202 are symmetrically mounted on the two end portions of the mounting frame 201, and wherein the multiple miniature infrared range finders are each mounted on the front edge of the mounting frame 202 are, and wherein one of the two connecting legs 202 has a hollow inner cavity in the central portion, and wherein the microprocessor 14, the bluetooth device 15 and the power supply 18 are each encapsulated in the inner cavity, and with the alarm indicator 17 at a downstream end of the connecting leg 202 is mounted.

See Figures 1 and 2, the mounting frame 201 comprises in particular two square frames and a connecting rod, the two square frames are firmly connected to one another by the connecting rod, and the two connecting legs 202 are each mounted on the outer end portion of the two square frames, and wherein the several miniature infrared rangefinders are each mounted on the front edge of the two square frames. The entire frame body 20 is the glasses frame structure, in particular the frame body in the present embodiment is a square glasses frame structure, the square frame is two lens mounting frames of the glasses frame and the connecting rod is a connecting part of the two lens mounting frames, in actual use is on one end of the connecting rod facing the eye furthermore mounts a nasal pad component, so that the glasses are more comfortable to wear.

In particular, the miniature infrared rangefinders are provided in a number of 12, the 12 miniature infrared rangefinders being respectively arranged at two vertex angles of the outside of the front end and the midpoint of four edges of the front end of each square frame, in particular they are at the positions with the reference numerals 1-12 according to FIG. 1.

If, in the present exemplary embodiment, a plane in which the miniature infrared range finders arranged at four corners of the outside of two square frames are located is defined as a coronal plane and a plane oriented perpendicular to the plane is defined as the sagittal plane, this is concluded by FIG At four vertex angles of the outside of the front end of two square frames arranged miniature infrared range finders, infrared emitted an angle of 80 ° -90 ° with the coronal plane and an angle of 10 ° -20 ° with the sagittal plane. The other 8 miniature infrared rangefinders distributed on the upper and lower frames emit the infrared on the sagittal plane and the coronal plane, in addition, is the angle that the infrared emitted by the miniature infrared rangefinder at the center point on the left and right side with of the sagittal axis is smaller than the angle of the miniature infrared rangefinder arranged at the four corners of the outside, at the same time the angle that the infrared emitted by the miniature infrared rangefinder distributed at the center of the upper and lower ram includes with the sagittal axis , smaller than the angle of the miniature infrared range finders placed at the four corners of the outside. In the present embodiment, the distance data acquired by the miniature infrared range finders 1-12 are uploaded by the Bluetooth device 15 to a nearby computer communicating with it, and the acquired distance information is simulated in a three-dimensional space by processing computer software , the space formed by the infrared emitted from the 4 miniature infrared range finders located on the side corners can be approximated as a triangular pyramid, the other 8 miniature infrared range finders can divide the triangular pyramid into 8 spaces if one Object enters perspective, the space it is in can be calculated, thereby calculating the distance of the object to the eyes, and recording the time it has been in the space. The time data can be implemented using the existing time measurement circuit or transferred to the computer. By setting a small program when the data is between 5 and 20 cm, Windows 10 sets the alarm clock to start with a timing of 30s (both positive and negative timing). If the time is up to 30 s, an alarm signal is triggered, which is reported back to Bluetooth and then to the buzzer. After calculating the space in which the object is located according to the distance by the computer software, the situation becomes that one in the same or adjacent

The target object located in the room has a distance to the miniature infrared rangefinder of 5 cm - 20 cm in the sagittal axis and has been in the same or adjacent room for longer than 30 seconds, reported back by the Bluetooth device 15 to the microprocessor 14, and the microprocessor 14 a command is issued to the alarm indicator 17, and the alarm indicator 17 triggers an alarm. In the present exemplary embodiment, the alarm signaling device can be a buzzer, in that the buzzer emits an advisory tone, the user is advised of the eye posture, the alarm signaling device 17 can also be a miniature vibration motor, the vibration emits an advisory signal that can alarm signaling also be another component with a notification and early warning function.

In some exemplary embodiments, a control switch 13, which is electrically connected to the microprocessor 14, is also arranged on one of the connecting legs. The switching on and off of the circuit components in the entire device are controlled by the control switch 13.

A metal strip 19 is preferably arranged in the interior of the other of the connecting legs 202, the two connecting legs 202 having the same weight. The metal strip 19 is mainly used for balancing the weight of the spectacle legs (namely the connecting legs) on the left and right sides.

In the present exemplary embodiment, the power supply 18 is a rechargeable battery, a charging interface 16 which is electrically connected to the rechargeable battery is also arranged on the connecting leg in a position facing the power supply. A battery slot is preferably provided on the connecting leg 202, in which the rechargeable battery is installed, the battery slot being covered by a removable battery cover; at the same time, the charging interface 16 can be provided on the battery cover in order to charge, assemble and dismantle the battery to facilitate.

In the present embodiment, the miniature infrared range finder is a laser miniature infrared range finder, and the infrared frequencies used by the 12 miniature infrared range finders are different to prevent mutual interference.

In the present exemplary embodiment, the miniature infrared rangefinders 1, 2, 3 and 4 generally have a measuring distance of within 50 cm and a precision of 2 mm, while the other 8 miniature infrared rangefinders 5, 6, 7 , 8, 9, 10, 11, and 12 typically have a measurement distance of within 10 cm and a precision of 1 mm.

On the other hand, the embodiment of the present invention further provides an auxiliary method for vision correction based on infrared distance measurement, comprising the following:

Step 1: Collecting multiple sets of range data of the target object in real time; Step 2: dividing the detection area into plural spaces in advance, determining the spatial position of the object in accordance with the obtained plural sets of distance data, and obtaining the time information of the target object at the current spatial position; Step 3: comparing the obtained distance data with the preset distance threshold and comparing the obtained time information with the preset time threshold; Step 4: if the distance data is 5cm-20cm and the time information exceeds 30s, an early warning is issued to advise the user to maintain the correct eye position.

In the implementation process, the user turns on the control switch 13, the miniature infrared meters 1-12 start operating and upload the detected distance value and the time value to a nearby device (such as a computer) through the Bluetooth device, then by changing the distance value and time value, the spatial position of the object is dynamically simulated, and the object is planned in the 8 spaces "divided" in advance by the miniature infrared range finders; when the object is in the same and adjacent room, the feedback distance is 5-20cm, and the time the object is in the room exceeds 30s, the computer sends the data signal through the bluetooth device to the microprocessor, the microprocessor controls the Buzzer to operate to alert the user to be mindful of the distance between the eyes and the object; when the device is not in operation, the control switch is turned off. The spaces "divided" by the infrared emitted by the miniature infrared range finders are as shown in Figures 3 and 4, the triangular pyramid formed by the range finders 1, 2, 3 and 4 provides a large room, and the respective 4 miniature -Infrared range finders on the two sides "divide" the room a smaller distance from the square frame, and the room is roughly divided into 8 parts, as shown in Figure 4. If an object enters the field of vision, it is planned in one or more of the 8 rooms, if it is in the same or adjacent room for longer than 30s, the alarm is triggered. In summary, the auxiliary device for vision correction based on the infrared distance measurement in the exemplary embodiment of the present invention has the following advantages compared to the prior art: In the present device, several miniature infrared distance meters are installed on the frame body, by means of which miniature Infrared rangefinder records the corresponding distance data, and through the bluetooth device the data is transmitted to the computer in the area, through the data analysis the computer divides the data in a certain area into several layers and transmits the results through the bluetooth device to the microprocessor, and in accordance with different results, the buzzer is woken up; if the object in the user's field of view comes too close to the eyes or the user holds a distance in a certain range for too long, the buzzer will alert the user to maintain proper eye posture.

The respective exemplary embodiments in the description are explained progressively. In each exemplary embodiment, the difference from another exemplary embodiment is explained as a focus, the same and similar parts of the respective exemplary embodiments see one another. Since the device disclosed in the exemplary embodiment corresponds to the method disclosed in the exemplary embodiment, the device is explained relatively simply; for the corresponding part, see the section on the method. With the above explanation of the disclosed embodiment, those skilled in the art can make or use the present invention. The various modifications of the exemplary embodiments will be apparent to those skilled in the art, and the general principles defined in the description can be implemented in other exemplary embodiments without departing from the spirit or scope of the present invention. Therefore, the present invention is not limited to the above-described embodiments, but the present invention corresponds to the broadest range that is consistent with the disclosed principles and creative points of the present description.

Claims (10)

EXPECTATIONS 1. Vision correction auxiliary device based on infrared rangefinder, characterized in that it comprises a frame body, several miniature infrared rangefinders, a microprocessor, a bluetooth device, an alarm indicator and a power supply; wherein the plurality of miniature infrared range finders are fixedly installed on the front edge of the frame body, and wherein the microprocessor, the bluetooth device, the alarm indicator and the power supply are each encapsulated inside on one side of the frame body, and wherein the plurality of miniature Infrared rangefinder, the Bluetooth device and the alarm indicator are each electrically connected to the microprocessor, and wherein the Bluetooth device is connected to an external terminal in a communicating manner, and wherein the power supply is connected to the microprocessor, the Bluetooth device, the alarm indicator and is electrically connected to the multiple miniature infrared rangefinders. 2. Auxiliary device for vision correction based on infrared distance measurement according to claim 1, characterized in that the frame body comprises a mounting frame and two connecting legs, the two connecting legs being symmetrically mounted on the two end portions of the mounting frame, and wherein the plurality of miniature infrared Range finders are each mounted on the front edge of the mounting frame, and wherein one of the two connecting legs has a hollow internal cavity in the central section, and wherein the microprocessor, the Bluetooth device and the power supply are each encapsulated in the internal cavity, and the alarm indicator on a trailing end of the connecting leg is mounted. 3. Auxiliary device for vision correction based on infrared distance measurement according to claim 2, characterized in that the mounting frame comprises two square frames and a connecting rod, the two square frames being firmly connected to one another by the connecting rod, and the two connecting legs each on the outer End portion of the two square frames are mounted, and wherein the multiple miniature infrared range finders are each mounted on the front edge of the two square frames. 4. The vision correction auxiliary device based on the infrared rangefinder according to claim 3, characterized in that the miniature infrared rangefinders are provided in number of 12, the 12 miniature infrared rangefinders each at two vertex angles of the outer side of the front end and the center of four edges of the front end of each square frame are located. 5. The auxiliary device for vision correction based on the infrared rangefinder according to claim 3, characterized in that a plane formed by the 4 miniature infrared rangefinders arranged at two vertex angles of the outer side of the front end of each square frame is a coronal plane and a plane perpendicular to the coronal plane is defined as the sagittal plane, wherein the miniature infrared range finder arranged at two vertex angles of the outside of the front end of each square frame is an angle of 80 ° - 90 ° with the coronal plane and an Includes angles of 10 ° - 20 ° with the sagittal plane. 6. Auxiliary device for vision correction based on infrared distance measurement according to claim 2, characterized in that a control switch which is electrically connected to the microprocessor is furthermore arranged on one of the connecting legs. 7. Auxiliary device for vision correction based on infrared distance measurement according to claim 2, characterized in that a metal strip is arranged in the interior of the other of the connecting legs, the two connecting legs having the same weight. 8. Auxiliary device for vision correction based on the infrared distance measurement according to claim 2, characterized in that the power supply is a rechargeable battery, wherein a charging interface is also arranged at a position facing the power supply on the connecting leg, which is connected to the rechargeable battery Battery is electrically connected. 9. A visual correction auxiliary method based on infrared ranging, characterized in that it comprises: - collecting multiple sets of range data of the target object in real time; dividing the detection area into multiple spaces in advance, determining the spatial position of the object in accordance with obtaining multiple sets of distance data and obtaining time information of the target object at the current spatial position; - comparing the distance data obtained with the preset distance threshold value and comparing the time information obtained with the preset time threshold value; If the distance data meets the preset distance threshold and the time information exceeds the preset time threshold, an early warning is given to advise the user to maintain the correct eye posture. 10. Auxiliary method for vision correction based on infrared distance measurement according to claim 9, characterized in that the distance threshold value is 5cm-20cm and the time threshold value is 30s.