CN221225208U - Myopia-preventing sitting posture correcting intelligent glasses - Google Patents

Abstract

The utility model discloses myopia-preventing sitting posture correcting intelligent glasses, which belong to the technical field of glasses structures and comprise a glasses frame body, wherein the glasses frame body comprises glasses legs, a sitting posture correcting box is arranged in the middle section of one of the glasses legs, the inside of the sitting posture correcting box is hollow, a circuit board is arranged in the sitting posture correcting box, a rechargeable battery, a six-axis gyroscope, a data processor and a prompting lamp are connected to the circuit board, the prompting lamp is positioned at the side face position of the sitting posture correcting box facing to eyes of a wearer, and the six-axis gyroscope senses the angle of the face of the wearer when the glasses are worn.

Description

Myopia-preventing sitting posture correcting intelligent glasses

Technical Field

The utility model belongs to the technical field of glasses structures, and particularly relates to an intelligent glasses for correcting myopia-preventing sitting postures.

Background

With the abnormal eyes of modern teenager students, the problem of myopia universality is not negligible, and the myopia rate is increased along with the rise of kindergarten, primary school, middle school and high school. Therefore, the national important demands for myopia prevention and control in China are oriented, and the eye habit of poor sitting posture for a long time needs to be corrected and reminded due to too close reading and operation, so that the myopia rate is reduced. The cause of teenager myopia is mostly caused by bad eye habit, lighting environment and eye time besides inheritance. There is therefore a need for a device that is worn at all times for detecting and prompting the teenagers proper eye usage.

Disclosure of utility model

Therefore, the utility model aims to provide the myopia-preventing sitting posture correcting intelligent glasses, and the angles of wearing the glasses are sensed through the six-axis gyroscope.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

The utility model discloses myopia-preventing sitting posture correcting intelligent glasses, which comprise a glasses frame body, wherein the glasses frame body comprises glasses legs, a sitting posture correcting box is arranged in the middle section of one of the glasses legs, the inside of the sitting posture correcting box is hollow, a circuit board is arranged in the sitting posture correcting box, a rechargeable battery, a six-axis gyroscope, a data processor and a prompting lamp are connected to the circuit board, the prompting lamp is positioned at the side face position of the sitting posture correcting box facing to eyes of a wearer, and the six-axis gyroscope senses the angle of the face of the wearer when the wearer wears the glasses.

Further, a buzzer is further arranged at the tail end of the glasses leg, and the buzzer is connected with the circuit board.

Further, the sitting posture correcting box is provided with a charging display lamp on one side far away from eyes.

Further, the front side of the glasses frame body is provided with a distance, and the distance sensor senses the distance between the face of the wearer and the tabletop.

Further, the mirror holder body is provided with an atomization lens, and the atomization lens is in a frosted state when being electrified and is in a transparent state when being powered off.

Further, the front section and the rear section of the glasses leg are respectively provided with an extension section.

The utility model has the beneficial effects that:

According to the utility model, the head posture of a wearer wearing glasses can be accurately sensed by the six-axis gyroscope, the data of the six-axis gyroscope is recorded by the data processor, signals are sent to the prompting lamps, the prompting lamps select bionic lamps, the prompting lamps face the eyes of the wearer from the positions of the glasses legs, when the low head angle of the wearer is too low or the head angle is too high, the wearer can be reminded of the wearer in a flickering mode through the prompting lamps, and the like, so that the wearer can immediately correct sitting postures, the intelligent glasses for correcting sitting postures can be worn for teenagers, whether the intelligent glasses are myopia or not can be used, the wearer without myopia adopts a flat lens, the glasses are comprehensive in sensing, prompt is instant, and the occurrence rate of myopia is reduced along with the use of the wearer.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model. The objects and other advantages of the utility model may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the specification.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present utility model more clear, the present utility model provides the following drawings for description:

fig. 1 is a first perspective view of a frame body according to an embodiment of the present utility model;

Fig. 2 is a second perspective view of the frame body according to the embodiment of the present utility model;

The figures are marked as follows: 1. a frame body; 11. a temple; 12. an extension section; 2. a sitting posture correcting box; 31. a circuit board; 32. a rechargeable battery; 33. a six-axis gyroscope; 34. a data processor; 35. a warning light; 36. illuminating the ultraviolet sensor; 37. a buzzer; 38. charging display lamp; 39. a distance sensor; 4. an atomized lens.

Detailed Description

As shown in fig. 1 and 2, the utility model discloses myopia-preventing sitting posture correction intelligent glasses, which comprise a glasses frame body 1, wherein the glasses frame body 1 comprises glasses legs 11, a sitting posture correction box 2 is arranged in the middle section of one of the glasses legs 11, the inside of the sitting posture correction box 2 is hollow, a circuit board 31 is arranged in the sitting posture correction box 2, a rechargeable battery 32, a six-axis gyroscope 33, a data processor 34 and a prompting lamp 35 are connected to the circuit board 31, the prompting lamp 35 is positioned at the side surface position of the sitting posture correction box 2 facing to eyes of a wearer, and the six-axis gyroscope 33 senses the angle of the face of the wearer when the glasses are worn.

This structure, through setting up six-axis gyroscope 33, can accurate response person wearing the head position gesture that glasses were, data processor 34 is with the data record of six-axis gyroscope 33, and send the signal to warning light 35, warning light 35 selects bionical lamp, warning light 35 is from mirror leg 11 position towards person's eyes, at the too low or too many of skew head angle of person's low head angle, all can remind the person of wearing through the warning light 35 mode such as twinkling, make it correct the position of sitting immediately, the position of sitting corrects intelligent glasses and can wear for teenagers, whether it is near-sighted, all can use, the person of wearing that does not near-sighted adopts the plain glasses, this glasses response is comprehensive, the suggestion is instant, reduce near-sighted incidence along with the use of person.

In a further scheme, as shown in fig. 2, the circuit board 31 is further connected with an illumination ultraviolet sensor 36, the illumination ultraviolet sensor 36 is located at the upper side of the sitting posture correction box 2, the illumination ultraviolet sensor 36 senses illumination and ultraviolet intensity of the head top of the wearer, and the illumination ultraviolet sensor 36 is used for light source analysis, including sunlight, incandescent lamps, fluorescent lamps, various types of LED light sources and combined light sources, so that the environment spectrum analysis and artificial illumination stroboscopic analysis can be performed, a better operation environment can be identified, and a signal can be sent out through the indicator lamp 35 under the operation environment harmful to eyes.

In a further scheme, the tail end of the glasses leg 11 is further provided with a buzzer 37, the buzzer 37 is connected with the circuit board 31, the buzzer 37 is used for trapezia of a wearer, the buzzer 37 is located at the tail end of the glasses leg 11 and close to ears of the wearer, and more incorrect sitting postures can be prompted by means of more harsh sounds.

In a further aspect, a charging display lamp 38 is disposed on the side of the sitting posture correction box 2 away from the eyes, and the charging display lamp 38 represents the low-power, charging and slow-power state through various colors, so as to ensure that the sitting posture correction box 2 is provided with power support.

In a further scheme, the front side of the glasses frame body 1 is provided with a distance sensor 39, and the distance sensor 39 senses the distance between the face of the wearer and the desktop, so that the situation that the eyes of the wearer face too close to the desktop is avoided.

In a further scheme, the atomizing lens 4 is installed on the spectacle frame body 1, the atomizing lens 4 is in a frosted state when being electrified and is in a transparent state when being powered off, and the atomizing lens 4 can be electrified in a frosted state immediately when a sitting posture of a wearer is incorrect or under an unreasonable operation illumination environment so as to remind the wearer that eyes are not suitable to use.

In a further scheme, the front section and the rear section of the glasses leg 11 are respectively provided with an extension section 12, and the head sizes suitable for different development can be adjusted along with the growth of a wearer so as to prolong the service time of single glasses.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the utility model, and that, although the utility model has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the utility model as defined by the appended claims.

Claims (6)

1. An anti-myopia sitting posture correction intelligent glasses is characterized in that: including mirror holder body (1), mirror holder body (1) include mirror leg (11), one of them mirror leg (11) middle section is equipped with position of sitting correction box (2), position of sitting correction box (2) inside cavity, position of sitting correction box (2) inside circuit board (31) that is equipped with, be connected with rechargeable battery (32), six-axis gyroscope (33), data processor (34) and warning light (35) on circuit board (31), warning light (35) are located position of sitting correction box (2) towards the side position of wearer's eyes, six-axis gyroscope (33) response wearer's facial angle when wearing glasses.

2. An anti-myopia sitting posture correction glasses according to claim 1, wherein: and a buzzer (37) is arranged at the tail end of the glasses leg (11), and the buzzer (37) is connected with the circuit board (31).

3. An anti-myopia sitting posture correction glasses according to claim 1, wherein: the sitting posture correcting box (2) is provided with a charging display lamp (38) at one side far away from eyes.

4. An anti-myopia sitting posture correction glasses according to claim 1, wherein: the front side of the glasses frame body (1) is provided with a distance sensor (39), and the distance sensor (39) senses the distance between the face of a wearer and the tabletop.

5. An anti-myopia sitting posture correction glasses according to claim 1, wherein: the novel glasses frame is characterized in that an atomization lens (4) is arranged on the glasses frame body (1), the atomization lens (4) is in a frosted state when being electrified, and is in a transparent state when being powered off.

6. An anti-myopia sitting posture correction glasses according to claim 1, wherein: the front section and the rear section of the glasses leg (11) are respectively provided with an extension section (12).