阅读说明：本技术 用于眼睛恢复训练的智能眼镜以及眼镜盒 (Intelligent glasses and glasses case for eye recovery training ) 是由 邓高峰 于 2019-10-09 设计创作，主要内容包括：本发明涉及用于眼睛恢复训练的智能眼镜以及眼镜盒,智能眼镜包括眼镜主体、镜片组件、眼镜腿和镜脚,在眼镜主体内设有电路板、驱动电机、传动机构、激光感应式限位开关和激光测距传感器,眼镜腿和眼镜脚都为中空结构,在眼镜脚内设有电池,在电路板上还设有用于充电和传输数据的接口。眼镜盒包括盒体、眼镜支架、可充电池和眼镜盒电路板,盒体的顶部设有盒盖,电路板设置在盒盖内,眼镜支架设置在盒体的空腔内,眼镜支架上设有放入眼镜的卡座,在卡座上设有磁吸式接口座,电路板上连接有蓝牙模块,通过该蓝牙模块使眼镜盒能与手机通信。本发明的智能眼镜,能减轻眼镜主体对鼻梁的压力,提升使用的舒适度；提升了控制的精度,灵敏度提高。(The invention relates to intelligent glasses and a glasses box for eye recovery training, wherein the intelligent glasses comprise a glasses main body, a lens assembly, glasses legs and glasses legs, a circuit board, a driving motor, a transmission mechanism, a laser induction type limit switch and a laser distance measuring sensor are arranged in the glasses main body, the glasses legs and the glasses legs are both of a hollow structure, a battery is arranged in the glasses legs, and an interface for charging and transmitting data is further arranged on the circuit board. The glasses box comprises a box body, a glasses support, a rechargeable battery and a glasses box circuit board, wherein the top of the box body is provided with a box cover, the circuit board is arranged in the box cover, the glasses support is arranged in a cavity of the box body, a clamping seat for placing glasses is arranged on the glasses support, a magnetic type interface seat is arranged on the clamping seat, a Bluetooth module is connected onto the circuit board, and the glasses box can communicate with a mobile phone through the Bluetooth module. The intelligent glasses can reduce the pressure of the glasses main body on the nose bridge and improve the use comfort; the control precision is improved, and the sensitivity is improved.)

1. the utility model provides an intelligent glasses for eyes resume training, its includes glasses main part, lens subassembly, earpiece and earpiece, its characterized in that: the lens component comprises two fixed lenses fixedly connected with the glasses main body and two movable lenses moving left and right relative to the fixed lenses, the degree after combination is continuously changed in a certain range through the left and right movement of the movable lenses relative to the fixed lenses, a circuit board, a driving motor, a transmission mechanism, a laser induction type limit switch and a laser distance measuring sensor are arranged in the glasses main body, a nose support is further arranged at the middle position of the rear side of the glasses main body, the circuit board is arranged at the upper part of the glasses main body, the rotation direction and the rotation speed of the driving motor are controlled through the circuit board, a power switch and an adjusting button are arranged on the circuit board, the motor and the transmission mechanism are arranged at the lower part of the glasses main body, the motor drives the movable lenses to slide left and right through the transmission mechanism, the laser induction type limit switches are arranged at two ends of the transmission mechanism, and the, the glasses leg is movably connected with the glasses main body, the glasses leg is connected with the tail end of the glasses leg and bends downwards in a certain radian, the glasses leg and the glasses leg are both of a hollow structure, a battery is arranged in the glasses leg, the battery is connected with the circuit board through a lead, and the lead passes through an inner hole of the glasses leg, an interface for charging and data transmission is also provided on the circuit board.

2. The smart eyewear for eye recovery training of claim 1, wherein: the glasses main body comprises a front shell and a rear shell, the upper part of the front shell is a U-shaped frame, the lower part of the front shell is provided with a fixing plate for assembling and fixing lenses, the fixing lenses are fixedly connected with the fixing plate of the front shell, the upper part of the U-shaped frame is provided with a fixing column for fixing a circuit board, the circuit board is connected with the fixing column through screws, two groups of transmission mechanisms are provided, each transmission mechanism is a screw rod mechanism, a screw rod is fixedly connected with an output shaft of a corresponding driving motor, the top of a movable lens is provided with a slide block, the slide block is fixedly connected with a nut block of the screw rod mechanism, the height of the movable lens corresponds to that of the fixed lens, the screw rod is connected with the U-shaped frame through a fixing frame, the fixing frame comprises a front side plate, a left side plate and a right side plate, the front side plate is, the front side plate is provided with two assembling holes connected with the U-shaped frame, the driving motors are respectively fixed on the side plates outside the fixing frame, and output shafts of the driving motors are fixedly connected with the corresponding screw rods.

3. The smart eyewear for eye recovery training of claim 1, wherein: the fixed lens and the movable lens are distributed with zooming diopter, the fixed lens and the corresponding movable lens form a progressive zooming lens group, the combined diopter of the fixed lens and the movable lens is changed in a certain range through the left-right movement of the movable lens relative to the fixed lens, one side surface of the fixed lens opposite to the movable lens is a plane, and the other side surface of the fixed lens opposite to the movable lens is a surface with a changing radian.

4. The smart eyewear for eye recovery training of claim 1, wherein: the interface for magnetism inhale the formula interface, two sets of magnetism inhale the formula interface and set up respectively in the left and right sides of circuit board and be close to the position of tip, every group magnetism inhales the formula interface and includes a plurality of magnetism and inhale the post.

5. The smart eyewear for eye recovery training of claim 1, wherein: the glasses leg be adjustable length's telescopic glasses leg, the glasses leg includes the outside casing and the inboard apron that have the C-shaped groove in the outside, the rear end of glasses leg extends into in the glasses leg, the position distribution that the tip is close to in the rear side of outside casing has the multichannel adjustment tank, be equipped with a plurality of elastic tooth that corresponds with the adjustment tank in the glasses leg, the regulation of the length of glasses leg is realized with the cooperation of adjustment tank through the elastic tooth, be equipped with the slot hole on the apron of inboard, be equipped with the stopper that corresponds with the slot hole in the glasses leg, during the relative glasses leg of glasses activity around, the stopper slides in the slot hole.

6. The smart eyewear for eye recovery training of claim 1, wherein: the earpiece include shell body and inner decking, be equipped with the draw-in groove of placing the battery in the cavity of the shell body of one of them earpiece, it is tight spacing to its top through the inner decking after the battery is put into the draw-in groove, including the outside of apron on the surface post have the earflap involucrum membrane, be equipped with the alarm in the cavity of another earpiece, this alarm passes through the wire and is connected with the circuit board, if laser range sensor detects user's eyes and the target distance who sees too closely, be less than the minimum distance of settlement, the alarm sends the warning and reminds the user.

7. The smart eyewear for eye recovery training of claim 1, wherein: the glasses main body on still be equipped with eye movement sensor, eye movement sensor sets up the one side towards eyes in the glasses main body, eye movement sensor is connected with the circuit board electricity, through the form change of eye movement sensor response user's glasses, and then judge the degree of match of the current diopter accommodation range of glasses and user's glasses, the circuit board is according to the signal of eye movement sensor feedback, adjusts diopter accommodation range.

8. The smart eyewear for eye recovery training of claim 1, wherein: the driving motor is a stepping motor driven in a subdivision mode.

9. A spectacle case for spectacles as claimed in any one of claims 1 to 8, wherein: the glasses case comprises a case body, a glasses support for placing glasses, a rechargeable battery and a glasses case circuit board, wherein the top of the case body is provided with a case cover, the case cover comprises an outer cover and an inner cover, the glasses case circuit board is fixedly assembled between the outer cover and the inner cover, the outer cover is fixedly connected with the inner cover, the glasses support is arranged in a cavity of the case body, a clamping seat for placing the glasses is arranged on the glasses support, the shape of the clamping seat corresponds to that of a glasses body, a magnetic type interface seat corresponding to the magnetic type interface is arranged on the clamping seat, after the glasses are placed into the clamping seat, the magnetic type interface is just electrically connected with the magnetic type interface seat so as to realize data transmission and battery charging in the glasses, the rechargeable battery is fixed in the case body and positioned below the glasses support, at least two supporting plates for supporting and fixing the glasses support are arranged on the side wall of the case body, this interface that charges can charge for rechargeable battery after passing through the charging wire connection power, the glasses box circuit board is fixed in the box body, the glasses box circuit board respectively with rechargeable battery, magnetism is inhaled formula interface seat electricity and is connected, be connected with bluetooth module on the glasses box circuit board, make glasses box can and cell-phone communication through this bluetooth module, still be equipped with the SIM card on the glasses box circuit board, make glasses box can with after-sale platform remote communication through setting up the SIM card, the data record of transmission customer use product, and can carry out the software system upgrade of glasses and glasses box.

10. The eyeglass case of claim 9, wherein: the surface of the box body is provided with a charging indicator lamp, a data transmission indicator lamp, a power indicator lamp and a switch key, the charging indicator lamp, the data transmission indicator lamp, the power indicator lamp and the switch key are respectively connected with the circuit board of the glasses box, one side of the box cover is movably connected with the box body, the other side of the box cover is connected with the box body through a buckle, and one side of the side wall of the box body, which is connected with the buckle, is provided with a button for opening the box cover.

Technical Field

The invention relates to the field of eye health care equipment, in particular to intelligent glasses and a glasses case for eye recovery training.

Background

At present, more and more myopia crowds exist, more and more teenagers have myopia problems, the main reason of myopia is overviewing, bad eye using modes are changed, asthenopia is relieved, self-adjusting functions of eyeballs are recovered, and the method is an effective method for improving myopia at present. In addition, the vision training through auxiliary equipment is also an effective means for quickly correcting the pseudomyopia. In recent years, more and more devices for improving eyesight are provided, however, the existing devices for training eyes usually need to arrange components such as a motor, a transmission mechanism, lenses, a battery, and a circuit board in glasses, the weight of the existing devices is heavier, and the motor, the transmission mechanism, and the lenses must be arranged in a main body part of the glasses, while the existing devices for training eyesight, such as the intelligent zoom glasses with publication number CN108524210A, respectively arrange the battery and the circuit board in the legs at two sides of the main body of the glasses, the weight of the existing devices is mainly concentrated on a nose bridge part, the weight is heavy, the comfort level of use is affected, the existing intelligent zoom glasses are provided with a bluetooth module in the main body of the glasses, the bluetooth module is designed to have certain limiting effects on the whole products such as power consumption, shape, and volume in application, therefore, the bluetooth module is not beneficial to the smaller and lighter design of the intelligent glasses, and meanwhile, the bluetooth module needs to, the design in the main board of the glasses will inevitably cause obstruction and exclusion for adding other functions of the glasses. In addition, the existing transmission mechanism of the intelligent glasses uses a mechanical limit switch, so that the sensitivity is low, the service life is short, and the improvement is needed. When a user uses the intelligent glasses, the variation range of the diopter number of the intelligent zoom glasses cannot be adjusted according to the distance between the target watched by the user and the eyes, because the diopter number required by the user is higher when the user watches a long-distance view, and the diopter number required by the user when the user watches a short-distance target is lower, the diopter number of the existing intelligent zoom glasses cannot be changed according to the distance between the target watched and the eyes, the training effect is poor, and the improvement is needed.

Disclosure of Invention

The purpose of the invention is: to the current intelligence of existence among the prior art zoom glasses, can't adjust the diopter according to the distance of the target of seeing, lead to the training effect poor, glasses focus leans on frontally, and weight concentrates on the bridge of the nose position, leads to the poor problem of use comfort, provides an intelligent glasses that is used for eyes to resume training.

The technical scheme of the invention is as follows: the invention discloses intelligent glasses for eye recovery training, which are structurally characterized in that: the glasses comprise a glasses body, a glasses component, glasses legs and glasses legs, wherein the glasses component comprises two fixed lenses fixedly connected with the glasses body and two movable lenses which can move left and right relative to the fixed lenses, the combined degree can be continuously changed within a certain range through the left and right movement of the movable lenses relative to the fixed lenses, a circuit board, a driving motor, a transmission mechanism, a laser induction type limit switch and a laser ranging sensor are arranged in the glasses body, a nose support is further arranged at the middle position of the rear side of the glasses body, the circuit board is arranged at the upper part of the glasses body, the rotation direction and the rotation speed of the driving motor are controlled through the circuit board, a power switch and an adjusting button are arranged on the circuit board, the motor and the transmission mechanism are arranged at the lower part of the glasses body, the motor drives the movable lenses to slide left and right through the transmission mechanism, and the laser induction type limit switch, the laser induction type limit switch is arranged on the glasses main body and used for controlling the moving range of the glasses, when the movable glasses move to a preset position, laser emitted by a laser emitting end of the laser induction type limit switch can not reach a laser receiving end, the laser induction type limit switch sends a signal to the circuit board to enable the driving motor to switch the rotating direction, so that the glasses can slide in the opposite direction, the laser ranging sensor is arranged on the front side of the glasses main body and used for detecting the distance between the glasses and a target seen by eyes and sending the detected data to the circuit board, the circuit board sets a corresponding degree range adjusted by the glasses according to the distance value, the glasses legs are movably connected with the glasses main body, the glasses legs are connected to the tail ends of the glasses legs and are bent downwards in a certain radian, the glasses legs and the glasses legs are both of a hollow structure, and batteries are arranged in the glasses legs, the battery is connected with the circuit board through a wire, the wire penetrates through the inner hole of the earpiece, and an interface for charging and transmitting data is further arranged on the circuit board.

The glasses main body comprises a front shell and a rear shell, the upper part of the front shell is a U-shaped frame, the lower part of the front shell is provided with a fixing plate for assembling and fixing lenses, the fixing lenses are fixedly connected with the fixing plate of the front shell, the upper part of the U-shaped frame is provided with a fixing column for fixing a circuit board, the circuit board is connected with the fixing column through screws, two groups of transmission mechanisms are provided, each transmission mechanism is a screw rod mechanism, a screw rod is fixedly connected with an output shaft of a corresponding driving motor, the top of a movable lens is provided with a slide block, the slide block is fixedly connected with a nut block of the screw rod mechanism, the height of the movable lens corresponds to that of the fixing lens, the screw rod is connected with the U-shaped frame through a fixing frame, the fixing frame comprises a front side plate, a left side plate and a right side plate, the front side plate is integrally formed with the left side, the front side plate is provided with two assembling holes connected with the U-shaped frame, the driving motors are respectively fixed on the side plates outside the fixing frame, and output shafts of the driving motors are fixedly connected with the corresponding screw rods.

The progressive zoom lens group is formed by the fixed lens and the corresponding movable lens, the combined power of the fixed lens and the movable lens is changed within a certain range through the left-right movement of the movable lens relative to the fixed lens, one side surface of the fixed lens, which is opposite to the movable lens, is a plane, and the other side surface of the fixed lens, which is deviated from the movable lens, is a surface with a changed radian.

A further scheme is, the interface for magnetism inhale the formula interface, two sets of magnetism inhale the formula interface and set up respectively in the left and right sides of circuit board near the position of tip, every group magnetism inhales the formula interface and includes a plurality of magnetism and inhale the post.

The utility model provides a glasses leg is telescopic glasses leg of adjustable length, the glasses leg includes the outside casing and the inboard apron that have the C groove in the outside, the rear end of glasses leg extends into in the glasses leg, the position that the rear side of outside casing is close to the tip distributes and has the multichannel adjustment tank, be equipped with a plurality of elastic tooth that corresponds with the adjustment tank in the glasses leg, the regulation of the length of glasses leg is realized through the cooperation of elastic tooth and adjustment tank, be equipped with the slot hole on the apron of inboard, be equipped with the stopper that corresponds with the slot hole in the glasses leg, when the relative glasses leg of glasses leg moves about, the stopper slides in the slot hole.

A further scheme is, the earpiece include shell body and inner decking, be equipped with the draw-in groove of placing the battery in the cavity of the shell body of one of them earpiece, it is tight spacing to its top through the inner decking after the battery is put into the draw-in groove, including the outside of apron on the surface post have the earflap to wrap the glued membrane, be equipped with the alarm in the cavity of another earpiece, this alarm passes through the wire and is connected with the circuit board, if laser range sensor detects user's eyes and the target distance of seeing too closely, be less than the minimum distance of settlement, the alarm sends the warning and reminds the user.

The glasses body is further provided with an eye movement sensor, the eye movement sensor is arranged on one side, facing to eyes, of the glasses body, the eye movement sensor is electrically connected with the circuit board, the form change of the glasses of a user is sensed through the eye movement sensor, the matching degree of the current diopter degree adjusting range of the glasses and the glasses of the user is further judged, and the circuit board adjusts the diopter degree adjusting range according to a signal fed back by the eye movement sensor.

The nose support is made of an elastic steel wire material, so that the nose support and the nose bridge can be elastically positioned.

the driving motor is a direct current servo motor or a stepping motor driven in a subdivision mode.

A spectacle case special for the intelligent glasses comprises a case body, a spectacle frame used for placing glasses, a rechargeable battery and a spectacle case circuit board, wherein the top of the case body is provided with a case cover, the case cover comprises an outer cover and an inner cover, the spectacle case circuit board is fixedly assembled between the outer cover and the inner cover, the outer cover is fixedly connected with the inner cover, the spectacle frame is arranged in a cavity of the case body, the spectacle frame is provided with a clamping seat for placing the glasses, the shape of the clamping seat corresponds to that of a spectacle body, the clamping seat is provided with a magnetic type interface seat corresponding to the magnetic type interface, after the glasses are placed into the clamping seat, the magnetic type interface is just in electric connection with the magnetic type interface seat so as to realize data transmission and battery charging in the glasses, the rechargeable battery is fixed in the case body and positioned below the spectacle frame, the side wall of the case body is provided with at, this backup pad and box body fixed connection, be equipped with the interface that charges in one of them backup pad, the interface that should charge can charge for chargeable call after passing through charging wire connecting power, the glasses case circuit board is fixed in the box body, the glasses case circuit board respectively with chargeable call, magnetism is inhaled formula interface seat electricity and is connected, be connected with bluetooth module on the glasses case circuit board, make the glasses case can with cell-phone communication through this bluetooth module, still be equipped with the SIM card on the glasses case circuit board, make the glasses case can with after-sale platform remote communication through setting up the SIM card, the data record of transmission customer usage product, and can carry out the software system upgrade of glasses and glasses case

The utility model has the advantages of the further scheme that, the box body on be equipped with charge indicator, data transmission pilot lamp, power indicator and switch button on the surface, charge indicator, data transmission pilot lamp, power indicator and switch button are connected with the spectacle case circuit board respectively, lid one side and box body swing joint, the opposite side and the box body of lid pass through the buckle and are connected, lie in the buckle on the lateral wall of box body and connect one side and be equipped with the button of opening the lid.

The invention has the positive effects that: according to the intelligent glasses for eye recovery training, the battery is arranged in the shell of the glasses leg, so that the gravity center part of the glasses is arranged at the rear part, the front weight and the rear weight are balanced, the glasses body is prevented from sliding downwards, the pressure of the glasses body on the nose bridge is reduced, and the use comfort is improved. The glasses main body, the glasses legs and the glasses legs are of hollow structures, so that the overall weight of the glasses can be reduced, the overall weight is only 75g, and the wearing comfort level is further improved. The laser ranging sensor is arranged on the glasses, so that the distance between the glasses and a target to be seen can be automatically detected, the variation range of the diopter is further adjusted, and the most scientific and reasonable training is provided for a user. Meanwhile, the laser ranging sensor can judge whether the user wears the glasses according to the change of the distance, if the distance is kept unchanged for a long time, the glasses are not used, and the circuit board automatically enters a standby state according to the test data so as to save power. The laser induction type limit switch is arranged on the device, so that the sensitivity is higher, the control precision is improved, and when the movable lens reaches a preset position, the advancing direction can be automatically switched, so that the training process is smoother.

Drawings

FIG. 1 is a schematic view of the structure of the glasses of the present invention;

FIG. 2 is a schematic disassembled view of the eyeglasses;

FIG. 3 is a schematic structural view of the glasses case;

FIG. 4 is a schematic exploded view of the eyeglass case;

The reference numbers in the above figures are as follows:

The glasses comprises a glasses body 1, a front shell 11, a fixing column 111, a rear shell 12, a nose support 13, glasses legs 14, an outer shell 141, an inner cover plate 142, an adjusting groove 143, a long hole 144, glasses legs 15, an outer shell 151, an inner cover plate 152, an ear protection rubber coating 153, elastic teeth 154, a limit block 155, a battery 156, an alarm 157, a lens component 2, 21 fixed lenses, a movable lens 22, a sliding block 221, a driving motor 23, a transmission mechanism 24, a screw rod 241, a nut block 242, a fixing frame 243, a circuit board 3, a power switch 31, a magnetic suction type interface 32, a laser induction type limit switch 33, a laser distance measuring sensor 34, an eye movement sensor 35, a box body 4, a box cover 41, an outer cover 411, an inner cover 412, a rechargeable battery 42, a charging interface 43, a charging indicator 44, a data transmission indicator 45, a power indicator 46, a switch key 47, a button 48, a support, the card seat 51, the magnetic type interface seat 52, the spectacle case circuit board 6, the Bluetooth module 61 and the SIM card 62.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

referring to fig. 1 to 4, the pair of smart glasses for eye recovery training of the present embodiment includes a glasses main body 1, a lens assembly 2, a glasses leg 14, a glasses earpiece 15, a battery 156, a nose pad 13, a circuit board 3, a driving motor 23, a transmission mechanism 24, a laser induction type limit switch 33, and a laser distance measuring sensor 34.

Glasses main part 1 is the working of plastics, including procapsid 11 and back casing 12, procapsid 11 and back casing 12 fixed connection, and the connected mode is screw connection, buckle connection or glue bonding, and in order to reduce weight, preferred buckle connection. The upper portion of the front case 11 is a U-shaped frame, the middle portion of the U-shaped frame faces the front side, the two side arms extend from the two end portions of the middle portion to the rear side of the glasses body 1 and are fixedly connected with the glasses legs 14, the lower portion of the front case 11 is provided with a fixing plate for assembling and fixing the lens 21, the fixing lens 21 is fixedly connected with the fixing plate of the front case 11, the upper portion of the U-shaped frame is provided with a fixing column 111 for fixing the circuit board 3, the left and right end portions of the middle portion of the front case 11 are provided with grooves for vertically limiting the circuit board 3, and after the rear case 12 is connected with the front case 11, the glasses legs 14 are movably connected with the glasses body 1 through triangular.

The lens assembly 2 includes two fixed lenses 21 and two movable lenses 22 movable left and right with respect to the fixed lenses 21.

Fixed lens 21 is the resin lens, on the leading flank of fixed lens 21, distributes and has the arch of radian change, and the trailing flank of fixed lens 21 is the plane, is equipped with the extension district around fixed lens 21, and the upper end in extension district is equipped with the connecting plate, is connected through the fixed plate on this connecting plate and the shell body 151 of glasses main body 1, and the connected mode is screw connection or buckle connection.

The movable lens 22 is a resin lens, the rear side surface of the movable lens 22 is provided with protrusions with changed radian, the front side surface of the movable lens 22 is a plane, the upper end of the movable lens 22 is provided with a sliding block 221, and the sliding block 221 is connected with the transmission mechanism 24 to realize the sliding of the movable lens 22.

The temple 14 is an adjustable length temple 14 that is an internally hollow member made of TR90 material, and the leads of the battery 156 pass through the internal cavity of the temple 14.

earpiece 15 is for inside hollow member, adopts TR90 material to make, earpiece 15 include shell body 151 and inner cover plate 152, be equipped with the draw-in groove of placing battery 156 in the cavity of shell body 151, it is spacing to its top through inner cover plate 152 after battery 156 puts into the draw-in groove, post the ear protection package glued membrane 153 on the outside surface of inner cover plate 152. By providing the ear protection coating 153, pressure buffering can be formed at the contact part of the rear side of the ear and the earpiece 15, and the use is more comfortable.

The glasses leg 14 is a telescopic glasses leg 14 with adjustable length, the glasses leg 14 comprises an outer side shell 141 with a C-shaped groove and an inner side cover plate 142, the rear end of the glasses leg 14 extends into the glasses leg 15, a plurality of adjusting grooves 143 are distributed at the position, close to the end, of the rear side of the outer side shell 141, a plurality of elastic teeth 154 corresponding to the adjusting grooves 143 are arranged in the glasses leg 15, the length of the glasses leg 14 is adjusted through the matching of the elastic teeth 154 and the adjusting grooves 143, a long hole 144 is arranged on the inner side cover plate 142, a limiting block 155 corresponding to the long hole 144 is arranged in the glasses leg 15, and when the glasses leg 14 moves forwards and backwards relative to the glasses leg 15, the limiting block 155 slides in the long hole 144.

The nose pad 13 is made of an elastic steel wire material, and the elastic positioning of the nose pad 13 and the nose bridge is realized.

The circuit board 3 is used for controlling the action of the driving motor 23 and is connected with the battery 156, the laser sensing type limit switch 33, the laser distance measuring sensor 34 and the magnetic suction type interface 32, a processor and a memory are arranged on the circuit board 3 and can store related control programs, and the processor is responsible for processing and calculating related signals, sending corresponding instructions, controlling the running, the rotating speed and the rotating direction of the driving motor 23 and storing data records of using the intelligent glasses by a user. The circuit board 3 is arranged on the upper portion of the glasses main body 1, the rotation direction and the rotation speed of the driving motor 23 are controlled through the circuit board 3, the circuit board 3 is provided with a power switch 31 and an adjusting button, and the circuit board 3 is fixedly connected with the front shell 11 through a fixing column 111. An interface for charging and data transmission is also provided on the circuit board 3, and is a magnetic-type interface 32.

The drive motor 23 is a stepping motor driven in a subdivided manner. The stepping motor that current intelligent glasses generally used, in the use, the substep is few when the motor operates, and every small segment distance of walking can send the noise of "snaking", and the vibrations and the noise of motor are more obvious. The stepping motor is driven in a subdivision mode, the operation distribution of the motor is subdivided, so that the motor rotates more stably, vibration and noise caused by 'clicking' in the operation process are eliminated, and the use comfort is improved.

The transmission mechanism 24 is a screw rod mechanism, the screw rod 241 is fixedly connected with the output shaft of the corresponding driving motor 23, the slider 221 is arranged at the top of the movable lens 22, the slider 221 is fixedly connected with the nut block 242 of the screw rod mechanism, the height of the movable lens 22 corresponds to the height of the fixed lens 21, the screw rod 241 is connected with the U-shaped frame through the fixing frame 243, the fixing frame 243 comprises a front side plate, a left side plate and a right side plate, the front side plate is integrally formed with the left side plate and the right side plate, the screw rod 241 and the slider 221 are arranged between the left side plate and the right side plate, the screw rod 241 is in running fit with the left side plate and the right side plate, the front side plate is provided with assembling holes connected with the U-shaped frame, the driving motors 23 are two, the driving motors 23 are respectively fixed on the side plate outside.

The laser induction type limit switch 33 comprises a laser emitting end and a laser receiving end, if the laser emitted by the laser emitting end cannot reach the laser receiving end, it indicates that the movable lens 22 has already been operated to a predetermined position, the laser induction type limit switch 33 sends a signal to the circuit board 3 to enable the driving motor 23 to switch the rotation direction, so that the movable lens 22 slides in the opposite direction.

The laser ranging sensor 34 is arranged on the front side of the glasses body 1, the laser ranging sensor 34 is used for detecting the distance between the glasses and a target seen by eyes, detected data are sent to the circuit board 3, and the circuit board 3 sets a corresponding degree range adjusted by the glasses according to the distance value. In general, according to the degree of myopia of a user, a near distance mode, a medium distance mode and a far distance mode are set, and in the three modes, different diopter adjustment ranges are corresponded. For example, when the user is reading a book, the distance from the book is less than one meter, and the book is in a close distance mode, in which the adjustment range of the diopter number is adjusted to a low degree range, for example: if the user's eye power is 300 degrees, then in the near distance mode, the diopter power adjustment range is set to 0-400; for example, when a user watches television, the distance from the target to be watched is in the range of 2 meters to 5 meters, in this case, the distance mode is medium, and the diopter adjustment range is-150 degrees to 450 degrees; for example, the user walks outdoors and looks at a target distance of more than 5 meters, in this case a distance mode, and the diopter adjustment range is-200 to 400 degrees. By setting different distance modes, the eyes can be adjusted more reasonably, and the training of the muscles of the eyes is more scientific, so that the eyesight can be recovered conveniently. For better control, the glasses body 1 is further provided with an eye movement sensor 35, the eye movement sensor 35 judges the matching degree of the eyes of the user and the current diopter according to the shape of the eyes of the user, and the adjustment range of the diopter can be controlled more accurately by combining the laser ranging sensor 34 and the eye movement sensor 35, so that the user can obtain the most scientific and reasonable eye training under different eye using environments.

A spectacle case special for intelligent glasses comprises a case body 4, a spectacle frame 5 for placing glasses, a rechargeable battery 42 and a spectacle case circuit board 6, wherein a case cover 41 is arranged at the top of the case body 4, the case cover 41 comprises an outer cover 411 and an inner cover 412, the spectacle case circuit board 6 is fixedly assembled between the outer cover 411 and the inner cover 412, the outer cover 411 is fixedly connected with the inner cover 412, the spectacle frame 5 is arranged in a cavity of the case body 4, a clamping seat 51 for placing the glasses is arranged on the spectacle frame 5, the shape of the clamping seat 51 corresponds to that of a spectacle body 1, a magnetic type interface seat 52 corresponding to a magnetic type interface 32 is arranged on the clamping seat 51, after the glasses are placed in the clamping seat 51, the magnetic type interface 32 is just electrically connected with the magnetic type interface seat 52 to realize data transmission and charging of batteries in the glasses, the rechargeable battery 42 is fixed in the case body 4 and positioned below the spectacle frame 5, be equipped with two at least backup pads 49 that support fixed glasses support 5 on the lateral wall of box body 4, this backup pad 49 and box body 4 fixed connection, be equipped with the interface 43 that charges on one of them backup pad 49, should charge interface 43 and can charge for rechargeable battery 42 after connecting the power through the charging wire, spectacle case circuit board 6 is fixed in box body 4, spectacle case circuit board 6 respectively with rechargeable battery 42, magnetism is inhaled formula interface seat 52 and is connected, be connected with bluetooth module 61 on spectacle case circuit board 6, make spectacle case can and cell-phone communication through this bluetooth module 61.

In the scheme, the circuit board 6 of the glasses case is also provided with the SIM card 62, the glasses case can remotely communicate with the after-sales platform by arranging the SIM card 62, the data record of a product used by a customer is transmitted, and the software system upgrading of glasses and the glasses case can be carried out

In the above scheme, box body 4 be equipped with charge indicator 44, data transmission indicator 45, power indicator 46 and switch button 47 on the surface, charge indicator 44, data transmission indicator 45, power indicator 46 and switch button 47 are connected with the circuit board respectively, lid 41 one side and box body 4 swing joint, the opposite side and the box body 4 of lid 41 pass through the buckle to be connected, lie in the buckle on the lateral wall of box body 4 and connect one side and be equipped with the button 48 of opening lid 41.

it should be noted that the intelligent glasses of the present invention disclose the control of the rotation speed and direction of the motor by the circuit board and the control by the limit switch, which are all the technical contents already disclosed in the prior art, and therefore, the software control part related to this improvement is not in the scope of the improvement of the present invention. In the glasses case of the invention, the scheme that the Bluetooth module 61 is arranged in the glasses case and the smart glasses communicate with the mobile phone to transmit data after the smart glasses are connected with the glasses case through the magnetic type interface 32 is disclosed, in the prior art, the scheme that the Bluetooth module 61 is arranged on the smart glasses and the smart glasses directly communicate with the mobile phone is disclosed, therefore, the improvement of the part of the invention is only that the Bluetooth module 61 is transferred from the smart glasses to the glasses case, and the improvement of the software part is not involved. From the above description, it can be confirmed that the scheme of the present application conforms to the specification of the object of protection of the invention.

The intelligent glasses for eye recovery training of this embodiment, when not using, intelligent glasses places in the spectacle case, inhale formula interface 32 through magnetism and be connected with the spectacle case electricity, can charge to the battery in the intelligent glasses, can transmit the data record in the intelligent glasses use to the spectacle case again, save, and through bluetooth module 61 in the spectacle case and the cell-phone communication that sets up in advance and be correlated with, be convenient for look over the live time of intelligent glasses through the cell-phone, the number of times of use, data record such as the state parameter of use. Meanwhile, the data can be remotely communicated with the after-sales platform through the SIM card 62, so that the after-sales platform can acquire data records of the products used by the user, so as to monitor the times, time and use conditions of the products used by the user, and collect data of the eyesight recovery conditions of the user after using the products, thereby facilitating the improvement of the subsequent software system scheme. When the intelligent glasses are used, the user adjusts the length of the glasses legs 14 to enable the glasses legs to conform to the face of the user, a comfortable effect is achieved, then the glasses are worn on eyes, corresponding diopter adjusting range can be pre-stored in the intelligent glasses according to the diopter degree of the user, the power switch 31 is turned on, under the driving of the driving motor 23, the movable glasses piece 22 can automatically move left and right relative to the fixed lenses 21 at a certain speed, the diopter degree is changed within a certain range, the eyesight of the user is trained, and the myopia of the user is recovered. According to the intelligent glasses, the battery is moved backwards into the glasses legs 15, so that the overall gravity center of the glasses is moved backwards, the pressure of the glasses body 1 part on the bridge of the nose of a user is relieved, and the glasses are more stable and are not easy to slide downwards after being worn. The invention adopts the laser induction type limit switch 33 to control the driving mechanism and the transmission mechanism 24, has higher control sensitivity and longer service life, and can improve the control precision of the intelligent glasses and reduce the error rate. The invention adopts the laser ranging sensor 34, can automatically detect the distance between the glasses and the target to be seen, further adjust the variation range of the diopter, and provide the most scientific and reasonable training for the user. Meanwhile, the laser ranging sensor 34 can judge whether the user wears the glasses according to the change of the distance, if the distance is kept unchanged for a long time, the glasses are not used, and the circuit board automatically enters a standby state according to the test data so as to save power. The opposite surfaces of the fixed lens 21 and the movable lens 22 of the existing intelligent glasses are arc-shaped surfaces, and when the two lenses slide relatively, the forehead gap between the fixed lens 21 and the movable lens 22 needs to be increased, otherwise the two lenses can be in contact friction, and the increase of the distance between the two lenses can influence the accuracy of the diopter of the lenses. In the prior art, the bluetooth module 61 is arranged in the smart glasses, the communication quality between the bluetooth module 61 and the mobile phone is poor, the smart glasses are worn on the head of a user, and the electromagnetic radiation generated by the bluetooth signal affects the health of the user. The Bluetooth module 61 is arranged in the glasses box and is communicated with the after-sales service platform through the SIM card 62, and the Bluetooth module 61 can adopt the latest version of the Bluetooth module 61 to ensure high-speed communication with a mobile phone and cannot cause any influence on a user. The existing glasses box only has the function of placing glasses, the glasses are charged by using a special charger, the intelligent glasses can only communicate with APP software at a mobile phone end and cannot communicate with an after-sales service platform, and a software system of the intelligent glasses cannot be updated in real time.

The above embodiments are illustrative of specific embodiments of the present invention, and are not restrictive of the present invention, and those skilled in the relevant art can make various changes and modifications without departing from the spirit and scope of the present invention to obtain corresponding equivalent technical solutions, and therefore all equivalent technical solutions should be included in the scope of the present invention.