CN115047631A - Intelligent glasses - Google Patents

Abstract

The invention discloses intelligent glasses, which comprise a glasses frame, two groups of lenses, a first moving structure, two groups of nose pads, a second moving structure, a third moving structure, an information acquisition module and a control structure, wherein the first moving structure drives the two groups of lenses to move; the second moving structure drives the two groups of nose pads to move between the two groups of lenses; the third mobile structure is arranged in the spectacle frame and used for driving the spectacle frame to extend or shorten. After the person of wearing wears intelligent glasses, information acquisition module gathers the person of wearing's facial information to facial information transmission to the person of wearing is to control structure, and control structure drives two sets of lenses according to the first removal structure of the facial information control of the person of wearing and removes, and the second removes the structure and drives two sets of nose pads and remove, the third removes the structure and drives the mirror holder widen or narrow down, and the size of intelligent glasses changes. According to the facial information of the wearer, the size of the intelligent glasses is automatically adjusted, the intelligent glasses are suitable for different crowds, and the partial wearers are prevented from feeling uncomfortable.

Description

Intelligent glasses

Technical Field

The invention relates to the technical field of intelligent glasses, in particular to intelligent glasses.

Background

Glasses on the market are various in types, and are divided into different specifications such as man type, woman type, old man type, child type, fat type, thin nose bridge, fat nose bridge, high nose bridge, short nose bridge, big head and big face, small head and small face and the like. Various types of products are not suitable for wearing on different face shapes, when glasses with thin face shapes are worn on a fat face, the glasses can be clipped, the glasses are uncomfortable to wear if the glasses are light, and a trace can be formed at the temple if the glasses are heavy; glasses with fat faces are worn on the face, and can be loosened and hung, so that the sight line and experience feeling are affected, the comfort level of the glasses is poorer and poorer as children grow up continuously, and even the glasses cannot be worn; the technical problem of the existing glasses industry is solved, the existing glasses cannot be automatically adjusted, the same glasses are not suitable for different people, and part of wearers feel uncomfortable.

Disclosure of Invention

The invention mainly aims to provide intelligent glasses, and aims to solve the technical problems that the glasses cannot be automatically adjusted, are not suitable for different people, and part of wearers feel uncomfortable.

In order to achieve the purpose, the invention adopts the following technical scheme:

a smart eyewear comprising:

the mirror frame is hollow inside;

two sets of lenses;

the first moving structure penetrates through a first guide hole formed in the lower end wall of the spectacle frame and is connected with the lenses to drive the two groups of lenses to move in a direction parallel to the spectacle frame and move in opposite directions;

two sets of nose pads;

the second moving structure penetrates through a second guide hole formed in the lower end wall of the spectacle frame and is connected with the nose pads, so that the two nose pads are driven to move in a direction parallel to the spectacle frame between the two groups of lenses, and the two nose pads move in opposite directions;

the third moving structure is arranged in the mirror bracket and is used for driving the mirror bracket to widen or narrow;

the information acquisition module is used for acquiring the facial information of a wearer;

the control structure is arranged in the mirror bracket, and the first moving structure, the second moving structure, the third moving structure and the information acquisition module are respectively in communication connection with the control structure.

Furthermore, the glasses frame comprises glasses legs and sliding connection pieces, wherein the sliding connection pieces are fixedly arranged at two ends of the glasses frame, the glasses legs are sleeved on the sliding connection pieces, and the glasses legs can stretch and move along the direction perpendicular to the glasses frame along the sliding connection pieces.

The lens bracket further comprises a pressure sensor, the pressure sensor is arranged in the lens bracket, and the pressure sensor is in communication connection with the control structure; the spectacle frame is close to one end of the spectacle legs is provided with a second through hole, the sliding connection piece is rotationally fixed at one end of the spectacle frame and penetrates through the second through hole to extend into the spectacle frame, and the pressure sensor is abutted to the sliding connection piece.

Further, the mirror frame comprises a left mirror frame and a right mirror frame, and the left mirror frame and the right mirror frame are connected through the third moving structure; the third moving structure comprises a hydraulic press, the hydraulic press comprises a hydraulic tank and a hydraulic rod, one end of the hydraulic rod is arranged in the hydraulic tank, and the hydraulic tank is arranged in the right mirror frame; the other end of the hydraulic rod penetrates through a first through hole formed in the left end of the right mirror frame and a second through hole formed in the right end of the left mirror frame to connect the left mirror frame and the right mirror frame.

Furthermore, the third moving structure further comprises an electromagnetic directional valve and an oil supply piece, the electromagnetic directional valve and the oil supply piece are respectively in communication connection with the control structure, and the electromagnetic directional valve is communicated with the oil supply piece through an oil pipe; and a sealing ring is arranged in the hydraulic tank, the sealing ring divides the hydraulic tank into a head oil cavity and a tail oil cavity, and the head oil cavity and the tail oil cavity are respectively communicated with the electromagnetic directional valve through an oil pipe.

Further, first removal structure includes first motor, the one end setting of first motor is in the mirror holder, the one end of first motor runs through first guiding hole stretches out the mirror holder with the lens is connected, first motor with the link of lens is provided with first magnet, the lens with the link of first motor is provided with the second magnet, first magnet with the second magnet corresponds the looks attracting.

Further, the lens with the link of first motor still is provided with the reference column, the reference column is located the both sides of second magnet, first motor with the link of lens still is provided with the joint groove, the reference column corresponds the joint and is in the joint inslot.

Furthermore, the second moving structure comprises a moving motor, one end of the moving motor is arranged in the mirror bracket, and one end of the moving motor penetrates through the second guide hole and extends out of the mirror bracket to be in magnetic connection with the nose support; the nose pad comprises a connecting body and a nose pad, one end of the connecting body is connected with the nose pad in a magnetic absorption manner, and the other end of the connecting body is connected with the nose pad; the nose pad is made of liquid silica gel; the nose pad is hollow, and an air hole is formed in one end, close to the glasses frame, of the nose pad.

Further, still include range sensor, the mirror holder is kept away from the one end of wearer's face is provided with first mounting groove, the range sensor joint is in the first mounting groove, range sensor with the control structure communication is connected.

The glasses legs are hollow, and the storage battery is electrically connected with the charging structure; the storage battery provides electric energy for the first moving structure, the second moving structure, the third moving structure, the information acquisition module and the control structure; the upper end of mirror leg is provided with the second mounting groove, the charge structure joint is in the second mounting groove.

Has the advantages that:

the utility model provides an intelligence glasses, the person of wearing wears the back with intelligence glasses, information acquisition module gathers the person's of wearing facial information, and with person's facial information transmission to control structure, control structure drives the direction upward movement that two sets of lenses are on a parallel with the mirror holder according to the first removal structure of person's facial information control, the second removes the structure and drives two sets of nose pads and remove on a parallel with the direction of mirror holder between two sets of lenses, the extension that the third removed the structure and drive the mirror holder or shorten, the size of intelligence glasses changes. According to the facial information of the wearer, the size of the intelligent glasses is automatically adjusted, the intelligent glasses are suitable for different crowds, and the partial wearers are prevented from feeling uncomfortable.

Drawings

FIG. 1 is a schematic diagram of a portion of a smart eyewear implementation of the present invention;

fig. 2 is an exploded view of the right end of the smart glasses according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of an exploded view of the left end of the smart glasses according to an embodiment of the present invention;

fig. 4 is a schematic cross-sectional view of the left end of the smart glasses according to an embodiment of the present invention.

Wherein: 1. a frame; 11. a left frame; 111. a first guide hole; 112. a second guide hole; 113. a second through hole; 114. a third mounting groove; 12. a right frame; 121. a fourth mounting groove; 2. a lens; 21. a first groove; 22. a positioning column; 23. a second magnet; 3. a nose pad; 31. a linker; 32. a nose pad; 321. air holes; 4. a first moving structure; 41. a first motor; 42. a first magnet; 5. a second moving structure; 51. a moving motor; 61. a hydraulic tank; 62. a hydraulic lever; 63. an electromagnetic directional valve; 64. an oil tank; 65. a second motor; 7. an information acquisition module; 71. a photosensor; 72. a transmitter; 73. a receiver; 74. a detection circuit; 75. a ranging sensor; 76. a pressure sensor; 8. a temple; 81. a storage battery; 9. a sliding connection piece; 10. and a charging structure.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It is noted that the terms "one end," "another end," "first," "second," and the like are used herein for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Technical solutions between the embodiments of the present invention may be combined with each other, but it is necessary to be able to be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1, in an embodiment, the invention discloses an intelligent glasses, which includes a frame 1, two sets of lenses 2, a first moving structure 4, two sets of nose pads 3, a second moving structure 5, a third moving structure, an information acquisition module 7 and a control structure, wherein the frame 1 is hollow, the first moving structure 4 is arranged on a first guide hole 111 on the lower end wall of the frame 1 in a penetrating manner, and is connected with the lenses 2 to drive the two sets of lenses 2 to move in a direction parallel to the frame 1, and the two sets of lenses 2 move in opposite directions; the second moving structure 5 penetrates through a second guide hole 112 formed in the lower end wall of the spectacle frame 1 and is connected with the nose pads 3, so that the two nose pads 3 are driven to move in a direction parallel to the spectacle frame 1 between the two groups of lenses 2, and the two nose pads 3 move in opposite directions; the third moving structure is arranged in the spectacle frame 1 and is used for driving the spectacle frame 1 to widen or narrow; the information acquisition module 7 is used for acquiring the facial information of the wearer; the control structure is arranged in the spectacle frame 1, and the first moving structure 4, the second moving structure 5, the third moving structure and the information acquisition module 7 are respectively in communication connection with the control structure.

In the above-mentioned embodiment, the person of wearing the back with intelligent glasses, information acquisition module 7 gathers the person's of wearing facial information, and send the person's of wearing facial information to control structure, control structure drives two sets of lenses 2 and moves on the direction that is on a parallel with mirror holder 1 according to the first mobile structure 4 of the face information control of person of wearing, second mobile structure 5 drives two sets of nose pads 3 and moves on the direction that is on a parallel with mirror holder 1 between two sets of lenses 2, third mobile structure drives mirror holder 1 widen or narrow down, the size of intelligent glasses changes. According to the facial information of the wearer, the size of the intelligent glasses is automatically adjusted, the intelligent glasses are suitable for different crowds, and the partial wearers are prevented from feeling uncomfortable.

The widening or narrowing of the frame 1 is the direction from one ear to the other ear of the wearer's face, the widening of the frame 1 is suitable for a fat wearer, and the narrowing of the frame 1 is suitable for a thin wearer.

After the person of wearing the glasses, the nose holds in the palm 3 and nose direct contact, plays the effect that supports and stabilize mirror holder 1, and the both sides of nose all contact a nose and hold in the palm 3, and two sets of lenses 2 correspond a person of wearing's eyes respectively, and second moving structure 5 drives two sets of noses and holds in the palm 3 and move in the direction that is on a parallel with mirror holder 1 between two sets of lenses 2, ensures that the nose holds in the palm 3 and corresponds with the nose, and lens 2 corresponds with eyes.

The information acquisition module 7 comprises a photoelectric sensor 71, a transmitter 72, a receiver 73 and a detection circuit 74, a third mounting groove 114 and a fourth mounting groove 121 are formed in the wall of the spectacle frame 1 close to the face of a wearer, the photoelectric sensor and the transmitter 72 are mounted in the third mounting groove 114, the receiver 73 and the detection circuit 74 are mounted in the fourth mounting groove 121, the spectacle frame 1 sequentially comprises the photoelectric sensor 71, the transmitter 72, the receiver 73 and the detection circuit 74 from left to right, and the photoelectric sensor 71 converts the change of light intensity into the change of an electric signal to realize control; the transmitter 72 is aimed at a target emitting a light beam that originates from a semiconductor light source, a Light Emitting Diode (LED), a laser diode, and an infrared emitting diode. The beam is emitted without interruption, or the pulse width is varied. The receiver 73 is composed of a photodiode, a phototriode, and a photocell. In front of the receiver 73, optical elements such as a lens sheet 2 and the like are mounted. Behind it is a detection circuit 74 which can filter out the effective signal and apply the signal function to detect the face form of the current wearer, determine the applicable specification model, the control structure includes a main chip, the information is stored in the main chip, and sends out the instruction to the first moving structure 4, the second moving structure 5, the third moving structure, and adjusts the proper size of the spectacle frame 1.

In an embodiment, the smart glasses further comprise glasses legs 8 and sliding pieces 9, the sliding pieces 9 are fixedly arranged at two ends of the glasses frame 1, the glasses legs 8 are sleeved on the sliding pieces 9, and the glasses legs 8 can move in a telescopic mode along the direction perpendicular to the glasses frame 1 and along the sliding pieces 9.

In the above embodiment, the temple 8 is used to stabilize the whole smart glasses, the temple 8 is supported by the ears of the wearer, the temple 8 is sleeved on the sliding piece 9 and moves along the direction perpendicular to the frame 1 of the sliding piece 9, and the temple 8 is pulled outwards or retracted inwards according to the requirements of the wearer. The glasses legs 8 are pulled in the direction far away from the glasses frame 1, the glasses legs 8 slide on the sliding pieces 9, and partial components of the sliding pieces 9 sleeved by the glasses legs 8 are reduced, so that the overall length of the intelligent glasses is increased; the glasses legs 8 are pressed towards the direction close to the glasses frames 1, the glasses legs 8 slide on the sliding pieces 9, and the number of the components of the sliding pieces 9 sleeved by the glasses legs 8 is increased, so that the overall length of the intelligent glasses is reduced. The connection and movement of the slide 9 to the temple 8 is based on the same principle as that of a telescopic tv antenna and will not be described here.

The length of the whole lengths of the glasses legs 8 and the sliding pieces 9 meets the industrial standard, namely the length is 125-147mm (millimeter), the glasses legs 8 and the sliding pieces 9 are freely adjusted manually, the titanium alloy hollow resistance pull rod is adopted for the glasses legs 8 and the sliding pieces 9, and a proper amount of lubricating oil is arranged between the inner walls of the titanium alloy glasses legs 8 and the outer tubes of the sliding pieces 9, so that the effects of appearance protection and sliding assistance are achieved, and the service life is prolonged; the inner diameter of the temple 8 is 0.01mm (millimeter) larger than the outer diameter of the inner tube of the sliding connection piece 9, and the relatively small gap enables the temple 8 and the sliding connection piece 9 to generate resistance, so that the working requirements of extension, contraction and stay and fixation at any position are met.

Referring to fig. 1-3, in one embodiment, the smart glasses further comprise a pressure sensor 76, the pressure sensor 76 being disposed within the frame 1, the pressure sensor 76 being communicatively coupled to the control structure; one end of the spectacle frame 1 close to the spectacle leg 8 is provided with a second through hole 113, the sliding connection piece 9 is fixed at one end of the spectacle frame 1 and extends into the spectacle frame 1 through the second through hole 113, and the pressure sensor 76 is abutted against the sliding connection piece 9.

In the above embodiment, the temple 8 presses the cheek of the wearer, the temple 8 presses the sliding piece 9, when the pressure sensor senses the mechanical stress pressed by the sliding piece 9, the geometric deformation and the material stress generate the piezoresistive effect, the piezoresistive effect is connected to the wheatstone bridge, the resistance change is converted into a voltage signal through the bridge to be output, the bridge detects the resistance change, the signal is amplified and then sent to the MCU of the control structure to be processed, and the pressure value is obtained after calibration in a certain proportional relation. And the third moving structure is output to the main chip and combined with the light sensing information to send an instruction to adjust the third moving structure, so that the spectacle frame 1 is adjusted to be in the optimal length state.

Referring to fig. 1 to 3, in an embodiment, the frame 1 includes a left frame 11 and a right frame 12, and the left frame 11 and the right frame 12 are connected by a third moving structure; the third mobile structure comprises a hydraulic press, the hydraulic press comprises a hydraulic tank 61 and a hydraulic rod 62, one end of the hydraulic rod 62 is arranged in the hydraulic tank 61, and the hydraulic tank 61 is arranged in the right mirror frame; the other end of the hydraulic rod 62 penetrates through a first through hole formed in the left end of the right frame 12 and a second through hole 113 formed in the right end of the left frame 11, and connects the left frame 11 and the right frame 12.

In the above embodiment, the distance between the left glasses frame 11 and the right glasses frame 12 is adjusted through the movement of the hydraulic rod 62 in the hydraulic tank 61, and then the whole width of the intelligent glasses is adjusted, so that the intelligent glasses are suitable for the face shapes with different sizes, and the glasses legs 8 are prevented from clamping the face or the glasses legs 8 cannot be placed on ears worn really.

In an embodiment, the third moving structure further includes an electromagnetic directional valve 63 and an oil supply member, the electromagnetic directional valve 63 and the oil supply member are respectively in communication connection with the control structure, and the electromagnetic directional valve 63 and the oil supply member are communicated through an oil pipe; a sealing ring is arranged in the hydraulic tank 61, the sealing ring divides the hydraulic tank 61 into a head oil chamber and a tail oil chamber, and the head oil chamber and the tail oil chamber are respectively communicated with the electromagnetic directional valve 63 through an oil pipe.

In the above embodiment, the oil supply member includes a mail box for storing oil and a second motor 65 for supplying power, an oil delivery pipe and an oil return pipe are provided between the oil tank 64 and the electromagnetic directional valve 63, and an oil pipe is provided between the head and the tail of the hydraulic tank 61 and the electromagnetic directional valve 63; after the third moving structure receives the instruction information sent by the control structure, the second motor 65 rotates to drive the oil pump, oil in the oil tank 64 is output to the electromagnetic directional valve 63 through an oil pipeline, the electromagnetic directional valve 63 is controlled by the control structure to convey oil to the head oil pipe or the tail oil pipe, when the electromagnetic directional valve 63 conveys oil to the head oil pipe, the oil quantity of the head oil chamber is increased, thrust is formed to extrude the tail oil chamber, and the oil in the tail oil chamber returns to the electromagnetic directional valve 63 through the tail oil pipe and returns to the oil tank 64 through the oil pipe; the hydraulic stem 62 is pushed by oil in the head oil cavity to the tail, the part which is retracted and leaked in the hydraulic stem 62 is shortened, the hydraulic stem 62 is connected with the left spectacle frame 11, the distance between the left spectacle frame 11 and the right spectacle frame 12 is reduced, and the whole length of the intelligent spectacles is reduced. When the electromagnetic directional valve 63 conveys oil to the tail oil pipe, the oil quantity of the head oil cavity is increased to form thrust to be extruded to the head oil cavity, and the oil in the head oil cavity returns to the electromagnetic directional valve 63 through the head oil pipe and returns to the oil tank 64 through the oil pipe; the hydraulic rod 62 is pushed towards the head by oil in the oil cavity at the tail part, the extended leakage part of the hydraulic rod 62 is lengthened, the hydraulic rod 62 is connected with the left spectacle frame 11, the distance between the left spectacle frame 11 and the right spectacle frame 12 is increased, and the whole length of the intelligent spectacles is increased. The overall length of the intelligent glasses can be freely adjusted to meet the requirement of 14mm (millimeters).

The standard of the spectacle frame 1 industry is that the length of the small-face spectacle frame 1 is 132mm, the length of the medium-face spectacle frame 1 is 132 plus 136mm, the length of the large-face spectacle frame 1 is 136 plus 140mm, the length of the extra large-face is within 146mm, and the maximum length and the minimum length are different by 14 mm. From this, intelligent glasses are applicable to most people through automatically regulated.

Referring to fig. 1 to 4, in an embodiment, the first moving structure 4 includes a first motor 41, one end of the first motor 41 is disposed in the frame 1, one end of the first motor 41 extends out of the frame 1 through a first guide hole 111 to connect with the lens 2, a first magnet 42 is disposed at a connection end of the first motor 41 and the lens 2, a second magnet 23 is disposed at a connection end of the lens 2 and the first motor 41, and the first magnet 42 and the second magnet 23 are attracted to each other correspondingly.

In the above embodiment, taking the left frame 11 as an example, the left frame 11 is hollow, the right side wall of the left frame 11 is provided with the second through hole 113, the lower end wall of the left frame 11 is provided with the first guide hole 111, and one end of the first motor 41 penetrates through the first guide hole 111, extends out of the left frame 11, and moves left and right in the first guide hole 111. First motor 41 is provided with the bone position with the link of lens 2, first magnet 42 adopts the point to glue the location form and fixes the bone position department at first motor 41, lens 2 is provided with first recess 21 with first motor 41's link, second magnet 23 joint is in first recess 21, correspond through first magnet 42 and second magnet 23 and inhale mutually, realize being connected of first motor 41 and lens 2, first motor 41 adopts magnetism to inhale the formula with lens 2 and is connected, convenient to detach. The right frame 12 is connected to the lenses 2 in the same manner as the left frame 11 and will not be described again.

In an embodiment, the connection end of the lens 2 and the first motor 41 is further provided with a positioning column 22, the positioning column 22 is located at two sides of the second magnet 23, the connection end of the first motor 41 and the lens 2 is further provided with a clamping groove, and the positioning column 22 is correspondingly clamped in the clamping groove.

In the above embodiment, the positioning posts 22 on both sides of the second magnet 23 are respectively clamped in the clamping grooves of the first motor 41, and are limited in the XY direction, so as to ensure the stability of the lens 2; the positioning columns 22 have the same size, and the parts clamped in the clamping grooves are the same, so that the lens 2 is ensured to be horizontal. First motor 41 drives lens 2 and moves about the direction, adopts reference column 22 joint to further stabilize lens 2 in the joint inslot, prevents that the in-process that lens 2 removed from taking place to rock.

In an embodiment, the second moving structure 5 includes a moving motor 51, one end of the moving motor 51 is disposed in the lens holder 1, and one end of the moving motor 51 extends out of the lens holder 1 through the second guiding hole 112 to be magnetically connected with the nose pad 3.

In the above embodiment, taking the nose pad 3 at the left end as an example, the left frame 11 is hollow, the lower end wall of the left frame 11 is provided with the second guide hole 112, the second guide hole 112 is located at the right side of the first guide hole 111, and one end of the moving motor 51 penetrates through the second guide hole 112, extends out of the left frame 11, and moves left and right in the second guide hole 112. The movable motor 51 is connected with the nose support 3 in a magnetic type, and is convenient to detach.

Referring to fig. 1 to 3, in an embodiment, the nose pad 3 includes a connecting body 31 and a nose pad 32, one end of the connecting body 31 is magnetically connected to the nose pad 32, and the other end of the connecting body 31 is connected to the nose pad 32; the nose pad 32 is made of liquid silica gel.

In the above embodiment, the nose pad 32 is abutted against the nose of the wearer, the nose pad 32 is made of liquid silica gel, so that the nose pad has better flexibility, and the wearer does not wear or scratch the nose after wearing the smart glasses for a long time.

In one embodiment, the nose pad 32 is hollow and an air hole 321 is provided at an end of the nose pad 32 near the frame 1.

In the above embodiment, the nose pad 32 is more deformable by the hollowing process, and has better comfort, thereby satisfying the ergonomic design. An air hole 321 is formed at one end of the nose pad 32 close to the frame 1 to provide a space for the deformation of the nose pad 32.

In an embodiment, smart glasses still include range sensor 75, and the one end that mirror holder 1 kept away from the person's of wearing face is provided with first mounting groove, and range sensor 75 joint is in first mounting groove, and range sensor 75 is connected with the control structure communication.

In the above embodiment, the distance measuring sensor 75 is used for measuring the distance information between the wearer and the object, and sending the distance information to the control structure, and the control structure controls the first moving structure 4 to drive the lens 2 to move according to the distance information. The visual effect of different positions of the same lens 2 is different, and the visual effect of the periphery of the lens 2 is slightly poorer.

In one embodiment, the smart glasses further comprise a storage battery 81 and a charging structure 10, the glasses legs 8 are hollow, and the storage battery 81 is electrically connected with the charging structure 10; the storage battery 81 provides electric energy for the first moving structure 4, the second moving structure 5, the third moving structure, the information acquisition module 7 and the control structure; the upper end of mirror leg 8 is provided with the second mounting groove, and charging structure 10 joint is in the second mounting groove.

In the above embodiment, the battery 81 provides electric energy for the first moving structure 4, the second moving structure 5, the third moving structure, the information collecting module 7 and the control structure, so as to ensure automatic adjustment of the smart glasses. The external power supply charges the storage battery 81 through the charging structure 10, and normal work of the intelligent glasses is ensured.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A smart eyewear, comprising:

the mirror frame is hollow inside;

two sets of lenses;

the first moving structure penetrates through a first guide hole formed in the lower end wall of the spectacle frame and is connected with the lenses to drive the two groups of lenses to move in a direction parallel to the spectacle frame and move in opposite directions;

two sets of nose pads;

the second moving structure penetrates through a second guide hole formed in the lower end wall of the spectacle frame and is connected with the nose pads, so that the two nose pads are driven to move in a direction parallel to the spectacle frame between the two groups of lenses, and the two nose pads move in opposite directions;

the third moving structure is arranged in the mirror bracket and is used for driving the mirror bracket to widen or narrow;

the information acquisition module is used for acquiring the facial information of a wearer;

the control structure is arranged in the mirror bracket, and the first moving structure, the second moving structure, the third moving structure and the information acquisition module are respectively in communication connection with the control structure.

2. The pair of intelligent glasses according to claim 1, further comprising glasses legs and sliding connectors, wherein the sliding connectors are fixedly arranged at two ends of the glasses frame, the glasses legs are sleeved on the sliding connectors, and the glasses legs can move in a telescopic mode along the direction perpendicular to the glasses frame.

3. The smart eyewear of claim 2, further comprising a pressure sensor disposed within the frame, the pressure sensor communicatively coupled to the control structure; the spectacle frame is characterized in that a second through hole is formed in one end, close to the spectacle legs, of the spectacle frame, the sliding connection piece is rotationally fixed to one end of the spectacle frame and penetrates through the second through hole to extend into the spectacle frame, and the pressure sensor is abutted to the sliding connection piece.

4. The smart eyewear of claim 1, wherein the frame comprises a left frame and a right frame, the left frame and the right frame connected by the third movement structure; the third moving structure comprises a hydraulic press, the hydraulic press comprises a hydraulic tank and a hydraulic rod, one end of the hydraulic rod is arranged in the hydraulic tank, and the hydraulic tank is arranged in the right mirror frame; the other end of the hydraulic rod penetrates through a first through hole formed in the left end of the right mirror frame and a second through hole formed in the right end of the left mirror frame to connect the left mirror frame and the right mirror frame.

5. The intelligent glasses according to claim 4, wherein the third moving structure further comprises an electromagnetic directional valve and an oil supply member, the electromagnetic directional valve and the oil supply member are respectively in communication connection with the control structure, and the electromagnetic directional valve and the oil supply member are communicated through an oil pipe; and a sealing ring is arranged in the hydraulic tank, the sealing ring divides the hydraulic tank into a head oil cavity and a tail oil cavity, and the head oil cavity and the tail oil cavity are respectively communicated with the electromagnetic directional valve through an oil pipe.

6. The pair of smart glasses according to claim 1, wherein the first moving structure comprises a first motor, one end of the first motor is disposed in the frame, one end of the first motor extends out of the frame through the first guiding hole and is connected to the lens, a first magnet is disposed at a connection end of the first motor and the lens, a second magnet is disposed at a connection end of the lens and the first motor, and the first magnet and the second magnet are attracted to each other correspondingly.

7. The pair of smart glasses according to claim 6, wherein a connecting end of the lens and the first motor is further provided with a positioning column, the positioning column is located at two sides of the second magnet, a connecting end of the first motor and the lens is further provided with a clamping groove, and the positioning column is correspondingly clamped in the clamping groove.

8. The intelligent glasses according to claim 1, wherein the second moving structure comprises a moving motor, one end of the moving motor is arranged in the glasses frame, and one end of the moving motor penetrates through the second guide hole and extends out of the glasses frame to be magnetically connected with the nose pad; the nose pad comprises a connecting body and a nose pad, one end of the connecting body is connected with the nose pad in a magnetic absorption manner, and the other end of the connecting body is connected with the nose pad; the nose holds in the palm the material of filling up and is liquid silica gel, the inside cavity of nose holds in the palm the pad, just the nose holds in the palm the pad and is close to the one end of mirror holder is provided with the gas pocket.

9. The pair of smart glasses according to claim 1, further comprising a distance measuring sensor, wherein a first mounting groove is formed in one end, away from the wearer, of the glasses frame, the distance measuring sensor is clamped in the first mounting groove, and the distance measuring sensor is in communication connection with the control structure.

10. The pair of smart glasses according to claim 3, further comprising a storage battery and a charging structure, wherein the glasses legs are hollow inside, and the storage battery is electrically connected with the charging structure; the storage battery provides electric energy for the first moving structure, the second moving structure, the third moving structure, the information acquisition module and the control structure; the upper end of mirror leg is provided with the second mounting groove, the charge structure joint is in the second mounting groove.

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