CN115704969A - Intelligent glasses - Google Patents

Abstract

The embodiment of the invention discloses intelligent glasses, which comprise: the device comprises a spectacle frame body, at least one infrared lamp, at least one dichroic mirror and at least one first image sensor module; the glasses frame body is supported in front of the eyes of the user; each infrared lamp is arranged on the glasses frame body and used for providing infrared light for the eyes of the user; each dichroic mirror is arranged on the glasses frame body and used for reflecting the infrared light according to the infrared cut-off characteristic; every first image sensor module sets up on the below position of glasses framework, sets up towards the dichroic mirror respectively for gather the infrared light of reflection through the dichroic mirror that corresponds, form user's eye image. The problem of camera direct mount shelter from user's sight in the place ahead of user's eyes has been solved. The method avoids the blocking of the sight of the human eyes when the camera directly acquires the human eye images. The included angle between the optical axis of the camera and the visual plane can be reduced through reflection, and a proper pupil image is shot.

Description

Intelligent glasses

Technical Field

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

Background

Along with the development of science and technology, intelligent glasses are more and more applied in life. After a user wears the intelligent glasses, gaze information such as a gaze point of the user is analyzed by collecting eye movement information of the user.

Current eye movement tracking intelligence glasses equipment through arranging infrared camera around people's eye the place ahead, and infrared camera directly obtains eye image towards people's eye, and camera itself and the casing of fixed camera can not equidimension shelter from the sight when infrared camera shoots people's eye, influence the user and watch external environment or projection video, reduce user experience. Moreover, the included angle between the optical axis of the camera and the sight line is large, the shot pupil image is flat, subsequent image processing is not easy to perform, the accuracy of eye image processing is reduced, and the eye movement tracking effect is influenced.

Disclosure of Invention

The invention provides intelligent glasses, which are used for accurately shooting an eye image of a user under the condition of not influencing sight.

The embodiment of the invention provides intelligent glasses, which comprise: the system comprises a spectacle frame body, at least one infrared lamp, at least one dichroic mirror and at least one first image sensor module;

the glasses frame body is supported in front of the eyes of the user;

each infrared lamp is arranged on the glasses frame body and used for providing infrared light for the eyes of the user;

each dichroic mirror is arranged on the glasses frame body and used for reflecting the infrared light according to the infrared cut-off characteristic;

each first image sensor module is arranged at the position below the glasses frame body, faces the dichroic mirror respectively, and is used for collecting reflected infrared light through the corresponding dichroic mirror to form the eye image of the user.

The embodiment of the invention provides intelligent glasses, which comprise: the system comprises a spectacle frame body, at least one infrared lamp, at least one dichroic mirror and at least one first image sensor module; the spectacle frame body is supported in front of the eyes of the user; each infrared lamp is arranged on the glasses frame body and used for providing infrared light for the eyes of the user; each dichroic mirror is arranged on the glasses frame body and used for reflecting the infrared light according to the infrared cut-off characteristic; each first image sensor module is arranged at the position below the glasses frame body, faces the dichroic mirror respectively, and is used for collecting reflected infrared light through the corresponding dichroic mirror to form the eye image of the user. The problem of camera direct mount shelter from user's sight in the place ahead of user's eyes has been solved. The eye characteristics of the user are displayed through the dichroic mirror, the first image sensor module faces the dichroic mirror, the eye images of the user are collected through the dichroic mirror, the eye sight line is prevented from being shielded when the eye images are directly acquired through the camera, and the horizontal installation distance between the first image sensor module and the eyes is shortened. The first image sensor module is arranged at the position below the glasses frame body, so that the normal sight of a user cannot be influenced when the images of human eyes are collected. The included angle between the optical axis of the camera and the visual plane can be reduced through reflection, a proper pupil image is shot, and software better processes the pupil image.

Drawings

Fig. 1 is a schematic structural diagram of a pair of smart glasses according to a first embodiment of the present invention;

fig. 2 is a schematic structural diagram of another smart glasses according to a first embodiment of the present invention;

fig. 3 is a schematic diagram of a monocular structure of smart glasses according to a first embodiment of the present invention;

fig. 4 is a schematic structural diagram of a pair of smart glasses according to a second embodiment of the present invention;

fig. 5 is a structural display diagram of another pair of smart glasses according to a second embodiment of the present invention;

fig. 6 is a front view of smart glasses according to a second embodiment of the present invention;

fig. 7 is a schematic view illustrating the joint display of the smart glasses and the glasses frame of the user according to the second embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings. It should be understood that the embodiments described are only a few embodiments of the present application, and not all 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 application.

The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

In the description of the present application, it is to be understood that the terms "first," "second," "third," and the like are used solely for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order, nor is it to be construed as indicating or implying relative importance. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate. Further, in the description of the present application, "a plurality" means two or more unless otherwise specified. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

Example one

Fig. 1 shows a schematic structural diagram of smart glasses provided in an embodiment of the present application, where the smart glasses include: the eyeglass frame body 11, the at least one dichroic mirror 12, the at least one first image sensor module 13, and the at least one infrared lamp 14;

the eyeglasses frame body 11 is supported in front of the eyes of the user;

each infrared lamp 14 is arranged on the glasses frame body 11 and used for providing infrared light for eyes of a user;

each dichroic mirror 12 is respectively arranged on the glasses frame body 11 and used for reflecting the infrared light according to the infrared cut-off characteristic;

each first image sensor module 13 is disposed at a position below the eyeglasses frame 11, and is disposed toward the dichroic mirror 12, so as to collect reflected infrared light through the corresponding dichroic mirror 12, thereby forming an eye image of the user.

In this embodiment, the user may be specifically understood as any user who wears smart glasses. The glasses frame body 11 can be understood as a frame of glasses, and all parts on the intelligent glasses are integrated together, and the glasses frame body 11 in the application can be a frame including a left eye and a right eye, and can also be a frame of a single eye (a left eye or a right eye), so that the intelligent glasses can be installed on both eyes, and the intelligent glasses can also be installed on the single eye. The eyeglass frame 11 is supported in front of the eyes of the user so that the user can observe the external environment through the components provided in the eyeglass frame 11.

In the present embodiment, the number of the infrared lamps 14 may be one or more. The infrared lamp 14 may be provided at any position around the eyeglasses frame body 11, and if only one eye is to wear the smart eyeglasses, the infrared lamp 14 only needs to be provided on the side of the eye, and one or more infrared lamps 14 may be provided. The infrared lamp 14 is used to provide infrared light to illuminate the eyes of the user by infrared or the like.

In the present embodiment, the dichroic mirror 12 is provided on the eyeglass frame 11, and may be provided in one or more number, and the number of the dichroic mirror 12 is generally determined according to the number of eyes that the user needs to wear the smart glasses. The dichroic mirror has an infrared cut-off characteristic, and reflects infrared light reflected by eyes of a user according to the infrared cut-off characteristic.

In the present embodiment, the eye image may be specifically understood as an image including eyes of the user, and the eyes of the user may include, but are not limited to, upper and lower eyelids, eyeballs, eyelids, and the like. The first image sensor module 13 is composed of one or more sensors and is used for acquiring an eye image of a user. The first image sensor module 13 is provided at a lower position of the eyeglass frame 11, and may be provided at any lower position such as a lower left position and a lower right position. The first image sensor is arranged towards the dichroic mirror 12, and forms an eye image of the user by collecting infrared light reflected by the dichroic mirror 12, so that the eye image of the user is collected. The infrared lamp 14 shines user's eye, through the reflection principle of light, with light reflection to dichroic mirror 12 on, dichroic mirror 12 reflects infrared light according to infrared cut-off characteristic, makes light get into first image sensor module, reflects user's eye state, has reduced camera optical axis and horizon contained angle, and then can shoot suitable pupil image when gathering eye image through first image sensor module 13, and subsequent image processing of being convenient for carries out user's eye movement and tracks.

It should be noted that, since the dichroic mirror 12 is used to reflect infrared light to realize eye image acquisition of a user, the number of the dichroic mirror 12 is usually determined according to the number of eyes that the user needs to wear the smart glasses, for example, the user only needs to wear the smart glasses on one eye, and only one dichroic mirror 12 needs to be arranged on the glasses frame 11 of the corresponding smart glasses. When one dichroic mirror 12 is attached, the spectacle frame body 11 may be supported in front of both eyes of the user, and the dichroic mirror 12 may be attached to only one frame, or the spectacle frame body 11 may be supported in front of one eye of the user, and the dichroic mirror 12 may be attached to the spectacle frame.

The structure example of the smart glasses in fig. 1 illustrates that two dichroic mirrors 12, two first image sensor modules 13, and eight infrared lamps 14 are provided exemplarily, the two dichroic mirrors 12 are respectively disposed at the left and right sides of the glasses frame 11, the two first image sensor modules 13 are installed at the lower positions of the glasses frame 11, and each first image sensor can be installed right below, or at any lower position such as the left lower side, the right lower side, and the like, relative to one side of the glasses where the first image sensor is located.

Fig. 2 exemplarily provides a structural schematic diagram of another kind of smart glasses, as shown in fig. 2, the number of the dichroic mirror 12, the first image sensor module 13 and the infrared lamp 14 of the smart glasses is one, and the glasses frame 11 is supported in front of two eyes of the user. In the drawing, the dichroic mirror 12 and the first image sensor module 13 are taken as an example to collect an eye image of the left eye (disposed on the left side of the eyeglass frame 11), the first image sensor module 13 is disposed at an arbitrary position below the side corresponding to the left eye, for example, on the left side, the right side, or the middle, and fig. 2 is taken as an example to collect an eye image of the left eye. Similarly, for example, the image of the right eye can be collected, and correspondingly, the first image sensor module 13 is disposed at any position below the eyeglass frame 11 corresponding to the right eye.

Fig. 3 exemplarily provides a schematic diagram of a monocular structure of smart glasses, as shown in fig. 3, the number of the dichroic mirror 12, the first image sensor module 13 and the infrared lamp 14 of the smart glasses is one, and the glasses frame 11 is supported only in front of one eye of the user. In the drawing, the dichroic mirror 12 and the first image sensor module 13 are taken as an example to collect an eye image of a right eye (provided on the right side of the eyeglass frame 11), the first image sensor module 13 is provided at an arbitrary position below the side corresponding to the right eye, for example, on the left side or on the right side, and fig. 3 is taken as an example on the right side. Similarly, an eye image of a left eye may be captured, and accordingly, the eyeglasses frame body 11 is supported in front of the left eye of the user, and the first image sensor module 13 is disposed at any position below the eyeglasses frame body 11 on the side corresponding to the left eye.

The embodiment of the invention provides intelligent glasses, which comprise: the device comprises a spectacle frame body, at least one dichroic mirror, at least one first image sensor module and at least one infrared lamp; the spectacle frame body is supported in front of the eyes of the user; each infrared lamp is arranged on the glasses frame body and used for providing infrared light for the eyes of the user; each dichroic mirror is arranged on the glasses frame body and used for reflecting the infrared light according to the infrared cut-off characteristic; each first image sensor module is arranged at the position below the glasses frame body, is respectively arranged towards the dichroic mirrors, and is used for collecting reflected infrared rays through the corresponding dichroic mirrors to form eye images of the user; the problem of camera direct mount shelter from user's sight in the place ahead of user's eyes is solved. The eye characteristics of the user are displayed through the dichroic mirror, the first image sensor module faces the dichroic mirror, the eye images of the user are collected through the dichroic mirror, the eye sight line is prevented from being shielded when the eye images are directly acquired through the camera, and the horizontal installation distance between the first image sensor module and the eyes is shortened. The first image sensor module is arranged at the position below the glasses frame body, so that the normal sight of a user cannot be influenced when the images of human eyes are collected. The included angle between the optical axis of the camera and the visual plane can be reduced through reflection, a proper pupil image is shot, and the software can better process the pupil image.

Example two

Fig. 4 is a schematic structural diagram of a pair of smart glasses according to a second embodiment of the present invention. The technical scheme of the embodiment is further detailed on the basis of the technical scheme, and specifically mainly comprises the following steps: the glasses frame body 201, at least one dichroic mirror 202, at least one first image sensor module 203, at least one set of infrared lamps 204. Fig. 4 is a side view of the smart glasses.

Dichroic mirror 202 is formed by plating the side of a planar transparent material facing the user's eye 31.

The plane transparent material in this application embodiment can be any plane transparent material, and through carrying out the cladding on one side towards user's eyes 31, the dichroic mirror 202 that forms is still transparent, therefore dichroic mirror 202 both can be used for showing user's eye image, can not influence user's normal sight and watch experience again.

Further, each first image sensor module 203 is disposed at a first preset angle with respect to the corresponding dichroic mirror 202.

In this embodiment, the first preset angle may be specifically understood as an angle value obtained through experiment or mathematical calculation in advance. The first image sensor is disposed at a position between the dichroic mirror 202 and the human eye, that is, at a side of the dichroic mirror 202 close to the user's eye 31, and the first image sensor module 203 corresponds to one dichroic mirror 202, so that it can collect an eye image on the dichroic mirror 202. The first image sensor module 203 and the corresponding dichroic mirror 202 are arranged at a first preset angle, so that the best eye image is collected, the subsequent eye image analysis is facilitated, and the eye movement tracking is realized. Since the dichroic mirror 202 reflects infrared light, in order to ensure that the first image sensor module 203 can acquire an eye image, the first image sensor module 203 adopts a lens with an infrared filter.

Further, the eyeglasses frame body 201 includes: at least one opening 205;

each opening 205 is disposed corresponding to the infrared lamp 204 and is used for limiting the irradiation range of the infrared lamp 204.

Specifically, each opening 205 on the eyeglasses frame body 201 may correspond to one infrared lamp 204, or may correspond to one infrared light source in one infrared lamp 204, and the irradiation range of the infrared lamp 204 is limited by the position and size of the opening 205, so that the infrared light can accurately irradiate the eyes of a user, and the eye image of the user can be conveniently collected.

Further, this smart glasses still includes: a clamping structure 206;

the clip structure 206 is provided on the eyeglass frame body 201 and is used to fix the eyeglass frame body 201 to the eyeglass frame body 32 of the user.

In the present embodiment, the holding structure 206 can be specifically understood as a hardware structure capable of fixing the eyeglasses frame body 201 to other objects. The user eyeglass frame 32 is specifically understood to be a frame of eyeglasses worn by the user.

Since the smart glasses in the present application are worn in front of the user's eyes 31, the holding structure 206 functions to fix the housing 201 to the user's housing 201. The holding structure 206 may be provided at any position such as the center, the left, and the right of the eyeglasses frame body 201 as long as the holding and fixing function can be achieved.

Further, the eyeglasses frame body 201 is fixed to the user eyeglasses frame body 32 on the eye side.

The eyeglasses frame body 201 is fixed to the side of the user eyeglasses frame body 32 close to the eyeglasses, that is, when the user wears the user eyeglasses frame body 32, the eyeglasses frame body 201 of the smart eyeglasses is held between the user's eyes 31 and the user's eyeglasses frame body 32 by the holding structure.

By fixing the eyeglasses frame body 201 on the side of the eyeglasses frame body 32 of the user close to the eyes, the eyeglasses of the user still keep a close distance with the eyes of the user, and the user is prevented from wearing the eyeglasses far away to cause dizziness or discomfort. Spectacle frame body 201 centre gripping is used on user's own glasses, can adapt to the user's needs of the myopia or hypermetropia of different degrees, avoids the fixed power lens group that provides and user's eyes degree mismatch to lead to dizzy. Meanwhile, the portable electric heating cooker is convenient to carry and replace, and the product cost is saved.

Further, the apparatus further comprises: a second image sensor module 207;

the second image sensor module 207 is disposed on the glasses frame 201, and forms a second predetermined included angle with the eye level for collecting the environment image.

In the present embodiment, the second image sensor module 207 is composed of one or more sensors, and the second image sensor module 207 is used for capturing an image of an environment around the user so as to track the eye movement of the user. Since the second image sensor module 207 has no requirement when acquiring the environmental image, the type of the sensor acquired by the second image sensor module 207 is not limited, and any type can be used as long as the type can acquire the image. Set up second image sensor module 207 and look the flat line and be the second and predetermine the contained angle, more match with people's eye sight range when gathering the environment image, in this embodiment, the predetermined of the relative position of first image sensor module 203 and second image sensor module 207 to calculate eye movement data such as fixation point, sight range.

Further, the apparatus further comprises: an optical waveguide sheet 208;

an optical waveguide sheet 208 is provided on a side of each dichroic mirror 202 remote from the user's glasses for displaying a virtual image.

In the present embodiment, the optical waveguide sheet 208 may be specifically understood as a display device that displays a projected Virtual image in smart glasses, for example, a device that displays a Virtual image when glasses such as Virtual Reality (VR) glasses and Augmented Reality (AR) glasses are used to present the projected Virtual image to a user. The optical waveguide sheet 208 is disposed on a side of the dichroic mirror 202 away from the eyes of the user, and in order to facilitate the user to view the environment or virtual image through the user eyeglass frame 32 worn by the user, the optical waveguide sheet 208 is disposed on a side, i.e., an outer side, of the holding structure 206 away from the eyes of the user.

Further, the apparatus further comprises: a sound collection module 209;

the sound collection module 209 is provided on the eyeglass frame body 201 and collects sound data in the environment.

In the present embodiment, the sound collection module 209 may be specifically understood as a device for collecting sound, for example, a microphone. The sound collection module 209 is provided at an arbitrary position on the eyeglasses frame body 201, and collects sound data in the environment, for example, sound emitted from a user or sound data emitted from other persons, machines, and the like in the surrounding environment. The collected sound data can be used for identifying instructions, intentions and the like of a user, and then the intelligent glasses are controlled according to the sound data, for example, when a video is watched, a next video is played through sound control.

Further, the apparatus further comprises: a sound playing module 210;

the sound playing module 210 is disposed on the eyeglasses frame body 201 and is used for playing audio data.

In this embodiment, the sound playing module 210 may be specifically understood as a module that plays a sound signal, for example, a microphone. The sound playing module 210 plays the audio data according to the received audio data. The audio data may be audio data transmitted from a terminal device received from the outside, or locally stored audio data. The played audio data may be used to remind the user or to provide the user with an audio-visual combined experience through a virtual image displayed in combination with the optical waveguide sheet 208.

Further, the apparatus further comprises: a nose pad 211 provided in the middle of the eyeglass frame body 201.

The nose holds in the palm 211 and sets up in the middle of spectacle frame body 201, towards user's eyes 31 one side, holds in the palm 211 through the nose when making the user wear intelligent glasses and combines clamping structure 206 to fix intelligent glasses in the front of the user's eyes, makes the user not direct contact with the spectacle frame body 201 of intelligent glasses, both can guarantee intelligent glasses's stability, has improved user's travelling comfort again. Since the user may have a proper movement of the eyeglasses frame body 32 after wearing the smart eyeglasses, the nose pads 211 need to be added separately for some users since the original nose pads 211 are separated from the bridge of the nose.

Since fig. 4 is a side view of the smart glasses, which cannot show the nose pad 211, fig. 5 is a structural view of another smart glasses according to the embodiment of the present disclosure, which shows the smart glasses from the front. The spectacle frame body 201, the dichroic mirror 202, the infrared lamp 204, the holding structure 206, and the nose pad 211 are shown only by way of example in the figure. In the figure, two dichroic mirrors 202 are taken as an example, the number of the infrared lamps 204 is multiple, only two are exemplarily labeled, and the rest of similar structures can be regarded as the infrared lamps 204. A nose pad 211 is provided at the center of the eyeglass frame 201 of the smart eyeglasses.

Further, the apparatus further comprises: a communication motherboard 212;

the communication main board 212 is disposed above the eyeglasses frame body 201, connected to an external terminal, and used for the smart eyeglasses to communicate with the external terminal.

In this embodiment, the communication motherboard 212 may be specifically understood as a module for connecting and communicating with the smart glasses to the outside. The external terminal may be specifically understood as any device that the smart glasses need to be in communication connection or hardware connection, for example, any smart device such as a computer, a mobile phone, and a tablet computer may be used, and also any device that provides electric energy such as a power supply may be used. The communication motherboard 212 may include a communication interface for connection with the outside.

First image sensor module 203, second image sensor module 207, sound collection module 209, sound play module 210 in this application need be connected with external terminal, carry out data transmission, information interaction. Therefore, the first image sensor module 203, the second image sensor module 207, the sound collection module 209 and the sound playing module 2010 need to be connected with the communication main board 212 at first, then the communication main board 212 is connected with external equipment, so that data transfer is realized, and the external terminal can also send a control instruction to control devices in the smart glasses through the communication main board 212. Meanwhile, when the devices in the intelligent glasses need to be charged, the devices are connected with an external power supply through the communication main board 212.

Exemplarily, fig. 6 is a front structure display diagram of the smart glasses provided in the embodiment of the present application, which is displayed at an angle from which another user observes a user wearing the smart glasses, as shown in the figure, the clamping structure 206 on the glasses frame body 201 of the smart glasses is used to fix the smart glasses on the glasses frame body 32 of the user, in fig. 6, the dichroic mirror 202 is disposed on both left and right eyes, the number of the first image sensor modules 203 is also two, the first image sensor modules collect eye images of the left and right eyes of the user respectively, and the second image sensor module 207 is disposed in the middle of the glasses frame body 201 as an example.

Fig. 7 is a schematic view illustrating a combination of smart glasses and a glasses frame of a user according to an embodiment of the present application, the glasses frame 201 of the smart glasses is fixed to a side of the glasses frame 32 of the user close to eyes by a holding structure 206, and a dichroic mirror 202 is disposed for both left and right eyes in fig. 7. The smart glasses are secured to the user's eyeglass frame 32 by the nose pads 211 cooperating with the clip-on structures 206.

The embodiment of the invention provides intelligent glasses, which solves the problem that a camera is directly arranged in front of eyes of a user to shield the sight of the user. The eye characteristics of the user are displayed through the dichroic mirror, the first image sensor module faces the dichroic mirror, the eye images of the user are collected through the dichroic mirror, the eye sight line is prevented from being shielded when the eye images are directly acquired through the camera, and the horizontal installation distance between the first image sensor module and the eyes is shortened. The first image sensor module is arranged at the position below the glasses frame body, so that the normal sight of a user cannot be influenced when the images of human eyes are collected. The included angle between the optical axis of the camera and the visual plane can be reduced through reflection, a proper pupil image is shot, and the software can better process the pupil image. Through setting up clamping structure, with the space of glasses framework centre gripping between user's own glasses and people's eye, guarantee that user's glasses and people's eye keep nearer distance, avoid user's glasses to wear far away, lead to dizzy or uncomfortable. The glasses body centre gripping is used on user's own glasses, can adapt to the user's needs of the myopia or hypermetropia of different degrees, and the fixed number of degrees lens group of avoiding providing is unmatched with user's eyes degree and is leaded to dizzy. Meanwhile, the portable electric heating cooker is convenient to carry and replace, and the product cost is saved.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims (12)

1. A smart eyewear, comprising: the system comprises a spectacle frame body, at least one infrared lamp, at least one dichroic mirror and at least one first image sensor module;

the spectacle frame body is supported in front of the eyes of the user;

each infrared lamp is arranged on the glasses frame body and used for providing infrared light for the eyes of the user;

each dichroic mirror is arranged on the glasses frame body and used for reflecting the infrared light according to the infrared cut-off characteristic;

each first image sensor module is arranged at the position below the glasses frame body, faces the dichroic mirror respectively, and is used for collecting reflected infrared light through the corresponding dichroic mirror to form the eye image of the user.

2. The smart eyewear of claim 1, wherein the dichroic mirror is coated from a planar transparent material on a side facing the user's eyes.

3. The smart glasses according to claim 1, wherein each of the first image sensor modules is disposed at a first predetermined angle with respect to the corresponding dichroic mirror.

4. The smart eyewear of claim 1, wherein the eyewear platform comprises: at least one opening;

each opening corresponds to the infrared lamp and is used for limiting the irradiation range of the infrared lamp.

5. The smart eyewear of claim 1, further comprising: a clamping structure;

the clamping structure is arranged on the glasses frame body and used for fixing the glasses frame body on the glasses frame body of a user.

6. The smart eyewear of claim 5, wherein the eyewear frame is secured to the user eyewear frame on the side thereof adjacent to the eyes.

7. The smart eyewear of claim 1, further comprising: a second image sensor module;

the second image sensor module is arranged on the glasses frame body and forms a second preset included angle with the sight line, and the second preset included angle is used for collecting an environment image.

8. The smart eyewear of claim 1, further comprising: an optical waveguide sheet;

the optical waveguide sheet is arranged on one side, away from the user glasses, of each dichroic mirror and used for displaying virtual images.

9. The smart eyewear of claim 1, further comprising: a sound collection module;

the sound collection module is arranged on the spectacle frame body and used for collecting sound data in the environment.

10. The smart eyewear of claim 1, further comprising: a sound playing module;

the sound playing module is arranged on the glasses frame body and used for playing audio data.

11. The smart eyewear of claim 1, further comprising: and the nose support is arranged in the middle of the glasses frame body.

12. The smart eyewear of any of claims 1-11, further comprising: a communication motherboard;

the communication main board is arranged above the glasses frame body, is connected with an external terminal and is used for communication between the intelligent glasses and the external terminal.

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