CN210181299U

CN210181299U - Wearable glasses

Info

Publication number: CN210181299U
Application number: CN201920870729.2U
Authority: CN
Inventors: Hongxuan Nie; 聂红宣; Haifeng Huang; 黄海峰
Original assignee: Hiscene Information Technology Co Ltd
Current assignee: Hiscene Information Technology Co Ltd
Priority date: 2018-07-26
Filing date: 2019-06-11
Publication date: 2020-03-24
Anticipated expiration: 2029-06-11
Also published as: CN209216042U

Abstract

The application discloses wearable glasses, which comprise head-mounted glasses equipment, wherein the head-mounted glasses equipment comprises a glasses frame, a second camera device and an optical display unit, wherein the second camera device and the optical display unit are assembled on the glasses frame; the handheld equipment comprises an augmented reality device, and the augmented reality device is communicated with the second camera device and the optical display unit through the communication connection between the handheld equipment and the head-mounted glasses equipment; and the data line is used for connecting the handheld equipment and the head-mounted glasses equipment so as to realize communication connection between the handheld equipment and the head-mounted glasses equipment. The user bears less pressure when using this wearing glasses, increases the travelling comfort that the user used, has promoted user experience.

Description

Wearable glasses

This application claims priority to CN 201821195700.0 (a type of wearing glasses).

Technical Field

The application relates to intelligence wearing field especially relates to a dress glasses.

Background

The smart wearable device (also called wearable device, wearable smart device, etc.) generally refers to an electronic communication device embedded in a garment or existing in the form of an ornament or a wearable article. The intelligent glasses are the same as the intelligent mobile phone, have independent operating systems, and can be used by users to install programs provided by software service providers such as social contact and games; the functions of adding schedules, navigating maps, interacting with friends, taking photos or videos, carrying out video calls with friends and the like can be completed through voice or action control; and can realize the glasses equipment that the wireless network inserts through the mobile communication network. Therefore, the wearable glasses refer to glasses equipment with an electronic communication function which can be worn on the body.

With the new wave of science and technology, the market share of intelligent wearing is getting bigger and bigger, the function and the appearance are continuously updated, and a good intelligent product can bring people to experience different lives. Intelligence is dressed and is not merely limited to the bracelet wrist-watch alone, and its carrier form is various abundant, and it can be fit for different crowds simultaneously, and wherein, intelligence is dressed glasses and is exactly a form that intelligence was dressed.

SUMMERY OF THE UTILITY MODEL

It is an object of the present application to provide a pair of wearable glasses.

In some embodiments, the wearable glasses include a head glasses apparatus including a frame including temples disposed at left and right sides, and a second image pickup device and an optical display unit mounted to the frame;

a handheld device including an augmented reality apparatus in communication with the second camera apparatus and the optical display unit through a communication connection between the handheld device and the eyewear headset device;

and the data line is used for connecting the handheld equipment and the head-mounted glasses equipment so as to realize communication connection between the handheld equipment and the head-mounted glasses equipment.

In some embodiments, the wearable glasses further comprise a fixing means for fixing the data cable to a temple on the left or right side of the frame.

In some embodiments, at least one temple of the frame has a wire channel disposed thereon for receiving all or a portion of the data cable.

In some embodiments, the data line is electrically connected to the second camera device through a direct connection or an interface module, and the data line is electrically connected to the optical display unit through a direct connection or an interface module.

In some embodiments, the connecting end on the glasses frame and the wire groove on the glasses leg are arranged on the same side, or the distance between the connecting end and the glasses leg where the wire groove is located is smaller than that of the other glasses leg of the glasses frame, and the connecting end is used for connecting the data line and the head-mounted glasses equipment.

In some embodiments, the handheld device further comprises a first camera electrically connected to the augmented reality device, and the augmented reality device is configured to receive a first target image captured by the first camera, determine information to be presented about the first target image, and send the information to be presented to the optical display unit through the communication connection; the optical display unit is used for presenting the information to be presented.

In some embodiments, the handheld device includes a first camera electrically connected to the augmented reality device; the augmented reality device is used for receiving a first target image shot by the first camera device and determining associated information about the first target image.

In some embodiments, the fixation device comprises a connector and/or a first fixation member.

In some embodiments, the fixing device includes the connector and the first fixing member, the connector is disposed on the data line, and the first fixing member is disposed on at least one temple of the frame.

In some embodiments, the connector is movably disposed on the data line.

In some embodiments, the connector includes a slot, and the data line is inserted into the slot to enable the connector to be movably disposed on the data line.

In some embodiments, the connecting piece is provided with a locking structure, the locking structure comprises a nut hole arranged on the connecting piece and a screw matched with the nut hole, and the top end of the screw is provided with a handle, so that the connecting piece can be movably arranged on the data line.

In some embodiments, the locking structure includes a protrusion disposed on the data line and a recess disposed on the connector that mates with the protrusion to enable the connector to be removably disposed on the data line.

In some embodiments, the first securing member comprises a single securing member disposed on an outer side of at least one temple arm of the frame, or a plurality of securing members disposed on an outer side of at least one temple arm of the frame.

In some embodiments, the first securing member has a cumulative length of 50mm to 100 mm; or the maximum distance between any two fixing parts in the plurality of fixing parts is 50 mm-100 mm.

In some embodiments, the connecting piece is provided with a second fixing piece matched with the first fixing piece, and the second fixing piece is detachably fixed on the first fixing piece.

In some embodiments, the first securing member comprises at least one of:

magic tape mother surface;

a magic tape surface;

a magnet;

iron sheets;

a magnet;

double-sided adhesive tape;

a fastener portion;

the female part of buckle.

In some embodiments, the first securing member is disposed proximate an end of the temple arm.

In some embodiments, the first fixing piece and the second fixing piece are detachably disposed on the temple and the connector, respectively.

In some embodiments, the securing device includes a connector disposed on the temple arm or the data line.

In some embodiments, the connector is movably disposed on the temple or the data line.

In some embodiments, the connecting member includes a sliding groove i, and the connecting member is movably disposed on the temple or the data line through the sliding groove i.

In some embodiments, a sliding groove ii is disposed on the temple or the data line, and the connecting member is movably disposed in the sliding groove ii of the temple or the data line.

In some embodiments, the connector is detachably provided on the temple or the data line through a connection member.

In some embodiments, the connector comprises a snap, and the connector is detachably disposed on the temple or the data line through the snap.

In some embodiments, the connector is of unitary construction with the data cable or with the temple.

In some embodiments, the wearable glasses further comprise a binding for securing the data line to a temple on the left or right side of the frame, the binding comprising at least one of:

iron wires;

a rope;

a rubber band.

In some embodiments, the augmented reality device is further configured to receive a second target image captured by the second camera device through the communication connection, determine information to be presented corresponding to the second target image, and send the information to be presented to the optical display unit through the communication connection; the optical display unit is used for presenting the information to be presented.

In some embodiments, the head-mounted eyewear device further comprises a shading unit having at least one shading layer; the at least one light shielding layer is arranged on the side of the head-mounted glasses equipment, which faces away from the user, relative to the optical display unit.

In some embodiments, the shade unit includes a sidewall defining a cavity for receiving the optical display unit; the shading unit is fixedly or detachably arranged on the head-wearing glasses device.

In some embodiments, the light shielding layer is a coating or plating film disposed on the light shielding unit, and the light shielding unit is fixedly or detachably disposed on the head-mounted glasses device.

In some embodiments, the light-shielding layer is a coating film or a plated film disposed on the optical display unit.

In some embodiments, the head glasses equipment further includes a motion sensor unit in communication with the augmented reality device through the data line, and the motion sensor unit is configured to collect motion information of the head glasses equipment and send the motion information to the augmented reality device through the communication connection.

In some embodiments, the augmented reality device includes a wireless communication module, and the wireless communication module is configured to send the first target image and/or the second target image captured by the second camera to a corresponding server, and receive corresponding information to be presented returned by the server.

In some embodiments, the handheld device further includes a power supply module for supplying power to the first camera device and the augmented reality device, and the power supply module is further configured to supply power to the head-mounted glasses device through the data line.

Compared with the prior art, the technical scheme of the application physically separates the head-mounted glasses equipment and the handheld equipment (including the information processing module) for wearing glasses, and the handheld equipment and the head-mounted glasses equipment are connected through the data line so as to realize communication connection between the handheld equipment and the head-mounted glasses equipment. And, wear glasses equipment and be equipped with the second camera device of shooting function, handheld device sets up augmented reality device. The user shoots a real-time image through the second camera device on the head-mounted glasses device, and sends the real-time image shot by the second camera device to the augmented reality device in the handheld device through the data line, so that the augmented reality device processes the real-time image, and sends the processed information to the optical display unit, and the processed information (such as virtual AR information) is presented through the optical display unit. This scheme alleviates the weight when the user wears this wearing glasses through separating the head-mounted glasses equipment of wearing glasses and handheld device (containing information processing module) physics, can set up the second camera device on the head-mounted glasses equipment simultaneously. This scheme increases shoots the flexibility ratio, has greatly promoted user's use and has experienced. In addition, compare with current integral type head-mounted device, be used for handling the circuit element significantly reduces of data among the head-mounted glasses equipment in this wearing glasses, consequently the consumption of head-mounted glasses equipment reduces, generate heat and reduce, can avoid the high temperature and scald the user, has also increased the duration of head-mounted glasses equipment simultaneously for the user experiences also better when continuous use head-mounted glasses equipment.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1 is a schematic view of wearing eyewear provided for one embodiment of the present application;

FIG. 2 is a schematic view of a wearable eyeglass provided in accordance with an embodiment of the present application;

FIG. 3 is a diagram illustrating the effect of wearing glasses according to an embodiment of the present application;

FIG. 4 is a schematic view of wearing glasses provided for another embodiment of the present application;

FIG. 5 is a schematic diagram of a direct connection provided for one embodiment of the present application;

FIG. 6 is a schematic connection diagram of an interface module provided for one embodiment of the present application;

FIG. 7 is a schematic structural diagram of a connector according to an embodiment of the present application;

FIG. 8 is a schematic view of a connector of one embodiment of the present application mounted on a data line;

FIG. 9 is a schematic view of a data cable secured to a temple arm for one embodiment of the present application;

FIG. 10 is a schematic structural view of a locking structure according to an embodiment of the present application;

FIG. 11 is a schematic structural view of a connector according to an embodiment of the present application;

FIG. 12 is a schematic view of the structure of a chute II according to an embodiment of the present application;

FIG. 13 is a schematic view of a wearable eyeglass provided in accordance with another embodiment of the present application;

FIG. 14 is a schematic view of a eyewear headset wearing eyewear provided in accordance with an embodiment of the present application;

FIG. 15 is a schematic view of a eyewear headset wearing eyewear provided in accordance with an embodiment of the present application;

fig. 16 is a schematic view of a glasses-worn handheld device provided for one embodiment of the present application.

The same or similar reference numbers in the drawings identify the same or similar elements.

In fig. 1 to 16, 1-touch panel; 2-an augmented reality device; 3-middle cover; 4-a battery; 5-rear cover; 6-main body upper cover; 7-a circuit arrangement; 8-a frame body; 9-an optical display unit; 10-a light shielding unit; 11-a nose pad; 12-a second camera; 13-temple; 14-a data line; 15-a connector; 16-a first fixture; 17-a second fixture; 18-a head-mounted spectacle device; 19-a handheld device; 20-a connection end; 21-a fixture; 22-a card slot; 23-a screw; 24-a handle; 25-an interface module; 26-chute II.

Detailed Description

The present application is described in further detail below with reference to the attached figures.

In the description of the present application, "a plurality" means two or more unless specifically limited otherwise. In some embodiments of this application, as shown in fig. 1, the wearable glasses include a head-mounted glasses apparatus including a frame including temples disposed at left and right sides, and a second image pickup device and an optical display unit mounted to the frame; the handheld equipment comprises an augmented reality device, and the augmented reality device is communicated with the second camera device and the optical display unit through communication connection; and the data line is used for connecting the handheld equipment and the head-mounted glasses equipment so as to realize communication connection between the handheld equipment and the head-mounted glasses equipment. For example, the frame is the primary support structure and directly in front of the frame is the optical display unit. Wherein, the head-mounted glasses equipment is connected with the handheld equipment in a wired mode through a data line. In some embodiments of the application, the augmented reality device is configured to receive a second target image captured by the second imaging device through the data line, determine virtual AR information corresponding to the second target image, and send the virtual AR information to the optical display unit through the data line; the optical display unit is used for presenting the virtual AR information. The head-mounted glasses equipment is connected with the handheld equipment through a data line. In some embodiments, the handheld device includes a first camera electrically connected to the augmented reality device, the first camera includes, but is not limited to, an RGB camera and a depth camera, the RGB camera captures images of a specific angle, for example, when the user holds the handheld device and needs image information of the bottom of the cabinet, the user captures a first target image of the bottom of the cabinet by using the camera of the handheld device and transmits the captured first target image to the head glasses device, and the head glasses device receives the first target image and presents the image information on the optical display unit, and the user can see the image captured by the handheld device through the head glasses. Or, a first camera in the handheld device captures a first target image in front, where the first target image information includes, but is not limited to, a two-dimensional code and a barcode, for example, taking the two-dimensional code as an example, the first camera scans the two-dimensional code in front and transmits image information including the two-dimensional code to an augmented reality device, the augmented reality device in the handheld device receives the transmitted image information of the two-dimensional code and uploads the image information to a server and/or a local, a corresponding login operation is confirmed in the server and/or the local, optionally, a user wears glasses to see login related information, such as a login result or successfully logged in content, for example, the user needs to watch a video of a website, the video website is a membership system, and the user logs in through the camera to the two-dimensional code by scanning the video website, the user then logs in successfully and views the website video through the head-mounted eyewear device. Alternatively, a first camera in the handheld device captures a first target image (e.g., a person portrait) in front of the handheld device, and acquires corresponding virtual AR information (e.g., a person video introduction, a picture introduction, etc.) based on the augmented reality device, and sends the virtual AR information to the head-mounted glasses device for display. Or, the first camera device in the handheld device captures a first target image (e.g., a blurred picture) in front, the augmented reality device in the handheld device receives the first target image and uploads the first target image to the server and/or the local, a corresponding picture recognition result (e.g., a character recognized by the picture) is confirmed in the server and/or the local, and the picture recognition result is sent to the head glasses device for displaying. By moving the first camera device in the handheld device, a user can conveniently acquire required image information without moving the head-mounted glasses device to a corresponding position, so that the use experience of the user can be improved by the wearable glasses; further, the handheld device can overcome the limitation of the head size of the user to be close to the position which cannot be reached by the head-mounted device, so that the application range of the wearable glasses is wider compared with the integrated head-mounted glasses device.

Fig. 2 is a schematic view of the wearable glasses of the present application, the wearable glasses include a head-mounted glasses device 18 and a handheld device 19, wherein the head-mounted glasses device 18 and the handheld device 19 are communicatively connected through a data line 14. The head-mounted eyeglass device 18 includes a frame including temples 13 provided on the left and right sides, and a second image pickup device and an optical display unit mounted to the frame. The handheld device 19 includes an augmented reality device that communicates with the second camera device and the optical display unit via the data line. The information to be presented by the optical display unit includes, but is not limited to, operation execution result information of an image operation on the first/second target image, the first/second target image information, and corresponding virtual AR (Augmented Reality) information determined by the first/second target image information.

In an actual use scenario, referring to fig. 3, the handheld device may be used by being held in a hand; or may be located in a physical area, and the handheld device is in a static state or a mobile state in the physical area, for example, the handheld device may be installed on other apparatuses or devices as a built-in or external hardware module.

In some embodiments, the wearable eyeglasses further comprise: and the fixing device is used for fixing the data line on the glasses leg on the left side or the right side of the glasses frame. In some embodiments, the data line is detachably fixed on the temple through the fixing device, for example, when the wearable glasses are used, the data line is fixed on the temple, so as to avoid the problems that the data line drifts during the use process, the sight of the user is blocked, the appearance is affected, and the like, referring to fig. 3.

In some embodiments, at least one temple of the frame has a wire channel disposed thereon for receiving all or a portion of the data cable. For example, a wire groove is arranged on one or two of the glasses legs of the glasses frame, and the wire groove is matched with the data wire, so that all or part of the data wire can be just clamped in the wire groove, and the data wire can be fixed; or the data line can be accommodated in the wire groove, and the whole or part of the data line can be arranged in the wire groove, so that the data line can move relative to the glasses legs, and the drift phenomenon of the data line is avoided. For example, the wire groove may be provided on the outer side, inner side, upper end surface or lower end surface of the temple, or a combination thereof, and the data wire may be entirely or partially accommodated in the wire groove to fix the data wire to the temple or to move the data wire relative to the temple.

In some embodiments, the head glasses equipment further includes a motion sensor unit in communication with the augmented reality device through the communication connection, and the motion sensor unit is configured to collect motion information of the head glasses equipment and send the motion information to the augmented reality device through the communication connection. For example, the motion sensor unit includes, but is not limited to, a gyroscope, an acceleration sensor, a three-axis, a six-axis, a nine-axis sensor, and the like. The motion sensor unit may collect pose information of the head-mounted glasses device (e.g., position and pose information of the head-mounted glasses device in space, etc.).

In some embodiments, referring to fig. 4, the handheld device further includes a first camera electrically connected to the augmented reality device, and the augmented reality device is configured to receive a first target image captured by the first camera, determine information to be presented about the first target image, and send the information to be presented to the optical display unit through the data line; the optical display unit is used for presenting the information to be presented. The first camera device or the second camera device includes but is not limited to an RGB camera and a depth camera, optionally, the camera of the first camera device captures a special angle that the second camera device is not easy to capture in the head glasses device, and transmits captured information to be presented to the head glasses device, and the information to be presented is presented on an optical display unit of the head glasses device. In some embodiments, the augmented reality device is further configured to receive a second target image captured by the second imaging device through the communication connection, determine information to be presented corresponding to the second target image, and send the information to be presented to the eyewear headset through the communication connection, where the information to be presented is presented on an optical display unit of the eyewear headset, and the optical display unit is configured to present the information to be presented. The information to be presented by the optical display unit includes, but is not limited to, operation execution result information of an image operation on the first/second target image, the first/second target image information, and corresponding virtual AR (Augmented Reality) information determined by the first/second target image information. In some embodiments, at least a portion of the range of field of view of the first camera is included in the range of obstructed field of view of the second camera, or at least a portion of the coverage of the first target image is included in the range of obstructed field of view of the second camera. The obstructed view field range includes physical obstruction and sight (view field) obstruction. For example, the physical obstruction includes a case where the second image pickup device is physically blocked so that the target image cannot be picked up, and the line of sight (field of view) obstruction includes a range in which the field of view (FOV) of the second image pickup device cannot be covered compared with the field of view (FOV) of the first image pickup device. Therefore, the first camera device in the handheld equipment can shoot a target image which cannot be shot in the visual field of the second camera device in the head glasses equipment, the shooting efficiency is improved by the cooperation of the first camera device and the second camera device, and the shot content is more comprehensive. In some embodiments, the augmented reality device includes a wireless communication module, where the wireless communication module is configured to send the first target image and/or the second target image captured by the second imaging device to a corresponding server, and receive corresponding information to be presented returned by the server. For example, the image information is transmitted to the augmented reality device by the camera device, and the augmented reality device searches the matched virtual AR information at the server end through the wireless communication module and sends the virtual AR information to the head-mounted glasses equipment. The wireless communication module includes, but is not limited to, WiFi, bluetooth, and the like. For example, the handheld device 19 includes a first camera device and an augmented reality device electrically connected to the first camera device, the augmented reality device includes a wireless communication module, wherein the wireless communication module includes but is not limited to WiFi, bluetooth, and the like, the first camera device includes but is not limited to RGB camera, depth camera, and the camera captures a real-time image in front of the user and transmits the captured first target image to the augmented reality device; the augmented reality device in the handheld device receives the first target image, corresponding virtual AR information is determined in the server through WiFi, or corresponding virtual AR information is determined in the local storage, the handheld device sends the virtual AR information to the circuit device of the head-mounted glasses device through data line connection, and the conversion processing unit in the circuit device converts the received virtual AR information into a format which can be accepted by the optical display unit and displays the format on the optical display unit.

Here, the way for the augmented reality device to determine the information to be presented of the first/second target image includes but is not limited to: 1) directly taking the first/second target image information as corresponding information to be presented; 2) matching and inquiring in a local AR information base based on the first/second target image information, and taking the inquired AR virtual information as corresponding information to be presented; 3) sending the first/second target images to an AR information base of a cloud for matching query through a wireless communication module electrically connected with the augmented reality device in the handheld device, and taking AR virtual information returned by the cloud query as corresponding information to be presented; 4) performing operation execution result information of the image operation on the first/second target images as corresponding information to be presented, wherein the image operation comprises identification, cutting, scanning identification and the like; 5) and sending the first/second target images or the scanning results of the first/second target images to a cloud server through a wireless communication module electrically connected with the augmented reality device in the handheld device, receiving the processing results of the first/second target images or the scanning results returned by the cloud server, and taking the result information as corresponding information to be presented. For example, a user uses a first camera device of a handheld device to shoot or scan a login two-dimensional code image of an xx application, an augmented reality device in the handheld device sends a scanning result of the image to a cloud server of the application through a wireless communication module electrically connected with the augmented reality device, the cloud server returns a login result or a login page to the augmented reality device after receiving the scanning result, and the augmented reality device takes the login result or the login page as information to be presented corresponding to the image. Here, the augmented reality device may use an AR module proposed by companies such as highpass.

In some embodiments, the head-mounted eyewear device further comprises a shading unit having at least one shading layer; the at least one light shielding layer is arranged on the side of the head-mounted glasses equipment, which faces away from the user, relative to the optical display unit. For example, the light shielding layer may be one or more light shielding lenses, and the light shielding layer may be fixed on the head-mounted glasses device by one or more methods such as a snap, a sleeve, a threaded fastener, etc., and may be in contact with or separated from one or more surfaces of the optical display unit. For another example, the light shielding units are respectively sleeved outside the optical display units and fixed on the spectacle frame of the head-mounted spectacle device. Also for example, the light-shielding layer may be one or more thin films that are coated or plated on one or more surfaces of the light-shielding unit in one or more ways. For another example, the light-shielding layer may be one or more thin films that are coated or plated in one or more ways on one or more surfaces of the optical display unit. For another example, the light-shielding layer may be a light-shielding material on a lens, the light-shielding layer is disposed on the lens in a film or coating manner, and the lens is fixed on the head-mounted glasses device by one or more methods such as a snap, a sleeve, a threaded fastener, etc., and is in contact with or separated from one or more surfaces of the optical display unit. In some embodiments, the light shield unit includes a sidewall defining a cavity for receiving the optical display unit to protect the optical display unit; the shading unit is fixedly or detachably arranged on the head-wearing glasses device. In some preferred embodiments, the light shielding unit further comprises a bottom portion which defines the cavity together with the side wall, so that the light shielding unit accommodates the optical display unit therein to provide protection for the optical display unit; in some embodiments, the side surfaces and the bottom surface of the shading unit are formed by connecting plane surfaces or curved surfaces. In addition, in the side wall, the light shielding layer is provided at a distal end with respect to a user. Optionally, in order to avoid that the content displayed by the display unit is masked to influence the user to observe the content, compared with the user, the light shielding degree of the near end of the light shielding unit is lower than that of the far end thereof, for example, the near end of the light shielding unit is transparent, so that the light shielding layer can prevent the stray light incident from outside from interfering with the user, and the normal observation of the content displayed by the display unit by the user is not influenced. Or the shading unit is integrally fixed on a spectacle frame of the head-mounted glasses device. This shading unit can protect optical display unit (dustproof, waterproof, prevent falling) on the one hand, and on the other hand can also shield external light and improve display effect. In some embodiments, the light shielding layer is integrally disposed on the sidewall. The side wall is configured to define a cavity.

In some embodiments, the light shielding layer is a coating or plating film disposed on the light shielding unit, and the light shielding unit is fixedly or detachably disposed on the head-mounted glasses device. For example, the light-shielding layer may be one or more thin films that are coated or plated in one or more ways on one or more surfaces of a light-shielding unit that is fixedly or removably disposed on the eyewear device.

In some embodiments, the light-shielding layer is a coating film or a plated film disposed on the optical display unit. For example, the light-shielding layer may be one or more thin films that are coated or plated in one or more ways on one or more surfaces of the optical display unit.

In some embodiments, the handheld device includes a first camera electrically connected to the augmented reality device; the augmented reality device is used for receiving a first target image shot by the first camera device and determining associated information about the first target image. Wherein the associated information includes, but is not limited to, operation execution result information of an image operation on the first target image, the first target image information, and corresponding virtual AR information determined by the first target image information. For example, the handheld device includes a first camera device and an augmented reality device electrically connected to the first camera device, where the first camera device includes but is not limited to an RGB camera and a depth camera, and optionally, the camera takes an image of a specific angle, for example, when the user holds the handheld device, the user needs image information of the bottom of the cabinet, at this time, the user takes a first target image of the bottom of the cabinet (for example, a switch) by using the camera of the handheld device, and determines corresponding associated information with the first target image by the augmented reality device, and the obtained associated information is available for subsequent optional use (for example, for local storage, transmission to a glasses-wearing device or transmission to a corresponding network device, etc.).

In some embodiments, the handheld device further includes a power supply module for supplying power to the first camera device and the augmented reality device, and the power supply module is further configured to supply power to the head-mounted glasses device through the data line. For example, the data line includes, but is not limited to, a usb data line or a charging line, and the power supply module includes, but is not limited to, a battery device or an alternating current that can provide 220V. The power module may be integral with the handheld device or the power module may be removable. Fig. 1 is a functional module schematic diagram of wearable glasses according to an embodiment of the present application, where the wearable glasses include a head-mounted glasses device and a handheld device, and the head-mounted glasses device is connected to the handheld device through a data line. For example, the head-mounted glasses device is connected with the handheld device through a data line, and the power supply module in the handheld device supplies power to the handheld device and the head-mounted glasses device wired with the handheld device. The head-mounted glasses equipment comprises an optical display unit and a second camera device; the handheld device includes an augmented reality apparatus.

In some embodiments, implementations of the optical display unit include, but are not limited to, prism technology, free-form surface technology, waveguide technology, off-axis optical technology, and the like (e.g.,https://blog.csdn.net/xiangz_csdn/ article/details/61423134). For example, the optical display unit comprises an optical display lens, an optical machine and an optical lens module, wherein information transmitted by the optical machine is amplified by the optical lens module and then displayed on the optical display lens. For example, the optical lens module can be used as an eyepiece. The type and number of lenses in the ocular lens will vary according to the requirements (field angle, exit pupil distance, exit pupil diameter, etc.), and may be variedCan be 3, 5 or other numbers, and may have other combinations of convex lens, concave lens, meniscus lens, etc. some parameters such as curvature radius, distance between lenses, lens thickness, lens material, etc. are adjusted according to different design schemes of the optical display unit.

In some embodiments, the head-glasses apparatus further includes a circuit device, and the circuit device is used for electrically connecting the second camera device and the optical display unit in the head-glasses apparatus to the communication connection respectively. For example, the image information shot by the second camera device is transmitted to the corresponding handheld device through the circuit device and the communication connection in sequence; for another example, the information to be presented, which is sent by the handheld device through the communication connection, is transmitted to the optical display unit through the circuit device and presented on the optical display unit. The circuit device structure comprises circuit connections between the communication connection and the second camera device and the optical display unit respectively, wherein the circuit connections can be direct circuits, and can also be circuit connections containing data information conversion, electric signal amplification, shaping or filtering sub-modules.

In some embodiments, the data line is electrically connected to the second camera device through a direct connection or an interface module, and the data line is electrically connected to the optical display unit through a direct connection or an interface module. For example, as shown in fig. 5, the data line includes a usb data line through which the handheld device is directly connected to the second camera and the optical display unit of the head glasses device, and the head glasses device and the handheld device can directly transmit data through the usb data line; in other embodiments, as shown in fig. 6, the head-mounted glasses device is connected to the data line through an interface module 25, wherein the second camera and the optical display unit of the head-mounted glasses device are respectively connected to the interface module 25, the interface module 25 is connected to the data line, and further, the head-mounted glasses device and the handheld device can transmit data through the data line. The interface module comprises a conversion chip, and the conversion chip is used for converting data signals, such as MIPI signals into USB signals, at the end of the head-wearing glasses device. In some embodiments, the data line is directly connected to the augmented reality device. For example, the head-mounted glasses device is directly connected with the augmented reality device through the data line, and then sends the second target image to the augmented reality device.

In some embodiments, the connecting end on the glasses frame and the wire groove on the glasses leg are arranged on the same side, or the distance between the connecting end and the glasses leg where the wire groove is located is smaller than that of the other glasses leg of the glasses frame, and the connecting end is used for connecting the data line and the head-mounted glasses equipment. When using this wearing glasses, for the interference that further prevents the data line, the link on the mirror holder lies in same one side with the wire casing that sets up on the mirror leg. For example, the wire channel is disposed on a left temple, and the connecting end is disposed at a left end of the frame (e.g., the end of the left temple connected to the frame). In some embodiments, the connection terminal may be a custom connection terminal or may be a USB interface. And when the data line is electrically connected with the second camera device through the direct connection or the interface module, and when the data line is electrically connected with the optical display unit through the direct connection or the interface module, the data line is connected through the connecting end. In other embodiments, the distance between the connecting end and the side where the wire groove is located is smaller than that between the other side of the glasses frame, for example, the connecting end is arranged at the left part of the glasses frame and is close to the left side, so that the wire groove is arranged on the left side of the glasses frame, and the data wire is more conveniently fixed.

In some embodiments, the eyewear headset may further include a processor, memory, a battery, or an interface (charging port) for powering the eyewear headset, which may be electrically connected to the circuitry or may be mounted on the circuitry. In this case, the head-mounted glasses device is already provided with the elements of the integrated head-mounted display device and can be used independently.

In some embodiments, the fixation device comprises a connector and/or a first fixation member. In some embodiments, the fixing device includes a connector, through which the data line is fixed on the temple, for example, the connector is a clip provided on the temple, and the data line is fixed by clipping the data line inside the clip; in other embodiments, the fixing device includes a connector and a first fixing member, the data line is fixed on the temple through the connector and the first fixing member cooperating with each other, for example, the first fixing member is a female buckle disposed at the outer side of the temple, the connector is a male buckle disposed on the data line, and the data line is fixed on the temple through the combination of the male buckle and the female buckle.

In some embodiments, the fixing device includes the connector and the first fixing member, the connector is disposed on the data line, and the first fixing member is disposed on at least one temple of the frame. In some embodiments, a first fastener is provided on at least one temple of the frame, a connector is provided on the data cable, and the data cable is secured to the temple by engagement between the first fastener on the temple and the connector on the data cable. For example, the first fixing member is a female button provided at an outer side of the temple, the connecting member is a male button provided on the data line, and the data line is fixed to the temple by coupling the male button and the female button.

In some embodiments, the fixing device includes the connector and the first fixing member, the connector is disposed on the data line, the first fixing member is disposed on at least one temple of the frame, and the connector is movably disposed on the data line. In some embodiments, in order to facilitate better fixing of the data line according to actual needs by a user, the connecting element is movably arranged on the data line, so that the user can adjust the position of the connecting element according to needs.

In some embodiments, as shown in fig. 7, the connector 15 includes a card slot 22, and the data line is inserted into the card slot 22, so that the connector 15 is movably disposed on the data line. Fig. 8 shows an effect of disposing the connecting element 15 on the data line 14, in some embodiments, the connecting element 15 is made of plastic, the data line 14 can be clamped inside the clamping groove 22 through the clamping groove 22, and the inside diameter of the clamping groove 22 is slightly larger than the diameter of the data line, so as to achieve the purpose that the connecting element 15 moves on the data line 14 through the clamping groove 22, thereby adjusting the position of the connecting element 15 on the data line 14. Fig. 9 shows a schematic view of the data cable being fixed to the temple by the fixing means 21.

In some embodiments, the connecting piece is provided with a locking structure, the locking structure comprises a nut hole arranged on the connecting piece and a screw matched with the nut hole, and the top end of the screw is provided with a handle, so that the connecting piece can be movably arranged on the data line. As shown in fig. 10, the connecting member 15 is provided with a nut hole, the outer side of the screw 23 is provided with an external thread, the inner side of the nut hole is provided with an internal thread matching with the external thread, and the screw 23 and the connecting member 15 are connected by a thread. In some embodiments, the diameter of the slot 22 of the connector 15 is larger than the diameter of the data line, so that the connector can move on the data line, and further, the screw 23 is screwed down by the handle 24 to increase the friction between the bottom of the screw 23 and the data line, so that the position of the connector 15 can be fixed in time after the connector 15 is moved, and the purpose of moving the connector on the data line can be better achieved without an excessive requirement on the diameter of the slot 22.

In some embodiments, the locking structure includes a protrusion disposed on the data line and a recess disposed on the connector that mates with the protrusion to enable the connector to be removably disposed on the data line. In some embodiments, one or more protrusions are disposed on the data line, and a recess is disposed on the connector to match the protrusions, for example, by pressing the protrusions into the recess, the function of fixing the position of the connector is achieved. Here, the structure of the connecting member 15 can be continued with reference to fig. 7, for example, one or more recesses are formed on the inner side of the top horizontal plate of the connecting member 15, and one or more protrusions matched with the recesses are formed on the data line, in some embodiments, to facilitate the movement of the connecting member 15 on the data line, the diameter of the slot 22 is larger than the diameter of the data line, so that a moving gap exists between the top horizontal plate of the connecting member 15 and the data line, so as to facilitate the movement of the connecting member on the position where the protrusion is formed on the data line, when the destination position is reached, the position of the connecting member on the data line is fixed by pressing the protrusion on the data line into the recess on the connecting member 15, thereby better achieving the purpose of the movement of the connecting member on the data line without an excessive requirement on the diameter of the slot 22.

In some embodiments, the first retainer comprises a single retainer disposed on an outer side of at least one temple of the frame, or a plurality of retainers disposed on an outer side of at least one temple of the frame. In some embodiments, the first fixing part comprises a single fixing part arranged on the outer side of at least one of the glasses legs, for example, a fixing part is arranged on the outer side of the glasses leg, for example, a female hook and loop fastener surface is arranged on the connecting part, and the data line is fixed on the glasses leg by attaching the female hook and loop fastener surface to the female hook and loop fastener surface; in other embodiments, the first fixing part comprises a plurality of fixing parts arranged on the outer side of at least one side arm of the glasses frame, for example, a plurality of fixing parts are arranged on the outer side of the side arm, and the plurality of fixing parts can be arranged on the outer side of the side arm at equal intervals or non-equal intervals. The data line can be fixed on the glasses legs in a position range which can be enlarged by arranging the plurality of fixing pieces on the outer side of the glasses legs in a hash mode, so that the data line can be fixed better, for example, the gravity of the data line can be dispersed by fixing the data line through the fixing pieces at different positions, and the data line can be fixed more firmly. In addition, set up first mounting in the outside of mirror leg, in the use, can prevent the interference of data line to user's comfort level.

In some embodiments, the first securing member has a cumulative length of 50mm to 100 mm; or the maximum distance between any two fixing parts in the plurality of fixing parts is 50 mm-100 mm. In some embodiments, the first securing member comprises a single securing member disposed on an outer side of at least one temple of the frame, the single securing member having a length of 50mm to 100 mm; in other embodiments, the first securing member comprises a plurality of securing members hashed on the outside of at least one temple of the frame, and the sum of the lengths of the plurality of securing members is 50mm to 100 mm. In some embodiments, the first retainer comprises a plurality of retainers hashed on the outside of at least one temple of the frame, wherein the maximum separation of any two retainers is between 50mm and 100 mm.

In some embodiments, the connecting piece is provided with a second fixing piece matched with the first fixing piece, and the second fixing piece is detachably fixed on the first fixing piece. In some embodiments, in order to enable the connecting piece installed on the data line to be fixedly connected with the first fixing piece arranged on the glasses leg, a second fixing piece matched with the first fixing piece is arranged on the connecting piece, for example, the first fixing piece is a magic tape female surface, then the second fixing piece is a magic tape male surface, and the data line is fixed on the glasses leg by adhering the second fixing piece to the first fixing piece. As shown in fig. 11, a second fixing member 17 is provided on the connecting member 15.

In some embodiments, the first securing member comprises at least one of:

magic tape mother surface; for example, if the first fixing member is a female hook and loop fastener surface, the second fixing member matching with the first fixing member is a male hook and loop fastener surface, or the connecting member includes a male hook and loop fastener surface.

A magic tape surface; for example, if the first fixing member is a hook and loop fastener, the second fixing member matching with the first fixing member is a hook and loop fastener, or the connecting member includes a hook and loop fastener.

A magnet; for example, if the first fixing member is a magnet, the second fixing member matching the first fixing member is an iron sheet, or the connecting member includes (e.g., is embedded in) an iron sheet.

Iron sheets; for example, if the first fixing member is an iron sheet, the second fixing member matching with the first fixing member is a magnet, or the connecting member includes (e.g., is embedded in) a magnet.

A magnet; for example, the first fixing member is a magnet (e.g., a positive pole), the second fixing member matching the first fixing member is a magnet (e.g., a negative pole), or the connecting member includes (e.g., embeds) a magnet (e.g., a negative pole).

Double-sided adhesive tape; for example, the first fixing member and the second fixing member are both double-sided tapes, and the first fixing member can be adhered to the second fixing member and simultaneously can be respectively connected with the glasses legs and the connecting member through the other sides of the double-sided tapes.

A fastener portion; for example, the first fixing member is a snap sub-portion, and the second fixing member matching with the first fixing member is a snap female portion. First mounting carries out fixed connection through the snap fastener with the second mounting, perhaps the connecting piece is the female portion of buckle, and first mounting carries out fixed connection through the snap fastener with the connecting piece.

The female part of buckle. For example, the first fixing member is a female snap-fit member, and the second fixing member matching with the first fixing member is a male snap-fit member. The first fixing piece and the second fixing piece are fixedly connected through snap fasteners, or the connecting piece is a fastener sub-portion, and the first fixing piece and the connecting piece are fixedly connected through snap fasteners.

In some embodiments, the first securing member is disposed proximate an end of the temple arm. In some embodiments, the first fixing member is disposed at a position between the middle and the distal end of the temple, and the reaction force of the front end of the data cable is large due to the connection of the front end of the data cable to the frame, so that the data cable can be more naturally fixed to the temple by disposing the first fixing member near the distal end of the temple.

In some embodiments, the first fixing piece and the second fixing piece are detachably disposed on the temple and the connector, respectively. In some embodiments, the first fixing piece and the second fixing piece may be detachably disposed on the temple and the connector respectively through a double-sided adhesive tape. For example, the first fixing piece is a hook and loop fastener female surface, the second fixing piece is a hook and loop fastener male surface, the first fixing piece is arranged on the glasses legs through a double-sided adhesive tape, the second fixing piece is arranged on the connecting piece through the double-sided adhesive tape, and the first fixing piece and the second fixing piece can be conveniently replaced when the first fixing piece or the second fixing piece is damaged through the detachable mode.

In some embodiments, the securing device includes a connector disposed on the temple arm or the data line. In some embodiments, the data cable is fixed to the temple only by providing a connector on the temple or the data cable.

In some embodiments, the connector is movably disposed on the temple or the data line. In some embodiments, the fixing device comprises a connector, which is movably arranged on the temple or the data line in order to adjust the position of the connector according to actual needs. For example, in some embodiments, the connector includes a card slot, and the data cable/temple is inserted into the card slot to enable the connector to be removably disposed on the data cable/temple. In some embodiments, the connecting piece is provided with a locking structure, the locking structure comprises a nut hole arranged on the connecting piece and a screw matched with the nut hole, and the top end of the screw is provided with a handle, so that the connecting piece can be movably arranged on the data line/glasses leg. In some embodiments, the locking structure comprises a protrusion disposed on the data line/temple and a recess disposed on the connector that mates with the protrusion to enable the connector to be removably disposed on the data line/temple. In some embodiments, one or more protrusions are disposed on the data line, and a recess is disposed on the connector to match the protrusions, for example, by pressing the protrusions into the recess, the function of fixing the position of the connector is achieved.

In some embodiments, the connecting member includes a sliding groove i, and the connecting member is movably disposed on the temple or the data line through the sliding groove i. In some embodiments, in order to realize that the connecting piece is movably arranged on the glasses leg or the data line, a sliding groove i is arranged on the connecting piece, in some embodiments, the sliding groove i comprises a cavity and a clamping groove i with a structure similar to that of the clamping groove 22 shown in fig. 7, the connecting piece is connected with the glasses leg or the data line by inserting the glasses leg or the data line into the cavity, further, the connecting piece can move on the glasses leg or the data line by the cavity, and meanwhile, the glasses leg or the data line is clamped inside the clamping groove i to realize that the data line is fixed on the glasses leg.

In some embodiments, a sliding groove ii is disposed on the temple or the data line, and the connecting member is movably disposed in the sliding groove ii of the temple or the data line. In some embodiments, as shown in fig. 12, the temple 13 is provided with a sliding groove ii 26, and the connecting member 15 is movably disposed on the temple through the sliding groove ii 26. Likewise, the connection member 15 may be movably disposed on the data line in the same manner.

In some embodiments, the connector is detachably provided on the temple or the data line through a connection member. In some embodiments, the connecting member is a double-sided adhesive tape, and the connecting member can be replaced conveniently by a user through the detachable arrangement mode.

In some embodiments, the connector comprises a snap, and the connector is detachably disposed on the temple or the data line through the snap. For example, the connecting piece is clamped on the temple or the data line through the buckle, so that the detachable connection between the connecting piece and the temple or the data line is realized.

In some embodiments, the connector is of unitary construction with the data cable or with the temple. In some embodiments, the connecting member and the data line or the temple are integrally formed, for example, integrally injection-molded, so as to reduce the separation structure of the connecting member and increase the firmness of the fixation.

iron wires; for example, the data cable is tied to the temple by a wire or a strap containing a wire.

A rope; for example, the data line is tied to the temple by a string.

A rubber band. For example, the data line is tied to the temple by a rubber band.

Fig. 13 is a schematic view of internal electrical connections of one embodiment of the wearable eyeglasses of the present application. The second camera device shoots a real-time picture in front of the user and transmits a shot second target image to the handheld equipment through a data line; the handheld device comprises a first camera device and an augmented reality device electrically connected with the first camera device, the augmented reality device in the handheld device receives a second target image sent by the head-mounted glasses device and determines corresponding virtual AR information in a local memory, the handheld device sends the virtual AR information to a circuit device of the head-mounted glasses device through a data line, and a conversion processing unit in the circuit device converts the received virtual AR information into a format which can be accepted by an optical display unit and displays the format on the optical display unit. Or the augmented reality device in the handheld device receives the second target image sent by the head-mounted glasses device and confirms corresponding virtual AR information in the server, the handheld device sends the virtual AR information to the circuit device of the head-mounted glasses device through the data line, and the conversion processing unit in the circuit device converts the received virtual AR information into a format acceptable by the optical display unit and presents the format on the optical display unit.

Fig. 14 is a schematic view of a head-mounted eyewear apparatus wearing eyewear in accordance with an embodiment of the present application. The head-mounted eyeglass apparatus includes a main body upper cover 6, a circuit board 7, a frame main body 8, an optical display unit 9, a light shielding unit 10, a nose pad 11, a second imaging device 12, a temple 13, and a player (not shown). The player can adopt an ES9018S chip, is mounted on the circuit board or is electrically connected with the circuit board, and is used for playing audio information in the virtual AR information transmitted by the handheld device or playing other audio information; the glasses legs 13 on the two sides are respectively connected with the glasses frame main body 8 through rotating shafts, the glasses legs 13 on the two sides can be folded, the glasses legs on the two sides can be made of titanium alloy, aluminum alloy and the like for increasing flexibility, for example, in order to increase wearing firmness, a fixing unit can be added between the two glasses legs 13 in the head glasses equipment, and the size of the fixing unit can be adjusted through a telescopic structure so as to adapt to head circumferences with different sizes; the second camera device 12 is installed in the middle of the frame body 8, electrically connected to the circuit board 7, and used for shooting a real-time picture in front of a user; the nose pad 11 is arranged on the main body 8 of the glasses frame, is positioned in the middle of the two optical display units 9 and is used for fixing a head-wearing part, and the nose pad 11 can be fixed on the main body 8 and can also be detached relative to the main body 8; the shading unit 10 can be an integral type, and can also be a split type, and has the shading effect; the optical display unit 9 is an optical display module, and the head-mounted glasses equipment is provided with two display units which are symmetrically arranged at the left front part and the right front part of the main body of the glasses frame and are respectively connected with the circuit device 7 for data transmission; the circuit board 7 is disposed in the cavity between the frame body 8 and the body top cover 6. Fig. 15 is an external schematic view of a head-mounted glasses device for wearing glasses according to an embodiment of the present application.

Fig. 16 is a schematic view of the eyewear-worn handheld device of the present application. The handheld device includes a housing, a touch panel 1, an augmented reality apparatus 2, an image pickup apparatus (not shown), a battery 4, and a charging port (not shown). The shell can selectively comprise a power key, a volume key, a shortcut key and other key units. The casing includes touch pad 1, well lid 3 and back lid 5, and augmented reality device 2 sets up in the fixed cavity of enclosing of touch pad 1 and well lid 3, and is undetachable. The back lid 5 can be dismantled, and battery 4 is placed in the cavity between back lid 5 and the well lid 3, and battery 4 is connected with the circuit board for whole handheld device and/or wear glasses equipment power supply, the battery can be dismantled, conveniently changes the battery. When the eyewear headset and the handheld device are wired, the battery may power both. The augmented reality device 2 includes a circuit board, wherein the circuit board may optionally include a processor, a memory, a communication unit (SIM card for accessing the internet and making a call with the head-wearing glasses device), an SD card, a player, a microphone, and other units.

Specifically, as shown in fig. 14, the light shielding unit 10 is a split type, for example, the light shielding unit has 5 faces, the 5 faces are a front side, a rear side, a left side, a right side, and a bottom side, respectively, taking the orientation shown in fig. 5 as an example, the light shielding unit is a 5-face body, for example, the material of the four faces is different from the material of the outermost light shielding layer, and the 5-face body can be formed by one-time injection molding. Or 4 surfaces can be subjected to one-time injection molding, and the light shielding layer on the outermost side is spliced/adhered. The light shielding units 10 are respectively sleeved outside the two optical display units 9 and fixedly mounted on the frame main body 8. On one hand, the optical display unit 9 is protected, and the effects of dust prevention, water prevention and falling prevention are achieved. On the other hand, the glasses have the effect of shading, and the lens on the outermost side is made of a color-changeable sunglass material, such as a photosensitive lens (which can be a glass lens, a resin lens and the like), and when the lens is strongly irradiated by outdoor (or sunshine) light, the color of the lens is darkened, so that the glasses can be protected from strong light stimulation; when the lens enters the room, the light is weakened, the color of the lens is lightened, and the normal observation of the scenery is ensured. When the external light is strong, the shading unit 10 automatically adjusts the shading degree of the lens to shade the external light, so that the content of the optical display unit 9 can be seen by human eyes. Also can use the lens material with fixed shading degree, and does not change color. For example, the light shielding unit may be only 2 lenses, may be fixed to the frame body 8 at the outermost sides of the two optical display units 9, may be a photosensitive lens, or may be made of a lens material having a fixed light shielding degree, and in this case, only the light shielding effect is provided and the function of protecting the optical display units 9 is not provided. For example, the light shielding unit may be only a (light shielding) film covering or plated on the optical display lens, having a light shielding effect.

Specifically, as shown in fig. 15, the light blocking unit 10 is an integral unit, for example, the light blocking unit 10 is integrally fixed to the frame body 8, and may be made of a material that is color-changeable or non-color-changeable, for example, a photosensitive lens, or a lens material with a fixed light blocking degree may be used.

In some embodiments, the housing of the handheld device includes a positioning component for positioning the spatial position of the touch pad in the housing. For example, the pointing element may be three non-collinear LEDs mounted around the perimeter of the touch pad (e.g., arranged in a triangle) that may be illuminated in different colors, such as red, green, and blue. As another example, the pointing element may be a pattern of tabs that surround the touch pad.

It will be evident to those skilled in the art that the present application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned. Furthermore, it is obvious that the word "comprising" does not exclude other elements or steps, and the singular does not exclude the plural. A plurality of units or means recited in the apparatus claims may also be implemented by one unit or means in software or hardware. The terms first, second, etc. are used to denote names, but not any particular order.

Claims

1. A pair of wearable eyeglasses, comprising:

the head glasses equipment comprises a glasses frame, and a second camera device and an optical display unit which are assembled on the glasses frame, wherein the glasses frame comprises glasses legs arranged on the left side and the right side;

2. The wearable eyeglasses of claim 1, wherein the wearable eyeglasses further comprise:

and the fixing device is used for fixing the data line on the glasses leg on the left side or the right side of the glasses frame.

3. The wearable eyeglasses of claim 1, wherein at least one temple of the eyeglass frame has a wire channel disposed thereon for receiving all or a portion of the data cable.

4. The wearable glasses according to claim 1, wherein the data line is electrically connected to the second camera device through a direct connection or an interface module, and the data line is electrically connected to the optical display unit through a direct connection or an interface module.

5. The wearable glasses according to claim 3, wherein a connecting end on the glasses frame and a wire groove on the glasses leg are arranged on the same side, or a distance between the connecting end and the glasses leg where the wire groove is located is smaller than that of the other glasses leg of the glasses frame, and the connecting end is used for connecting the data line and the head-mounted glasses equipment.

6. The wearable glasses according to claim 1, wherein the handheld device further comprises a first camera electrically connected to the augmented reality device, the augmented reality device being configured to receive a first target image captured by the first camera, determine information to be presented about the first target image, and send the information to be presented to the optical display unit via the data line; the optical display unit is used for presenting the information to be presented.

7. The wearable glasses of claim 1 wherein the handheld device comprises a first camera electrically connected to the augmented reality device;

the augmented reality device is used for receiving a first target image shot by the first camera device and determining associated information about the first target image.

8. The wearable glasses according to claim 2, wherein the fixing means comprises a connector and/or a first fixture.

9. The wearable glasses of claim 8, wherein the fixing means comprises the connector and the first fixing member, the connector is disposed on the data line, and the first fixing member is disposed on at least one temple of the frame.

10. The wearable glasses of claim 9, wherein the connector is movably disposed on the data line.

11. The wearable glasses according to claim 10, wherein the connector comprises a slot, and the data line is inserted into the slot to enable the connector to be movably disposed on the data line.

12. The pair of wearable glasses according to claim 10, wherein the connecting member is provided with a locking structure, the locking structure comprises a nut hole provided on the connecting member and a screw rod matched with the nut hole, and a handle is provided at a top end of the screw rod to enable the connecting member to be movably provided on the data line.

13. The wearable glasses of claim 12, wherein the locking structure comprises a protrusion disposed on the data line and a recess disposed on the connector to mate with the protrusion, such that the connector is movably disposed on the data line.

14. The wearable eyeglasses of claim 9, wherein the first retainer comprises a single retainer disposed on an outer side of at least one temple of the frame or a plurality of retainers disposed on an outer side of at least one temple of the frame.

15. The wearable eyeglasses of claim 14, wherein the first fastening pieces have a cumulative length of 50mm to 100 mm; or the maximum distance between any two fixing parts in the plurality of fixing parts is 50 mm-100 mm.

16. The wearable glasses according to claim 9, wherein the connecting member is provided with a second fixing member matching with the first fixing member, and the second fixing member is detachably fixed on the first fixing member.

17. The wearable eyeglasses of claim 9 or 16, wherein the first fastener comprises at least any one of:

magic tape mother surface;

a magic tape surface;

a magnet;

iron sheets;

a magnet;

double-sided adhesive tape;

a fastener portion;

the female part of buckle.

18. The wearable eyeglasses of claim 9, wherein the first retainer is disposed proximate the distal end of the temple.

19. The wearable glasses of claim 16, wherein the first holder and the second holder are detachably provided on the temples and the connectors, respectively.

20. The wearable glasses of claim 2, wherein the fixing means comprises a connector provided on the temple or the data line.

21. The wearable glasses of claim 20, wherein the connector is movably disposed on the temple or the data line.

22. The wearable glasses according to claim 21, wherein the connecting member comprises a sliding groove i, and the connecting member is movably disposed on the temple or the data line through the sliding groove i.

23. The wearable glasses of claim 21, wherein a sliding groove ii is provided on the temple or the data line, and the connecting member is movably disposed in the sliding groove ii of the temple or the data line.

24. The wearable glasses of claim 20, wherein the connector is detachably provided on the temple or the data line through a connection part.

25. The wearable glasses of claim 20, wherein the connector comprises a snap, and the connector is detachably disposed on the temple or the data line through the snap.

26. The wearable eyeglasses of claim 20, wherein the connector is of unitary construction with the data cable or with the temple.

27. The wearable eyeglasses of claim 1, further comprising a binding for securing the data cable to a temple on the left or right side of the frame, the binding comprising at least one of:

iron wires;

a rope;

a rubber band.

28. The wearable glasses according to claim 1, wherein the augmented reality device is further configured to receive a second target image captured by the second imaging device through the data line, determine information to be presented corresponding to the second target image, and send the information to be presented to the optical display unit through the data line; the optical display unit is used for presenting the information to be presented.

29. The wearable eyeglasses of claim 1, wherein the head-mounted eyeglasses further comprise a light-shielding unit having at least one light-shielding layer; the at least one light shielding layer is arranged on the side of the head-mounted glasses equipment, which faces away from the user, relative to the optical display unit.

30. The wearable eyeglasses of claim 29, wherein the shade unit includes sidewalls that define a cavity for receiving the optical display unit; the shading unit is fixedly or detachably arranged on the head-wearing glasses device.

31. The wearable glasses of claim 29 or 30, wherein the light shielding layer is a coating or plating film provided on the light shielding unit, and the light shielding unit is fixedly or detachably provided on the head glasses device.

32. The wearable glasses of claim 29, wherein the light shielding layer is a coating film or a plated film provided on the optical display unit.

33. The wearable glasses according to claim 1, wherein the head glasses device further comprises a motion sensor unit in communication with the augmented reality device through the data line, the motion sensor unit being configured to collect motion information of the head glasses device and send the motion information to the augmented reality device through the data line.

34. The wearable glasses according to claim 6 or 7, wherein the augmented reality device comprises a wireless communication module, and the wireless communication module is configured to send the first target image and/or the second target image captured by the second camera to a corresponding server, and receive corresponding information to be presented returned by the server.

35. The wearable glasses according to claim 6 or 7, wherein the handheld device further comprises a power supply module for supplying power to the first camera device and the augmented reality device, and the power supply module is further configured to supply power to the head-mounted glasses device through the data line.