CN218350626U - Head-mounted low-light-level shooting and displaying glasses - Google Patents

Abstract

The utility model provides a glasses that wear-type shimmer was shot and was shown relates to wearable equipment technical field, and infrared light filling module is to the regional outgoing compensation light beam of target to when infrared camera module gathered the first image information of target region, the compensation light beam got into infrared camera module after the reflection of target region, thereby made infrared camera module can acquire more light incident quantities, thereby obtained clearer first image information. The operation platform can acquire first image information, and carry out data processing to first image information to convert it into second image information, then send second image information for the AR module, make the AR module show second image information, alright in order to make the user can see clear target area in shimmer/no light environment, play the visual effect like daytime at night, realize the night vision function. In view of the invisibility of the infrared band, the infrared light supplementing module can emit compensating beams without feeling a user.

Description

Head-mounted low-light-level shooting and displaying glasses

Technical Field

The application relates to the technical field of wearable equipment, in particular to glasses with head-mounted glimmer shooting and displaying functions.

Background

Augmented Reality (AR) is a technology for calculating the position and angle of an image emitted from a light engine system (also called a projector or an optical engine) in real time and adding a corresponding image. The augmented reality technology can realize that the virtual world is sleeved on the real world on a screen and interacts with the real world, namely, physical information (such as visual information, sound, touch and the like) which is difficult to experience in the time space range of the real world is simulated and superimposed through a computer and the like, and the virtual information is applied to the real world. Since the augmented reality technology makes interaction between the virtual world and the real world possible, the augmented reality technology is widely applied to augmented reality devices, such as AR glasses, which can project a virtual image into human eyes to realize superposition of the virtual image and the real image.

The current AR glasses are mainly used in a light-rich environment such as daytime, etc., and thus, the use of the AR glasses is limited, making it difficult to use in a low light/no light environment.

SUMMERY OF THE UTILITY MODEL

An object of the application is to provide glasses that wear-type shimmer was shot and is shown to the not enough among the above-mentioned prior art for AR glasses can use in the environment of sufficient light/shimmer/no light.

In order to achieve the above purpose, the technical solutions adopted in the embodiments of the present application are as follows:

on one hand, the embodiment of the application provides head-mounted glasses for low-light shooting and displaying, which comprise a wearing assembly, a glasses frame, an infrared light supplementing module, an infrared camera shooting module, an operation platform and an AR module, wherein the infrared light supplementing module, the infrared camera shooting module, the operation platform and the AR module are arranged on the glasses frame; the infrared light supplementing module is used for emitting a compensation light beam to the target area; the infrared camera module is used for acquiring first image information of a target area; the operation platform is used for generating second image information according to the first image information and controlling the AR module to display the second image information.

Optionally, the infrared light supplement module includes an infrared light supplement lamp set and a condenser lens set located at a light emitting side of the infrared light supplement lamp set, and the infrared light supplement lamp set emits a compensation light beam to the target area through the condenser lens set.

Optionally, the compensation light beam emitted by the condenser lens group is parallel to the optical axis of the infrared camera module.

Optionally, the infrared light supplement module comprises two infrared light supplement lamp sets, and the two infrared light supplement lamp sets are distributed on two opposite sides of the infrared camera module.

Optionally, the wavelength of the compensating beam is 930nm to 950nm.

Optionally, the collection period of the infrared camera module overlaps with the period of the infrared light supplement module emitting the compensation light beam.

Optionally, the AR module includes a left-eye display module and a right-eye display module that are disposed on the mirror holder, the left-eye display module and the right-eye display module are electrically connected to the operation platform, and the operation platform is used for controlling the left-eye display module and/or the right-eye display module to display the second image information.

Optionally, the left-eye display module and/or the right-eye display module include a display mirror group and an optical machine, the display mirror group is located on the light-emitting side of the optical machine, and the optical machine is electrically connected with the operation platform.

Optionally, the glasses that wear-type shimmer was shot and was shown still including set up in wear the mutual module of pronunciation on the subassembly and set up communication module and the luminance sensor on the mirror holder, the mutual module of pronunciation, communication module and luminance sensor are connected with the operation platform electricity respectively, and luminance sensor is used for acquireing ambient brightness information, and the operation platform is used for adjusting the demonstration luminance of AR module according to ambient brightness information.

Optionally, the mirror frame comprises a mirror frame with a window and a mounting seat which is provided with an accommodating cavity and is arranged on an upper beam of the mirror frame; a nose support is arranged on the bottom beam of the spectacle frame; the wearing component is rotationally connected with the side beam of the spectacle frame; an opening communicated with the window is formed in one side of the mounting seat, the infrared light supplementing module, the infrared camera shooting module and the operation platform are arranged in the accommodating cavity respectively, the light emitting side of the infrared light supplementing module and the infrared camera shooting module collecting side correspond to the window through the opening respectively, and the AR module is arranged on the mounting seat and corresponds to the position of the window.

Optionally, the wearing assembly comprises a glasses leg and an elastic head band, one end of the glasses leg is rotatably arranged on the glasses frame, and the elastic head band is arranged on the glasses leg.

The beneficial effect of this application includes:

the application provides glasses that wear-type shimmer was shot and was shown, including wearing the subassembly, the mirror holder and set up in the infrared light filling module of mirror holder, infrared camera module, operation platform and AR module, infrared light filling module is to the regional outgoing compensation light beam of target, with this carry out the light filling to the target region, so that when infrared camera module gathered the regional first image information of target, the compensation light beam got into infrared camera module after the regional reflection of target, thereby make infrared camera module can acquire more light intakes, thereby obtain clearer first image information. The operation platform can acquire first image information to carry out data processing to first image information, thereby convert it into second image information, then send second image information for the AR module, make the AR module show second image information, so, alright in order to make the user can see clear target area in shimmer/no light environment, play the night like daytime visual effect, realize the night vision function. In addition, in view of the invisibility of the infrared band, the infrared light supplementing module can emit the compensating light beam without feeling the user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

Fig. 1 is a schematic structural view of a pair of head-mounted glasses for low-light shooting and displaying according to an embodiment of the present disclosure;

fig. 2 is a schematic light path diagram of an infrared light supplement module and an infrared camera module provided in an embodiment of the present application;

fig. 3 is a second schematic structural view of a pair of head-mounted low-light shooting and displaying glasses according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an operation platform, an infrared light supplement module, and an infrared camera module provided in an embodiment of the present application;

fig. 5 is a schematic structural diagram of an AR module according to an embodiment of the present disclosure;

fig. 6 is a third schematic structural view of a pair of head-mounted low-light shooting and displaying glasses according to an embodiment of the present disclosure;

fig. 7 is an exploded view of glasses for head-mounted low-light shooting and displaying according to an embodiment of the present disclosure.

Icon: 100-head-mounted low-light shooting and displaying glasses; 110-an infrared camera module; 111-optical axis; 120-an operation platform; 130-AR module; 131-a left-eye display module; 132-a right eye display module; 140-an infrared light supplement module; 141-infrared light supplement lamp set; 142-a condenser group; 143-a compensation beam; 150-a circuit board; 160-frame; 161-side beam; 162-upper beam; 163-bottom beam; 164-a nose pad; 165-a mount; 1651-fixing cover; 1652-fixed seat; 166-window; 170-a wearing assembly; 171-temples; 172-elastic headgear; 180-sunglasses.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. It should be noted that, in case of conflict, various features of the embodiments of the present application may be combined with each other, and the combined embodiments are still within the scope of the present application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the application usually place when in use, and are used only for convenience in describing the present application and simplifying the description, but do not indicate or imply that the devices or elements being referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," and the like are used solely to distinguish one from another, and are not to be construed as indicating or implying relative importance.

In the description of the present application, it is further noted that, unless expressly stated or limited otherwise, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

The application provides a glasses that wear-type shimmer was shot and was shown, this glasses that wear-type shimmer was shot and was shown not only can use under the environment that light is sufficient, simultaneously, can also use under shimmer/no light environment to make the glasses that wear-type shimmer was shot and was shown can realize all-weather use. Embodiments of the present application will be described below with reference to the accompanying drawings.

Please refer to fig. 1, which provides a schematic structural diagram of a pair of head-mounted glasses for low-light shooting and displaying, including a wearing assembly 170, a frame, an infrared light supplement module 140, an infrared camera module 110, a computing platform 120 and an AR module 130, wherein the infrared light supplement module 140, the infrared camera module 110, the computing platform 120 and the AR module 130 are all disposed on the frame, so that the frame is used as a framework to form a high-integration overall structure, which is convenient for a user to carry and use.

The spectacle frame is not only used for bearing the modules, but also has a certain wearing property as a whole formed by connecting the spectacle frame and the wearing assembly 170, for example, please refer to fig. 6, when the head-wearing type low-light shooting and displaying spectacles 100 are used as AR spectacles, the head-wearing type low-light shooting and displaying spectacles 100 are provided with corresponding nose pads 164 and spectacle legs 171 so as to be convenient for a user to wear; when the head-mounted low-light shooting and displaying glasses 100 are used as an AR helmet, the glasses are provided with corresponding caps and straps so as to be convenient for a user to wear.

Referring to fig. 1, the infrared light supplement module 140, the infrared camera module 110 and the AR module 130 are electrically connected to the operation platform 120, so that information interaction and processing between the modules can be realized by using the operation platform 120 as a core, so as to facilitate mutual cooperative processing between the modules. The AR module 130 may fuse light carrying the second image information (virtual image) and light carrying the real image to achieve the effect of fusing the virtual image in the real world.

Specifically, infrared light filling module 140 is to the regional outgoing compensation light beam 143 of target to this carries out the light filling to the target region, so that when infrared camera module 110 gathered the regional first image information of target, compensation light beam 143 entered infrared camera module 110 after the regional reflection of target, thereby made infrared camera module 110 can obtain more light incident quantities, thereby obtained clearer first image information. The operation platform 120 can acquire the first image information, perform data processing on the first image information, convert the first image information into second image information, and then send the second image information to the AR module 130, so that the AR module 130 displays the second image information, and thus, the user can see a clear target area in a dim light/no light environment, and the visual effect of the dark night such as the day is achieved, thereby realizing the night vision function. In addition, in view of invisibility of the infrared band, the infrared fill-in module 140 is less sensible to the user when emitting the compensating light beam 143.

In an embodiment, the first image information collected by the infrared camera module 110 may be a color image, so that the color image can be displayed by the AR module 130 after being processed by the computing platform 120. Certainly, the first image information collected by the infrared camera module 110 may also be a black-and-white image, the operation platform 120 performs color-attaching processing on the black-and-white image, and then converts the color-attached image into color second image information, so that the AR module 130 correspondingly displays the color second image information.

As shown in fig. 2, the infrared light supplement module 140 includes an infrared light supplement lamp set 141 and a condenser lens set 142, wherein the condenser lens set 142 is located at a light emitting side of the infrared light supplement lamp set 141, so that after the infrared light supplement lamp set 141 emits the compensating light beam 143, the compensating light beam 143 enters through the light entering side of the condenser lens set 142, and exits from the light emitting side of the condenser lens set 142 to a target area under the condensing action of the condenser lens set 142, so that the utilization rate of the light can be correspondingly improved through the condenser lens set 142, thereby improving the light supplement capability of the infrared light supplement module 140, in other words, better light supplement capability can be realized with a smaller number of light supplement lamps, which is beneficial to reducing the number of light supplement lamps in the infrared light supplement lamp set 141, and further reducing the volume and occupied space of the infrared light supplement module 140, so as to realize the lightweight of the head-mounted low-light level shooting and displaying glasses 100, and improve the user wearing experience.

For example: when the distance that glasses 100 that wear-type shimmer shooting and show can shoot is 8m, utilize traditional way to need more than 40 LED lamps to carry out the light filling, lead to the area occupied of light filling module to reach 25.6cm ² When the scheme of the application is adopted, the shooting distance of 8m can be realized only by setting the infrared light supplement lamp set 141 to 4 LED lamps in cooperation with the condenser lens set 142, and the occupied area of the infrared light supplement module 140 is only 3.66cm ² 。

It should be understood that the condenser lens group 142 can be a single lens or a lens group composed of a plurality of lenses, and when the condenser lens group 142 is a single lens, such as a convex lens, the weight of the head-mounted low-light shooting and displaying glasses 100 can be reduced; when the condenser lens group 142 is a lens group composed of a plurality of lenses, the characteristics among the lenses can be utilized to achieve better light-emitting quality.

Referring to fig. 2, in order to further increase the utilization rate of the light, the compensating light beam 143 emitted from the light-emitting side of the condenser lens group 142 may be parallel to the optical axis 111 of the infrared camera module 110, so as to further increase the shooting distance of the infrared camera module 110.

Referring to fig. 4, in order to implement uniform light supplement, the infrared light supplement module 140 may include two infrared light supplement lamp sets 141, and the two infrared light supplement lamp sets 141 are distributed on two opposite sides of the infrared camera module 110, so that uniform light supplement can be performed on the acquisition range of the infrared camera module 110, and accordingly, clear first image information can be obtained.

Each infrared light supplement lamp set 141 may include two LED lamps, and in other embodiments, each infrared light supplement lamp set 141 may further include one or three LED lamps.

Referring to fig. 4, in order to improve the integration and facilitate the subsequent modular assembly, the infrared camera module 110 and the infrared light supplement module 140 may be integrated on the same circuit board 150.

Referring to fig. 4, the operation platform 120 may be integrated on another circuit board 150, and the two circuit boards 150 are connected by a flexible flat cable, so that the two circuit boards 150 may be flexibly distributed on the head-wearing glasses 100 for low-light shooting and displaying, and the disadvantage of difficult arrangement of the circuit board 150 due to the fact that the operation platform 120, the infrared camera module 110 and the infrared light supplement module 140 are integrated on the same circuit board 150 may be avoided.

Please refer to fig. 6 and 7, in the layout, the infrared light supplementing lamp groups 141 may be distributed on two opposite sides of the infrared camera module 110, and the infrared light supplementing lamp groups 141 and the infrared camera module 110 are distributed along the direction from the left eye to the right eye, the infrared light supplementing lamp groups 141 and the infrared camera module 110 may be both located above the AR module 130, i.e. when the user uses the device, the infrared light supplementing lamp groups 141 and the infrared camera module 110 are located at the position of the eyebrows of the user, so as to avoid blocking the eyes of the user from normally receiving the second image information and the light of the real world.

In order to improve the user experience, the wavelength of the compensating light beam 143 emitted by the infrared light supplement module 140 may be 930nm to 950nm, for example 930nm, 940nm, and 950nm, so that the red explosion phenomenon generated by the infrared light supplement module 140 during operation can be effectively reduced, and the noninductive degree of the user during use is further improved.

The collection cycle of infrared camera module 110 overlaps with the cycle of infrared light filling module 140 outgoing compensation light beam 143, in other words, make infrared camera module 110 and infrared light filling module 140 synchronous start work, therefore, can be at infrared light filling module 140 during operation (outgoing compensation light beam 143), infrared camera module 110 can synchronous start work, thus, can enough realize comparatively clear image acquisition, can also effectively improve the cooperation between them, avoid extravagant electric energy, improve the duration of wear-type shimmer shooting and the glasses 100 who shows.

It should be understood that the head-mounted glasses 100 for low-light shooting and displaying have a battery module disposed in the frame, and the battery module can supply power to various electric modules in the head-mounted glasses 100 for low-light shooting and displaying. The energy compensation mode of the head-mounted low-light-level shooting and displaying glasses 100 can be performed in a power conversion and/or charging mode, so that the application in different scenes is met.

Referring to fig. 3 and 5, the ar module 130 includes a left-eye display module 131 and a right-eye display module 132 disposed on the frame, and the left-eye display module 131 and the right-eye display module 132 are electrically connected to the operation platform 120, respectively, so that when the head-mounted low-light shooting and displaying glasses 100 are worn to a user, the left-eye display module 131 is correspondingly located in front of a left eye of the user, and the right-eye display module 132 is correspondingly located in front of a right eye of the user, so that the eyes of the user can receive a real image and second image information in the real world, respectively, and the display effect of enhanced display can be achieved.

Referring to fig. 3, the computing platform 120 may have a plurality of working modes by controlling the left-eye display module 131 and/or the right-eye display module 132 to display the second image information, wherein:

a first operating mode: when the computing platform 120 generates the second image information, the second image information is sent to the left-eye display module 131, so that the user realizes augmented reality display at the left eye.

A second working mode: when the computing platform 120 generates the second image information, the second image information is sent to the right-eye display module 132, so that the user realizes augmented reality display at the right eye.

The third working mode is as follows: the second image information generated by the computing platform 120 may include left-eye first image information and right-eye first image information, and then the left-eye first image information is sent to the left-eye display module 131, and the right-eye first image information is sent to the right-eye display module 132, so that the left-eye display module 131 correspondingly displays the left-eye first image information, and the right-eye display module 132 correspondingly displays the right-eye first image information, and thus, the user may realize augmented reality display at the left eye and the right eye at the same time.

In an embodiment, the left-eye display module 131 includes a display lens set and an optical engine, the display lens set is located at the light-emitting side of the optical engine, the display lens set is located in front of the glasses of the user, and the optical engine is electrically connected to the computing platform 120, so that after the computing platform 120 generates the second image information, the second image information is sent to the optical engine, so that the optical engine emits a light beam with a virtual image to the display lens set, and the light beam is incident on the glasses of the user after passing through the display lens set. The display mirror group can be an optical element such as an optical waveguide.

For the intellectuality of the glasses 100 that further improvement wear-type shimmer was shot and was shown, the glasses 100 that wear-type shimmer was shot and was shown is still including setting up the voice interaction module on wearing subassembly 170 and setting up communication module and the luminance sensor on the mirror holder, and voice interaction module, communication module and luminance sensor are connected with operation platform 120 electricity respectively.

Specifically, the voice interaction module may include a pickup unit and a sound generation unit, the pickup unit and the sound generation unit may be both disposed on the glasses leg 171 of the wearing assembly 170, so as to facilitate voice interaction with a user, the pickup unit may receive a voice instruction of the user, and after being recognized by the operation platform 120, the pickup unit correspondingly controls the work of the head-mounted glasses 100 for low-light-level shooting and displaying; the sound unit may output sound to the user under the control of the computing platform 120, thereby enhancing the interaction of the user with the head-mounted low-light shooting and displaying glasses 100. In addition, a vibration unit can be arranged on the spectacle frame, and the interaction between the user and the head-mounted glasses 100 for low-light shooting and displaying can be realized through the vibration feedback of the vibration unit.

The communication module can make the head-mounted low-light shooting and displaying glasses 100 have the capability of information interaction with other devices, for example: the communication module can enable the user to play images, videos, music and the like sent by other equipment.

The brightness sensor can acquire the ambient brightness information of the head-wearing glimmer shooting and displaying glasses 100, so that the computing platform 120 can automatically adjust the display brightness of the AR module 130 according to the ambient brightness information, and the problem that the display brightness of the AR module 130 is too high and dazzling or too low and unclear is avoided.

When the head-mounted low-light-level shooting and displaying glasses 100 of the present application are AR glasses, please refer to fig. 6 and 7, the user may wear the AR glasses to the head, so as to receive the virtual image and the real image through the eyes, thereby achieving the effect of augmented reality display.

Referring to fig. 7, the frame includes a frame 160 having a window 166 and a mounting base 165 having a receiving cavity, wherein when the AR glasses are worn by a user, the glasses of the user are located right at the window 166 of the frame 160, so that the user can receive a virtual image and a real image through the window 166. The frame 160 may be enclosed by left and right side members 161, an upper member 162, and a base member 163. The mount pad 165 is provided on the upper beam 162 of the frame 160, so as to reduce the occlusion caused to the user's vision, and the nose pad 164 is provided on the base beam 163 of the frame 160, so that when the AR glasses are worn to the user, the nose can be fitted through the nose pad 164, thereby supporting the AR glasses. The wear assembly 170 is pivotally connected to the side rails 161 of the frame 160 so as to be deployed for use and retracted for storage when not in use.

Infrared light filling module 140, infrared module 110 and the operation platform 120 of making a video recording set up respectively in the holding intracavity of mount pad 165, be close to one side of picture frame 160 window 166 at mount pad 165 and be provided with the opening that communicates with window 166, so, infrared light filling module 140's light-emitting side alright by window 166 to target area outgoing compensating beam 143 through the opening, it is corresponding, infrared module 110's the collection side of making a video recording also can carry out the collection of first image information to target area through opening and window 166. The AR module 130 is disposed on a side of the mounting base 165 close to the bottom beam 163 of the glasses frame 160, that is, on a bottom side of the mounting base 165, so that the AR module 130 corresponds to the window 166, and after the AR glasses are worn on the user, the glasses of the user can receive the virtual image and the real image through the AR module 130 and the window 166.

Referring to fig. 7, the mounting base 165 may include a fixing base 1652 and a fixing cover 1651, and the fixing cover 1651 and the fixing base 1652 are fastened to form an accommodating cavity.

Referring to fig. 6 and 7, the head-mounted glasses 100 for low-light shooting and displaying may further include an ink lens 180, and the ink lens 180 is disposed at the window 166 of the frame 160 and covers the window 166, so that the window 166 may be covered by the ink lens 180 to protect the internal components, and the integrity of the AR glasses may be improved.

Referring to fig. 6 and 7, the wearing assembly 170 includes two sets of glasses legs 171 and an elastic headband 172, which are respectively disposed on left and right sides of the frame 160 of the glasses frame, for convenience of description, one ends of the left and right glasses legs are respectively rotatably disposed on the left and right side beams 161 of the frame 160 of the glasses frame, one end of the left elastic headband is disposed on the left glasses leg, one end of the right elastic headband is disposed on the right glasses leg, and the other ends of the left and right elastic headstocks extend toward each other, so that when the glasses 100 for head-mounted low-light shooting and displaying are worn on the head of a user, the left and right glasses legs can be respectively lapped on the ears of the user on one hand, and the other ends of the left and right elastic headstocks can be attached to the head of the user through elastic deformation to play a role of tightening, thereby improving the wearing stability of the glasses 100 for head-mounted low-light shooting and displaying.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (11)

1. A pair of head-mounted glasses for low-light shooting and displaying is characterized by comprising a wearing assembly, a glasses frame, an infrared light supplementing module, an infrared camera module, an operation platform and an AR module, wherein the infrared light supplementing module, the infrared camera module, the operation platform and the AR module are arranged on the glasses frame;

the infrared light supplementing module is used for emitting a compensation light beam to a target area;

the infrared camera module is used for acquiring first image information of the target area;

and the operation platform is used for generating second image information according to the first image information and controlling the AR module to display the second image information.

2. The head-mounted low-light shooting and displaying glasses according to claim 1 wherein the infrared fill-in light module comprises an infrared fill-in light module and a condenser lens set located at the light-emitting side of the infrared fill-in light module, and the infrared fill-in light module emits a compensation light beam to the target area through the condenser lens set.

3. The head-mounted micro-light photographing and displaying glasses according to claim 2, wherein the compensating beam emitted from the condenser lens group is parallel to the optical axis of the infrared camera module.

4. The head-mounted low-light shooting and displaying glasses according to claim 2, wherein the infrared fill-in light module comprises two infrared fill-in light sets, and the two infrared fill-in light sets are distributed on two opposite sides of the infrared camera module.

5. The head-mounted micro-light capturing and displaying glasses according to claim 1, wherein the wavelength of the compensation beam is 930nm to 950nm.

6. The pair of head-mounted low-light shooting and displaying glasses according to claim 1, wherein the collection period of the infrared camera module overlaps with the period of the infrared fill-in module emitting the compensation light beam.

7. The pair of head-mounted micro-light photographing and displaying glasses according to any one of claims 1 to 6, wherein the AR module comprises a left-eye display module and a right-eye display module disposed on the glasses frame, the left-eye display module and the right-eye display module are electrically connected to the computing platform respectively, and the computing platform is configured to control the left-eye display module and/or the right-eye display module to display the second image information.

8. The pair of head-mounted micro-light photographing and displaying glasses according to claim 7, wherein the left-eye display module and/or the right-eye display module comprises a display mirror set and an optical engine, the display mirror set is located at a light-emitting side of the optical engine, and the optical engine is electrically connected to the operation platform.

9. The head-mounted micro-light shooting and displaying glasses according to claim 1 further comprising a voice interaction module disposed on the wearing component, and a communication module and a brightness sensor disposed on the frame, wherein the voice interaction module, the communication module and the brightness sensor are electrically connected to the computing platform respectively, the brightness sensor is configured to obtain the ambient brightness information, and the computing platform is configured to adjust the display brightness of the AR module according to the ambient brightness information.

10. The head-mounted low-light capture and display eyewear of claim 1 wherein the frame comprises a frame having a window and a mounting having a receiving cavity and disposed on an upper rail of the frame;

a nose support is arranged on the bottom beam of the spectacle frame;

the wearing assembly is rotationally connected with the side beam of the glasses frame;

one side of mount pad be provided with the opening of window intercommunication, infrared light filling module infrared camera module with operation platform set up respectively in the holding chamber, just the light-emitting side of infrared light filling module with infrared camera module gathers the side and passes through respectively the opening with the window corresponds, the AR module set up in the mount pad just the AR module with the window position corresponds.

11. The head-mounted micro-optic filming and display eyewear of claim 1 wherein said wear assembly comprises a temple arm pivotally attached at one end to said frame and an elastic headband attached to said temple arm.

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