CN221225163U - Mirror body, glasses and glasses system - Google Patents

Abstract

The embodiment of the utility model provides a lens body, glasses and a glasses system. The image acquisition device is located in the installation space, and the camera lens of the image acquisition device is located the opening part and faces the outside. The front mirror surface covers the shell at the front end of the opening so as to cover the image acquisition device in the installation space, and the front mirror surface at the lens is transparent. Therefore, inconvenience to a user caused by the influence of the outside on the lens part can be avoided, the outer surface of the mirror body is not convex due to the structure that the lens is not positioned on the surface, and the consistency of the outer surface is good, so that the outer surface of the mirror body is attractive. The glasses and the glasses system comprise the glasses body, so that the lens for collecting the external images is not influenced by the outside, the use of a user is inconvenient, and the appearance is more attractive.

Description

Mirror body, glasses and glasses system

Technical Field

The utility model relates to the technical field of glasses, in particular to a glasses body, glasses and a glasses system.

Background

Along with the high-speed development of related technologies such as virtual reality, augmented reality and mixed reality, intelligent devices are continuously promoted to be new and use experience is gradually improved, such as intelligent glasses such as virtual reality glasses and mixed reality glasses.

There is the image acquisition device who acquires external image on the mirror body of intelligent glasses, and image acquisition device's camera lens part often is located the surface of mirror body, not only makes camera lens part in receiving external influence and makes user's use inconvenient, still influences intelligent glasses holistic aesthetic property.

Disclosure of utility model

The present utility model has been made in view of the above-mentioned problems, and an object of the present utility model is to provide a mirror body which is more attractive and which is not affected by the outside of the lens portion of an image pickup device and is inconvenient for a user to use.

To achieve the purpose, the embodiment of the utility model adopts the following technical scheme:

A mirror body, comprising:

a housing having an opening at a front end thereof, an installation space being formed inside the housing;

The image acquisition device is positioned in the installation space, and a lens of the image acquisition device is positioned at the opening and faces the outside; and

And the front mirror surface covers the shell at the front end of the opening so as to cover the image acquisition device in the installation space, and the front mirror surface at the lens is transparent.

Preferably, the thickness of the front mirror surface is uniform at least at the lens.

Preferably, when the image pickup device includes a plurality of lenses, a thickness of a portion of the front mirror surface at each of the lenses is the same.

Preferably, a lens accommodation groove is formed in the lens portion of the front mirror surface facing the housing, the groove bottom of the accommodation groove is transparent, and a portion of the image pickup device on the lens periphery side abuts against the groove bottom.

Preferably, the thickness of the front mirror surface at the groove bottom is uniform.

Preferably, at least the lens is transparent on the front mirror.

Preferably, a side of the front mirror surface away from the housing is a surface with continuous curvature.

Preferably, the housing front side has a mounting groove of the front mirror surface, and a peripheral side of the front mirror surface abuts against the mounting groove wall.

Preferably, the housing includes:

The inner shell is provided with a plurality of first mounting columns with different heights at intervals;

the plurality of second mounting columns are arranged on the shell in one-to-one correspondence with the first mounting columns;

And a fastener passing through one of the first mounting post and the second mounting post to be mounted on the other so as to connect the outer shell and the inner shell to form the mounting space.

Preferably, the image acquisition device comprises at least one lens.

Preferably, the image acquisition device comprises two lenses, and the lens body at the corresponding position of the eyes is provided with one lens.

As a preferred alternative to this,

The image acquisition device further comprises a second main board, and the lens is arranged on the second main board;

The mirror body further comprises a circuit board and a first main board, wherein the circuit board is located on the side face of the installation space, and the first main board is electrically connected with the second main board through the circuit board.

Preferably, the second main board is provided with at least one reserved bit for mounting electronic components of a subsequent stage.

Preferably, the mirror body further includes:

The nose pad assembly is positioned at the nose bridge of the user at the inner side of the shell, and the shape of the nose pad assembly is adjustable to be fit with the face of the user.

Preferably, the nose pad assembly comprises:

one end of the mounting piece is detachably connected with the shell;

the support frame is connected with the other end of the mounting piece, and the shape of the support frame is adjustable;

And the attaching sleeve is sleeved on the outer side of the supporting frame and attached to the face of the user.

Preferably, the support comprises two flanks and a middle part connecting the two flanks;

The middle part is connected with the mounting piece, at least one through hole is formed in the side wing, and the shape of the side wing is adjustable.

Preferably, a positioning column matched with the through hole is arranged in the attaching sleeve.

Another object of the embodiments of the present utility model is to provide glasses in which a lens portion of an image capturing device is not affected by the outside, which is inconvenient for a user to use and more attractive.

To achieve the purpose, the embodiment of the utility model adopts the following technical scheme:

an eyeglass comprising:

The mirror body; and

The two mirror legs are rotatably arranged on two sides of the mirror body.

It is still another object of an embodiment of the present utility model to provide an eyeglass system in which a lens portion of an image pickup apparatus is not affected by the outside to cause inconvenience to a user and the appearance is more attractive.

To achieve the purpose, the embodiment of the utility model adopts the following technical scheme:

An eyeglass system, comprising:

the glasses;

one end of the data wire is connected with the glasses;

And the other end of the data line is connected with the data processor.

Preferably, one end of the data line is connected with one of the glasses legs, and the other corresponding glasses leg is connected with one end of the weight line, and the other end of the weight line is connected with the data line to form a neck hanging structure.

Preferably, the eyeglass system further comprises:

The head-wearing frame is arranged on the head-wearing frame, and the glasses and the data processor are arranged on the head-wearing frame, so that the head-wearing frame can be worn on the head of a user, and the glasses are positioned at the eyes of the face of the user.

According to the technical scheme provided by the embodiment of the utility model, the front mirror surface is arranged, the front mirror surface can cover the image acquisition device in the installation space, so that the lens capable of acquiring the external image is isolated from the outside, inconvenience to a user caused by the influence of the outside on the lens part can be avoided, the outer surface of the mirror body is not raised due to the structure that the lens is not positioned on the surface, the consistency of the outer surface is good, and the outer surface of the mirror body is attractive. The glasses and the glasses system provided by the embodiment of the utility model comprise the glasses body, so that the lens of the glasses for collecting the external images is not influenced by the outside, the use of a user is inconvenient, and the appearance is more attractive.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions of the prior art, the following description will briefly explain the drawings used in the embodiments or the description of the prior art, and it is obvious that the drawings in the following description are some embodiments of the present utility model, and other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is an exploded view of a mirror according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a front mirror according to an embodiment of the present utility model;

FIG. 3 is a schematic structural view of an inner shell according to an embodiment of the present utility model;

FIG. 4 is an exploded view of a nose pad assembly according to one embodiment of the present utility model;

Fig. 5 is a schematic structural diagram of an eyeglass system according to an embodiment of the present utility model.

In the figure:

1000. A mirror body; 2000. a temple; 3000. a data processor; 4000. a data line; 5000. a weight line;

1100. a housing; 1110. a housing; 1111. a mounting groove; 1120. an inner case; 1121. a first mounting post; 1122. a fixing part; 1123. an avoidance unit; 1124. positioning columns; 1130. a fastener;

1200. An image acquisition device; 1210. a lens; 1220. a second main board; 1221. reserving a bit;

1300. A front mirror; 1310. a placement groove; 1311. a groove bottom;

1400. A first main board;

1500. a circuit board;

1600. A nose pad assembly; 1610. a mounting member; 1620. a support frame; 1621. a side wing; 16211. a through hole; 1622. an intermediate portion; 16221. a connection end; 16222. a mounting end; 16201. a clamping block; 16202. a slideway; 1630. and (5) fitting the sleeve.

Detailed Description

The utility model is described in further detail below with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the utility model and are not limiting thereof. It should be further noted that, for convenience of description, only some, but not all of the structures related to the present utility model are shown in the drawings.

In the description of the present utility model, unless explicitly stated and limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", etc. orientation or positional relationship are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

Embodiment one:

The present embodiment provides a lens body 1000, where the lens body 1000 can smartly fuse virtual information with the real world, when a user places the lens body 1000 at an eye position, the user can see not only an external dynamic image but also relevant information of all objects in a visible range through the lens body 1000, for example: in the real world, when a user looks at the cup through the mirror 1000, information such as the material, manufacturer, purchase channel, and minimum price of the cup will appear next to the cup.

The lens body 1000 can be applied to intelligent glasses such as AR glasses, MR glasses and VR glasses. In order to enable a user to see virtual information of a corresponding object when the user wears the mirror body 1000, the mirror body 1000 comprises various data processing main boards, the data main boards are limited by the volume of the data processing main boards and the internal space of the mirror body 1000, often are positioned at positions in front of eyes of the user in the mirror body 1000, and are shielded by the data main boards, the user cannot see an external scene through the mirror body 1000 directly, so that an image acquisition device 1200 capable of acquiring external images is arranged on the mirror body 1000, and the acquired external images can be projected onto the mirror body 1000 to be presented to the user.

Fig. 1 is an exploded view of a mirror 1000 according to an embodiment of the present utility model, and fig. 2 is a schematic structural view of a front mirror according to an embodiment of the present utility model, please refer to fig. 1 and 2. The mirror 1000 includes a housing 1100, an image capturing device 1200, and a first main board 1400, wherein a front end of the housing 1100 has an opening, and an installation space is formed inside the housing 1100. The image capturing device 1200 is located in the installation space, and the lens 1210 of the image capturing device 1200 is located at the opening and faces the outside, so as to capture the dynamic image of the outside. The first main board 1400 can process the collected image and then project the processed image to a position where the user can see after wearing the mirror body 1000, and the first main board 1400 can also be connected with a wide area network to project virtual information of a visual object along with the visual object, or can control the image collecting device 1200 to be closed when the user has a rest, and project a video program to the position where the user is visible, so that the use experience of the user is improved.

As an implementation example, the image capturing device 1200 includes at least one lens 1210, and the plurality of lenses 1210 can make the capturing angle wider, so that the wider the external image range presented to the user. The use feeling of the user is improved. Preferably, the image capturing device 1200 includes two lenses 1210, and the user wears the glasses body 1000 with one lens 1210 corresponding to each eye, so as to simulate the visual angle of the eyes of the user, and the presented image is consistent with the view directly seen by the user when the user does not wear the glasses. Therefore, the waste of the camera is avoided, and the use experience of the user is ensured.

Further, the image capturing device 1200 further includes a second main board 1220, the lens 1210 is disposed on the second main board 1220, the lens body 1000 further includes a circuit board 1500, the first main board 1400 and the second main board 1220 are electrically connected through the circuit board 1500, the second main board 1220 can process the external image captured by the image capturing device 1200, so that the image is transferred to the first main board 1400 through the circuit board 1500, and the first main board 1400 can present the captured image to the user when the user wears the lens body 1000. The mode that the image acquisition device 1200 is equipped with a mainboard alone can make image data processing's faster can not appear blocking to can present external image to the user along with user's removal in time, improve user's use experience sense, and first mainboard 1400 and second mainboard 1220 can be updated according to actual need separately, not only be convenient for the precision control of assembly process, reduce the defective rate, and be convenient for control the loss in the installation process, for example: one of the first motherboard 1400 or the second motherboard 1220 of the product of the subsequent iteration is upgraded, and the motherboard without upgrading can be continuously used on the iteration product to reduce the loss of raw materials, etc.

As an embodiment that can be implemented, the circuit board 1500 is located on the side of the installation space, so that the installation space can be fully utilized, the thickness of the entire mirror body 1000 can be reduced, the heavy feeling when the user wears the mirror body is reduced, and the good experience feeling of the user is improved.

As an implementation embodiment, the second main board 1220 is provided with at least one reserved bit 1221 to mount electronic components of a subsequent stage, so that an installation space can be provided for subsequent product upgrades, in other words, if electronic components with new functions appear on the market during development of next generation products, the electronic components can be mounted on the reserved bit 1221, so that the current product of the next generation can be upgraded while being used, and the cost and time of the prior development are reduced, thereby being beneficial to preempting the market.

As an implementation embodiment, the lens body 1000 further includes a front mirror surface 1300, where the front mirror surface 1300 covers the housing 1100 at the front end of the opening, so as to cover the image capturing device 1200 in the installation space, so as to prevent the lens 1210 from being damaged or damaged by external images, which affects the use of the user, for example, the lens 1210 is scratched, the lens 1210 is knocked at an unfilled corner, the lens 1210 is damaged, etc. The front mirror 1300 is partially transparent at the lens 1210, so that the lens 1210 of the image capturing device 1200 captures an external dynamic image through the front mirror 1300.

Further, as an implementation example, at least a portion of the front mirror 1300 at the lens 1210 is transparent, and other portions may be transparent or opaque, where the opacity can avoid the internal structure from being seen from the outside, and is more attractive. The embodiment is not particularly limited as long as the acquisition view angle of the lens 1210 is ensured not to be blocked.

It can be appreciated that the lens 1210 is capable of capturing an external image because various external light can be incident into the capturing angle of the lens 1210, and the various light can be collected to present an external scene. Then, since the front mirror 1300 has a certain thickness, when the front mirror 1300 is hyperboloid, if the transparent portion of the front mirror 1300 at the lens 1210 has uneven thickness, the light from the outside will be refracted, and the image of the refracted light captured by the lens 1210 will be misplaced with the actual object from the outside, thereby affecting the user experience. Therefore, as an implementation example, the thickness of the front mirror 1300 is uniform at least at the lens 1210, so as to ensure that no refraction occurs when external light enters the lens 1210, and ensure that the image collected by the lens 1210 is consistent with the external environment. Further, as an implementation example, the thickness of the transparent portion of the front mirror 1300 in front of each lens 1210 is the same, so that the positions of the images acquired by all the lenses 1210 are consistent, the consistency is ensured, and the dislocation phenomenon caused by the influence of the front mirror 1300 is avoided.

As one possible embodiment, the front mirror 1300 has a concave accommodation groove 1310 of the lens 1210 at the lens 1210 toward the side of the housing 1100, a groove bottom 1311 of the accommodation groove 1310 is transparent, and a portion of the image pickup device 1200 on the circumferential side of the lens 1210 abuts against the groove bottom 1311. Thereby ensuring that the lens 1210 is close to the groove bottom 1311 or that the lens 1210 abuts the groove bottom 1311. It will be appreciated that the smaller the angle between the edge of the transparent portion of the lens 1210 and the center point of the lens 1210, the narrower the angle range collected by the lens 1210. Conversely, the closer the lens 1210 is to the transparent portion of the front mirror 1300, the larger the included angle between the connecting line between the edge of the transparent portion and the center point of the lens 1210, the wider the angle range collected by the lens 1210, so that the larger the viewing angle of the external scene presented to the user, and the user experience is improved. In addition, the thickness of the groove bottom 1311 is smaller than the thickness of the circumferential side of the mounting groove 1310, and the thinner the front mirror 1300 is, the less the thickness difference is likely to occur, so that the lower the refraction phenomenon occurs, the higher the overlapping degree between the displayed image and the outside is, and the better the user experience is.

Further, as an implementation example, the thickness of the front mirror 1300 at the groove bottom 1311 is uniform, so as to avoid the light entering the lens 1210 through the groove bottom 1311 from being refracted by the groove bottom 1311, and ensure that the presented image coincides with the outside.

It can be appreciated that the placement grooves 1310 are arranged in one-to-one correspondence with the plurality of lenses 1210, and the thickness of the groove bottom 1311 of each placement groove 1310 is consistent, especially when the image capturing device 1200 is provided with one lens 1210 at the corresponding eye, dual purpose consistency can be ensured, and good experience of the user is ensured.

As one possible embodiment, the side of front mirror 1300 remote from housing 1100 is a continuous curvature surface. Therefore, the mirror surface can be ensured to be even and smooth, no edges and corners are generated, and the appearance attractiveness is ensured. It should be noted that the surface with continuous curvature may be a plane or a curved surface, so long as the modeling requirement of the mirror body 1000 during the early development is satisfied, and the embodiment is not limited specifically herein.

Fig. 3 is a schematic structural diagram of an inner shell according to an embodiment of the utility model, please refer to fig. 1 and 3.

The front side of the housing 1100 has a mounting groove 1111 of the front mirror 1300, and the peripheral side of the front mirror 1300 abuts against the wall of the mounting groove 1111. So that the front mirror 1300 is wrapped in the mounting groove 1111, not only the appearance is more attractive, but also the front mirror 1300 can function as a supporting case 1100. It should be noted that, in order to ensure that the user has a good touch feeling when touching the lens body 1000, the housing 1100 may be made of a rubber material with a certain elasticity, and such a material is adopted, so that the user can obtain a softer touch feeling, thereby improving the use experience. The higher the softness is, the weaker the rigidity is, so that the support of the front mirror 1300 can increase the rigidity of the outer surface of the mirror 1000, and the mirror 1000 is ensured not to deform to affect the parts installed in the installation space. In order to ensure a stable mounting of the front mirror 1300 without detachment from the mounting groove 1111, as one possible embodiment, the circumferential side wall of the front mirror 1300 is bonded to the inner wall of the mounting groove 1111.

Further, as one possible embodiment, a structure of the housing 1100 may be: the device comprises an inner shell 1120, an outer shell 1110 and a fastener 1130, wherein a plurality of first mounting columns 1121 with different heights are arranged on the inner shell 1120 towards the outer shell 1110 at intervals, a plurality of second mounting columns are arranged on the outer shell 1110 in a one-to-one correspondence manner with the first mounting columns 1121, the fastener 1130 is arranged corresponding to one group of first mounting columns 1121 and second mounting columns, and one of the first mounting columns 1121 and the second mounting columns can be installed on the other mounting column through the fastener 1130 so as to connect the outer shell 1110 with the inner shell 1120, so that a mounting space is formed. Because the inner shell 1120 and the outer shell 1110 are both curved-surface first mounting posts 1121 and second mounting posts, not only can the mounting position of one of the inner shell 1120 and the outer shell 1110 on the other be positioned, i.e. the first mounting posts 1121 and the second mounting posts are foolproof structures, but also the volume of the mounting space can be ensured, thereby ensuring the mounting of the electronic component in the mounting space.

As an embodiment that can be implemented, since the nose of the person is protruded from the face, in order to better match the face of the user, the housing 1100 has the avoiding portion 1123 of the nose bridge, specifically, the avoiding portion 1123 is disposed on the inner housing 1120, and does not interfere with the nose bridge when the mirror 1000 is worn on the face of the user, thereby ensuring a good experience of the user.

Further, as an implementation example, one of the inner case 1120 and the outer case 1110 is provided with a fixing portion 1122, the upper and lower fixing portions 1122 are disposed opposite to each other, and positioning slots penetrating through the positioning portions are disposed opposite to each other on the two fixing portions 1122, and the two positioning slots can accommodate the upper and lower ends of the circuit board 1500, so that the circuit board 1500 is mounted on the side of the mounting space, and the structure is simple. Alternatively, the inner housing 1120 is further provided with a plurality of positioning posts 1124 with different heights, and other components on the lens body 1000 are mounted on the inner housing 1120 through the positioning posts 1124, so that the height and the position of the positioning posts 1124 can limit the mounting positions of the components, and the mounting accuracy is ensured. In addition, the locking member can pass through the component mounted on the inner housing 1120 and then be screwed on the positioning post 1124, so as to stably mount the component on the inner housing 1120, thereby ensuring that the lens 1210 surface will not be skewed and avoiding displacement between the component and the inner housing 1120. In addition, since one of the positioning post 1124 and the first mounting post 1121 and the second mounting post for positioning are located on the inner housing 1120, all the parts that compose the lens body 1000 are assembled with the basic coordinates of the inner housing 1120 as the origin of coordinates during assembly, and no coordinate conversion is involved, so that the assembly is convenient, the mounting error can be reduced, and the lens 1210 is ensured to be located at the transparent portion of the front mirror 1300. It should be noted that, the outer casing 1110 is finally mounted on the inner casing 1120, so as to cover all the components in the mounting space. In this way, when the lens body 1000 is out of order and needs to be maintained, only the outer shell 1110 needs to be detached from the inner shell 1120, so that all parts can be exposed to the outside, at this time, the outer shell 1110 can be moved to the placement position, and the parts on the inner shell 1120 are maintained, so that the phenomenon of insufficient operation space due to the influence of the outer shell 1110 is avoided.

Fig. 4 is an exploded view of a nose pad assembly according to an embodiment of the present utility model, and fig. 4 is referred to in conjunction with fig. 1.

As an embodiment that can be implemented, in order to meet the comfort of wearing by the user, the mirror body 1000 of this embodiment further includes a nose pad assembly 1600, the nose pad assembly 1600 is located at the nose bridge of the user inside the housing 1100, and the shape of the nose pad assembly 1600 is adjustable to fit the face of the user, so that the mirror body 1000 can be stably supported on the face of the user, and the user can wear the mirror body more comfortably.

As an implementation example, specifically, the nose pad assembly 1600 may be detachably mounted on a side of the inner housing 1120 facing a user, so that the nose pad assembly 1600 may be conveniently replaced in a detachable manner, and in addition, when the lens body 1000 iterates, the inner housing 1120 of the new generation lens body 1000 may be used along with the mounting port of the nose pad assembly 1600 of the current generation lens body 1000, the nose pad assembly 1600 may be used along, that is, may be mounted on the new generation lens body 1000, so as to save research and development costs.

Further, as an implementation example, the nose pad assembly 1600 may be configured by a mounting member 1610, a supporting frame 1620 and a fitting sleeve 1630, where one end of the mounting member 1610 is detachably connected with the housing 1100, the supporting frame 1620 is connected with the other end of the mounting member 1610, the shape of the supporting frame 1620 is adjustable, and the fitting sleeve 1630 is sleeved outside the supporting frame 1620 and is fitted with the face of the user. The support frame 1620 can provide shape support for the nose pad assembly 1600, and the lamination sleeve 1630 can follow the support frame 1620 for shape adjustment so that different people can adjust according to the facial conditions of the people, and the lamination sleeve 1630 can be laminated on the face of the user in the most comfortable shape of the user.

Specifically, as an implementation example, the supporting frame 1620 includes two side wings 1621 and a middle part 1622 connecting the side wings 1621, the middle part 1622 is connected with the mounting component 1610, at least one through hole 16211 is formed in the side wing 1621, and the shape of the side wing 1621 is adjustable. When the user wears the glasses body 1000, the two side wings 1621 are positioned at two sides of the nose of the user, and the side wings 1621 are adjusted, so that one part of the side wings 1621 are attached to one part of the side face of the nose of the user and attached to the face of the user, thereby ensuring stable support, adjusting according to the shapes of the noses of different users, and having wide application range. The through holes 16211 on the side wings 1621 may provide strength to support the side wings 1621 while allowing for more effort-saving adjustment by the user. Alternatively, the supporting frame 1620 may be made of a soft metal material, such as copper, aluminum, etc., and has good plasticity, and of course, the supporting frame 1620 may be made of other materials with adjustable shape and certain supporting property, which is not limited in this embodiment.

As an embodiment that can be implemented, the middle part 1622 one end is the link 16221, and the side of link 16221 is connected with the end of flank 1621 to make nose pad laminating user's face department be "U" type, guarantee the aesthetic property of outward appearance, the middle part 1622 other end is the installation end 16222, and the installation end 16222 is certain angle with link 16221, and the angle can be adjusted, so that nose pad subassembly 1600 can be with the high matching of different noses of different users.

For the installation of being convenient for, as an embodiment that can realize, there is fixture block 16201 on one of them on installation end 16222 and the connecting piece, there is the draw-in groove on the other, fixture block 16201 joint can realize the fixed connection of support frame 1620 and installation piece 1610 in the draw-in groove, in addition, in order to guarantee the precision of installation, the both sides of installation end 16222 have slide 16202, have the slider on the connecting piece, when support frame 1620 installs on installation piece 1610, slider and slide 16202 butt and remove in order to make fixture block 16201 can be accurate enter into the draw-in groove along slide 16202, realize the joint, avoid appearing fixture block 16201 and draw-in groove to align the phenomenon to appear, convenient operation.

As an embodiment, one of the mounting portion and the inner housing 1120 is provided with a clamping block, and the other is provided with a clamping groove, and the clamping block is clamped into the clamping groove to fix the mounting portion and the inner housing 1120. Further, the cell wall of joint groove is the guide surface of slope, and the card of the joint piece of being convenient for is gone into to and can break away from with the joint groove along the guide surface when the joint piece receives the pulling force of taking off the joint groove to convenient to detach.

As an embodiment that can be realized, the laminating cover 1630 is internally provided with a positioning column matched with the through hole 16211, when the laminating cover 1630 is sleeved on the periphery of the supporting frame 1620, the positioning column is arranged in the through hole 16211 in a penetrating way so as to position the laminating cover 1630 on the positioning frame and avoid the detachment of the laminating cover 1630 from the positioning frame. As an alternative, the attaching sleeve 1630 is made of rubber, so that the attaching sleeve 1630 has a certain elasticity and is soft to give a better touch to a user, and can block the corner or edge of the supporting frame 1620 from being pressed, thereby ensuring comfort, and the attaching sleeve 1630 made of rubber can be changed along with the shape change of the supporting frame 1620 and is shaped along with the supporting frame 1620. In addition, the cost is low. Of course, the attaching cover 1630 may be made of other materials, so long as it is ensured that the attaching cover can be sleeved on the outer side of the supporting frame 1620 to deform along with the deformation of the supporting frame 1620, and the touch feeling is more comfortable for the user, and the embodiment is not particularly limited.

Embodiment two:

The present embodiment provides an eyeglass comprising two temples 2000 and a eyeglass body 1000 as shown in embodiment one, wherein one temple 2000 is rotatably disposed on both sides of the eyeglass body 1000, and when a user wears the eyeglass, the nose pad assembly 1600 is mounted on the nose bridge, and the temples 2000 are mounted on the ears of the corresponding sides, thereby realizing three-point support, so that the eyeglass can be stably aligned with the face of the user and the eyeglass. When the glasses are not in use, the glasses leg 2000 can be rotated towards the direction of the glasses body 1000 so as to store the glasses leg 2000 in the glasses body 1000, so that the glasses leg is convenient to store. The lens 1210 of the lens body 1000 provided in the first embodiment is not affected by the outside, so that the use of the lens body is inconvenient for the user, the appearance is more attractive, the camera has consistency, the external image can be well presented, and the glasses of the first embodiment have the same advantages by applying the lens body 1000.

Embodiment III:

fig. 5 is a schematic structural diagram of an eyeglass system according to an embodiment of the utility model, please refer to fig. 5.

The present embodiment provides an eyeglass system, including the eyeglass provided in the second embodiment and the data processor 3000, the eyeglass is provided with the data line 4000 connected with the motherboard and extending out of the eyeglass, the data line 4000 can be electrically connected with the data processor 3000, the data processor 3000 can further process the data transmitted by the motherboard and then transmit the processed data to the motherboard, and can also store the data, thereby avoiding that the accommodating space of the eyeglass body 1000 is insufficient and cannot realize more functions.

As an implementation example, one implementation structure of the glasses system may further include a head-wearing frame, where the head-wearing frame may be worn on the head of the user, the head cover is disposed inside the head-wearing frame, the lens body 1000 is located at a front end of the head-wearing frame, and the data processor 3000 is located at a rear end of the head-wearing frame. By adopting the mode, the head of the user can also support the weight of the glasses, so that the glasses can not fall off when the user wears the glasses. The safety of the glasses is ensured.

As an embodiment, the glasses and the data processor 3000 are in a split structure, and the data line 4000 is not a rigid body but a shape-variable wire shape, so that the data processor 3000 can be located at any position within the length of the data line 4000, and a user usually holds the data processor 3000 in his/her hand, places it on a desk, or carries it with him/her when wearing the glasses. In addition, it is understood that the data processor 3000 generates a certain amount of heat during the data processing, and the high heat affects the electrical components in the data processor 3000, so that in order to prevent the electrical components from being affected by the high temperature and reduce the computing function, a cooling mechanism is generally configured for the data processor 3000, for example: a fan or the like capable of accelerating the flow of air. If the data processor 3000 and the radiator are all concentrated in the mirror 1000, the mirror 1000 is heavy, the comfort of the user wearing the mirror is reduced, and the radiator is close to the ear of the user, so that the user can hear the sound of the cooling mechanism during operation, and the external structure of the data processor 3000 can avoid the above problems, in addition, the external data processor 3000 is far away from the head of the user, and the electromagnetic radiation to the head of the user can be reduced.

As an embodiment, the data line 4000 may extend from a side of the temple 2000, may extend from a free end of the temple 2000, or may be located at any position of the glasses, so as to ensure the aesthetic appearance of the glasses and ensure that the data processor 3000 is connected to the motherboard, which is not limited in this embodiment.

As an implementation example, when the data line 4000 extends from one of the temples 2000, the other corresponding temple 2000 also has a weight line 5000 extending from the temple 2000, so as to ensure the balance of the lens body 1000 when the user wears the lens body 1000, prevent the lens body 1000 from being skewed, and ensure the user experience. In addition, the other end of the weight line 5000 is connected with the data line 4000 to form a neck hanging structure, when the user wears the glasses, the glasses move along with the movement of the head of the user, so that the risk of falling off is possible, and the neck hanging structure can avoid the problem that the glasses suddenly fall off to the ground and are damaged when being worn. It is noted that the end of the weight line 5000 away from the glasses is not connected to the end of the data line 4000 away from the glasses, but is connected to the center of the data line 4000. And the connection mode is detachable connection, which is beneficial for users to wear glasses. The detachable mode can be a buckle combination or a combination of a sliding block and a sliding rail, so long as detachable connection can be realized, and the embodiment is not particularly limited. The other end of the data line 4000 is detachably connected to the data processor 3000, and the detachable connection may be a combination of a socket and a plug wire, so that the detachable connection is favorable for being separately stored.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (20)

1. A mirror body, comprising:

the nose bridge protection device comprises a shell (1100), wherein the front end of the shell (1100) is provided with an opening, an installation space is formed in the shell (1100), and an avoidance part (1123) for avoiding the nose bridge of a user is arranged on the shell;

The image acquisition device (1200) is positioned in the installation space, a lens (1210) of the image acquisition device (1200) is positioned at the opening and faces the outside, and the lens (1210) is positioned at the human eye; and

A front mirror (1300) covering the case (1100) at the front end of the opening to cover the image pickup device (1200) in the installation space, the front mirror (1300) at the lens (1210) being transparent;

The thickness of the front mirror (1300) is uniform at least at the lens (1210).

2. The mirror according to claim 1, wherein when the image pickup device (1200) includes a plurality of the lenses (1210), a thickness of a portion of the front mirror (1300) at each of the lenses (1210) is the same.

3. The mirror according to claim 1, wherein a side of the front mirror (1300) facing the housing (1100) has a concave seating groove (1310) at the lens (1210), a groove bottom (1311) of the seating groove (1310) is transparent, and a portion of the image pickup device (1200) located on a peripheral side of the lens (1210) abuts against the groove bottom (1311).

4. A mirror according to claim 3, characterized in that the front mirror (1300) at the trough bottom (1311) is uniform in thickness.

5. A mirror according to claim 1, wherein at least the lens (1210) of the front mirror (1300) is transparent.

6. A mirror according to any one of claims 1 to 5, wherein the side of the front mirror (1300) remote from the housing (1100) is a continuous curvature surface.

7. The mirror body according to any one of claims 1 to 5, wherein a mounting groove (1111) of the front mirror surface (1300) is provided on a front side of the housing (1100), and a peripheral side of the front mirror surface (1300) is abutted against a wall of the mounting groove (1111).

8. A mirror according to any one of claims 1-5, wherein the housing (1100) comprises:

An inner case (1120) provided with a plurality of first mounting posts (1121) having different heights at intervals;

A housing (1110) on which a plurality of second mounting posts are provided in one-to-one correspondence with the first mounting posts (1121);

a fastener (1130) is mounted through one of the first and second mounting posts (1121) to the other to connect the outer shell (1110) with the inner shell (1120) to form the mounting space.

9. A mirror according to any one of claims 1-5, wherein the image acquisition device (1200) comprises at least one of the lenses (1210).

10. A lens body according to any one of claims 1-5, wherein the image acquisition device (1200) comprises two lenses (1210), one lens (1210) being located on the lens body in correspondence of the eyes.

11. A mirror according to any one of claims 1 to 5, wherein,

The image acquisition device (1200) further comprises a second main board (1220), and the lens (1210) is arranged on the second main board (1220);

The mirror body further comprises a circuit board (1500) and a first main board (1400), wherein the circuit board (1500) is located on the side face of the installation space, and the first main board (1400) and the second main board (1220) are electrically connected through the circuit board (1500).

12. A mirror according to claim 11, wherein the second main board (1220) is provided with at least one reserved bit (1221) for mounting electronic components of a subsequent stage.

13. The mirror according to any one of claims 1-5, further comprising:

The nose pad assembly (1600) is positioned at the nose bridge of a user on the inner side of the shell (1100), and the shape of the nose pad assembly (1600) is adjustable to be fit with the face of the user.

14. The mirror of claim 13, wherein the nose pad assembly (1600) comprises:

a mounting member (1610) having one end detachably connected to the housing (1100);

A support (1620) connected to the other end of the installation member (1610), the shape of the support (1620) being adjustable;

And the attaching sleeve (1630) is sleeved on the outer side of the supporting frame (1620) and is attached to the face of the user.

15. The mirror according to claim 14, wherein the support frame (1620) comprises two side wings (1621) and a middle portion (1622) connecting the two side wings (1621);

The middle part (1622) is connected with the mounting part (1610), the side wing (1621) is provided with at least one through hole (16211), and the shape of the side wing (1621) is adjustable.

16. The mirror of claim 15, wherein the attachment sleeve (1630) has a positioning post disposed therein that mates with the through hole (16211).

17. An eyeglass, comprising:

A mirror as claimed in any one of claims 1 to 16; and

Two glasses legs (2000), and two sides of the glasses body are rotatably provided with one glasses leg (2000).

18. An eyewear system, comprising:

The eyewear of claim 17;

A data line (4000) having one end connected to the glasses;

And the other end of the data line (4000) is connected with the data processor (3000).

19. The eyewear system of claim 18, wherein one end of the data line (4000) is connected to one of the temples (2000), and the other of the temples (2000) is correspondingly connected to one end of a weight line (5000), and the other end of the weight line (5000) is connected to the data line (4000) to form a neck hanging structure.

20. The eyewear system of claim 18, further comprising:

The glasses and the data processor (3000) are arranged on the head-wearing frame, and the head-wearing frame can be worn on the head of a user so that the glasses are positioned at eyes of the face of the user.