CN110221437A

CN110221437A - Temple, mirror holder and glasses

Info

Publication number: CN110221437A
Application number: CN201910518525.7A
Authority: CN
Inventors: 余林蔚
Original assignee: Huawei Technologies Co Ltd
Current assignee: Huawei Technologies Co Ltd
Priority date: 2019-06-15
Filing date: 2019-06-15
Publication date: 2019-09-10
Anticipated expiration: 2039-06-15
Also published as: CN110221437B

Abstract

This application discloses a kind of temple, mirror holder and glasses.Temple includes foreleg part and rear leg section.Leg section can be rotated around an axis relative to foreleg part afterwards, and when rear leg section is rotated relative to foreleg part to a rotation position, and rear leg section can position relative to foreleg part in the rotation position motionless.Leg section can also be moved forward and backward along the direction of axis relative to foreleg part afterwards, and when rear leg section moves partially into a shift position relative to foreleg, and rear leg section positions relative to foreleg part in the shift position motionless.The temple can be applied to the temple of augmented reality (AR) intelligent glasses or virtual reality (VR) intelligent glasses.The application can adjust the chucking power of temple and wrapped, it is ensured that the stability when moving scene is worn increases the usage scenario of glasses, and can be improved different head dummys and the wearing compatibility of head circumference user, increases user group.

Description

Temple, mirror holder and glasses

Technical field

The present invention relates to field of display technology is worn, more particularly, to a kind of temple, mirror holder and glasses.

Background technique

Augmented reality is a kind of by " seamless " the integrated new technology of real world information and virtual world information, is handle Originally it is difficult entity information (visual information, sound, taste, the touching experienced in the certain time spatial dimension of real world Feel etc.), it by science and technology such as computers, is superimposed again after analog simulation, virtual Information application to real world is felt by the mankind Official is perceived, to reach the sensory experience of exceeding reality.One forward position of augmented reality is applied, and is exactly augmented reality intelligence It can glasses.Using intelligent glasses as carrier, a variety of virtual technology information are combined with real operation, training, medical treatment, military affairs, The numerous areas such as industrial production can produce great pushing effect, and getting growing concern for and paying attention to.

Currently, augmented reality intelligent glasses generally use half package morphosis, temple, display screen, nose are generally comprised Support, battery module and frame, total weight are bigger, and provide wearing folder by the deformation of temple itself when wearing Holding force.Wearing clamping is provided when wearing using the augmented reality intelligent glasses of this structure type by the deformation of temple itself It is poor that power may cause stability, to be not suitable for the biggish usage scenario of motion amplitude, and then leads to the adaptation of usage scenario Property is more limited to；Also, the wearing compatibility of different head dummys and head circumference user are poor.

Summary of the invention

The embodiment of the present application provides a kind of temple, mirror holder and glasses, can adjust the chucking power of temple and wrapped, Ensure the stability when moving scene is worn, increase the usage scenario of glasses, and can be improved different head dummys and head circumference use The wearing compatibility at family, the user group that can be applicable in are more extensive.

The embodiment of the present application provides a kind of temple, and the temple includes: foreleg part and rear leg section, the front leg portions For connecting with mirror holder main body, the other end of the foreleg part is connect with one end of the rear leg section for the one end divided, so that Under the action of the external rotational force around an axis is greater than a predetermined rotary force, the rear leg section is around the axis relative to institute It states foreleg part to rotate forward or backwards, and works as rotation any rotation position and external rotational force into multiple rotation positions When less than the predetermined rotary force, the rear leg section is revolved relative to the foreleg part around the axis in the rotation position It is positioned on the direction turned motionless；Wherein, the axis refers to the company being connected by the foreleg part with the rear leg section Socket part divides and along the linearly extended center line of the length direction of the temple.

Temple is arranged to include foreleg part and rear leg section, rear leg section can be revolved around axis with respect to foreleg part Turn, rotation position of the leg section relative to foreleg part on the direction rotated about the axis after can adjusting.

In the mirror holder or eyeglasses-wearing that will apply the temple, back leg section about axis relative to foreleg part rotate to Different rotation positions enables to rear leg section to be held on the different parts on the head of user, after capable of adjusting leg section with The region of the head contact of user and the position of side rear area clamping, so as to adjust the chucking power and package of glasses Property, it in this way can be under common scenarios by the chucking power of back leg partial adjustment to glasses and lesser rotation position wrapped, really The stability and comfort demand that warranty family is worn under common scenarios, and it is possible to by rear leg section tune under moving scene The whole chucking power to glasses and relatively large rotation position wrapped, so as to wearing of the balancing user under moving scene Stability, comfort and safety.That is, can satisfy under same user's different scenes using the glasses of the mirror holder Use, increase usage scenario, i.e. the adaptability of usage scenario is relatively broad.

Meanwhile rotation position of the leg section relative to foreleg part on the direction rotated about the axis after adjusting, to adjust The position that the head of leg section and user clamp after section can ensure in this way when the user of different head dummys and head circumference width wears Stability and comfort demand increase user group so as to improve the wearing compatibility of different head dummys and head circumference user, The user group that can be applicable in is more extensive.And the structure of the temple is simple, it is at low cost.

In some embodiments, between the other end of the foreleg part and described one end of the rear leg section Connection also makes under the action of the outside in the direction along the axis moves that power is predetermined greater than one to move power, it is described after leg Divide and be also moved forward and backward along the direction of the axis relative to the foreleg part, and works as and be moved to any shifting in multiple shift positions When the mobile power in dynamic position and the outside is less than the predetermined mobile power, the rear leg section is in the shift position relative to described Foreleg part positions motionless on the direction of the axis.

Leg section can also be moved forward and backward along the direction of the axis relative to foreleg part afterwards, and mobile when being moved to one It can be positioned on the direction of axis relative to foreleg part when position motionless.Leg section is relative to foreleg after capable of adjusting in this way Part shift position in the axial direction, so as to leg section after adjusting in the axial direction relative to foreleg part Position and temple length.Wear apply the temple mirror holder or glasses when, can satisfy eyes to ear distance The adjusting of different user groups uses, and so as to further increase the wearing compatibility of different head dummys and head circumference user, increases User group is added, i.e., the user group that can be applicable in is more extensive.

And it is possible to shift position of the leg section relative to foreleg part in the axial direction after individually adjusting, with And rotation position of the rear leg section relative to foreleg part on the direction rotated about the axis, by the adjusting for cooperateing with shift position With the adjusting of rotation position, the position that the wearing of glasses is adjusted to a most comfortable by family can be used.

In some embodiments, between the other end of the foreleg part and described one end of the rear leg section Connection is carried out by a temple attitude regulating mechanism；It includes: cylindrical body, rhabodoid that the temple, which adjusts attitude regulating mechanism, And switching part；The cylindrical body is fixed or is integrated relative to the foreleg part, and the rhabodoid is relative to the back leg Part is fixed or is integrated, alternatively, the cylindrical body is fixed or is integrated relative to the rear leg section, the rhabodoid is opposite It fixes or is integrated in the foreleg part；Wherein, the switching part extends along the direction of the axis, and is sheathed on described Outside rhabodoid, and the switching part is being fixed on the direction that the axis rotates relative to the rhabodoid；The switching Component is sheathed in the cylindrical body, and the rhabodoid and the switching part can be around the axis relative to the cylindrical body It is rotated forward or backwards on the direction of rotation, the outside wall surface of the switching part is equipped with outwardly projecting elastic card convex, the cylinder The inner wall of shape body is equipped with along the direction that the axis rotate successively adjacent multiple card slots, and the multiple card slot is for the bar Shape body is rotated relative to the cylindrical body to corresponding multiple rotation positions under the action of the predetermined rotary force around the axis When setting, it is motionless positioning can be closed with the elastic card convex clip respectively.

The rhabodoid switching part that can link is rotated relative to cylindrical body to different multiple rotation positions together, more with this The corresponding multiple card slots in a rotation position fasten with elastic card convex respectively, so as to ensure switching part in corresponding rotation Relative positioning between the indexing place of setting and cylindrical body on the direction rotated about the axis is motionless, and then can be realized rear leg section and exist Relatively fixed on the direction rotated about the axis, leg after can realizing between corresponding rotational position and front leg portions point The multistage of rotation position point between point with front leg portions on the direction rotated about the axis is adjusted, the convenient, flexibility and reliability of operation.And And it can easily realize that rhabodoid switches between different multiple rotation positions with respect to cylindrical body in this way, and right The rotation position answered can be realized reliable positioning, to better ensure that the stability worn under state in the position, improve Use reliability.And structure is simple, production cost is low.

One switching part of additional setting, and switching part is arranged on the direction rotated about the axis opposite rhabodoid and is consolidated Fixed, when rhabodoid is rotated relative to cylindrical body, the switching part that can link is rotated about the axis with respect to cylindrical body together.Work as rotation When going to desired rotation position, is closed by card slot and elastic card convex clip and to realize that switching part and cylindrical body are rotating about the axis It is relatively fixed on direction, so that it is guaranteed that the reliable location in the rotation position.Mill is generated in the case where repeatedly adjusting use When damage, directly replacement switching part, use cost are lower.

In some possible embodiments, multiple card slots and elastic card convex can be directly arranged at be formed in rear leg section and On foreleg part.For example, elastic card projection can be placed in rear leg section, corresponding multiple card slots are set to foreleg part；Or Elastic card projection, can be placed in foreleg part by person, and corresponding multiple card slots are set to rear leg section.

In some possible embodiments, multiple card slots and elastic card convex can be formed in switching part and rhabodoid, and It will be arranged to relatively fixed on the direction rotated about the axis between cylindrical body and switching part, enable rhabodoid around axis phase Switching part and cylindrical body are rotated integrally.It is rotated relative to switching part and cylindrical body to desired rotation position in rhabodoid When setting, the cooperation of multiple card slots and elastic card convex can be limited between rhabodoid and switching part on the direction of rotation around axis Relative rotation, so as to realize that rhabodoid and cylindrical body are relatively fixed on the direction rotated about the axis, so that it is guaranteed that Reliable location in rear leg section relative to foreleg part in the rotation position.

In some embodiments, between the other end of the foreleg part and described one end of the rear leg section Connection is carried out by a temple attitude regulating mechanism；It includes: cylindrical body, rhabodoid that the temple, which adjusts attitude regulating mechanism, And switching part；The cylindrical body is fixed or is integrated relative to the foreleg part, and the rhabodoid is relative to the back leg Part is fixed or is integrated, alternatively, the cylindrical body is fixed or is integrated relative to the rear leg section, the rhabodoid is opposite It fixes or is integrated in the foreleg part；Wherein, the switching part extends along the direction of the axis, and is sheathed on described Outside rhabodoid, and the switching part is being fixed on the direction that the axis rotates relative to the rhabodoid；

The switching part is sheathed in the cylindrical body, and the rhabodoid and the switching part are relative to the tubular Body can rotate forward or backwards on the direction that the axis rotates, and the outside wall surface of the switching part is equipped with outwardly projecting Elastic card convex, the inner wall of the cylindrical body is equipped with along the direction that the axis rotates successively adjacent multiple card slots, described more A card slot for the rhabodoid under the action of the predetermined rotary force around the axis relative to the cylindrical body rotate to When corresponding multiple rotation positions, it is motionless positioning can be closed with the elastic card convex clip respectively；

The switching part is fixed on the direction along the axis relative to the cylindrical body, the rhabodoid relative to The cylindrical body and the switching part can be moved forward and backward on the direction along the axis, and the inner wall of the switching part is set There is an elastic card convex outstanding, the outside wall surface of the rhabodoid, which is equipped with, to be recessed inwardly and successively adjacent more along the direction of the axis A card slot, the multiple card slot on the rhabodoid are used for rhabodoid edge under the action of the predetermined mobile power It, can be respectively and positioned at the switching when direction of the axis is moved to corresponding multiple shift positions relative to the cylindrical body It is motionless that the elastic card convex clip on the inner wall of component closes positioning.

The rhabodoid switching part that can link is rotated relative to cylindrical body to different multiple rotation positions together, more with this The corresponding multiple card slots on the cylindrical body inner wall in a rotation position respectively with the bullet that is located in switching part outside wall surface Property card convex fastens, so as to ensure that switching part is rotating about the axis between corresponding rotational position and cylindrical body Relative positioning on direction is motionless, so can be realized rear leg section point between corresponding rotational position and front leg portions around It is relatively fixed on the direction of axis rotation, in the direction rotated about the axis between leg section and front leg portions are divided after can realizing On the multistage of rotation position adjust, operate convenient, flexibility and reliability.Also, rhabodoid phase can be easily realized in this way Cylindrical body is switched between different multiple rotation positions, and can be realized reliable positioning in corresponding rotation position, from And better ensure that the stability worn under state in the position, improve use reliability.And structure is simple, production cost It is low.

Rhabodoid is moved to different multiple shift positions relative to switching part and cylindrical body, with multiple shift position Corresponding multiple card slots in rhabodoid outside wall surface mutually block with the elastic card convex being located on switching part inner wall respectively It closes, so as to ensure switching part in the axial direction relatively fixed between rhabodoid at corresponding shift position, It is relatively fixed on the direction of axis rotation between cylindrical body at corresponding shift position to can be realized rhabodoid in turn, The multistage of shift position after can realizing point between leg section and front leg portions in the axial direction is adjusted, operate it is convenient, Flexibility and reliability.And it is possible to better ensure that rear leg section is able to maintain under the shift position state, improve using reliable Property.

One switching part of additional setting, and switching part is arranged on the direction rotated about the axis opposite rhabodoid and is consolidated Fixed, when rhabodoid is rotated relative to cylindrical body, the switching part that can link is rotated about the axis with respect to cylindrical body together.Work as rotation When going to desired rotation position, pass through card slot and the elasticity in switching part outside wall surface being located on cylindrical body inner wall Card convex engaging realizes that switching part and cylindrical body are relatively fixed on the direction rotated about the axis, so that it is guaranteed that in the rotation position The reliable location set.When rhabodoid moves in the axial direction relative to cylindrical body, rhabodoid also can be relative to switching part When moving in the axial direction.When being moved to desired shift position, pass through the card slot being located in rhabodoid outside wall surface and position Limitation switching part and rhabodoid in the axial direction relatively fixed are closed in the elastic card convex clip on switching part inner wall, from And ensure the reliable location in the shift position, to better ensure that the stability worn under state in the position, improve Use reliability.Repeatedly adjust use in the case where generate abrasion when, directly replace switching part, use cost compared with It is low.

In addition, elasticity card convex described herein (including the elastic card convex being located in switching part outside wall surface and is located at switching Elastic card convex on member internal walls face), what is referred to maintains the fastener of snap-fit relationship with elastic force in the prior art, as long as applying one A external force greater than elastic force can release snap-fit relationship.

By realizing the multiple card slots of rotational positioning being located on cylindrical body inner wall and being located in switching part outside wall surface Elastic card convex cooperation and realize running fix be located at rhabodoid outside wall surface on multiple card slots be located at switching part in The synergistic effect of the cooperation of elastic card convex on wall surface can more reliably realize the rear leg section of temple relative to front leg portions The independent independent adjusting adjusted with rotation position for the shift position divided, so as to adjust glasses to position the most comfortable It sets.

Needing to adjust rhabodoid relative to cylindrical body at the shift position in the axial direction, be applied to rhabodoid or The mobile power in an outside of cylindrical body in the axial direction, rhabodoid are whole in the axial direction relative to switching part and cylindrical body It is mobile, thus the shift position between leg section and front leg portions are divided after adjusting in the axial direction.

It is needing to adjust rhabodoid relative to cylindrical body at the rotation position on the direction rotated about the axis, is being applied to bar The external rotational force power of shape body or cylindrical body on the direction rotated about the axis, rhabodoid linkage rotation are whole relative to cylindrical body Body rotates about the axis, thus the rotation position between leg section and front leg portions are divided after adjusting on the direction rotated about the axis.

That is, temple using the above structure, can be more convenient, reliably individually adjust shift position and rotation position It sets, to guarantee its synergistic effect, and can be avoided shift position and adjust what the generation between the adjusting of rotation position interfered Effect, improves the controllability of user's operation.

In some embodiments, the cylindrical body for the foreleg part comprising the other end including back segment institute It is formed, the rhabodoid is to be less than the one end from one end of the rear leg section with lateral dimension to prolong along the direction of the axis It stretches and to be formed；Alternatively, the cylindrical body be it is described after leg section comprising described one end including leading portion be formed by, it is described Rhabodoid is to be less than the other end from the other end of the foreleg part with lateral dimension to extend to form along the direction of the axis 's.

In some embodiments, the multiple card slot on the inner wall for being located at the cylindrical body is respectively and positioned at described The elastic card convex clip in the outside wall surface of switching part closes in multiple rotation positions at place, the card slot positioned at two ends One of card slot and the elastic card convex clip close where head end rotational position, it is described after leg section and the user The chucking power on head is minimum, the tail end rotational position where another described card slot and elastic card convex clip conjunction, after described The chucking power on the head of leg section and the user is maximum.

When rhabodoid is rotated relative to cylindrical body to head end rotation position, back leg, which is partially in when user wears, usually to be made It is at this location, relatively small using the mirror holder of the temple and the chucking power of glasses with the rotational position of state, usually it is applicable in In common scenarios.When rhabodoid is rotated relative to cylindrical body to tail end rotation position, using the mirror holder and glasses of the temple Chucking power and maximum wrapped are commonly available to the biggish moving scene of motion amplitude.Predetermined angle range may be implemented in this way Interior rotation angular adjustment, adjustable chucking power with it is wrapped, glasses can be adjusted to when wearing by user according to demand Desired position operates more flexible, reliable.

In some embodiments, it is revolved when the rhabodoid is rotated relative to the cylindrical body to the head end around the axis When indexing is set, the rear leg section can only be held on the ear on the head of the user.

In some embodiments, when the rhabodoid is rotated relative to the cylindrical body to its outside head end around the axis When his rotation position, the rear leg section can be clamped on distinguishing with other described rotation positions for the brain on the head of the user Corresponding different parts.

In some embodiments, the bullet being located in the switching part with setting in the outside wall surface of the switching part Property the corresponding inner wall of card convex have recessed portion.It enables to be located at the outer of switching part in the wall of switching part with setting in this way The corresponding part of elastic card convex on wall surface is also easy to produce flexible deformation, so that in the case where by certain active force, bullet Property card convex can generate flexible deformation, and then rotation can be skidded off from the card slot to fasten in another card slot, it is ensured that The operability of the rotation position of leg section after user is adjusted.

In some embodiments, the elastic card projection is placed in the switching part along the length side of the switching part The outside wall surface of upward one end.Elastic card convex is made to be more prone to produce flexible deformation in this way.

In some embodiments, in the bullet in the outside wall surface positioned at the switching part in the switching part Hollow-out parts are provided on the wall of property card convex, to be formed with the bridge shape structure circumferentially moved towards, the elastic card projection is in the circumferential direction In the bridge shape structure of trend.It can further increase in this way and generate elasticity in the bridge shape structure circumferentially moved towards that elastic card convex is set The degree of deformation, and then further increase the operability of the rotation position of leg section after user is adjusted.

In some embodiments, the bullet being located in the switching part with setting on the inner wall of the switching part Property the corresponding outside wall surface of card convex on there is the recess portion that is recessed inwardly.It can be improved to be located in the wall of switching part with setting in this way and turn The corresponding part of elastic card convex on the inner wall of relay part is also easy to produce flexible deformation, so that by certain active force In the case of, elastic card convex can generate flexible deformation, and then rotation can be skidded off from the card slot to fasten to another card In slot, it is ensured that the operability of the shift position of leg section after user is adjusted.

In some embodiments, in the bullet on the inner wall positioned at the switching part in the switching part Property card convex wall on use engraved structure, to form the bridge shape structure axially moved towards, the elastic card projection is walked in the axial direction To bridge shape structure on.The flexible deformation that the bridge shape structure axially moved towards that elastic card convex is arranged can be further increased in this way is empty Between, so that more labor-saving when realizing that shift position is adjusted.

In some embodiments, the face matched between the outside wall surface of the rhabodoid and the inner wall of the switching part Using fool proof face, to limit between the switching part and the rhabodoid in rotation opposite on the direction that the axis rotates Turn, but can be relatively moved along the direction of the axis between the switching part and the rhabodoid.Fool proof face can be preferably Limit the relative rotary motion between switching part and rhabodoid on the direction rotated about the axis.And can ensure rhabodoid with The correct installation position of switching part.

In some embodiments, the temple attitude regulating mechanism further includes limiting device, and the limiting device includes limit Position fastener and limiting slot, the limiting slot is set to the outside wall surface of the rhabodoid, and extends along the direction of the axis；Institute It states limit fastener and is removably mounted to the switching part, and the limit fastener extends in the limiting slot；Institute Rhabodoid is stated relative to the switching part when moving on the direction along the axis, the limit fastener can be described Sliding in limiting slot；When the rhabodoid slides into the position that leans of end of the limit fastener and the limiting slot When, the rhabodoid moving towards the separate cylindrical body direction relative to the switching part on the direction along the axis Movement is limited.It can guarantee to limit fastener when making a relative move in the axial direction in rhabodoid and cylindrical body in this way And interference effect is generated, while rear leg section can also be avoided to skid off foreleg part.

In some embodiments, the limit fastener is being connected to the limiting slot on the direction that the axis rotates Two sides so that the rhabodoid is relative to the switching part fixed on the direction that the axis rotates.Limit fastening Part can further limit the relative rotary motion between switching part and rhabodoid on the direction rotated about the axis.

In some embodiments, the cylindrical body further includes positive stop lug boss, and the positive stop lug boss is protrudingly placed on the cylindrical body Inner wall predetermined position, be directed away from the cylinder relative to the cylindrical body along the direction of the axis in the rhabodoid When the direction of shape body is moved to the position for abutting the positive stop lug boss, the rhabodoid is relative to the cylindrical body in the axis Direction on be directed away from the cylindrical body the moving movement in direction limited.

In some embodiments, be formed in the cylindrical body Spline smoothing diameter be greater than other parts chamber rank Jump chamber, and the switching part is located in the step chamber, and can in the step chamber around the axis relative to The cylindrical body rotation；The step wall surface at the both ends of the step chamber can limit the cylindrical body and the switching part it Between relatively moved on the direction along the axis.It can more reliably realize switching part relative to cylindrical body on edge in this way Fixation on the direction of axis.

In some embodiments, after described leg section include the length direction of leg section after described that is integrally formed successively The straightway and bending section of setting, the straightway constitute described the one of the rear leg section far from one end of the bending section End, the bending section constitute the other end of the rear leg section far from one end of the straightway, and the bending section is used for It is clamped with the head of the user.

In some embodiments, temple of the temple for augmented reality intelligent glasses or virtual reality intelligent glasses.

The embodiment of the present application also provides a kind of temple, the temple includes foreleg part and rear leg section, the foreleg For connecting with mirror holder main body, the other end of the foreleg part is connect with one end of the rear leg section for partial one end, is made Under the action of the outside in the direction along an axis moves that power is predetermined greater than one to move power, it is described after leg section along the axis Direction be moved forward and backward relative to the foreleg part, and when being moved in multiple shift positions any shift position and described outer When the mobile power in portion is less than the predetermined mobile power, the rear leg section is in the shift position relative to the foreleg part along institute State positioned on the direction of axis it is motionless；Wherein, the axis, which refers to, is connected by the foreleg part with the rear leg section Coupling part and along the linearly extended center line of the length direction of the temple.

Implement the embodiment of the present application, temple is arranged to include foreleg part and rear leg section, can easily be adjusted Shift position of the leg section relative to foreleg part in the axial direction after section, so that between rear leg section and front leg portions point Distance can be conditioned, wear apply the temple mirror holder or glasses when, can satisfy eyes to ear distance difference User group adjusting use, so as to further increase different head dummys and head circumference user wearing compatibility, increase User group, i.e., the user group that can be applicable in are more extensive.

In some embodiments, between the other end of the foreleg part and described one end of the rear leg section Connection is carried out by a temple attitude regulating mechanism；It includes: cylindrical body, rhabodoid that the temple, which adjusts attitude regulating mechanism, And switching part；The cylindrical body is fixed or is integrated relative to the foreleg part, and the rhabodoid is relative to the back leg Part is fixed or is integrated, alternatively, the cylindrical body is fixed or is integrated relative to the rear leg section, the rhabodoid is opposite It fixes or is integrated in the foreleg part；Wherein, the switching part extends along the direction of the axis, and is sheathed on described Outside rhabodoid, and the switching part is sheathed in the cylindrical body, and relative to the cylindrical body in the side along the axis It is fixed upwards；

The rhabodoid relative to the cylindrical body and the switching part can on the direction along the axis before move back Dynamic, the inner wall of the switching part is equipped with elastic card convex outstanding, and the outside wall surface of the rhabodoid is equipped with the simultaneously edge that is recessed inwardly The direction of the axis successively adjacent multiple card slots, the multiple card slot is for the rhabodoid in the predetermined mobile power When the direction of axis described in effect lower edge is moved to corresponding multiple shift positions relative to the cylindrical body, can respectively with it is described It is motionless that elastic card convex clip closes positioning.

One switching part of additional setting, when rhabodoid moves in the axial direction relative to cylindrical body, rhabodoid also can When being moved in the axial direction relative to switching part.When being moved to desired shift position, by being located at rhabodoid outer wall Card slot on face closes limitation switching part and rhabodoid with the elastic card convex clip being located on switching part inner wall in axis direction On it is relatively fixed, so that it is guaranteed that the reliable location in the shift position, wears under state in the position to better ensure that Stability, improve use reliability.When generating abrasion in the case where repeatedly adjusting use, directly replacing switching part is Can, use cost is lower.

In addition, elasticity card convex described herein, what is referred to maintains the fastener of snap-fit relationship with elastic force in the prior art, only Snap-fit relationship can be released by applying the external force that one is greater than elastic force.

In some possible embodiments, multiple card slots and elastic card convex can be set in switching part and cylindrical body it Between, relatively fixed in the axial direction between rhabodoid and switching part, rhabodoid and switching part integrally can be along axis sides To relative to cylindrical body movement.When rhabodoid and switching part are integrally moved to desired shift position relative to cylindrical body, The cooperation of multiple card slots and elastic card convex can limit rhabodoid and switching part relative to cylindrical body movement, so as to realize Rhabodoid and cylindrical body in the axial direction relatively fixed, so that it is guaranteed that rear leg section is relative to foreleg part in the movement position The reliable location set.

In some embodiments, corresponding with elastic card convex is arranged outside wall surface has and is recessed inwardly in the switching part Recess portion.It can be improved portion corresponding with elastic card convex of the setting on the inner wall of switching part in the wall of switching part in this way Divide and is also easy to produce flexible deformation, so that elastic card convex can generate flexible deformation in the case where by certain active force, into And it can be skidded off from the card slot to fasten in rotation to another card slot, it is ensured that the shift position of leg section after user is adjusted Operability.

In some embodiments, engraved structure is used on the wall close to the elastic card convex in the switching part, with The bridge shape structure axially moved towards is formed, the elastic card projection is in the bridge shape structure axially moved towards.It in this way can be into one Step improves the elastic deformation space that the bridge shape structure of elastic card convex axially moved towards is arranged, so that when realizing that shift position is adjusted It is more labor-saving.

The embodiment of the present application also provides a kind of mirror holder, and the mirror holder includes: mirror holder main body, and the mirror holder main body is for fixing Eyeglass；With at least one temple, the temple uses the temple provided such as any of the above embodiment or possible embodiment, Described one end of the foreleg part of the temple is connect with the mirror holder main body.

The embodiment of the present application also provides a kind of glasses, and the glasses include: such as any of the above embodiment or possible The mirror holder that embodiment provides；Eyeglass, the eyeglass are fixed on the mirror holder main body of the mirror holder.

Using the glasses for the mirror holder that the possible embodiment of such as any of the above provides, when wearing, leg after capable of adjusting Rotation position of the split-phase for foreleg part on the direction rotated about the axis, the head of leg section and user after can adjusting The region of clamping so as to adjust the chucking power of glasses and wrapped, and then can satisfy under same user's different scenes It uses, increases usage scenario.Simultaneously, additionally it is possible to ensure the stability when user of different head dummys and head circumference width wears and relax Adaptive demand increases user group so as to improve the wearing compatibility of different head dummys and head circumference user.

When wearing, shift position of the leg section relative to foreleg part in the axial direction after capable of adjusting, from And leg section can satisfy eyes in the axial direction relative to the position of foreleg part and the length of temple after capable of adjusting The adjusting of the user group different to the distance of ear uses, and then can further increase the pendant of different head dummys and head circumference user Compatibility is worn, user group is increased.

In some embodiments, the glasses are augmented reality intelligent glasses or virtual reality intelligent glasses.

Detailed description of the invention

It, below will be to specific in order to illustrate more clearly of the application specific embodiment or technical solution in the prior art Embodiment or attached drawing needed to be used in the description of the prior art be briefly described, it should be apparent that, it is described below Attached drawing is some embodiments of the application, for those of ordinary skill in the art, before not making the creative labor It puts, is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of schematic perspective view of intelligent glasses of the embodiment of the present application, wherein rear leg section is relative to preceding Leg section is in the position that rotation angle is 0 ° and tensile elongation is 0；

Fig. 2 a-2d is the structural representation under a kind of different perspectives state of the intelligent glasses of the embodiment of the present application when wearing Figure；

Fig. 3 is a kind of decomposition texture schematic diagram (one) of intelligent glasses of the embodiment of the present application, wherein rear leg section is opposite The rotation position that rotation angle is 0 ° is partially in foreleg；

Fig. 4 is a kind of overlooking structure diagram (one) of intelligent glasses of the embodiment of the present application, wherein rear leg section is opposite The position that rotation angle is 0 ° and tensile elongation is 0 is partially in foreleg；

Fig. 5 is a kind of side structure schematic view (one) of intelligent glasses of the embodiment of the present application, wherein rear leg section is opposite The position that rotation angle is 0 ° and tensile elongation is 0 is partially in foreleg；

Fig. 6 is the schematic cross-sectional view in Fig. 5 along A-A；

Fig. 7 is the enlarged structure schematic diagram of C portion in Fig. 6；

Fig. 8 is the decomposition texture signal under a kind of another visual angle state of the temple of intelligent glasses of the embodiment of the present application Figure, wherein rear leg section is partially in the rotation position that rotation angle is 0 ° relative to foreleg；

Fig. 9 is the enlarged structure schematic diagram of the part I in Fig. 8；

Figure 10 is a kind of schematic perspective view of the switching part of the temple of intelligent glasses of the embodiment of the present application.

Figure 11 is the schematic cross-sectional view in Fig. 5 along B-B；

Figure 12 is the enlarged structure schematic diagram of the part D in Figure 11；

Figure 13 is a kind of decomposition texture schematic diagram (two) of intelligent glasses of the embodiment of the present application, wherein rear leg section phase The rotation position that rotation angle is 90 ° is partially in for foreleg；

Figure 14 is a kind of overlooking structure diagram (two) of intelligent glasses of the embodiment of the present application, wherein rear leg section phase The position that rotation angle is 90 ° and tensile elongation is 0 is partially in for foreleg；

Figure 15 is a kind of side structure schematic view (two) of intelligent glasses of the embodiment of the present application, wherein rear leg section phase The position that rotation angle is 90 ° and tensile elongation is 0 is partially in for foreleg；

Figure 16 is the decomposition texture schematic diagram of another intelligent glasses of the embodiment of the present application；

Figure 17 is the side structure schematic view of another intelligent glasses of the embodiment of the present application；

Figure 18 is the schematic cross-sectional view in Figure 17 along E-E；

Figure 19 is the enlarged structure schematic diagram of the part G in Figure 18；

Figure 20 is the schematic cross-sectional view in Figure 17 along F-F；

Figure 21 is the enlarged structure schematic diagram of the part H in Figure 20.

Description of symbols:

100: intelligent glasses；

200: mirror holder；220: mirror holder main body；240: eyeglass；

300: temple；

400: temple attitude regulating mechanism

500: foreleg part；510: one end；520: the other end；530: accommodating chamber；540: step chamber；550: step wall Face；560: cylindrical body；

600: rear leg section；610: one end；620: the other end；630: straightway；640: bending section；650: rhabodoid；

700: switching part；710: recess portion；720: engraved structure；730: recessed portion；740: hollow-out parts；

800: running fix component；810: the first elastic card convexs；820: the first card slots；

900: rotational positioning component；910: the second elastic card convexs；912: the second card slots；

920: limiting device；922: limit fastener；924: limiting slot；926: positive stop lug boss；928: flange；

930: damped part；

950: default rotary area；952: head end rotation position；954: tail end rotation position；

960: the width direction of intelligent glasses；

970: the short transverse of intelligent glasses；

980: user；982: head；

O: axis.

Specific embodiment

Presently filed embodiment is illustrated by particular specific embodiment below, those skilled in the art can be by this specification Revealed content understands other advantages and effect of the application easily.Although the description of the present application will combine preferred embodiment It introduces together, but this feature for not representing this application is only limitted to the embodiment.On the contrary, applying in conjunction with embodiment work The purpose of introduction is to be possible to the other selections extended or transformation to cover based on claims hereof.In order to mention For to the application depth understand, be described below in will include many concrete details.The application can also be thin without using these Section is implemented.In addition, in order to avoid the emphasis of chaotic or fuzzy the application, some details will be omitted in the de-scription.It needs Illustrate, in the absence of conflict, the features in the embodiments and the embodiments of the present application can be combined with each other.

It should be noted that in the present specification, similar label and letter indicate similar terms in following attached drawing, because This does not need then to carry out further defining reconciliation to it in subsequent attached drawing once being defined in a certain Xiang Yi attached drawing It releases.

It is clearly and completely described below in conjunction with technical solution of the attached drawing to the application, it is clear that described implementation Example is some embodiments of the present application, instead of all the embodiments.Based on the embodiment in the application, ordinary skill Personnel's every other embodiment obtained without making creative work, shall fall in the protection scope of this application.

In the description of the present application, it should be noted that term " center ", "upper", "lower", "left", "right", "vertical", The orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" be based on the orientation or positional relationship shown in the drawings, merely to Convenient for describe the application and simplify description, rather than the device or element of indication or suggestion meaning must have a particular orientation, It is constructed and operated in a specific orientation, therefore should not be understood as the limitation to the application.In addition, term " first ", " second " are only For descriptive purposes, it is not understood to indicate or imply relative importance.

In the description of the present application, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in application.

Implementation to keep the purposes, technical schemes and advantages of the application clearer, below in conjunction with attached drawing to the application Mode is described in further detail.

- Fig. 2 d referring to Figure 1, Fig. 1 show a kind of schematic knot of intelligent glasses 100 provided by the embodiments of the present application Structure, Fig. 2 a- Fig. 2 d show the signal under a kind of different perspectives state of the intelligent glasses 100 of the embodiment of the present application when wearing Graph structure.When intelligent glasses 100 are worn on the head 982 of user 980, user 980 can see the eyeglass of intelligent glasses 100 240 images presented.In the present embodiment, intelligent glasses 100 are augmented reality intelligent glasses, can be watched in user 980 While real-world scene, virtual image is shown for user 980, user 980 can also interact to reality with virtual image The effect of existing augmented reality.

It should be understood that the embodiment of the present application is introduced so that intelligent glasses 100 are augmented reality intelligent glasses as an example, but It is that the certain embodiments of the embodiment of the present application are not limited to augmented reality (AR) intelligent glasses, can also be other Brilliant Eyes Mirror, for example realize the intelligent glasses of virtual reality (VR) effect or realize the intelligent glasses of mixed reality (MR) effect.

As shown in Fig. 1-Fig. 2 d, intelligent glasses 100 include mirror holder 200 and eyeglass 240.Mirror holder includes 220 He of mirror holder main body It is respectively arranged at two temples 300 of 220 two sides of mirror holder main body.Eyeglass 240 is fixed on mirror holder main body 220.Each temple 300 is adopted The temple 300 provided by following any embodiments and possible embodiment.

It will be understood by those skilled in the art that with intelligent glasses 100 include a pair of of temple in the embodiment of the present application, i.e., two It is introduced for temple, but the embodiment of the embodiment of the present application is not limited to the intelligent glasses using two temples, It can also be that a temple is using the mirror of the application structure in the mirror holder for using a temple or intelligent glasses or two temples Frame or intelligent glasses.And the embodiment of the embodiment of the present application is not limited to intelligent glasses, is also possible to common glasses.

In addition, this is to temple 300 using symmetrical design and construction.It should be noted that the structure of two temples 300 can With identical, can also be different.

Below in conjunction with Fig. 3-Figure 15 mainly to an embodiment of a temple 300 in the mirror holder 200 of intelligent glasses 100 Structure be described.

Fig. 3-Fig. 5 shows the schematic knot under a kind of different perspectives state of intelligent glasses 100 of the embodiment of the present application Structure, wherein the rear leg section 600 of temple 300 is 0 ° in rotation angle relative to foreleg part 500 and tensile elongation is 0 Position.Fig. 6-Figure 12 shows the partial sectional view and magnified partial view of the intelligent glasses 100 of the embodiment of the present application, mainly shows The rear leg section 600 of temple 300 and the schematic structure of 500 join domain of foreleg part are gone out.Figure 13-Figure 15 shows this Shen Please embodiment a kind of intelligent glasses 100 different perspectives state under schematic structure, wherein the rear leg section of temple 300 600 are in the position that rotation angle is 90 ° and tensile elongation is 0 relative to foreleg part 500.

As shown in Figure 3-Figure 5, temple 300 uses two-part structure comprising the length direction along temple 300 is set gradually Foreleg part 500 and rear leg section 600.One end 510 of foreleg part 500 is connected to mirror holder main body 220, rear leg section 600 One end 610 be connected to the other end 520 of foreleg part 500.As shown in figure 3, the foreleg part 500 of temple 300 is i.e. close to simultaneously For connecting that section of temple 300 of mirror holder main body 220, the rear leg section 600 of temple 300 is that section on the right side of Fig. 3 Temple 300.One end 510 of foreleg part 500 is one end close and for connecting mirror holder main body 220 in foreleg part 500, The other end 520 of foreleg part 500 is in foreleg part 500 far from mirror holder main body 220 and one end with leg section 600 after connection Portion.One end 610 of leg section 600 is in rear leg section 600 for connecting the one end of foreleg part 500, rear leg section 600 afterwards The other end 620 be rear leg section 600 in far from foreleg part 500 one end.

Leg section 600 includes 630 He of straightway set gradually along the length direction of rear leg section 600 being integrally formed afterwards Bending section 640, one end 610 of rear leg section 600 are located at the straightway 630, and the other end 620 of rear leg section 600 is located at curved Tune 640.The bending section is used to clamp with the head of the user.That is, straightway 630 is far from bending section 640 One end 610 of leg section 600 after one end is constituted, the institute of leg section 600 after bending section 640 is constituted far from one end of straightway 630 State the other end 620.

The foreleg part 500 of temple 300 and rear leg section 600 can be made of light material, to mitigate weight as far as possible Amount.Such as, but not limited to, plastics, aluminium alloy, titanium alloy or carbon fiber etc. light material can be used, while keeping enough strong Degree.

As shown in Fig. 6-Figure 12, rear leg section 600 can be moved forward and backward along the direction of axes O relative to foreleg part 500, So that rear leg section 600 can switch between different multiple shift positions relative to foreleg part 500.In rear leg section 600 when being moved to desired shift position relative to foreleg part 500, along axis between rear leg section 600 and foreleg part 500 Relative translative movement on the direction of line O can be limited, so that leg section 600 is relative to foreleg part 500 on edge after realizing It is positioned on the direction of axes O.Axes O refers to the coupling part being connected by foreleg part 500 with rear leg section 600, and edge The linearly extended center line of the length direction of temple.

Under the action of the outside in the direction along axis moves that power is predetermined greater than one to move power, rear leg section 600 is along axis The direction of line O is moved forward and backward with respect to foreleg part 500, and is worked as and be moved to any shift position and external shifting in multiple shift positions When power is less than predetermined mobile power, rear leg section 600 the shift position relative to foreleg part 500 on the direction of axes O Positioning.So that rear leg section 600 can switch between different multiple shift positions with respect to foreleg part 500, it can Shift position of the leg section 600 relative to foreleg part 500 on the direction along axes O after enough adjustings, after adjusting Leg section 600 is on axes O direction relative to the position of foreleg part 500 and the length of temple 300.The mirror is used wearing When the intelligent glasses 100 of leg 300, the adjusting of the different user group of the distance that can satisfy eyes to ear is used, so as to Different head dummys and the wearing compatibility of head circumference user are enough further increased, user group, i.e., the user group that can be applicable in are increased Body is more extensive.

The desired shift position of user is moved to relative to foreleg part 500 along the direction of axes O in rear leg section 600 When, the relative movement between rear leg section 600 and foreleg part 500 on the direction of axes O can be limited, and can be realized Relative positioning between leg section 600 and foreleg part 500 on the direction along axes O afterwards, so that rear leg section 600 are capable of fixing relative to foreleg part 500 in desired shift position on the direction along axes O, it is ensured that adjusting can By property.

Leg section 600 is moved to different shift positions relative to foreleg part 500 along the direction of axes O afterwards, can make The tensile elongation for obtaining temple 300 is different.As shown in fig. 7, when after leg section 600 along the direction of axes O relative to foreleg part 500 When being moved to head end shift position, the tensile elongation of temple 300 is 0, i.e. tensile elongation is in the smallest position.When after leg section 600 when being moved to tail end shift position relative to foreleg part 500 along the direction of axes O, and the tensile elongation of temple 300 is in most Big position.

It will be understood by those skilled in the art that the company of one end of the other end 520 of foreleg part 500 and rear leg section 600 Connecing also can be set into, so that under the action of the outside in the direction along axis moves that power is predetermined greater than one to move power, rear leg Divide 600 can move relative to foreleg part 500 in head end shift position to front and back between tail end shift position along the direction of axes O It is dynamic, and be less than when being moved to the mobile power in head end shift position to any one shift position between tail end shift position and outside When predetermined mobile power, rear leg section 600 can position on the direction of axes O relative to foreleg part 500.It may be implemented in this way The adjusting of any shift position.In addition, the connection of one end of the other end 520 of foreleg part 500 and rear leg section 600 is arranged At so that rear leg section 600 can also be around the axes O under the action of external rotational force around axis is greater than predetermined rotary force It is rotated forward or backwards relative to foreleg part 500, so that rear leg section 600 can be relative to foreleg part 500 different Switch between multiple rotation positions, leg section 600 is relative to foreleg part 500 around the side that axes O rotates after can adjusting Upward rotation position.When after leg section 600 rotate to desired rotation position and external rotational force relative to foreleg part 500 When less than predetermined rotary force, rear leg section 600 and the relative rotary motion of the spaced winding axes O of foreleg part 500 can be limited, To motionless in the relative positioning on the direction that axes O rotates between leg section 600 and foreleg part 500 after realization.

Leg section 600 is rotated relative to foreleg part 500 to different rotation positions around axes O afterwards, enables to back leg Part 600 is held on the different parts on the head of user.As shown in Fig. 3-Figure 12, when after leg section 600 around axes O relative to preceding When the rotation of leg section 500 is to head end rotation position 952 (referring to Figure 12), rear leg section 600 is supported in and is clamped in the head of user The ear in portion, and rear leg section 600 and the chucking power on head are in the smallest position.As shown in Figure 13-Figure 15, when after leg section 600 around axes O relative to foreleg part 500 when rotating to tail end rotation position 954 (referring to Figure 12), and rear leg section 600 supports In and be clamped in user head brain, and rear leg section 600 and the chucking power on head are in maximum position.

Wear use the temple 300 mirror holder 200 or intelligent glasses 100 when, after capable of adjusting leg section 600 relative to Foreleg part 500 is in the rotation position on the direction that axes O rotates, the head of adjustable so rear leg section 600 and user The position of portion's clamping, so as to adjust the chucking power of intelligent glasses 100 and wrapped, in this way can under common scenarios will after Leg section 600 is adjusted to the chucking power of intelligent glasses 100 and lesser rotation position wrapped, it is ensured that user is under common scenarios The stability and comfort demand of wearing.And it is possible to which rear leg section 600 is adjusted to the chucking power of glasses under moving scene With relatively large rotation position wrapped, stability, comfort so as to wearing of the balancing user under moving scene And safety.That is, can satisfy using the intelligent glasses 100 of the temple 300 is made under same user's different scenes With increasing usage scenario, i.e. the adaptability of usage scenario is relatively broad.

Meanwhile after adjusting leg section 600 relative to foreleg part 500 in the rotation position on the direction that axes O rotates, To the position that the head of leg section 600 and user clamp after adjusting, it can ensure the use of different head dummys and head circumference width in this way Stability and comfort demand when family is worn increase so as to improve the wearing compatibility of different head dummys and head circumference user User group, i.e., the user group that can be applicable in are more extensive.And the structure of the temple 300 is simple, it is at low cost.

And it is possible to individually adjust after leg section 600 relative to foreleg part 500 moving on the direction along axes O Position, and after individually adjusting leg section 600 relative to foreleg part 500 in the rotation position on the direction that axes O rotates, By cooperateing with the adjusting of shift position and the adjusting of rotation position, family can be used by the wearing of intelligent glasses 100 and be adjusted to one The position of a the most comfortable.

It will be understood by those skilled in the art that one end 610 of the other end 520 of foreleg part 500 and rear leg section 600 Connection also can be set into, also make under the action of external rotational force is greater than a predetermined rotary force, rear leg section 600 can be around The direction of axes O rotation is moved in head end rotation position between tail end rotation position forward or backwards relative to foreleg part 500 It is dynamic, and be less than when being moved to the mobile power in head end rotation position to any one rotation position between tail end rotation position and outside When predetermined rotary force, rear leg section 600 can position on the direction that axes O rotates motionless relative to foreleg part 500.In this way The adjusting of any rotation position may be implemented.

The structure adjusted below to the shift position of temple 300 is introduced and illustrates.

As shown in Fig. 3-Figure 12, the other end 520 of foreleg part 500 and the connection of one end 610 of rear leg section 600 are logical Cross the progress of temple attitude regulating mechanism 400.As shown in Fig. 3 and Fig. 7-10, temple attitude regulating mechanism 400 includes cylindrical body 560, rhabodoid 650 and switching part 700.Cylindrical body 560 is equipped with the accommodating chamber 530 extended along the direction of axes O.Rhabodoid 650 extend in accommodating chamber 530 along the direction of axes O, and one end of rhabodoid 650 is free end.Cylindrical body 560 is foreleg Part 500 is formed by comprising the back segment including the institute of the other end 520, and rhabodoid 650 is from one end 610 of rear leg section 600 It is less than what the one end 610 was extended to form along the direction of axis towards the direction far from rear leg section 600 with lateral dimension.Namely It says, cylindrical body 560 is integrated relative to foreleg part 500, and rhabodoid 650 is integrated relative to rear leg section 600.In this implementation In mode, the cross sectional dimensions of rhabodoid 650 is less than the cross sectional dimensions of rear leg section 600.

It should be noted that cylindrical body 560 and the formation of the structure of rhabodoid 650 can also in the following ways, for example, cylinder Shape body 560 is formed by for rear leg section 600 comprising the leading portion including the institute of one end 610, and rhabodoid 650 is from preceding leg section 500 other end 520 is less than the other end 520 with lateral dimension and prolongs along the direction of axis towards the direction far from foreleg part 500 It stretches and to be formed.That is, cylindrical body 560 is integrated relative to rear leg section 600, rhabodoid 650 is relative to foreleg part 500 It is integrated.

Certainly, those skilled in the art are it is also to be understood that temple attitude regulating mechanism 400 can be separated from temple 300 Out as with shift position regulatory function and rotation position regulatory function an independent temple attitude adjuster, than Such as, one end of cylindrical body 560 is arranged to be fixedly connected on and be removably connected to the other end 520 of foreleg part 500, it is rod-shaped The other end of body 650 is arranged to be fixedly connected on and be removably connected to one end 610 of rear leg section 600；Alternatively, by cylindrical body 560 one end is arranged to be fixedly connected on and be removably connected to one end 610 of rear leg section 600, the other end of rhabodoid 650 It is arranged to be fixedly connected on and be removably connected to the other end 520 of foreleg part 500.

As shown in fig. 7, switching part 700 extends along the direction of axes O, switching part 700 is sheathed on the outer of rhabodoid 650 Wall surface, and be sheathed in the accommodating chamber 530 of cylindrical body 560.Switching part 700 is relative to cylindrical body 560 in the side along axes O It is fixed upwards.Running fix component 800 is formed between the outside wall surface of rhabodoid 650 and the inner wall of switching part 700.Tubular It is relatively fixed on the direction along axes O between body 560 and switching part 700, so that rhabodoid 650 can be along the side of axes O To relative to cylindrical body 560 and the movement of switching part 700.That is, in rhabodoid 650 relative to cylindrical body 560 in axes O When moving on direction, rhabodoid 650 can also move on axes O direction relative to switching part 700, so that rear leg section 600 movement relative to foreleg part 500 on axes O direction.

It is mobile fixed when rhabodoid 650 is moved to desired shift position relative to cylindrical body 560 and switching part 700 Hyte part 800 can limit the relative translative movement between rhabodoid 650 and cylindrical body 560 on the direction along axes O, can Ensure that rhabodoid 650 is relatively fixed on axes O direction with cylindrical body 560, better ensures that rhabodoid 650 is able to maintain Under the shift position state, so that temple 300 is capable of fixing in the shift position adjusted, and then ensure in the movement position The reliable location set, improves use reliability.When generating abrasion in the case where repeatedly adjusting use, switching part is directly replaced Part 700, use cost is lower.

When rhabodoid 650 is moved to the shift position in multiple shift positions relative to cylindrical body 560, if tubular The external mobile power that body 560 or rhabodoid 650 are subject to is less than or equal to the predetermined mobile power on the shift position or is revoked, Then rhabodoid 650 positions on the direction of axes O relative to cylindrical body 560.What if cylindrical body 560 or rhabodoid 650 were subject to The mobile power in outside is greater than the predetermined mobile power on the shift position, then rhabodoid 650 is relative to cylindrical body 560 in axes O It is moved on direction.It will be understood by those skilled in the art that predetermined mobile power is between mutually matched two components in movement side Upward interaction force, for example, can be frictional force or elastic force etc..In the present embodiment, the running fix component 800 It is capable of providing the predetermined mobile power.

In the present embodiment, the material of switching part is polyformaldehyde (polyformaldehyde, abbreviation POM) thermoplasticity Crystalline polymer.It is high using the switching part intensity of this material, rigidity, and elasticity is good, anti-attrition wearability is good.Art technology Personnel are appreciated that the material of switching part is not limited to polyformaldehyde thermoplastic crystalline polymer, can also use other bullets Property good material, restriction effect is not generated to the protection scope of the application herein.

In the present embodiment, as shown in fig. 7, the diameter for being formed with Spline smoothing in cylindrical body 560 is greater than other parts Accommodating chamber 530 step chamber 540.Switching part 700 is located in step chamber 540, and can be in step chamber 700 It is rotated around axes O relative to cylindrical body 560.The step wall surface 550 at the both ends of step chamber 540 can limit cylindrical body 560 with It is relatively moved on the direction along axes O between switching part 700.That is, switching part 700 is along axes O direction Both ends are connected to the step wall surface 550 at the both ends of step chamber 540 respectively.So as to realize cylindrical body 560 and switching part It is relatively fixed on the direction of axes O between 700.

In some alternative embodiments, running fix component 800 can be formed in the outside wall surface of switching part 700 It is relatively fixed on axes O direction between rhabodoid 650 and switching part 700 between the inner wall of cylindrical body 560, it is rod-shaped Body 650 and 700 entirety of switching part can be moved along axes O direction relative to cylindrical body 560.When rhabodoid 650 and switching part When 700 entirety of part is moved to desired shift position relative to cylindrical body 560, running fix component 800 can limit rhabodoid 650 and switching part 700 it is mobile relative to cylindrical body 560, so as to realize rhabodoid 650 and cylindrical body 560 along axes O Relative positioning on direction is motionless, and then can be realized rear leg section 600 with foreleg part 500 in the phase on axes O direction To positioning, so that it is guaranteed that the reliable location in the shift position.

Referring to Fig. 7-Fig. 9, running fix component 800 includes the first elastic card convex 810 and multiple first card slots 820.First Elastic card convex 810 is protrudingly placed on the face matched in switching part 700 with rhabodoid 650, that is, protrudes from the inner wall of switching part 700 Face.Multiple first card slots 820 are set to the outside wall surface of rhabodoid 650 and the outside wall surface relative to rhabodoid 650 is recessed inwardly, and Multiple first card slots 820 are arranged along the direction interval of axes O.It is moved in rhabodoid 650 relative to cylindrical body 560 different more When a shift position, multiple first card slots 820 corresponding with multiple shift position block with the first elastic card convex 810 respectively It closes, to limit the relative movement between cylindrical body 560 and rhabodoid 650 on the direction of axes O.

Rhabodoid 650 is moved to different multiple shift positions, Duo Ge relative to switching part 700 and cylindrical body 560 One card slot 820 fastens with the first elastic card convex 810 respectively, so as to ensure switching part 700 in corresponding shift position Relative positioning between place and rhabodoid 650 on axes O direction, and then can be realized rhabodoid 650 in corresponding mobile position Set the relative positioning between place and cylindrical body 560 on the direction of axes O rotation, leg section 600 and foreleg after can realizing Multistage between part 500 in the shift position on axes O direction is adjusted, and operates convenient, flexibility and reliability.And structure is simple, Production cost is low.

Described herein first elastic card convex, what is referred to maintains the fastener of snap-fit relationship with elastic force in the prior art, only Snap-fit relationship can be released by applying the external force that one is greater than elastic force.In the present embodiment, the first elastic card convex and the first card The elastic force generated between slot is the predetermined mobile power in the clamped position.

When user wears the intelligent glasses 100, as shown in fig. 7, being applied to rhabodoid 650 along axes O direction When power mobile greater than an outside of predetermined mobile power, the first elastic card convex 810 can generate flexible deformation, from the currently engaged Skid off, be moved in other first card slots 820 in one card slot 820, and with other first card slot, 820 phase cards It closes, in the case that mobile power is less than predetermined mobile power or is revoked in outside, passes through the first elastic card convex 810 and the first card slot 820 active forces to fasten can be realized temple 300 in the reliable location of the shift position of adjusting.

It is multiple when rear leg section 600 is moved to head end shift position relative to foreleg part 500 along the direction of axes O First card slot 820 of head end engage with the first elastic card convex 810 in first card slot 820, one end of rear leg section 600 with it is adjacent 560 one end of cylindrical body (in the present embodiment, the i.e. other end 520 of foreleg part 500) contact, at this point, the stretching of temple 300 Length is 0, i.e., tensile elongation is in the smallest position.

It is multiple when rear leg section 600 is moved to tail end shift position relative to foreleg part 500 along the direction of axes O First card slot 820 of tail end engage with the first elastic card convex 810 in first card slot 820, one end of rear leg section 600 with it is adjacent 560 one end of cylindrical body (in the present embodiment, the i.e. other end 520 of foreleg part 500) is spaced on the direction along axes O to be set It sets, at this point, the tensile elongation of temple 300 is in maximum position.

In the present embodiment, there are four the first card slot 820 tools.It should be noted that the first card slot 820 of the application Setting quantity is not limited to four, can be appropriately arranged with according to actual demand, herein not to the protection of the application Range generates restriction effect.

As illustrated in fig. 7 and fig. 10, the wall of the first corresponding part of elastic card convex 810 is set in the peripheral wall of switching part 700 Face has the recess portion 710 being radially-inwardly recessed along switching part 700, and recess portion 710 prolongs along the length direction of switching part 700 It extends at the position at 700 both ends of switching part.Meanwhile it is close in the circumferential direction along switching part 700 in switching part 700 Engraved structure 720 is used on the wall of first elastic card convex 810, so as to form the bridge shape structure axially moved towards, the first elastic card Convex 810 are set in the bridge shape structure axially moved towards.It enables to that the first elastic card is arranged in the peripheral wall of switching part 700 in this way Convex 810 part is also easy to produce flexible deformation, so that in the case where by certain active force, the first 810 energy of elastic card convex Flexible deformation is enough generated, and then rotation can be skidded off from first card slot 820 to fasten to another the first card slot 820 It is interior, it is ensured that the operability of the shift position of leg section 600 after user is adjusted.

In some alternative embodiments, running fix component 800 can be formed directly into the outer wall of rhabodoid 650 Between face and the inner wall of cylindrical body 560.For example, the first of running fix component 800 the elastic card convex 810 can be set to bar The outside wall surface of shape body 650, corresponding multiple first card slots 820 are set to the inner wall of cylindrical body 560；Alternatively, can be by movement The elastic card convex 810 of the first of positioning component 800 is set to the inner wall of cylindrical body 560, and corresponding multiple first card slots 820 are arranged In the outside wall surface of rhabodoid 650.

As shown in Fig. 7-Figure 10, temple 300 further includes limiting device 920, and limiting device 920 includes limit fastener 922 With limiting slot 924.Limiting slot 924 is set to the outside wall surface of rhabodoid 650, and extends along the direction of axes O.Limit fastener 922 are fixed on and are removably connected to switching part 700, and limit fastener 922 and extend in limiting slot 924.

Rhabodoid 650 relative to switching part 700 when being moved on the direction of axes O, limit fastener 922 can be It is moved in limiting slot 924.When rhabodoid 650 slides into the position for limiting the end of fastener 922 and limiting slot 924 and leaning When, rhabodoid 650 is on the direction of axes O relative to switching part 700 towards rear (i.e. towards the direction on right side in Fig. 7) Moving movement is limited.It can guarantee to make a relative move in rhabodoid 650 and cylindrical body 560 along axes O direction in this way When limit fastener 922 and generate interference effect, while rhabodoid 650 can also be avoided to skid off cylindrical body 560.So as to keep away In the case where exempting from firmly excessive in user's operation, rear leg section 600 skids off foreleg part 500.Raising uses reliable in this way Property, safety.

In some alternative embodiments, limiting device 920 may include positive stop lug boss 926 (referring to Figure 19), limit Position boss 926 be protrudingly placed on cylindrical body 560, rhabodoid 650 along the direction of axes O relative to cylindrical body 560 be moved rearwardly into When connecing the position of positive stop lug boss 926, moving movement of the rhabodoid 650 relative to switching part 700 on the direction of axes O backward It is limited.

The structure adjusted below to the rotation position of temple 300 is introduced and illustrates.

Referring to Fig. 8-Figure 10, rotational positioning is formed between the inner wall of cylindrical body 560 and the outside wall surface of switching part 700 Component 900.And switching part 700 is being fixed on the direction that axes O rotates relative to rhabodoid 650.Rhabodoid 650 and switching Relatively fixed on the direction that axes O rotates between component 700, so that rhabodoid 650 can link, switching part 700 is around axis Line O is rotated relative to cylindrical body 560.That is, in rhabodoid 650 relative to cylindrical body 560 around the direction that axes O rotates When upper rotation, the switching part 700 that can link of rhabodoid 650 revolves on the direction that axes O rotates relative to cylindrical body 560 together Turn.

Fastener 922 is limited in the two sides for being connected to limiting slot 924 on the direction that axes O rotates, so that rhabodoid 650 Relatively fixed on the direction that axes O rotates between switching part 700.Switching part 700 can be further limited in this way In the relative rotary motion on the direction that axes O rotates between rhabodoid 650.

Further, the face matched between the outside wall surface of rhabodoid 650 and the inner wall of switching part 700 uses fool proof Face, to limit relative rotation between switching part 700 and rhabodoid 650.Error-proof structure can preferably limit switching part 700 In the relative rotary motion on the direction that axes O rotates between rhabodoid 650.In the present embodiment, in rhabodoid 650 The part matched with switching part 700 is configured to the shape of semicylinder.It should be noted that the application error-proof structure is not Be confined to the shape using above-mentioned semicylinder, the part matched in rhabodoid 650 with switching part 700 can be configured to Partially with asymmetrical shape, such as the shape of non-cylinder, such as polyhedron, cuboid, cube etc. shape. And it can be equipped with the mounting hole of corresponding essentially identical shape and size in the correspondence installation position of switching part 700, be used for Insertion installation rhabodoid 650.The correct installation position that rhabodoid 650 is determined according to the mounting hole of the asymmetrical shape, from And further provide for fool proof mounting characteristic.

When rhabodoid 650 and switching part 700 are relative to the rotation of cylindrical body 560 to desired rotation position, rotation is fixed Hyte part 900 can limit rhabodoid 650 and switching part 700 relative to cylindrical body 560 on the direction that axes O rotates Relative rotary motion.Realize switching part 700 and cylindrical body 560 around the direction that axes O rotates by rotational positioning component 900 On relative positioning it is motionless, so that it is guaranteed that the reliable location in the rotation position, and then better ensure that under state in the position The stability of wearing, improves use reliability.When generating abrasion in the case where repeatedly adjusting use, switching part is directly replaced Part 700, use cost is lower.

When rhabodoid 650 rotates the rotation position into multiple rotation positions relative to cylindrical body 560, if tubular The external rotational force that body 560 or rhabodoid 650 are subject to is less than or equal to the predetermined rotary force on the rotation position or is revoked, Then rhabodoid 650 and switching part 700 can be positioned relative to cylindrical body 560 on the direction that axes O rotates.If tubular The external rotational force that body 560 or rhabodoid 650 are subject to is greater than the predetermined rotary force on the rotation position, then 650 He of rhabodoid Switching part 700 can be rotated about the axis relative to cylindrical body 560.It will be understood by those skilled in the art that predetermined rotary force is Interaction force in a rotational direction between mutually matched two components, for example, can be frictional force or elastic force etc..At this In embodiment, which is capable of providing the predetermined rotary force.

In the present embodiment, switching part 700 simultaneously as progress shift position adjusting mobile switching part and into The rotation switching part that row rotation position is adjusted, rotation switching part and mobile switching part are the same part.Certainly, mobile to turn It is not integrated design that relay part and rotation switching part, which can also use, such as the split type knot being fixedly secured to one another can be used Structure.

It is needing to adjust rhabodoid 650 relative to cylindrical body 560 at the shift position on axes O direction, is being applied to The active force of rhabodoid 650 or cylindrical body 560 on axes O direction, rhabodoid 650 is relative to switching part 700 and tubular Body 560 is whole to be moved on axes O direction, to adjust the shifting between rhabodoid 650 and cylindrical body 560 on axes O direction Dynamic position.

Needing to adjust rhabodoid 650 relative to cylindrical body 560 at the rotation position on the direction that axes O rotates, Rhabodoid 650 or cylindrical body 560 are applied in the active force on the direction that axes O rotates, the linkage switching part of rhabodoid 650 Part 700 is rotated relative to 560 entirety of cylindrical body around axes O, to adjust between rhabodoid 650 and cylindrical body 560 around axes O Rotation position on the direction of rotation.

That is, temple 300 using the above structure, can be more convenient, reliably individually adjust shift position and rotation Indexing is set, to guarantee its synergistic effect, and be can be avoided to generate between shift position adjusting and rotation position adjusting and mutually be done The effect related to improves the controllability of user's operation.Made by the collaboration of rotational positioning component 900 and running fix component 800 With can realize that the independent of shift position is adjusted and the independent adjusting of rotation position, more reliably so as to by Brilliant Eyes Mirror 100 is adjusted to position the most comfortable.

In some alternative embodiments, rotational positioning component 900 can be formed in the inner wall of switching part 700 Between the outside wall surface of rhabodoid 650, and it will be arranged between cylindrical body 560 and switching part 700 around the side that axes O rotates It is relatively fixed upwards, so that rhabodoid 650 is rotated integrally around axes O relative to switching part 700 and cylindrical body 560.In bar When shape body 650 is relative to switching part 700 and the rotation of cylindrical body 560 to desired rotation position, rotational positioning component 900 can The relative rotation between rhabodoid 650 and switching part 700 on the direction of rotation around axes O is limited, so as to realize bar Shape body 650 and cylindrical body 560 are relatively fixed on the direction that axes O rotates, so that it is guaranteed that in the reliable of the rotation position Positioning.

Referring to Fig. 7-Figure 12, rotational positioning component 900 includes the second elastic card convex 910 and multiple second card slots 912.Second Elastic card convex 910 is protrudingly placed on the outside wall surface of switching part 700, and multiple second card slots 912 are set to the inner wall of cylindrical body 560, And it is recessed from the inner wall of cylindrical body 560 along the outside wall surface direction for being radially orientated cylindrical body of cylindrical body 560, and along around axes O Setting is spaced on the direction of rotation.It rotates to different more in the switching part 700 that links of rhabodoid 650 relative to cylindrical body 560 When a rotation position, multiple second card slots 912 corresponding with multiple rotation position block with the second elastic card convex 910 respectively It closes, to limit between cylindrical body 560 and rhabodoid 650 in the relative rotation on the direction that axes O rotates.

The linkage of rhabodoid 650 switching part 700 is rotated relative to cylindrical body 560 to different multiple rotation positions together, Multiple second card slots 912 corresponding with multiple rotation position fasten with the second elastic card convex 910 respectively, so as to true Switching part 700 is protected between corresponding rotational position and cylindrical body 560 relatively solid on the direction that axes O rotates It is fixed, and then can be realized rhabodoid 650 between corresponding rotational position and cylindrical body 560 around the direction that axes O rotates On it is relatively fixed, in the rotation on the direction that axes O rotates between leg section 600 and foreleg part 500 after can realizing The multistage adjusting that indexing is set, operates convenient, flexibility and reliability.And structure is simple, production cost is low.

Described herein second elastic card convex, what is referred to maintains the fastener of snap-fit relationship with elastic force in the prior art, only Snap-fit relationship can be released by applying the external force that one is greater than elastic force.

As shown in figs. 9 and 12, the interior of the second corresponding part of elastic card convex 910 is set in the peripheral wall of switching part 700 Wall surface has the recessed portion 730 of the outside wall surface direction recess for being radially orientated switching part along switching part 700.It can make in this way The part for obtaining the elastic card convex 910 of setting second in the peripheral wall of switching part 700 is also easy to produce flexible deformation, so that by certain Active force in the case where, the second elastic card convex 910 can generate flexible deformation, and then can be from one second card to fasten Slot 912 skids off in rotation to another second card slot 912, it is ensured that user adjusts the operability of the rotation position of rhabodoid 650.

Further, as shown in figures 7 and 9, the second elastic card convex 910 is set in switching part 700 along switching part The outside wall surface of one end on 700 length direction.The second elastic card convex 910 is made to be more prone to produce flexible deformation in this way.

Further, as shown in figures 7 and 9, close on the length direction of switching part 700 in switching part 700 Hollow-out parts 740 are provided on the wall of second elastic card convex 910, to form the bridge shape structure circumferentially moved towards, and the second elastic card convex 910 are located in the bridge shape structure circumferentially moved towards.The second elasticity of setting in the wall of switching part 700 can be further increased in this way The part of card convex 910 generates the degree of flexible deformation, so further increase user adjust rhabodoid 650 rotation position can Operability.

In some alternative embodiments, rotational positioning component 900 can be formed directly into rhabodoid 650 and tubular Between body 560.For example, the second of rotational positioning component 900 the elastic card convex 910 can be set to the outside wall surface of rhabodoid 650, Corresponding multiple second card slots 912 are set to the inner wall of cylindrical body 560；Alternatively, can be by the second of rotational positioning component 900 Elastic card convex 910 is set to the inner wall of cylindrical body 560, and corresponding multiple second card slots 912 are set to the outer wall of rhabodoid 650 Face.

When user wears the intelligent glasses 100, as shown in figure 12, it is applied to what 650 1 edge of rhabodoid was rotated around axes O On direction greater than predetermined rotary force an external rotational force when, the second elastic card convex 910 can generate flexible deformation, from current Skidded off in second card slot 912 of engaging, in rotation to other second card slots 912, and with other second card slots 912 fasten, and are less than predetermined rotary force in external rotational force or in the case where be revoked, and pass through the second elastic card convex 910 and the The active force that two draw-in groove 912 fastens can be realized temple 300 in the reliable location of the rotation position of adjusting.

In the present embodiment, there are four the second card slot 912 tools.It should be noted that the second card slot 912 of the application Setting quantity is not limited to four, can be appropriately arranged with according to actual demand, herein not to the protection of the application Range generates restriction effect.

Such as Figure 11-Figure 12, rhabodoid 650 can realize Multi-stage rotary relative to cylindrical body 560 in predetermined rotary area 950 Position adjusts and positioning.Wherein, the rotation position at predetermined rotary area 950 head and the tail both ends in a rotational direction is respectively defined as Head end rotation position 952 and tail end rotation position 954.In the present embodiment, it is 0 ° that head end rotation position 952, which is rotation angle, Rotation position, tail end rotation position 954 be rotate angle be 90 ° rotation position.When rhabodoid 650 is relative to cylindrical body When 560 rotations to multiple rotation positions of predetermined rotary area 950, the phase of rhabodoid 650 and the spaced winding axes O of cylindrical body 560 Rotary motion can be limited, so as to realize between rhabodoid 650 and cylindrical body 560 in the direction of rotation around axes O On the multistage of rotation position adjust, and can guarantee between the rotational position rhabodoid 650 adjusted and cylindrical body 560 Relatively reliable positioning, improve flexibility, operability and the reliability of adjusting.

Understood in conjunction with Fig. 3-Fig. 5 and Figure 11-Figure 12, when rhabodoid 650 is revolved relative to cylindrical body 560 around axes O When going to head end rotation position 952, i.e., rhabodoid 650 is located at the rotational position that rotation angle is 0 ° relative to cylindrical body 560, At this point, the second elastic card convex 910 fastens with the second card slot 912 for being located at head end, at this point, the head of rear leg section 600 and user The chucking power in portion is minimum, and the other end 620 of rhabodoid 650 is located at the one of rhabodoid 650 in the short transverse 970 of intelligent glasses The lower section at end 610.That is, when rhabodoid 650 is rotated around axes O to head end rotation position 952 relative to cylindrical body 560 When, rear leg section 600 can be only supported in and the ear on the head that is held on user.The rotation position is that user is usual when wearing The rotation position of use state, at this location, the chucking power of intelligent glasses 100 is relatively small, and comfort is higher, is usually applicable in In common scenarios.

In conjunction with shown in Figure 11-Figure 15, when rhabodoid 650 is rotated around axes O to tail end rotation position relative to cylindrical body 560 When 954, rhabodoid 650 is located at the rotational position that rotation angle is 90 ° relative to cylindrical body 560, at this point, the second elastic card convex 910 fasten with the second card slot 912 for being located at tail end, at this point, rear leg section 600 and the chucking power on the head of user are maximum, after The other end 620 of leg section 600 is located at the inside of front leg portions point 500 in the width direction 960 of intelligent glasses.That is, When rhabodoid 650 is rotated around axes O to tail end rotation position 954 relative to cylindrical body 560, rear leg section 600 is supported in simultaneously It is held on brain or the brain rear portion on the head of user.When rhabodoid 650 is located at tail end rotation position 954, intelligent glasses 100 Chucking power and maximum wrapped are commonly available to the biggish moving scene of motion amplitude.The rotation in 0 ° -90 ° may be implemented in this way Gyration is adjusted, adjustable chucking power and wrapped, and intelligent glasses 100 can be adjusted in wearing by user according to demand Desired position operates more flexible, reliable.

It will be understood by those skilled in the art that the rotation angle range of predetermined rotary area 950 can be according to actual need Adaptability is wanted to be arranged, it is not limited to which the rotation angular adjustment in 0 ° -90 ° is also possible in the rotation angle being greater than within the scope of 90 ° Degree is adjusted, and does not generate restriction effect to the protection scope of the application herein.

This pair of of temple 300 is configured to after being assembled on mirror holder 200 or intelligent glasses 100, so that its shape is basic On conform to the shape of user's head, especially substantially conform in or fit in the brain of user's head or the shape at brain rear portion. The radian for the shape that the rear leg section 600 of temple 300 can be formed to certain side rear region for substantially conforming to user's head (exists Bending section 640 forms the radian for complying with the shape at brain side rear portion of user), to be adjusted to rotation appropriate in rear leg section 600 Indexing can more fit in the side rear region on head when setting, facilitate firm wearing.The rear leg section 600 of temple 400 can be used Deflection, particularly can moderately elastic deflection material constitute.Design in this way, so that the intelligent glasses of the application 100 can increase the contact area with the head of user to the maximum extent when being adjusted to rotation position appropriate after the wearing, from And the constriction to head is reduced, increase comfort level.

Referring to Figure 14, this two temples 300 are after being assembled on mirror holder 200 or intelligent glasses 100, and by rear leg section 600 extremely rotate the rotation position that angle is 90 ° relative to the rotation of foreleg part 500, and the brain of basic fitting user's head can be presented The open architecture of the shape in portion or brain rear portion uses and partly wraps up in formula structure.It is convenient to wear by this arrangement and construction.

6- Figure 21 referring to Figure 1, Figure 16-Figure 21 show another intelligent glasses 100 provided by the embodiments of the present application Schematic structure.Wherein, Figure 18-Figure 21 emphasis shows the rear leg section 600 and 500 join domain of foreleg part of temple 400 Schematic structure.

As shown in Figure 16-Figure 21, the structure of the intelligent glasses 100 of present embodiment substantially with Fig. 1-reality illustrated in fig. 15 The structure for applying the intelligent glasses 100 of mode is identical comprising mirror holder 200 and eyeglass 240, mirror holder 200 include mirror holder main body 220, It is respectively arranged at two temples 300 of 220 two sides of mirror holder main body.Eyeglass 240 is fixed on mirror holder main body 220.And each temple 300 is adopted It is connect with one end 510 of segmental structure, foreleg part 500 with mirror holder main body 220, the other end 520 and back leg of foreleg part 500 One end 610 of part 600 connects, and have between rear leg section 600 and foreleg part 500 can be realized shift position adjust, The structure that rotation position is adjusted.The difference is that realizing the tool that shift position is adjusted, rotation position is adjusted in temple 300 The difference of body structure, the i.e. structure of temple attitude regulating mechanism 400 are different.

It will be appreciated by persons skilled in the art that a temple 300 of intelligent glasses 100 can use Figure 19-Figure 21 Temple 300 provided by the following any embodiments shown and possible embodiment, another temple 300 can be using figure Temple 300 provided by any of the above-described kind of embodiment and possible embodiment shown in 3- Figure 15；Alternatively, intelligent glasses 100 The structures of two temples 300 can also be using the following any embodiments and possible implementation shown in Figure 19-Figure 21 Temple 300 provided by example；Alternatively, a temple is using the embodiment of the present application shown in Figure 19-Figure 21 in two temples 300 Mirror holder 200 or intelligent glasses 100.

Mainly the structure of another embodiment of a temple 300 of intelligent glasses 100 is made below in conjunction with Figure 16-Figure 21 It introduces.

Such as Figure 16-Figure 21, temple attitude regulating mechanism 400 includes cylindrical body 560, rhabodoid 650 and damped part 930. Cylindrical body 560 is equipped with the accommodating chamber 530 extended along the direction of axes O.Rhabodoid 650 extends to receiving along the direction of axes O In chamber 530, and one end of rhabodoid 650 is free end.After cylindrical body 560 is 520 place of the other end of foreleg part 500 Section is formed by, and rhabodoid 650 is along the direction of axis from one end 610 of rear leg section 600 towards the side far from rear leg section 600 To what is extended to form.That is, cylindrical body 560 is fixed relative to foreleg part 500, rhabodoid 650 is relative to rear leg section 600 is fixed.In the present embodiment, the diameter of rhabodoid 650 is less than the diameter of rear leg section 600.

As shown in figure 19, damped part 930 extends along the direction of axes O, and is located in accommodating chamber 530.Damped part 930 outside wall surface is fixed on the inner wall of cylindrical body 560.And damped part 930 is set in the outside wall surface of rhabodoid 650, and with It is interference fit between rhabodoid 650.

As shown in figure 19, when rhabodoid 650 moves power greater than damped part 930 in the outside being subject to along axes O direction Between rhabodoid 650 in interaction force (i.e. the predetermined mobile power mentioned by above-described embodiment) on axes O direction, Rhabodoid 650 can move on the direction along axes O relative to damped part 930 and cylindrical body 560, so as to realize mirror The adjusting of shift position of the rear leg section 600 of leg 300 relative to foreleg part 500 on the direction along axes O.Suffered External mobile power be revoked or less than the interaction force on axes O direction between damped part 930 and rhabodoid 650 When, rhabodoid 650 can be fixed on the direction along axes O relative to damped part 930 and cylindrical body 560, so that the temple 300 fix in the shift position adjusted, it is ensured that the reliability used.

As shown in Figure 19-21, when rhabodoid 650 is greater than in the external rotational force being subject on the direction that axes O rotates Between damped part 930 and rhabodoid 650 in the interaction force on axes O direction of rotation, (i.e. above-described embodiment is mentioned And predetermined rotary force) when, rhabodoid 650 can be relative to damped part 930 and cylindrical body 560 along rotating around axes O It is rotated on direction, so as to realize the rear leg section 600 of temple 300 relative to foreleg part 500 around the side that axes O rotates The adjusting of upward rotation position.Suffered external mobile power be revoked or be less than damped part 930 and rhabodoid 650 it Between in the interaction force on axes O direction of rotation, rhabodoid 650 can be relative to damped part 930 and cylindrical body 560 are fixing on the direction that axes O rotates, so that the temple 300 is fixed in the rotation position adjusted, it is ensured that is used can By property.

Further, as shown in figure 19, limiting device 920 may include positive stop lug boss 926, and positive stop lug boss 926 is protrudingly placed on The inner wall of accommodating chamber 530 is formed in cylindrical body 560.Rhabodoid 650 is equipped with flange 928 far from one end of rear leg section 600. The position that flange 928 abuts positive stop lug boss 926 is moved rearwardly into relative to cylindrical body 560 along the direction of axes O in rhabodoid 650 When, rhabodoid 650 is limited relative to the moving movement of damped part 930 and cylindrical body 560 on the direction of axes O backward. So as to avoid rhabodoid 650 from skidding off cylindrical body 560, so can to avoid it is firmly excessive in user's operation in the case where, Leg section 600 skids off foreleg part 500 afterwards.The reliability used, safety are improved in this way.

In the present embodiment, the material of damped part 930 is silica gel.It should be noted that damped part 930 can also be with The material of damping can be generated using other, restriction effect is not generated to the protection scope of the application herein.

In some alternative embodiments, damped part 930 can also be fixed on rhabodoid 650, damped part It is interference fitted between 930 and cylindrical body 560.Rhabodoid 650 links damped part 930 together relative to cylindrical body 560 around axes O Axial-rotation, and along the axial movement of axes O.

It will be understood by those skilled in the art that the present embodiment temple 300 and the structure of mirror holder 200 are not limited to answer herein It in augmented reality intelligent glasses, also can be applied to other intelligent glasses, be possibly even applied to common spectacles.

Generally speaking, using the intelligent glasses 100 of above-mentioned temple 300, when wearing, 600 phase of leg section after capable of adjusting For foreleg part 500 in the rotation position on the direction that axes O rotates, leg section 600 is with user's after can adjusting The position of head clamping so as to adjust the chucking power of intelligent glasses 100 and wrapped, and then can satisfy same user not With the use under scene, usage scenario is increased；Simultaneously, additionally it is possible to ensure when the user of different head dummys and head circumference width wears Stability and comfort demand increase user group so as to improve the wearing compatibility of different head dummys and head circumference user.

Meanwhile when wearing, additionally it is possible to which leg section 600 is relative to foreleg part 500 on the direction along axes O after adjusting Shift position, so as to position and mirror of the leg section 600 on axes O direction relative to foreleg part 500 after adjusting The adjusting of the length of leg 300, the different user group of the distance that can satisfy eyes to ear uses, and then can further mention The wearing compatibility of high difference head dummy and head circumference user, increases user group.

That is, the embodiment of the present application is adjustable by using shift position between rear leg section 600 and foreleg part 500 With the structure of the adjustable temple 300 in rotation position, it can satisfy the use demand of different head dummys and head circumference user, improve difference The wearing compatibility of head dummy and head circumference user, increase user group；Meet same user's common scenarios and moving scene simultaneously Use demand increases usage scenario.

In short, being not intended to limit the protection of the application the foregoing is merely the embodiment of technical scheme Range.All exposure according to the application, any modification, equivalent replacement, improvement and so on should be included in the protection of the application Within the scope of.

Claims

1. a kind of temple, which is characterized in that the temple includes:

Foreleg part and rear leg section, one end of the foreleg part for being connect with mirror holder main body, the foreleg part it is another One end is connect with one end of the rear leg section, so that being greater than the effect of a predetermined rotary force in the external rotational force around an axis Under, the rear leg section is rotated around the axis relative to the foreleg part forward or backwards, and when rotation to multiple rotations When any rotation position and the external rotational force are less than the predetermined rotary force in position, it is described after leg section in the rotation position Set relative to the foreleg part positioned on the direction that the axis rotates it is motionless；

Wherein, the axis refers to the coupling part being connected by the foreleg part with the rear leg section and along the mirror The linearly extended center line of the length direction of leg.

2. temple as described in claim 1, which is characterized in that the other end of the foreleg part and the rear leg section Described one end between connection, also to move the power work for moving power predetermined greater than one in the outside in the direction along the axis Under, the rear leg section is also moved forward and backward along the direction of the axis relative to the foreleg part, and multiple when being moved to When the mobile power in any shift position and the outside is less than the predetermined mobile power in shift position, the rear leg section is in the shifting Dynamic position positions on the direction of the axis motionless relative to the foreleg part.

3. temple as described in claim 1, which is characterized in that the other end of the foreleg part and the rear leg section Described one end between connection be to be carried out by a temple attitude regulating mechanism；

It includes: cylindrical body, rhabodoid and switching part that the temple, which adjusts attitude regulating mechanism,；

The cylindrical body is fixed or is integrated relative to the foreleg part, and the rhabodoid is fixed relative to the rear leg section Or be integrated, alternatively, the cylindrical body is fixed or is integrated relative to leg section after described, the rhabodoid is relative to before described Leg section is fixed or is integrated；Wherein,

The switching part extends along the direction of the axis, and is sheathed on outside the rhabodoid, and the switching part is opposite In the rhabodoid fixed on the direction that the axis rotates；

The switching part is sheathed in the cylindrical body, and the rhabodoid and the switching part can relative to the cylindrical body It is rotated forward or backwards on the direction that the axis rotates, the outside wall surface of the switching part is equipped with outwardly projecting elasticity Card convex, the inner wall of the cylindrical body are equipped with along the direction that the axis rotates successively adjacent multiple card slots, the multiple card Slot is rotated relative to the cylindrical body to corresponding under the action of the predetermined rotary force around the axis for the rhabodoid Multiple rotation positions when, can respectively with the elastic card convex clip close positioning it is motionless.

4. temple as claimed in claim 2, which is characterized in that the other end of the foreleg part and the rear leg section Described one end between connection be to be carried out by a temple attitude regulating mechanism；

The switching part is sheathed in the cylindrical body, and the rhabodoid and the switching part can relative to the cylindrical body It is rotated forward or backwards on the direction that the axis rotates, the outside wall surface of the switching part is equipped with outwardly projecting elasticity Card convex, the inner wall of the cylindrical body are equipped with along the direction that the axis rotates successively adjacent multiple card slots, the multiple card Slot is rotated relative to the cylindrical body to corresponding under the action of the predetermined rotary force around the axis for the rhabodoid Multiple rotation positions when, can respectively with the elastic card convex clip close positioning it is motionless；

The switching part is fixed on the direction along the axis relative to the cylindrical body, and the rhabodoid is relative to described Cylindrical body and the switching part can be moved forward and backward on the direction along the axis, and the inner wall of the switching part is equipped with prominent Elastic card convex out, the outside wall surface of the rhabodoid, which is equipped with, to be recessed inwardly and along the direction of the axis successively adjacent multiple cards Slot, the multiple card slot on the rhabodoid are used for the rhabodoid under the action of the predetermined mobile power along described It, can be respectively and positioned at the switching part when direction of axis is moved to corresponding multiple shift positions relative to the cylindrical body Inner wall on the elastic card convex clip close positioning it is motionless.

5. temple as described in claim 3 or 4, which is characterized in that the cylindrical body is the foreleg part comprising described The other end including back segment be formed by, the rhabodoid be one end of the leg section after described with lateral dimension be less than this one What end was extended to form along the direction of the axis；

Alternatively, the cylindrical body be it is described after leg section comprising described one end including leading portion be formed by, it is described rod-shaped Body is to be less than what the other end was extended to form along the direction of the axis from the other end of the foreleg part with lateral dimension.

6. the temple as described in any one of claim 3-5, which is characterized in that on the inner wall for being located at the cylindrical body The multiple card slot closes the multiple described of place with the elastic card convex clip in the outside wall surface of the switching part respectively Head end rotation position in rotation position, where being closed positioned at one of card slot of the card slot of two ends and the elastic card convex clip The chucking power on the head of place, the rear leg section and the user is minimum, another described card slot and the elastic card convex clip close The chucking power on the head of the tail end rotational position at place, the rear leg section and the user is maximum.

7. temple as claimed in claim 6, which is characterized in that when the rhabodoid around the axis relative to the cylindrical body When rotation to the head end rotation position, the rear leg section can only be held on the ear on the head of the user.

8. temple as claimed in claims 6 or 7, which is characterized in that when the rhabodoid around the axis relative to the cylinder When shape body is rotated to other rotation positions outside head end, it is described after leg section can be clamped on the user head brain with The corresponding different parts in described other rotation positions.

9. the temple as described in any one of claim 3-8, which is characterized in that with setting positioned at described in the switching part The corresponding inner wall of the elasticity card convex in the outside wall surface of switching part has recessed portion.

10. the temple as described in any one of claim 3-9, which is characterized in that close to positioned at institute in the switching part It states and is provided with hollow-out parts on the wall of the elastic card convex in the outside wall surface of switching part, to be formed with the bridge shape knot circumferentially moved towards Structure, the elastic card projection is in the bridge shape structure circumferentially moved towards.

11. the temple as described in any one of claim 4-10, which is characterized in that be located at institute with setting in the switching part Stating in the corresponding outside wall surface of the elasticity card convex on the inner wall of switching part has the recess portion being recessed inwardly.

12. the temple as described in any one of claim 4-11, which is characterized in that close to positioned at institute in the switching part It states using engraved structure on the wall of the elastic card convex on the inner wall of switching part, to form the bridge shape knot axially moved towards Structure, the elastic card projection is in the bridge shape structure axially moved towards.

13. the temple as described in any one of claim 3-12, which is characterized in that the outside wall surface of the rhabodoid and described turn The face matched between the inner wall of relay part use fool proof face, with limit between the switching part and the rhabodoid around Relative rotation on the direction of the axis rotation, but can be along the direction of the axis between the switching part and the rhabodoid Relative movement.

14. the temple as described in any one of claim 3-13, which is characterized in that the temple attitude regulating mechanism further includes Limiting device, the limiting device include that limit fastener and limiting slot, the limiting slot are set to the outer wall of the rhabodoid Face, and extend along the direction of the axis；The limit fastener is removably mounted to the switching part, and the limit is tight Firmware extends in the limiting slot；

The rhabodoid relative to the switching part when being moved on the direction along the axis, the limit fastener energy It is enough to be slided in the limiting slot；When the end that the rhabodoid slides into the limit fastener and the limiting slot leans Position when, the rhabodoid is on the direction along the axis relative to the switching part towards far from the cylindrical body direction Moving movement limited.

15. temple as claimed in claim 14, which is characterized in that the limit fastener is around the direction that the axis rotates On be connected to the two sides of the limiting slot so that the rhabodoid is relative to the switching part around the side that the axis rotates It is fixed upwards.

16. the temple as described in any one of claim 4-13, which is characterized in that the cylindrical body further includes positive stop lug boss, The positive stop lug boss is protrudingly placed on the predetermined position of the inner wall of the cylindrical body, in the rhabodoid along the direction phase of the axis It is described rod-shaped when being moved to the position for abutting the positive stop lug boss for the direction that the cylindrical body is directed away from the cylindrical body The moving movement that body is directed away from the direction of the cylindrical body relative to the cylindrical body on the direction of the axis is limited.

17. the temple as described in any one of claim 3-16, which is characterized in that be formed with Spline smoothing in the cylindrical body Diameter be greater than other parts chamber step chamber, the switching part is located in the step chamber, and can be in institute It states and is rotated around the axis relative to the cylindrical body in step chamber；

The step wall surface at the both ends of the step chamber can limit between the cylindrical body and the switching part along described It is relatively moved on the direction of axis.

18. the temple as described in any one of claim 1-17, which is characterized in that leg section includes being integrally formed after described The straightway and bending section that the length direction of leg section is set gradually after described, the straightway far from the bending section one End constitutes described one end of the rear leg section, and the bending section constitutes the rear leg section far from one end of the straightway The other end, the bending section are used to clamp with the head of the user.

19. the temple as described in any one of claim 1-18, which is characterized in that the temple is used for augmented reality Brilliant Eyes The temple of mirror or virtual reality intelligent glasses.

20. a kind of temple, which is characterized in that the temple includes:

Foreleg part and rear leg section, one end of the foreleg part for being connect with mirror holder main body, the foreleg part it is another One end is connect with one end of the rear leg section, so that moving in the outside in the direction along an axis, power is predetermined greater than one to move power Under the action of, the rear leg section is moved forward and backward along the direction of the axis relative to the foreleg part, and more when being moved to When the mobile power in any shift position and the outside is less than the predetermined mobile power in a shift position, the rear leg section is at this Shift position positions on the direction along the axis motionless relative to the foreleg part；

21. temple as claimed in claim 20, which is characterized in that the other end of the foreleg part and the rear leg The connection between described one end divided is carried out by a temple attitude regulating mechanism；

The switching part extends along the direction of the axis, and is sheathed on outside the rhabodoid, and the switching part is arranged In in the cylindrical body, and it is fixed on the direction along the axis relative to the cylindrical body；

The rhabodoid can be moved forward and backward relative to the cylindrical body and the switching part on the direction along the axis, institute The inner wall for stating switching part is equipped with elastic card convex outstanding, and the outside wall surface of the rhabodoid, which is equipped with, to be recessed inwardly and along the axis The direction of line successively adjacent multiple card slots, the multiple card slot is for the rhabodoid under the action of the predetermined mobile power When being moved to corresponding multiple shift positions relative to the cylindrical body along the direction of the axis, can respectively with the elastic card It is motionless that convex clip closes positioning.

22. temple as claimed in claim 21, which is characterized in that the cylindrical body is the foreleg part comprising described another One end including back segment be formed by, the rhabodoid is that one end of the leg section after described with lateral dimension is less than the one end It is extended to form along the direction of the axis；

23. the temple as described in claim 21 or 22, which is characterized in that corresponding with elastic card convex is arranged in the switching part Outside wall surface there is the recess portion that is recessed inwardly.

24. the temple as described in any one of claim 21-23, which is characterized in that close to described in the switching part Engraved structure is used on the wall of elastic card convex, to form the bridge shape structure axially moved towards, the elastic card projection is in the axial direction In the bridge shape structure of trend.

25. the temple as described in any one of claim 21-24, which is characterized in that be formed with step change in the cylindrical body The diameter of change is greater than the step chamber of the chamber of other parts, and the switching part is located in the step chamber, and can be It is rotated around the axis relative to the cylindrical body in the step chamber；

26. the temple as described in any one of claim 21-25, which is characterized in that the temple attitude regulating mechanism also wraps Limiting device is included, the limiting device includes limit fastener and limiting slot, and the limiting slot is set to the outer of the rhabodoid Wall surface, and extend along the direction of the axis；The limit fastener is removably mounted to the switching part, and the limit Fastener extends in the limiting slot；

27. the temple as described in any one of claim 21-26, which is characterized in that the temple is for augmented reality intelligence The temple of glasses or virtual reality intelligent glasses.

28. a kind of mirror holder, which is characterized in that the mirror holder includes:

Mirror holder main body, the mirror holder main body are used for fixing len；With

At least one temple, the temple using temple as described in any one of claim 1-27, the temple it is described Described one end of foreleg part is connect with the mirror holder main body.

29. a kind of glasses, which is characterized in that the glasses include:

Mirror holder as claimed in claim 28；

Eyeglass, the eyeglass are fixed on the mirror holder main body of the mirror holder.

30. glasses as claimed in claim 29, which is characterized in that the glasses are augmented reality intelligent glasses or virtual reality Intelligent glasses.