Specific embodiment
Referring to Fig. 1, Fig. 1 is the structural schematic diagram of one embodiment of the application glasses.In present embodiment, glasses packet
It includes: spectacle frame 10 and functor 20.
Wherein, the spectacle frame 10 in the application can be near-sighted glasses, farsighted glasses, sunglasses, intelligent glasses, virtual reality eye
The spectacle frame of the various glasses such as mirror, holographic glasses, augmented reality glasses, specifically without limitation.
Functor 20 can be to link together with spectacle frame 10, and to make glasses further have the group of some other functions
Part or component.For example, functor 20 can be loudspeaker mechanism, specific such as osteoacusis loudspeaker mechanism 21, so that glasses also have
There is the function of osteoacusis loudspeaker mechanism 21.Certainly, functor can also be other components, such as positioning device, not limit herein
It is fixed.
Specifically, spectacle frame 10 includes spectacle-frame 11 and two legs of spectacles 12, and leg of spectacles 12 includes connecting with spectacle-frame 11
The temple main body 121 and hinge component 122 connect.
It is the structural schematic diagram of one embodiment of the application hinge component further referring to Fig. 2 and Fig. 3, Fig. 2, Fig. 3 is
The configuration schematic diagram of one embodiment of the application hinge component.Wherein, the application hinge component 122 can be used for the application eye
In glasses in mirror embodiment.
In the application, hinge component 122 includes hinge 30, and hinge 30 is for connection to two solids and allows between the two
Do the structure relatively rotated.
Specifically, the hinge component 122 in present embodiment is when in above-mentioned glasses embodiment, hinge component
122 are set to end of the temple main body 121 far from spectacle-frame 11, and functor 20 is further connected to temple by hinge 30
End of the main body 121 far from spectacle-frame 11.
Wherein, hinge component 122 further includes rod-like element 40 and fixing piece 50.Hinge 30 includes hinge seat 31 and hinge arms
32, wherein hinge arms 32 are rotatablely connected by shaft 33 and hinge seat 31.It is readily appreciated that ground, hinge seat 31 and hinge arms 32 can
It is connected on two components for needing to be rotatablely connected, so that two components are rotatably connected on by the shaft 33 of hinge 30
Together.
Wherein, the connection of hinge seat 31 of hinge 30 is arranged in rod-like element 40.Wherein, rod-like element 40, which can be, passes through hinge
One part-structure in two components of 30 rotation connections perhaps overall structure or is also possible to need to be rotatablely connected
A connection structure being attached with hinge 30 in two components.Hinge component 122 in present embodiment is being used for eye
When mirror, rod-like element 40 can be at least part of the temple main body 121 of glasses, such as can be the whole of temple main body 121,
Either a part of the one end of temple main body 121 far from spectacle-frame 11, and then by the part temple main body 121, by hinge
30 are set to end of the temple main body 121 far from spectacle-frame 11.
Specifically, rod-like element 40 is provided with the hinge chamber 41 being connected to the end face of rod-like element 40, rod-like element along its length
It is provided with the first inserting hole 42 being connected to hinge chamber 41 on 40 side wall, one end of the separate hinge arms 32 of hinge seat 31 is from bar
The end face of shape part 40 is inserted into hinge chamber 41, and the fixing piece 50 by being plugged in the first inserting hole 42 is fixed on hinge chamber 41
It is interior.
In present embodiment, hinge chamber 41 is connected to the end face of end of the temple main body 121 far from spectacle-frame 11, so that
Hinge seat 31 is inserted into hinge chamber 41 and connect hinge 30 with temple main body 121.
Wherein, hinge chamber 41 can be formed in 40 forming process of rod-like element, for example, the material of rod-like element 40 can be rubber
Or plastics etc., at this time hinge chamber 41 can be formed by injection molding.The shape of hinge chamber 41 is matched with hinge seat 31, so that hinge
Seat 31 can be placed in hinge chamber 41.In the present embodiment, temple main body 121 can be long direct rod shape along its length,
Accordingly, rod-like element 40 can be then set in straight-bar for straight-bar along its length, hinge chamber 41, further, hinge seat
31 match with hinge chamber 41 to be placed in hinge chamber 41 and then realize the installation of hinge 30.Certainly, in other embodiments,
The other shapes such as rod-like element 40 or curved rod.
In addition, the first inserting hole 42 can also be formed in forming process by rod-like element 40, or further lead to after shaping
The methods of drilling is crossed to be formed on the side wall of rod-like element.Specifically, in present embodiment, the shape of the first inserting hole 42 can be
Circle can also be in other embodiments the other shapes such as rectangular, triangle.The shape of fixing piece 50 and the first inserting hole
42 matchings, so that fixing piece 50 can be inserted into the first inserting hole 42 from the external of rod-like element 40, and in turn by pushing against hinge
The mode of the side wall of seat 31, or penetrate further into the outer wall of hinge seat 31 and hinge seat 31 is fixed on hinge in a manner of grafting etc.
In chain chamber 41.Specifically, matched screw thread can be set on the inner wall of the first inserting hole 42 and the outer wall of fixing piece 50, so that
Obtaining fixing piece 50 can be connect by way of being spirally connected with the first inserting hole 42 hinge seat 31 is further fixed on hinge chamber
In 41.It is of course also possible to otherwise, for example, by the modes such as the first inserting hole 42 and the interference fit of fixing piece 50 into
Row connection.
Further, hinge arms 32 can also be connect with other components, so that after the component is that hinge arms 32 connect,
Further connected by being installed in hinge seat 31 in the hinge chamber 41 of rod-like element 40 with rod-like element 40 or with rod-like element 40
It 33 can be rotated around the shaft between the other components connect.For example, hinge component 122 be applied to above-mentioned glasses in when, function
Such as connection of osteoacusis loudspeaker mechanism 21 of energy part 20 is arranged in hinge arms 32 far from 31 one end of hinge seat, to be connected by hinge 30
In end of the temple main body 121 far from spectacle-frame 11.
In aforesaid way, the hinge chamber 41 being connected to the end face of the rod-like element 40 is provided in rod-like element 40, hinge 30 is logical
It crosses and hinge seat 31 is placed in the hinge chamber 41, and fixing piece 50 is further penetrated into rod-like element 40 by the first inserting hole 42
Side wall so that the hinge seat 31 being placed in hinge chamber 41 is fixed in hinge chamber 41, so as to realize that hinge 30 is opposite
It is removable in rod-like element 40, to facilitate the replacement of hinge 30 or rod-like element 40.It is being applied to the above-mentioned glasses embodiment party of the application
When in the glasses in formula, it is removable relative to temple main body 121 with functor 20 to can be realized hinge 30, thus in functor
When 20 or spectacle-frame 11, temple main body 121 etc. are damaged, it is convenient for replacing.
Further, it please continue to refer to Fig. 3, in one embodiment, is provided on hinge seat 31 and the first inserting hole 42
Corresponding second inserting hole 311, fixing piece 50 are further inserted in the second inserting hole 311.
Specifically, the shape of the second inserting hole 311 is matched with fixing piece 50, so that fixing piece 50 is passing through the first plant
Behind hole 42, it is further inserted into the second inserting hole 311 with hinge seat 31 is fixed, to reduce hinge seat 31 in hinge chamber 41
Shaking so that hinge 30 is fixed stronger.Specifically, with the connection type phase of the first inserting hole 42 and fixing piece 50
Seemingly, it may be provided with the screw thread to match each other on outer wall corresponding with fixing piece 50 on the inner sidewall of the second inserting hole 311, so that
Fixing piece 50 is screwed together with hinge seat 31;Alternatively, the corresponding position contacted of the inner wall of the second inserting hole 311 and fixing piece 50
The lateral wall at the place of setting is smooth face, and fixing piece 50 and the second inserting hole 311 are interference fitted, are not specifically limited herein.
Further, the second inserting hole 311 can be also arranged through the two sides of hinge seat 31, so that 50 energy of fixing piece
Entire hinge seat 31 is enough penetrated further into, hinge seat 31 is so stronger that be fixed in hinge chamber 41.
Further referring to Fig. 4, Fig. 4 be in Fig. 2 hinge component 122 along the cross-sectional view of A-A axis.In present embodiment,
On the section of the length direction perpendicular to rod-like element 40, the cross sectional shape phase of the cross sectional shape and hinge chamber 41 of hinge seat 31
Match, so that forming sealing cooperation between hinge seat 31 and rod-like element 40 after such insertion.
Wherein, on the section shown in Fig. 4, the cross sectional shape of hinge seat 31 and the cross sectional shape of hinge chamber 41 can be
Arbitrary shape, as long as hinge seat 31 is enabled to be inserted into the hinge chamber 41 from the end face of the separate hinge arms 32 of rod-like element 40
?.Further, the first inserting hole 42 is arranged on the side wall of hinge chamber 41, and penetrates through the side wall and hinge chamber of hinge chamber 41
41 connections.
In an application scenarios, the cross sectional shape of hinge seat 31 and the cross sectional shape of hinge chamber 41 are in rectangle setting,
First inserting hole 42 is arranged perpendicular to a side of rectangle.
Specifically, in this application scene, can the further corner angle to 31 lateral wall of hinge seat or hinge chamber 41 inside
The rounding of angle angle of wall is arranged, so that hinge seat 31 and the contact of hinge chamber 41 are more smooth, so that hinge seat 31 can be suitable
It is so sharp that be inserted into hinge chamber 41.
It is further noted that a certain amount of gas is stored in hinge chamber 41 before the assembly of hinge 30, if therefore
Hinge chamber 41 is only cavity open at one end, then will be difficult to be discharged due to the gas in hinge chamber 41 in assembling process
And it is unfavorable for the insertion of hinge seat 31, to influence to assemble.The side of the first inserting hole 42 perforation hinge chamber 41 in present embodiment
Wall and be connected to hinge chamber 41, can be assisted internal gas in assembling process through hinge chamber 41 by the first inserting hole 42
Discharge, to facilitate the normal assembly of hinge 30.
It is the structural schematic diagram of one embodiment of the application hinge component further referring to Fig. 5, Fig. 5.The application hinge
In 122 embodiment of component, hinge component 122 further comprises the connecting line 60 for being set to 30 outside of hinge.
Wherein, connecting line 60 can be the connecting line 60 with electric connection effect and/or mechanical connection effect.It is applying
When in the glasses in the above-mentioned glasses embodiment of the application, hinge component 122 is used to functor 20 being connected to temple master
End of the body 121 far from spectacle-frame 11, and control circuit relevant to functor 20 etc. may be disposed in temple main body 121,
At this time, it may be necessary to which functor 20 and the control circuit etc. in temple main body 121 are electrically connected by connecting line 60.Specifically, even
Wiring 60 can be located at the side of hinge seat 31 and hinge arms 32, be set in one accommodation space with hinge 30.
Further, hinge seat 31 includes first end face 312, and hinge arms 32, which have, to be oppositely arranged with first end face 312
Second end face 321, it is readily appreciated that ground, there are certain gaps between first end face 312 and second end face 321, so that hinge
Seat 31 and hinge arms 32 33 can be relatively rotated around the shaft.In present embodiment, carried out in hinge arms 32 and hinge seat 31
In relative rotational motion, the variation of relative position also occurs between first end face 312 and second end face 321 therewith, so that
Gap between the two becomes larger or becomes smaller.
And in present embodiment, the gap between first end face 312 and second end face 321, which remains, to be more than or less than
The diameter of connecting line 60, so that the connecting line 60 for being located at 30 outside of hinge is unlikely to the phase in hinge seat 31 and hinge arms 32
To in the gap sandwiched between first end face 312 and second end face 321 in rotation process, and then hinge is reduced to connecting line 60
Damage.Specifically, the gap between first end face 312 and second end face 321 carries out opposite turn in hinge arms 32 and hinge seat 31
Can be remained with the ratio of the diameter of connecting line 60 greater than 1.5 or less than 0.8 during dynamic, be greater than 1.5,1.7,
1.9,2.0 etc., or less than 0.8,0.6,0.4,0.2 etc., be not specifically limited herein.
It is the original of protection sleeve pipe in one embodiment of the application hinge component also referring to Fig. 1, Fig. 6 to Fig. 9, Fig. 6
State diagram, Fig. 7 are the partial cross-sectional views of the reset condition of protection sleeve pipe in one embodiment of the application hinge component, and Fig. 8 is this
Apply for the bending state figure of protection sleeve pipe in one embodiment of hinge component, Fig. 9 is in one embodiment of the application hinge component
The partial cross-sectional view of the bending state of protection sleeve pipe.In present embodiment, hinge component 122 can also further comprise protection sleeve pipe
70。
Specifically, which is set in the periphery of hinge 30, and bends with hinge 30, wherein protection sleeve pipe
70 include along protection sleeve pipe 70 the spaced multiple cyclic annular convex ridge portions 71 of length direction and be set to cyclic annular convex ridge portion 71
Between and the loop connecting portion 72 for connect be disposed adjacent two cyclic annular convex ridge portions, wherein the thickness of pipe wall in ring-type convex ridge portion 71
Degree is greater than the pipe thickness in loop connecting portion 72.
Wherein, the length direction of length direction with hinge 30 of protection sleeve pipe 70 is consistent, and protection sleeve pipe 70 specifically can be along hinge
Chain seat 31 and the setting of the length direction of hinge arms 32.The protection sleeve pipe 70 can be made by soft material, such as soft silica gel,
Rubber etc..
Cyclic annular convex ridge portion 71 can be protruded further out by the lateral wall of protection sleeve pipe 70 to be formed, and cyclic annular convex ridge portion 71 is right
The shape of the inner sidewall for the protection sleeve pipe 70 answered is not specifically limited herein.For example, inner sidewall can be smooth or inside
Also settable recess in the position in corresponding ring-type convex ridge portion 71 etc. on wall.
Loop connecting portion 72 is specifically connected to the close guarantor in cyclic annular convex ridge portion 71 for connecting adjacent cyclic annular convex ridge portion 71
Fringe region inside protecting pipe 70, thus can be relative to cyclic annular convex ridge portion 71 in recess in the lateral wall side of protection sleeve pipe 70
Setting.
Specifically, the quantity in cyclic annular convex ridge portion 71 and loop connecting portion 72 can according to actual use situation depending on, for example,
It can be according to the length of protection sleeve pipe 70, cyclic annular convex ridge portion 71 and loop connecting portion 72 itself on 70 length direction of protection sleeve pipe
Width situations such as set.
Further, the pipe thickness in cyclic annular convex ridge portion 71 and loop connecting portion 72 refers respectively to cyclic annular convex ridge portion 71 and ring
Thickness between the inner sidewall and lateral wall of protection sleeve pipe 70 corresponding to shape interconnecting piece 72.In present embodiment, cyclic annular convex ridge
The pipe thickness in portion 71 is greater than the pipe thickness in loop connecting portion 72.
It is readily appreciated that ground, between the hinge seat 31 and hinge arms 32 of hinge 30 when 33 relative rotation around the shaft, hinge seat
Angle between 31 and hinge arms 32 changes, so that protection sleeve pipe 70 is bent, as shown in figs. 8 and 9.Tool
Body, when protection sleeve pipe 70 is bent with hinge 30, the lateral area of bending shape is formed by positioned at protection sleeve pipe 70
Cyclic annular convex ridge portion 71 and loop connecting portion 72 be in tensional state, and be located at the cyclic annular convex ridge portion of the inside region of bending shape
71 and loop connecting portion 72 be in squeezed state.
In present embodiment, the pipe thickness in cyclic annular convex ridge portion 71 is greater than the pipe thickness in loop connecting portion 72, to make
It is harder relative to loop connecting portion 72 to obtain cyclic annular convex ridge portion 71, thus when protection sleeve pipe 70 is in bending state, in bending
The protection sleeve pipe 70 of the external side of shape is in tensional state, and cyclic annular convex ridge portion 71 can provide certain for protection sleeve pipe 70
Strength support;Meanwhile 70 region of protection sleeve pipe of the interior side in bending state is squeezed, cyclic annular convex ridge portion 71 can also
Certain extruding force is enough born, to play a protective role to protection sleeve pipe 70, the stability of protection sleeve pipe 70 is improved, extends and protect
The service life of protecting pipe 70.
Further, it should be pointed out that the shape of protection sleeve pipe 70 is consistent with 30 state in which of hinge.It is answered at one
With in scene, the two sides that are upper along its length and rotating around the axis of protection sleeve pipe 70 all may be stretched or squeeze.?
In another application scenarios, the hinge seat 31 and hinge arms 32 of hinge 30 only 33 can be less than or equal to 180 ° of model around the shaft
Enclose interior rotated, that is to say, that protection sleeve pipe 70 can only be bent towards side, then protection sleeve pipe 70 along length
The two sides side Zhong You on direction can be squeezed, and the other side can be stretched, at this point it is possible to according to 70 two sides of protection sleeve pipe by
The difference of power, and different structures is set by the different two sides of 70 stress of protection sleeve pipe.
In one embodiment, cyclic annular convex ridge portion 71 is when protection sleeve pipe 70 is in bending state towards 70 institute of protection sleeve pipe
The width along 70 length direction of protection sleeve pipe of side is greater than towards bending shape interior side outside the bending shape of formation
Along the width of 70 length direction of protection sleeve pipe.
Wherein, along 70 length direction of protection sleeve pipe, the width for increasing cyclic annular convex ridge portion 71 can further increase protection
The intensity of casing.Meanwhile in present embodiment, the angle of the initial angle between hinge seat 31 and hinge arms 32 less than 180 °,
At this point, if the cyclic annular convex ridge portion 71 of protection sleeve pipe 70 is uniformly arranged, can make protection sleeve pipe 70 in the original state just by
It squeezes.In present embodiment, towards the cyclic annular convex ridge portion 71 of the lateral area side of bending shape when corresponding to bending state
Width is larger, so as to expand the length of the side protection sleeve pipe 70, thus while improving the intensity of protection sleeve pipe 70, also
So that reducing the level of stretch of tensile side to a certain extent when protection sleeve pipe 70 is bent;Meanwhile cyclic annular convex ridge portion 71 is being protected
Towards the width along 70 length direction of protection sleeve pipe of the inside region side of bending shape when protecting pipe 70 is in bending state
It is smaller, it is capable of increasing space of the loop connecting portion 72 of extruding on 70 length direction of protection sleeve pipe, so as in certain journey
Alleviate the extruding of squeeze side on degree.
Further, in an application scenarios, the width in cyclic annular convex ridge portion 71 is from the outside area towards bending shape
Domain one gradually becomes smaller laterally towards the interior zone side of bending shape, so that court when protection sleeve pipe 70 is in bending state
The width for being formed by the lateral area side of bending shape to protection sleeve pipe 70 is greater than the inside region one towards bending shape
The width of side.
It is readily appreciated that ground, cyclic annular convex ridge portion 71 surrounds the periphery that protection sleeve pipe 70 is arranged in, in the length of protection sleeve pipe 70
On direction, side corresponds to tensile side, and the other side corresponds to squeeze side.In present embodiment, the width in cyclic annular convex ridge portion 71 is from direction
The lateral area one of bending shape gradually becomes smaller laterally towards the inside region side of bending shape, so that width is more
Uniformly, the stability of protection sleeve pipe 70 can be improved to a certain extent.
Wherein, in one embodiment, cyclic annular convex ridge portion 71 is when protection sleeve pipe 70 is in bending state towards protective case
Pipe 70 is formed by the setting of the inner ring surface inside the protection sleeve pipe 70 of the lateral area side of bending shape fluted 711.
Specifically, the groove 711 in present embodiment is arranged along the length direction perpendicular to protection sleeve pipe 70, so that
Corresponding ring-type convex ridge portion 71 is able to carry out stretching, extension appropriate when protection sleeve pipe 70 is stretched in the longitudinal direction.
As described above, being formed by outside bending shape when protection sleeve pipe 70 is in bending state towards protection sleeve pipe 70
The protection sleeve pipe 70 of portion side is in tensional state, further corresponding in corresponding cyclic annular convex ridge portion 71 in present embodiment
Groove 711 is set on the inner ring surface inside protection sleeve pipe 70, so as to which when the side protection sleeve pipe stretches, groove 711 is corresponding
Cyclic annular convex ridge portion 71 can suitably stretch to undertake part stretching, to reduce pulling force suffered by the side protection sleeve pipe, into
And it plays a protective role to protection sleeve pipe 70.
It should be pointed out that when protection sleeve pipe 70 is in bending state, towards the side of the inside region of bending shape
Cyclic annular convex ridge portion 71 can be not provided with groove 71 on the inner sidewall of corresponding protection sleeve pipe 70.In one embodiment, groove
71 along 70 length direction of protection sleeve pipe width from the lateral area one towards bending shape laterally towards in bending shape
Side region side gradually becomes smaller, so that corresponding to the cyclic annular convex ridge portion 71 of the inside region side towards bending shape
There is no the setting of groove 711 on the inner sidewall of protection sleeve pipe 70.
Specifically, the glasses that hinge component 122 in the present embodiment is applied in the application glasses embodiment are worked as
When middle, protection sleeve pipe 70 can be separately positioned on protection sleeve pipe 70 length direction on two sides temple main body 121 and
Functor 20 links together.In an application scenarios, protection sleeve pipe 70 can also be for the other structures in glasses more for example
Protective coating of component etc. is integrally formed, so that glasses are more closed, one.
It should be pointed out that the hinge component 122 in the application in hinge component embodiment not only can be only used for this
Apply glasses embodiment in glasses, can be also used in other devices, and hinge component 122 can also include in addition to
Other components associated with hinge 30 except above-mentioned rod-like element 40, fixing piece 50, connecting line 60, protection sleeve pipe 70 etc. are with reality
Now corresponding function.
Specifically, please further together refering to fig. 10 to Figure 14, Figure 10 is the partial cutaway of one embodiment of the application hinge
Face figure, Figure 11 are the enlarged drawings of part A in Figure 10, and Figure 12 is that part B is supported by the first supporting surface and third supporting surface in Figure 11
Connect junction and the third for abutting transformation with third supporting surface to the second supporting surface and making the first supporting surface and the second supporting surface
Enlarged drawing when supporting surface initially contacts, Figure 13 is the partial cutaway view of one embodiment of the application hinge, and Figure 14 is C in Figure 13
Partial enlarged drawing.It should be pointed out that the hinge 30 in the application hinge embodiment can be used for the application glasses embodiment party
In glasses in formula, it can also be used to which the hinge component 122 in the application hinge component embodiment can also be applied to other
In device, it is not specifically limited herein.
In present embodiment, the hinge arms 32 of hinge 30 have the first supporting surface 322 and the second supporting surface that are connected to each other
323。
Hinge 30 further includes supporting element 34 and elastic component 35.Supporting element 34 is movably set on hinge seat 31, and has the
Three supporting surfaces 341, elastic component 35 is used to supporting element 34 carrying out elastic biasing towards hinge arms 32, so that third supporting surface
341 elasticity can be connected on the first supporting surface 322 and the second supporting surface 323 respectively.
Wherein, in hinge arms 32 by external force and when opposite from hinge seat 31 is rotated, by 322 He of the first supporting surface
The junction 324 of second supporting surface 323 pushes supporting element 34 to overcome the elastic biasing of elastic component 35 and move backward, so that
Third supporting surface 341 from one of the first supporting surface 322 and the second supporting surface 323 elasticity abuts be switched to and first support
The other of face 322 and the second supporting surface 323 elasticity abut.
In an application scenarios, elastic component 35 is arranged in towards one end of hinge arms 32 in the connection of supporting element 34, and makes
Third supporting surface 341 is towards 32 side of hinge arms, in by external force and around the shaft 31 turns of the 33 opposite from hinge seat of hinge arms 32
In dynamic process, third supporting surface 341 can be pushed and supporting element 34 is made to oppress elastic component 35, and further in elastic component 35
Under the action of elastic biasing occurs.Certainly, supporting element 34 can also be not connected to elastic component 35, and be only to be connected to supporting element
34 side, as long as supporting element 34 is enabled to realize above-mentioned elastic biasing.
Wherein, the first supporting surface 322 and the second supporting surface 323 be respectively the adjacent of hinge arms 32 and at least partly with turn
Two sides of the axis parallel of axis 33 or a part of two sides are rotated in 32 opposite from hinge seat 31 of hinge arms
When, the first supporting surface 322 and the second supporting surface 323 rotate with hinge arms 32 around shaft 33, so that hinge arms 32
Not ipsilateral towards hinge seat 31 so that hinge arms 32 can have different relative positions to close relative to hinge seat 31
System.
In addition, elastic component 35 is to be capable of providing elastic force and can compress on elastic force direction to provide certain compression space
Component.For example, elastic component 35 can be spring, one end of spring abuts supporting element 34, in the third supporting surface of supporting element 34
341 by impetus towards elastic component 35 when, elastic component 35 revolts supporting element 34 and compression occurs simultaneously to be supporting element 34
341 directions of third supporting surface direction on space is provided so that when the relative position of shaft 33 is constant, still have enough
The space side that makes hinge arms 32 different turn between shaft 33 and third supporting surface 341.
Specifically, when hinge arms 32 are rotated relative to hinge seat 31, the relative position of shaft 33 does not change, hinge
Arm 32 and the contact position of the third supporting surface 341 of hinge seat 31 change, and since the different positions of hinge arms 32 are arrived
The distance of shaft 33 is different, therefore, such as the first supporting surface 322 and the second supporting surface 323 in the different positions of hinge arms 32
When different location and third supporting surface 341 contact, the contact of the shaft 33 of the needs to hinge arms 32 and third supporting surface 341
Space between point is different.And limited by elastic force effect and space etc., the space that elastic component 35 is compressed and provided may be
It is limited.Therefore, during hinge arms 32 are rotated relative to hinge seat 31, in the section of the central axes perpendicular to shaft 33
If a certain position is excessive at a distance from shaft 33 in upper hinge arms 32, which will be fastened in third support during rotation
Another location on face and hinge arms 32 can not be made to continue to rotate so that hinge arms 32 and hinge seat 31 only can be one
It is relatively rotated in fixed range.In an application scenarios, 33 relatively rotated around the shaft between hinge arms 32 and hinge seat 31
During, the only company of the first supporting surface 322 and the second supporting surface 323 and the first supporting surface 322 and the second supporting surface 323
Connecing region corresponding to place 324 can abut with third supporting surface 341.
Further, in present embodiment, the first supporting surface 322 and the second supporting surface 323 can be plane, shaft 33
Distance to the junction of the two 324 be all larger than the 33 to the first supporting surface of shaft 322 distance and to second supporting surface 323 away from
Can have that third supporting surface 341 is connected to the first supporting surface 322 and third supporting surface 341 is connected to second from, hinge 30
323 two kinds of support face relatively steady state.
Certainly, in the present embodiment, the first supporting surface 322 and the second supporting surface 323 are also likely to be with certain radian
Curved surface, even may also include different sub- supporting surfaces, as long as the position between hinge arms 32 and hinge seat 31 is enabled to close
System has corresponding at least two relatively steady state, is not specifically limited herein.In addition, can be in hinge arms 32
Other more supporting surfaces are set, to be relatively rotated between 33 and hinge seat 31 around the shaft in hinge arms 32 by external force
When, elasticity is occurred with third supporting surface 341 by supporting surface different in hinge arms 32 and is abutted so that hinge arms 32 and hinge
There are a variety of different relative positional relationships between seat 31, be not specifically limited herein.
It specifically, is for the first supporting surface 322 is abutted with the third supporting surface 341 of supporting element 34, to have by original state
Body is as shown in Figures 10 and 11.Elastic component 35 can have elastic compression deformation at this time, also may be at original natural shape
State, herein without limitation.Occur that hinge arms 32 33 relatively with hinge seat 31 around the shaft in hinge 30
When being rotated such that the second supporting surface 323 moves closer to third supporting surface 341, the first supporting surface 322 and the second supporting surface 323
Junction 324 is contacted with third supporting surface 341, is turned since the distance of junction 324 to shaft 33 is arrived greater than the first supporting surface 322
The distance of axis 33, so that junction 324 abuts supporting element 34 and the mobile direction towards elastic component 35 of supporting element 34 is pushed to move
It is dynamic, so that elastic component 35 overcomes thrust and generates compression.And in 32 further stress of hinge arms, junction 324 is gradually
Close to the region between third supporting surface 341 of shaft 33, in the process, between shaft 33 to third supporting surface 341
Distance is gradually increased;Ground is readily appreciated that, when the line of junction 324 and shaft 33 is perpendicular to third supporting surface 341, vertical
In on the section of the central axes of shaft 33, the distance of shaft 33 to third supporting surface 341 be equal to shaft 33 to junction 324 away from
From shaft 33 is farthest apart from third supporting surface 341 at this time;And at this moment, if continuing to exert a force to hinge 30, shaft 33 arrives third
The distance of supporting surface 341 will gradually become smaller, so that the space that required elastic component 35 compresses reduces, and so that elasticity
Part 35 gradually discharges elastic force and replys, and until third supporting surface 341 is left in junction 324 and makes the second supporting surface 323 and
Three supporting surfaces 341 abut, and abut to the second supporting surface 323 and the to realize from the first supporting surface 322 and third supporting surface 341
Switching between three supporting surfaces 341 abutting.
Similarly, original state for the second supporting surface 323 is abutted with the third supporting surface 341 of supporting element 34 and to first
Supporting surface 322 abutted with the third supporting surface 341 of supporting element 34 conversion process (specifically as shown in figure 13 and figure 14) with it is upper
It is similar to state process.
It should be pointed out that the hinge 30 in present embodiment can be applied to the hinge set in the application glasses embodiment
In part 122.In an application scenarios, functor 20 is osteoacusis loudspeaker mechanism 21, in third supporting surface 341 from first
One of supporting surface 322 and the second supporting surface 323 elasticity, which abut, to be switched to and the first supporting surface 322 and the second supporting surface 323
The other of elasticity when abutting, hinge component 122 drives osteoacusis loudspeaker mechanism 21 can be the relative to temple main body 121
It is switched between one fixed position relative and the second fixed position relative, and is in first relatively in osteoacusis loudspeaker mechanism 21
The auricle back side of user can be fitted in when fixed position.
Specifically, first fixed position relative such as in Figure 15 institute of the osteoacusis loudspeaker mechanism 21 relative to temple main body 121
Show, the second fixed position relative relative to temple main body 121 is as shown in fig. 1.
Wherein, auricle is a part of external ear, is mainly made of cartilage.In present embodiment, loudspeaker mechanism is conformed to
The auricle back side, and then bond-conduction sound/vibration is transmitted using the cartilage of auricle.Loudspeaker mechanism is closed in dorsum auriculae face paste,
While improving sound quality, additionally it is possible to reduce the influence in sound transmittance process to ear canal.
It should be pointed out that the distance of shaft 33 to junction 324 is all larger than to the first supporting surface 322 and the second supporting surface
323 vertical range so that third supporting surface 341 from one of the first supporting surface 322 and the second supporting surface 323
Elasticity abut be switched to the other of the first supporting surface 322 and the second supporting surface 323 elasticity abut during hinge 30
State a degree of jump occurs.
It is abutted with the first supporting surface 322 with 341 elasticity of third supporting surface and is switched to the second supporting surface 323 and third supporting surface
For 341 elasticity abut, shaft 33 arrives the maximum distance h of junction 3241With the most short distance of the 33 to the first supporting surface of shaft 322
From h2Between ratio difference when, the degree of the jump generated in handoff procedure is different.
In one embodiment, on the section of the central axes perpendicular to shaft 33, shaft 33 arrives the maximum of junction 324
Distance h1With the shortest distance h of the 33 to the first supporting surface of shaft 3222Between ratio between 1.1 and 1.5.
Specifically, can and by shaft 33 far from the second supporting surface 323 the close hinge opposite with the second supporting surface 323
The one side of chain arm 32 is arranged, and Lai Shixian shaft 33 arrives the maximum distance h of junction 3241Greater than the 33 to the first supporting surface of shaft
322 shortest distance h2, and then meet aforementioned proportion.
It is pointed out that h1With h2Between ratio it is excessive when, jump is obvious, but may need to apply biggish power
First supporting surface 322 can be abutted with 341 elasticity of third supporting surface and be switched to the second supporting surface 323 and third supporting surface by degree
341 elasticity abut, to make troubles to a certain extent for use;And h1With h2Between ratio it is too small when, although state
Switching is relatively easy to, but it is smaller to jump degree, such as does not have apparent sense of touch when user pulls hinge 30, thus
It can make troubles.In present embodiment by h1With h2Ratio setting be between 1.1 and 1.5, enable to third to support
Face 341 from is abutted with the elasticity of the first supporting surface 322 be switched to abutted with 323 elasticity of the second supporting surface when, hinge 30 with compared with
Significantly to jump, so that in use, user has more apparent feel when pulling hinge 30, while also not
It is too lofty as transitional states and user is made to be difficult to switch the state of hinge 30.
In an application scenarios, h1With h2Ratio can also be between 1.2 and 1.4, specifically, h1With h2Ratio
Example can also be 1.1,1.2,1.3,1.4,1.5 etc., be not specifically limited herein.
In addition, the setting of the position of the first supporting surface 322 and the second supporting surface 323 in hinge arms 32 will affect third branch
Folder when support face 341 is abutted with one of the first supporting surface 322 or the second supporting surface 323 between hinge arms 32 and hinge seat 31
The angle at angle therefore can be according to specific use demand, and to the first supporting surface 322 and the second supporting surface 323 in hinge arms 32
On position carry out different settings.Wherein, the angle between hinge arms 32 and hinge seat 31 specifically as depicted in figure 10 and figure 13,
ω1Angle when being abutted for third supporting surface 341 with the first supporting surface 322 between hinge arms 32 and hinge seat 31, ω2For third
Angle when supporting surface 341 is abutted with the second supporting surface 323 between hinge arms 32 and hinge seat 31.In one embodiment, it cuts with scissors
Chain arm 32 and hinge seat 31 all have certain length, and the end one on the length direction of hinge seat 31 is arranged in hinge arms 32
Side, the end on 32 length direction of hinge arms close to hinge seat 31 is arranged in the first supporting surface 322, and the second supporting surface 323 is set
One end in 32 width direction of hinge arms is set, and is arranged each parallel to the central axes of shaft 33.At this point, working as third supporting surface
341 with the elasticity of the first supporting surface 322 when abutting, the angle maximum between hinge arms 32 and hinge seat 31, and in third supporting surface
341 with the elasticity of the second supporting surface 323 when abutting, and the angle between hinge arms 32 and hinge seat 31 is minimum, thus in third support
Face 341 from is abutted with the elasticity of the first supporting surface 322 be switched to the second supporting surface 323 is elastic abut when, hinge seat 31 and hinge
Angle between arm 12 is by ω1Become ω2And become smaller.
It is further noted that if third supporting surface 341 is switched to from abutting with the elasticity of the first supporting surface 322 and
The direction for the power that hinge arms 32 are applied when second supporting surface, 323 elasticity abuts and the direction one of 32 self gravity of hinge arms
Cause, then when the switching meeting of the state is so that the angle between hinge seat 31 and hinge arms 12 becomes smaller, in present embodiment on
State h1With h2Between the setting of ratio be also possible that when 322 elasticity of third supporting surface 341 and the first supporting surface abuts, cut with scissors
Chain arm 32 will not or be difficult to spontaneous because of self gravity must reduce its angle between hinge seat 31.
Wherein, in one embodiment of the application hinge, Figure 12 is please referred to, in the section of the central axes perpendicular to shaft 33
On, the angle ω between the first supporting surface 322 and the second supporting surface 3233For obtuse angle.
Wherein, hinge 30 is from the state that 341 elasticity of the first supporting surface 322 and third supporting surface abuts to the second supporting surface
When 323 states abutted with 341 elasticity of third supporting surface switch, the angle between the first supporting surface 322 and the second supporting surface 323
ω3It is smaller, then it is bigger relative to the angle for needing to rotate between hinge seat 31 and hinge arms 32 when state switches, that is to say, that
When hinge seat 31 is fixed, user, which needs to pull hinge arms 32 biggish angle, to cut 30 carry out state of hinge
It changes, so that user is laborious to use, makes troubles to user's use.
And since hinge arms 32 have certain length, and the first supporting surface 322 is set to the length direction of hinge arms 32
On one end, and the second supporting surface 323 is disposed adjacent with the first supporting surface 322 in the width direction of hinge arms 32.Usual feelings
Under condition, the first supporting surface 322 is vertically arranged with the second supporting surface 323, at this point, carrying out between above two state in hinge 30
When switching, need hinge arms 32 and hinge seat 31 pulling 90 ° relatively.
And in present embodiment, on the section of the central axes perpendicular to shaft 33, the first supporting surface 322 and the second support
Angle ω between face 3233For obtuse angle, thus when hinge 30 switches between two states, institute's hinge arms 32 and hinge seat
The opposite angle pulled is less than 90 ° required for 31, so as to provide convenience to a certain extent for user.
Specifically, when hinge 30 in the present embodiment is in the application glasses embodiment, hinge 30 is for connecting
Temple main body 121 and osteoacusis loudspeaker mechanism 21 are connect, is in the second supporting surface 323 and 341 elasticity of third supporting surface in hinge 30
When the second state abutted, osteoacusis loudspeaker mechanism 21 is in the first fixed position relative to fit in the auricle back side of user,
Therefore when user needs the function using the osteoacusis loudspeaker mechanism 21 of glasses, it is only necessary to rotate osteoacusis loudspeaker mechanism 21
Angle less than 90 ° can be fitted in the auricle back side of user;In addition, being in the first supporting surface 322 and in hinge 30
When the first state that three supporting surfaces, 341 elasticity abuts, the osteoacusis loudspeaker mechanism 21 of hinge arms 32 and connection forms certain angle
Degree, so that the osteoacusis loudspeaker mechanism 21 of hinge arms 32 and connection can be located at after user's ear and court in user's wearing spectacles
It is arranged to the direction of user's ear, so as to play certain obstruction, fixed function to glasses, is not easy to fall from user's head
It falls.
It should be pointed out that the angle ω between the first supporting surface 322 and the second supporting surface 3233Specific angle can be with
It is set according to actual needs.When the angle of the angle is excessive, hinge arms 32 and hinge arms 32 are connected to far from hinge seat
Angle between the functor 20 and hinge seat 31 of 31 end will be smaller, thus when user wears, hinge arms 32 and function
Part 20 can cause to oppress due to too close to user's ear to user's ear, reduce the comfort level of user;And if the angle of angle
It is too small, one side user pull osteoacusis loudspeaker mechanism 21 and make its between the first relative position and the second relative position into
When row switching, the required angle pulled is excessive, and user is inconvenient to use, on the other hand, temple main body 121 and hinge 30 and bone
It is smaller and be difficult to play the role of obstruction, the fixation to glasses that angle is formed by between conduction loudspeaker mechanism 21, so that
When user's wearing spectacles, glasses are easy to fall on front side of user's head.Specifically, first can be arranged according to the head dummy of user
The specific angle of angle between support face 322 and the second supporting surface 323.
Specifically, in an application scenarios, on the section of the central axes perpendicular to shaft 33, the first supporting surface 322
And the second angle ω between supporting surface 3233Angle between 100 ° and 120 °, be specifically as follows 100 °, 110 °, 120 °
Deng.The setting of the angle, enables to user in wearing spectacles and osteoacusis loudspeaker mechanism 21 is in the first fixed position relative
When, osteoacusis loudspeaker mechanism 21 will not cause discomfort too close to user's ear and to user's ear, and to osteoacusis loudspeaking
Without hinge to be rotated to excessive angle when two kinds of relative positions of mechanism 21 switch over, thus user-friendly.
Wherein, it is abutted in third supporting surface 341 from one of the first supporting surface 322 and the second supporting surface 323 elasticity
It is switched in the process abutted with the other of the first supporting surface 322 and the second supporting surface 323 elasticity, the first supporting surface
322 and the second junction 324 between supporting surface 323 abut third supporting surface 341, and supporting element 34 is pushed to overcome elastic component 35
Elastic biasing and move backward.For switching preceding third supporting surface 341 and be abutted with 322 elasticity of the first supporting surface, initial
When switching, while the first supporting surface 322 is gradually distance from third supporting surface 341, junction 324 gradually abuts third supporting surface
341, and in handoff procedure, the other side of third supporting surface 341 is slid by the side of third supporting surface 341, most laggard one
Step, which is transitted to, to be abutted by the second supporting surface 323 with 341 elasticity of third supporting surface.In stateful switchover process, junction 324 is always
It abuts and interacts with third supporting surface 341, and the shape of junction 324 can generate certain shadow to stateful switchover process
It rings.For example, if line connects between the first supporting surface 322 and the second supporting surface 323, then, junction 324 has more sharp
Angle, to be pulled in the stateful switchover process of hinge seat 31 and/or hinge arms 32 to carry out hinge 30 in user, on the one hand,
Junction 324 abut with third supporting surface 341 abutted with junction 324 with the first supporting surface 322 and the second supporting surface 323 into
When row switching, buffering is smaller, and switching is lofty, so that the feel for pulling hinge 30 is poor;On the other hand, junction 324 is more sharp,
Certain abrasion can be caused to third supporting surface 341 in handoff procedure repeatedly.
And in one embodiment of the application, on the section of the central axes perpendicular to shaft 33, junction 324 is arc-shaped to be set
It sets.So that the first supporting surface 322 is that cambered surface is connect, and then is cut in the state of hinge 30 with the connection of the second supporting surface 323
In the process changed, the junction 324 abutted with third supporting surface 341 is more smooth, so that user has when pulling hinge 30
Preferable feel, and the damage in handoff procedure repeatedly to third supporting surface 341 can be reduced.
Specifically, in one embodiment, junction 324 is arranged in circular arc, and the curvature of circular arc is different, brought by
Effect is also different, and specific curvature value needs that actual use situation is combined to be configured.The curvature of circular arc is situated between in present embodiment
It specifically can also be 5,10,15,20,25,30 etc., herein without limitation between 5 and 30.
It should be pointed out that when hinge 30 in the present embodiment is applied to the glasses in above-mentioned glasses embodiment,
The curvature of the junction 324 of circular arc setting enables to user pulling hinge 30 so that bone-conduction speaker is opposite first
When switching between fixed position and the second fixed position relative, there is preferable feel.
In one embodiment, third supporting surface 341 be arranged so that third supporting surface 341 from the first supporting surface
322 elasticity abut be switched to external force required when being abutted with the elasticity of the second supporting surface 323 different from third supporting surface 341 from
Second supporting surface, 323 elasticity, which abuts, is switched to external force required when abutting with 322 elasticity of the first supporting surface.
It should be pointed out that in specific usage scenario, hinge 30 corresponding to the different state of hinge 30 or
The function of the structure that hinge 30 is connected is different, or due to the position problems that hinge 30 is arranged, and make a certain state to
Another state is not easy to the reasons such as user's force, and needs when state of the user to hinge 30 switches over when switching over
It is distinguished in the dynamics for pulling hinge 30, to facilitate user to exert a force, or distinguishes two kinds of hinge states for user and provide directly
The impression etc. of sight.
Specifically, when hinge 30 in the present embodiment is applied in above-mentioned glasses, the switching of 30 state of hinge can band
Dynamic osteoacusis loudspeaker mechanism 21 relative to temple main body 121 between the first fixed position relative and the second fixed position relative into
Row switching.Accordingly, two kinds of fixed position relatives respectively correspond user using osteoacusis loudspeaker mechanism 21 and user without using bone
21 two kinds of situations of loudspeaker mechanism are conducted, and user is in wearing spectacles, hand is applied when back head exerts a force to switch two states
The complexity of power is not identical, is accordingly the external force being necessary to apply different by the switched design of different conditions therefore, can
Aspect user uses.
Specifically, in one embodiment, when third supporting surface 341 is switched to from elastic abut of the first supporting surface 322
When being abutted with the elasticity of the second supporting surface 323, pulled by the second fixed position relative to the corresponding to by osteoacusis loudspeaker mechanism 21
One fixed position relative is to fit in the auricle back side of user.
Further, in present embodiment, third supporting surface 341 is arranged so that in third supporting surface 341 from first
322 elasticity of supporting surface, which abuts, is switched to external force required when abutting with 323 elasticity of the second supporting surface less than in third supporting surface 341
From is abutted with the elasticity of the second supporting surface 323 be switched to the first supporting surface 322 is elastic abut when required external force.
It should be pointed out that when using osteoacusis loudspeaker mechanism 21, being needed third branch when being applied to above-mentioned glasses
Support face 341 is abutted with 323 elasticity of the second supporting surface from abutting to be switched to the elasticity of the first supporting surface 322, and is not using bone biography
When leading loudspeaker mechanism 21, need for third supporting surface 341 to be switched to and third supporting surface from elastic abut of the second supporting surface 323
341 elasticity abut, and according to the present embodiment, when user is using osteoacusis loudspeaker mechanism 21, the power of required application is less than and is not required to
The power applied required for osteoacusis loudspeaker mechanism 21 is used, so as to the bone of user-friendly glasses to a certain extent
Conduct the function of loudspeaker mechanism 21.
Specifically, also referring to Figure 12 and Figure 14, in an application scenarios, in third supporting surface 341 from first
322 elasticity of supporting surface is abutted to when abutting switching with 323 elasticity of the second supporting surface, and the initial contact of junction 324 is supported in third
The first position 3411 in face 341, third supporting surface 341 from abutted with 323 elasticity of the second supporting surface to the first supporting surface 322
Elasticity abut switching when, junction 324 initially contact in the second position of third supporting surface 341 3412, wherein perpendicular to turn
On the section of the central axes of axis 33, first position 3411 is with the contact point of elastic component 35 and supporting element 34 along the elasticity of elastic component 35
Distance d in biased direction1Less than the second position 3412 with contact point the distance d along elastic biasing direction2。
It should be pointed out that when third supporting surface 341 and 322 elasticity of the first supporting surface are supported, junction 324 is located at close to the
The position of one end of three supporting surfaces 341, and when third supporting surface 341 is abutted with 323 elasticity of the second supporting surface, junction 324
Positioned at the position of the other end close to third supporting surface 341.Therefore, above-mentioned first position 3411 and the second position 3412 are distinguished
Positioned at the both ends of third supporting surface 341.That is, in present embodiment, the third supporting surface 341 of supporting element 34
By the position of two close end at a distance from the contact point of elastic component 35 and supporting element 34 is on the elastic biasing direction of elastic component 35 not
Together, and the corresponding distance in the second position 3412 is less than the corresponding distance in first position 3411.At this point, third supporting surface 341 from
It is abutted with 322 elasticity of the first supporting surface to when abutting switching with the elasticity of the second supporting surface 323, junction 324 is initially not immediately
Third supporting surface 341 and the reaction force by elastic component 35 are abutted, but gradually abuts third support during switching
Face 341 and the reaction force by elastic component 35;And third supporting surface 341 from abutted with 322 elasticity of the first supporting surface to
When the elasticity of second supporting surface 323 abuts switching, junction 324 is initial just abut third supporting surface 341 and by elastic component 35
Reaction force, or at least relative to third supporting surface 341 from abutted with 323 elasticity of the second supporting surface to the first supporting surface
322 elasticity abut switchings will early by elastic component 35 reaction force.Therefore, in this case, hinge 30 is by with first
322 elasticity of supporting surface abut to is abutted with the elasticity of the second supporting surface 323 switch when required active force it is smaller so that with
The power of family application required for pulled osteoacusis loudspeaker mechanism 21 when using osteoacusis loudspeaker mechanism 21 is smaller, to facilitate use
Family uses.
Further, third supporting surface 341 includes the first sub- supporting surface 3413 and the second sub- supporting surface 3414, wherein first
Position 3411 is set to the first sub- supporting surface 3413, and the second position 3412 is set to the second sub- supporting surface 3414.I.e. first son branch
Support face 3413 and the second sub- supporting surface 3414 are respectively arranged at the position close to the both ends of third supporting surface 341.
Wherein, the second sub- supporting surface 3414 can be plane, specifically, in the first supporting surface 322 or the second supporting surface 323
When abutting with 341 elasticity of third supporting surface, the second sub- supporting surface 3414 can be flat with the first supporting surface 322 or the second supporting surface 323
Row.And the first sub- supporting surface 3413 can be plane, or cambered surface, herein without limitation.
Further, the first sub- supporting surface 3413 and the second sub- supporting surface 3414 be not in the same plane, the first son branch
Support face 3413 is obliquely installed relative to the second sub- supporting surface 3414, and angle between the two can be not more than 10 °, such as can be
No more than 2 °, 4 °, 6 °, 8 °, 10 ° etc..Specifically, the first sub- supporting surface 3413 is directed away from the direction setting of hinge arms 32, from
And make on the section of the central axes perpendicular to shaft 33, the contact point of first position 3411 and elastic component 35 and supporting element 34
Distance on the elastic biasing direction of elastic component 35 be less than the second position 3412 and contact point on elastic biasing direction away from
From.Wherein, the first sub- supporting surface 3413 be cambered surface and the second sub- supporting surface 3414 be plane when, the first sub- supporting surface 3413 with
Angle between second sub- supporting surface 3414 is the intersection and the tangent plane and second of the first sub- supporting surface 3413 in the two
Angle between sub- supporting surface 3414.
It is the detonation configuration figure of one embodiment of the application hinge further referring to Figure 16, Figure 16.In present embodiment,
Hinge seat 31 includes seat ontology 313 and from the protrusion of seat ontology 313 and the first lug 314 being intervally installed and the second lug
315, hinge arms 32 include that arm body 325 and the third lug 326 from the protrusion setting of arm body 325, third lug 326 are inserted into
Interval region to first lug 314 and the second lug 315, and pass through shaft 33 and first lug 314 and the second lug
315 rotation connections, the first supporting surface 322 and the second supporting surface 323 are set on third lug 326, and supporting element 34 is at least partly
It is set in interval region and is located at third lug 326 towards the side of seat ontology 313, be provided with and be spaced on seat ontology 313
The accommodating cavity 3121 of regional connectivity, elastic component 35 are set in accommodating cavity 3121, and by supporting element 34 towards third lug 326 into
Row elastic biasing.
Specifically, the corresponding position of first lug 314, the second lug 315 and third lug 326 can be respectively arranged with position
In first through hole, the second through-hole and third through-hole in same axial direction, the internal diameter of three through-holes can be outer not less than shaft 33
Diameter, thus 31 energy of hinge seat when shaft 33 is arranged in corresponding through-hole, where first lug 314 and the second lug 315
Enough hinge arms 32 with where third lug 326 are rotatably connected.
Wherein, the first supporting surface 322 and the second supporting surface 323 are all set on third lug 326, and are parallel to shaft 33
Central axes so that hinge arms 32 around the shaft 33 rotated relative to hinge seat 31 when so that the first supporting surface 322 and the
Two supporting surfaces 323 are possibly into the interval region between first lug 314 and the second lug 315.
Further, supporting element 34 is located between the first lug 314 of seat ontology 313 and the second lug 315, and supporting element
34 third supporting surface 341 is arranged towards third lug 326.In an application scenarios, elastic component 35 is completely set up in accommodating
In chamber 3121, and contacted towards the side of the interval region between first lug 314 and the second lug 315 with supporting element 34.
Elastic component 35 in the raw when, supporting element 34 is at least partially disposed in accommodating cavity 3121 close to the region of elastic component 35.
It should be pointed out that the shape that supporting element 34 is located in the part in accommodating cavity 3121 is matched with accommodating cavity 3121, so that
When supporting element 34 is carried out elastic biasing by elastic component 35, the part that supporting element 34 is located at accommodating cavity 3121 can be in accommodating cavity
Stable sliding in 3121.
In an application scenarios, on the section of the length direction perpendicular to hinge seat 31, the section of accommodating cavity 3121
Area is less than the area of section of the interval region between first lug 314 and the second lug 315, and supporting element 34 is located at accommodating cavity
The shape in the region outside 3121 is matched with interval region, so that supporting element 34 is when mobile towards 35 side of elastic component, no
As for fully entering in accommodating cavity 3121.
Certainly, in other embodiments, on the section of the length direction perpendicular to hinge seat 31, accommodating cavity 3121
Cross sectional shape can also be identical as the interval region between first lug 314 and the second lug 315, at this point, supporting element 34 can be complete
It is placed in accommodating cavity 3121 entirely, so that being slided in entire accommodating cavity 3121 when supporting element 34 receives impetus.
Further, hinge 30 in the above-described embodiment is applied to the hinge in the application hinge component embodiment
When component 122, the first end face 312 of hinge seat 31 is the end towards hinge arms 32 of first lug 314 and the second lug 315
Face is located at the interval between first lug 314 and the second lug 315 by the third lug 326 of arm body 325 towards protrusion setting
In region, so that first lug 314 and the first end face 312 of the second lug 315 are arranged towards arm body 325.In shaft
On the section in 33 central axes direction, arm body 325 protrudes from third lug 326 further to be formed towards hinge seat 31
The second end face 321 of first lug 314 and the second lug 315.
In present embodiment, during hinge arms 32 and hinge seat 31 are relatively rotated, first lug 314 and the
Gap between the first end face 312 of two lugs 315 and the second end face 321 of arm body 325 is consistently greater than or is less than connecting line
60 diameter so that connecting line 60 be unlikely to sandwich first in relative rotational motion of the hinge seat 31 with hinge arms 32 it is convex
Between ear 314 and the second lug 315 and arm body 325, and then reduce damage of the hinge 30 to connecting line 60.
In an application scenarios, in first lug 314 and the second end face 321 of the second lug 315 and arm body 325
Gap between first end face 312 hinge arms 32 and hinge seat 31 remained in relative rotational motion be much larger than or
Much smaller than the diameter of connecting line 60, to be further reduced damage of the hinge 30 to connecting line 60.
It should be pointed out that the gap between first end face 312 and second end face 321 can be size in this embodiment party
Identical uniform gap, to be all satisfied the above-mentioned condition more than or less than 60 diameter of connecting line;Or in another implementation
It can be only that gap satisfaction of the both ends of the surface at the position of connecting line 60 is more than or less than the straight of connecting line 60 in mode
Diameter, and the gap at the other positions of both ends of the surface may not need and meet above-mentioned condition.
Specifically, in an application scenarios, on the section of the central axes perpendicular to shaft 33,314 He of first lug
Second lug 315 can be used towards the end face of hinge arms 32 and at least one of the end face of arm body 325 towards hinge seat 31
Chamfering setting, so that carrying out gap between the two in relative rotational motion close to connecting line in hinge arms 32 and hinge seat 31
60 position remains the diameter greater than connecting line 60.
Wherein, chamfering setting is either rounded corner, or is also possible to direct corner cut.
In this application scene, it is only necessary to will be close to 315 direction of first lug 314 and the second lug at 60 position of connecting line
The end face of hinge arms 32 and arm body 325 carry out chamfering setting towards at least one of end face of hinge seat 31 and cutting with scissors
Chain arm 32 and hinge seat 31 will not sandwich connecting line 60 in the gap between both ends of the surface in relative rotational motion.
Hinge in the application in above-mentioned hinge embodiment can be applied in the application hinge component embodiment, still
And without limitation, it can also be applied in other hinge components in other embodiments or two need to be rotatablely connected
Component be directly connected to.
Further, in one embodiment of the application glasses, functor 20 is osteoacusis loudspeaker mechanism 21.Hinge 30
The middle vertical plane α of shaft 33, the plane of symmetry β of hinge 30 and osteoacusis loudspeaker mechanism 21 are bonded the 211 central point O of binding face of ear
Together in a plane, or within the scope of the predictive error of opposite plane.
Wherein, the middle vertical plane α of shaft 33 refers to the axial direction perpendicular to the shaft 33 of hinge 30 and symmetrically divides the shaft 33
The face cut, referring specifically to Figure 17.
The plane of symmetry β of hinge 30 refers to the face of 30 symmetry division of hinge, i.e., in the two sides plane of symmetry β of hinge 30, hinge
30 are symmetric, referring specifically to Figure 18.
Wherein, predictive error range can rule of thumb and the system of the shape of the material of hinge 30, specification and ear
It the synthesis such as counts to obtain.
It should be pointed out that the middle vertical plane α of shaft 33, the plane of symmetry β of hinge 30 and the osteoacusis loudspeaking machine of hinge 30
Structure 21 be bonded ear 211 central point of binding face in a plane when, enable to the osteoacusis connecting with hinge 30 to raise
Sound mechanism 21 can directly fit the auricle back side of user, and 30 stress of hinge is when deformation occurs, deformation direction and 21 movement
Direction is consistent, and is all located in the plane, and avoid above-mentioned each face and point not in the same plane, and 30 stress of hinge occurs
When elastic deformation, cause due to hinge 30 and osteoacusis loudspeaker mechanism 21 twist osteoacusis loudspeaker mechanism 21 can not be bonded or
It is properly fit onto the auricle back side of user, to cause the reduction of sound/vibration transmission efficiency, and then reduces osteoacusis sounding dress
The sound quality set.Certainly, the middle vertical plane α of shaft 33, the plane of symmetry β of hinge 30 and osteoacusis loudspeaker mechanism 2120 are bonded ear
211 central point of binding face can enable in this way in actual use process, no within the scope of the predictive error of opposite plane
User's use can be caused excessively to influence, it should be noted however that raising at this point, osteoacusis may be influenced to a certain extent
The binding face 211 of sound mechanism 21 is bonded effect with user's auricle back side.
Further, when osteoacusis loudspeaker mechanism 21 is in the first fixed position relative relative to temple main body 121, by
Horizontal reference plane γ defined in the top of two temple main bodys 121 and fixing piece 50 are located at the length side of temple main body 121
To plane of symmetry θ between angle be 65 °~85 °.
Wherein, the horizontal reference plane γ as defined in the top of two temple main bodys 121 refers to and two temple main bodys
121 top plane tangent simultaneously, in an application scenarios, the plane further perpendicular to the plane of symmetry of spectacle-frame 11,
It is specific as shown in figure 19;The plane of symmetry θ that fixing piece 50 is located at the length direction of temple main body 121 refers to, fixing piece 50 it is symmetrical
The plane of symmetry in face on the length direction of temple main body 121, it is specific as shown in figure 20.
In present embodiment, the first fixed position relative is in relative to temple main body 121 in osteoacusis loudspeaker mechanism 21
When, fixing piece 50 is consistent with hinge 30, and fixing piece 50 is located at the plane of symmetry θ and hinge of the length direction of temple main body 121
Chain 30 is in the same plane along the plane of symmetry of the length direction of hinge 30, and hinge 30 connects far from one end of temple main body 121
Loudspeaker mechanism 21 is conducted in synthetism.
In addition, when osteoacusis loudspeaker mechanism 21 is in the first fixed position relative relative to temple main body 121, by two
Horizontal reference plane γ defined in the top of temple main body 121 and fixing piece 50 are located at the length direction of temple main body 121
Angle between plane of symmetry θ can also be 70 °~82 °, so that osteoacusis loudspeaker mechanism 21 further fits in crus helicis
The auricle rear surface regions of position face.
Specifically, when osteoacusis loudspeaker mechanism 21 is in the first fixed position relative relative to temple main body 121, by two
Horizontal reference plane γ defined in the top of temple main body 121 and fixing piece 50 are located at the length direction of temple main body 121
Plane of symmetry θ between angle can be any angle in above range, such as 70 °, 75 °, 80 °, 82 °, herein not
It is specifically limited.
Further, when osteoacusis loudspeaker mechanism 21 is in the first fixed position relative relative to temple main body 121, eye
Angle between the plane of symmetry λ of frame 11 and the plane of symmetry β of hinge 30 is 5 °~30 °.
Wherein, the plane of symmetry λ of spectacle-frame 11 refers to by the symmetrical plane of 11 symmetry division of spectacle-frame, specifically such as Figure 21 institute
Show.The plane of symmetry β of hinge 30 is identical as shown in above-mentioned Figure 18, and details are not described herein again.
Wherein, the angle between the plane of symmetry λ of above-mentioned spectacle-frame 11 and the plane of symmetry β of hinge 30 and the head dummy of user have
It closes, for example, American-European crowd angle corresponding with asian population is different.When user wears, the ear of user is on the one hand leaned on
The bottom surface of piece support temple main body 121, on the other hand also needs the side by temple main body 121 against the side on the head of user
And then it is osteoacusis loudspeaker mechanism 21 is fixed in place.Therefore, if the angle is larger, the front of temple main body 121 is supported
By head, and rear portion is far from head;If the angle is larger, the front of temple main body 121 is far from head, and rear portion abutment head
Portion, in the case of two kinds, temple main body 121 cannot well be contacted with head, to be easy to cause osteoacusis loudspeaker mechanism 21
Binding face 211 is detached from the auricle back side, to reduce the sound quality of osteoacusis loudspeaker mechanism 21, and makes troubles to user's use.
Wherein, when osteoacusis loudspeaker mechanism 21 is in the first fixed position relative relative to temple main body 121, spectacle-frame
Angle between 11 plane of symmetry λ and the plane of symmetry β of hinge 30 can also be 10 °~25 °, specifically can also for 10 °, 15 °,
20 °, 25 ° etc., herein without limitation.
Further, Figure 22, the distance between central point of two corresponding shafts 33 of leg of spectacles 12 h are please referred to3It can be with
For 90~150mm.Distance h3Left and right width corresponding to user's head.
It is readily appreciated that ground, two legs of spectacles 12 are placed on the ear top of user and are clamped in both sides of the head, if two eyes
The distance between the central point of the corresponding shaft 33 of temple 12 h3It is larger, then leg of spectacles 12 towards user's head chucking power compared with
It is small, it may appear that the case where " not clamping ", so as to cause being easy from user's head pine from and then causing osteoacusis loudspeaker mechanism 21 inclined
Position from the corresponding auricle back side;And if small, the head of the meeting of leg of spectacles 12 excessively clamping user is handed at the interior receipts angle, is easy to use
Bring discomfort in family.
Wherein, the distance between central point of two corresponding shafts 33 of leg of spectacles 12 h3It can also be 100~130mm,
It can also be specifically 100mm, 110mm, 120mm, 130mm etc..It should be pointed out that the head dummy of different user is different, Ke Yixuan
Select distance h3The more appropriate earphone of range.Such as distance h for men3It can be 115~130mm, range for women then may be used
Think 100~115mm, naturally it is also possible to the median of two ranges is set as, to adapt to two kinds of crowds simultaneously.
Optionally, please continue to refer to Figure 22, the line of the central point of the symmetrical centre o'clock of spectacle-frame 11 to two shafts 33
Vertical range h4For 105~170mm.
It should be pointed out that the symmetrical centre point of spectacle-frame 11 is the midpoint of the bridge of the nose among spectacle-frame 11,
The vertical range corresponds to the anterior-posterior length of user's head.
Ground is readily appreciated that, if vertical range h4It is larger, then it can be bonded in the binding face 211 of osteoacusis loudspeaker mechanism 21
When to the auricle back side, spectacle-frame 11 may eye from user farther out, and when earphone spectacle-frame 11 wears suitable, then osteoacusis
The binding face 211 of loudspeaker mechanism 21 is so suitable that be fitted in the auricle back side due to being unable to farther out from the auricle back side;If the distance
Smaller, then when using glasses function and ear-phone function at the same time, spectacle-frame 11 and osteoacusis loudspeaker mechanism 21 are simultaneously in user
Tension clamps head before and after head, brings discomfort to user, or when apart from too small, or even is difficult to use two function simultaneously
Energy.
Wherein, the symmetrical centre o'clock of spectacle-frame 11 to two shafts 33 central point line vertical range h4It can be with
It can also be specifically 130mm, 140mm, 150mm etc. for 130~150mm.It, can be with it should be pointed out that different use crowd
Corresponding different distance range, for example, distance h for men4It can be 140~160mm, range for women then can be or 105
~135mm, naturally it is also possible to the median of two ranges is set as, to adapt to two kinds of crowds simultaneously.
Optionally, 2 and Figure 23 referring to Figure 2 together, the central point of each shaft 33 to corresponding osteoacusis loudspeaker mechanism
The distance between the 21 central point O of binding face 211 h5With the central point of the symmetrical centre o'clock of spectacle-frame 11 to two shafts 33
Line vertical range h4Ratio h5/h4It is 0.1~1.5.
Wherein, the central point of each shaft 33 to corresponding osteoacusis loudspeaker mechanism 21 binding face 211 central point O it
Between distance h5Central point corresponding to shaft 33 is to binding face 211 at a distance from the joint place at user's auricle back side;And glasses
The symmetrical centre o'clock of frame 11 to two shafts 33 central point line vertical range h4Front corresponding to user's head is arrived
Vertical range after ear.Vertical range behind the front to ear of user's head is a timing, if the central point of shaft 33 is to pasting
Conjunction face 211 is larger at a distance from the joint place at user's auricle back side, i.e., when aforementioned proportion is larger, illustrates that the central point of shaft 33 arrives
The distance between the central point O of binding face 211 of corresponding osteoacusis loudspeaker mechanism 21 is larger, then osteoacusis loudspeaker mechanism 21 holds
Position easy to attach at the auricle back side more on the lower;And when aforementioned proportion is smaller, illustrate the central point of shaft 33 to corresponding
The distance between the central point O of binding face 211 of osteoacusis loudspeaker mechanism 21 is smaller, then osteoacusis loudspeaker mechanism 21 is easy fitting
At the more top position in the auricle back side, to will affect osteoacusis loudspeaker mechanism 21 to the transmission efficiency of sound/vibration, in turn
Influence sound quality.
Wherein, h5/h4It can also be 0.125~0.35, specific such as 0.125,0.15,0.20,0.25,0.30,0.35,
Different ratios can be designed according to the different demands of user, herein without limitation.
Further, the osteoacusis sounding devices of different sizes can also be set according to the difference of above-mentioned each parameter, so that
Obtaining user can select according to the head dummy of oneself, to meet the use demand of user.
Figure 24 to Figure 26 is please referred to, Figure 24 is the structural schematic diagram of one embodiment of the application bone conduction earphone, Tu25Shi
The detonation configuration figure of one embodiment of the application bone conduction earphone, Figure 26 are the sections of the plane of symmetry of bone conduction earphone along Figure 24
Figure.In present embodiment, bone conduction earphone can be bone conduction earphone individual, can be used directly, or can also be slotting
The bone conduction earphone used on an electronic device is connect, in an application scenarios, the bone conduction earphone in present embodiment is upper
State one kind of the osteoacusis loudspeaker mechanism 21 in glasses embodiment.
Wherein, osteoacusis is a kind of sound conduction mode, i.e., converts sound to the mechanical oscillation of different frequency, pass through people
Skull, osseous labyrinth, the transmitting of inner ear lymph, spiral organ, auditory nerve, auditory center etc. transmit sound wave.In present embodiment,
Bone conduction earphone includes: earphone case 212, transducing head 213, passes vibration plate 214 and vibration transfer layer 215.
Wherein, earphone case 212 is used to define the earphone accommodating cavity 2122 with an opening 2121, can be used for accommodating bone biography
The correlation function structure of guide lug machine.For example, transducing head 213 can be placed in the earphone accommodating cavity 2122.
Specifically, transducing head 213 is used to generate vibration according to audio signal.Wherein, audio signal, which can be, directly deposits
Audio signal in transducing head 213 is stored up, it can also be by signal wire etc. from storage device or telecommunication circuit etc. to changing
The audio signal that energy device 213 inputs, herein without limitation.
Further, it passes vibration plate 214 to connect with transducing head 213, and exposed through the opening of accommodating cavity 2,122 2121, to pass
Pass vibration.Specifically, transducing head 213 can convert audio signals into corresponding vibration signal, and shake further across passing
Plate 214 transmits the vibration signal, will be transferred to earphone case 212 in its accommodating cavity 2122 by earphone case 212
In addition, further to transmit the vibration signal to the user directly or indirectly contacted with the biography vibration plate 214.
In addition, vibration transfer layer 215 is coated on the outer surface for passing vibration plate 214, so as to be changed by passing vibration plate 214
Vibration signal caused by energy device 213 is transferred to 214 transfer layer of vibration plate, and is contacted in turn by the privileged site with user
And vibration signal is passed into user.In present embodiment, vibration transfer layer 215 is further connect with earphone case 212, with envelope
The opening 2121 of lid accommodating cavity 2122, and then certain protection is played to the device in the accommodating cavity of earphone case 212 2122 and is made
With.Specifically, vibration transfer layer 215 can be linked together by the modes such as grafting, fastening and bonding and earphone case 212,
Such as vibration transfer layer 215 can be fastened on to the periphery of earphone case 212 by way of fastening.
In an application scenarios, biography vibration plate 214 is hard material, such as can be the plastic cement of hard, with can be preferable
Conduction vibration signal, vibration transfer layer 215 then be soft material, such as can be soft silica gel, be coated on pass vibration plate 214
Outer surface on so that bone conduction earphone further pass through vibration transfer layer 215 to user transmit vibration signal so that
User is when using bone conduction earphone with better sense of touch.
It should be pointed out that the vibration transfer layer 215 in present embodiment is coated in a manner of integrated injection molding passes vibration plate 214
Outer surface on so that vibration transfer layer 215 is structure as a whole with biography vibration plate 214, and then carried out to bone conduction earphone
When assembly, bond together it is not necessary that further transfer layer 215 will be vibrated by modes such as dispensings with vibration plate 214 is passed, so as to
Enough simplify the installation step of earphone.Meanwhile passing vibration plate 214 and being structure as a whole with vibration transfer layer 215, it can be avoided due to dispensing
Bring pass vibration plate 214 and vibrate transfer layer 215 between rubber thickness asymmetry and to vibration transmission effect adverse effect,
To improve the conducting effect to vibration, and then promote the sound Transfer Quality of bone conduction earphone.
Wherein, in one embodiment, it passes vibration plate 214 and protrudes from 2121 setting of opening, earphone case 212 will be located at
Vibration signal caused by transducing head 213 in accommodating cavity 2122 is transferred to the outside of accommodating cavity 2122, and passes through vibration in turn
Dynamic transfer layer 215 passes to user.
Vibration transfer layer 215 is bonded setting through 2121 exposed parts of opening with the outer surface for passing vibration plate 214 entirely, and integrally
Injection molding.Specifically, in an application scenarios, the outer surface for passing vibration plate 214 is open 2121 exposed parts as away from accommodating
The cambered surface of the protrusion setting of chamber 2122, accordingly, vibration transfer layer 215 is bonded entirely with biography vibration plate 214 by the cambered surface and is integrally infused
It moulds.It should be pointed out that be bonded entirely between vibration plate 214 and vibration transfer layer 215 using mode for dispensing glue if passing, it is first
First, as noted previously, as being influenced by air and dispensing technology etc. to be difficult to control the uniformity for being formed by glue-line,
To reduce vibration transmission effect;Secondly, if being bonded entirely by mode for dispensing glue, due in order to realize full fitting, then
Dispensing is easily excessively overflowed, and is on the one hand further decreased the uniformity of glue-line, is on the other hand also made troubles for the assembly of earphone.And
In present embodiment, biography vibration plate 214 is made by way of integrated injection molding and is vibrated to be bonded setting entirely between transfer layer 215, from
And it can be avoided the full fitting adverse effect that above-mentioned dispensing is realized, and be on the one hand capable of increasing vibration transfer layer 215
The area being bonded with biography vibration plate 214, to improve the transmission effect of vibration, the setting of another aspect cambered surface can also increase vibration
The contact area of transfer layer 215 and the skin of user, to further increase the transmission effect of vibration.Specifically, vibration plate 214 is passed
Outer surface through 2121 exposed parts of opening can be middle part position be plane, and peripheral portion is cambered surface.
Wherein, in one embodiment, it passes vibration plate 214 and is spaced at opening 2121 relative to earphone case 212 and be arranged, with
An annular space area is formed around vibration plate 214 is passed, transfer layer 215 is vibrated in the corresponding region in annular space area and is provided with through-hole
2151。
In present embodiment, passes vibration plate 214 and be not connected to earphone case 212, specifically, the earphone case at opening 2121
212 inner side edge and the outer side edges for passing vibration plate 214 are round or similar round, so that earphone case 212 and biography vibration plate 214
An annular space area is collectively formed.
And it vibrates transfer layer 215 and coats on the outer surface for being arranged in and passing vibration plate 214, and connect with earphone case 212 to seal
The opening 2121 of lid accommodating cavity 2122, therefore, annular space area are covered away from the direction of accommodating cavity 2122 by vibration transfer layer
215。
In present embodiment, through-hole 2151 further is set in the region that vibration transfer layer 215 corresponds to annular space area,
Specifically, the shape of through-hole 2151 can be circle, ellipse etc., and quantity can be one or more, herein without limitation.?
When being provided with multiple through-holes 2151, it can be arranged around the interval of vibration plate 214 is passed.
It should be pointed out that the setting of through-hole 2151 can be by accommodating cavity 2122 and earphone case 212 in present embodiment
Extraneous connection, so that leakage sound is further reduced by vibration cancellation, to further increase the sound conduction of bone conduction earphone
Effect.
The above is only presently filed embodiments, are not intended to limit the scope of the patents of the application, all to utilize the application
Equivalent structure or equivalent flow shift made by specification and accompanying drawing content is applied directly or indirectly in other relevant technologies
Field similarly includes in the scope of patent protection of the application.