CN105700272B - A kind of eyeglass anti-shake apparatus with self-locking structure - Google Patents

Abstract

The invention discloses a kind of eyeglass anti-shake apparatus with self-locking structure, including base, support frame is connected with base, Lens assembly is provided between support frame and base, Lens assembly includes lens support seat, laterally driven component and zigzag tread patterns component are provided between base and lens support seat, laterally driven component includes laterally driven magnetite component and laterally driven coil, zigzag tread patterns component includes zigzag tread patterns magnetite component and zigzag tread patterns coil, transvercal induction component and longitudinal induction component are additionally provided between support frame and base, transvercal induction component includes transvercal induction magnetite and transvercal induction Hall element, longitudinal induction component includes longitudinal induction magnetite and longitudinal induction Hall element, the self-locking structure for being used to switch anti-shake apparatus working condition and off working state that can be separated or engage with Lens assembly is additionally provided with base.The present invention is simple in construction, and stabilization precision is high, service life length.

Description

A kind of eyeglass anti-shake apparatus with self-locking structure

【Technical field】

The present invention relates to a kind of eyeglass anti-shake apparatus with self-locking structure.

【Background technology】

In field of optical lens, the technology of stabilization is using more and more extensive, in the case where vibrating bigger environment, such as car It is interior, the monitoring of moving camera and some roads.The mode of stabilization has a lot, it is only necessary to changes the conducting path or light of light The path of projection.It is main in industry to have eyeglass stabilization, CCD stabilizations, electronic flutter-proof, complete machine stabilization etc..

The implementation of stabilization is essentially all to realize by compensation, and compensation shake causes the deviation of light.Anti-shaking structure On have gyroscope, the device is fed back among chip, so as to which stabilization mechanism mobile phase should by sensing the variable quantity of extraneous shake Variable quantity compensate, the amount of movement of stabilization mechanism feeds back by Hall element, and its precision can reach 0.1um.But precision is still Very big room for improvement so be present, in addition, the Anti-shaking structure of traditional optical lens needs to be powered for a long time in keeping it in The heart, when Anti-shaking structure being not required to the off working state occasion of stabilization function, Anti-shaking structure is also to be in "on" position, so as to increase The load of Anti-shaking structure, shorten the service life of stabilization mechanism.

Therefore, the present invention is based on the insufficient and caused of the above.

【The content of the invention】

The present invention seeks to overcome the deficiencies in the prior art, there is provided a kind of simple in construction, stabilization precision is high, service life The long eyeglass anti-shake apparatus with self-locking structure.

The present invention is achieved by the following technical solutions：

A kind of eyeglass anti-shake apparatus with self-locking structure, it is characterised in that：Including base 1, it is connected with described base 1 Energy relative support frame 2 can be provided between described support frame 2 and base 1 and is existed relative to the support frame 2 that it is moved in a lateral direction Movement and the Lens assembly 3 that can be moved in a lateral direction relative to base 1 with support frame 2, described lens set on longitudinal direction Part 3 includes being used for the lens support seat 31 for installing eyeglass 100, is provided between described base 1 and lens support seat 31 and drives respectively The laterally driven component 32 and zigzag tread patterns component 33 of 3 horizontal and vertical movement of dynamic Lens assembly, described laterally driven component 32 include the laterally driven magnetite component 321 being located on lens support seat 31 and be located on base 1 and with laterally driven magnetite The relative laterally driven coil 322 of component 321, described zigzag tread patterns component 33 include the longitudinal direction being located on lens support seat 31 Drive magnetite component 331 and be located on the base 1 and zigzag tread patterns coil 332 relative with zigzag tread patterns magnetite component 331, institute The transvercal induction component that can be respectively induced 3 horizontal and vertical amount of movement of Lens assembly is additionally provided between the support frame 2 and base 1 stated 34 and longitudinal induction component 35, described transvercal induction component 34 includes the transvercal induction magnetite being located on lens support seat 31 341 and be located on the base 1 and transvercal induction Hall element 342 relative with transvercal induction magnetite 341, described longitudinal induction Component 35 include the longitudinal induction magnetite 351 being located on lens support seat 313 and be located on base 1 and with longitudinal induction magnetite 351 relative longitudinal induction Hall elements 352, being used for of can separating or engage with Lens assembly 3 is additionally provided with described base 1 Switch the self-locking structure 4 of anti-shake apparatus working condition and off working state.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described self-locking structure 4 includes being located at Motor 41 on base 1, it is connected with the described output shaft of motor 41 and is driven by motor 41 when motor 41 rotates and risen up and down The Lift Part 42 of drop, described lens support seat 31 are provided with the cooperation screens 43 that can be engaged or separate with Lift Part 42.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Set on the described output shaft of motor 41 There is external screw thread, described Lift Part 42 includes lifting set 421, and the described inwall for lifting set 421 is provided with defeated with motor 41 The internal thread that external screw thread on shaft coordinates, described base 1 are provided with the guide cylinder to be moved up and down inside for lifting set 421 44, described guide cylinder 44 is provided with vertical open slot 45, and the outer wall of described guide cylinder 44, which is provided with, stretches into open slot 45 Guiding projection 422 that is interior and coordinating with open slot 45 and make lifting set 421 to move up and down.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described cooperation screens 44 be and liter The through hole of the engaging of drop set 421.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described laterally driven magnetite component The first sensing chip 36 for being used for strengthening the laterally driven magnetic field intensity of magnetite component 321, institute are provided between 321 and lens support seat 31 It is provided between the zigzag tread patterns magnetite component 331 and lens support seat 31 stated and is used to strengthen the magnetic field of zigzag tread patterns magnetite component 331 Second sensing chip 37 of intensity.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described laterally driven magnetite component 321 the first laterally driven 3211 and second laterally driven magnetites 3212 of magnetite including being arranged side by side, described first laterally drives N poles the first sensing chip 36 of direction of dynamic magnetite 3211, S poles the first sensing chip of direction of the described second laterally driven magnetite 3212 36。

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described zigzag tread patterns magnetite component 331 first longitudinal directions for including being arranged side by side drive magnetite 3311 and second longitudinal direction driving magnetite 3312, and described first longitudinal direction is driven Towards the second sensing chip 37, described second longitudinal direction drives S poles the second sensing chip of direction of magnetite 3312 for the N poles of dynamic magnetite 3311 37。

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described base 1, which is provided with, laterally leads Axle 5, described support frame 2 are provided with the ceramic collar 6 of transverse direction that can be slided on horizontal guide shaft 5.

Eyeglass anti-shake apparatus with self-locking structure as described above, it is characterised in that：Described support frame 2 is provided with longitudinal direction Guide shaft 7, described lens support seat 31 are provided with the ceramic collar 8 in longitudinal direction that can be slided on longitudinal guide shaft 7.

Compared with prior art, the present invention has the following advantages：

1st, the present invention drives Lens assembly transverse shifting using laterally driven magnetite component and laterally driven fitting coils, Lens assembly is driven to vertically move using zigzag tread patterns magnetite component and zigzag tread patterns fitting coils, in addition, using laterally sense Magnetite is answered to coordinate with transvercal induction Hall element and sense the transverse shifting amount of Lens assembly, using longitudinal induction magnetite and longitudinal direction Sensing Hall element coordinates and senses the amount of vertically moving of Lens assembly, so as to reach the stabilization effect of optical lens, stabilization essence Degree is high.Moreover, reduce the volume of anti-shake apparatus so that structure is simpler.And it is located at can be separated with Lens assembly on base Or the self-locking structure of engaging allows hand over anti-shake apparatus working condition and off working state, therefore, when the stabilization of optical lens fills To put when being in stabilization working condition, self-locking mechanism separates with Lens assembly, and Lens assembly transverse shifting and can vertically move, this When anti-shake apparatus be in "on" position, when the anti-shake apparatus of optical lens needs not be at stabilization working condition, from lock machine Structure engages with Lens assembly, and Lens assembly is unable to transverse shifting and vertically moved, and now anti-shake apparatus can powers off.Therefore, Anti-shake apparatus can carry out power on/off as needed, mitigate the load of anti-shake apparatus, extend the service life of anti-shake apparatus.

2nd, motor output shaft of the invention is provided with external screw thread, lift set inwall be provided with motor output shaft outside The internal thread that screw thread coordinates, base are provided with the guide cylinder to be moved up and down inside for lifting set, and guide cylinder is provided with vertical open Mouth groove, the outer wall of guide cylinder are provided with the guiding for stretching into open slot and coordinating with open slot and making lifting set to move up and down Projection.It is to be threadedly coupled because lifting is covered with motor output shaft when motor rotates, and lifts the guiding projection put and be stuck in In open slot, therefore, when motor rotates, lifting set can only move up and down, so as to complete and the cooperation screens on lens support seat Engaging or separation, it is very simple, obtain good effect.

3rd, the first laterally driven magnetite and the second laterally driven magnetite of the invention are arranged side by side, and first is laterally driven N poles the first sensing chip of direction of magnetite, S poles the first sensing chip of direction of the second laterally driven magnetite；First longitudinal direction drives magnetite It is arranged side by side with second longitudinal direction driving magnetite, the N poles of first longitudinal direction driving magnetite drive magnetic towards the second sensing chip, second longitudinal direction S poles the second sensing chip of direction of stone.First sensing chip and the second sensing chip can strengthen laterally driven magnetite component respectively and indulge To the magnetic field intensity of driving magnetite component, so as to increase driving force, make anti-shake apparatus operation more smooth reliable.

4th, base of the invention is provided with horizontal guide shaft, and support frame is provided with the laterally ceramics that can be slided on horizontal guide shaft The collar, support frame are provided with longitudinal guide shaft, and lens support seat is provided with the ceramic collar in longitudinal direction that can be slided on longitudinal guide shaft.Adopt Coordinated with the laterally ceramic collar with horizontal guide shaft, the ceramic collar in longitudinal direction coordinates with longitudinal guide shaft, can substantially reduce abrasion, extends Service life.

5th, the present invention is simple in construction, and precision is high, service life length, is adapted to popularization and application.

【Brief description of the drawings】

Fig. 1 is one of stereogram of the present invention；

Fig. 2 is one of exploded view of the present invention；

Fig. 3 is the two of exploded view of the present invention；

Fig. 4 is side view of the present invention；

Fig. 5 is the sectional view of the line A-A along Fig. 4；

Fig. 6 is the sectional view of the line B-B along Fig. 4；

Fig. 7 is the two of stereogram of the present invention；

Fig. 8 is the sectional view of the line C-C along Fig. 4.

【Embodiment】

The invention will be further described below in conjunction with the accompanying drawings：

As shown in Figure 1 to Figure 3, a kind of eyeglass anti-shake apparatus with self-locking structure, including base 1, connect on described base 1 Being connected to can be relative to the support frame 2 that it is moved in a lateral direction, and being provided between described support frame 2 and base 1 can relative support The Lens assembly 3 that frame 2 is moved and can moved in a lateral direction relative to base 1 with support frame 2 in a longitudinal direction, described mirror Piece component 3 includes being used for the lens support seat 31 for installing eyeglass 100, is provided with and divides between described base 1 and lens support seat 31 Not Qu Dong 3 horizontal and vertical movement of Lens assembly laterally driven component 32 and zigzag tread patterns component 33, described is laterally driven Component 32 include the laterally driven magnetite component 321 being located on lens support seat 31 and be located on base 1 and with it is laterally driven The relative laterally driven coil 322 of magnetite component 321, described zigzag tread patterns component 33 include being located on lens support seat 31 Zigzag tread patterns magnetite component 331 and be located on the base 1 and zigzag tread patterns coil relative with zigzag tread patterns magnetite component 331 332, the horizontal sense that can be respectively induced 3 horizontal and vertical amount of movement of Lens assembly is additionally provided between described support frame 2 and base 1 Component 34 and longitudinal induction component 35 are answered, described transvercal induction component 34 includes the transvercal induction being located on lens support seat 31 Magnetite 341 and be located on the base 1 and transvercal induction Hall element 342 relative with transvercal induction magnetite 341, described longitudinal direction Inductive component 35 include the longitudinal induction magnetite 351 being located on lens support seat 313 and be located on base 1 and and longitudinal induction The relative longitudinal induction Hall element 352 of magnetite 351, it is additionally provided with what can be separated or engage with Lens assembly 3 on described base 1 For switching the self-locking structure 4 of anti-shake apparatus working condition and off working state.Using laterally driven magnetite component 321 and laterally Driving coil 322 coordinates and drives the transverse shifting of Lens assembly 3, using zigzag tread patterns magnetite component 331 and zigzag tread patterns coil 332 coordinate and drive Lens assembly 3 to vertically move, in addition, using transvercal induction magnetite 341 and transvercal induction Hall element 342 Coordinate and sense the transverse shifting amount of Lens assembly 3, coordinated using longitudinal induction magnetite 351 and longitudinal induction Hall element 352 And sense the amount of vertically moving of Lens assembly 3, so as to reach the stabilization effect of optical lens, stabilization precision is high.It is moreover, such Structure design also reduces the volume of anti-shake apparatus so that structure is simpler.

As shown in Fig. 2, Fig. 7, Fig. 8, described self-locking structure 4 includes the motor 41 being located on base 1, described motor 41 It is connected with output shaft and is driven and the Lift Part 42 of oscilaltion by motor 41 when motor 41 rotates, described lens support Seat 31 is provided with the cooperation screens 43 that can be engaged or separate with Lift Part 42.Described cooperation screens 44 is and lifting covers 421 The through hole of engaging.

As shown in Figure 7, Figure 8, the described output shaft of motor 41 is provided with external screw thread, and described Lift Part 42 includes lifting Set 421, the inwall of described lifting set 421 is provided with the internal thread coordinated with the external screw thread on the output shaft of motor 41, described Base 1 is provided with the guide cylinder 44 to be moved up and down inside for lifting set 421, and described guide cylinder 44 is provided with vertical open slot 45, the outer wall of described guide cylinder 44, which is provided with, to be stretched into open slot 45 and coordinates with open slot 45 and make lifting set 421 can only The guiding projection 422 of up and down motion.

As shown in Fig. 2, Fig. 3, Fig. 5, Fig. 6, it is provided between described laterally driven magnetite component 321 and lens support seat 31 For strengthening the first sensing chip 36 of the laterally driven magnetic field intensity of magnetite component 321, described zigzag tread patterns magnetite component 331 with The second sensing chip 37 for being used for strengthening the magnetic field intensity of zigzag tread patterns magnetite component 331 is provided between lens support seat 31.

As shown in Fig. 2, Fig. 3, Fig. 5, described laterally driven magnetite component 321 includes being arranged side by side first laterally driven 3211 and second laterally driven magnetite 3212 of magnetite, N poles the first sensing chip of direction of the described first laterally driven magnetite 3211 36, S poles the first sensing chip 36 of direction of the described second laterally driven magnetite 3212.

As shown in Fig. 2, Fig. 3, Fig. 6, described zigzag tread patterns magnetite component 331 includes the first longitudinal direction driving being arranged side by side Magnetite 3311 and second longitudinal direction driving magnetite 3312, N poles the second sensing chip of direction of described first longitudinal direction driving magnetite 3311 37, S poles the second sensing chip 37 of direction of described second longitudinal direction driving magnetite 3312.

First sensing chip 36 and the second sensing chip 37 can strengthen laterally driven magnetite component 321 and zigzag tread patterns magnetic respectively The magnetic field intensity of stone component 331, so as to increase driving force, make anti-shake apparatus operation more smooth reliable.

As shown in Fig. 2, Fig. 3, Fig. 5, Fig. 6, described base 1 is provided with horizontal guide shaft 5, and described support frame 2 is provided with The ceramic collar 6 of transverse direction that can be slided on horizontal guide shaft 5.

As shown in Fig. 2, Fig. 3, Fig. 5, Fig. 6, described support frame 2 is provided with longitudinal guide shaft 7, described lens support seat 31 It is provided with the ceramic collar 8 in longitudinal direction that can be slided on longitudinal guide shaft 7.

Coordinated using the laterally ceramic collar 6 with horizontal guide shaft 5, the ceramic collar 8 in longitudinal direction coordinates with longitudinal guide shaft 7, Ke Yi great It is big to reduce abrasion, increase the service life.

It is to be threadedly coupled because lifting covers 421 with the output shaft of motor 41, and lift on set 421 when motor rotates Guiding projection 422 is stuck in open slot 45, and therefore, when motor 41 rotates, lifting set 421 can only move up and down, so as to complete with The engaging or separation of cooperation screens 43 on lens support seat 31, it is very simple, obtain good effect.Lifting set 421 with The separation or engaging for coordinating screens 43 allow hand over anti-shake apparatus working condition and off working state, therefore, when optical lens When anti-shake apparatus is in stabilization working condition, lifting set 421 with coordinate screens 43 separate, Lens assembly 3 can transverse shifting with Vertically move, now anti-shake apparatus is in "on" position, can play the effect of stabilization；When optical lens anti-shake apparatus not When needing to be in stabilization working condition, for lifting set 421 with coordinating screens 43 to engage, Lens assembly 3 is unable to transverse shifting and longitudinal direction Mobile, now anti-shake apparatus can powers off.Therefore, anti-shake apparatus can carry out power on/off as needed, mitigate anti-shake apparatus Load, extend the service life of anti-shake apparatus.

Claims (7)

1. A kind of 1. eyeglass anti-shake apparatus with self-locking structure, it is characterised in that：Including base (1), described base connects on (1) Having can be relative to the support frame (2) that it is moved in a lateral direction, and being provided between described support frame (2) and base (1) can be relative Support frame (2) movement in a longitudinal direction and the Lens assembly that can be moved in a lateral direction relative to base (1) with support frame (2) (3), described Lens assembly (3) includes being used for the lens support seat (31) for installing eyeglass (100), described base (1) and mirror The laterally driven component (32) for driving Lens assembly (3) horizontal and vertical movement respectively and longitudinal direction are provided between piece support base (31) Drive component (33), described laterally driven component (32) include the laterally driven magnetite component being located on lens support seat (31) (321) it is and be located on base (1) and the laterally driven coil (322) relative with laterally driven magnetite component (321), described Zigzag tread patterns component (33) includes the zigzag tread patterns magnetite component (331) being located on lens support seat (31) and is located at base (1) On and the zigzag tread patterns coil (332) relative with zigzag tread patterns magnetite component (331), described support frame (2) and base (1) Between be additionally provided with the transvercal induction component (34) and longitudinal induction group that can be respectively induced Lens assembly (3) horizontal and vertical amount of movement Part (35), described transvercal induction component (34) include the transvercal induction magnetite (341) being located on lens support seat (31) and set Transvercal induction Hall element (342) on base (1) and relative with transvercal induction magnetite (341), described longitudinal induction Component (35) include the longitudinal induction magnetite (351) being located on lens support seat (313) and be located on base (1) and with longitudinal direction Sense the relative longitudinal induction Hall element (352) of magnetite (351), being additionally provided with described base (1) can be with Lens assembly (3) Separation or the self-locking structure (4) for being used to switch anti-shake apparatus working condition and off working state of engaging, described self-locking structure (4) include being located at motor (41) on base (1), be connected with described motor (41) output shaft when motor (41) rotates by Motor (41) drives and the Lift Part (42) of oscilaltion, and described lens support seat (31) is provided with energy and Lift Part (42) the cooperation screens (43) for engaging or separating, described motor (41) output shaft are provided with external screw thread, described Lift Part (42) lifting set (421) is included, the inwall of described lifting set (421) is provided with matches somebody with somebody with the external screw thread on motor (41) output shaft The internal thread of conjunction, described base (1) are provided with the guide cylinder (44) to be moved up and down inside for lifting set (421), and described leads Vertical open slot (45) is provided with to cylinder (44), the outer wall of described guide cylinder (44), which is provided with, to be stretched into open slot (45) simultaneously The guiding projection (422) for coordinating with open slot (45) and making lifting set (421) to move up and down.
2. 2. the eyeglass anti-shake apparatus according to claim 1 with self-locking structure, it is characterised in that：Described cooperation screens (44) it is with lifting the through hole for covering (421) and engaging.
3. 3. the eyeglass anti-shake apparatus according to claim 1 with self-locking structure, it is characterised in that：Described laterally driven magnetic It is provided between stone component (321) and lens support seat (31) and is used to strengthen the of laterally driven magnetite component (321) magnetic field intensity One sensing chip (36), it is provided between described zigzag tread patterns magnetite component (331) and lens support seat (31) and is used to strengthen longitudinal direction Drive second sensing chip (37) of magnetite component (331) magnetic field intensity.
4. 4. the eyeglass anti-shake apparatus according to claim 3 with self-locking structure, it is characterised in that：Described laterally driven magnetic Stone component (321) includes the first laterally driven magnetite (3211) and the second laterally driven magnetite (3212) being arranged side by side, described The first laterally driven magnetite (3211) N poles towards the first sensing chip (36), the described second laterally driven magnetite (3212) S poles towards the first sensing chip (36).
5. 5. the eyeglass anti-shake apparatus according to claim 3 with self-locking structure, it is characterised in that：Described zigzag tread patterns magnetic Stone component (331) includes the first longitudinal direction driving magnetite (3311) being arranged side by side and second longitudinal direction driving magnetite (3312), described First longitudinal direction driving magnetite (3311) N poles towards the second sensing chip (37), described second longitudinal direction driving magnetite (3312) S poles towards the second sensing chip (37).
6. 6. the eyeglass anti-shake apparatus according to claim 1 with self-locking structure, it is characterised in that：On described base (1) Provided with horizontal guide shaft (5), described support frame (2) is provided with the ceramic collar of transverse direction (6) that can be slided on horizontal guide shaft (5).
7. 7. the eyeglass anti-shake apparatus according to claim 1 with self-locking structure, it is characterised in that：Described support frame (2) Longitudinal guide shaft (7) is provided with, described lens support seat (31) is provided with the longitudinal ceramic jacket that can be slided on longitudinal guide shaft (7) Ring (8).