CN101738704A

CN101738704A - Lens driving device

Info

Publication number: CN101738704A
Application number: CN200910157020A
Authority: CN
Inventors: 王在伟; 林聪�
Original assignee: NINGBO JINCHENGTAI ELECTRONIC CO Ltd
Current assignee: NINGBO JINCHENGTAI ELECTRONIC CO Ltd
Priority date: 2009-12-29
Filing date: 2009-12-29
Publication date: 2010-06-16
Anticipated expiration: 2029-12-29
Also published as: WO2011079505A1; CN101738704B

Abstract

The invention relates to a lens driving device, comprising a magnet yoke ring with a lodestone; the magnet yoke ring is arranged between a front frame and a back frame and is provided with a cylindrical lens supporter with coil; the front part of the lens supporter is provided with a front backup plate and a front spring, the back part thereof is provided with a back spring; in addition, the magnet yoke ring is also provided with arc rectangular outer frames at two sides, the outer frames are provided with a circular vertical convex edge with two symmetrically arranged openings, a rectangular inner chamber with arcs arranged at two sides is formed between the outer frames and the vertical convex edge; the lodestone is of a trapezoid shape provided with arc bottom edges and asymmetric beveled edge and is provided with a magnet yoke ring in-circle end face; the lens supporter is arranged on the in-circle end face, the external diameter is matched with the internal diameter of the circular vertical convex edge of the magnet yoke ring; a front frame and a back frame, a supporter and a foundation are all made from engineering plastics by injection moulding; in the invention, electromagnetic induction force is remarkable improved, further product microminiaturization can be facilitated at high assembly accuracy and assembly efficiency.

Description

A kind of lens driver

Technical field

The present invention relates to a kind of miniature camera field; Particularly relate to a kind of lens driver that is matched in miniature camera specially.

Background technology

The existing lens driver that is matched in miniature camera is of a great variety, as Chinese patent application number 2008200023412 " a kind of lens drivers ", it comprises that one is placed in the square gabarit with band circular hole on the base and holds concurrently and is the magnet yoke ring of the outside framework of lens driver, be mounted with magnetite and coil in this magnet yoke ring, be provided with lens in the magnet yoke ring circular hole with a lens carrier, the front and back of this lens carrier respectively are provided with the front side spring of band front side pad and the rear side spring of band rear side pad, the spring filament shape of front and back side spring is presented down left-right symmetric, elimination prevents light shaft offset trickle when lens carrier moves because of deformation causes the rotation skew; Magnetite is set to triangular prismatic type and is placed in four bights of magnet yoke ring square gabarit; This Chinese patent application number 2008200023412 " a kind of lens drivers " have bigger electromagnetic induction power and good electric and mechanical characteristic; Yet it is not suitable for the supporting application of the lens driver band snap socket, that have the front and back framework; In addition, the inner-cavity structure of the interior round foreign side of the magnet yoke ring of described Chinese patent application number 2008200023412 " a kind of lens drivers " has restricted the dimensional configurations between described magnetite and the described coil, thereby influence further expands the intensity of described electromagnetic induction.

Summary of the invention

Technical matters to be solved by this invention is the situation at prior art, and a kind of bigger lens driver with the described electromagnetic induction power of further enhancing of configuration sized between described magnetite and the described coil that has is provided.

The present invention solves the problems of the technologies described above the technical scheme that is adopted: a kind of lens driver, it comprises the magnet yoke ring of a band magnetite, this magnet yoke ring is arranged between front baffle and the afterframe, be provided with the cylindric lens carrier of belt coil in this magnet yoke ring, this lens carrier is by a base support, this lens carrier front portion is provided with front pad and preceding reed, rear portion are provided with the back reed, it is characterized in that:

Described magnet yoke ring is set to have the magnet yoke ring of both sides band circular arc rectangle housing; The inboard of this rectangle housing is provided with the circular vertical chimb of two openings of band symmetric arrangement; Form the rectangular inner cavity of a both sides band circular arc between this rectangle housing and this vertical chimb; Described magnetite is set to the trapezoidal magnetite with circular arc base and two asymmetric hypotenuses; Described trapezoidal magnetite is arranged on four bights of described inner chamber; One magnet yoke ring circle inner face is set in the circular vertical chimb of described magnet yoke ring.

Owing to adopts the magnet yoke ring of the above both sides band circular arc rectangle housing and the trapezoidal magnetite of asymmetric hypotenuse, thereby make the magnetite configurable size bigger, thereby electromagnetic induction power obtains further to enlarge.

Described front baffle is provided with center through hole and outside projection, and two outsides of this front baffle respectively are symmetrically arranged with two card bases; This card base limit is provided with the rectangle breach, and this card base inside surface lower end is provided with semicircle pilot hole.

The top of described front baffle is provided with the rectangle inner face that both sides have circular arc, one " L " shape raised line respectively is set on four angles of this inner face, this raised line position is corresponding with described card base, and described magnet yoke ring housing cooperates in the space that is installed between described " L " shape raised line and described card base; " L " shape raised line is used to locate magnet yoke ring, front pad and preceding reed, thereby realizes higher assembly precision and efficiency of assembling; Next be magnet yoke ring with preceding frame between cooperate inverted structure, help sealing with dustproof.

Described afterframe is set to the shaped as frame structure, and this afterframe dual-side respectively is provided with two semicircle projections, the semicircle pilot hole phase configuration of this semicircle projection and described front baffle card base inside surface.Its effect is the semi-circular hole on the card base and the semicircle projection phase configuration of afterframe, thus make connect between front baffle and the afterframe tightr reliable.

Described cylindric lens carrier is configured on the described magnet yoke ring circle inner face, the internal diameter phase configuration of the external diameter of this cylindric carrier and the circular vertical chimb of described magnet yoke ring; The periphery of described cylindric lens carrier is symmetrically arranged with two ribbed arches.Its effect is to prevent the carrier rotation.

The opening phase configuration of described ribbed arch and described magnet yoke ring; Described carrier top periphery is provided with step surface; This step surface and magnet yoke ring step surface breach phase configuration; Described ribbed arch external diameter and described internal coil diameter phase configuration; Its effect is can support and accurate set winding.

Described ribbed arch bottom is provided with register pin; The symmetria bilateralis of described back reed is provided with positioning round orifice, and this positioning round orifice is riveted cooperation mutually with described register pin; Its function is the strength of joint that can improve greatly between back reed and the carrier, thereby makes carrier movement stable and reliable for performance.

Described front pad is arranged between described magnet yoke ring rectangle housing and the described preceding reed, and this preceding reed is arranged between described front pad and the described front baffle; This front pad is set to have the rectangular-shaped of circular arc.Reed obtains evenly to flatten and have the sealing function good to the present invention before making.

Described front baffle, described afterframe, described carrier and described base adopt the engineering plastics injection mo(u)lding; It has the physical dimension stable properties, thereby realizes that pick-up current of the present invention is more stable.

The present invention compared with prior art, its advantage is that electromagnetic induction power obtains to significantly improve, it is further microminiaturized to help product simultaneously; Next is to have higher assembly quality and efficiency of assembling.

Description of drawings

Fig. 1 is a structural representation of the present invention;

Fig. 2 is a three-dimensional exploded view of the present invention;

Fig. 3 is a front baffle stereographic map of the present invention;

Fig. 4 is a magnet yoke ring stereographic map of the present invention;

Fig. 5 is a magnetite stereographic map of the present invention;

Fig. 6 is a carrier stereographic map of the present invention;

Fig. 7 is an afterframe stereographic map of the present invention;

Fig. 8 is a base stereographic map of the present invention;

Embodiment

Embodiment describes in further detail the present invention below in conjunction with accompanying drawing.

Show an embodiment of the invention as Fig. 1 to Fig. 8, it comprise front baffle 1 and with this front baffle 1 corresponding afterframe 8.This front baffle 1 is provided with center through hole 16 and outside projection 12; Two outsides of this front baffle respectively are symmetrically arranged with two card bases 11; This card base limit is provided with rectangle breach 14, and this card base inside surface lower end is provided with semicircle pilot hole 13.

The front baffle arch is provided with the rectangle inner face 17 that both sides have circular arc, and one " L " shape raised line 15 respectively is set on four angles of this inner face, and these raised line 15 positions are corresponding with card base 11.

Afterframe 8 is set to the shaped as frame structure, and these afterframe 8 dual-sides respectively are provided with two semicircle projections 83, and this semicircle projection 83 and first circular pilot hole 13 phase configuration of front baffle 1 card base make front baffle and afterframe cooperate one.Described afterframe 8 is provided with afterframe rectangle inner face 82 and oblique locating surface 84.

Described magnet yoke ring is set to have the magnet yoke ring 4 of the rectangle housing 42 of both sides band circular arc; The inboard of this housing is provided with the circular vertical chimb 43 of two openings 46 of band symmetric arrangement; Form an inner chamber 45 between this housing 42 and the vertical chimb 43, magnetite 5 is arranged on four bights of this inner chamber.The bottom of opening 46 is provided with a magnet yoke ring and locatees with half hole 41.

Magnet yoke ring 4 is arranged between front baffle 1 and the afterframe 8.

The vertical chimb 43 of described circle is provided with the breach 44 and the circular inner face 47 of two symmetric arrangement.

Described magnetite is set to the trapezoidal magnetite 5 with circular arc base 51 and two

asymmetric hypotenuses

52,53; This trapezoidal magnetite has the dimensional configurations between desirable and the described coil, makes electromagnetic intensity of the present invention increase.

Magnet yoke ring housing 42 cooperates in the space that is installed between front baffle raised line 15 and the card base 11.

Between magnet yoke ring housing 42 and the front baffle 1 front pad 3 is set, reed 2 before being provided with between front pad 3 and the front baffle 1; This front pad 3 is set to have the rectangular-shaped of circular arc.

Dispose cylindric carrier 7 on the circular inner face 47 of described magnet yoke ring, the aperture phase configuration of the external diameter of this cylindric carrier 7 and circular vertical chimb 43.Described carrier 7 is supported by preceding reed 2 and back reed 9.The periphery of this carrier 7 is symmetrically arranged with two ribbed arches 73, on these ribbed arch 73 limits carrier is set and locatees half hole 71; Ribbed arch 73 bottoms are provided with register pin 72; The top periphery of carrier 7 is provided with step surface 74.Opening 46 phase configuration of ribbed arch 73 and magnet yoke ring, step surface breach 44 phase configuration of step surface 74 and magnet yoke ring.

Carrier 7 peripheries dispose coil 6.

Afterframe rectangle inner face 82 is provided with base 10, and this base 10 is provided with outer tiltedly locating surface 103; Be somebody's turn to do outer tiltedly locating surface 103 and interior oblique locating surface 84 phase configuration of afterframe, this base plays the effect of prop carrier.

Back reed 9 is set between described afterframe 8 and the base 10, this back reed 9 is provided with two power pins 94, this power pins 94 welds together with the extension line of coil 6, driving power, when coil 6 passes through electric current, go out electromagnetic force at magnetite 5 and the magnet yoke ring 4 inner magnetic field inductions that constitute, carrier 7 front and back on optical axis direction are moved, when carrier 7 is moved, preceding reed 2 and back reed 9 produce reacting forces, when this reacting force and electromagnetic force equilibrium, carrier 7 just can remain on certain position, reaches the purpose of camera automatic focusing.

Characteristics of the present invention are:

Front baffle 1, afterframe 8, base 10 and carrier 7 adopt engineering plastics to make, and make physical dimension more stable, thereby realize that pick-up current of the present invention is more stable.

Front pad 3 is arranged between magnet yoke ring 4 and the preceding reed 2, plays the effect of sealing and the preceding reed 2 of pressing.

The semi-circular hole 13 on the front baffle card base and semicircle projection 83 phase configuration of afterframe, thus make connect between front baffle and the afterframe tightr reliable.

Magnet yoke ring 4 has the rectangle housing 42 and circular vertical chimb 43 of both sides band circular arc, forms inner chamber 45 between housing 42 and the circular vertical chimb 43, thereby makes full use of the space.

Magnetite 5 is set to the asymmetric trapezoidal shape with the circular arc base, thereby makes the configuration area between magnetite 5 and the coil 6 bigger.

The ribbed arch 72 of carrier and opening 46 phase configuration of magnet yoke ring, step surface breach 44 phase configuration of carrier step surface 74 and magnet yoke ring, thus prevent that carrier is rotary shifted.

Back reed circular hole and carrier register pin 72 phase configuration, thus strength of joint between back reed and the carrier improved greatly, make carrier movement stable and reliable for performance.

Claims

1. lens driver, it comprises the magnet yoke ring of a band magnetite, this magnet yoke ring is arranged between front baffle and the afterframe, be provided with the cylindric lens carrier of belt coil in this magnet yoke ring, this lens carrier is by a base support, this lens carrier front portion is provided with front pad and preceding reed, rear portion are provided with the back reed, it is characterized in that:

Described magnet yoke ring is set to have the magnet yoke ring (4) of both sides band circular arc rectangle housings (42); The inboard of this rectangle housing (42) is provided with the circular vertical chimb (43) of band two openings of symmetric arrangement (46); Form the rectangular inner cavity (45) of a both sides band circular arc between this rectangle housing and this vertical chimb; Described magnetite is set to the trapezoidal magnetite (5) with circular arc base (51) and two asymmetric hypotenuses (52), (53); Described trapezoidal magnetite (5) is arranged on four bights of described inner chamber (45); One magnet yoke ring circle inner face (47) is set in the circular vertical chimb (43) of described magnet yoke ring (4).

2. lens driver according to claim 1 is characterized in that: described front baffle (1) is provided with center through hole (16) and outside projection (12), and two outsides of this front baffle respectively are symmetrically arranged with two card bases (11); This card base limit is provided with rectangle breach (14), and this card base inside surface lower end is provided with semicircle pilot hole (13).

3. lens driver according to claim 1 and 2, it is characterized in that: the top of described front baffle (1) is provided with the rectangle inner face (17) that both sides have circular arc, on four angles of this inner face (17) one " L " shape raised line (15) is set respectively, this raised line (15) position is corresponding with described card base (11), and described " L " shape raised line (15) is used to locate described magnet yoke ring, described front pad and described preceding reed; Described magnet yoke ring housing (42) cooperates in the space that is installed between described " L " shape raised line (15) and the described card base (11).

4. lens driver according to claim 1 and 2, it is characterized in that: described afterframe (8) is set to the shaped as frame structure, this afterframe dual-side respectively is provided with two semicircle projections (83), semicircle pilot hole (13) phase configuration of this semicircle projection and described front baffle card base inside surface.

5. lens driver according to claim 1, it is characterized in that: described cylindric lens carrier (7) is configured on the described magnet yoke ring circle inner face (47), the internal diameter phase configuration of the external diameter of this cylindric carrier and the circular vertical chimb (43) of described magnet yoke ring; The periphery of described cylindric lens carrier (7) is symmetrically arranged with two ribbed arches (73).

6. lens driver according to claim 1 or 5 is characterized in that: opening (46) phase configuration of described ribbed arch (73) and described magnet yoke ring; Described carrier (7) top periphery is provided with step surface (74); This step surface (74) and magnet yoke ring step surface breach (44) phase configuration; The external diameter of described ribbed arch (73) and the internal diameter phase configuration of described coil.

7. lens driver according to claim 6 is characterized in that: described ribbed arch (73) bottom is provided with register pin (72); The symmetria bilateralis of described back reed (9) is provided with positioning round orifice, and this positioning round orifice is riveted cooperation mutually with described register pin (72).

8. lens driver according to claim 3, it is characterized in that: described front pad (3) is arranged between described magnet yoke ring rectangle housing (42) and the described preceding reed (2), and this preceding reed (2) is arranged between described front pad (3) and the described front baffle (1); This front pad (3) is set to have the rectangular-shaped of circular arc.

9. lens driver according to claim 1 is characterized in that: described front baffle (1), described afterframe (8), described carrier (7) adopt the engineering plastics injection mo(u)lding with described base (10).