CN201293861Y - Reed for drive mechanism of camera lens - Google Patents

Abstract

The utility model relates to a spring plate for a lens driving mechanism of a camera, which is in slice shape integrally. The spring plate is composed of a ring-shaped outer profile and a ring-shaped inner profile disposed in the outer profile, a distance is arranged between the inner wall of the outer profile and the outer wall of the inner profile, and at least two connecting spring wire groups arranged at intervals are disposed between the outer profile and the inner profile. The spring plate for a lens driving mechanism of a camera is characterized in that each connecting spring wire group comprises two S-shaped connecting spring wires in mirror-image arrangement, wherein the upper side of a positive S-shaped connecting spring wire is connected with the upper side of a negative S-shaped connecting spring wire, the lower side of the positive S-shaped connecting spring wire is connected with the inner wall of the outer profile while the lower side of the negative S-shaped connecting spring wire is connected with the outer wall of the inner profile. Through the winding action of the S-shaped connecting spring wires, deformation resisting capacity of the spring plate can be increased. Besides, due to the excellent elasticity effect of the connecting spring wires, integral rigidity and impact resistance of the spring plate can be effectively improved, thereby guaranteeing fine imaging quality of the lens driving mechanism using the spring plate.

Description

A kind of reed for camera lens drive mechanism

Technical field

The utility model belongs to camera lens drive unit field; Particularly relate to and keep harmonious with the stable reed for camera lens drive mechanism of its motion in a kind of lens driving process.The utility model is mainly used in having in the lens actuating device of miniature camera of automatic focus function, and matches with sensor microminiaturized, high image quality, especially is suitable for supporting application in mobile phone, computer, automobile and robot.

Background technology

What the similar lens driver structure that is adopted in the existing domestic and international miniature camera was comparatively general number is disclosed scheme in 200410017724.3 1 kinds " lens drivers " as Chinese invention patent, it comprises that one is installed in the tubular magnet yoke ring on the base, be mounted with magnetite and coil in this magnet yoke ring, all sides are provided with the lens with a lens supports body in this coil; Described magnetite and coil are placed in this magnet yoke ring inside, and on the periphery of this coil stationary lens supports body of all sides in this magnet yoke ring, this lens supports body stretches in the described tubular magnet yoke ring and can move in this magnet yoke ring; Described lens driver also comprises the front side reed and the rear side reed of annular, fixedly connected with the front side of described magnet yoke ring in their outer circumferential side end, also has a small cap, this small cap is fixed on all side ends in the reed of described front side on the described lens supports body front side, also have a framework, this framework is fixed on reed outer circumferential side end, described front side on the front side of described magnet yoke ring.

The said lens drive unit utilizes the electromagnetic induction effect of magnetite, make the lens supports body that is placed in the magnet yoke ring centre be subjected to parallel electromagnetic force effect and produce displacement, the front side reed and the rear side reed that are placed in the lens supports body simultaneously produce reacting force, when electromagnetic force on acting on the lens supports body and reed elastic force reached balance, this lens supports body remained on certain position; Be that the electromagnetic force that is produced behind the described coil electricity resists mutually in the acting force of described front side reed and rear side reed, order about described lens supports body and move to optical axis direction.

Adopting above-mentioned China Patent No. is 200410017724.3 " lens drivers " though move by both sides restriction lens supports body before and after it, makes it to have anti-jolting and impact property and the good image quality of tool.

Yet, one of its weak point is only to link to each other by a plurality of roughly linearly spring silks between the exterior feature in annular gabarit in the above-mentioned forward and backward reed and the annular, therefore, poor on the integral rigidity of whole forward and backward reed, resistance to impact and the non-deformability, when so forward and backward reed after stressed, spring filament on it is yielding, can cause like this using that lens produce deviation in the lens drives structure of this reed when the optical axis direction displacement, influences the image quality of camera.

Secondly, be the equidirectional ringwise dislocation configuration of described forward and backward side reed shape, therefore before and after this reed, during displacement generation deformation, can produce equidirectional revolving force simultaneously, cause that easily the lens supports body rotates skew.

Once more, be described front side reed with rear side reed and described lens supports body between to be connected the locating device operation various, and the front side reed cooperates the location with inner edge and front side reed that the location of rear side reed depends on outside framework and base with the outer rim of rear side reed, in case above-mentioned one of them tolerance on fit of each parts goes wrong, very easily cause supported lens supports body to form great concentricity and optical axis degree deviation, make image quality reduce.Impact one of key factor of product qualified rate thus.

The utility model content

Technical problem to be solved in the utility model be provide at above-mentioned prior art present situation that a kind of elastic effect is good, integral rigidity, resistance to impact and the good reed for camera lens drive mechanism of non-deformability.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: a kind of reed for camera lens drive mechanism, the whole flakiness shape of this reed, described reed is by in the form of a ring gabarit and be positioned at wide composition in the form of a ring of gabarit, and has spacing between the inwall of gabarit and the outer wall of interior exterior feature, have two groups of connection spring silk groups that are provided with at interval between described gabarit and the interior exterior feature at least, it is characterized in that: described every group connects the S shape connection spring silk that spring silk group comprises two mirror-image arrangement, the top that positive S shape connects the spring silk is connected the spring silk with anti-S shape top links to each other, the bottom that positive S shape connects the spring silk links to each other with the inwall of described gabarit, simultaneously, the bottom of anti-S shape connection spring silk links to each other with described interior wide outer wall.

For preventing that reed from producing the revolving force around himself in use, thereby cause the lens supports body to rotate skew, influence the image quality of camera, above-mentioned gabarit is square or rectangular, wide rounded in described, described connection spring silk group is arranged in the edge in the gabarit.Because gabarit is square or rectangular, therefore be positioned can be around the revolving force of himself for this gabarit, and therefore the lens supports body that supports on it can not rotate skew, guarantees to obtain good image quality, also help controlling the qualification rate of finished product, reduce cost of products.

For guaranteeing the elasticity of reed, above-mentioned connection spring silk group is arranged in four edges in the gabarit there to be four groups to be good.

Above-mentioned gabarit and interior exterior feature are integral piece, and the preceding reed that such reed is suitable as in the camera lens drive mechanism uses; The outer wall of described gabarit is interval with a plurality of outer arcuate mouths, correspondence, and described interior wide inwall is interval with the corresponding arc mouth of a plurality of and described outer arcuate mouth, and described outer arcuate mouth and arc mouth relative spacing are provided with and the formation pilot hole.During assembling, this pilot hole is corresponding with the pilot hole of described lens supports body, be enclosed within successively on the pilot pin of unit clamp, guarantee the accurate positioning of this reed, the assembling back guarantees to have good right alignment between reed and the corresponding lens supports body, and the assembly technology that is connected the location between reed and the described lens supports body before simplifying, help controlling product qualified rate, and the reduction cost of products.

Four outer corners places of above-mentioned gabarit respectively are provided with an opening and be the splicing opening of L type outwardly.This splicing opening plays the effect of location, further prevents the rotation of reed, also plays the enhancing bonding strength, and glue is flowed towards this splicing opening part, prevents that glue is to overflow all around.

The inwall of above-mentioned interior exterior feature is interval with a plurality of openings gummed opening inwardly.It is semicircle or square that this gummed opening can be arranged to circle.

Wherein, above-mentioned gabarit is spliced at interval by a left side half gabarit and right half gabarit, and described interior exterior feature is spliced by a left side half interior exterior feature and half interior exterior feature interval, the right side.The back reed that the reed of this structure is suitable as in the camera lens drive mechanism uses, because the back reed will link to each other with the both positive and negative polarity of external drive power supply, therefore needs this reed to divide the left and right sides two parts that are provided with at interval.

The last edge of an above-mentioned left side half gabarit is provided with an opening and be the splicing opening of L type outwardly, and the following edge of the described right side half gabarit is provided with an opening and be the splicing opening of L type outwardly; Glued joint opening and play the effect of location, further prevent the rotation of back reed, also play the enhancing bonding strength, glue is flowed towards this splicing opening part, prevent that glue is to overflow all around, for making this back reed be convenient to link to each other with the both positive and negative polarity of power supply, the following outer corners place of left half gabarit has the anodal pin of extension, and the last outer corners place of right half gabarit has the negative pole pin of extension.

For preventing that left half gabarit and right half gabarit relative position are offset, bottom links to each other with following brace by brace on respectively on an above-mentioned left side half gabarit and right half gabarit.

Wide its periphery of inwall upper edge is provided with a circumferential locating slot in a left side at least in the above-mentioned left side half; Wide its periphery of inwall upper edge is provided with a circumferential locating slot in the right side at least in the described right side half.During assembling, this circumferential locating slot is corresponding with the locating slot of described lens supports body, be enclosed within successively on the pilot pin of unit clamp, guarantee the accurate positioning of this back reed, and simplify the assembly technology of locating that is connected between back reed and the described lens supports body, when avoiding this reed assembling wrong court taking place, helps controlling product qualified rate.

Compared with prior art, advantage of the present utility model is: every group of S shape connection spring silk that connects spring silk group by two mirror-image arrangement, wherein, the top that positive S shape connects the spring silk is connected the spring silk with anti-S shape top links to each other, the bottom that positive S shape connects the spring silk links to each other with the inwall of described gabarit, simultaneously, the bottom of anti-S shape connection spring silk links to each other with described interior wide outer wall.The ability that connects the coiling interaction energy raising resistance to deformation of spring silk by S shape, and the elastic effect that connects the spring silk is good, integral rigidity, resistance to impact all can effectively be promoted, also help and connect the function that tangential forces that the spring silk produced is cancelled each other when optical axis direction is out of shape, avoid the lens supports body to rotate skew, guarantee to use the lens drives structure favorable imaging quality of this reed.

Description of drawings

Fig. 1 is the structural representation of preceding reed among the utility model embodiment;

Fig. 2 is the structural representation of back reed among the utility model embodiment;

Fig. 3 is the vertical view of forward and backward reed in lens actuating device among the utility model embodiment;

Fig. 4 is that the A-A of Fig. 3 is to cut-open view.

Embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

Shown in Fig. 1～4, be a preferred embodiment of the present utility model.

A kind of reed for camera lens drive mechanism, the reed in the general camera lens drive mechanism has two kinds, reed 1 and back reed 2 before being respectively, described forward and backward reed 1,2 whole flakiness shapes.

The concrete structure of reed 1 and back reed 2 before now setting forth.

Reed 1 is by in the form of a ring gabarit 11 and interior wide 12 forming in the form of a ring before described, and described gabarit 11 and interior wide 12 is integral piece.

Wherein, described gabarit 11 has a rectangular shape, and four outer corners places of gabarit 11 respectively are provided with an opening and be the splicing opening 112 of L type outwardly.

Wide 12 is rounded in described, and interior wide 12 are positioned at described gabarit 11, and between gabarit 11 inwalls and interior wide 12 outer walls spacing is arranged, the connection spring silk group 3 that is provided with at interval between the described gabarit 11 and interior wide 12 links to each other, described connection spring silk group 3 has four groups, be arranged in four edges in the gabarit 11, and every group connects the S shape connection spring silk that spring silk group 3 is arranged by two disk mirrorings, be respectively positive S shape and connect spring silk 31, anti-S shape connects spring silk 32, wherein, the top 311 that positive S shape connects spring silk 31 is connected spring silk 32 with anti-S shape top 321 links to each other, the bottom 312 that positive S shape connects spring silk 31 links to each other with the inwall of described gabarit 11, simultaneously, the bottom 322 of anti-S shape connection spring silk 32 links to each other with described interior wide 12 outer wall.

The outer wall of described gabarit 11 is interval with four outer arcuate mouths 111, corresponding, in described wide 12 inwall be interval with four with described outer arcuate mouth 111 corresponding arc mouths 121, described outer arcuate mouth 111 and the 121 relative spacing settings of arc mouth and form pilot hole 5.Wide 12 inwall is interval with four pairs of openings gummed opening 122 inwardly in described.

Described back reed 2 is by in the form of a ring gabarit 21 and interior wide 22 forming in the form of a ring, described gabarit 21 is spliced at interval by a left side half gabarit 21a and right half gabarit 21b, wide 22 are spliced at interval by wide 22b in wide 22a in the left side half and right half in described, and a described left side half gabarit 21a and right half gabarit 21b go up bottom and link to each other with following brace by brace on respectively.

Wide 22 are positioned at gabarit 21 in described, and between gabarit 21 and interior wide 22 spacing is arranged, being provided with connection spring silk group 4 between the described gabarit 21 and interior wide 22 links to each other, described connection spring silk group 4 has four groups, be arranged in four edges in the gabarit 21, and every group connects the S shape connection spring silk that spring silk group 4 is arranged by two disk mirrorings, be respectively positive S shape and connect spring silk 41, anti-S shape connects spring silk 42, wherein, the top 411 that positive S shape connects spring silk 41 is connected spring silk 42 with anti-S shape top 421 links to each other, the bottom 412 that positive S shape connects spring silk 41 links to each other with the inwall of described gabarit 11, and simultaneously, the bottom 422 that anti-S shape connects spring silk 42 all links to each other with described interior wide 22 outer wall.

The last outer corners place of a described left side half gabarit 21a is provided with an opening and be the splicing opening 211 of L type outwardly, and the following outer corners place of left half gabarit 21b has the anodal pin 213 of extension; The following outer corners place of the described right side half gabarit 21b is provided with an opening and be the splicing opening 212 of L type outwardly, the outer wall of a described left side half gabarit 21a has outward extending anodal pin 213, and the outer wall of the described right side half gabarit 21b has outward extending negative pole pin 214.Described motor pin 213,214 also can be arranged on any position on the described gabarit neighboring.

Its periphery of inwall upper edge of wide 21a is provided with two circumferential locating slots 221 in a left side in the described left side half; Its periphery of inwall upper edge of wide 21b is provided with two circumferential locating slots 222 in the right side in the described right side half.

Their mounting means and positions in lens actuating device are roughly as follows:

As shown in Figure 3, one is placed in the magnet yoke ring 7 on the base 6, these magnet yoke ring 7 inner chambers are provided with the lens supports body 8 of band lens, be positioned at lens supports body 8 one sides in this magnet yoke ring 7 and be mounted with front side pad 9, preceding reed 1, be positioned at lens supports body opposite side in this magnet yoke ring 7 and be mounted with rear side pad 10 and back reed 2, described lens supports body 8 is placed in magnet yoke ring 7 inner chambers and by preceding reed 1 and back reed 2 and supports, magnet yoke ring 7 inside are provided with a coil 13, this coil 13 is fixed on the periphery of lens supports body 9, the outside of coil 13 is with magnetite 14, and this lens supports body 8 can move forward and backward in described magnet yoke ring 7.

Reed 1 is arranged between the front side pad 9 and magnetite 14 in magnet yoke ring 7 inner chambers before described; Back reed 2 is arranged between a rear side pad 10 and the base 6, and this base 6 carries the axial location between the supporter 8 in order to reed 2, preceding reed 1, lens after locating.

Back reed 2 on this lens driver welds together as the extension line of conducting terminal and coil 13, and driving power is by the pin 213,214 and the coil 13 interior formation electric loops of back reed 2.When passing through electric current in the coil 13, in magnetite 14 and the magnet yoke ring 7 inner magnetic fields that constitute, induce electromagnetic force, make under the promotion of electromagnetic force lens supports body 8 on the optical axis direction reach or after move, when lens supports body 8 is subjected to displacement, preceding reed 1 and back reed 2 produce the retroaction damping forces, when this retroaction damping force and described electromagnetic force equilibrium, lens supports body 8 just can remain on certain position, reaches the purpose of camera automatic focusing.

During use, general gabarit relative fixed, when gabarit and interior wide relative displacement, connection spring silk is organized internal exterior feature and is played a pulling force effect, move to drive the parts that contact with interior exterior feature, position and the principle of work of this forward and backward reed 1,2 in lens actuating device is routine techniques, can be with reference to prior art.

Claims (10)

1, a kind of reed for camera lens drive mechanism, this reed (1; 2) whole flakiness shape, described reed (1; 2) by in the form of a ring gabarit (11; 21) and be positioned at gabarit (11; 21) Nei interior exterior feature (12 in the form of a ring; 22) form, and gabarit (11; 21) inwall and interior exterior feature (12; 22) has spacing between the outer wall, described gabarit (11; 21) and interior exterior feature (12; 22) have two groups of connection spring silk groups (3 that are provided with at interval between at least; 4), it is characterized in that: described every group connects spring silk group (3; 4) the S shape that comprises two mirror-image arrangement connects spring silk (31,32; 42,41), positive S shape connects spring silk (31; 41) top (311; 411) be connected spring silk (32 with anti-S shape; 42) top (321; 421) link to each other, positive S shape connects the bottom (312 of spring silk; 412) with described gabarit (11; 21) inwall links to each other, and simultaneously, anti-S shape connects the bottom (321 of spring silk; 421) with described interior wide (12; 22) outer wall links to each other.

2, reed for camera lens drive mechanism according to claim 1 is characterized in that: described gabarit (11; 21) be square or rectangular, described interior wide (12; 22) rounded, described connection spring silk group (3; 4) be arranged in gabarit (11; 21) Nei edge.

3, reed for camera lens drive mechanism according to claim 2 is characterized in that: described connection spring silk group (3; 4) there are four groups, are arranged in gabarit (11; 21) Nei four edges.

4, according to claim 1,2 or 3 described reed for camera lens drive mechanism, it is characterized in that: described gabarit (11) and interior exterior feature (12) are integral piece, the outer wall of described gabarit (11) is interval with a plurality of outer arcuate mouths (111), corresponding, the inwall of wide (12) is interval with a plurality of and described outer arcuate mouth (111) arc mouth (121) accordingly in described, described outer arcuate mouth (111) and arc mouth (121) relative spacing setting and form pilot hole (5).

5, reed for camera lens drive mechanism according to claim 4 is characterized in that: four outer corners places of described gabarit (11) respectively are provided with an opening and be the splicing opening (112) of L type outwardly.

6, reed for camera lens drive mechanism according to claim 4 is characterized in that: the inwall of wide (12) is interval with a plurality of openings gummed opening (122) inwardly in described.

7, according to claim 1,2 or 3 described reed for camera lens drive mechanism, it is characterized in that: described gabarit (21) is spliced at interval by a left side half gabarit (21a) and right half gabarit (21b), wide (22) are spliced at interval by wide (22b) in wide (22a) in the left side half and right half in described, the outer wall of a described left side half gabarit (21a) has outward extending anodal pin (213), and the outer wall of the described right side half gabarit (21b) has outward extending negative pole pin (214).

8, reed for camera lens drive mechanism according to claim 7, it is characterized in that: the last edge of a described left side half gabarit (21a) is provided with an opening and be the splicing opening (211) of L type outwardly, and the following edge of the described right side half gabarit (21b) is provided with an opening and be the splicing opening (212) of L type outwardly.

9, reed for camera lens drive mechanism according to claim 7 is characterized in that: a described left side half gabarit (21a) and right half gabarit (21b) go up bottom and link to each other with following brace (16) by brace (15) on respectively.

10, reed for camera lens drive mechanism according to claim 7 is characterized in that: its periphery of inwall upper edge of wide (22a) is provided with a circumferential locating slot in a left side (221) at least in the described left side half; Its periphery of inwall upper edge of wide (22b) is provided with a circumferential locating slot in the right side (222) at least in the described right side half.

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