CN100570434C - Image stabilizer, lens drum and imaging device - Google Patents

Image stabilizer, lens drum and imaging device Download PDF

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Publication number
CN100570434C
CN100570434C CNB2006101064947A CN200610106494A CN100570434C CN 100570434 C CN100570434 C CN 100570434C CN B2006101064947 A CNB2006101064947 A CN B2006101064947A CN 200610106494 A CN200610106494 A CN 200610106494A CN 100570434 C CN100570434 C CN 100570434C
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lens
coil
magnet
image stabilizer
thrust
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CN1881008A (en
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高桥立幸
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Sony Corp
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Sony Corp
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Abstract

The present invention discloses a kind of image stabilizer, lens drum and imaging device.This stabilizator is by coming stabilized image at the correcting lens that is used for the stable image that is formed by a lens combination that moves up perpendicular to optical axis and the first direction that be perpendicular to one another of lens combination and second party, the driver that comprises a side that is positioned at correcting lens, and this driver shift calibrating lens on first direction and second direction.This driver has to produce and is used at move up first coil of thrust of described correcting lens of described first party, generation is used at move up second coil of thrust of described correcting lens of second party, magnetic force is applied to the magnet of first coil and second coil, with the yoke that supports described magnet, and the thrust generation part of the thrust of first coil generation part and second coil is made into the right angle intersected with each other and overlapping, and the magnetic force of described magnet is applied to two common laps of thrusts generation part.

Description

Image stabilizer, lens drum and imaging device
The present invention comprises the relevant theme of Japanese patent application of the JP 2005-319786 that submits to Jap.P. office in JP 2005-178358 that the JP2005-167307 that submits to Jap.P. office with on June 6th, 2005, on June 17th, 2005 submit to Jap.P. office and on September 2nd, 2005, and its full content is here as with reference to introducing.
Technical field
The present invention relates to a kind of being stabilized in when taking and wait the image blurring image stabilizer that causes by vibrations; A kind of lens drum with this image stabilizer; With a kind of imaging device that includes this lens drum, for example digital camera or video camera.
Background technology
In recent years, for example the performance of the imaging device of digital camera and video camera has obtained improving significantly, and this makes anyone easily take rest image and live image with high image quality with high-level efficiency becomes possibility.The for example high-performance of the imaging device of lens, CCD and CMOS and image processing circuit is given the credit in the raising of the efficient of this imaging device.
Yet, even lens, CCD etc. can have higher performance,, also can cause fuzzyly on the high-resolution image having if the cameraman's of hand held camera (imaging device) hand produces shake or vibration, and make the image blur of shooting.In order to address this problem, the camera of part relative price costliness has been equipped with in the time of can being stabilized in image taking by shake of camera etc. and has caused image blurring image stabilizer.But needing the camera of this image stabilizer is not professional camera, is to be understood that to have only the amateurish cameraman of the experience of seldom photographing be that consumer's camera institute is requisite to image stabilizer for many.
In addition, usually strong and most of cameramans like camera in light weight and portable for the demand of littler and lighter camera (imaging device).But because the size of image stabilizer is bigger in correlation technique, when this big image stabilizer was installed on the camera body, it is big that the size of whole camera becomes, and this has run counter to the lighter demand of the littler weight of camera size that makes.In addition, the image stabilizer in correlation technique needs a large amount of assemblies, draws such problem thus, and just the cost of camera can increase along with the increase of component count.
As this image stabilizer in the correlation technique, for example, can be a kind of image stabilizer of record in patent documentation 1.In patent documentation 1, put down in writing a kind of camera etc. of being provided in and gone up the relevant device that vibrates of preventing, the shake that the frequency of its detection camera is relatively low, and the result who surveys as preventing image blurring information, image blurring to prevent.Disclosed this vibration prevents that device (being called " example of first correlation technique " hereinafter) from being a kind of device of vibrating of preventing that is used for camera in the patent documentation 1, and comprising: collimation optical mechanism, vibration detector and vibration prevent controller.This collimation optical mechanism is provided in the lens drum that keeps lens combination and departs from the optical axis of this lens combination.This vibration detector is surveyed the vibration that is applied on the lens drum.Vibration prevents that controller from driving described collimation optical mechanism by the signal according to above-mentioned vibration detector and preventing vibration.Above-mentioned collimation optical mechanism has: correcting lens, fixed frame, first keep framework, second to keep framework, first and second coils, first and second drivers and first and second position sensors.Fixed frame fixed correction lens.First keeps framework that fixed frame is remained makes fixed frame to move up in the first party different with the optical axis direction of lens combination.Second keeps framework that first framework is remained can move up the maintenance framework of winning in the second party different with optical axis direction and first direction, and is fixed on the lens drum.First and second coils make first and second to keep framework to move along first and second directions respectively.First and second drivers are formed by the first and second magnetic field production parts in the face of first and second coils.First and second position sensors are surveyed the fixed frame and first amount that keeps framework to move on first and second directions.And at least one in the first and second magnetic field production parts and first and second position sensors is provided in and comprises that being fixed to second of lens drum keeps in the fixed part of framework.
1 disclosed vibration with said structure prevents device according to patent documentation, is expected to obtain such effect, and wherein this vibration prevents that device from can respond the vibration that reaches dither, and can not increase cost and increased in size.
As another example of the image stabilizer in the correlation technique, can be a kind of image stabilizer of record in the patent documentation 2 for example.In patent documentation 2, the fuzzy rejector of a kind of camera images is disclosed, this rejector survey the about 1Hz of frequency that is applied to the device of camera for example to 12Hz vibration (camera-shake) with as the image blurring information of inhibition, thereby prevent image blurring.The fuzzy rejector (being called " example of second correlation technique " hereinafter) of disclosed this camera images is according to the detected information of vibrating on the lens drum that is applied in the patent documentation 2, and calculating is used to be suppressed at the fuzzy required correcting value that departs from described optical axis of imaging surface epigraph.And image blurring rejector is according to the motion of above-mentioned correcting value control with the correcting optical system of ralocatable mode supporting, so that it moves on the diametric(al) of lens drum.Supporting with ralocatable mode aspect the above-mentioned correcting optical system, providing first to keep framework and second to keep framework.First keeps framework to support correcting optical system in the following manner, promptly can be on the first direction in the plane vertical with optical axis the shift calibrating optical system, and limit it on other direction of this direction and move being different from.Second keeps framework to support second in the following manner keeps framework, and the second party that promptly can be different from first direction in above-mentioned plane moves up and second keeps framework, and limits it on other direction of this direction and move being different from.And second keeps frame fixation in lens drum.
According to the fuzzy rejector of the camera images that adopts disclosed said structure in the patent documentation 2, be expected to obtain such effect, wherein when inhibition is image blurring, can not produce problem out of focus.And, because calibrating optical mechanism can be expected to obtain the effect of camera miniaturization with configurations with small on optical axis direction.
In addition, as another example of the image stabilizer in the correlation technique, can be a kind of image stabilizer of record in the patent documentation 3 for example.In patent documentation 3, a kind of lens actuator spare of optical devices is disclosed.At patent documentation 3 disclosed this lens actuator spares (being called " example of third phase pass technology " hereinafter) is a kind of lens actuator spare that comprises first driver and second driver.First driver drives the lens storage area that keeps lens on perpendicular to the first direction in the plane of said lens optical axis.Second driver drives the lens storage area on perpendicular to the second direction of the first direction in this plane.And first driver and second driver are along an axis alignment parallel with lens axis.
According to disclosed lens actuator spare in the patent documentation 3 with said structure, be expected to obtain such effect, the lens actuator spare that wherein drives the correcting lens be used for stablizing blurred picture can miniaturization.
[patent documentation 1] Japanese Laid-Open Patent Application No.H3-186823
[patent documentation 2] Japanese Laid-Open Patent Application No.H3-188430
[patent documentation 3] Japanese Laid-Open Patent Application No.H10-311995
Yet, aspect the example of first and second correlation techniques, zone about image stabilizer becomes big on perpendicular to the optical axis direction of correcting lens, make the big problem of as a whole change so that not only have lens device and imaging device, but also the problem that exists component count to increase, this will cause increasing appreciable cost.Specifically, aspect the example of first and second correlation techniques, in general fixed frame with correcting lens forms square, a pair of yaw axis (yaw shaft) is placed on the outside of fixed frame both sides in the vertical, and a pair of pitch axle (pitch shaft) is placed on the outside of fixed frame both sides in the horizontal.In addition, pitch coil (pitch coil) is connected to the two ends of fixed frame in the vertical, and each pitch coil is arranged in first magnetic circuit of being made by magnet and yoke.
About described to aspect the pitch axle, the two ends of this pitch axle keep frame supported by first, and the supported fixed frame that makes of fixed frame can move on respect to the pitch direction of described pitch axle.And, about described to aspect the yaw axis, the two ends of this yaw axis keep frame supported by first, and a pair ofly are fixed to second and keep the outer cover of framework to be installed in this on the yaw axis in the mode that is free to slide.In addition, a pair of yaw coil is connected to the first described outside to yaw axis that keeps framework, and each yaw coil is arranged in second magnetic circuit of being made by magnet and yoke.
Therefore, apply electric current, on pitch direction, drive fixed frame with correcting lens with respect to the first maintenance framework by pitch coil to first magnetic circuit.And, apply electric current by yaw coil to second magnetic circuit, keeping keeping framework integrally to drive the fixed frame of correcting lens with first on the yaw direction of framework with respect to second.
Yet, under the situation of the first and second correlation technique examples, the structure of using is essential as magnet and yoke for being used for going up the actuator that drives correcting lens and be used for going up the actuator both who drives correcting lens in second direction (for example yaw direction) at first direction (for example pitch direction), and these actuators are placed to and make its all sides around correcting lens.For this cause, image stabilizer becomes big on perpendicular to the direction of the optical axis of correcting lens, has therefore produced entire device and has become the problems referred to above big and that component count increases, and caused the increase of cost thus.
In addition, close at third phase under the situation of example of technology, being used at first actuator coil that drives correcting lens on the first direction and second actuator coil that drives correcting lens on second direction all is that flat coil constitutes, and this flat coil is wound in being parallel on the direction of correcting lens and enlarges.For this cause, the magnet of the magnet of first actuator and yoke and second actuator and yoke need separated, therefore need a large amount of assemblies that the quantity of processing procedure and assembling process is increased, the problem that this has caused cost to increase.
In addition, be provided with a central magnetic yoke between the yoke of the yoke of first actuator and second actuator, it is used as the yoke of described two actuators.Therefore, the magnetic flux density of each magnet of first and second actuators must be prepared by yoke, is essential so provide central magnetic yoke in the precalculated position, this central magnetic yoke be each magnet thickness twice and can make flux density saturation.For this cause, image stabilizer becomes big on perpendicular to the direction of the optical axis of correcting lens, therefore caused lens drum and imaging device to become big as a whole.
In addition, under the situation of the first and second correlation technique examples, the maintenance framework with correcting lens is directed on first direction that is perpendicular to one another and second direction in a movable manner and supports; Guide support mechanism is combined to form by axle and bearing portions, and wherein each forms one group in two covers.In this case, therefore the gap that may need specific dimensions between axle and bearing produces clash to allow keeping framework to move when mobile, and this makes and smoothly move the difficulty that becomes, and makes the position instability of correcting lens.
Summary of the invention
As described in the example of correlation technique, there is such problem, be provided with when being used for driving the correcting lens actuator on perpendicular to the first direction of correcting lens optical axis and second direction separated from one anotherly, and when these actuators are placed near the correcting lens, image stabilizer becomes big on perpendicular to the direction of correcting lens optical axis, therefore enlarged whole device size.In addition, also have such problem, when magnet and yoke are each actuator institute when essential, may need a large amount of parts, so the quantity of processing procedure and assembling process increases, this has caused the increase of cost.
According to the present invention the image stabilizer of an embodiment by perpendicular to the lens system optical axis of correcting lens and orthogonal first direction and the second party correcting lens that is used for the stable image that forms by lens combination that moves up come stabilized image.This image stabilizer comprises driver, and it is provided in a side of correcting lens and at described first direction and the second party described correcting lens that moves up.Described driver has to produce and is used at move up first coil of thrust of described correcting lens of described first party, generation is used at move up second coil of thrust of described correcting lens of described second party, magnetic force is applied to the magnet of first coil and second coil and supports the yoke of described magnet.And the thrust generation part of the thrust generation part of described first coil and described second coil is made into the right angle intersected with each other and overlapping, and the magnetic force of described magnet is applied to two common laps of thrusts generation part.
The lens drum of an embodiment comprises foregoing image stabilizer according to the present invention.
The imaging device of an embodiment according to the present invention comprises: foregoing lens drum; And the imaging device shell, described lens drum is loaded on wherein.
An embodiment according to image stabilizer of the present invention, lens drum and imaging device, side at described correcting lens is equipped with driver, described driver moves described correcting lens on perpendicular to the direction of lens system optical axis, therefore the quantity of assembly can be reduced, and the imaging device miniaturization can be made by the space of reducing driver.
Description of drawings
Fig. 1 is the skeleton view of seeing from the front according to first embodiment of lens drum of the present invention;
Fig. 2 is the skeleton view of the lens drum shown in Figure 1 seen from the back side;
Fig. 3 is the front elevation of lens drum shown in Figure 1;
Fig. 4 is the rear view of lens drum shown in Figure 1;
Fig. 5 is the left side elevation view of lens drum shown in Figure 1;
Fig. 6 is the right side elevation view of lens drum shown in Figure 1;
Fig. 7 is the planimetric map of lens drum shown in Figure 1;
Fig. 8 is the backplan of lens drum shown in Figure 1;
Fig. 9 is the M-M line sectional view of lens drum shown in Figure 5;
Figure 10 is the N-N line sectional view of lens drum shown in Figure 3;
Figure 11 is the decomposition diagram of lens drum shown in Figure 1;
Figure 12 is the key diagram that is used to illustrate the lens combination of lens drum shown in Figure 1;
Figure 13 shows first embodiment of seeing from the front according to image stabilizer of the present invention;
Figure 14 is the skeleton view of the image stabilizer shown in Figure 13 seen from the back side;
Figure 15 is the planimetric map of image stabilizer shown in Figure 13;
Figure 16 is the front elevation of image stabilizer shown in Figure 13;
Figure 17 is the rear view of image stabilizer shown in Figure 13;
Figure 18 is the decomposition diagram of image stabilizer shown in Figure 13;
Figure 19 is the skeleton view of first travelling frame of image stabilizer shown in Figure 13;
Figure 20 is the decomposition diagram of coil groups, magnet and the yoke of image stabilizer shown in Figure 13;
Figure 21 is the planimetric map of coil groups, magnet and the yoke of the image stabilizer shown in Figure 13 that amplifies;
Figure 22 is the front elevation of coil groups, magnet and the yoke of the image stabilizer shown in Figure 13 that amplifies;
Figure 23 is the planimetric map of second embodiment of coil groups, magnet and yoke according to image stabilizer of the present invention;
Figure 24 is the skeleton view of the 3rd embodiment of coil groups, magnet and yoke according to image stabilizer of the present invention;
Figure 25 is the decomposition diagram of coil groups shown in Figure 24, magnet and yoke;
Figure 26 is the decomposition diagram according to second embodiment of lens drum of the present invention;
Figure 27 be according to second embodiment of image stabilizer of the present invention and see from the back side its device shell skeleton view.
Figure 28 is the image stabilizer shown in Figure 27 and the assembling view of its device shell;
Figure 29 is the image stabilizer shown in Figure 27 and the decomposition diagram of its device shell;
Figure 30 is that image stabilizer shown in Figure 27 is with the skeleton view shown in the is olation;
Figure 31 is the planimetric map of image stabilizer shown in Figure 27;
Figure 32 is the front elevation of image stabilizer shown in Figure 27;
Figure 33 is the left side elevation view of image stabilizer shown in Figure 27;
Figure 34 is the planimetric map that the flexible printed circuit board of image stabilizer shown in Figure 27 is bent upwards;
Figure 35 is the front elevation that the flexible printed circuit board of image stabilizer shown in Figure 27 is bent upwards;
Figure 36 is the left side elevation view that the flexible printed circuit board of image stabilizer shown in Figure 27 is bent upwards;
Figure 37 is the planimetric map according to the coil groups of image stabilizer shown in Figure 27;
Figure 38 is the front elevation according to the coil groups of image stabilizer shown in Figure 27;
Figure 39 is the left side elevation view according to the coil groups of image stabilizer shown in Figure 27;
Figure 40 is the decomposition diagram according to the coil groups of image stabilizer shown in Figure 27;
Figure 41 is the assembling view according to the coil groups of image stabilizer shown in Figure 27;
Figure 42 is according to the yoke of image stabilizer shown in Figure 27 and the skeleton view of magnet;
Figure 43 is the front elevation that the effect of the bias force of flexible printed circuit board on the image stabilizer shown in Figure 27 schematically is described;
Figure 44 is the left side elevation view that the effect of the bias force of flexible printed circuit board on the image stabilizer shown in Figure 27 schematically is described;
Figure 45 is the planimetric map according to the improvement embodiment of the flexible printed circuit board of image stabilizer shown in Figure 34;
Figure 46 is the left side elevation view according to the improvement embodiment of the flexible printed circuit board of image stabilizer shown in Figure 34;
Figure 47 is the planimetric map of image stabilizer shown in Figure 31, and wherein flexible printed circuit board is bent downwardly;
Figure 48 is the front elevation of image stabilizer shown in Figure 31, and wherein flexible printed circuit board is bent downwardly;
Figure 49 is the left side elevation view of image stabilizer shown in Figure 31, and wherein flexible printed circuit board is bent downwardly;
Figure 50 is the front elevation that another embodiment of the effect of the bias force of flexible printed circuit board on the image stabilizer shown in Figure 31 schematically is described;
Figure 51 is the left side elevation view that schematically illustrates another embodiment of the effect of the bias force of flexible printed circuit board on the image stabilizer shown in Figure 31;
Figure 52 is the planimetric map according to another embodiment of the layout of the electric actuator of image stabilizer shown in Figure 31 and structure;
Figure 53 is the planimetric map according to the 3rd embodiment of image stabilizer of the present invention;
Figure 54 is the skeleton view according to the power driver of the image stabilizer shown in Figure 53;
Figure 55 is the planimetric map according to the power driver of the image stabilizer shown in Figure 53;
Figure 56 is the front elevation according to the power driver of the image stabilizer shown in Figure 53;
Figure 57 is the left side elevation view according to the power driver of the image stabilizer shown in Figure 53;
Figure 58 is the skeleton view according to the coil groups of the image stabilizer shown in Figure 53;
Figure 59 is according to the yoke of the image stabilizer shown in Figure 53 and the skeleton view of magnet;
Figure 60 is the decomposition diagram of first embodiment of imaging device according to the present invention that is applied to digital camera;
Figure 61 is the digital camera of first embodiment of the image-forming apparatus according to the present invention seen from the front and the skeleton view of the object lens that covered by lens cover;
Figure 62 be the image-forming apparatus according to the present invention seen from the front first embodiment digital camera and by opening the skeleton view of the object lens that lens cap exposes;
Figure 63 is the rear view of the digital camera shown in Figure 61;
Figure 64 is the planimetric map of the digital camera shown in Figure 61;
Figure 65 is used to illustrate the block scheme of the control concept of image stabilizer according to an embodiment of the invention;
Figure 66 is the block scheme of first embodiment of the schematic configuration of image-forming apparatus according to the present invention; With
Figure 67 is the block scheme of second embodiment of the schematic configuration of image-forming apparatus according to the present invention.
Embodiment
At first direction and the second party described correcting lens that moves up, the device that therefore is used for stabilized image can be miniaturized drive arrangement at a side of correcting lens and this driver; Obtain image stabilizer, lens drum and imaging device with the structure of simplifying, correcting lens, wherein said correcting lens can be moved rapidly on described first direction and second direction steadily.
Hereinafter, embodiment of the present invention describe with reference to the accompanying drawings.Fig. 1 to 67 is the accompanying drawings that are used to illustrate embodiment of the present invention.Specifically, Fig. 1 to 12 illustrates first embodiment according to lens drum of the present invention.Fig. 1 is the skeleton view of seeing from the front; Fig. 2 is the skeleton view of seeing from the back side; Fig. 3 is a front elevation; Fig. 4 is a rear view; Fig. 5 is a left side elevation view; Fig. 6 is a right side elevation view; Fig. 7 is a planimetric map; Fig. 8 is a backplan; Fig. 9 is the sectional view along the M-M line of Fig. 5; Figure 10 is the sectional view along the N-N line of Fig. 3; Figure 11 is a decomposition diagram; Figure 12 is the key diagram of lens combination.
Figure 13 to 25 illustrates first embodiment according to image stabilizer of the present invention.Figure 13 is its skeleton view of seeing from the front; Figure 14 is its skeleton view of seeing from the back side; Figure 15 is a planimetric map; Figure 16 is a front elevation; Figure 17 is a rear view.Figure 18 is a decomposition diagram; Figure 19 is the skeleton view that first travelling frame is shown; Figure 20 is the decomposition diagram that coil groups, magnet and yoke are shown; Figure 21 is the planimetric map of coil groups etc.; Figure 22 is the front elevation of coil groups etc.Figure 23 is the planimetric map that second embodiment of coil groups, magnet and yoke is shown; Figure 24 is the skeleton view that the 3rd embodiment of coil groups etc. is shown; Figure 25 is the decomposition diagram that coil groups etc. is shown.
Figure 26 to 59 shows other embodiment of image stabilizer of the present invention.Figure 26 is the decomposition diagram that second embodiment of image stabilizer is shown; Figure 27 is the skeleton view of seeing from the front that image stabilizer and its device shell are shown; Figure 28 is the assembling view of image stabilizer and device shell; Figure 29 is the decomposition diagram of image stabilizer and its device shell.Figure 30 is the decomposition diagram of image stabilizer; Figure 31 is its planimetric map; Figure 32 is its front elevation; Figure 33 is its left side elevation view; Figure 34 is the planimetric map that the flexible printed circuit board connection status is shown; Figure 35 is its front elevation; Figure 36 is its left side elevation view; Figure 37 is the planimetric map of electric actuator; Figure 38 is its front elevation; Figure 39 is its left side elevation view.Figure 40 is the decomposition diagram of coil groups; Figure 41 is the skeleton view of coil groups; Figure 42 is the decomposition diagram of magnet and yoke.
Figure 43 is the front elevation of image stabilizer of the repulsive force of explanation flexible printed circuit board; Figure 44 is its left side elevation view.Figure 45 is the planimetric map that illustrates according to first connection status of the flexible printed circuit board of image stabilizer; Figure 46 is its left side elevation view.Figure 47 is the planimetric map that second connection status of flexible printed circuit board is shown similarly; Figure 48 is its front elevation; Figure 49 is its left side elevation view.Figure 50 is the front elevation that the repulsive force of flexible printed circuit board is described similarly; Figure 51 is its left side elevation view.Figure 52 is the planimetric map of improvement embodiment that the installment state of electric actuator is shown; Figure 53 is the planimetric map that the 3rd embodiment of image stabilizer is shown; Figure 54 is the skeleton view that second embodiment of electric actuator is shown; Figure 55 is its planimetric map; Figure 56 is its front elevation; Figure 57 is its left side elevation view.Figure 58 is the skeleton view of coil groups; Figure 59 is the skeleton view of magnet and yoke.
Figure 60 is the decomposition diagram of digital camera that first embodiment of image-forming apparatus according to the present invention is shown.Figure 61 is the skeleton view of the digital camera seen from the front; Figure 62 is the skeleton view that exposes object lens by the moving lens skull; Figure 63 is the rear view of digital camera; Figure 64 is its planimetric map.Figure 65 is the block scheme of explanation control concept of the image stabilizer of an embodiment according to the present invention; Figure 66 is the block scheme of first embodiment that the schematic configuration of the imaging device according to the present invention is shown; With Figure 67 be the block scheme of second embodiment that the schematic configuration of the imaging device according to the present invention is shown.
Fig. 1 to Figure 12 shows first embodiment of lens drum of the present invention.This lens drum 1 comprises lens combination 2, saturating lens drum main body 3, imager 4, image stabilizer 5 etc.Lens combination 2 has five groups of lens, and wherein a plurality of lens are placed on the identical optical axis L.Lens drum main body 3 is with the lens of fixing or movably mode supports this lens combination 2.Imager 4 is formed by for example CCD on the optical axis L that is arranged in lens combination 2 or the image device of CMOS, and is fixed on the lens drum main body 3.Image stabilizer 5 is connected on the lens drum main body 3 and the image of stable lens combination 2.
As shown in figure 12, the lens combination 2 of lens drum 1 is configured to have the foldable lens of the foldable lens system that is formed by five groups of lens 7 to 11, and wherein five lens combination are placed on the identical optical axis L.In five groups of lens 7 to 11, first group of lens 7 is positioned at front end and comprises: the first lens 7A, and it is the object lens towards object; Prism 7B, it is placed on the opposite side of object with respect to object lens 7A; With the second lens 7C, it is towards prism 7B.Prism 7B is that the triangular prism of equilateral right-angle triangle forms by xsect; One side in the both sides that adjacent one another are and half-twist is placed is towards object lens 7A, and another side is towards the second lens 7C.Specifically, the folded lens system aspects of relevant this folded lens, the optical axis L of lens combination 2 curves about 90 ° angle through prism 7B.Therefore, primary optic axis L1 is arranged on the first lens 7A side as object lens, second optical axis L 2 be arranged on the perpendicular direction of primary optic axis L1 on imager 4 sides (image focusing side) of (on the direction of intersecting at an angle of 90 with primary optic axis L1).
About first group of lens 7, the light of process object lens 7A enters prism 7B from a surface.Light reflexes to respect to primary optic axis L1 to tilt on 45 ° the reflecting surface then, and it is advanced on crooked 90 ° direction.Subsequently, after penetrating through another side, light passes the second lens 7C; Advance to second group of lens 8 along second optical axis L 2 at last.Second group of lens 8 is combinations of the 3rd lens 8A and the 4th lens 8B, and these second group of lens 8 is configured to and can moves on second optical axis.Light enters the 3rd lens combination 9 through second group of lens 8.
The 3rd group of lens 9 are formed by the 5th lens that are fixed to lens drum main body 3.The 4th group of lens 10 that form by the 6th lens are equipped with the 3rd group of lens 9 back.Be equipped with aperture device 12 between the 4th group of lens 10 and the 3rd group of lens 9, it can regulate the amount through the light of lens combination 2.The 4th group of lens 10 are constructed to be permeable to move on second optical axis L 2.Be equipped with the 5th group of lens 11 behind the 4th group of lens 10, its correcting lens 15 by the 7th lens 11A and description is after a while formed.In each parts of the 5th group of lens 11, the 7th lens 11A is fixed on the lens drum main body 3, and correcting lens 15 is provided in the 7th lens 11A back in a movable manner, and these external correcting lens 15 back are equipped with CCD (imager) 4.
Second group of lens 8 and the 4th group of lens 10 can move on optical axis direction independently and respectively along second optical axis L 2.By moving second group of lens 8 and the 4th group of lens 10 in a predetermined direction, can realize zoom adjusting and focus adjustment.Specifically, when zoom, regulate by hold mobile second group of lens 8 and the 4th group of lens 10 to carry out zoom to dolly-out,ing dolly-back from wide-angle side.And, when focusing on, carry out focus adjustment by moving the 4th group of lens 10 to the end of dolly-out,ing dolly-back from wide-angle side.
CCD4 is fixed to the CCD adapter, and is connected on the lens drum main body 3 by means of this CCD adapter.Be equipped with light filter 14 in the front of CCD4, between light filter 14 and the 7th lens 11A, be equipped with image stabilizer 5 with correcting lens 15.The image stabilizer of describing in detail after a while 5 is used for the fuzzy of the stable captured image (image) that is caused by the vibration of lens combination 2 grades.Under standard state, correcting lens 15 is mounted to its optical axis is overlapped with second optical axis L 2 of lens combination 2.When because during image blurring on the focusing surface that the vibration of camera body etc. causes at CCD4, can be by be stabilized in the blurred picture on the focusing surface by image stabilizer 5 shift calibrating lens 15 on perpendicular to the both direction (first direction X and second direction Y) of second optical axis L 2.
Shown in Fig. 1 to 11, the lens drum main body 3 with maintenance lens combination 2 of said structure comprises: top tube 16, middle part tube 17 and bottom tube 18 layout on another on above-below direction makes up and installs.Top tube 16 is become by the hull shape with the openning 19 that is configured in its top front face and the opening that is configured in its lower surface.The object lens 7A of first group of lens 7 is connected on the openning 19, and the plate 21 by being connected to its front surface, and object lens 7A is connected on the top tube 16.In top tube 16, between the rear surface of object lens 7A and prism 7B, have light shielding layer 22, and the prism 7B that is configured on the rear surface of object lens 7A is fixed in the top tube 16, and the second lens 7C is configured on the lower surface of this prism 7B.
In addition, in top tube 16, be equipped with the first removable maintenance framework 23, they are on the optical axis L that is parallel to lens combination 22 directions that the above-below direction along lens drum main body 3 extends, so that mode is supported movably.In the first removable maintenance framework 23, be equipped with a through hole that on above-below direction, penetrates, and second group of lens 8 is fixed to this through hole.This first removable maintenance framework 23 is constructed in the following manner, promptly by means of the zoom drive mechanism 24 that is connected to top tube 16, so that it can move around in predetermined scope on the direction of second optical axis L 2 of lens combination 2.
Zoom drive mechanism 24 comprises: zoom motor 25 is configured to the propelling lead screw shaft 26 of the turning axle of this zoom motor 25, the pushnut 27 that engages with this propelling lead screw shaft 26 etc.Zoom motor 25 is fixed on U type first support 28, and the both ends that protrude into the lead screw shaft 26 of one end are supported by first support 28 in mode free to rotate.A plurality of (in this embodiment being two) fixed screw 29a of the specific embodiment of first support 28 by being depicted as retention mechanism is connected to top tube 16.
In the installment state of first support 28, pushnut 27 slidably engages with lead screw shaft 26.Pushnut 27 is kept by the first removable maintenance framework 23, and its limit movement is on the direction that its flight extends.In addition, two axis of guide 31a and 31b slidably pass the first removable maintenance framework 23 on the direction that is parallel to second optical axis L 2.Two axis of guide 31a and 31b are kept by top tube 16 at the two ends of a side, and the two ends of its opposite side are kept by middle part tube 17.
Therefore, when zoom motor 25 is driven, advance the revolving force of lead screw shaft 26 to be delivered on the first removable maintenance framework 23 through pushnut 27.Meanwhile, pushnut 27 is moved on the axis that drives with respect to lead screw shaft 26, and rotates on the precalculated position.As a result, the first removable maintenance framework 23 and pushnut 27 collaborative moving so that second group of lens 8 according to the sense of rotation of zoom motor 25 optionally near the direction of first group of lens 7 or near the direction of the 3rd group of lens 9, move.In this case, keep the first removable maintenance framework 23 of second group of lens 8 to be guided by two axis of guide 31a and 31b on the direction that is parallel to second optical axis L 2, therefore the first removable maintenance framework 23 can move on second optical axis L 2 exactly.
Middle part tube 17 is formed by the frame body that roughly becomes rectangle, and this frame body lower surface thereon has opening, and two openings are respectively towards the lower surface of top tube 16 and the upper surface of bottom tube 18.Also fixing in the fixed screw 29b fastening that upper and lower is upward through it with three tubes that a mode on another is arranged by a plurality of (being three in this embodiment), so and integrally assembled, constitute lens drum main body 3 thus.
The 3rd group of lens 9 are fixed and maintenance by middle part tube 17, and are equipped with aperture device 12 below the 3rd group of lens 9.This aperture device 12 comprises: can freely adjust barrier film (diaphragm) parts 32 of aperture area, support the diaphragm support plate 33 of this diaphragm element 32 in a movable manner, open and close the stepper motor 34 of diaphragm element 32 etc.This stepper motor 34 is fixed to the upper surface side of middle part tube 17, and motor base 35 is configured between the two.
Bottom tube 18 by surface thereon, side surface becomes with the hull shape that lower surface has opening, in shell inside, the second removable maintenance framework 36 is supported in a movable manner on the above-below direction of second optical axis L 2 that is parallel to lens combination 2.Be equipped with the through hole that penetrates at above-below direction in the second removable maintenance framework 36, the 4th group of lens 10 are fixed on this through hole.The second removable maintenance framework 36 is constructed in the following manner, by means of the focusing driving mechanism 37 that is connected to bottom tube 18, so that it can move around in predetermined scope on direction of second optical axis L 2 of lens combination 2.
Focusing on driving mechanism 37 comprises: focus on motor 38, be configured to the propelling lead screw shaft 39 of the turning axle of this focusing motor 38, the pushnut 41 that engages with this propelling lead screw shaft 39 etc.Focus on motor 38 and be fixed on U type second support 42, and the both ends that protrude into the propelling lead screw shaft 39 of one end are supported by second support 42 in mode free to rotate.Second support 42 connects bottom tube 18 by a plurality of (in this embodiment being two) the fixed screw 29c as retention mechanism.
In the installment state of second support 42, pushnut 41 slidably engages with advancing lead screw shaft 39.Pushnut 41 is kept by the second removable maintenance framework 36, and its limit movement is on the direction that its flight extends.In addition, two axis of guides 43 (one of them only is shown among Figure 11) slidably pass the second removable maintenance framework 36 on the direction that is parallel to second optical axis L 2.Two axis of guides 43 are kept by middle part tube 17 at the end of a side, and the end of its opposite side is kept by bottom tube 18.
Therefore, when focusing motor 38 is driven, advance the revolving force of lead screw shaft 39 to be delivered on the second removable maintenance framework 36 through pushnut 41.Meanwhile, pushnut 41 moves on respect to the axis of driven propelling lead screw shaft 39, and rotates on the precalculated position.As a result, the second removable maintenance framework 36 and pushnut 41 collaborative moving so that the 4th group of lens 10 according to the sense of rotation that focuses on motor 38 optionally near the direction of the 3rd group of lens 9 or near the direction of the 5th group of lens 11, move.In this case, keep the second removable maintenance framework 36 of the 4th group of lens 10 to be guided by two axis of guides 43 on the direction that is parallel to second optical axis L 2, therefore the second removable maintenance framework 36 can move on second optical axis L 2 exactly.
CCD 4 is connected to the lower surface of bottom tube 18 by CCD adapter 44.CCD adapter 44 is formed by the plate that has square openings in the centre; And CCD 4 by means of the retention mechanism of for example bonding agent by on the similar surface that integrally is fixed to the CCD adapter for the caulking gum 45 of square-shaped frame of shape.Be equipped with light shielding plate 46 on another surface of CCD adapter 44, wherein light filter 14 is disposed thereon, and they are fixed under the pressure effect of wave filter pressing plate 47.Have in internal configurations under the situation of light filter 14, CCD adapter 44 is connected on the bottom tube 18 by the retention mechanism of for example fixed screw.
In the opening of in bottom tube 18 side surfaces, making 48, image stabilizer 5 is installed removably.Image stabilizer 5 has the structure shown in Figure 13 to 22.Image stabilizer 5 comprises above-mentioned correcting lens 15, the first travelling frames 51, second travelling frame 52, fixing base 53, electric actuator 54, position sensor 55 etc.First travelling frame 51 supports correcting lens 15.Second travelling frame 52 supports first travelling frame 51 in a movable manner on the first direction X perpendicular to second optical axis L 2 of lens combination 2.Fixing base 53 is supporting second travelling frame 52 in a movable manner perpendicular to second optical axis L 2 of lens combination 2 with on perpendicular to the second direction Y of first direction X.Electric actuator 54 has shown the special case of driver, and it is moving first travelling frame 51 and move second travelling frame 52 on second direction Y on first direction X.Position sensor 55 is surveyed the position (first direction X and second direction Y on) of correcting lens 15 with respect to lens combination 2.
Cause shake or when vibrating when camera body described later because hand is trembled to wait, correcting lens 15 moves the image of blur correction mode on first direction X and/or second direction Y corresponding to the fuzzy quantity of image at that time by its position.As shown in figure 18, continuous in a circumferential direction step portion 15a is configured in a side of the peripheral edge of correcting lens 15.In addition, by provided with recesses on corresponding to diametric two positions, on the peripheral edge of correcting lens 15, form two sides width segments 15b and 15b.Correcting lens 15 is fixed on first travelling frame 51.
Shown in Figure 18,19, first travelling frame 51 comprises: correcting lens 15 is assemblied in lens ring fixed part 51a wherein; At the continuous yoke fixed part 51b that forms of the side of lens fixed part 51a, wherein yoke fixed part 51b is folded into crank (crank) form, and the yoke of describing later 66 is fixed thereon; Deng.The shape of lens fixed part 51a is corresponding to the shape of correcting lens 15, the step portion 15a of step portion and correcting lens 15 engagement, and step portion is configured in enclosing on the edge of the pilot hole 58 that wherein is equipped with correcting lens 15.In addition, lens fixed part 51a has two sides width segments 51c and the 51d corresponding to the two sides width segments 15b of correcting lens 15, and yoke fixed part 51b is continuous in the side perpendicular to the direction (first direction X) of the two sides width segments 51c direction (second direction Y) relative with 51d.
On the outside of the two sides of lens fixed part 51a width segments 51c and 51d, dispose the first main bearing part 61 and the first supplementary bearing part 62.The first main bearing part 61 has on first direction X at a distance of two drive tab 61a of predetermined space and 61b.Each disposes dead eye drive tab 61a and 61b, and the first main axis of guide 63 penetrates in the dead eye on first direction X.The first main axis of guide 63 is fixed on drive tab 61a and the drive tab 61b under pressure, and extend to the outside from drive tab 61a and 61b at its two ends.The first supplementary bearing part 62 is equipped with the bearing groove 64 that forms in its side.The first secondary axis of guide 65 slidably meshes with bearing groove 64.
And the yoke 66 that constitutes electric actuator 54 parts is fixed to the yoke fixed part 51b of first travelling frame 51 by the retention mechanism of for example bonding agent or fixed screw.As shown in figure 20, yoke 66 comprises: with predetermined space parallel to each other and relative upper-part 66a and lower member 66b, with the web member 66c that is connected upper-part 66a and lower member 66b.Web member 66c is provided in the side longitudinally of upper-part 66a and lower member 66a, web member 66c transversely be formed with groove, the part of the yoke fixed part 51b of first travelling frame 51 is inserted in this groove.
In order to make the coil block main body 93 that describes below more near correcting lens 15, the groove 66d of configuration yoke 66 adopts this groove 66d, further miniaturization of electric actuator 54.The upper-part 66a of yoke 66 and the inside surface of lower member 66a form with the rectangular shape with about and inside surface same size by the retention mechanism of for example bonding agent.Relative up and down two magnet 67a and 67b and yoke 66 constitute the magnetic circuit of electric actuators 54.Specifically, a magnetic circuit component with a yoke 66 and two magnet 67a and 67b can be used as the i.e. magnetic circuit of first driver of first power driver, and also can be as the i.e. magnetic circuit of second driver of second power driver.
In this embodiment, the magnetic circuit of electric actuator 54 is by with flat magnet 67a with 67b is fixed to the upper-part 66a of yoke 66 and the inside surface of lower member 66a constitutes, and it is used to strengthen being applied to the magnetic force of two coils that describe below.Therefore, magnet must not be configured on the inside surface of the upper-part 66a of yoke 66 and lower member 66a according to embodiments of the present invention, but, also can constitute the magnetic circuit of electric actuator 54 by fixed magnets on the upper-part 66a of yoke 66 or lower member 66a.
As shown in figure 18, second travelling frame 52 is by forming than the slightly wide flat board of first travelling frame 51.Second travelling frame 52 assembles so that it is assemblied in first travelling frame 51 times towards first travelling frame 51.Be equipped with a through hole 68 on the position of second travelling frame 52 corresponding to the pilot hole 58 of first travelling frame 51, this through hole has the size roughly the same with pilot hole 58.Second bearing portions on the upper surface of second travelling frame 52, is equipped with, slidably at first direction X upper support first travelling frame 51.
Second bearing portions comprises: the second main bearing part 71, its mode support fixation first main axis of guide 63 on first travelling frame 51 being free to slide; With the second supplementary bearing part 72, it supports the first secondary axis of guide 65 in a fixed manner.Under first travelling frame 51 had been assembled to state on second travelling frame 52, the second main bearing part 71 was equipped to the two ends that can support the first main axis of guide 63.Specifically, the second main bearing part 71 comprises two drive tab 71a and the 71b that supports the first main axis of guide, 63 two ends, and the second main bearing part 71 is configured on the upper surface of second travelling frame 52 to project upwards.
The separate distance ground of two drive tab 71a of the second main bearing part 71 and 71b forms, and this distance is the first main bearing part 61 in the length on the first direction X and makes the summation of first travelling frame 51 mobile necessary length on first direction X.Each is equipped with dead eye two drive tab 71a and 71b, and the two ends of the first main axis of guide 63 slidably are inserted in the dead eye.
And under first travelling frame 51 had been mounted to state on second travelling frame 52, the position of the second supplementary bearing part, 72 configurations was corresponding with the first supplementary bearing part 62.Specifically, the second supplementary bearing part 72 comprises two drive tab 72a and the 72b that supports the first secondary axis of guide, 65 two ends.Each disposes dead eye two drive tab 72a and 72b, and the two ends of the first secondary axis of guide 65 are fixed on the drive tab under pressure.The first secondary axis of guide 65 is inserted in the mode that can be free to slide in the bearing groove 64 in the first supplementary bearing part 62 that is configured in first travelling frame 51.The first secondary axis of guide 65 and the first main axis of guide 63 are arranged to make their shaft centre line parallel to each other, and first travelling frame 51 is guided so that it can move on first direction X by two axis of guides 63 and 65.
Dispose the 3rd bearing portions on the lower surface of second travelling frame 52, the 3rd bearing portions is used for slidably supporting second travelling frame 52 on perpendicular to the second direction Y of first direction X.The 3rd bearing portions comprises the 3rd main bearing part 75 and the 3rd supplementary bearing part 76.The 3rd main bearing part 75 is positioned at an end of last second travelling frame 52 of first direction X, it comprises the drive tab 75a and the 75b of two each interval scheduled volumes on second direction Y, and the 3rd main bearing part 75 is configured on the lower surface of second travelling frame 52 in outstanding downwards mode.Each is equipped with dead eye two drive tab 75a and 75b, and the two ends of the second main axis of guide 77 that extends on second direction Y slidably are inserted in this dead eye.
And, the 3rd supplementary bearing part 76 on first direction X general arrangement at the center of the other end of second travelling frame 52.The 3rd supplementary bearing part 76 is equipped with the bearing groove 78 of transverse opening.The second secondary axis of guide 79 that extends on the second direction Y perpendicular to first direction X slidably meshes with bearing groove 78.The second main axis of guide 77 and the second secondary axis of guide 79 boths are separately fixed on the fixing base 53.Second travelling frame 52 is assembled so that it is assemblied in above the fixing base 53 towards fixing base 53.
As shown in figure 18, fixing base 53 comprises on the size travelling frame support section 53a corresponding to second travelling frame 52, the coil stationary part 53b of the continuous configuration that forms as one with travelling frame support section 53a, etc.Travelling frame support section 53a is formed by the flat board that has with second travelling frame, 52 approximate same size, and coil stationary part 53b extends to the end of travelling frame support section 53a on first direction X.Dispose through hole 81 on the position of travelling frame support section 53a corresponding to the through hole 68 of second travelling frame 52, this through hole 81 has the size roughly the same with through hole 68.Be configured in the two ends of travelling frame support section 53a upper surface on first direction X by means of second axis of guide at the 4th bearing portions that slidably supports second travelling frame 52 on the second direction Y.
The 4th bearing portions comprises that the four main that is configured in the last side of first direction X holds part 82 and is configured in the fourth officer bearing portions 83 that first direction X goes up opposite side.Four main holds part 82 and is included in two drive tab 82a and the 82b that second direction Y goes up the configuration of each interval certain distance, thereby and four main hold on the upper surface that part 82 is configured in travelling frame support section 53a and project upwards.Each is equipped with a dead eye two drive tab 82a and 82b, and is pressed on two positions in the middle of the axis direction of the second main axis of guide 77 and waits to be fixed in the dead eye.Therefore, the two ends of the second main axis of guide 77 are outstanding to the outside of two drive tab 82a and 82b respectively.
Two the drive tab 75a and the 75b that are configured in the 3rd main bearing part 75 on second travelling frame 52 slidably are assembled on the outshot at the second main axis of guide, 77 two ends.Two drive tab 75a and 75b are separated from each other of a certain distance, and this distance is the length between two drive tab 82a and the 82b and second travelling frame 52 move essential length on second direction Y a summation.Therefore, the 3rd main bearing part 75 of second travelling frame 52 is held the second main axis of guide 77 of part 82, slidably is supported on the outside of two drive tab 82a and 82b with respect to the four main that is fixed to fixing base 53.
And fourth officer bearing portions 83 is included in two drive tab 83a and the 83b that second direction Y goes up the each interval certain distance, and fourth officer bearing portions 83 is configured on the upper surface of travelling frame support section 53a in the mode that projects upwards.Each is equipped with a dead eye two drive tab 83a and 83b, and the second secondary axis of guide 79 is pressed in the dead eye so that it is by its two ends fixed support on its axis direction.Slidably mesh at the bearing groove 78 that is configured in the 3rd supplementary bearing part 76 on second travelling frame 52 between two drive tab 83a and the 83b with the second secondary axis of guide 79.Therefore, make the 3rd supplementary bearing part 76 by 79 guiding of the second secondary axis of guide between two drive tab 83a and 83b on second direction Y mobile preset distance become possibility.
The coil stationary part 53b of fixing base 53 is partly formed by square-shaped planar roughly, and this planar section has the supporting walls 84 that projects upwards, and supporting walls 84 is configured in the last side of second direction Y.Coil brace 85 is fixed to coil support part 53b, and coil block main body 93 is connected to coil brace 85.As shown in figure 20, coil brace 85 is used for coil block main body 93 is remained on predetermined altitude, and coil brace forms the frame body of U-shaped face.Coil brace 85 is installed in coil stationary part 53b and goes up being provided with along supporting walls 84, and the retention mechanism overall fixed by for example bonding agent or fixed screw is on fixing base 53.On the lower surface of fixing base 53, be equipped with to connect projection section 53c with on the lens drum main body 3 that is fixed.
The upper surface of coil brace 85 forms the plane, and two the locator protrusions 85a and the 85a that are used for set winding support component 86 are configured in upper surface.Two locator protrusions 85a and 85a each other with the preset distance placement of turning up the soil at interval, and are fixed on the upper surface of coil brace 85 by two locator protrusions 85a and 85a location and as the coil support members 86 of flexible reinforcement plate on second direction Y.Retention mechanism by for example adhesive type is fixed to the flexible printed circuit board 87 that is printed on predetermining circuit on the upper and lower surface on the coil support members 86.
The flat coil 88 that the specific embodiment of first coil is shown is installed on the upper surface of coil support members 86.Shown in Figure 20 and other accompanying drawing, oval coil part 88a and 88b that flat coil 88 is twined by two levels that are arranged side by side form.Two coiler part 88a and 88b same length in the horizontal, but length difference in the vertical.Coil support members 86 with this flat coil 88 is fixed on the upper surface of an end of flexible printed circuit board 87, and two coiler part 88a and 88b extend longitudinally on the direction that is substantially perpendicular to flexible printed circuit board 87 bearing of trends.
Shown in Figure 21 and other accompanying drawing,, its length on vertical (second direction Y) is in the length range of coil support members 86 on second direction Y for being configured in the first coiler part 88a that flexible printed circuit board 87 extends on the side.Simultaneously, for the second coiler part 88b, make its length on vertical (second direction Y) shorter than the first coiler part 88a.This is because the side on the second coiler part 88b is vertical disposes a space, and is equipped with web member 66c in this space, and web member 66c is the part of yoke 66, and it constitutes the part of electric actuator 54, so that electric actuator 54 miniaturizations.
These two coiler part 88a and 88b form by twining a winding wire; Make electric current on the long limit located adjacent one another along first direction X, flow through along equidirectional along the linearly extended part of second direction Y place, the thrust with different length produces part 89a and 89b forms thus.As shown in Figure 22 and other figure, under the state that electric actuator 54 has been configured, it is relative with magnet 67a with 89b that these thrusts produce part 89a.
This flat coil 88 is electrically connected to the predetermined wiring diagram on the upper surface that is arranged in flexible printed circuit board 87.Thereby, when electric current is applied to these two coiler part 88a and 88b, the magnetic force edge that is produced by magnet 67a and 67b produces part 89a and 89b perpendicular to the thrust of flat coil 88 direction generation effect, therefore, according to the left-hand rule of Fu Laiming (Fleming), the masterpiece that points to first direction X is used on the side of magnet 67a and 67b.
As mentioned above, because flat coil 88 is formed by two coiler part 88a that are arranged side by side and 88b, can be fixed to flat coil 88 so bigger thrust produces part, this flat coil 88 is arranged in close correcting lens 15 places and is stored in a predetermined space.In addition, because by making two coiler part 88a different, can provide predetermined space, and the coupling part 66c of yoke 66 is disposed in this space, so might make whole electric actuator 54 miniaturizations with 88b length.
In addition, the cylindrical coil 91 that the second coil instantiation is shown is installed under the flexible printed circuit board 87.The two ends of cylindrical coil 91 are electrically connected on the predetermined wiring diagram that is arranged in flexible printed circuit board 87 lower surfaces.As shown in Figure 20 and other figure, cylindrical coil 91 heart therein is provided with a coffin part, thereby make it become a rectangle right cylinder on the whole, and by the winding wire that twines a scheduled volume form the band corner angle cylindrical shape, thereby make it on stack direction, have preset thickness.For this cylindrical coil 91, thrust generation part 92 is fixed to flexible printed circuit board 87 by the mechanism that tightens up of viscosity, and the direction that its winding wire extends is towards first direction X.
The lower member 66b of yoke 66 and overall fixed are inserted in the space segment at cylindrical coil 91 centers to the lower magnet 67b on it.Thereby when electric current was applied to cylindrical coil 91, the magneticaction that is produced by magnet 67a and 67b was in the direction that produces part 92 perpendicular to thrust, and therefore, according to the left-hand rule of Fu Laiming, the masterpiece that points to second direction Y is used on the side of magnet 67a and 67b.Coil support members 86, flexible printed circuit board 87, flat coil 88 and cylindrical coil 91 constitute coil block main body 93.
As mentioned above, because by flat coil 88 being fixed to a surface of coil support members 86, and construct a coil block main body 93 by cylindrical coil 91 being fixed to another surface, thereby stack two coils 88 and 91 along the direction that is parallel to second optical axis L 2, thereby may reduce to be used to arrange on the direction perpendicular to second optical axis L 2 space of two coils 88 and 91, thereby whole device can be able to miniaturization.In addition, produce part 92 by the thrust that the thrust of flat coil 88 is produced part 89a and 89b and cylindrical coil 91 and be arranged as that it is perpendicular to one another is crossing, the thrust that the magnetic force of magnet 67a and 67b jointly acts on produces on part 89a, the 89b and 91, and this is reduced the quantity of actuator part.
Figure 21 and 22 illustrates the electric actuator 54 that comprises above-mentioned coil block main body 93, yoke 66 and two magnet 67a and 67b.In the part of this electric actuator 54, yoke 66, two magnet 67a and 67b and flat coil 88 constitute first drivers (first power driver), this first driver by first travelling frame 51 along first direction X shift calibrating lens 15.The first major and minor bearing portions 61 of first travelling frame 51 and 62, the first major and minor axis of guide 63 and the 65 and second major and minor bearing portions 71 and 72 constitute first guide piece, and this first guide piece guides this correcting lens 15 by first travelling frame 51 along the first direction X perpendicular to second optical axis L 2 of lens drum 1.
In addition, yoke 66, two magnet 67a and 67b and cylindrical coil 91 constitute second drivers (second power driver), this two driver by second travelling frame 52 along second direction Y shift calibrating lens 15.The 3rd major and minor bearing portions 75 of second travelling frame 52 and 76, the second major and minor axis of guide 77 and the 79 and the 4th major and minor bearing portions 82 and 83 constitute second guide piece, this second guide piece by second travelling frame 52 along perpendicular to second optical axis L 2 of lens drum 1 and guide this correcting lens 15 perpendicular to the second direction Y of first direction X.
As mentioned above, in the present embodiment, a magnetic circuit component with yoke 66 and two magnet 67a, 67b is served as the magnetic circuit of first driver, and the magnetic circuit of second driver.Thereby, be equipped with a magnetic circuit component owing to need not to be each driver, so number of spare parts can be able to reduce to a certain degree, and whole device is able to miniaturization.
In addition, as shown in Figure 20, the lower surface that first Hall element 94 of primary importance detector instantiation, the thermistor 96 that second Hall element 95 of second place detector instantiation is shown and the Temperature Detector instantiation is shown are installed to coil support members 86 is shown.First Hall element 94 detects the position of correcting lens 15 along first direction X by first travelling frame 51.And second Hall element 95 detects the position of correcting lens 15 along second direction Y by second travelling frame 52.First Hall element 94 is disposed in a side of cylindrical coil 91, and second Hall element 95 is disposed in the opposite side of cylindrical coil 91.
In the pre-position, first Hall element 94 and second Hall element 95 detect the magnetic field intensity of lower magnet 67b, then according to this magnetic field intensity output detection signal.According to from two Hall elements 94 and 95 detection signals, control module comes the position of calculation correction lens 15 by arithmetical operation.In addition, near the temperature the thermistor 96 magnetic test coil module body 93 is when near the temperature it is elevated to or surpass a predetermined value, except image blurring the carrying out of being caused by camera shake, vibration etc. also carried out temperature correction the stabilization.
Image stabilizer 5 with structure as mentioned above is for example by following assembling.At first, shown in Figure 20-22, flat coil 88 is fixed to a surface of coil support members 86, and cylindrical coil 91 is fixed to the apparent surface who is connected with flexible printed circuit board 87.Thereby, constituted by coil support members 86 and two coils 88,91 and be connected wherein coil block main body 93.
The lower member 66b of yoke 66 is inserted into from side direction the hole of cylindrical coil 91 of this coil block main body 93, and the lower magnet 67b that is fixed on lower member 66b inside surface and the thrust of cylindrical coil 91 to produce part 92 relative.Simultaneously, magnet 67a in top is relative with the upper surface of flat coil 88.Thereby the thrust generation part 92 that the thrust of flat coil 88 produces part 89a, 89b and cylindrical coil 91 is maintained between upper and lower magnet 67a and the 67b, thereby constitutes electric actuator 54.The coil support members 86 of this electric actuator 54 is installed in the upper surface of coil brace 85, and by two locator protrusions 85a and 85a location.Then, coil support members 86 utilizes the mechanism that tightens up such as cementing agent to be fixed on the coil brace 85.
Next, second travelling frame 52 is from top travelling frame support section 53a in the face of fixing base 53, and four main holds between two the bearing part 75a and 75b that two bearing part 82a of part 82 and 82b be positioned in the 3rd main bearing spare 75.And the 3rd supplementary bearing spare 76 is positioned between two the bearing part 83a and 83b of fourth officer bearing part 83.Then, make the second main axis of guide 77 pass the dead eye that the 3rd main bearing part 75 and four main hold four bearing part 75a, 75b, 82a and 82b of part 82.In the case, the second main axis of guide 77 is pressed into four main and holds part 82 being fixed, but makes it with respect to the 3rd main bearing spare 75 slidably.
In addition, make the second secondary axis of guide 79 pass two bearing part 83a and the dead eye of 83b and the bearing groove 78 of the 3rd supplementary bearing part 76 of fourth officer bearing portions 83.In the case, the second secondary axis of guide 79 is pressed into fourth officer bearing portions 83 being fixed, but makes it with respect to the 3rd supplementary bearing part 76 slidably.Like this, second travelling frame 52 can move predetermined distance along second direction Y with respect to fixing base 53, that is, removable one deducts that four main holds two bearing part 82a of part 82 and the distance between the 82b outside surface and the length that obtains from two bearing part 75a of the 3rd main bearing part 75 and the distance between the 75b inside surface.
Next, the lens fixed part 51a of first travelling frame 51 faces second travelling frame 52 from above, and two bearing part 61a of the first main bearing part 61 and 61b are positioned between two the bearing part 71a and 71b of the second main bearing part 71.Then, the first supplementary bearing spare 62 is positioned between two the bearing part 72a and 72b of the second supplementary bearing part 72.Next, make the first main axis of guide 63 pass the dead eye of four bearing part 61a, 61b, 71a and 71b of the first main bearing part 61 and the second main bearing part 71.In the case, the first main axis of guide 63 is pressed into the first main bearing part 61 being fixed, but makes it with respect to the second main bearing part 71 slidably.
In addition, make the first secondary axis of guide 65 pass two bearing portions 72a and the dead eye of 72b and the bearing groove 64 of the first supplementary bearing part 62 of the second supplementary bearing part 72.In the case, the first secondary axis of guide 65 is pressed into the second supplementary bearing part 72 being fixed, but makes it with respect to the first supplementary bearing part 62 slidably.Like this, first travelling frame 51 can move predetermined distance along first direction X with respect to second travelling frame 52, that is, removable one deducts two bearing portions 61a of the first main bearing part 61 and the distance between the 61b outside surface and the length that obtains from two bearing portions 71a of the second main bearing part 71 and the distance between the 71b inside surface.
Next, the yoke 66 that is fixed with two magnet 67a and 67b is installed to first travelling frame 51.For the installation of yoke 66, can before being installed to second travelling frame 52, first travelling frame 51 in advance yoke 66 be installed to first travelling frame 51.Then, the coil brace 85 that coil block main body 93 is installed is attached to the coil stationary part 53b of fixing base 53.In the case, cylindrical coil 91 is installed from side direction, and the lower member 66b and the lower magnet 67b of yoke 66 is inserted in its hole.Utilize the mechanism that tightens up that coil brace 85 is installed to fixing base 53 then such as cementing agent.By operation like this, finish the assembling of image stabilizer 5, obtain image stabilizer 5 with structure as shown in Figure 13-17.
The function of image stabilizer 5 with said structure is as follows.The motion of the correcting lens 15 of this image stabilizer 5 is to carry out by optionally or side by side supplying with the drive current with appropriate value via flexible printed circuit board 87 to the flat coil 88 of electric actuator 54 and cylindrical coil 91.
Utilize coil support members 86 that the flat coil 88 and the cylindrical coil 91 of this image stabilizer 5 are fixed to coil brace 85, and then utilize coil brace 85 to be fixed on the fixing base 53.In the case, the thrust of flat coil 88 produces part 89a and 89b extends along second direction Y, and the thrust of cylindrical coil 91 generation part 92 is extended along first direction X.And, because be fixed to that two magnet 67a at yoke 66 two ends and 67b are disposed on coil 88 and 91 and under, the magnetic flux of the magnetic circuit that is formed by yoke 66 and two magnet 67a and 67b works in the following manner, and the thrust that the thrust of promptly vertically passing flat coil 88 produces part 89a and 89b and cylindrical coil 91 produces part 92.
Simultaneously, yoke 66 and two magnet 67a and 67b are fixed to first travelling frame 51 that is keeping correcting lens 15.First guide piece that correcting lens 15 is had first travelling frame 51 with respect to second travelling frame 52 along first direction X movably mode support.In addition, second guide piece of this correcting lens 15 with second travelling frame 52 with respect to fixing base 53 along second direction Y movably mode support.Thereby, utilizing the effect of first guide piece and second guide piece, correcting lens 15 can freely move in preset range along first direction X and second direction Y.
If now electric current is applied to flat coil 88, so because thrust produces part 89a and 89b extends along second direction Y, so this electric current flows along second direction Y at thrust generation part 89a and 89b place.In the case and since the magnetic flux of magnetic circuit act on the upper and lower that produces part 89a and 89b perpendicular to thrust to, so according to the left-hand rule of Fu Laiming, the masterpiece that points to first direction X is used on two magnet 67a and 67b and the yoke 66.Thereby first travelling frame 51 that is fixed with yoke 66 grades moves along first direction X.The result is, according to the size that is applied to electric current on the flat coil 88, the correcting lens 15 that is being kept by first travelling frame 51 is under the guiding of first guide piece, and X moves along first direction.
On the other hand, if an electric current is applied to cylindrical coil 91, because thrust produces part 92 along first direction X extension,, this electric current flows so along first direction X so producing part 92 places in thrust.In the case and since the magnetic flux of magnetic circuit act on the upper and lower that produces part 92 perpendicular to thrust to, so according to the left-hand rule of Fu Laiming, the masterpiece that points to second direction Y is used on two magnet 67a and 67b and the yoke 66.Thereby by means of first travelling frame 51 that is fixed with yoke 66 grades, this second travelling frame 52 moves along second direction Y.The result is that according to the size that is applied to electric current on the cylindrical coil 91, by means of first travelling frame 51 that is guided by second guide piece and second travelling frame 52, correcting lens 15 moves along second direction Y.
And, if electric current is applied to flat coil 88 and cylindrical coil 91 simultaneously, more than the motion of the flat coil 88 all described and the motion of cylindrical coil 91 carry out in the mode of associating.Specifically, correcting lens 15 moves along first direction X owing to the effect of the electric current of the flat coil 88 of flowing through, and the while moves along second direction Y owing to the effect of the electric current of the cylindrical coil 91 of flowing through.The result is, correcting lens 15 moves along diagonal, thereby makes the image stabilization of lens combination 2.
Figure 23 illustrates another embodiment of above-mentioned electric actuator 54.In this electric actuator 54A, coil block main body 93 is assembled along a different direction, and similar in its part and the foregoing description.In the present embodiment, coil block main body 93 is attached on the fixing base 53, and wherein the length direction of flat coil 88 (thrust produces the direction that part is extended) points to first direction X.And the yoke 66 that is fixed with magnet 67a and 67b is attached to first travelling frame 51, so that the longitudinal direction of yoke 66 (and magnet 67a and 67b) is corresponding to the longitudinal direction of flat coil 88.Therefore, the thrust of cylindrical coil 91 produces part along the second direction Y extension perpendicular to first direction X.
Under the present embodiment situation, when electric current is applied to flat coil 88, produce the power that second travelling frame 52 is moved along second direction Y.And, when electric current is applied to cylindrical coil 91, produce the power that first travelling frame 51 is moved along first direction X.
Figure 24 and 25 illustrates an other embodiment of above-mentioned coil block main body 93.Coil block main body 181 shown in this embodiment is used the coil component part of first flat coil 182 as first driver, and uses the coil component part of second flat coil 183 as second driver similarly.First flat coil 182 is formed by two oval coil part 182a and 182b that are arranged side by side, and these two coiler part 182a are identical with the 182b size and dimension.And being similar to 88, two coiler part 182a of flat coil among first embodiment and 182b is that thrust produces part 187 along their horizontal direction (first direction X) position adjacent one another are.
Second flat coil 183 has the structure identical with first flat coil 182, comprises two coiler part 183a and 183b, and has thrust and produce part 188.Two flat coils 182 and 183 are arranged such that their thrust produces part 187 and 188 and vertically intersects each other, and by first flat coil 182 being fixed on the surface of flexible printed circuit board 184, and second flat coil 183 is fixed on its another surface constitutes coil block main body 181, this flexible printed circuit board 184 is as coil support members.
In addition, in the present embodiment, a magnet 186 is attached to the top of U-shaped yoke 185, thereby constitutes magnetic circuit.About this magnet 186, its longitudinal direction is configured to along the direction (first direction X) that produces part perpendicular to the thrust of first flat coil 182.Coil block main body 181 with said structure is similar to the foregoing description, makes except this flat coil 182 and 183 of predetermined space stored, can fix bigger thrust and produce part, and whole device can be able to miniaturization.In addition, under this embodiment situation, compare, can make coil block main body 181 quite thin, thereby can make whole device attenuation with above-mentioned coil block main body 93.
Should be pointed out that according to the coil block main body of the image stabilizer of one embodiment of the present invention and can construct by two cylindrical coils are combined.In the case, these two cylindrical coils are arranged to make their thrust generation part 187 and 188 vertically to intersect each other, and face one another.And jointly be applied to two thrusts by magnetic force and produce part, just thrust can be applied to the side of magnet, thereby along first direction and second direction shift calibrating lens with magnet.And, opposite with above-mentioned first embodiment, cylindrical coil can be fixed to the upper surface of coil support members 86, this cylindrical coil is used as first coil, and flat coil can be fixed to the lower surface of flexible printed circuit board 87, this flat coil is used as second coil.
The foregoing description adopts so-called moving magnet method, wherein is equipped with the coil block main body 93 of two coils 88,91 etc. to be fixed on the fixing base 53; Yoke 66 and magnet 67a, 67b are fixed to first travelling frame 51; And by electric current being applied to the side that thrust that this coil 88,91 produces is applied to yoke 66 and magnet 67a, 67b, thereby shift calibrating lens 15.Yet, image stabilizer according to one embodiment of the present invention also can adopt so-called moving coil method, opposite with above-mentioned moving magnet method, wherein yoke 66 and magnet 67a, 67b are fixed on the fixing base 53, and coil block main body 93 is fixed on first travelling frame 51.
Should be pointed out that according to the so-called moving magnet method shown in the above embodiment owing to coil block main body 93 is fixed on the fixing base 53, thereby the flexible printed circuit board 87 of coil block main body 93 can be fixed to preposition.The result is, owing to needn't guarantee a space for the motion that allows flexible printed circuit board 87, thereby device can be miniaturized.In addition, because flexible printed circuit board 87 is moved, will can not cause resistance to increase owing to the flexural deformation of flexible printed circuit board 87.Thereby the load of electric actuator 54 does not increase, and correcting lens 15 can be moved by low thrust steadily, and can reduce power consumption by the electric current that reduces to be applied on coil 88 and 91.
Image stabilizer 5 with said structure and function is attached to lens drum 1, as shown in Fig. 1-11.Image stabilizer 5 is inserted into the opening 48 that is arranged on 3 times lens barrels 18 of lens drum main body and extracts from this opening 48 from side direction; And be attached to down lens barrel 18 with removably.In the case, be configured to a device as a unit according to the image stabilizer 5 of one embodiment of the present invention, thus can by easily, installation and removal promptly.Reference numeral 98 in Figure 11 and other accompanying drawing is represented the cap member of overlay image stabilizator 5.Mechanism is attached to lens drum main body 3 with removably the following lens barrel 18 that tightens up that this cap member 98 utilizes such as gib screw.
Next, the operation of the lens combination 2 of the lens drum 1 that image stabilizer 5 is installed is described with reference to Figure 12.When the object lens 7A of lens drum 1 aiming object, penetrate along primary optic axis L1 from the light of this object, and be input within the lens combination 2 from object lens 7A.In the case, the light that passes object lens 7A is deflected 90 ° in prism 7B, advance to CCD 4 along second optical axis L 2 then.Specifically, the light that is reflected in prism 7B and has passed the second lens 7C of first group of lens 7 passes second group of lens 8, the 3rd group of lens 9 and the 4th group of lens 10, pass the 7th lens 11A and the correcting lens 15 of the 5th group of lens 11, and pass light filter 14, thereby on the focal plane of CCD 4, form image corresponding to object.
In the case, when taking, when camera shake and vibration are not applied to lens drum 1, light from object passes first group of each core to the 5th group of lens along optical axis L (the primary optic axis L1 and second optical axis L 2), shown in the solid line of light 6A, so image is formed on the precalculated position on CCD 4 focal planes, thereby and obtain excellent images, and do not cause image blurring.
On the other hand, when taking, when camera shake or vibration are applied to lens drum 1, be imported into first group of lens with heeling condition from the light of object, shown in the dot-and-dash line of light 6B, or shown in the dotted line of light 6C.Each place in first group to the 5th group lens, incident light 6B, 6C pass these lens, depart from second optical axis L 2; Yet, can come correcting camera shake etc. by correcting lens 15 is moved scheduled volume according to shake of camera etc.This makes pre-position on the focal plane of CCD 4 form image becomes possibility, and can blur by removal of images and obtain excellent images.
Utilize a Fuzzy Detector to record shake about the camera of lens drum 1, vibration etc.For example, for example gyrosensor can be used as this Fuzzy Detector.This gyrosensor is installed in the camera body with lens drum 1, surveys effects such as the acceleration that acts on lens drum 1 that the similar action by vibration, camera shake and camerist hand causes, angular velocity, angular acceleration simultaneously.The information that records by this gyrosensor, as acceleration and angular velocity, be provided for control device, and driving is also controlled electric actuator 54 so that first travelling frame 51 moves along first direction X in response to the shake on the first direction X, second travelling frame 52 moves along second direction Y in response to the shake on the second direction Y, thereby allows the pre-position on the focal plane of CCD 4 to form image.
Figure 26 illustrates second embodiment according to lens drum of the present invention, and its structure is similar to aforesaid embodiment basically.Specifically, lens drum 1 comprises lens combination 2, lens drum main body 3, imager 4, image stabilizer 5 etc.Lens combination 2 has five groups of lens, and wherein a plurality of lens are placed on the same optical axis L.Lens drum main body 3 is with fixing or lens in the mode support of lens system 2 movably.The imager 4 such as CCD or CMOS that indicates the special case of imager places on the optical axis L of lens combination 2 and also is fixed on the lens drum main body 3 simultaneously.Image stabilizer 5 and 3 mutually attached whiles of lens drum main body are also stablized the image of lens combination 2.
As shown in figure 12, the lens combination 2 of lens drum 1 is configured to comprise the collapsible lens of five groups of lens 7 to 11, and wherein five lens combination are placed on the same optical axis L.Specifically, be similar to previous embodiment, the folded lens system of collapsible lens hereto, the optical axis L of lens combination 2 is bent to about 90 ° angle by prism 7B.Therefore, primary optic axis L1 is set at the side that the first lens 7A is object lens, and second optical axis L 2 is set at a side (image focusing side) of imager 4, promptly along the direction vertical with primary optic axis L1 (along the direction of intersecting at an angle of 90 with primary optic axis L1).
Shown in Figure 26 to 29 and other accompanying drawing, because it is similar to aforementioned first embodiment to form five groups of lens 7 to 11 of lens combination 2 structures, so omit relevant repeat specification.Similarly, keep the structure of lens drum 3 of this lens combination 2 similar, same omit relevant repeat specification here to aforesaid embodiment.
About lens drum 1, in image stabilizer 5 and the aforesaid lens drum 1 very big difference arranged according to this second embodiment.According to the image stabilizer 5 of this second embodiment and image stabilizer 5 very big difference is arranged according to previous embodiment, wherein the drive system of the image stabilizer 5 of second embodiment is configured to the coil mobile system, yet the drive system of the image stabilizer 5 of previous embodiment is configured to the magnet mobile system.Here, in this magnet mobile system, magnet and correcting lens 15 move in combination, and coil is fixed.On the other hand, in this coil mobile system, coil and correcting lens 15 move in combination, and magnet is fixed.
Shown in Figure 30 to 42 and other accompanying drawing,, on a side, has the step part 15a that extends in a circumferential direction in its outer peripheral edge of correcting lens 15.And then two face width part 15b and 15b are by being provided with its outer peripheral edge that groove is formed at check and correction lens 15 at two corresponding to diametric position.This correcting lens 15 is fixed in first travelling frame 51.
First travelling frame 51 comprises: lens ring fixed part 51a, and correcting lens 15 is assembled thereon; Coil stationary part 51b, it is formed with the side of this lens fixed part 51a and links to each other, and be converted into a crank structure, and coil block main body 93 is fixed thereon; Etc. suchlike part.Lens fixed part 51a has and the corresponding shape of the shape of correcting lens 15, and has pilot hole 58, and correcting lens 15 is assemblied in wherein.On the peripheral edge of the pilot hole 58 of lens fixed part 51a, has the step part that is meshed with the step part 15a of correcting lens 15.And then lens fixed part 51a has two face width part 51c and 51c corresponding to two face width part 15b of correcting lens 15.Simultaneously yoke fixed part 51b is along linking to each other in a side with lens fixed part 51a with the vertical direction (first direction X) of two face width part 51c and 51c direction respect to one another (second direction Y).
The first main bearing part 61 and the first supplementary bearing part 62 be equipped with at two the face width part 51c of lens fixed part 51a and the outside of 51c.The first main bearing part 61 has two bearing part 61a and 61b and the interval of a scheduled volume is set on first direction X, and the first main axis of guide 63 passes two bearing part 61a and 61b on first direction X simultaneously.The first main axis of guide 63 is fixed on two bearing part 61a and the 61b under pressure, and two end is outwards outstanding from bearing part 61a and 61b.The first supplementary bearing part 62 has the bearing groove 64 of lateral openings.The first secondary axis of guide 65 slidably is meshed with bearing groove 64.
Coil block main body 93 integral body of forming the electric actuator 54 be used to make correcting lens 15 to move and be the part of driver on first direction X and second direction Y link to each other with the coil stationary part 51b of first travelling frame 51.Shown in Figure 40 and 41, coil block main body 93 comprises having magnetic sheet 86 magnetic material, that be thin plate-like, be fixed in the i.e. flat coil on a surface of this magnetic sheet 86 (first coil) 88 and be fixed in another surperficial cylindrical coil that lower surface is a magnetic sheet 86 (second coil) 91 of upper surface.An end of flexible printed circuit board 87 is positioned between magnetic sheet 86 and the cylindrical coil 91.Magnetic sheet 86 is formed by the printed circuit board (PCB) that lower surface thereon is printed with the prescribed route circuit, and is connected with the wiring route electricity of flexible printed circuit board 87.This magnetic sheet 86 has the function of reinforcing flexible printed circuit board 87 and as the function of coil supporting member, it prevents to support the partial vibration of first travelling frame 51.
The flat coil 88 that level is twined is installed in the upper surface of this magnetic sheet 86, thereby is connected in prescribed route figure on the flexible printed circuit board 87 by electricity.Flat coil 88 is formed by two elliptical coil parts 88a and 88b placed side by side.Two coil component 88a are probably equal in their length in a lateral direction with 88b, but length difference in a longitudinal direction.Different the reasons are as follows of length of two coil component 88a and 88b.Can be placed in by the web member 66c that makes yoke 66 on the outside of short coiler part 88b, flat coil 88 is held bigger at the area of flat surfaces side, and electric actuator 54 is in the position near correcting lens 15, thereby the integral body of electric actuator 54 can miniaturization.
Two coil component 88a and 88b form by the winding around electric wire.Equally, the direction of winding around electric wire is configured to, and when applying voltage, produces electric current and flows on thrust production part 89a and the 89b along equidirectional, and described thrust production part straight line along the longitudinal direction extends and be adjacent one another are at their Width.About this flat coil 88, each coil component 88a and 88b are fixed on the magnetic sheet 86 by the adhesive mechanism that tightens up, and wherein the longitudinal direction of two coil component 88a and 88b is oriented to second direction Y.
Cylindrical coil 91 is connected on the lower surface of flexible printed circuit board 87 of the lower surface that is fixed in this magnetic sheet 86, and two ends of cylindrical coil 91 all are connected on the prescribed route figure on the flexible printed circuit board 87 by electricity.As Figure 40 and 41 and other accompanying drawing shown in, cylindrical coil 91 has coffin part so that form rectangular body on the whole in the center, and forms and have the cylinder body shape of corner angle by twining predetermined amount, so that have predetermined thickness on stacking direction.For this cylindrical coil 91, thrust production part 92 is fixed on the flexible printed circuit board 87 by the retention mechanism of viscosity, and wherein the bearing of trend of coil wire is oriented along first direction X.
The lower member 66b of yoke 66 and overall fixed are inserted in the space segment of cylindrical coil 91 centers in this lower magnet 67b.As Figure 30,42 and other accompanying drawing shown in, yoke 66 comprises upper-part 66a and lower member 66b, both are parallel to each other and with the predetermined space amount toward each other, and web member 66c, it connects parts 66a and 66b up and down.Web member 66c is positioned at the up and down side of parts 66a and 66b in a longitudinal direction, thereby forms the part of groove 66d with the yoke fixed part 51b that inserts first travelling frame 51 in the side direction of web member 66c.The purpose that the depression 66d of yoke 66 is set is to make coil block main body 93 more near correcting lens 15, and this depression 66d makes further miniaturization of electric actuator 54.
By fastening mechanism such as adhesive flat magnet 67a and 67b are arranged at the 66a of parts up and down of yoke 66 and the inside surface of 66b, flat magnet has the rectangular shape with the approximate same size in top and the bottom.This that is perpendicular to one another relative two magnet 67a, 67b and yoke 66 are formed the magnetic force loop of electric actuator 54.Specifically, magnetic force loop element comprises a yoke 66 and two magnet 67a and 67b, it is used as the magnetic force loop of the second electric actuator 54B that is formed by cylindrical coil 91 simultaneously as the magnetic force loop of the first electric actuator 54A that is formed by flat coil 88.
And then, the bossing 69a of the direction projection of extending along magnet 67a and 67b and 66a of parts up and down that 69b is placed in yoke 66 and the end of 66b.These bossings 69a and 69b mainly are used as effectively magnetic force deflection with magnet 67a and 67b to yoke 66 sides.Specifically, with the magnetic force of magnet 67a and 67b effectively deflection make the magnetic field of magnet 67a and 67b end equate (magnetic field consistent) more with their magnetic field of center to yoke 66 sides, thereby, about the first direction X of position sensing and the interference between the second direction Y can be reduced.Equally, two flat surfaces of magnet 67a that launches along the direction that is perpendicular to one another and 67b are configured to contact or adjacent to the inside surface of bossing 69a and 69b.In this embodiment, these bossings 69a and 69b can be shaped as rectangle or square, but also can be shaped as other shape certainly as semicircle, half elliptic and triangle.
Thereby, when electric current is applied to two coil component 88a of the first electric actuator 54A and 88b when going up, the magnetic force that is produced by magnet 67a and 67b is along the directive effect perpendicular to flat coil 88, therefore along the power of first direction X guiding according to not coming bright Left Hand Rule to act on the side of magnet 67a and 67b.Equally, when electric current is applied on the cylindrical coil 91 of the second electric actuator 54B, therefore the magnetic force that is produced by magnet 67a and 67b act on the side of magnet 67a and 67b along the directive effect perpendicular to thrust production part 92 according to the Left Hand Rule of Fu Laiming along the power of second direction Y.
Aforementioned magnetic sheet 86, flexible printed circuit board 87, flat coil 88 and cylindrical coil 91 are formed coil block main body 93.This coil block main body 93, yoke 66 and two magnet 67a and 67b form electric actuator 54.The first electric actuator 54A is made of the combination of the flat coil 88 that comprises two coiler part 88a and 88b, yoke 66 and magnet 67a and 67b; The second electric actuator 54B is made of the combination of cylindrical coil 91, yoke 66 and magnet 67a and 67b.Be noted that yoke 66 is fixed on the yoke fixed part 53b of the fixing base 53 that will mention the back by the retention mechanism of for example bonding agent or fixed screw.
Shown in Figure 29 and 30, second travelling frame 52 is formed by the flat board of slightly being wider than first travelling frame 51.Second travelling frame 52 is assembled in the face of first travelling frame 51 in the mode that is assemblied in its below.Be provided with the through hole 68 that has with the approximately equalised size of this pilot hole at second travelling frame 52 corresponding to the position of the pilot hole 58 of first travelling frame 51.Upper surface at this second travelling frame 52 has second bearing portions, so that support first travelling frame 51 in the mode of sliding on first direction X.
Second bearing portions comprises: the second main bearing part 71, its with the mode support fixation that can be free to slide in the first main axis of guide 63 of first travelling frame 51; With the second supplementary bearing part 72, it supports the first secondary axis of guide 65 in a fixed manner.Under first travelling frame 51 had been assemblied in situation on second travelling frame 52, two ends of first capstan 63 can be supported in the position that the second main bearing part 71 is set up.Specifically, the second main bearing part 71 comprises two the bearing part 71a and the 71b of two ends supporting the first main axis of guide 63, and is disposed on the upper surface of second travelling frame 52 to project upwards.
Two bearing part 71a of the second main bearing part 71 and 71b are shaped as form away from each other, and its distance is that the first main support component 61 moves necessary length sum in the length on the first direction X and first travelling frame 51 on first direction X.Each of two bearing part 71a and 71b all has dead eye, and two ends of first capstan 63 slidably are inserted in those dead eyes.
Equally, under first travelling frame 51 had been installed in situation on second travelling frame 52, the second supplementary bearing part 72 was placed in the position corresponding to the first supplementary bearing part 62.Specifically, the second supplementary bearing part 72 comprises two bearing part 72a and 72b, and it supports the two ends of the first secondary axis of guide 65.Each has dead eye two bearing part 72a and 72b, and the two ends of the first secondary axis of guide 65 are fixed into those dead eyes under pressure.This first secondary axis of guide 65 is inserted into the bearing groove 64 in the first supplementary bearing part 62 of first travelling frame 51 in the mode that is free to slide.The first secondary axis of guide 65 and the first main axis of guide 63 are configured to make their shaft centre line parallel to each other, and first travelling frame 51 can move on first direction X by two axis of guides 63 and 65 guiding.
Has the 3rd bearing portions that is used for slidably supporting on perpendicular to the second direction Y of first direction X second travelling frame 52 on the lower surface of second travelling frame 52.The 3rd bearing portions comprises the 3rd main bearing part 75 and the 3rd supplementary bearing part 76.The 3rd main bearing part 75, it is the end of second travelling frame 52 on first direction X, comprises two bearing part 75a and 75b that have predetermined space on second direction Y to each other, and is placed on the lower surface of second travelling frame 52 with to lower convexity.Each has dead eye two bearing part 75a and 75b, and the two ends of the second main axis of guide 77 that extends along second direction Y slidably are inserted in those dead eyes.
Equally, has the 3rd supplementary bearing part 76 in center near the other end of second travelling frame 52 on the first direction X.The 3rd supplementary bearing part 76 is equipped with along the bearing groove of laterally making 78.The second secondary axis of guide 79 that extends along the second direction Y vertical with first direction X slidably meshes with this bearing groove 78.The second main axis of guide 77 and the second secondary axis of guide 79 are individually fixed on the fixing base 53.Second travelling frame 52 assembles in the face of fixing base 53 in the mode that is mounted thereon.
As Figure 29,30 and other accompanying drawing shown in, fixing base 53 comprises the travelling frame support section 53a corresponding dimensionally with second travelling frame 52, the whole and yoke fixed part 53b that be provided with continuously with this travelling frame support section 53a, etc.The travelling frame support section 53a of fixing base 53 is by forming with the general flat board that equates of the size of second travelling frame 52, and yoke fixed part 53b is mutually continuous with the end of this travelling frame support section 53a on first direction X.Through hole 68 corresponding positions at the travelling frame support section 53a and second travelling frame 52 have through hole 81, and its size is approximate identical with through hole 68.The 4th bearing portions slidably supports second travelling frame 52 by the second secondary axis of guide 77 and 79 of advocating peace on second direction Y, and is arranged on the two ends of the upper surface of this travelling frame support section on first direction X.
The 4th bearing portions is included in the fourth officer bearing portions 83 that the four main that places a side on the first direction X holds part 82 and place an other side on first direction X.Four main holds part 82 and comprises two bearing part 82a and 82b, and they have a certain amount of interval each other on second direction Y, and is placed in the upper surface of travelling frame support section 53a in the mode that raises up.Each has dead eye two bearing part 82a and 82b, and two positions of the centre of the second main axis of guide 77 axially are pressed into those dead eyes to be fixed along it.Thereby the two ends of the second main axis of guide 77 are to the outside projection of two bearing part 82a and 82b.
Two bearing part 75a of the 3rd main bearing part 75 on second travelling frame 52 and the dead eye of 75b slidably are assemblied in the bossing at these second main axis of guide, 77 two ends.Two bearing part 75a and 75b away from each other, its distance is that the length and second travelling frame 52 between two bearing part 82a and the 82b moves necessary length sum on second direction Y.Therefore, the 3rd main bearing part 75 of second travelling frame 52 is held the outside that the second main axis of guide 77 on the part 82 is supported on two bearing part 82a and 82b in a movable manner with respect to the four main that is fixed to fixing base 53.
Equally, fourth officer bearing portions 83 comprises two bearing part 83a and 83b, and it is apart certain intervals on second direction Y, and is placed in the upper surface of travelling frame support section 53a in the mode that raises up.Each has dead eye two bearing part 83a and 83b, and the second secondary axis of guide 79 is pressed in those dead eyes and by the two end supports of axial restraint.Between these two bearing part 83a and 83b, the bearing groove 78 and the second secondary axis of guide 79 that are positioned at the 3rd supplementary bearing part 76 on second travelling frame 52 slidably mesh.Therefore, the 3rd supplementary bearing part 76 can move predetermined distance along second direction Y by the second secondary axis of guide 79 guiding between two bearing part 83a and the 83b.
The yoke fixed part 53b of fixing base 53 probably forms for square flat by having the support section 84 that raises up, and support section 84 is placed in the side of second direction Y.The lower member 66b of yoke 66 engages by this support section 84 and is fixing.Thereby yoke 66 is fixed in fixing base 53, and wherein parts 66a and 66b and two magnet 67a are opposite with optical axis direction with 67b up and down.Like this, yoke 66 can be held by the confining force of support section 84, or utilizes fastened or fixing such as the retention mechanism of gib screw.And then, on the lower surface of fixing base 53, have the projection section of connection 53c, be used for this plate is fixed in lens drum 3.
Equally, first and second travelling frames 51 and 52 and fixing base 53 in have pilot hole 73A, 73B and 73C, be positioned at when first and second travelling frames 51 and 52 and fixing base 53 make the approximately equalised position, center of pilot hole 58 and through hole 68 and 81 after being installed to together.When image stabilizer 5 is assembled, thus these pilot holes 73A, 73B and 73C by locate according to the relation in precalculated position first and second travelling frames 51 and 52 and fixing base 53 be used to improve the efficient of assembling process and similar procedure.
First of above mentioned first travelling frame 51 advocate peace supplementary bearing part 61 and 62, first the advocate peace secondary axis of guide 63 and 65 and second advocate peace supplementary bearing part 71 and 72, form first guide piece, its on the first direction X vertical with second optical axis L 2 of lens drum 1 by first travelling frame, 51 bootstrap correction lens 15.The 3rd of second travelling frame 52 supplementary bearing part 75 and 76, the second secondary axis of guide 77 and the 79 and the 4th supplementary bearing part 82 and 83 of advocating peace of advocating peace of advocating peace is formed second guide piece, its with second direction Y also vertical when second optical axis L 2 of lens drum 1 is perpendicular with first direction X on by second travelling frame, 52 bootstrap correction lens 15.
As described above, in this embodiment, a magnetic force loop element that comprises a yoke 66 and two magnet 67a and 67b is as the magnetic force loop of the first electric actuator 54A and the magnetic force loop of the second electric actuator 54B.Therefore, because needn't be for each driver provides the magnetic force circuit element, so component number can reduce to a certain degree, and whole device size can be reduced.
And then shown in Figure 37 to 41, the lower surface of magnetic sheet 86 has: two Hall elements 94 and 95, and it is used to survey the position of correcting lens 15 with respect to first direction X and second direction Y as position sensor; With hygrosensor 96, it surveys near the temperature it.For example, thermistor 96 can be used as hygrosensor.Near this thermistor 96 detecting coil module body 93 temperature, when near temperature has been increased to or surpass a predetermined value, except stable shake, vibration etc. by hand cause image blurring also carry out temperature correction.
First Hall element 94 that the particular instance of primary importance detector is shown is surveyed the position of correcting lens 15 on first direction X by first travelling frame 51.Equally, second Hall element 95 that the particular instance of the second place is shown is surveyed the position of correcting lens 15 on second direction Y by second travelling frame 52.First Hall element 94 is placed in a side of cylindrical coil 91, and second Hall element 95 is placed in the opposite side of cylindrical coil 91.In each pre-position, first Hall element 94 and second Hall element 95 are surveyed the magnetism intensity of lower magnet 67b, then according to magnetism intensity output detectable signal.According to from these two Hall elements 94 and 95 detectable signals that obtain, the position of control device calculation correction lens 15.
Image stabilizer 5 with said structure can for example be assembled by following mode.The first, shown in Figure 40 and 41, flat coil 88 is fixed in a surface of magnetic sheet 86, and cylindrical coil 91 is fixed on the opposed surface that is connected with flexible printed circuit board 87 simultaneously.Thereby, be configured to wherein to be connected with the coil block main body 93 of magnetic sheet 86, flexible printed circuit board 87, two flat coils 88 and cylindrical coil 91.
Then, magnet 67a and 67b are placed respectively and are fixed in the upper-part 66a and lower member 66b of yoke 66.The lower member 66b of yoke 66 and magnet 67b are inserted from side direction the hole of cylindrical coil 91 of coil block main body 93.Then, lower magnet 67b is arranged to the lower surface in the face of the thrust production part 92 of cylindrical coil 91, and top magnet 67a is arranged to the upper surface in the face of flat coil 88.Thereby the thrust production part 92 of the thrust production part 89a of flat coil 88 and 89b and cylindrical coil 91 is maintained between upper and lower magnet 67a and the 67b, thereby forms electric actuator 54.The magnetic sheet of this electric actuator 54 (flexible gusset plate) 86 is fixed in the coil stationary part 53b of first travelling frame 51.
Then, second travelling frame 52 is placed with from the top travelling frame support section 53a in the face of fixing base 53, and two bearing part 82a of the 4th support section 82 and 82b are placed between two the bearing part 75a and 75b of the 3rd main bearing part 75.Simultaneously, the 3rd supplementary bearing part 76 is positioned between two the bearing part 83a and 83b of fourth officer bearing portions 83.Subsequently, the second main axis of guide 77 passes the dead eye that the 3rd main bearing part 75 and four main hold four bearing part 75a, 75b, 82a and 82b of part 82.In this case, the second main axis of guide 77 is pressed into four main and holds part 82 to be fixed, and still is made into respect to the 3rd main bearing part 75 slidably.
And then the second secondary axis of guide 70 passes two bearing part 83a and the dead eye of 83b and the bearing groove 78 of the 3rd supplementary bearing part 76 of fourth officer bearing portions 83.In this case, the second secondary axis of guide 79 is pressed into fourth officer bearing portions 83 to be fixed, and still is made into respect to the 3rd supplementary bearing part 76 slidably.Thereby, second travelling frame 52 can move along second direction Y with preset distance with respect to fixing base 53, that is the length that obtains by the distance that deducts from two bearing part 75a of the 3rd main bearing part 75 and the distance between the 75b inside surface between the outside surface that four main holds two bearing part 82a of part 82 and 82b.
Then, the lens fixed part 51a of first travelling frame 51 is placed with from the top in the face of second travelling frame 52, and two bearing part 61a of the first main bearing part 61 and 61b are placed between two the bearing part 71a and 71b of the second main bearing part 71.Simultaneously, the first supplementary bearing part 62 is placed between two the bearing part 72a and 72b of the second supplementary bearing part 72.Subsequently, the first main axis of guide 63 passes the dead eye of four bearing part 61a, 61b, 71a and 71b of the first main bearing part 61 and the second main bearing part 71.In this case, the first main axis of guide 63 is pressed into the first main bearing part 61 to be fixed, and still is made into respect to the second main bearing part 71 slidably.
And then the first secondary axis of guide 65 passes two bearing part 72a and the dead eye of 72b and the bearing groove 64 of the first supplementary bearing part 62 of the second supplementary bearing part 72.In this case, the first secondary axis of guide 65 is pressed into the second supplementary bearing part 72 to be fixed, and still is made into respect to the first supplementary bearing part 62 slidably.Thereby, first travelling frame 51 can move along first direction X with preset distance with respect to second travelling frame 52, that is the length that obtains of the distance between the outside surface of two bearing part 61a by deducting the first main bearing part 61 from the distance between the inside surface of two bearing part 71a of the second main bearing part 71 and 71b and 61b.
Then, the yoke 66 that is fixed with two magnet 67a and 67b is connected to fixing base 53.For the installation of yoke 66, yoke 66 can be connected to fixing base 53 in advance, that is, and and before first travelling frame 51 is connected on second travelling frame 52.Subsequently, coil block main body 93 is connected to the coil stationary part 51b of first travelling frame 51.In this case, cylindrical coil 91 is from laterally assembling, and the lower member 66b of yoke 66 and lower magnet 67b are inserted in its hole.Then, coil block main body 93 for example utilizes that the retention mechanism of bonding agent is fixed on the coil stationary part 51b of first travelling frame 51.Like this, image stabilizer 5 is finished assembling, and obtains image stabilizer 5 with structure shown in Figure 30 to 42.
Next the function of image stabilizer 5 that description is had the moving coil system of said structure.The mobile of the correcting lens 15 of this image stabilizer 5 is by optionally or side by side carrying out to the flat coil 88 of electric actuator 54 and the electric current of cylindrical coil 91 supply appropriate values through flexible printed circuit board 87.
The flat coil 88 of this image stabilizer 5 and cylindrical coil 91 are fixed in first travelling frame 51 as an element of coil block main body 93.In this case, the thrust production part 89a of flat coil 88 and 89b extend along second direction Y, and the thrust production part 92 of cylindrical coil 91 extends along first direction X simultaneously.Equally, be placed in coil 88 and 91 both above and belows owing to be fixed in two magnet 67a at yoke 66 two ends and 67b, so the magnetic flux in the magnetic force loop that is formed by yoke 66 and two magnet 67a and 67b is with the form effect of the thrust production part 92 of the vertical thrust production part 89a that passes through flat coil 88 and 89b and cylindrical coil 91.
Equally, first guide piece of the correcting lens 15 of image stabilizer 5 by having first travelling frame 51 with on first direction X with respect to second travelling frame 52 movably mode support.And then, second guide piece of correcting lens 15 by having second travelling frame 52 with on second direction Y with respect to fixing base 53 movably mode support.Therefore, under the effect of first guide piece and second guide piece, correcting lens 15 can move freely in preset range on first direction X and second direction Y.
If apply electrical current on the flat coil 88, because thrust production part 89a and 89b extend on second direction Y, so electric current flows at its thrust production part 89a and 89b upper edge second direction Y.In this case, because the magnetic flux in magnetic force loop acts on the above-below direction perpendicular to thrust production part 89a and 89b, so the power that leads on first direction X is according to not coming bright Left Hand Rule to act on two coils 88 and 91.Thereby first travelling frame 51 that is fixed with coil block main body 93 grades moves along first direction X.As a result, be directed at first direction X according to the size of the electric current that imposes on flat coil 88 by first guide piece by the fixing correcting lens 15 of first travelling frame 51 and go up and move.
On the other hand,, extend on first direction X owing to thrust production part 92 so, so electric current flows along first direction X at its thrust production part 92 places if apply electrical current to cylindrical coil 91.In this case, because the magnetic flux in magnetic force loop acts on perpendicular to the below of thrust production part 92 upwards, so the power that leads on second direction Y is according to not coming bright Left Hand Rule to act on two coils 88 and 91.Thereby second travelling frame 52 moves on second direction Y by first travelling frame 51 that is fixed with coil block main body 93 grades.As a result, correcting lens 15 moves on second direction Y according to the size that is applied to the electric current on the cylindrical coil 91, and wherein first travelling frame 51 and second travelling frame 52 are led by second guide piece.
And then if electric current is applied simultaneously on flat coil 88 and the cylindrical coil 91, the mode that moves with combination of the mobile and cylindrical coil 91 of flat coil 88 realizes that both are all narrated in the above so.Specifically, correcting lens 15 is owing to the effect of flowing through the electric current of flat coil 88 is moved along first direction X, and correcting lens 15 is owing to the effect of flowing through the electric current of cylindrical coil 91 is moved along second direction Y simultaneously.As a result, correcting lens 15 moves along oblique line directions, thereby has stablized the image of lens combination 2.
Cap member 98 is installed on the image stabilizer 5 with said structure, shown in Figure 27 to 29 removably.Cap member 98 has upper surface portion 98a, front surface portion 98b and a left side and right lateral surface 98c (one of them side surface does not illustrate in the drawings), and cap member 98 is by roughly being shaped to rectangular parallelepiped protrusion part and forming at the shell that has an opening with lower surface thereafter.The part place that upper surface portion 98a links to each other with front surface portion 98b has extracts the flexible printed circuit board 87 that mouthful 201, one ends are connected to coil block main body 93 and extracts from extract mouth.
Cap member 98 covers the electric actuator 54 of image stabilizer to be protected 5, and constructs removably from the yoke fixed part 53b of fixing base 53.Owing to this reason, a plurality of (they being two in this embodiment) with and the connection support 202 of the rear surface side that is connected to upper surface portion 98 and outstanding mode moulding downwards and 202 and a plurality of (they being two in this embodiment) connecting hole 203 and 203 of being formed at the bottom of front surface portion 98b and be arranged in the cap member 98.Corresponding to these connecting holes 203, the yoke fixed part 53b of fixing base 53 has the connection bump part 204 of similar number, and this part is in the lateral projection.
By connecting hole 203 being assemblied in two connection bump parts 204, cap member 98 is installed in fixing base 53.In this case, for example two connection supports 202 and 202 are configured in the mode with the Elastic Meshing such as following lens barrel 18 of lens drum main body 3.Because the structure of cap member 98 self, make cap member 98 under situation about not using, to be connected to lens drum main body 3 in the mode that can freely dismantle as the retention mechanism of gib screw.
Equally, have flexible compressing parts 205 in the mouth 201 extracting of cap member 98, it prevents that the flexible printed circuit board of extracting 87 is raised.And, be provided with the protruding 206a of pair of locking and the 206b of the both sides of the flexible printed circuit board that supports in a lateral direction extract in the mode that raises up in the front portion of the upper surface portion 98a that extracts mouthful 201 tops.Simultaneously, the locking projections side 207 that has the specific region of supporting flexible printed circuit board (PCB) 87 at the rear portion of upper surface portion 98a.Though do not illustrate in the drawings, the part that flexible printed circuit board 87 extends forward and power supply or the element electricity that is connected in the mains side of power supply are connected.
Locking projections 206a and 206b and locking projections side 207 are employed shown in Figure 28, Figure 34 to 36.Specifically, this locks the both sides of the start-up portion of flat surfaces part 87b in a lateral direction to locking projections 206a and 206b, its be pulled out the back and linking to each other from extracting mouthfuls 201 with the sweep 87a of particular bend radius bending.This makes sweep 87a have elasticity, and first travelling frame 51 can be offset to second travelling frame, 52 sides by this elastic force.
Explain the effect that biasing force W that the sweep 87a by flexible printed circuit board 87 produces brings with reference to Figure 43 and 44.Be illustrated in to Figure 43 and 44 diagrammatic the biasing force W that sweep 87a, first travelling frame 51, second travelling frame 52 and fixing base 53 produce, thereby the relation between them has been described.Because an end of flexible printed circuit board 87 is fixed on the cap member 98 that is fixed on the lens drum main body 3, so this cap member 98 is fixed parts.
In Figure 43, when biasing force W was applied to flexible printed circuit board 87 by sweep 87a, biasing force W produced and left-hand component is pushed away downwards and right-hand component is upwards pushed away to act on the acting force of first travelling frame 51 in response to this.Thereby for the first main axis of guide 63 that is fixed in first travelling frame 51, left side outshot 63a is pushed downwards, and the right outshot 63b is upwards pushed away.As a result, at the first main axis of guide 63 with support between the bearing part 71a of left side outshot 63a of the first main axis of guide 63, by the slit E1 of alignment error decision by only upwards directed.On the other hand, at the first main axis of guide 63 with support between the bearing part 71b of the right outshot 63b of the first main axis of guide 63, by the slit E1 of alignment error decision by only directed downwards.Equally, in Figure 44, for the first supplementary bearing part 62 on first travelling frame 51, the acting force that pushes away downwards makes that the upper surface of bearing groove 64 is oppressed from the top by the first secondary axis of guide 65 that is fixed in second travelling frame 52, and only directed downwards by the slit E2 of measuring error decision.
Simultaneously, in Figure 43 and 44, the acting force that promotes left half in response to this downwards and upwards promote right half acts on second travelling frame 52.Thereby for second travelling frame 52, the part on the left side is pushed down, and the part on the right is pushed upwardly.As a result, hold between the part 82 and the second main axis of guide 77, by the slit F1 of the alignment error decision bearing portions 82a on both sides and 82b place orientation downwards all at four main.Between the 3rd supplementary bearing part 76 and the second secondary axis of guide 79, simultaneously, upwards the acting force that promotes makes that the lower surface of bearing groove 78 is oppressed from the below by the second secondary axis of guide 79 that is fixed on the fixing base 53, and only upwards directed by the slit F2 of measuring error decision.
Thereby by keeping second travelling frame 52 and first travelling frame 51 stationary state with respect to fixing base 53, the biasing force W according to the sweep 87a of flexible printed circuit board 87 produces can keep the state of correcting lens 15 constant.In addition, the flexible printed circuit board of using owing to the typical case 87 uses as it is and is used for State Control without any need for new part and mechanism etc.; Therefore, do not need to increase cost and just can realize State Control.Equally, because magnetic sheet 86, produces the suction by the magnetic force decision of magnetic sheet 86 and magnet 67b near magnet 67b; And combine biasing force W grow by the biasing force W that produces among the sweep 87a with this suction and flexible printed circuit board 87.
Figure 45 and 46 shows an embodiment, and wherein the biasing force W that is produced by the sweep 87a of flexible printed circuit board 87 is variable.In this embodiment, have only the shape of flexible printed circuit board 87 different with above-described embodiment.Therefore, only illustrate that herein flexible printed circuit board 87 and identical Reference numeral refer to identical structure so that the repetitive description thereof will be omitted.The both sides that the sweep 87b of flexible printed circuit board 87 has a circular shape by cutting on Width form narrower than its other parts, and therefore, the rigidity of sweep 87b (intensity) is configured to than a little less than the other parts.This structure makes and arbitrarily the rigidity (intensity) of sweep 87b is arranged to than becoming possibility a little less than other parts.
The shape that is noted that the sweep 87b of flexible printed circuit board 87 is not limited to the circular arc shown in this embodiment; For example, can use triangle, square, the half elliptic shape different with other.Equally, can only be provided for the depression of sweep 87b in a side.And then, sweep 87b can constitute crooked part, be not depression to be set by outer rim at flexible printed circuit board 87, thereby but by portion within it make circular, oval, prismatic or other the hole and make the rigidity (intensity) of this part be lower than other parts.
Figure 47 to 49 illustrates a kind of structure, and wherein the structure before the sweep 87a of flexible printed circuit board 87 is not by cap member 98 supports but supports by fixing base 53.Therefore, on the lower surface of the yoke fixed part 53b of fixing base 53, the locking projections 206a of both sides of a pair of fore-end at Width upper support sweep 87a and 206b are set with to lower convexity.By using this supporting construction also can obtain to be similar to the effect of above-described embodiment.
The effect that the biasing force W that produces by the sweep 87a by this flexible printed circuit board 87 brings describes with reference to Figure 50 and 51.Figure 50 and 51 diagrammatic ground have shown the biasing force that produces in sweep 87a, first travelling frame 51, second travelling frame 52 and the fixing base 52, thereby explain the relation between them.Because an end of flexible printed circuit board 87 is fixed on the fixing base 53 that is fixed on the lens drum main body 3, so this fixing base 53 is fixed parts.
In Figure 50, when biasing force W is applied on the flexible printed circuit board 87 by sweep 87a, upwards pushes away in response to this, with left-hand component and the acting force that right-hand component pushes away is downwards acted on first travelling frame 51 by this biasing force W.Thereby for the first main axis of guide 63 that is fixed on first travelling frame 51, the bossing 63a on the left side is upwards pushed away, and the bossing 63b on the right is pushed downwards.As a result, at the first main axis of guide 63 with support between the bearing part 71a of left side bossing 63a of the first main axis of guide 63, only directed downwards by the slit E1 of alignment error decision.Simultaneously, at the first main axis of guide 63 with support between the bearing part 71b of the right bossing 63b of the first main axis of guide 63, only upwards directed by the slit E1 of alignment error decision.Equally, in Figure 51, for the first supplementary bearing part 62 on first travelling frame 51, the acting force that upwards pushes away makes that the lower surface of bearing groove 64 is oppressed from the below by the first secondary axis of guide 65 that is fixed in second travelling frame 52, and only directed downwards by the slit E2 of measuring error decision.
Meanwhile, in Figure 50 and 51, in response to this, upwards the acting force that promotes left-hand component and promote right-hand component downwards acts on second travelling frame 52.Thereby for second travelling frame 52, left-hand component is upwards pushed away, and right-hand component is pushed downwards.As a result, hold between the part 82 and the second main axis of guide 77 at four main, upwards directed by support section 82a and the 82b place of slit F1 while on both sides of alignment error decision.Between the 3rd supplementary bearing part 76 and the second secondary axis of guide 79, simultaneously, downwards the acting force that promotes makes that the upper surface of bearing groove 78 is oppressed from the top by the second secondary axis of guide 79 that is fixed on the fixing base 53, and only directed downwards by the slit F2 of measuring error decision.
Thereby the biasing force W according to the sweep 87a of flexible printed circuit board 87 produces by keeping second travelling frame 52 and first travelling frame 51 stationary state with respect to fixing base 53, can keep the state of correcting lens 15 constant.In addition, because the flexible printed circuit board 87 that the typical case uses uses as it is and do not need new any part and mechanism etc. to be used for State Control, just can not realize State Control so do not need to increase cost.Equally, by making magnetic sheet 86 near the suction of magnet 67b generation by the magnetic force decision of magnetic sheet 86 and magnet 67b; And therefore the biasing force W that can produce by the sweep 87a with suction and flexible printed circuit board 87 is in conjunction with making biasing force W grow.
Figure 52 illustrates another embodiment of the connection status of electric actuator 54.In this embodiment, the joint angle of electric actuator 54 and the foregoing description be 90 ° of ratio deviations mutually, simultaneously for each element, have only different in position and the foregoing description of support section 84 of fixing base 53 of support coils module body 93.Therefore, provided reference data same as the previously described embodiments, and the description that repeats will be omitted.
In this embodiment, electric actuator 54 is connected on first travelling frame 51, and rotation changes 90 °.Specifically, thus flat coil 88 is connected to and makes thrust produce part on first travelling frame 51 to extend on the direction that first travelling frame moves.Correspondingly, in the yoke fixed part 53b of fixing base 53, the upper-part of yoke 66 and lower member 66a and 66b and last lower magnet 67a and 67b are placed with longitudinal direction are extended in the direction that first travelling frame 51 moves.By using this structure also can obtain effect similar to the above embodiments.
Figure 53 to 59 and then shown another (the 3rd) embodiment according to image stabilizer of the present invention.This embodiment has shown that one of the flat coil 88 in the foregoing description is improved example: two coiler parts are made of identical coil component 88a and 88a.And the magnetic force of magnet 67a and 67b is strengthened by the yoke that structure has circular element.For the electric actuator 54 that shows among this embodiment, the parts identical with the electric actuator that shows in the foregoing description 54 adopt identical Reference numeral, and have omitted the description that repeats.
Two coil component 88a of the flat coil 88 of electric actuator 54A are of similar shape and structure, and the Rankine-Hugoniot relations between flat coil 88, cylindrical coil 91 and the magnetic sheet 86 is also all identical.Equally, yoke 66A is the combination with identical shaped two sub-unit 66A1 and 66A2, and is overall shaped into rectangle frame.Cylindrical coil 91 twines around the side of this yoke 66A, and yoke 66A and cylindrical coil 91 similar chain is the same is joined together.Also can obtain effect similar to the above embodiments by this structure.Specifically, according to this embodiment, because yoke 66A is round-shaped, so have the advantage of the magnetic efficiency of enhancing magnet 67a and 67b.
Image stabilizer 5 with said structure and function is connected on the lens drum 1, shown in Fig. 1 to 11.This image stabilizer 5 is inserted into and extracts the opening portion 48 that is positioned on following lens barrel 18 and the lens drum main body 3 from horizontal direction; And be connected to down removably on the lens barrel 18.In this case, image stabilizer is configured to the unit of a device, like this it can by especially easily be connected quickly and separate.Notice that cap member 98 can be connected on the following lens barrel 18 of lens drum main body 3 removably by the mechanism that tightens up such as gib screw.
Figure 60 to 64 illustrates the digital camera 100 as first embodiment of the imaging device of the lens drum 1 with said structure.This digital camera 100 uses semiconductor recording medium as information recording carrier, and the optical imagery of object is transformed into the electric signal among the CCD (imager), so that be recorded in the semiconductor recording medium and be presented on the display device such as LCD.
Shown in Figure 60 and other accompanying drawings, digital camera 100 comprises: camera main-body 101, lens drum 1, display device 102, control element 103, not shown battery or the like.Camera main-body 101 illustrates a special case of imaging device main body.Lens drum 1 is caught as the image of the object of light and with it and is passed on the CCD 4 that uses as imager.Display device 102 is formed by LCD, and it is according to the picture signal display image from outputs such as CCD4.The action of control element 103 control lens drums 1, the demonstration of LCD 102 etc.
Camera main-body 101 is configured as wide flat package, comprising: be assembled in together fore shell 105 and back cover 106 with fore-and-aft direction; To be divided into the main frame 107 of front and rear by the compartment that front and rear casing 105 and 106 forms; The lens cap 108 that on above-below direction, slidably links to each other with the front surface of fore shell 105; Or the like.The object lens 7A of lens drum 1 is arranged to the front surface (first first type surface) in the face of main frame 107, and described object lens 7A can open and close by lens cap 108.
Object lens 7A is placed in the top of a side of main frame 107, and lens drum 1 links to each other with the camera main-body 101 with the CCD4 that places the below and second optical axis L 2 that leads along the vertical direction.The primary optic axis L1 of lens combination 2 is the horizontal direction extension of camera main-body 101 along fore-and-aft direction.Thereby, perpendicular to the direction of second optical axis L 2 be parallel on the direction of first first type surface and be placed in a side, be arranged in camera main-body 101 as the electric actuator 54 of the driver of image stabilizer 5.Note, by the control device 103 that predetermined microcomputer, resistance, electric capacity, other electronic unit etc. form is installed on circuit board; Flasher 110; Deng being connected on the main frame 107.
Control element 103 is installed side by side with lens drum 1, and flasher 110 is installed in lens drum 1 top.Flasher 110 comprises: the light that is exposed on the front surface of fore shell 105 penetrates part 110a; Drive and control the drive part 110b that light penetrates part 110a; Predetermined power is applied to capacitor 110c on the drive part 110; Or the like.For the light that exposes this flasher 110 penetrates the object lens 7A of part 110a and lens drum 1, lens mounting hole 111a and flashlamp mounting hole 111b are set in the corresponding position of fore shell 105.Object lens 7A is installed among the lens mounting hole 111a with panel 21, and light ejaculation part 110a is installed among the flashlamp mounting hole 111b.
And then, having a plurality of opening 111c on the fore shell 105, a plurality of shanks on the lens cap 108 are inserted into by it.By being set, a plurality of shanks with anti-separating part prevent that lens cap 108 from dropping from fore shell 105.This lens cap 108 can move up at upper and lower by a plurality of opening 111c, and can be locked in top and bottom by not shown locking mechanism.Shown in Figure 61, when lens cap 108 was positioned at the top, object lens 7A was fully closed, thereby had protected object lens 7A.On the other hand, shown in Figure 62, when lens cap 108 was moved to the bottom, object lens 7A is opened fully and power switch is opened, thereby can take.
Shown in Figure 60 and 63, on back cover 106, has square window 112, to be used to expose the display surface of display device 102.Back cover 106 has window 112, has big opening on the rear surface as second first type surface, and display device 102 is placed in wherein simultaneously.Display device 102 is the LCD and the combination that is installed on the backlight on this LCD inside surface that have corresponding to the size of window 112.LCD side in display device 102 has screening glass 114, has sealing frame 113 therebetween, and the outer ledge of this screening glass 114 contacts with the inside surface of window 112.
And then, have different operating switchs on the back cover 106.As operating switch, in position have model selection button 115, zoom button 116, screen display button 117, menu button 118, directionkeys 119, button screen 121 or the like.Model selection button 115 selection function patterns (rest image, moving image, playback or the like).Zoom button 116 is carried out zoom operations.Screen display button 117 is carried out screen display.Menu button 118 is selected different menus.Directionkeys 119 moves menu select finger or the like.Button screen 121 conversion screen sizes and deletion screen.Speaker hole 122 is positioned at the place, end of the back cover 106 on the side of display device 102, wherein is combined with loudspeaker, and is connected with belt support metal sheet (strap supporting metal piece) 123 at the end of its opposite side.
Equally, shown in Figure 64 and other accompanying drawing, have at the upper surface of camera main-body 101: the power knob 125 that makes electric power on/off; The shooting push button 126 that beginning and end are taken; Operation image stabilizer 5 is provided with button 127 with the camera shake of stabilized image when camera shake takes place; Or the like.In addition, be shaped on microphone aperture 128, wherein be combined with microphone in the centre of the upper surface of camera main-body 101.
Power knob 125, shooting push button 126 and camera shake be provided with button 127 all be installed on camera main-body 101 in switch frame 124 link to each other.And then microphone aperture 128 also is formed in the switch frame 124, and built-in microphone is fixed on the switch frame 124.Thereby and switch frame 124 is kept the part of switch frame 124 is remained between fore shell 105 and the back cover 106 by camera main-body 101.
Figure 65 is the block diagram of the control principle of the above-mentioned image stabilizer 5 of explanation.Control element 130 comprises: image stabilization computing element 131; Analog servomechanism element 132; Components of drive circuit 133; Four amplifiers (AMP) 134A, 134B, 135A and 135B; Or the like.Be connected with first gyrosensor 136 through first amplifier (AMP) 134A on image stabilization computing element 131,134B is connected with second gyrosensor 137 through second amplifier (AMP).
136 detections of first gyrosensor are by being applied to the camera shake on the camera main-body 101 or the displacement on first direction X that causes that similarly moves, and second gyrosensor 137 is surveyed by being applied to the camera shake on the camera main-body 101 or the displacement on second direction Y that causes that similarly moves.Though following example has been described in this embodiment, promptly the displacement on displacement on the first direction X and second direction Y is measured respectively by two gyrosensors, do not need to say again, at both direction, displacement on first direction X and the second direction Y can record by a gyrosensor.
Analog servomechanism element 132 is connected on the image stabilization computing element 131.Analog servomechanism element 132 will be converted to the analogue value from digital value by the value that image stabilization computing element 131 calculates, and output is corresponding to the control signal of the analogue value.Components of drive circuit 133 links to each other with analog servomechanism element 132.Be connected with first Hall element 94 through the 3rd amplifier (AMP) 135A on the components of drive circuit 133, it is the primary importance detecting element; 135B is connected with second Hall element 95 through the 4th amplifier (AMP), and it is a second place detecting element.In addition, be connected with on the components of drive circuit 133: flat coil 88, it is first coil; With cylindrical coil 91, it is second drive coil.
The displacement of first travelling frame 51 on first direction X by first Hall element 94 records is imported in the components of drive circuit 133 through the 3rd amplifier 135A.Equally, the displacement of second travelling frame 52 on second direction Y by second Hall element 95 records is imported in the components of drive circuit 133 through the 4th amplifier 135B.For shift calibrating lens 15 with stabilized image, according to input signal that obtains from analog servomechanism element 132 and control signal, components of drive circuit 133 output predetermined control signal to flat coil 88 or to cylindrical coil 91 or to them both.
Figure 66 is a block diagram, and it illustrates first embodiment of the schematic structure that is equipped with the digital camera 100 with image stabilizer 5 that said structure and function are arranged.This digital camera 100 comprises lens drum 1, control element 140, memory storage 141, executive component 142, display device 102, external memory storage 143 etc.Lens drum 1 has image stabilizer 5.Control element 140 is played the part of the center role in control device.Memory storage 141 has the program storage that is used for drive controlling element 140, data-carrier store, other RAM/ROM etc.The command signal that executive component 142 inputs are different etc. is used for the ON/OFF power supply, selects screening-mode, realizes shooting etc.The image that display device 102 demonstrations were photographed etc.External memory storage 143 enlarges memory capacity.
For instance, control element 140 comprises the have microcomputer operating circuit of (CPU); Or the like.Memory storage 141, executive component 142, analog signal processing element 144,145, two A/D converters 146 of digital signal processing element and 147, D/A converter 148, and timing generator (TG) 149 is connected on this control element 140.Analog signal processing element 144 be connected to the attached CCD 4 of lens drum 1 on, and by means of with carry out prearranged signal from the image corresponding simulating signal that captures of CCD 4 outputs and handle.This analog signal processing element 144 is connected on first A/D converter 146, and its output is converted into digital signal by this A/D converter 146.
Be connected with digital signal processing element 145 on first A/D converter 146, it is carried out prearranged signal by means of the digital signal that is provided by first A/D converter 146 and handles.Be connected with display device 102 and external memory storage 143 on this digital signal processing element 145, and be shown on the display device 102 according to digital signal or be stored in the external memory storage 143 as digital signal processing element 145 output signals corresponding to the image of target.Equally, be connected with the gyrosensor 151 of a special case of the fuzzy detecting element of expression on second A/D converter 147.Vibration by these gyrosensor 151 detection camera main bodys 101, shake etc., and carry out image stabilization according to testing result.
Be connected with drive controlling element 152 on the D/A converter 148, it is the servo computing element that is used for stabilized image.Thereby drive controlling element 152 drives by the position according to correcting lens 15 and control image stabilizer 5 stabilized images.Be connected with image stabilizer 5 and primary importance detector 94 and second place detector 95 on the drive controlling element 152, thereby these two detecting devices are by detecting the position detecting element that two travelling frames 51 and 52 detect the position of correcting lens 15.In addition, timing generator (TG) 149 is connected on the CCD 4.
Thereby, when the image of object is transfused in the lens combination 2 of lens drum 1, when on the focal plane of CCD 4, forming image then, its picture signal is exported as simulating signal, the processing of in analog signal processing element 144 this simulating signal being scheduled to is converted into digital signal by first A/D converter 146 then.After digital signal processing element 145 had been carried out predetermined processing, the signal of exporting from first A/D converter 146 was shown on the display device 102 as the image corresponding to object, or is stored in the external memory storage as canned data.
Under above-mentioned shooting state, when vibration, shake etc. were applied on the camera main-body 101 with image stabilizer 5 under mode of operation, gyrosensor 151 was surveyed described vibration, shake etc. and subsequently detectable signal is outputed to control element 140.After receiving this signal, the predetermined computing of control element 140 operation, and the control signal that will control image stabilizer 5 outputs on the drive controlling element 152.Based on control signal from control element 140 outputs, drive controlling element 152 is exported predetermined drive signal to image stabilizer 5, thereby is moving first travelling frame 51 on the first direction X and moving second travelling frame 52 with predetermined value on second direction Y with predetermined value.Thereby making by the motion stabilization image of correcting lens 15 and obtain splendid image, this becomes possibility.
Figure 67 is a block diagram, and it illustrates second embodiment of the schematic structure of the digital camera that assembles the image stabilizer 5 with said structure and function.This digital camera 100A comprises lens drum 1, videograph/duplicated circuits components 160, internal memory 161, vision signal treatment element 162, display device 163, external memory storage 164, correcting lens control element 165 etc.Lens drum 1 has image stabilizer 5.Videograph/duplicated circuits components 160 is played the part of the center role in control device.Internal memory 161 has the program storage that is used to drive videograph/duplicated circuits components 160, data-carrier store, other RAM/ROM etc.Vision signal treatment element 162 is processed into prearranged signal with image of photographing etc.The image that display device 163 demonstrations photograph etc.External memory storage 164 enlarges memory capacity.Correcting lens control element 165 drives and control image stabilizer 5.
Videograph/duplicated circuits components comprises: the function circuit with microcomputer (CPU); Deng, for instance.Internal memory 161, vision signal treatment element 162, correcting lens control element 165, monitor driving element 166, amplifier 167 and three interfaces (I/F) 171,172 and 173 are connected on videograph/duplicated circuits components 160.Through amplifier 167, vision signal treatment element 162 be connected to lens drum 1 on the attached CCD 4, and the signal that is processed into predetermined video signal is imported in videograph/duplicated circuits components 160.
Through monitor driving element 166, display device 163 is connected on videograph/duplicated circuits components 160.Equally, connector 168 is connected on first interface (I/F) 171, and external memory storage 164 is connected on this connector 168 in the mode that can freely dismantle.Connecting terminal 174 on the camera main-body 101 is connected on second interface (I/F) 172.
Acceleration transducer 175 as fuzzy detecting element is connected on the correcting lens control element 165 through the 3rd interface (I/F) 173.This acceleration transducer 175 detects because vibration, shake etc. are applied to the displacement on the camera main-body 101, and as acceleration, gyrosensor can be used as this acceleration transducer 175.On correcting lens control element 165, be connected with: the lens driving element of image stabilizer 5, its driving and control correcting lens 15; With two position- detection sensors 94 and 95, it detects the position of correcting lens 15.
Thereby when the image of target is imported in the lens combination 2 of lens drum 1, when forming image then on the focal plane of CCD 4, its picture signal is imported on the vision signal treatment element 162 by amplifier 167.The signal that is processed into predetermined video signal in this vision signal treatment element 162 is imported in videograph/duplicated circuits components 160.Thereby, from videograph/duplicated circuits components 160, be output on monitor driving element 166 and internal memory 161 or the external memory storage 164 corresponding to the signal of target image.As a result,, be shown in as required on the display device 163 corresponding to the signal of target image by monitor driving element 166, or as information signal recording in internal memory 161 or external memory storage 164.
In above-mentioned photographing phase, when vibration, shake etc. are applied on the camera main-body 101 with image stabilizer 5 under mode of operation, acceleration transducer 175 is surveyed described vibration, shake etc., and through correcting lens control element 165 its detectable signal is outputed on videograph/duplicated circuits components 160 subsequently.After receiving this signal, the predetermined computing of videograph/duplicated circuits components 160 operations, and output a control signal on the correcting lens control element 165 action of this signal controlling stabilizator 5.Based on control signal from 160 outputs of videograph/duplicated circuits components, this correcting lens control element 165 is exported predetermined drive signal to image stabilizer 5, thereby is moving first travelling frame 51 on the first direction X and moving second travelling frame 52 with predetermined value on second direction Y with predetermined value.Thereby this feasible motion by correcting lens 15 comes stabilized image and obtains splendid image to become possibility.
As explained above, according to an embodiment of image stabilizer of the present invention, because driver is placed in a side of correcting lens, so image stabilizer can be small size and low weight.And then, because a magnetic force circuit units bag drawing together magnet and yoke is as the magnetic force loop of first driver and the magnetic force loop of second driver, can become small size and low weight so can reduce number of elements and device itself.As a result, be mounted, and the integral body that is combined with the imaging device of lens drum can be small size and low weight according to the lens drum of the image stabilizer of one embodiment of the present invention.
Equally, the quantity of element is used as the primary importance detector of the position of surveying first guide piece (first travelling frame 51) and second guide piece (second travelling frame 52) respectively and the magnet of second place detector owing to be used to form the magnet of magnetic force circuit units, so can further be reduced.And then, may eliminate the disturbance that produces by the slit between axle and the bearing portions, because flexible printed circuit board is bent into U-shaped, and repulsive force is applied in first guide piece and fixing base or fixed part that fixing base such as cylinder are fixed thereon between, and on optical axis direction, promote corresponding component, thereby correcting lens is pressed towards optical axis direction.As a result, the travelling frame that supports correcting lens can steadily be moved, and the state of correcting lens remains unchanged, thereby has stoped the change of the optical property that the instability by the state of correcting lens causes bad.
And then, constitute folded lens and the light that passes bends under the situation of after 90s ° of correcting lens that is directed to image stabilizer at lens drum from object lens in prism, correcting lens becomes parallel to the ground when the state of imaging device is corrected, and vertical with the direction of action of gravity with second direction as the first direction of correcting lens moving direction.Thereby, first and second travelling frames that support correcting lens in the mode that can move freely can not pull to first direction or second direction by gravity, and need not make image stabilizer be in the state of power supply opening for first and second travelling frames are remained on the direction opposite with gravity always.As a result,, can significantly reduce energy consumption when under the situation that is having the imaging device state correction during photographic images, and the imaging device time span variable length that can be used.In addition, also may reduce the used thrust of shift calibrating lens, thereby may realize the permissible error of the weight of first and second travelling frames, just the hand of general 1G is trembled acceleration, and can be overcome such as the camera shake that sizable hand is trembled.Yet the present invention is confined to the folded lens system, and needless to say be that the present invention may be implemented on the rectilinear lens that optical axis remains straight line.
The present invention is not limited to embodiment foregoing and shown in the drawings, may make different modifications and does not depart from main points of the present invention.For example, be described in the above-described embodiments though digital camera is used as the example of imaging device, the present invention can be applied to Digital Video, and the PC of camera is housed, and has mobile phone and other imaging device of built-in camera.And then, though in example, illustrated five one group lens as lens drum 1, needless to say be, the present invention can be employed quaternate lens or still less and equally also can use six one group lens or more.
It will be understood by those of skill in the art that according to design needs or other factors different modifications, combination, sub-portfolio and transformation to occur that it does not break away from appended claim and scope of equal value thereof.

Claims (14)

1, a kind of image stabilizer by coming stabilized image at the correcting lens that is used for the stable image that is formed by described lens combination that moves up perpendicular to optical axis direction and the first direction that be perpendicular to one another of lens combination and second party, comprising:
Be positioned at the driver of a side of described correcting lens, and this driver is at described first direction and the described second party described correcting lens that moves up,
Wherein, described driver has to produce and is used at move up first coil of thrust of described correcting lens of described first party, generation is used at move up second coil of thrust of described correcting lens of described second party, magnetic force is applied to the magnet of described first coil and described second coil, with the yoke that supports described magnet, and
The thrust generation part of the thrust generation part of described first coil and described second coil is made into the right angle intersected with each other and overlapping, and the magnetic force of described magnet is applied to two common laps of thrusts generation part.
2, image stabilizer as claimed in claim 1,
Wherein, described first coil and described second coil twine by level and to have linear segment be the combination that produces two flat coils of part of described thrust, to have predetermined thickness and have linear segment on the direction of stacked coils be the combination of two cylindrical coils or the constituting of described flat coil and described cylindrical coil that described thrust produces part.
3, image stabilizer as claimed in claim 2,
Wherein, described flat coil has by twining two coiler parts that coil wire forms; It is placed side by side that the thrust of described two coiler parts produces part; And electric current produces in the part two described thrusts and flows along same direction.
4, image stabilizer as claimed in claim 3,
Wherein, the described thrust of described two coiler parts produces part and is made into different length, and the part of described yoke is placed in short thrust and produces on the side of part, and long thrust produces part and extends in the described side that the thrust of described weak point produces part.
5, image stabilizer as claimed in claim 1 further comprises:
First guide piece, it guides described correcting lens on described first direction; With second guide piece, it guides described correcting lens on described second direction,
Wherein, described driver comprise along described first guide piece described first party move up first driver of described correcting lens and along described second guide piece at move up second driver of described correcting lens of described second party; And
Described first driving implement has described first coil, described magnet and described yoke, and described second driving implement has described second coil, described magnet and described yoke.
6, image stabilizer as claimed in claim 5,
Wherein, described first coil and described second coil stationary are in a fixing base, described fixing base supports described correcting lens in a movable manner by described first guide piece and described second guide piece, and described magnet and described yoke are fixed on the travelling frame that supports described correcting lens.
7, image stabilizer as claimed in claim 5,
Wherein, described first coil and described second coil stationary are in the travelling frame of the described correcting lens of a support, and described magnet and described yoke are fixed in a fixing base, and described fixing base supports described correcting lens in a movable manner by described first guide piece and described second guide piece.
8, image stabilizer as claimed in claim 1,
Wherein, described magnet is used as by described first coil and described second coil are applied magnetic force to produce the magnet of thrust, and as the magnet of primary importance detector and second place detector, described first and second position sensors survey respectively described correcting lens on the described first direction and on the described second direction with respect to the position of described lens combination.
9, image stabilizer as claimed in claim 8,
Wherein, described primary importance detector and described second place detector have first Hall element and second Hall element respectively, described first and second Hall elements are by the position of the described correcting lens of position sensing of described magnet, and described first Hall element and described second Hall element are installed in the substrate.
10, a kind of lens drum comprises image stabilizer as claimed in claim 1.
11, lens drum as claimed in claim 10,
Wherein, described lens combination is the foldable lens system, wherein, described optical axis bends 90 ° at the center section of this optical axis, make this optical axis form by two optical axises in the described foldable lens system, described two optical axises are second optical axises that are positioned at the primary optic axis of described object lens side and are positioned at described imaging side, and
Described driver is positioned at and the perpendicular side in plane that is formed by described two optical axises.
12, a kind of imaging device comprises: lens drum as claimed in claim 10, and the imaging device shell of storing described lens drum therein.
13, imaging device as claimed in claim 12,
Wherein, described lens combination is the foldable lens system, wherein said optical axis bends 90 ° at the center section of this optical axis, make this optical axis form by two optical axises in the described foldable lens system, described two optical axises are second optical axises that are positioned at the primary optic axis of described object lens side and are positioned at described imaging side, and
Described driver is positioned at and the perpendicular side in plane that is formed by described two optical axises.
14, imaging device as claimed in claim 12,
Wherein, described lens combination is the foldable lens system, wherein said optical axis bends 90 ° at the center section of this optical axis, make this optical axis form by two optical axises in the described foldable lens system, described two optical axises are second optical axises that are positioned at the primary optic axis of described object lens side and are positioned at described imaging side, and
Wherein, described imaging device shell is flat and rectangle, and comprise with fore-and-aft direction and be assembled in fore shell and back cover together and will be divided into the main frame of front and rear that the object lens of wherein said lens combination are placed on the front surface as the described main frame of first first type surface by the compartment that described fore shell and back cover form; Described second optical axis of described lens combination is placed on the direction that is parallel to described first first type surface; And described driver is placed in a side on perpendicular to direction described second optical axis and that be parallel to described first first type surface.
CNB2006101064947A 2005-06-07 2006-06-05 Image stabilizer, lens drum and imaging device Expired - Fee Related CN100570434C (en)

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