CN2836369Y

CN2836369Y - Camera module

Info

Publication number: CN2836369Y
Application number: CN 200520129884
Authority: CN
Inventors: 廖建超; 黄耀庆
Original assignee: Asia Optical Co Inc
Current assignee: Asia Optical Co Inc
Priority date: 2005-10-20
Filing date: 2005-10-20
Publication date: 2006-11-08
Anticipated expiration: 2015-10-20

Abstract

The utility model relates to a camera module, which comprises a fixed seat, an image sensing unit, a camera lens which is combined with the fixed seat, a movement frame and an electromagnetic valve, wherein the movement frame is combined with the fixed seat and provides the movement of the image sensing unit, and the electromagnetic valve is combined with the fixed seat and provides the position of the image sensing unit. The electromagnetic valve is provided with a connecting and butting post which can move between a first position and a second position, and the movement frame utilizes electromagnetic force to drive the image sensing unit to move for redress blurred images which are generated by shock when a camera device is operated. When the redress mechanism is used, the connecting and butting post of the electromagnetic valve is positioned on the first position and is not contacted with the image sensing unit, and the image sensing unit can move along with the movement frame. When the redress mechanism is not used, the connecting and butting post of the electromagnetic valve is positioned on the second position and is in contact with the image sensing unit, and the position of the image sensing unit can be fixed through the connecting and butting post of the electromagnetic valve. By adopting the utility model, the periphery brightness and the imaging quality of the lens can not be reduced, and moreover, the volume of the camera device is easy to reduce.

Description

The shooting module

Technical field

The utility model relates to a kind of shooting module, particularly relates to opening or close the shooting module of image sensing unit in the two-dimensional directional motion.

Background technology

As shown in Figure 1, United States Patent (USP) openly is used for the image vibrations restraining device of camera for No. 5266988.This image vibrations restraining device, be arranged in the camera lens, when using camera, the angular acceleration information of operator's vibration camera is measured in the angular acceleration unit, be provided to a circuit and calculate rear drive one driving element, this driving element makes a certain eyeglass in the camera lens move in the vertical optical axis direction, and revisal or inhibition are vibrated the image fog phenomenon that camera produces because of the operator.Yet, in the time need not using image vibrations restraining device, must continue driving element is provided the electric current of suitable size, make the suitable power consumption of camera.

As shown in Figure 2, the special login of Japan discloses a kind of travel mechanism No. 3551174.This travel mechanism utilizes piezoelectric element to drive image sensing unit, as CCD, moves on the vertical optical axis direction.So, also can reach revisal or suppress and vibrate the image fog phenomenon that camera produces because of the operator; And look good with any camera lens.Piezoelectric element must be constantly by driven, so that suitably mobile CCD comes the revisal image; Yet the single eyeglass of the weight ratio of CCD element is heavy, makes and must use the sizable piezoelectric element of volume just to be driven this CCD element.Though this kind mode can not reduce the optical imagery quality of camera lens, bulky piezoelectric element makes the camera volume with this revisal or inhibition hand vibration function also increase thereupon.

The utility model content

Main purpose of the present utility model is to provide a kind of shooting module, produces the revisal mechanism of image fog but have revisal because of the vibrations of operation during camera head, and can simple and easy stabilized image sensing cell position when closing revisal mechanism.

Shooting module of the present utility model comprises holder, image sensing unit, the pick-up lens that combines with holder, combines and provide the motion framework of image sensing unit motion to reach the electromagnetically operated valve that combines with holder with holder.The motion framework utilizes electromagnetic force to drive the image sensing unit motion, and the vibrations in order to revisal during because of the operation camera head produce the revisal mechanism of image fog.Electromagnetically operated valve have can be between the primary importance and the second place movable butt post.When using this revisal mechanism, the butt post of electromagnetically operated valve is positioned at primary importance and does not contact with image sensing unit, makes that image sensing unit can be with the motion frame movement; When not using this revisal mechanism, the butt post of electromagnetically operated valve is positioned at the second place and contacts with image sensing unit, makes image sensing unit fix its position by the butt post of electromagnetically operated valve.

Shooting module of the present utility model also comprises a protection pad, is arranged between image sensing unit and the electromagnetically operated valve strength of this image sensing unit of butt when the butt post of buffering electromagnetically operated valve is positioned at the second place.

The motion framework comprises the mobile frame that is arranged at movably on the holder and reaches the load bearing seat that is arranged at movably on the mobile frame, and image sensing unit is fixed on the load bearing seat; In addition, the motion framework also comprises: make mobile frame and holder in conjunction with and one first guide member, at least one first magnetite that is arranged at holder that can move along a first direction with respect to holder, be arranged on the mobile frame and at least one first coil relative with first magnetite, and be arranged at the first other Hall element of first coil, produce magnetic force change and drive mobile frame and move along first direction by voltage to the first coil being provided, making to win between the coil and first magnetite by first guide member.

This first guide member comprises: be arranged at holder and a pair of first guide rod parallel to each other, be arranged at a plurality of first grip parts of mobile frame respectively; Entangle first guide rod respectively by these first grip parts, make mobile frame combine, and mobile frame can move along the axis direction of first guide rod with holder.Further, this moves frame and drives this image sensing unit and move along the axis direction of first guide rod.

As mentioned above, the N magnetic pole of first magnetite and S magnetic pole are to arrange along the axis direction of first pivot.

As mentioned above, this motion framework also comprise make load bearing seat and mobile frame in conjunction with and one second guide member, at least one second magnetite that is arranged at holder that can move along a second direction with respect to holder, be arranged on the load bearing seat and at least one second coil relative with second magnetite, and be arranged at the second other Hall element of second coil, by voltage to the second coil is provided, make between second coil and second magnetite to produce magnetic force change and drive load bearing seat and move along second direction by second guide member.

This second guide member comprises: be arranged on the mobile frame and a pair of second guide rod parallel to each other, be arranged at a plurality of second grip parts of load bearing seat respectively; Entangle second guide rod respectively by these second grip parts, make mobile frame combine, and load bearing seat can be along the axis direction relative motion of second guide rod with load bearing seat.

In the utility model, second direction is different from first direction; Be preferably, the axis direction of first guide rod is vertical with the axis direction of second guide rod.

As mentioned above, the N magnetic pole of second magnetite and S magnetic pole are to arrange along the axis direction of second pivot.

In the utility model, when the image sensing module remained static, half part of first Hall element was positioned at the N magnetic pole top of first magnetite, and second half part of first Hall element is positioned at the S magnetic pole top of first magnetite; And half part of second Hall element is positioned at the N magnetic pole top of second magnetite, and second half part of second Hall element is positioned at the S magnetic pole top of second magnetite.

Description of drawings

Fig. 1 is No. 5266988 disclosed image vibrations restraining device that is used for camera of United States Patent (USP);

Fig. 2 is Japan No. 3551174 disclosed a kind of travel mechanism of special login;

Fig. 3 is the stereogram of the shooting module of the utility model embodiment;

Fig. 4 is the decomposition diagram of the shooting module of the utility model embodiment;

Fig. 5 A is the cutaway view of the shooting module of the utility model embodiment, and wherein the butt post of electromagnetically operated valve does not contact with image sensing unit;

Fig. 5 B is the cutaway view of the shooting module of the utility model embodiment, and wherein the butt post of electromagnetically operated valve contacts with image sensing unit;

Fig. 6 is the rearview of the motion framework among the utility model embodiment;

Fig. 7 is a stereogram, the relative position between expression Hall element and the magnetite;

Fig. 8 is the stereogram that the expression load bearing seat combines with mobile frame;

Fig. 9 is a vertical view, and expression is arranged at coil and the Hall element on mobile frame and the load bearing seat respectively;

Figure 10 represents to have the photographic means of shooting module of the present utility model.

Embodiment

Below by most preferred embodiment and accompanying drawing image sensing module of the present utility model is elaborated.

Before the utility model is described in detail, be noted that, at the employed relative position term of the following description content, for example " first direction X ", " second direction Y ", " third direction Z " are that the coordinate direction that is indicated with each figure is a benchmark, and are somebody's turn to do " first direction X " and should " second direction Y " reach and should " third direction Z " be perpendicular to one another.

Fig. 3 is the stereogram of the shooting module of the utility model embodiment.As shown in Figure 3, shooting module of the present utility model comprises holder 20, is incorporated into the pick-up lens 30 of a side and is incorporated into the electromagnetically operated valve 40 of opposite side with holder 20 with holder 20.Motion framework 50 is between electromagnetically operated valve 40 and pick-up lens 30, and holder 20 combinations; Image sensing unit 60, for example CCD are arranged on the motion framework 50.After an object was via pick-up lens 30 imagings, the image of object was formed on the image sensing unit 60.

Fig. 4 is the decomposition diagram of the shooting module of the utility model embodiment.As shown in Figure 4, the lens barrel 31 of pick-up lens passes through screw (not shown) secure bond in a side of holder 20.Electromagnetically operated valve 40 has a pair of

alar part

41A, 41B, and utilize this to alar

part

41A, 41B make electromagnetically operated valve by

screw

42A, 42B secure bond in the opposite side of holder 20.Motion framework 50 and combines with holder 20 between electromagnetically operated valve 40 and pick-up lens 30; Motion framework 50 comprises a plurality of coil (not shown)s, and by these coils being provided signal it is produced and the interactive magnetic force of magnetite that is positioned on the holder 20, actuation movement framework 50 moves.Image sensing unit 60 has a low pass filter 32 and a rectangle bearer bar 33 towards a side of pick-up lens 30, and itself and pick-up lens 30 reverse sides have a protection pad 34; When image sensing unit 60 embeds motion frameworks 50 and after fixing, low pass filter 32 and rectangle bearer bar 33 by pinching between motion framework 50 and image sensing unit 60.

Fig. 5 A is the cutaway view of the shooting module of the utility model embodiment, and wherein the butt post of electromagnetically operated valve does not contact with image sensing unit; Fig. 5 B is the cutaway view of the shooting module of the utility model embodiment, and wherein the butt post of electromagnetically operated valve contacts with image sensing unit.Have a butt post 43 in the electromagnetically operated valve 40, this butt post 43 makes that by external voltage signal control butt post 43 is able to move between the primary importance and the second place.Shown in Fig. 5 A, when butt post 43 was positioned at primary importance, butt post 43 did not contact with image sensing unit 60; At this moment, motion framework 50 can drive by electromagnetic force and move, and then drive image sensing unit 60 moves.Shown in Fig. 5 B, when butt post 43 was positioned at the second place, butt post 43 contacted with image sensing unit 60; At this moment, motion framework 50 not with holder 20 on

magnetite

21A, 21B produce electrical interaction power, and the butt post 43 of electromagnetically operated valve 40 contacts with image sensing unit 60 and fixes its position.If do not contact with image sensing unit 60 by butt post 43, motion framework 50 is understood arbitrary motions and image sensing unit 60 can't be fallen in the imaging scope of pick-up lens 30.In addition, will protect pad 34 to be arranged between butt post 43 and the image sensing unit 60, and avoid being positioned at the second place and during stabilized image sensing cell 60, producing excessive strength and destroy image sensing unit 60 when butt post 43.

Fig. 6 is the rearview of the motion framework among the utility model embodiment.Motion framework 50 in the execution mode of the present utility model can be applicable to vibrate the image fog phenomenon that camera produces with inhibition or revisal operator in the photographic means.The motion framework 50 of this embodiment comprises and is arranged at one on the holder 20 and moves frame 51; Mobile frame 51 has one first hollow part 59, is arranged at the load bearing seat 52 on the mobile frame 51 movably, and wherein image sensing unit 60, for example CCD are arranged on the load bearing seat 52.In addition, the photosurface of image sensing unit 60 is the directions towards pick-up lens 30, i.e. the direction of third direction Z.

Fig. 7 is a stereogram, the relative position between expression Hall element and the magnetite.As shown in Figure 7, this holder 20 has a pair of

first magnetite

21A, 21C, a pair of

second magnetite

21B, 21D and a pair of

first pivot

25,26 parallel to each other.First couple of

magnetite

21A, 21C are arranged at the both sides of hollow part 29 in parallel with each other, and wherein the N magnetic pole of one first magnetite 21A, S magnetic pole are arranged along first direction X, and the N magnetic pole of another first magnetite 21C, S magnetic pole are also arranged along first direction X.Second couple of

magnetite

21B, 21D also are arranged at the both sides of hollow part 29 in parallel with each other, and wherein the N magnetic pole of one second magnetite 21B, S magnetic pole are arranged along second direction Y, and the N magnetic pole of another second magnetite 21D, S magnetic pole are also arranged along second direction Y.Moreover the same pole S of the

first magnetite

21A, 21C is 29 settings towards the hollow part, and the same pole S of the

second magnetite

21B, 21D, 29 settings towards the hollow part.In the utility model, do not limit the relative position of the

first magnetite

21A, 21C and the relative position of the

second magnetite

21B, 21D, also different magnetic poles is towards the hollow part 29.These

first magnetites

21A, 21C and the

second magnetite

21B, 21D pass through glue, for example UV glue, hot-setting adhesive respectively, and fixing with holder 20.In addition, the first magnetite 21A and the second magnetite 21B can penetrate holder 20 and be exposed to a side towards electromagnetically operated valve 40.

Fig. 8 is the stereogram that the expression load bearing seat combines with mobile frame; Fig. 9 is a vertical view, and expression is arranged at coil and the Hall element on mobile frame and the load bearing seat respectively.As Fig. 8 and shown in Figure 9, this load bearing seat 52 has two

alar part

521a, 521b, and on these two

alar part

521a, 521b a pair of

second coil

522a, 522b and second Hall element 524 is set respectively.Wherein, the second coil 522a is arranged at alar part 521a, and second Hall element, 524 next-door neighbours, the second coil 522a also is arranged on the alar part 521a; Another second coil 522b is arranged at another alar part 521b.This a pair of

second coil

522a, 522b are roughly rectangular, and its long limit is parallel to each other.In addition, mobile frame 51 also has two

alar part

511a, 511b, and on these two

alar part

511a, 511b a pair of

first coil

512a, 512b and first Hall element 514 is set respectively.The first coil 512a is arranged at alar part 511a, and first Hall element, 514 next-door neighbours, the first coil 512a also is arranged on the alar part 511a; Another first coil 512b is arranged at another alar part 511b.This a pair of

first coil

512a, 512b are also roughly rectangular, and its long limit is parallel to each other.Moreover in mobile frame 51 outsides, the alar part 521a place of contiguous load bearing seat 52 has two

first grip part

515a, 515b, and this

first grip part

515a, 515b have a

hole

5151a, 5151b respectively; And in mobile frame 51 outsides, another alar part 521b place of contiguous load bearing seat 52 has two

first grip part

515c, 515d, and these two

first grip part

515c, 515d have a

hole

5151c, 5151d respectively.

A pair of

first pivot

25,26 is set parallel to each other; Wherein, the first short pivot 25 is arranged to be positioned at the side of magnetite 21A and magnetite 21D, and another first long pivot 26 is arranged at the side of magnetite 21B in the direction away from hollow part 29.In this embodiment, the first long pivot 26 pass mobile frame 51 two

first grip part

515c,

515d hole

5151c, 5151d and after being held, be fixed in again on grip part 25b, the 25c of holder 20; And the first short pivot 25 passes the first grip part 515a of mobile frame 51, hole 5151a, the 5151b of 515b, is fixed among the grip part 25a of holder 20 again.Whereby, this a pair of

first pivot

25,26 and these

grip parts

25a, 25b, 25c, 515a, 515b, 515c, 515d constitute one first guide member 70; Make mobile frame 51 can utilize this first guide member 70 on first direction X, to move.

As Fig. 8, shown in Figure 9, this load bearing seat 52 also has a hollow part 525; And image sensing unit 60 places in the hollow part 525.Load bearing seat 52 has a circuit board (not shown), and image sensing unit 60 is electrically connected with this circuit board; And be fixed on this circuit board and this image sensing unit 60 by the rectangle frame 526 of load bearing seat 52 around.This rectangle frame 526 a pair of

frame wall

5261,5262 parallel with second direction Y has the

second grip part

523a, 523b, 523c, 523d respectively; And the

second grip part

523a, 523b, 523c, 523d have a

hole

5231a, 5231b, 5231c, 5231d respectively.A pair of

second pivot

27,28 is parallel to second direction Y; Wherein, one second pivot 27 passes grip part 516a, the 516b on the mobile frame 51, insert behind hole 5231a, the 5231b of the

second grip part

523a, 523b of load bearing seat 52 fixingly again, another second pivot 28 combines mobile frame 51 after passing hole 5231c, the 5231d of the

second grip part

523c, 523d of

grip part

516c, 516d on the mobile frame 51 and load bearing seat 52 respectively with load bearing seat 52.Whereby, this constitutes one second guide member 80 to

second pivot

27,28 and these

grip parts

516a, 516b, 516c, 516d, 523a, 523b, 523c, 523d; Make load bearing seat 52 can utilize this second guide member 80 to move at second direction Y.

Figure 10 is the photographic means with image sensing module of the present utility model.As Fig. 3 and shown in Figure 10, has a vibrations induction element 110 in the photographic attachment 100, for example be angular acceleration element or acceleration member, after getting the shock momentum that the user operates photographic attachment 100 by these vibrations induction element 110 sensings, provide a voltage signal to these

coils

512a, 512b, 522a, 522b by a pulse bandwidth modulation circuit 120 or digital circuit.These

coils

512a, 512b, 522a, 522b produce transformable magnetic field respectively, after these

first magnetites

21A, 21C and these

second magnetites

21B, 21D effect, this load bearing seat 52 produces motion with respect to holder 20 in first direction X, reach this load bearing seat 52 and produce motion in second direction Y, make image sensing unit 60 also can produce corresponding motion in first direction X and second direction Y with respect to holder 20.Whereby, can suppress or the revisal operator vibrates the image fog phenomenon that camera produces.

Fig. 7 is explanation load bearing seat when static, and first Hall element 514, second Hall element 524 are with respect to the position presentation graphs of the first magnetite 21A, the second magnetite 21B.In embodiment of the present utility model, when photographic attachment 100 during in inactive state, motion framework 50 also remains static, half part of first Hall element 514 is positioned at the N magnetic pole top of the first magnetite 21A, and second half part of first Hall element 514 is positioned at the S magnetic pole top of the first magnetite 21A; And the N magnetic pole top that partly partly is positioned at the second magnetite 21B of second Hall element 524, second half part of second Hall element 524 is positioned at S magnetic pole top.Therefore, the changes of magnetic field amount that measures of these first, second Hall elements 514,524 is zero.When the user operates photographic attachment 100, and when the device 100 of taking pictures was produced vibrations, these

coils

512a, 512b, 522a, first, second magnetite of 522b and these 21A, 21B, 21C, 21D effect drove load bearing seat 52 and produce corresponding motion in first direction X and second direction Y; These first, second Hall elements 514,524 measure the variable quantity in magnetic field, and can calculate amount of movement and the travel frequency of learning load bearing seat 52 whereby, and in time revise the voltage signal that pulse bandwidth modulation circuit or digital circuit provide.

Conclude above-mentionedly, camera module of the present utility model can obtain following effect and advantage, so really can reach the purpose of utility model:

One, because the utility model provides magnetic valve stabilized image sensing cell, therefore works as When the motion framework need not provide hand vibration correction mechanism, can utilize magnetic valve stabilized image sensing The position of unit.

Two, because the utility model is to change image sensing unit with respect to the position of optical axis, The position of eyeglass in the non-modulation camera lens is not so can reduce peripheral brightness and the imaging of camera lens Quality.

Three, because the utility model is to adopt a pair of coil and a pair of magnetite in vertical optical axis Direction drives the image sensing unit motion, and the small volume of each electronic component is easy to dwindle The volume of photographic means.

Claims

One kind the shooting module, comprise holder, the pick-up lens that combines with holder, be installed on the holder and can produce the motion framework of motion and be fixed on the motion framework and can produce the image sensing unit of motion with respect to holder with respect to holder by this motion framework, it is characterized in that, also comprise:

Electromagnetically operated valve, this electromagnetically operated valve has a butt post that can move between the primary importance and the second place, when image sensing unit produces motion by the motion framework with respect to holder, the butt post of this electromagnetically operated valve is positioned at primary importance and does not touch with image sensing unit, when image sensing unit does not need to produce motion by the motion framework with respect to holder, the butt post of this electromagnetically operated valve be positioned at the second place and with image sensing unit butt, and then the position of stabilized image sensing cell.
2. shooting module according to claim 1 is characterized in that, this motion framework comprises:

First guide member, making the motion framework combine with holder also can move along a first direction with respect to holder;

At least one first coil is arranged on the motion framework;

At least one first magnetite is fixed on the holder and with this first coil and is oppositely arranged; And

One first Hall element, be arranged on the motion framework jointly with this first coil and be arranged at by first coil, produce magnetic force change and drive framework and move along first direction by voltage to the first coil being provided, making to win between the coil and first magnetite by first guide member.
3. shooting module according to claim 2 is characterized in that, this motion framework also comprises:

Mobile frame combines with holder and can move along a first direction with respect to holder by first guide member, and first coil and first Hall element all are positioned on the mobile frame; And

Load bearing seat is installed in this and moves on the frame and can produce motion with respect to holder.
4. shooting module according to claim 3 is characterized in that, this load bearing seat also comprises:

Second guide member, making mobile frame combine with load bearing seat also can move along a second direction with respect to mobile frame;

At least one second coil is arranged on the load bearing seat;

At least one second magnetite is arranged on the holder and relative with second coil; And

One second Hall element, be arranged on the load bearing seat jointly with this second coil and be arranged at by second coil, by voltage to the second coil is provided, makes to produce magnetic force change between second coil and second magnetite and drive load bearing seat and move along second direction by second guide member.
5. shooting module according to claim 1 is characterized in that, also comprises:

One protection pad is arranged between image sensing unit and the electromagnetically operated valve, the strength of this image sensing unit of butt when the butt post of buffering electromagnetically operated valve is positioned at the second place.
6. shooting module according to claim 2 is characterized in that, this first guide member comprises:

A plurality of first grip parts are arranged at respectively on the edge outside of mobile frame pair of parallel; And

A pair of first guide rod, parallel to each other and gripped by the wherein part of these first grip parts separately, and these first guide rods are fixed on the holder;

By these first grip parts are sheathed on respectively on first guide rod, make mobile frame combine, and mobile frame can move along the axis direction of first guide rod with holder.
7. shooting module according to claim 4 is characterized in that, this second guide member comprises:

A plurality of second grip parts are arranged at respectively on the fixed frame of load bearing seat; And

A pair of second guide rod, parallel to each other and gripped by the wherein part of these second grip parts separately, and these second guide rods are fixed on the mobile frame;

By these second grip parts are sheathed on respectively on second guide rod, make mobile frame combine, and load bearing seat can move along the axis direction of second guide rod with load bearing seat.
8. shooting module according to claim 7 is characterized in that the axis direction of second guide rod is vertical with the axis direction of first guide rod.
9. shooting module according to claim 8 is characterized in that, first magnetite comprises N magnetic pole and S magnetic pole, and N magnetic pole and S magnetic pole are to arrange along the axis direction of first guide rod.
10. shooting module according to claim 9 is characterized in that, second magnetite comprises N magnetic pole and S magnetic pole, and N magnetic pole and S magnetic pole are to arrange along the axis direction of second guide rod.
11. shooting module according to claim 10, it is characterized in that, when image sensing unit is fixed its position by the butt post of electromagnetically operated valve and is remained static, half part of first Hall element is positioned at the N magnetic pole top of first magnetite, and second half part of first Hall element is positioned at the S magnetic pole top of first magnetite.
12. shooting module according to claim 11, it is characterized in that, when image sensing unit is fixed its position by the butt post of electromagnetically operated valve and is remained static, half part of second Hall element is positioned at the N magnetic pole top of second magnetite, and second half part of second Hall element is positioned at the S magnetic pole top of second magnetite.