CN1831577A - Lens and lens tube, camera, portable information terminal and image input device - Google Patents

Abstract

One kind of lens barrel is provided, which can inhibit the deviation of the lens in photographic state from the optical axis of the lens combination. The lens barrel includes several lens combinations configured in the same optical axis; one movable barrel to hold part of the lens combinations; and one fixed frame to support the movable barrel to be held between the contraction position and the extended position. The movable barrel can move in the optical axis of the lens combinations, and when the barrel is in its contraction position, at least one of the lens combinations retreats transversely from the optical axis under the limitation of some limiting mechanism, which makes the retreated lens combination(s) move from the deviated position under the photographic state.

Description

Lens barrel, camera, portable information terminal and image-input device

Technical field

The present invention relates to lens group accommodated and lens group reached assigned position and the lens barrel that uses, particularly relate to the lens barrel, camera, portable information terminal and the image-input device that are suitable for a plurality of lens group are relatively moved and can change the zoom lens of focal length.

Background technology

Progress along with the high performance of the first-class phtographic lens of varifocal mirror that can change focal length in the cameras such as digital camera and customer requirements miniaturization etc., requirement lens barrel when not photographing is to be housed in the camera body, that is, use the situation of so-called contraction type phtographic lens increasing.And not only requiring miniaturization but also require slimming more, is important so the gauge that the part of lens barrel under the state is accommodated in contraction reduces to the limit.

As the technology that the slimming of this contraction type camera of correspondence requires, use the structure of when lens barrel is accommodated, a part of camera lens being kept out of the way from optical axis.Keep out of the way the camera lens frame and utilize torsion spring keeping out of the way camera lens to the direction rotation urging that is positioned on the optical axis, it rotates end and limits (for example patent documentation 1 spy opens 2003-315861 communique (the 3rd～5 page, Fig. 1)) by being arranged on the limiter of keeping out of the way on the camera lens frame and being arranged on the limiter of keeping out of the way on the camera lens supporting frame.

But in when photography, make to be positioned at and keep out of the way camera lens for example when being subjected to vibrating on the optical axis, make this keep out of the way the optical axis deviation of the optical axis of camera lens, deflection might take place on photographs from other lens group by this vibration owing to compress the turning effort power of torsion spring.

Summary of the invention

The present invention is in view of the above problems and exploitation, and its purpose is to provide a kind of lens barrel, its can be suppressed at effectively photography the time keep out of the way camera lens from the optical axis of other lens group to the problem of keeping out of the way deviation in driction.

In order to solve described problem, lens barrel of the present invention possesses: a plurality of lens group, and it is configured on the same optical axis; Movable lens barrel, it accommodates the part of these a plurality of lens group; Fixed frame, it supports this movable lens barrel, punctured position in being housed in described fixed frame (collapasrd positon) and when photography in this fixed frame between the extended position (extended positon) that the irradiated body direction is stretched out, the lens barrel that described movable lens barrel can move on the optical axis of described a plurality of lens group, described movable lens barrel is on the throne under the state of described punctured position, at least one lens group in described a plurality of lens group is kept out of the way to the described optical axis of the outside crosscut ground of described movable tube, it possesses limiting mechanism, and this limiting mechanism is limited in that described lens group of keeping out of the way moves from described optical axis deviation under the photography state.

Among the present invention, photography state is meant that a plurality of lens group of stretching out from lens barrel are configured in the state on the optical axis.

According to said structure of the present invention, can be suppressed at photography effectively and the time keep out of the way the problem that lens group departs from from the optical axis of other lens group.

Description of drawings

What Fig. 1 (a) represented is the state that is projected into the position of looking in the distance, Fig. 1 (b) expression be the state that is projected into wide-angle position, two figure are, and to be the boundary with the camera lens optical axis represent to make the outstanding photography state of lens group respectively and the longitudinal diagram of the contraction of accommodating each lens group in lens barrel, camera lens maintenance frame and the various lens barrel major parts when accommodating state in the first half and Lower Half;

Fig. 2 is the outboard profile that the expression three-lens keeps frame and driving operating system configuration thereof;

Fig. 3 is the stereographic map of expression three-lens mount structure;

The expression of Fig. 4 is kept out of the way lens group and is positioned at by the figure of collecting position state;

Fig. 5 is the stereographic map that the lens barrel of limiting mechanism of the present invention represented to be provided with in summary;

Fig. 6 is the planimetric map that the lens barrel of limiting mechanism of the present invention represented to be provided with in summary;

Fig. 7 is the planimetric map that limiting mechanism of the present invention represented in summary;

Fig. 8 is the enlarged drawing of expression limiting mechanism of the present invention;

Fig. 9 is the stereographic map of limiting mechanism of the present invention.

Embodiment

Followingly describe lens barrel of the present invention in detail according to embodiments of the invention and with reference to accompanying drawing.

Fig. 1～Fig. 6 has represented to comprise the structure of optical system device major part of first embodiment of the invention lens barrel and the state of exercises.

Comprise the optical system device of lens barrel among Fig. 1～Fig. 6, it possesses: be configured in a plurality of lens group on the same optical axis under photography state, accommodate the movable lens barrel of these a plurality of lens group parts, the stationary part that supports this movable lens barrel is fixed frame 21 and the drive unit that drives described movable tube.

A plurality of lens group have: first lens group 11, second lens group 12, three-lens group 13 and four-barrel group 14.First lens group 11 remains on first camera lens and keeps on the frame 17.Described movable lens barrel has: first rotating cylinder (movable tube), 22, first sleeve 23, second rotating cylinder (movable tube) 24, second sleeve 25, cam canister 26 and directly advance tube 27.Drive unit possesses: varifocal motor (not shown), the 3rd group of motor, the 4th group of motor 52, baffle controls sheet 61, lens barrier 62, barrier driving system (not shown) and gear mechanism 71～74.Movable lens barrel can move between extended position and punctured position by the driving of drive unit.

With reference to Fig. 1 photography state is described.First lens group 11, second lens group 12, three-lens group 13 and four-barrel group 14 begin gradate from irradiated body (object) side, between second lens group 12 and three-lens group 13, insert configuration shutter/aperture stop unit 15 simultaneously, use the isostructural solid photographic element 16 of CCD (charge coupled cell) in the image planes side configuration of four-barrel group 14.These first lens group, 11～the four-barrel groups 14 have just constituted the variable zoom lens of focal length.First lens group 11 is made of the camera lens more than or equal to, and it remains on directly to advance in the tube 27 by keeping this first lens group 11 all-in-one-piece first camera lens to keep frame 17 to be fixed.

Second lens group 12 is made of the camera lens more than or equal to, and it keeps frame (clearly not illustrating) being supported by second lens group 12 being kept all-in-one-piece second camera lens.

Three-lens is maintained at three-lens and keeps in the frame 31.Three-lens keeps frame 31, and the one end is keeping three-lens group 13, and the other end is bearing in and can rotates on the 3rd group of parallel with the optical axis of three-lens group 13 in fact master's axis of guide 32 and can be mobile along 32 slips of the 3rd group of master's axis of guide.As shown in Figure 1, the three-lens group is extended and three-lens group 13 is inserted between the contraction collecting position that optical axis in the photography state is the stationary magazine creel portion outside that position and three-lens group 13 of contraction being accommodated in the state shown in Figure 4 are kept out of the way fixed frame 21 on the optical axis on the camera axis, and three-lens keeps frame 31 to center on 32 rotations of the 3rd group of master's axis of guide.Keep at three-lens near the distolateral three-lens group 13 of rotation of frame 31, at this moment on direction parallel on the support side of rotation axis side and three-lens group 13 with the 3rd group of master's axis of guide 32, be formed with the bend of the different crank-like in position, at this bend and from then on to roughly rotating outstanding limiter 31a and the anti-dazzling screen 31b (Fig. 5) of being provided with of extreme direction.

By being arranged on the 3rd group of master's axis of guide 32 compression torsion spring 37 on every side, three-lens keeps frame 31 always by to the rotation direction application of force from described collecting position position on described optical axis, simultaneously, on the 3rd group of master's axis of guide 32 always by to from the direction application of force of object side to the pressing plate 81 of image planes side.

As shown in Figure 2, keep at three-lens under the state of frame 31 retreating positions, the female threaded part 35 that screws on the 3rd cocainine bar 34 is positioned at the most close image planes side.And under this state, compression torsion spring 37 always gives three-lens the moment of seeing clockwise direction (to the approach axis of optical axis) from the lens barrel front with the maximum load state and keeps frame 31.Keep frame 31 to be bearing on the outer peripheral face of the cylindric part on the main axis of guide 32 at three-lens, on the base end side inner face of stage portion 31c, be formed with the cam part 31e of cam ramp shape.If make the 3rd group of motor 52 to the rotation of the clockwise direction seen from the lens barrel front, then the 3rd cocainine bar 34 rotates to clockwise direction by the gear mechanism that is made of gear 71～74 from this state, female threaded part 35 along optical axis direction to the irradiated body side shifting.At this moment, by from the compression moment forces of torsion spring 37 and three-lens keeps frame 31 towards the clockwise direction rotation, its cam part 31e contacts engaging with the contact site 35a of female threaded part 35.Then if female threaded part 35 from described clamped position to the irradiated body side shifting, then three-lens keeps the anti-dazzling screen 31b of frame 31 to move around the 3rd group of master's axis of guide 32 up to leaving from the optical chopper 38 as the 3rd group of position detecting device, so from the reference signal of optical chopper 38 generations from L (low level) to H (high level).13 of three-lens groups from the reference signal of optical chopper 38 as benchmark, and be carried out position control by step-by-step counting.

If female threaded part 35 is moved to B position shown in Figure 2 from this state, then three-lens keeps frame 31 further to rotate to clockwise direction, as shown in Figure 5, stipulating on the 3rd group of secondary axis of guide 33 that by limiter 31a contact three-lens keeps the position on the optical axis of frame 31, on camera axis, entering release.Optical chopper 38 is carried out shading and can detect the affirmation three-lens keeping frame 31 to be on the collecting position by anti-dazzling screen 31b.And when female threaded part 35 moved to the B position of Fig. 2, then the contact site 35a of female threaded part 35 contacted on holding section, the front side 31d of the stage portion 31c that is fastened on three-lens maintenance frame 31.Promptly three-lens keeps the stage portion 31c of frame 31 to have the cam part 31e that becomes the cam ramp shape at its base end side, and having holding section, the front side 31d that forms with the 3rd group of master's axis of guide 32 approximate vertical intersecting planes in its front, it becomes concavity for the cylinder side face.By the 3rd group of master's axis of guide 32 compression torsion spring 37 on every side is set, three-lens keeps frame 31 always by to the rotation direction application of force from described collecting position position on described optical axis, simultaneously, on the 3rd group of master's axis of guide 32 always by to from the direction application of force of object side to the pressing plate 81 of image planes side.

As shown in the figure, the part place that compression torsion spring 37 is pushed on fixed frame 21 is formed with a position that compression torsion spring 37 contacts nearby as the step 37a of recess, has just limited the position of compressing torsion spring 37 in this part.The center of promptly compressing torsion spring 37 does not have big departing from from the center of the 3rd group of master's axis of guide 32.

When female threaded part 35 moved to wide-angle position (the W position of Fig. 2), the contact site 35a of female threaded part 35 then pushed holding section, front side 31d to the irradiated body side, so three-lens keeps frame 31 to move by side to wide-angle position to irradiated body along optical axis direction.

Female threaded part 35 be positioned at from the B position to the position of looking in the distance (T position) during, owing to always push to the image planes side along optical axis direction by compression torsion spring 37, so the gap that produces between the 3rd cocainine bar 34 or female threaded part 35 and the pressing plate 81 etc. all near the image planes side, keeps the positional precision of frame 31 on optical axis direction so can guarantee the 3rd set of shots.

Female threaded part 35 is that it is formed with on the 3rd cocainine bar 34 that screws substantially with the camera axis configured in parallel: contact site 35a, and it contacts with holding section, front side 31d or cam part 31e in described three-lens keeps the stage portion 31c of frame 31; Spline jut 35b, the spline parts of its conduct in order to prevent that female threaded part 35 also rotates along with the rotation of the 3rd cocainine bar 34, and be entrenched in the gathering sill parallel that forms on the 21a of stationary magazine creel portion of fixed frame 21 and slip with optical axis direction.That is, female threaded part 35 has stoped rotation owing to its spline jut 35b is entrenched in the gathering sill of fixed frame 21, so move along the camera axis advance and retreat by the rotation of the 3rd cocainine bar 34.

Details as shown in Figure 2, when female threaded part 35 further moves to image planes side (left side the figure) from the B position, then its contact is fastened on three-lens and keeps on the cam part 31e of stage portion 31c of frame 31, three-lens keeps frame 31 to contact on pressing plate 81 to the application of force of optical axis direction by compression torsion spring 37, and the turning effort power on optical axis that produces by compression torsion spring 37 of opposing and make three-lens keep frame 31 to the retreating position rotation, so can keep out of the way action.

On the other hand, contrary rotation (rotation counterclockwise) by the 3rd cocainine bar 34, female threaded part 35 keep out of the way through wide-angle position W and moving to from the position T that looks in the distance starting position B during, the contact site 35a of female threaded part 35 is on the engaging surface of contact, keep holding section, the front side 31d of the stage portion 31c of frame 31 to contact with three-lens, so three-lens keeps frame 31 to keep the position on optical axis by the 3rd group of secondary axis of guide 33 restrictions on one side to the acting force of position on the optical axis with to the acting force of image planes side by compression torsion spring 37, from irradiated body side image planes side gradually move on one side.When starting position B was kept out of the way in female threaded part 35 arrival, three-lens kept the cardinal extremity face 31f of frame 31 then to touch on the pressing plate 81, and female threaded part 35 leaves from holding section, front side 31d, and contact is on the cam part 31e of stage portion 31c.

At female threaded part 35 during keep out of the way starting position B and move to collecting position S, as mentioned above, the another side contacts 35c of the portion sliding contact of female threaded part 35 is on the cam part 31e of the stage portion 31c of three-lens maintenance frame 31, by making three-lens keep frame 31 opposings to rotate, make three-lens keep frame 31 position from the optical axis to rotate to collecting position by the turning effort power that compression torsion spring 37 produces.It is the generations of accommodating reference signal that produce from the optical chopper 38 that is become L by H that three-lens keeps the collecting position S of frame 31, and only step-by-step counting in accordance with regulations is to the position of image planes side shifting.Keep frame 31 after collecting position S moves at three-lens, first lens group 11, second lens group 12 and shutter/aperture stop unit 15 just are allowed to move to shrinking collecting position.

In this example, keep frame 31 before collecting position shifts at three-lens in the housing action, four-barrel keeps frame at first to shift to collecting position.The 4th set of shots keep first collecting position of frame be according to by the 4th group of reference detector promptly the 4th set of shots that produces of the 4th optical chopper (not shown) from become L by H keep frame to accommodate the generation of reference signal, beginning only in accordance with regulations step-by-step counting to the position of image planes side shifting.After the 4th set of shots kept the housing action of frame 41 to finish, three-lens kept the housing action of frame 31 just to allow to carry out.

That is, from the generation of accommodating reference signal that optical chopper 38 produces, only in accordance with regulations step-by-step counting is to the image planes side shifting for female threaded part 35, and three-lens keeps the housing action of frame 31 to finish.This is accommodated and finishes the back first rotating cylinder, 22 incomes, promptly be positioned near structure member square in face of their cardinal extremities from taking in first sleeve, 23 inboards being positioned at first rotating cylinder 22 with the position, front that three-lens keeps frame 31 to contact, after the housing action end that keeps frame 31 at described three-lens, can keep first rotating cylinder, 22 grades and three-lens frame 31 nothings to interfere ground to be taken in safely.The position of these first rotating cylinder, 22 grades can and possess the pinion wheel of the scrambler shape on the output shaft that directly is fixed on varifocal motor 51 and be arranged on driving pulse that its varifocal count detector that for example is made of optical chopper 51a nearby produces according to the varifocal motor 51 that uses general DC (direct current) motor to constitute counts and sets.At this, we know that the drive source that is used to first rotating cylinder 22 is moved is the DC motor, and reach the detection of activation point by the detecting device that is made of scrambler and optical chopper, and this integral replacement is become pulse motor, also can reach same function.

Near the 3rd group of master's axis of guide 32, the sheet of avoiding a conflict (not shown) can be bearing on the fixed frame 21 rotationally.Its rotate end locking protrusion (not shown) nearby by spring etc. always by to the outstanding rotation direction application of force of camera axis position side.When three-lens kept frame 31 to be in collecting position, the sheet of avoiding a conflict was had three-lens more than or equal to the rotating force of self-acting power and keeps frame 31 by going out, and keeps frame 31 bias more laterally than three-lens.When three-lens keeps frame 31 to rotate and move the position on optical axis, the sheet of avoiding a conflict is removed with three-lens and is kept engaging of frame 31, and locking protrusion 36a is being rotated to the side-prominent direction of camera axis by acting force, make locking protrusion outstanding from the stationary magazine creel portion inner face of fixed frame 21.At this moment, because with second rotating cylinder 24, second sleeve 25, cam canister 26 headed by first rotating cylinder 22 and first sleeve 23 with directly to advance tube 27 all be to be positioned at than the more close irradiated body side of the extrusion position of locking protrusion, so locking protrusion 36a is more side-prominent in more close than the cardinal extremity neighboring of first rotating cylinder 22 and first sleeve 23.

Like this, even manually make 22 rotations of first rotating cylinder by force, make it to the collecting position side shifting, also because the sheet of avoiding a conflict is at first to contact with first rotating cylinder 22, so the base end part of first rotating cylinder 22 can not be towards than the more close image planes side shifting in the position of the sheet of avoiding a conflict, so can avoid itself and three-lens to keep frame 31 to contact on optical axis direction.Therefore, can reach and prevent that the three-lens that produced by strong external force from keeping frame 31 to destroy or damaged.And first rotating cylinder 22 is to keep frame 31 can begin to move to collecting position behind the normal mobile end of collecting position at three-lens.

Therefore, under the photography state that lens barrel is given prominence to, by dropping etc. and the front of lens barrel when being subjected to big pressure, the locking protrusion of sheet of avoiding a conflict is fastened on first rotating cylinder 22 and first sleeve 23, can stop first rotating cylinder 22 and first sleeve 23 (and second rotating cylinder 24, second sleeve 25, cam canister 26 and directly advance tube 27) to surpass moving range ground and move back, prevent that three-lens from keeping the breakage of frame 31 and three-lens group 13 etc. to three-lens group 13 rear flank.

The 3rd cocainine bar 34 by the 3rd group of motor 52 by to along both direction driven in rotation counterclockwise.The rotation of the 3rd group of motor 52 is delivered to the 3rd cocainine bar 34 by gear 71, gear 72, gear 73 and gear 74 in turn.

Keep the three-lens of three-lens group 13 to keep frame 31 to be subjected to from the moment forces that is installed in the 3rd group of compression torsion spring 37 on master's axis of guide 32.Under photography state, three-lens keeps the turning effort power of frame 31 by compression torsion spring 37 that the limiter 31a that forms it on is kept in touch on the three group pair axis of guide 33 parallel with the 3rd group of master's axis of guide 32, by contacting of the 3rd group of secondary axis of guide 33 and limiter 31a, the three-lens group 13 that remains on three-lens maintenance frame 31 is remained on the camera axis.

Under photography state, for the three-lens group 13 that reliably prevents to cause the problem that departs from from camera axis by external force such as vibrations, more specifically say be exactly since restriction remain on three-lens keep three-lens group 13 on the frame 31 from camera axis to keeping out of the way departing from of direction, so be provided with limiting mechanism 83.This limiting mechanism 83 is the position on the optical axis of Fig. 5, Fig. 7～shown in Figure 9, keeps at the three-lens that keeps three-lens group 13 between the 3rd group of secondary axis of guide 33 and the limiting part 87 of limiter 31a contact of frame 31 three-lens maintenance frame 31 being limited.The stationary part that limiting mechanism 83 is arranged on lens barrel is on the fixed frame 21.

As shown in Figure 4, limiting mechanism 83 is arranged on the cylindric stationary magazine creel 21a of portion of fixed frame 21.Be formed with the gathering sill parallel with camera axis 84 on the 21a of stationary magazine creel portion, this gathering sill 84 is used for keeping frame 31 to lead along the 3rd group of master's axis of guide 32 from the three-lens that extends to the 21a of stationary magazine creel portion inboard from the 3rd group of master's axis of guide 32 that is configured in this stationary magazine creel portion outside.As shown in Figure 8, limiting mechanism 83 is arranged on the lateral edge portion 85 in a pair of edge part 85 of the 21a of stationary magazine creel portion of regulation gathering sill 84, and this edge part 85 is positioned at for three-lens and keeps frame 31 and direction side that this three-lens keeps frame that three-lens group 13 is rotated to the retreating position of keeping out of the way.The 21a of stationary magazine creel portion, it keeps frame 31 to be positioned under the state of position on the optical axis at three-lens, keeps having formed at interval between the frame 31 in a described lateral edge portion 85 and three-lens.As shown in Figure 8, be formed with in the bottom of described edge part 85 and be used to when three-lens keeps frame 31 to keep out of the way to accept that this three-lens keeps frame keeps out of the way groove 86.

In illustrated example, limiting mechanism 83 is to be made of the tabular limiting part 87 on the described lateral edge portion 85 that is configured in the 21a of stationary magazine creel portion.

As Fig. 8～shown in Figure 9, limiting part 87 is not configured in and keeps on the described edge part 85 of keeping out of the way the outstanding 21a of stationary magazine creel portion in path of frame 31 to three-lens.Be formed with pair of holes portion (bearing screw thread) 89 on the limiting part 87, it accepts described edge part 85 upper edge gathering sills, 84 spaces of the 21a of stationary magazine creel portion and a pair of protuberance (screw thread) 88 that forms.Each hole portion 89 is made of the slotted hole along the circumferential extension of the 21a of stationary magazine creel portion respectively.Limiting part 87 is entrenched in respectively on each protuberance 88 that forms on the edge part 85 of the 21a of stationary magazine creel portion by making its each hole portion 89, state so that the constraint stationary magazine creel 21a of portion moves to axis direction is configured to can regulate from the overhang of this edge part in gathering sill 84 on the edge part 85 of the 21a of stationary magazine creel portion.By having adjusting mechanism 90, can adjust the relative position of constrained parts 87 and the described edge part 85 of the 21a of stationary magazine creel portion at each the hole portion 89 that forms on the limiting part 87 and each protuberance 88 of on the described edge part 85 of the 21a of stationary magazine creel portion, forming.

The following describes limiting part 87 and go up the method for installing to the 21a of stationary magazine creel portion of fixed frame 21.

After lens barrel assembling, by each protuberance 88 of the described edge part 85 of the 21a of stationary magazine creel portion is entrenched in respectively in each hole portion 89 of limiting part 87, and limiting part 87 is configured on the described edge part 85 of the 21a of stationary magazine creel portion.Then, make three-lens keep frame 31 to position on the optical axis rotate and contact on the 3rd group of secondary axis of guide 33, regulate under this state limiting part 87 to gathering sill 84 in overhang so that limiting part 87 contacts on three-lens maintenance frame 31., under three-lens keeps state on the frame 31, for example replace adjusting mechanism and be fixed on the described edge part 85 of the 21a of stationary magazine creel portion at limiting part 87 in limiting part 87 contact by bonding agent.Like this, limiting part 87 has just been finished to the installation of fixed frame 21.

As previously mentioned, when photography by female threaded part 35 moves to retreating position (not shown) from collecting position by the rotation of the 3rd cocainine bar 34, three-lens keep frame 31 by the turning effort power that receives from compression torsion spring 37 from described collecting position through keeping out of the way in the groove 86 of forming of the edge part 85 of the stationary magazine creel 21a of portion to optical axis that the 3rd group of secondary axis of guide 33 contact on the position rotation.At this moment as previously mentioned, because limiting part 87 is not to be configured in to keep on the described edge part 85 of keeping out of the way the outstanding 21a of stationary magazine creel portion in path of frame 31 to three-lens, can not hinder three-lens to keep the rotation of frame 31 from collecting position position on optical axis.Afterwards, along with female threaded part 35 from retreating position moving to long focus telescope end position (not shown), three-lens keeps frame 31 then as previously mentioned, with the 3rd group of secondary axis of guide in the 3rd group of secondary axis of guide 33 state of contact lower edges and the gathering sill 84 that on the 21a of stationary magazine creel portion, forms, opposing from compression torsion spring 37 be subjected to the acting force of shrinkage direction and to the irradiated body side shifting.At this moment owing to the opposition side contact of limiting part 87 from the 3rd group of secondary axis of guide 33 keeps on the frame 31 at three-lens, so three-lens keep frame 31 be positioned at except female threaded part 35 on the optical axis retreating position keep out of the way a little, also be sandwiched between the 3rd group of pair axis of guide 33 and the limiting part 87.Like this, for example when photography three-lens group 13 when being subjected to vibrating, just be subjected to the prevention of the 3rd group of secondary axis of guide 33 to the rotation of departure direction from the collecting position of three-lens maintenance frame 31, three-lens keep frame 31 to the direction of defeating the turning effort power on optical axis that is subjected to from compression torsion spring 37 promptly to the rotation of collecting position (keeping out of the way direction) direction, then be restricted the prevention of parts 87.This collecting position is to be formed in i.e. first the outside of movable tube, just on the fixed frame.It makes the three-lens group keep out of the way and accommodated.

Like this, three-lens keeps other lens group 11 beyond the frame 31,12,14 are just allowed that the retreating position in the more close outside of the 21a of the stationary magazine creel portion maximum outside diameter of the fixed frame 21 on keeping out of the way a little on the optical axis keeps out of the way, and stop the three-lens that is positioned at by the turning effort power of compression torsion spring 37 on the optical axis limiting mechanism 83 from optical axis deviation, it is by being fixed on for fixed frame 21 mobile limiting parts 87 on the fixed frame 21 and constitute, so after assembling lens barrel, the three-lens assembled keep frame 31 regulates limiting part 87 under photography state position with suitable restriction camera lens from the departing from of optical axis, and can be fixed on these parts on the fixed frame 21.

Like this, even three-lens keeps frame 31 to produce assembly error or foozle, when photography, also can limit three-lens departing from more reliably by limiting part 87 from optical axis.

Therefore, when three-lens group 13 photography, limiting part 87 can suppress other lens group 11,12,14 effectively and depart from from optical axis.

When three-lens group 13 is shunk, when keep out of the way in the more close outside of the 21a of stationary magazine creel portion of fixed frame 21 maximum outside diameter, because limiting mechanism also is arranged on the outside of stationary magazine creel portion, so can reduce the intersect vertically size of the lens barrel in the face and the size on the camera axis direction of camera axis.

Also can adopt the optical system device that comprises the lens barrel of the present invention shown in described first embodiment and the formation camera as photographic optical system.On carrying type information terminal devices such as so-called PDA (personal dataassistant) and mobile phone, assemble the product of camera-enabled, gone on the market in recent years.This carrying type information terminal device is also mostly to be that some differences are arranged in appearance, but substantially comprise and the complete same functional structure of camera, on this carrying type information terminal device, also can adopt the optical system device that comprises lens barrel of the present invention.

When phtographic lens 101 was positioned at contraction state, because three-lens group 13 is kept out of the way from optical axis, first lens group 11 and second lens group 12 were accommodated side by side, so can realize the slimming more of camera.

In the present embodiment, represented to use bonding agent limiting part 87 to be fixed on example on the described lateral edge portion 85 of the 21a of stationary magazine creel portion of fixed frame 21, but replace it, for example using, the such securing member of screw also can be fixed on limiting part 87 on the fixed frame 21.

In the present embodiment, represented on the described edge part 85 of the 21a of stationary magazine creel portion, to form a pair of protuberance 88, and on limiting part 87, formed the example of pair of holes portion 89, but replaced it, also can on the 21a of stationary magazine creel portion, form pair of holes portion, and on limiting part 87, form a pair of protuberance.

In the present embodiment and since prevent the three-lens group when photography state from optical axis deviation, so prevent departing from of it, but on other lens group, also can be suitable for limiting mechanism 83 of the present invention by limiting mechanism.

In the present embodiment, represented lens barrel of the present invention is used example on camera and portable information terminal, but replaced it, also can use the present invention in the such image-input device of for example scanister.At this moment, owing to can not increase the intersect vertically size of the lens barrel in the face of camera axis terrifically, just can reduce the size on the camera axis direction effectively, so the size during as input media with the aid of pictures is not increased from the front, and can reduce the gauge of image-input device effectively.

Claims (10)

1, a kind of lens barrel, it possesses:

A plurality of lens group, it is configured on the same optical axis;

Movable lens barrel, it accommodates the part of these a plurality of lens group;

Fixed frame, it supports this movable lens barrel,

In punctured position in being housed in described fixed frame and when photography,, between the extended position that the irradiated body direction is stretched out, described movable lens barrel can move on the optical axis of described a plurality of lens group in this fixed frame, it is characterized in that,

Described movable lens barrel is on the throne under the state of described punctured position, and at least one lens group in described a plurality of lens group is kept out of the way towards the described optical axis of the outside crosscut ground of described movable tube,

It also possesses limiting mechanism, and it is mobile from departing from of described optical axis that this limiting mechanism is limited under the photography state described lens group of keeping out of the way.

2, lens barrel as claimed in claim 1 is characterized in that, it possesses force application part, and it pays acting force with towards the described optical axis of described optical axis crosscut for described lens group of keeping out of the way, and pays acting force along this optical axis at described shrinkage direction.

3, lens barrel as claimed in claim 1 is characterized in that, described limiting mechanism is arranged on the described fixed frame in the described movable tube outside and can adjusts.

4, lens barrel as claimed in claim 1, it is characterized in that, the described camera lens of keeping out of the way remains on and keeps out of the way camera lens and keep in the frame, this keep out of the way camera lens keep frame by with leading being supported to of described other lens group optical axis configured in parallel to spindle unit can be along should leading length direction moving and can be around its axis rotation to spindle unit, and from described force application part be subjected on described other lens group optical axis around the described turning effort power of dominating to spindle unit.

5, lens barrel as claimed in claim 4, it is characterized in that, the described lens group of keeping out of the way is subjected to turning effort power from described force application part and contacts on secondary guiding shaft component and be prescribed by making the described camera lens of keeping out of the way at the optical axis position in when photography, describedly keeps out of the way camera lens the optical axis along described other lens group is directed to by described secondary guiding shaft component.

6, lens barrel as claimed in claim 3 is characterized in that, is provided with the adjusting mechanism that is used to retrain both relative positions between described limiting mechanism and described fixed part.

7, lens barrel as claimed in claim 6 is characterized in that,

Described adjusting mechanism has: protuberance, and it is arranged on any of described limiting mechanism and described fixed part;

Hole portion, it is arranged on another of described limiting mechanism and described fixed part, and has the gap and accept described protuberance,

Described limiting mechanism is fixed on the described fixed part under the chimeric mutually state of described protuberance and described hole portion.

8, a kind of digital camera, it uses each described lens barrel of claim 1～7.

9, a kind of portable information terminal, it uses each described lens barrel of claim 1～7.

10, a kind of image-input device, it uses each described lens barrel of claim 1～7.

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