JP4812493B2 - Lens barrel and method of assembling the same - Google Patents

Description

  The present invention relates to a lens barrel that is integrally provided with a lens driven in the optical axis direction and a shutter mechanism or a diaphragm mechanism, and a method for assembling the lens barrel. The present invention relates to a lens barrel and an assembling method applied thereto.

  As a conventional lens barrel, a cylindrical tube portion that defines an optical path opening and holds three lenses arranged in the optical axis direction, a groove-shaped window portion formed on the outer peripheral surface of the tube portion, and A concave engaging portion, a shutter device formed separately, and the like are provided. After inserting the shutter device through the window portion and fitting it into the cylindrical portion, one lens is provided for the lens fitting portion formed in the shutter device. It is known that the shutter device is fixed so that it does not fall out of the tube portion by fitting the convex portion (lens portion).

However, in this lens barrel, since the shutter device is fixed so as not to be detached from the cylindrical portion by fitting a part of the lens, the optical axes of the plurality of lenses arranged after assembly are aligned. It is difficult to perform (centering).
In addition, if the shutter device is to be removed after being assembled once, it is necessary to remove the fitted lens, and as a result, all the parts must be disassembled, and the parts can be easily rearranged. I can't.
Further, in this lens barrel, the shutter device is simply integrated into the cylindrical portion, and the cylindrical portion is not driven in the optical axis direction. Therefore, the shutter device is also fixed at a predetermined position. Therefore, it is not necessary to take measures such as interference or vibration with respect to driving in the optical axis direction.

JP 2006-47364 A

  The present invention has been made in view of the above circumstances, and its purpose is to simplify the structure, reduce the number of parts, downsize, facilitate assembly and disassembly operations, and after disassembly. An object of the present invention is to provide a lens barrel having a light amount adjusting unit such as a shutter or a diaphragm mechanism that is driven integrally with a lens while reusing parts and the like, and an assembling method thereof.

The lens barrel of the present invention includes a lens barrel that holds the lens and is supported so as to be movable in the optical axis direction, and a light amount adjustment unit that is integrated into the lens barrel and that opens and closes or stops the optical path. cylinder is driven portion to be driven in the optical axis direction, guided portion which is guided in the optical axis direction, so as to penetrate in the direction perpendicular to the optical axis direction in the area to avoid the driven portion and the guide portion An outer lens cylinder having a formed slit portion , and a lens that holds the lens and is detachably fitted in the optical axis direction inside the outer lens cylinder, and penetrates in a direction perpendicular to the optical axis direction includes an inner lens tube having a second slit portion that is formed, the light quantity adjusting unit, a predetermined clearance to the second slit of the inner lens tube while being inserted in a state of close contact with the slit portion of the outer lens barrel With It is inserted, and is detachably fixed to the lens barrel, and characterized in that.
According to this configuration, when the light amount adjustment unit is incorporated in the lens tube, the lens tube is driven while being guided in the optical axis direction together with the light amount adjustment unit.
Here, since the light amount adjustment unit is detachably fixed to the lens tube, the light amount adjustment unit itself can be removed from the lens tube without damaging other components such as the lens. Therefore, after assembling the lens tube, if there is a problem with the light intensity adjustment unit, it can be replaced with another light intensity adjustment unit without damaging other parts. The light quantity adjustment unit can be reused after disassembling the lens tube.
In particular, by fitting the inner lens cylinder holding the lens to the outer lens cylinder and inserting the light quantity adjustment unit into the second slit portion of the inner lens cylinder with a predetermined play while closely contacting the slit portion of the outer lens cylinder. Alignment of the lens held by the inner lens tube and alignment of the lens and the light amount adjustment unit can be easily performed, and then the light amount adjustment unit can be fixed to the lens tube.

In the lens barrel having the above-described configuration, the light amount adjustment unit is closely fitted to the slit portion of the outer lens tube and performs positioning in the optical axis direction, and a part of the outer lens tube is in contact with the optical axis. A configuration including an abutting portion that performs positioning in a direction perpendicular to the direction and a coupling portion that is snap-fit coupled to a protrusion formed on the outer periphery of the outer lens tube can be employed.
According to this configuration, when the light amount adjustment unit is inserted into the slit portion of the outer lens tube from a direction perpendicular to the optical axis direction, the fitting portion is closely fitted to the slit portion, and positioning in the optical axis direction is performed. Further, the abutting portion abuts on a part of the outer lens tube, positioning is performed in a direction perpendicular to the optical axis direction, and the coupling portion is snap-fit coupled to the projection of the outer lens tube. That is, the light quantity adjustment unit can be firmly fixed while being positioned with high accuracy with respect to the lens tube (outer lens tube) by a simple insertion operation.
In addition, the light quantity adjustment unit is detachably fixed to the lens tube via a fitting part, a contact part, a coupling part, etc., so that no dedicated assembly parts are required, the structure is simplified, and the number of parts is reduced. Reduction, downsizing, etc. can be achieved.

In the lens barrel configured as described above, a configuration in which the coupling portion is fastened to the protrusion by a screw can be employed.
According to this configuration, since the coupling portion and the protrusion are fastened by the screw, the light amount adjustment unit is more firmly fixed to the lens tube, and the impact resistance is improved.

The lens barrel assembling method of the present invention includes a lens barrel that holds a lens and is supported so as to be movable in the optical axis direction, and a light amount adjustment unit that is integrated into the lens barrel and opens and closes or stops the optical path The lens barrel is assembled in such a manner that the lens barrel is guided and driven in the optical axis direction in a case that defines an opening for the optical path, the lens barrel being an outer lens barrel and an inner lens. A fitting step in which an inner lens cylinder holding the lens is detachably fitted to the inner side of the outer lens cylinder from the optical axis direction, and after the fitting process, the light quantity adjustment unit is Inserted in close contact with the slit formed in the outer lens cylinder so as to penetrate in a direction perpendicular to the optical axis direction and inserted with a predetermined play into the second slit formed in the inner lens cylinder and A mounting step of mounting detachably fixed to the lens barrel, after the mounting step, the aligning step for aligning the lens inside the lens barrel is moved relative to the outer lens barrel, After the alignment step, the method includes a housing step of housing the lens tube, to which the light amount adjustment unit is mounted, in the case so as to be driven while being guided in the optical axis direction.
According to this configuration, after the light amount adjustment unit is assembled and mounted in the lens cylinder, the lens cylinder is guided and driven in the optical axis direction with respect to the case (for example, a guide disposed in the case). The entire assembly can be easily carried out by housing it in such a way that it is engaged or connected to the mechanism and the drive mechanism.
In addition, since the light amount adjustment unit is detachably fixed to the lens tube, the light amount adjustment unit itself can be removed from the lens tube without damaging other components such as the lens, and the lens tube is assembled. Later, if there is a problem with the light intensity adjustment unit, it can be replaced with another light intensity adjustment unit without damaging other components. The adjustment unit can be reused.
In particular, by fitting the inner lens cylinder holding the lens to the outer lens cylinder and inserting the light quantity adjustment unit into the second slit portion of the inner lens cylinder with a predetermined play while closely contacting the slit portion of the outer lens cylinder. Alignment of the lens held by the inner lens tube and alignment of the lens and the light amount adjustment unit can be easily performed, and then the light amount adjustment unit can be fixed to the lens tube.

  According to the lens barrel having the above-described configuration and its assembling method, the lens barrel is driven integrally with the lens while achieving simplification of the structure, reduction in the number of parts, downsizing, reuse of the parts after disassembly, and the like. In addition, it is possible to provide a lens barrel having a light amount adjustment unit such as a shutter or a diaphragm mechanism. In addition, it is possible to easily perform assembling work and disassembling work without causing damage to parts.

DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, exemplary embodiments of the invention will be described with reference to the accompanying drawings.
1 to 6 show an embodiment of a lens barrel according to the present invention. FIGS. 1 and 2 are exploded perspective views of a camera unit including the lens barrel, and FIG. 3 shows the inside of the camera unit. FIG. 4 is a cross-sectional view showing the inside of the camera unit, FIG. 5 is a plan view of a lens barrel and a light amount adjustment unit constituting the lens barrel, and FIG. 6 is a lens barrel and a light amount adjustment unit constituting the lens barrel. FIG.

  As shown in FIGS. 1 to 4, the camera unit includes a base 10 and a front cover 20 as a case, a lens tube 30 accommodated in the case, a light amount adjustment unit 40 integrally incorporated in the lens tube 30, and a lens. A guide shaft 50 constituting a part of a guide mechanism for guiding the tube 30 in the optical axis direction L, a drive mechanism 60 for driving the lens tube 30 in the optical axis direction L, a glass filter 70 attached to the back surface of the case, a glass filter 70, an image sensor 80 such as a CCD or CMOS, a substrate 90 for holding the image sensor 80, a sensor 100, and the like are provided.

  As shown in FIGS. 1 to 4, the base 10 is formed in a box shape having a bottom portion 11 and a side wall portion 12 and opening forward using a resin material or the like. The base 10 is formed by extending in the optical axis direction L, an opening portion 11a formed in the bottom portion 11, a joint portion 11b for joining the substrate 90, a fixed wall portion 13 for fixing a motor 61 of a drive mechanism 60 described later. A guide groove 12a as a guide mechanism, a screw hole 12b for joining the front cover 20, a latching piece 12c, a positioning pin 14 and the like are provided.

  The front cover 20 is formed in a substantially rectangular flat shape using a resin material or the like as shown in FIGS. 1, 2, and 4. The front cover 20 is fitted with a circular optical path opening 21, a fastening part 22 that is fastened through a screw B for coupling to the base 10, a concave part 23 that latches the latching piece 12 c, and a positioning pin 14. Fitting groove 24 for fitting, fitting hole 25 for fitting the end portion of the guide shaft 50, sensor fixing piece 26 for fixing the sensor 100, and fitting hole for fitting the end portion of the lead screw 64 of the drive mechanism 60 described later. (Not shown).

  As shown in FIGS. 1 to 6, the lens tube 30 is made of a resin material or the like, and has an outer lens tube 31 formed in a substantially cylindrical shape with an axis in the optical axis direction L, and an axis in the optical axis direction L. The inner lens cylinder 32 is formed in a substantially cylindrical shape so as to be fitted in the outer lens cylinder 31, and the aperture plate 33 is fixed to the front of the inner lens cylinder 32.

As shown in FIGS. 1 to 6, the outer lens barrel 31 is formed to protrude from the outer peripheral surface of the nut holding portion 31 a as a driven portion that holds a nut 65 of the driving mechanism 60 described later, and the nut holding portion 31 a. An outer fitting portion 31b as a guided portion that protrudes in the vicinity in the same manner and slidably fits the guide shaft 50, and protrudes from the outer peripheral surface on the opposite side to the outer fitting portion 31b. The guide groove 12a of the base 10 is formed. So as to penetrate in a direction perpendicular to the optical axis direction L in a region avoiding the protruding portion 31c, the nut holding portion 31a, the outer fitting portion 31b, and the protruding portion 31c that are slidably fitted in The two slit portions 31d formed in the two, the two projections 31e for snap-fit coupling the light quantity adjustment unit 40, and the optical axis direction L in the vicinity of the projection 31e. Two stoppers 31f that delimit a surface in a vertical direction, a detected piece 31g that is detected by the sensor 100, an inner wall surface 31h that delimits a recess 31h ′ in which the inner lens tube 32 is non-rotatably fitted, and an inner lens tube An annular contact flange 31i that is positioned at a predetermined position in the optical axis direction L by inserting and contacting 32 is provided.
Further, as shown in FIGS. 4 and 6, the outer lens tube 31 is held behind the contact flange 31i in a state in which the lens G1 is inserted and brought into contact therewith.

The slit portion 31d allows the light amount adjustment unit 40 to be inserted from a direction perpendicular to the optical axis direction L, and adjusts the light amount by closely fitting a fitting portion 42 to be described later of the light amount adjustment unit 40. The unit 40 is positioned at a predetermined position in the optical axis direction L.
The stopper 31f is configured to position the light amount adjustment unit 40 at a predetermined position in a direction perpendicular to the optical axis direction L by bringing a contact portion 45 described later of the light amount adjustment unit 40 into contact therewith.
The protrusion 31e is configured to firmly fix the light amount adjusting unit 40 to the outer lens cylinder 31 by snap fitting a later-described coupling portion 44 of the light amount adjusting unit 40 and fastening with a screw B.

  As shown in FIGS. 1 to 6, the inner lens cylinder 32 receives an arc-shaped protrusion 32a and a lens G2 that protrude from the outer peripheral surface thereof and are fitted into a recess 31h ′ formed on the inner wall surface 31h of the outer lens cylinder 31. A holding part 32b for holding, a holding part 32c for receiving and holding the lens G3, two slit parts 32d (as a second slit part) formed so as to penetrate in a direction perpendicular to the optical axis direction L, etc. It has.

The slit portion 32d is formed slightly wider in the optical axis direction L than the light amount adjustment unit 40 so as to allow the light amount adjustment unit 40 to be inserted with play from a direction perpendicular to the optical axis direction L. As a result, the inner lens cylinder 32 can be finely adjusted with respect to the outer lens cylinder 31 after the light amount adjustment unit 40 is mounted.
If it is not necessary to finely adjust the inner lens cylinder 32 with respect to the outer lens cylinder 31, the slit portion 32d positions the light amount adjustment unit 40 at a predetermined position in the optical axis direction L, similarly to the slit portion 31d. It may be formed so as to fit closely.
The arc-shaped protrusion 32 a is positioned by restricting rotation around the optical axis in a state where the inner lens tube 32 is inserted into the outer lens tube 31.

The holding part 32b is formed so as to hold it at a predetermined position in the optical axis direction L in a state where the lens G2 inserted from the front is in contact.
The holding portion 32c is formed so that the lens G2 inserted from the front can be inserted up to the holding portion 32b at the rear, and a predetermined lens in the optical axis direction L is in contact with the lens G3 inserted from the front. It is formed to hold in position.

That is, the lens G2 and the lens G3 are incorporated in the inner lens tube 32 in advance, and then the inner lens tube 32 holding the lenses G2 and G3 is inserted into the outer lens tube 31 from the front in the optical axis direction L. Then, the inner lens cylinder 32 is integrated with the outer lens cylinder 31 by being abutted and positioned on the abutting flange 31i.
In addition, a diameter plate 33 having a predetermined diameter is attached to the inner lens cylinder 32 in front of the lens G3.

  As shown in FIGS. 1 to 6, the light amount adjustment unit 40 is formed to be substantially flat in a direction perpendicular to the optical axis direction L and is inserted into the lens tube 30 and defines an opening 41 a having a predetermined diameter. The insertion portion 41, a portion of the insertion portion 41 that is formed thicker and fits closely to the slit portion 31d, is integrally formed with the insertion portion 41, and accommodates various drive mechanisms and the like. One end is connected to the accommodating portion 43, two coupling portions 44 formed protruding from the accommodating portion 43, two abutting portions 45 formed in the coupling region of the insertion portion 41 and the accommodating portion 43, and the accommodating portion 43. A wiring plate 46 formed so as to be elastically deformable is provided.

The insertion portion 41 and the accommodating portion 43 include a shutter blade (not shown) that opens and closes the opening 41a, a diaphragm blade (not shown) that restricts the opening 41a to a predetermined aperture, and an electromagnetic actuator that drives the shutter blade and the aperture blade to open and close A drive mechanism (not shown) such as a link mechanism is accommodated.
The fitting portion 42 is closely fitted to the slit portion 31d in a state where the light amount adjustment unit 40 (the insertion portion 41 thereof) is inserted into the slit portion 31d (and 32d), and the light amount adjustment unit 40 is moved in the optical axis direction. It is positioned at a predetermined position of L.
The coupling portion 44 is snap-fit coupled to the protrusion 31e of the outer lens barrel 31 and fastened by a screw B, so that the light amount adjustment unit 40 is firmly fixed while being positioned with respect to the lens barrel 30. Yes.
When the light amount adjustment unit 40 is inserted into the slit portions 31d and 32d from the direction perpendicular to the optical axis direction L, the contact portion 45 contacts the stopper 31f of the outer lens barrel 31 and is L in the optical axis direction. It is positioned at a predetermined position in a direction perpendicular to.
The wiring plate 46 supplies a signal and electric power for driving and controlling the drive mechanism of the light amount adjustment unit 40 integrally incorporated in the lens tube 30, and when the lens tube 30 moves in the optical axis direction L. It can be elastically deformed to follow.

That is, the light amount adjustment unit 40 is inserted into the slit portion 31d of the lens cylinder 30 and the fitting portion 42 is closely fitted to the slit portion 31d, thereby positioning in the optical axis direction L, and the contact portion 45 is the stopper. Positioning in the direction perpendicular to the optical axis direction L is made by contacting with 31f, and the coupling portion 44 is snap-fit coupled to the projection 31e, so that the lens barrel 30 is positioned at a predetermined position with high accuracy. It is firmly fixed. Therefore, the assembly can be performed by a simple insertion operation, and the light amount adjustment unit 40 can be easily detached from the lens tube 30 by performing the reverse operation.
Further, since the coupling portion 44 is fastened to the protrusion 31e by the screw B, the light amount adjustment unit 40 is more firmly fixed to the lens tube 30, and the impact resistance is improved.

  As described above, the light amount adjustment unit 40 is snap-fit coupled to the fitting portion 42 that is closely fitted to the slit portion 31d, the contact portion 45 that is in contact with the stopper 31f, and the protrusion 31e, and is fastened by the screw B. Since it is detachably fixed to the lens tube 30 via the coupling portion 44, etc., a dedicated assembly part or the like is not required, and the structure is simplified, the number of parts is reduced, and the size is reduced. can do.

  Here, after the inner lens tube 32 holding the lenses G2 and G3 is inserted into the outer lens tube 31, the light amount adjustment unit 40 is inserted into the slit portions 31d and 32d, so that the light amount adjustment unit 40 is attached to the lens tube 30. Can be fixed. That is, by adopting the inner lens cylinder 32, alignment work between the lenses G2 and G3 held by the inner lens cylinder 32 and the lens G1 held by the outer lens cylinder 31, and the lenses G1, G2, G3 and the light quantity The alignment operation of the adjustment unit 40 can be easily performed.

  The guide shaft 50 is made of a material having high rigidity, for example, a metal material, has a circular cross section and has one end on the base 10 so as to extend in the optical axis direction L as shown in FIGS. 1, 2, 3, and 5. Is slidably inserted into the outer fitting portion 31b of the lens cylinder 30, and the other end is fitted into the fitting hole 25 of the front cover 20.

As shown in FIGS. 1 to 5, the drive mechanism 60 has a stepping motor 61 fixed to the base 10, a worm 62 directly connected to the stepper 61, a worm wheel 63 screwed into the worm 62, and a coaxial with the worm wheel 63. A lead screw 64 extending in the optical axis direction L so as to rotate integrally therewith, a nut 65 held non-rotatably by the nut holding portion 31a of the outer lens barrel 31 and screwed into the lead screw 64, a guide shaft 50 A coil spring 66 that is arranged around and energizes the lens cylinder 30 toward the front in the optical axis direction L, a wiring plate 67 that extends outward from the case and is elastically deformable, and the like.
The coil spring 66 brings the nut 65 and the lens barrel 30 (nut holding portion 31a) into close contact with each other in the optical axis direction L, and also loosens the nut 65 against the lead screw 64.
That is, when the stepping motor 61 rotates, the lead screw 64 rotates through the worm 62 and the worm wheel 63, and the nut 65 moves in the optical axis direction L, so that the lens tube 30 and the light quantity adjustment unit 40 are aligned with the optical axis. Driven in the direction L.

  The sensor 100 is fixed to the sensor fixing piece 26 of the front cover 20 and is a transmissive optical sensor having a light projecting element and a light receiving element. The initial position of the lens cylinder 30 is detected based on whether or not the detected piece 31g of the lens cylinder 30 blocks the detection light.

Next, a method for assembling a camera unit including this lens barrel will be described.
First, the lens G <b> 1 is attached to the outer lens cylinder 31. Subsequently, the lens G2 and the lens G3 are attached to the inner lens tube 32.
Subsequently, the inner lens cylinder 32 is inserted into the outer lens cylinder 31 and is loosely fitted (fitting process).

Subsequently, as shown in FIGS. 5 and 6, the insertion portion 41 of the light quantity adjustment unit 40 is inserted close to the direction perpendicular to the optical axis direction L and inserted into the slits 31 d and 32 d. Then, the fitting portion 42 is closely fitted to the slit portion 31d, the abutting portion 45 is brought into contact with the stopper 31f, the coupling portion 44 is snap-fit coupled to the projection 31e, and both are fastened by the screw B. Install (installation process).
That is, the light amount adjustment unit 40 is positioned at a predetermined position in the optical axis direction L with respect to the lens tube 30, and is positioned at a predetermined position in a direction perpendicular to the optical axis direction L. It is firmly fixed by fastening.
Thus, the light quantity adjustment unit 40 is positioned with high accuracy and firmly fixed with respect to the lens tube 30 by a simple insertion operation.

Subsequently, alignment work is performed so that the optical axes of the lenses G2 and G3 coincide with the optical axis of the lens G1 (alignment process). In this alignment operation, since the lenses G2 and G3 are fixed with respect to the inner lens tube 32, both of them are finely adjusted within the range of the gap provided between the outer lens tube 31 and the inner lens tube 32. Is fixed with an adhesive or the like, so that the optical axes can be easily matched. In addition, after the light amount adjustment unit 40 is inserted into the lens tube 30 (the outer lens tube 31 and the inner lens tube 32) and fixed, the alignment operation of the lenses G2 and G3 is performed. The optical axes of G2 and G3 can be matched.
Although the alignment operation is performed here with the lens G1 as a reference, the lens G1 (or the lenses G2 and G3) may be adjusted with a predetermined position as a reference. In addition to the alignment operation, the relative positional relationship of the lenses G2 and G3 (or the lens G1) with respect to the light amount adjustment unit 40 may be adjusted. In these cases, the alignment operation of the lens G1 is performed, for example, by providing a gap between the inner wall of the outer lens barrel 31 and the lens G1, finely adjusting within the range, and then fixing with an adhesive or the like.

  Here, since the light amount adjustment unit 40 is detachably fixed to the lens tube 30, the light amount adjustment unit 40 itself is removed from the lens tube 30 without damaging other components such as the lenses G1, G2, and G3. Can be removed. Therefore, after the lens tube 30 is assembled, if there is a problem with the light quantity adjustment unit 40, it can be replaced with another light quantity adjustment unit 40 without damaging other components, and the lenses G1, G2, If there is a problem with G3, the light amount adjustment unit 40 can be reused after the lens barrel 30 is disassembled.

Subsequently, the lens barrel 30 in which the light amount adjustment unit 40 is incorporated and the alignment work is finished is accommodated in the base 10 (accommodating step). In this housing operation, the outer fitting portion 31b of the lens barrel 30 is slidably fitted to the guide shaft 50, and the projection portion 31c of the lens barrel 30 is slidably fitted to the guide groove 12a of the side wall portion 12. At the same time, the lens barrel 30 is pushed in while the coil spring 66 is compressed. Further, while starting the stepping motor 61 and rotating the lead screw 64, the nut 65 held by the nut holding portion 31a is screwed into the lead screw 64 and assembled as shown in FIG. Furthermore, the wiring plate 46 is appropriately connected and incorporated (not shown).
Subsequently, the front cover 20 is joined to the base 10, and is firmly fixed and tightened using screws B or the like (see FIG. 4).

  Furthermore, the substrate 90 holding the glass filter 70 and the image sensor 80 is bonded and fixed to the bottom 11 of the base 10. Thereby, the camera unit provided with the lens barrel of the present invention is completed (see FIG. 4).

  According to the lens barrel and the assembling method described above, the light quantity adjustment unit 40 can be connected to the lenses G1, G2, while achieving simplification of the structure, reduction in the number of parts, downsizing, reuse of parts after disassembly, and the like. Since the lens tube 30 is detachably fixed so as to be driven integrally with G3, the assembling operation or the disassembling operation can be easily performed without causing damage to the components.

In the above SL embodiment, it holds two lenses G2, G3 inside the lens barrel 32, a case that holds a single lens G1 to the outer lens barrel 31, is not limited thereto, it In a configuration in which a number of lenses other than the above are held, the light amount adjustment unit 40 may be detachably fixed.
In the above-described embodiment, the configuration including the stepping motor 61, the worm 62, the worm wheel 63, the lead screw 64, the nut 65, and the like is shown as the drive mechanism 60, but is not limited to this, and other drive mechanisms are included. May be adopted.

  As described above, the lens barrel and its assembling method of the present invention can be integrated with the lens while achieving simplification of the structure, reduction in the number of parts, downsizing, reuse of parts after disassembly, and the like. In order to provide a lens barrel provided with a light amount adjustment unit such as a driven shutter or a diaphragm mechanism, it is of course applicable to a camera unit mounted on a mobile phone, a portable personal computer, a portable music player, etc. In addition, it is also useful for ordinary digital cameras and the like that do not require miniaturization.

It is a disassembled perspective view which shows one Embodiment of the camera unit provided with the lens-barrel concerning this invention. It is a disassembled perspective view which shows one Embodiment of the camera unit provided with the lens-barrel concerning this invention. It is a top view which shows the inside of a camera unit in the state which removed the front cover. It is sectional drawing of the camera unit which assembly completed. It is a top view which shows a lens cylinder and a light quantity adjustment unit. It is sectional drawing which shows a lens cylinder and a light quantity adjustment unit.

Explanation of symbols

10 Base (case)
11 bottom 11a opening 12 side wall 12a guide groove (guide mechanism)
20 Front cover (case)
21 Opening 30 Lens tube 31 Outer lens tube 31a Nut holding part (driven part)
31b Outer fitting part (guided part)
31c Projection (guided part)
31d Slit portion 31e Protrusion 31f Stopper 31g Detected piece 31h Inner wall surface 31h ′ Concavity 31i Abutting flange 32 Inner lens tube 32a Arc-like projections 32b and 32c Holding portion 32d Second slit portion 33 Diameter plate 40 Light quantity adjustment unit 41 Insertion portion 41a opening 42 fitting part 43 accommodating part 44 coupling | bond part 45 contact part 46 wiring plate 50 guide shaft (guide mechanism)
60 Drive mechanism 61 Stepping motor 62 Worm 63 Worm wheel 64 Lead screw 65 Nut 66 Coil spring 67 Wiring plate 70 Glass filter 80 Image sensor 90 Substrate 100 Sensor B Screw L Optical axis direction G1, G2, G3 Lens

Claims (4)

A lens barrel that holds the lens and is supported so as to be movable in the optical axis direction, and a light amount adjustment unit that is integrated into the lens barrel and that opens and closes or stops the optical path;
Through the lens barrel, the driven portion to be driven in the optical axis direction, guided portion which is guided in the optical axis direction, a direction perpendicular to the optical axis direction in the area to avoid the driven portion and the guided portion An outer lens tube having a slit portion formed so as to hold, and is detachably fitted in the optical axis direction inside the outer lens tube while holding the lens, and in a direction perpendicular to the optical axis direction Including an inner lens tube having a second slit portion formed so as to penetrate ;
The light amount adjustment unit is inserted in close contact with the slit portion of the outer lens tube and is inserted into the second slit portion of the inner lens tube with a predetermined play, and is detachably fixed to the lens tube. Being
A lens barrel characterized by that. The light amount adjustment unit is closely fitted to the slit portion of the outer lens tube to perform positioning in the optical axis direction, and a direction perpendicular to the optical axis direction in contact with a part of the outer lens tube An abutting portion for positioning, and a coupling portion that is snap-fit coupled to a protrusion formed on the outer periphery of the outer lens tube,
The lens barrel according to claim 1. The coupling portion is fastened to the protrusion with a screw.
The lens barrel according to claim 2, wherein: A case that includes a lens cylinder that holds a lens and is supported so as to be movable in the optical axis direction, and a light amount adjustment unit that is integrated into the lens cylinder and that opens and closes or stops the optical path, and defines an opening for the optical path A lens barrel assembling method for assembling the lens barrel so that the lens barrel is guided and driven in the optical axis direction,
A fitting step in which the lens barrel is formed by an outer lens barrel and an inner lens barrel, and the inner lens barrel holding the lens is detachably fitted from the optical axis direction to the inner side of the outer lens barrel;
After the fitting step , the light amount adjustment unit is inserted in a state of being in close contact with a slit portion formed in the outer lens tube so as to penetrate in a direction perpendicular to the optical axis direction, and is inserted into the inner lens tube. A mounting step of inserting with a predetermined play into the formed second slit portion and detachably fixing to the lens tube;
After the mounting step, an alignment step of aligning the lens by moving the inner lens tube relative to the outer lens tube;
After the alignment step, an accommodating step of the lens barrel in which the light amount adjustment unit is attached, is accommodated in the said casing so as to be driven is guided in the optical axis direction,
A method of assembling a lens barrel, comprising:

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