JPH11258479A - Lens barrel - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lens barrel which can be easily and certainly manufactured. SOLUTION: A lens barrel 1 is provided with an opening 91 at one end, and has a hollow resin mirror barrel body 10 provided with an opening 92 at the other end. The mirror barrel body 10 is composed of a front group lens mirror barrel part 5; a rear group lens mirror barrel part 6; a flange 7; and a positioning member 8. Tapered faces 51, 52 inclined so as to gradually enlarge in a bore toward the opening 91 are formed on the inside of the front group lens mirror barrel part 5, and tapered faces 61, 62 inclined so as to gradually enlarge in a bore toward the opening 92 are formed on the inside of the rear group lens mirror barrel part 6. In the front group lens mirror barrel part 5, the lenses 21, 22, 23 are fixedly installed through space rings 24, 25, and in the rear group lens mirror barrel part 6, the lenses 31, 32, 33 are fixedly installed through space rings 34, 35.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a lens barrel.

[0002]

2. Description of the Related Art Various types of lens barrels (for example, a lens barrel of a camera to which a photographic lens is fixed) having a lens fixed to a lens barrel body are known.

A conventional lens barrel will be described below with reference to FIG. As shown in FIG. 4, the lens barrel 100 has a lens barrel main body 110, and a plurality of lenses 120 are fixed in the lens barrel main body 110. The spacing between adjacent lenses 120 is kept constant by a spacing ring (spacer) 130.

A step portion 140 having an end surface 141 perpendicular to the optical axis 200 is formed inside the lens barrel main body 110 so that its inner diameter corresponds to the outer diameter of the lens 120.

At the time of assembling the lens barrel 100, the lens 120 and the spacing ring 130 are inserted and fixed in the barrel body 110.

However, in the above-described conventional lens barrel 100, when the lens 120 and the spacing ring 130 are inserted into the barrel body 110, they are caught by the step portion 140, and as a result, the lens 120 and the spacing ring 130 There is a disadvantage that it takes time to insert, that is, assemble the lens barrel 100.

[0007]

SUMMARY OF THE INVENTION An object of the present invention is to provide a lens barrel which can be manufactured easily and reliably.

[0008]

This and other objects are achieved by the present invention which is defined below as (1) to (15).

(1) A lens barrel including a hollow barrel body having an opening formed at least at one end, and at least one lens fixed in the barrel body, wherein the inside of the barrel body is A holding surface that contacts the outer peripheral surface of the lens and holds the lens, and the opening side of the holding surface extends toward the opening side, and the lens is inserted into the lens barrel main body from the opening. A lens barrel having a tapered surface having a function of guiding the lens when performing the operation.

(2) A plurality of holding surfaces are provided in a stepwise manner so that the cross-sectional shape gradually widens toward the opening side,
The lens barrel according to (1), wherein at least one lens is held on each holding surface.

(3) The tapered surface described in (1) or (2), wherein the tapered surface is formed such that when the lens is held on the holding surface, the holding surface contacts a part of the outer peripheral surface of the lens. The lens barrel according to (2).

(4) A hollow lens barrel main body having an opening formed at least at one end, a plurality of lenses fixed in the lens barrel main body, and a plurality of lenses fixed in the lens barrel main body and adjacent to each other. A lens barrel having at least one spacing ring for defining a spacing, wherein the lens barrel abuts the outer peripheral surface of the lens or the spacing ring inside the barrel body and holds the lens or the spacing ring. And a function of guiding the lens or the spacing ring when the lens or the spacing ring is inserted into the lens barrel main body from the opening toward the opening side on the opening side of the holding surface. And a tapered surface having the following.

(5) A plurality of holding surfaces are provided in a stepwise manner so that the cross-sectional shape gradually widens toward the opening side,
The lens barrel according to (4), wherein at least one lens or an interval ring is held on each of the holding surfaces.

(6) The tapered surface is formed such that when the lens or the spacing ring is held on the holding surface, the holding surface contacts a part of the outer peripheral surface of the lens or the spacing ring. The lens barrel according to the above (4) or (5), wherein

(7) The holding surface is formed so as to be parallel to the optical axis of the lens when the lens is fixed in the lens barrel main body.
The lens barrel according to any one of the above.

(8) The lens barrel according to any one of (1) to (7), wherein the cross section of the holding surface is substantially circular.

(9) The lens barrel according to any one of (1) to (7), wherein the cross section of the holding surface is substantially elliptical.

(10) The lens barrel according to any one of (1) to (7), wherein a cross-sectional shape of the holding surface is substantially rectangular.

(11) The lens barrel according to any one of (1) to (10), wherein the barrel body is made of metal.

(12) The lens barrel according to any one of (1) to (10), wherein the barrel body is made of resin.

(13) The lens barrel according to any one of (1) to (12), wherein the barrel body is formed by injection molding.

(14) The angle θ between the tapered surface and the optical axis of the lens when the lens is fixed in the lens barrel main body is 20 to 60 °. 13) The lens barrel according to any one of the above.

(15) The angle θ between the tapered surface and the optical axis of the lens when the lens is fixed in the barrel main body is 30 to 50 °. 13) The lens barrel according to any one of the above.

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a lens barrel according to the present invention will be described in detail based on preferred embodiments shown in the accompanying drawings.

FIG. 1 is a sectional view showing a first embodiment in which the lens barrel of the present invention is applied to a lens barrel of an imaging lens (photographing lens) of a digital still camera, and FIG.
FIG. 4 is a cross-sectional view showing a lens barrel main body of the lens barrel shown in FIG.

As shown in these figures, the lens barrel 1
Is a hollow having an opening (first opening) 91 at one end (left side in FIGS. 1 and 2) and an opening (second opening) 92 at the other end (right side in FIGS. 1 and 2). Lens barrel body 1
It has 0.

The lens barrel main body 10 is substantially cylindrical and mainly includes a front lens barrel 5 located on the left side in FIGS. 1 and 2, and a rear lens group located on the right side in FIGS. It comprises a lens barrel 6.

A flange 7 is formed on the outer side (outer peripheral side) of the lens barrel main body 10. On the inner side (inner peripheral side) of the lens barrel main body 10, a ring 23 for positioning the lens 23 and the lens 33 in the direction of the optical axis 4 of the imaging optical system (lenses 21, 22, 23, 31, 32, and 33), respectively. Are formed.

The flange 7 and the positioning member 8
Are disposed between the front lens barrel 5 and the rear lens barrel 6, respectively.

The front lens unit 5 includes lenses 21, 2
The front group lens 2 composed of 2 and 23 is fixedly installed. The lens 21 is located on the left side of the lens 22 in FIG. 1, and the lens 22 is located on the left side of the lens 23 in FIG. And, between the lens 21 and the lens 22,
A spacing ring (spacer) 24 is provided, and a spacing ring (spacer) 25 is provided between the lens 22 and the lens 23. The spacing rings 24 and 25 maintain (define) the spacing between the lenses at a predetermined distance (constant distance).

The rear lens barrel 6 includes a lens 3
A rear group lens 3 composed of 1, 32 and 33 is fixedly installed. The lens 31 is located on the right side of the lens 32 in FIG. 1, and the lens 32 is located on the right side of the lens 33 in FIG. A spacing ring (spacer) 34 is provided between the lens 31 and the lens 32, and a spacing ring (spacer) 3 is provided between the lens 32 and the lens 33.
5 are installed. These spacing rings 34 and 35
Thereby, the distance between the lenses is maintained (defined) at a predetermined distance (constant distance).

The constituent materials of the lenses 21, 22, 23, 31, 32, and 33 include, for example, various lens resin materials, various glasses, and the like.

The constituent materials of the spacing rings 24, 25, 34 and 35 include, for example, various resin materials and various metal materials.

Next, the front lens barrel 5 of the lens barrel body 10
Will be described. For convenience of explanation, the portion of the flange 7 and the positioning member 8 is referred to as a “base”, and the left side of the flange 7 and the positioning member 8 in FIGS. 1 and 2 is referred to as a “tip”.

On the inner side (inner peripheral side) of the front lens barrel 5, a cross-sectional shape (a cross-sectional shape in a direction perpendicular to the optical axis 4) is directed toward the opening 91 (the left side in FIGS. 1 and 2). Three retaining surfaces 57, 58 and 59 are formed in steps, which spread in order. Each holding surface 57, 58 and 59
Are each a circle.

The inner diameter (diameter) of the holding surface 57 is larger than the inner diameter of the holding surface 58, and the inner diameter of the holding surface 58 is larger than the inner diameter of the holding surface 59.

The holding surfaces 57, 58 and 59 are formed so as to be parallel to the optical axis 4, respectively.

The outer peripheral surface 21 of the lens 21 is
1 and the outer peripheral surface 241 of the spacing ring 24 are in contact with each other and are held.

The outer peripheral surface 221 of the lens 22 and the outer peripheral surface 251 of the spacing ring 25 abut on the holding surface 58, and these are held.

The outer peripheral surface 231 of the lens 23 contacts the holding surface 59, and the lens 23 is held.

Further, inside (inner peripheral side) of the front lens barrel 5, a taper which is inclined (spreads) toward the opening 91 (toward the left side in FIGS. 1 and 2) so that the inner diameter gradually increases. Surfaces 51 and 52 are each formed. The tapered surface 51 is located at the distal end side (the opening 91 side) of the holding surface 58, that is, between the holding surface 57 and the holding surface 58, and the tapered surface 52 is located at the distal end side (the opening 91 side) of the holding surface 59. That is, it is located between the holding surface 58 and the holding surface 59.

These lenses and the spacing ring are guided by the tapered surfaces 51 and 52 when the lens and the spacing ring are inserted from the opening 91 into the front lens barrel 5. This makes it possible to easily and smoothly insert the lens and the interval ring into the front lens barrel 5.

Assuming that the taper angle between the tapered surfaces 51 and 52 (the angle formed between the tapered surfaces 51 and 52 and the optical axis 4) is θ ₁ , the taper angle θ ₁ makes it possible to smoothly insert a lens or an interval ring. Is set to the extent that

Specifically, the taper angle θ ₁ is 20 to 6
The angle is preferably about 0 °, more preferably about 30 to 50 °.

If the taper angle θ ₁ exceeds the above range, depending on various conditions such as the shape and dimensions of the lens and the spacing ring,
In some cases, insertion of the lens or the spacing ring cannot be performed smoothly. Further, the taper angle theta ₁ is less than the above range, depending on various conditions such as dimensions of the lens and spacing rings,
In some cases, the holding surface formation width (the length of the holding surface in the optical axis 4 direction) cannot be set to a length that can hold the lens and the spacing ring.

The taper angle of the taper surface 51 and the taper angle of the taper surface 52 may be equal or different.

Further, when the lens 22 and the spacing ring 25 are held on the holding surface 58, the holding surface 58 is part of the outer peripheral surface 221 of the lens 22 (base side).
It is formed so that it may contact.

When the lens 23 is held on the holding surface 59, the tapered surface 52 is
Is formed so as to contact a part of the outer peripheral surface 231 (the base side).

A step 53 is formed on the outside (outer periphery) of the front lens barrel 5. In other words, the outer diameter (diameter) of the front lens barrel 5 on the distal end side from the step 53
Is smaller than the outer diameter (diameter) of the step portion 53 and the front-group lens barrel 5 closer to the proximal end side than the step portion 53.

The outer side (outer peripheral side) of the front end portion 54 of the front lens barrel 5 is tapered. That is,
Outside the distal end portion 54 of the front lens barrel 5, a tapered surface 55 is formed that is inclined so that the outer diameter gradually decreases toward the distal end (the left end surface in FIGS. 1 and 2).

Next, the rear lens barrel 6 of the lens barrel body 10
Will be described. For convenience of explanation, the portion of the flange 7 and the positioning member 8 is referred to as a “base”, and the right side of the flange 7 and the positioning member 8 in FIGS.

On the inner side (inner circumference side) of the rear lens barrel 6, a cross-sectional shape (a cross-sectional shape in a direction perpendicular to the optical axis 4) is directed toward the opening 92 (the right side in FIGS. 1 and 2). Three holding surfaces 67, 68 and 69 are formed in steps, which spread in order. Each holding surface 67, 68 and 69
Are each a circle.

The inner diameter (diameter) of the holding surface 67 is larger than the inner diameter of the holding surface 68, and the inner diameter of the holding surface 68 is larger than the inner diameter of the holding surface 69.

The holding surfaces 67, 68 and 69 are formed so as to be parallel to the optical axis 4.

The outer peripheral surface 31 of the lens 31 is
1 and the outer peripheral surface 341 of the spacing ring 34 are in contact with each other and are held.

The outer peripheral surface 321 of the lens 32 abuts on the holding surface 68, and the lens 32 is held.

The outer peripheral surface 331 of the lens 33 and the outer peripheral surface 351 of the spacing ring 35 are in contact with the holding surface 69, and these are held.

The inside (inner peripheral side) of the rear lens barrel 6 is tapered so that the inner diameter gradually increases toward the opening 92 (toward the right side in FIGS. 1 and 2). Surfaces 61 and 62 are each formed. The tapered surface 61 is located at the tip end side of the holding surface 68 (opening 92 side), that is, between the holding surface 67 and the holding surface 68. The tapered surface 62 is located at the tip end side of the holding surface 69 (opening 92 side). That is, it is located between the holding surface 68 and the holding surface 69.

The lenses and the spacing ring are guided by the tapered surfaces 61 and 62 when the lens and the spacing ring are inserted from the opening 92 into the rear lens barrel 6. This makes it possible to easily and smoothly insert the lens and the interval ring into the rear lens barrel 6.

Assuming that the taper angle between the taper surfaces 61 and 62 (the angle between the taper surfaces 61 and 62 and the optical axis 4) is θ ₂ , the taper angle θ ₂ makes it possible to smoothly insert a lens or a spacing ring. Is set to the extent that

Specifically, for the same reason as the above-described taper angle θ ₁ , the taper angle θ ₂ is preferably about 20 to 60 °, and more preferably about 30 to 50 °.

The taper angle of the taper surface 61 and the taper angle of the taper surface 62 may be equal or different.

The taper angle θ _{2 of the} rear lens barrel 6 and the taper angle θ _{1 of} the front lens barrel 5 described above.
May be equal or different.

Further, when the lens 32 is held on the holding surface 68, the tapered surface 61
Is formed so as to contact a part (the base side) of the outer peripheral surface 321 of the main body.

When the lens 33 and the spacing ring 35 are held on the holding surface 69, the tapered surface 62 contacts the part (the base side) of the outer peripheral surface 351 of the spacing ring 35. Is formed.

A step portion 63 is formed outside (outer peripheral side) of the rear lens barrel 6. That is, the outer diameter (diameter) of the rear lens barrel 6 on the front end side of the step 63.
Is smaller than the outer diameter (diameter) of the step portion 63 and the front lens barrel 6 closer to the proximal end side than the step portion 63.

The outside (outer peripheral side) of the front end portion 64 of the rear lens barrel 6 is tapered. That is,
A tapered surface 65 is formed on the outer side of the distal end portion 64 of the rear lens barrel 6 so that the outer diameter gradually decreases toward the distal end (the right end surface in FIGS. 1 and 2).

The constituent material of the lens barrel main body 10 is not particularly limited, and examples thereof include a resin material and a metal material. Of these, a resin material is preferable. When the lens barrel main body 10 is formed of resin, the moldability is good, and therefore, even a relatively small and complicated shape can be easily formed.

The resin material constituting the lens barrel main body 10, in particular,
As described later, when the lens is fixed to the lens barrel main body 10 by heat staking, examples of resin materials include polycarbonate (PC) and polymethyl methacrylate (PMM).
A), polyethylene, polypropylene, polyvinyl chloride, polystyrene, acrylonitrile-butadiene-styrene (ABS) and the like. Further, a resin material having a heat deformation temperature of about 120 to 140 ° C. is preferable.

The method of forming the lens barrel body 10 is not particularly limited, but injection molding is preferred.

Further, the lenses 21, 2 and
The method of fixing 2, 23, 31, 32, and 33 is not particularly limited, and includes, for example, fixing by heat caulking, bonding by an adhesive, fixing by a screw-type press ring, and the like. From the viewpoint that the lens can be fixed in a short time, it is preferable to fix the lens by heat staking.

In this case, as described above, the lens barrel main body 10
Since the steps 53 and 63 are formed on the lens, when the lenses 54 are fixed by heating and deforming the tips 54 and 64, a projection (not shown) projecting outward is formed outside the tips 54 and 64. However, when the lens barrel 1 is assembled to a digital still camera body (not shown), the protrusion does not become an obstacle, and the lens barrel 1
Can be positioned with respect to the digital still camera body. Also, when the lens barrel 1 is installed on a jig for heat staking (not shown) during the heat staking, the projecting portion does not interfere with the jig for heat staking. Can be positioned with respect to

In the case where the constituent material of the lens barrel main body 10 is a metal material, a metal powder injection molding method (MIM: Metal
It is preferable to form the lens barrel body 10 by injection molding. When the lens barrel main body 10 is formed by the metal powder injection molding method, a relatively small and complicated shape can be easily formed. Hereinafter, this metal powder injection molding method will be briefly described.

First, a predetermined metal powder, a predetermined binder (organic binder) and, if necessary, a predetermined additive are prepared and kneaded to obtain a kneaded product (compound).

Using the obtained kneaded material, injection molding is performed to produce a molded body having the shape of the lens barrel body 10. The dimensions of the compact are determined in consideration of shrinkage due to later sintering.

Next, molds (inner mold and outer mold) are released from the molded body, and the molded body is subjected to a binder removal treatment.
This binder removal treatment is performed, for example, by performing a heat treatment under vacuum or reduced pressure.

Next, the molded body is sintered (fired), whereby a metal sintered body, that is, a metal lens barrel main body 10 is formed.
Is obtained. After the sintering, if necessary, the metal sintered body is subjected to secondary processing such as surface grinding and polishing.

When the constituent material of the lens barrel main body 10 is a metal material, the lens is fixed by, for example, a screw-type press ring.

Next, an example of a method for manufacturing the lens barrel 1 will be described. First, the lens barrel body 10 made of resin or metal shown in FIG. 2 is molded by, for example, injection molding. When the metal lens barrel main body 10 is molded, the above-described metal powder injection molding method is used.

When the lens barrel main body 10 is formed by injection molding, an inner die and an outer die (not shown) are released from the lens barrel main body 10, respectively. When releasing the inner mold, the inner mold is slid in the direction of the optical axis 4 and extracted from the lens barrel main body 10.

As described above, since the tapered surfaces 51, 52, 61 and 62 are formed inside the lens barrel main body 10, compared with the case where the tapered surfaces are not formed,
When the inner mold is released, the contact area (area of the holding surface) where the lens barrel body 10 and the inner mold rub against each other is small, and the frictional resistance is small.
Therefore, the release of the inner mold can be easily and smoothly performed.

The tapered surfaces 51, 52, 61 and 6
2, the holding surface is formed such that the holding surface is in contact with a part of the outer peripheral surface of the lens or the spacing ring, so that the area of the holding surface can be made smaller, thereby making it easier to release the inner mold. It can be performed smoothly.

Next, the lens 23, the spacing ring 25, the lens 22, the spacing ring 24 and the lens 21 are inserted (loaded) into the front lens barrel 5 through the opening 91 in this order.

In this case, since the lens 23 moves rightward in FIG. 1 along the tapered surface 52, the insertion of the lens 23 is made easy and smooth.

The spacing ring 25 and the lens 22
1 moves to the right in FIG. 1 along the tapered surface 51, so that the spacing ring 25 and the lens 22 can be easily and smoothly inserted.

The lens 23 has an end surface 23 in the non-effective area.
2 comes into contact with the surface 81 of the positioning member 8, whereby the lens 23 is positioned in the direction of the optical axis 4, and the outer peripheral surface 231 comes into contact with the holding surface 59, whereby the lens 23 is held.

The lens 22 and the spacing ring 25
Have outer peripheral surfaces 221 and 251 respectively.
And is thereby held.

The lens 21 and the spacing ring 24
Have outer peripheral surfaces 211 and 241 respectively
And is thereby held.

Next, the tip portion 54 is heated using, for example, a jig (not shown) for caulking. As a result, the distal end portion 54 is deformed, that is, the diameter is reduced to the maximum outer diameter of the lens 21 or less, and the lenses 21 to 23 are sandwiched and fixed between the deformed distal end portion 54 and the positioning member 8 (lens by heat swaging). 21 to 23 are fixed). The jig for heat staking is positioned in the optical axis 4 direction by the flange 7, and is positioned in the direction perpendicular to the optical axis 4 by the outer peripheral surface 66 near the flange 7 of the rear lens barrel 6. You.

Next, the lens 33, the spacing ring 35, the lens 32, the spacing ring 34, and the lens 31 are inserted (loaded) into the rear lens barrel 6 through the opening 92 in this order.

In this case, the lens 33 and the interval ring 3
1 move to the left in FIG. 1 along the tapered surface 62, so that the insertion of the lens 33 and the spacing ring 35 is facilitated and smooth.

Since the lens 32 moves to the left in FIG. 1 along the tapered surface 61, the insertion of the lens 32 is made easy and smooth.

In the lens 33, the curved convex surface 332 in the non-effective area abuts on the corner 82 of the positioning member 8, whereby the lens 33 is positioned in the optical axis 4 direction and the outer peripheral surface 331 is held on the holding surface 69. And is thereby held.

Further, the outer peripheral surface 351 of the spacing ring 35 abuts on the holding surface 69, and is held thereby.

Further, the lens 32 is held by the outer peripheral surface 321 abutting on the holding surface 68.

The lens 31 and the interval ring 34
Have outer peripheral surfaces 311 and 341 respectively,
And is thereby held.

Next, the tip portion 64 is heated using, for example, a jig (not shown) for caulking. As a result, the distal end portion 64 is deformed, that is, reduced in diameter to the maximum outer diameter of the lens 31 or less, and the lenses 31 to 33 are sandwiched and fixed between the deformed distal end portion 64 and the positioning member 8 (lens by heat swaging). 31 to 33 are fixed). The jig for heat staking is positioned in the direction of the optical axis 4 by the flange 7, and is positioned in the direction perpendicular to the optical axis 4 by the outer peripheral surface 56 near the flange 7 of the front lens barrel 5. You.

The lens barrel 1 manufactured as described above
Is mounted on a digital still camera body (not shown). At this time, the positioning of the digital still camera body in the optical axis 4 direction is performed by the flange 7, and the outer peripheral surface 56 of the front lens barrel 5 or the outer peripheral surface 66 of the rear lens barrel 6 is positioned on the optical axis 4. Vertical positioning is provided.

As described above, according to the lens barrel 1, the tapered surfaces 51, 52,
Since the projections 61 and 62 are formed, the release of the inner mold at the time of molding the lens barrel main body 10 can be performed easily and smoothly as compared with the case where the tapered surface is not formed.

Further, the tapered surface 5 is provided inside the lens barrel body 10.
1, 52, 61 and 62 are formed and function as guide means for guiding the lens and the spacing ring, so that the insertion of the lens and the spacing ring into the front lens barrel 5 and the rear group lens The insertion of the lens and the spacing ring into the lens barrel 6 can be performed easily and smoothly. That is, the lens barrel 1 can be easily assembled.

Next, a description will be given of a second embodiment of the lens barrel according to the present invention. FIG. 3 is a sectional view showing a second embodiment of the lens barrel of the present invention. The description of common points with the lens barrel 1 of the first embodiment will be omitted, and the main differences will be described.

As shown in the figure, the lens barrel 1a is the same as the lens barrel 1 shown in FIG.
3 is the same as the lens barrel 1 except that the spacing rings 34 and 35 are omitted.

That is, the lens barrel main body 10 of the lens barrel 1a
Has holding surfaces 57, 58 and 59 and tapered surfaces 51 and 52 only on one side (left side in FIG. 3) via the positioning member 8.

The inner diameter of the lens barrel main body 10 at these tapered surfaces 51 and 52 is equal to the tapered surfaces 51 and 5 respectively.
It gradually increases toward the opening 91 on the side where the 2 is located (the left side in FIG. 3).

The lenses 21 to 23 and the spacing rings 24 and 25 are fixed to only one side (the left side in FIG. 3) via the positioning member 8, that is, only to the lens barrel main body 10 on the left side in FIG. Is installed

According to the lens barrel 1a, similarly to the lens barrel 1, the tapered surfaces 51 and 52 are formed inside the lens barrel main body 10, so that the tapered surfaces are not formed. As compared with the case, the inner mold can be easily and smoothly released at the time of molding the lens barrel main body 10, and since the tapered surfaces 51 and 52 function as guide means for guiding the lens and the interval ring, the mirror Tube body 10
It is possible to easily and smoothly insert the lens and the interval ring into the inside.

The lens barrel of the present invention is not limited to the lens barrel of an imaging lens (photographing lens) of a digital still camera, but may be a video camera, a single-lens reflex camera (single-lens reflex camera), or a lens shutter type. The present invention can be applied to a lens barrel of an imaging lens (photographing lens) such as a camera (compact camera) and a lens barrel of various other optical devices.

The lens barrel of the present invention has been described based on the embodiments shown in the drawings. However, the present invention is not limited to these embodiments, and the structure of each part may be any structure having the same function. Can be replaced by

For example, in the above-described embodiment, the cross-sectional shape (cross-sectional shape in the direction perpendicular to the optical axis 4) of the holding surface is a circle, but the present invention is not limited to this, and may be, for example, an ellipse or a rectangle. And so on. The same applies to the shape of the outer periphery of the held lens and the spacing ring.

[0110]

As described above, according to the lens barrel of the present invention, the tapered surface having the function of guiding the lens inside the lens barrel body when the lens is inserted into the lens barrel body. In particular, since a tapered surface having a function of guiding the lens and the spacing ring (spacer) is formed, it is possible to easily and smoothly insert the lens and the spacing ring into the lens barrel main body.

Further, as compared with the case where the tapered surface is not formed, the mold (molding mold) can be easily and smoothly released at the time of molding the lens barrel main body.

Therefore, the lens barrel of the present invention is easy to manufacture, has good productivity, and is advantageous in mass production.

[Brief description of the drawings]

FIG. 1 is a sectional view showing a first embodiment when a lens barrel of the present invention is applied to a lens barrel of an imaging lens (photographing lens) of a digital still camera.

FIG. 2 is a sectional view showing a lens barrel main body of the lens barrel shown in FIG.

FIG. 3 is a sectional view showing a second embodiment of the lens barrel of the present invention.

FIG. 4 is a sectional view showing a conventional lens barrel.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1, 1a Lens barrel 10 Lens barrel main body 2 Front group lens 21-23 Lens 24, 25 Spacing ring 211-251 Outer peripheral surface 232 End face 3 Rear group lens 31-33 Lens 34, 35 Spacing ring 311-351 Outer peripheral surface 332 Curved Convex surface 4 Optical axis 5 Front-group lens barrel 51, 52 Tapered surface 53 Step 54 End portion 55 Tapered surface 56 Outer peripheral surface 57-59 Holding surface 6 Rear-group lens barrel 61, 62 Tapered surface 63 Step 64 End Part 65 Tapered surface 66 Outer peripheral surface 67 to 69 Holding surface 7 Flange 8 Positioning member 81 Surface 82 Corner 91, 92 Opening 100 Lens barrel 110 Lens barrel body 120 Lens 130 Spacing ring 140 Stepped part 141 End face 200 Optical axis

Claims (15)

[Claims] 1. A lens barrel having a hollow barrel body having an opening formed at least at one end, and at least one lens fixed in the barrel body, wherein a lens barrel is provided inside the barrel body. Abuts the outer peripheral surface of the lens,
A holding surface for holding the lens, having a function of expanding toward the opening side of the holding surface toward the opening side and guiding the lens when inserting the lens into the lens barrel main body from the opening; A lens barrel having a tapered surface. 2. The holding device according to claim 1, wherein a plurality of holding surfaces whose cross-sectional shape gradually expands toward the opening side are provided stepwise, and at least one lens is held on each holding surface. Lens barrel. 3. The tapered surface according to claim 1, wherein when the lens is held on the holding surface, the tapered surface is formed such that the holding surface contacts a part of the outer peripheral surface of the lens. The lens barrel described. 4. A hollow lens barrel body having an opening formed at least at one end, a plurality of lenses fixed in the lens barrel body, and an interval between the adjacent lenses fixed in the lens barrel body. A lens barrel having at least one spacing ring that defines: a holding surface that abuts an outer peripheral surface of the lens or the spacing ring inside the barrel body and holds the lens or the spacing ring. A function of guiding the lens or the spacing ring when the lens or the spacing ring is inserted into the lens barrel main body from the opening toward the opening side on the opening side of the holding surface. And a tapered surface having the same. 5. A plurality of holding surfaces having a cross-sectional shape gradually increasing toward the opening side are provided in a stepwise manner, and each holding surface holds at least one lens or a spacing ring. 5. The lens barrel according to 4. 6. The tapered surface is formed such that when the lens or the spacing ring is held on the holding surface, the holding surface contacts a part of the outer peripheral surface of the lens or the spacing ring. The lens barrel according to claim 4 or 5, wherein 7. The holding surface according to claim 1, wherein the holding surface is formed so as to be parallel to an optical axis of the lens when the lens is fixed in the lens barrel main body. Lens barrel. 8. The lens barrel according to claim 1, wherein a cross section of the holding surface is substantially circular. 9. The lens barrel according to claim 1, wherein a cross-sectional shape of the holding surface is substantially elliptical. 10. The lens barrel according to claim 1, wherein a cross-sectional shape of the holding surface is substantially rectangular. 11. The lens barrel according to claim 1, wherein the lens barrel body is made of metal. 12. The lens barrel according to claim 1, wherein said barrel body is made of resin. 13. The lens barrel according to claim 1, wherein said lens barrel body is formed by injection molding. 14. An angle θ between the tapered surface and an optical axis of the lens when the lens is fixed in the lens barrel main body is 20 to 60 °. The lens barrel described in Crab. 15. An angle θ between the tapered surface and an optical axis of the lens when the lens is fixed in the lens barrel main body is 30 to 50 °. The lens barrel described in Crab.