JPH06102445A - Lens barrel for camera - Google Patents

Abstract

PURPOSE:To reduce stray light which reaches an image pickup element after being reflected on a lens barrel internal surface regardless of whether the incidence angle is large or small by using a light shield plate in a specific saw-tooth wave shape and setting a proper reflecting surface corresponding to the incidence angle of light incident on the lens barrel. CONSTITUTION:The light shield plate 19 is fitted to the internal surface bottom part of a main lens barrel 5 with an adhesive by engaging a claw piece 20 with a through hole 21, and plural reflecting surfaces 22 which are sectioned in a saw-tooth shape are formed on its top surface. On a subject side X, theta1<theta2 holds, where theta1 and theta2 are the base angles of a triangle forming a saw tooth. Consequently, a reflecting surface for the incident light is a 1st surface 23 and on the subject side X where much light A having a small angle of incidence is made incident, the light is reflected to the opposite lens barrel internal surface side. On the opposite side X' from the subject side, on the other hand, theta1>theta2 holds. Namely, when the same saw teeth with the subject side X are formed at this position, light B which has a large angle of incidence is reflected by the 1st surface 23 and travels toward the opposite side X' from the subject side and is further reflected by the 1st surface 23 after being reflected by a 2nd surface 24.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens barrel used in an image pickup device such as a video camera, and more particularly to a light shield plate provided inside the lens barrel to prevent stray light.

[0002]

2. Description of the Related Art For example, in a video camera, an inner focus type zoom lens mirror for focusing, correcting, and forming an image by moving a focusing master lens group and a zoom variator lens group along an optical axis. The cylinder is known. Further, in this type of lens barrel, there is also known a so-called autofocus system in which focusing, correction, and image formation of a read image are automatically adjusted.

A lens barrel used in a conventional zoom / inner focus type image pickup apparatus is a fourth group lens having a first group and a third group lens as a fixed system and a second group and a fourth group as a movable system. In addition to being composed of a system, for example, a focusing function, a correction function, and an image forming function are given to the movable fourth group lens to automatically control the moving positions of the second group lens and the fourth group lens. There is.

In recent years, image pickup devices have been required to be further miniaturized for convenience of carrying and using.

[0005]

By the way, the light from the subject side passes through the fixed lens group and the movable lens group along the optical axis of the lens barrel, and then reaches the CCD, which is the image pickup device, etc. Part of the light may be reflected inside the lens barrel and then pass through the lens group to reach the image sensor. Although such light is called “stray light”, it becomes another image superimposed on the target captured image, which causes a decrease in the sharpness of the captured image. Therefore, in the conventional lens barrel for a camera, a light-shielding plate is provided inside the lens barrel to reduce stray light reflected inside the lens barrel and reaching the image sensor as much as possible.

However, with the downsizing of the image pickup device, the lens barrel is inevitably shortened, and the distance between the optical axis and the inner surface of the barrel is shortened, so that stray light cannot be completely prevented. It was in a very difficult situation.

The present invention has been made in view of the above problems of the prior art, and an object thereof is to suppress stray light even if the lens barrel is downsized.

[0008]

In order to achieve the above object, in a lens barrel for a camera of the present invention, a lens group composed of a fixed lens group and / or a movable lens group is arranged along the optical axis. A lens barrel for a camera disposed inside, which is a light-shielding plate disposed in the lens barrel and having a sawtooth-shaped cross section in the optical axis direction, the triangle plate forming one sawtooth. From the subject side to θ ₁ and θ ₂ respectively.
In this case, the light-shielding plate is characterized by θ ₁ <θ ₂ on the subject side and θ ₁ > θ ₂ on the non-subject side.

It is preferable that among the bottom angles of the substantially triangular shape forming the one sawtooth, the bottom angles on the subject side are larger on the side opposite to the subject than on the subject side.

Further, a surface substantially parallel to the optical axis may be formed between the substantially triangles forming the one saw tooth.

Further, it is preferable that a range satisfying θ ₁ <θ ₂ with respect to the base angle of the substantially triangular shape forming the one saw tooth is 1/2 or more of the entire length from the object side.

[0012]

The light incident from the subject into the lens barrel has a different reflection angle on the inner surface of the lens barrel depending on the incident angle, but the incident angle is small on the subject side even on the inner surface of the lens barrel.
On the contrary, it is understood that the incident angle is large on the side opposite to the subject on the inner surface of the lens barrel (see FIG. 5).

In the lens barrel of the present invention, a shading plate having a sawtooth-shaped cross section in the optical axis direction is provided in order to reduce stray light that is reflected on the inner surface of the barrel and then reaches the image sensor regardless of the incident angle. It is arranged on the inner surface of the lens barrel.

In the light shielding plate according to the present invention, the base angles of the substantially triangular shape forming one saw tooth are respectively θ ₁ and θ ₂ from the subject side.
Then, on the subject side, θ ₁ <θ _2, and on the non-subject side, θ ₁ > θ ₂ .

That is, on the object side where a large amount of light (A) having a small incident angle is reflected, the reflecting surface of the light shielding plate is set to be substantially parallel to the optical axis. On the non-subject side where a large amount of large light (B) is reflected, the reflection surface of the light shielding plate is set to be nearly vertical to the optical axis.

As described above, since the light-shielding plate according to the present invention has the appropriate reflecting surface set according to the incident angle of the light incident on the lens barrel, the inner surface of the lens barrel is protected regardless of the incident angle. Stray light that reaches the image sensor after being reflected can be totally reduced.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1 is an exploded perspective view showing an overall configuration of a lens barrel according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing a main lens barrel and a light shielding plate of the same embodiment, and FIG. 3 is an A- of FIG. FIG. 4 is a sectional view taken along the line A, FIG. 4 is a sectional view showing another embodiment of the present invention, and is a sectional view corresponding to the sectional view taken along the line AA in FIG. 2, and FIG. It is a conceptual diagram which shows a relationship.

As shown in FIG. 1, the lens barrel according to this embodiment has a main lens barrel 5 and a rear lens barrel 8 in the front-back direction of the optical axis.
The first lens group 1, the second lens group 2, the third lens group 3, and the fourth lens group 4 are sequentially arranged in these two lens barrels along the optical axis I-I '. ing. A CCD (charge couple device, not shown) as an image pickup device is arranged at the focal position of the fourth lens group 4.

The first lens group 1 is a focusing level group,
It is composed of a plurality of lenses, for example, three lenses, and is fixed in the main lens barrel 5. The second lens group 2 is a zoom (variable magnification) lens group, is composed of a plurality of lenses, for example, three, and is supported by the two guide shafts 6 and 7 and the optical axis. It is provided so as to be movable along the II 'direction.

The third lens group 3 is a lens group for correction,
It is composed of a single lens or a plurality of lenses, for example, one lens, and is fixed in the rear barrel 8. Further, the fourth lens group 4 is a focusing lens group, and a plurality of lenses,
For example, it is composed of two sheets, and two guide shafts 1
It is provided so as to be movable along the optical axis II ′ while being supported by Nos. 2 and 13.

Further, an iris 9 is provided between the fixed first lens group 1 and third lens group 3 while being sandwiched between the main lens barrel 5 and the rear lens barrel 8. The iris 8 is driven up and down by the iris motor 10. “11” is fixed to the main lens barrel 5,
Stepping motor for moving the second lens group 2, "1
8 ”is a voice coil type linear motor for moving the fourth lens group 4.

The VC type linear motor 18 is a linear DC motor including a yoke 17 and a permanent magnet 16 as a stator and a mover 15 around which a coil 14 is wound. The yoke 17 has four yokes. A back yoke to which each permanent magnet is attached and a center yoke formed in an annular shape at the center of this back yoke are integrally formed, and a magnetic field is generated by the permanent magnet 16.

On the other hand, the mover 15 to which the fourth group lens 4 is attached is inserted into the lens holder of the third group lens 3 and is installed between the main lens barrel 5 and the rear lens barrel 8. It is supported by the guide shafts 12 and 13 and is slidable along the optical axis I-I '. The mover 15 is inserted through the center yoke with a slight gap, and the current direction of the coil 14 wound around the outer circumference is switched, whereby the mover 15,
That is, the fourth lens group 4 can move forward and backward along the center yoke.

In particular, in the lens barrel of this embodiment, the drive center axis of the mover 15 and the optical axis II 'are aligned.
As a result, the thrust of the VC linear motor 18 is directly transmitted to the mover 15, that is, the fourth lens group 4, so that the center of the fourth lens group 4 does not deviate from the optical axis I-I '. The fourth group lens 4 moves smoothly and at high speed.

In the lens barrel of this embodiment, a light-shielding plate 19 is attached to the inner surface of the main lens barrel 5 in order to reduce so-called stray light that enters from the object side X and is reflected by the inner surface of the lens barrel and then reaches the image pickup device. ing.

The light-shielding plate 19 according to this embodiment is attached to the bottom of the inner surface of the main lens barrel 5 by using a fixing means such as an adhesive after engaging the claw piece 20 with the through hole 21. Also,
A plurality of reflecting surfaces 22 are formed on the surface so that the cross section in the optical axis direction has a sawtooth shape. In the light-shielding plate 19 of the present embodiment, this reflecting surface is formed as follows. I am configuring.

First, as shown in FIG. 3B, when the base angles of a substantially triangular shape forming one sawtooth are numbered from the subject side to be θ ₁ and θ ₂ , respectively, the subject side X Then, the triangle is set to satisfy θ ₁ <θ ₂ . Under this condition, the reflecting surface for the incident light becomes the first surface 23 on the subject side, and on the subject side X where a relatively large amount of the light A having a small incident angle is incident, these lights are directed to the subject side X or the inner surface of the opposite barrel. Can be reflected to the side.

On the contrary, θ ₁ > θ ₂ on the side X ′ opposite to the subject. This is because the light B having a large incident angle cannot be reflected by the first surface 23 formed on the subject side X, and this light travels to the non-subject side X ′. The light B having a large incident angle that is not reflected on the subject side X is reflected on the second surface 24 satisfying the condition of θ ₁ > θ ₂ and then further reflected on the first surface 23 as shown in FIG. 3 (A). It is reflected, and as a result, it is possible to reduce the stray light that reaches the non-subject side X ′, that is, the image sensor side.

Regarding the formation range of the subject side X satisfying the condition of θ ₁ <θ ₂ and the non-subject side X ′ satisfying the condition of θ ₁ > θ ₂ , the environment such as the diameter and length of the lens barrel is used. Although it can be appropriately selected depending on the conditions, in the light shielding plate 19 according to the present embodiment, as shown in FIG. 3A, θ ₁ <θ ₂
The subject side X satisfying the condition is set to be 1/2 or more of the total length (a> b in FIG. 3A). This allows
Since the light A having a small incident angle can be reflected, it can be said that it is preferable to be applied to a lens barrel having a reduced size.

Incidentally, on the subject side X, θ ₁ <θ
_When the condition of ₂ is satisfied and θ ₁ is increased, the reflection surface that is the first surface 23 rises, so that it is possible to reflect the light A having a particularly small incident angle to the subject side X. _{When 1} is increased, the surface of the shading plate 19 has an optical axis I.
It may approach −I ′ and adversely affect the incident light from the object to be imaged. Moreover, the apex (ridge line portion) of the first surface 23 that constitutes the reflecting surface cannot be an acute angle due to the molding technique, and actually becomes a curved surface to some extent. Due to the interposition of such a curved surface, the light reflected by the curved surface is directed toward the image pickup element side, which is also unfavorable.

Therefore, in such a case, as shown in FIG. 4, the surfaces 25 substantially parallel to the optical axis II 'should be formed between the substantially triangles forming one saw tooth. preferable. By forming such a flat surface 25, the light A having a small incident angle is reflected to the facing lens barrel inner surface side or the subject side X, and the light B having a large incident angle is reflected to the facing lens barrel inner surface side. In addition, since the apex (ridge line portion) of the reflecting surface can be separated from the optical axis II ′, stray light can be reduced overall.

It should be noted that the embodiments described above are described for facilitating the understanding of the present invention, and not for limiting the present invention. Therefore, each element disclosed in the above embodiments is intended to include all design changes and equivalents within the technical scope of the present invention.

For example, in the above-described embodiment, the lens group is composed of the two fixed lens groups and the two movable lens groups, but the structure of the lens group provided in the lens barrel is not limited to the structure. . On the subject side X, θ ₁ <
theta ₂ conditions, in order to counter-object side X 'in θ _1> θ ₂ conditions, the surface shape of the light shielding plate may be gradually inflection a.

[0034]

As described above, according to the present invention, the reflecting surface formed on the surface of the light-shielding plate is formed on the optical axis of the reflecting surface of the light-shielding plate on the object side where a large amount of light having a small incident angle is reflected. Is set to be nearly parallel to, on the other hand, on the side opposite to the subject where a large amount of light with a large incident angle is reflected,
The light-reflecting surface of the light-shielding plate is set to be nearly vertical to the optical axis, and the appropriate reflecting surface is set according to the incident angle of the light entering the lens barrel, regardless of the incident angle. Stray light that reaches the image sensor after being reflected on the inner surface of the lens barrel can be totally reduced. As a result, it is possible to prevent the sharpness of the captured image from being deteriorated due to stray light even if the lens barrel is downsized.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a configuration of a lens barrel according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view showing a main lens barrel and a light shielding plate of the same embodiment.

3 is a sectional view taken along the line AA of FIG.

FIG. 4 is a cross-sectional view showing another embodiment of the present invention, which is a cross-sectional view corresponding to the cross-sectional view taken along the line AA of FIG.

FIG. 5 is a conceptual diagram showing a relationship between incident light and reflected light.

[Explanation of symbols]

 I-I '... Optical axis 2 ... 2nd group lens (movable lens group) 4 ... 4th group lens (movable lens group) 5 ... Main lens barrel 8 ... Rear lens barrel 19 ... Light-shielding plate 23 ... 1st surface 24 ... Second surface 25 ... Flat surface

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[Procedure amendment]

[Submission date] December 11, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction content]

[Document name] Statement

Title of the invention Lens barrel for camera

[Claims]

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens barrel used in an image pickup device such as a video camera, and more particularly to a light shield plate provided inside the lens barrel to prevent stray light.

[0002]

2. Description of the Related Art For example, in a video camera, an inner focus type zoom lens mirror for focusing, correcting, and forming an image by moving a focusing master lens group and a zoom variator lens group along an optical axis. The cylinder is known. Further, in this type of lens barrel, there is also known a so-called autofocus system in which focusing, correction, and image formation of a read image are automatically adjusted.

A lens barrel used in a conventional zoom / inner focus type image pickup apparatus is a fourth group lens having a first group and a third group lens as a fixed system and a second group and a fourth group as a movable system. In addition to being composed of a system, for example, a focusing function, a correction function, and an image forming function are given to the movable fourth group lens to automatically control the moving positions of the second group lens and the fourth group lens. There is.

In recent years, image pickup devices have been required to be further miniaturized for convenience of carrying and using.

[0005]

By the way, the light from the subject side passes through the fixed lens group and the movable lens group along the optical axis of the lens barrel, and then reaches the CCD, which is the image pickup device, etc. Part of the light may be reflected inside the lens barrel and then pass through the lens group to reach the image sensor. Although such light is called “stray light”, it becomes another image superimposed on the target captured image, which causes a decrease in the sharpness of the captured image. Therefore, in the conventional lens barrel for a camera, a light-shielding plate is provided inside the lens barrel to reduce stray light reflected inside the lens barrel and reaching the image sensor as much as possible.

However, with the downsizing of the image pickup device, the lens barrel is inevitably shortened, and the distance between the optical axis and the inner surface of the barrel is shortened, so that stray light cannot be completely prevented. It was in a very difficult situation.

The present invention has been made in view of the above problems of the prior art, and an object thereof is to suppress stray light even if the lens barrel is downsized.

[0008]

In order to achieve the above object, in a lens barrel for a camera of the present invention, a lens group composed of a fixed lens group and / or a movable lens group is arranged along the optical axis. A lens barrel for a camera disposed inside, which is a light-shielding plate disposed in the lens barrel and having a sawtooth-shaped cross section in the optical axis direction, the triangle plate forming one sawtooth. From the subject side to θ ₁ and θ ₂ respectively.
In this case, the light-shielding plate is characterized by θ ₁ <θ ₂ on the subject side and θ ₁ > θ ₂ on the non-subject side.

It is preferable that, among the base angles of the substantially triangular shape forming the one sawteeth, the angle θ ₁ is larger on the side opposite to the subject than on the subject side.

Further, a surface substantially parallel to the optical axis may be formed between the substantially triangles forming the one saw tooth.

Further, it is preferable that a range satisfying θ ₁ <θ ₂ with respect to the base angle of the substantially triangular shape forming the one saw tooth is 1/2 or more of the entire length from the object side.

[0012]

The light incident from the subject into the lens barrel has a different reflection angle on the inner surface of the lens barrel depending on the incident angle, but the incident angle is small on the subject side even on the inner surface of the lens barrel.
On the contrary, it is understood that the incident angle is large on the side opposite to the subject on the inner surface of the lens barrel (see FIG. 5).

In the lens barrel of the present invention, a shading plate having a sawtooth-shaped cross section in the optical axis direction is provided in order to reduce stray light that is reflected on the inner surface of the barrel and then reaches the image sensor regardless of the incident angle. It is arranged on the inner surface of the lens barrel.

In the light shielding plate according to the present invention, the base angles of the substantially triangular shape forming one saw tooth are respectively θ ₁ and θ ₂ from the subject side.
Then, on the subject side, θ ₁ <θ _2, and on the non-subject side, θ ₁ > θ ₂ .

That is, on the subject side where a large amount of light (A) with a small incident angle is reflected, the reflecting surface of the light shielding plate is projected.
On the other hand, on the side opposite to the subject side where a large amount of light (B) having a large incident angle is reflected, the reflecting surface of the light shielding plate is set on the side facing the body side .

As described above, since the light-shielding plate according to the present invention has the appropriate reflecting surface set according to the incident angle of the light incident on the lens barrel, the inner surface of the lens barrel is protected regardless of the incident angle. Stray light that reaches the image sensor after being reflected can be totally reduced.

[0017]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. 1 is an exploded perspective view showing an overall configuration of a lens barrel according to an embodiment of the present invention, FIG. 2 is an exploded perspective view showing a main lens barrel and a light shielding plate of the same embodiment, and FIG. 3 is an A- of FIG. FIG. 4 is a sectional view taken along the line A, FIG. 4 is a sectional view showing another embodiment of the present invention, and is a sectional view corresponding to the sectional view taken along the line AA in FIG. 2, and FIG. It is a conceptual diagram which shows a relationship.

As shown in FIG. 1, the lens barrel according to this embodiment includes a main lens barrel 5 and a rear lens barrel 8 in the longitudinal direction of the optical axis.
The first lens group 1, the second lens group 2, the third lens group 3, and the fourth lens group 4 are sequentially arranged in these two lens barrels along the optical axis I-I '. ing. A CCD (charge couple device, not shown) as an image pickup device is arranged at the focal position of the fourth lens group 4.

[0019] The first lens group 1, the several sheets doublet lens, for example, is composed of three lenses, it is fixed to the main barrel 5. The second lens group 2 is a zoom (variable magnification) lens group, is composed of a plurality of lenses, for example, three, and is supported by the two guide shafts 6 and 7 and the optical axis. I
It is provided so as to be movable along the −I ′ direction.

The third lens group 3 is a lens group for correction,
It is composed of a single lens or a plurality of lenses, for example, one lens, and is fixed in the rear barrel 8. Further, the fourth lens group 4 is a focusing lens group, and a plurality of lenses,
For example, it is composed of two sheets, and two guide shafts 1
It is provided so as to be movable along the optical axis II ′ while being supported by Nos. 2 and 13.

Further, an iris 9 is provided between the fixed first lens group 1 and third lens group 3 while being sandwiched between the main lens barrel 5 and the rear lens barrel 8. The iris 8 is driven up and down by the iris motor 10. “11” is fixed to the main lens barrel 5,
Stepping motor for moving the second lens group 2, "1
8 ”is a voice coil type linear motor for moving the fourth lens group 4.

The VC type linear motor 18 is a linear DC motor including a yoke 17 and a permanent magnet 16 as a stator and a mover 15 around which a coil 14 is wound. The yoke 17 has four yokes. A back yoke to which each permanent magnet is attached and a center yoke formed in an annular shape at the center of this back yoke are integrally formed, and a magnetic field is generated by the permanent magnet 16.

On the other hand, the mover 15 to which the fourth group lens 4 is attached is inserted into the lens holder of the third group lens 3 and is installed between the main lens barrel 5 and the rear lens barrel 8. It is supported by the guide shafts 12 and 13 and is slidable along the optical axis I-I '. The mover 15 is inserted through the center yoke with a slight gap, and the current direction of the coil 14 wound around the outer circumference is switched, whereby the mover 15,
That is, the fourth lens group 4 can move forward and backward along the center yoke.

In particular, in the lens barrel of this embodiment, the drive center axis of the mover 15 and the optical axis II 'are aligned.
As a result, the thrust of the VC linear motor 18 is directly transmitted to the mover 15, that is, the fourth lens group 4, so that the center of the fourth lens group 4 does not deviate from the optical axis I-I '. The fourth group lens 4 moves smoothly and at high speed.

In the lens barrel of this embodiment, a light-shielding plate 19 is attached to the inner surface of the main lens barrel 5 in order to reduce so-called stray light that enters from the object side X and is reflected by the inner surface of the lens barrel and then reaches the image pickup device. ing.

The light-shielding plate 19 according to this embodiment is attached to the bottom of the inner surface of the main lens barrel 5 by using a fixing means such as an adhesive after engaging the claw piece 20 with the through hole 21. Also,
A plurality of reflecting surfaces 22 are formed on the surface so that the cross section in the optical axis direction has a sawtooth shape. In the light-shielding plate 19 of the present embodiment, this reflecting surface is formed as follows. I am configuring.

First, as shown in FIG. 3B, when the base angles of a substantially triangular shape forming one sawtooth are numbered from the subject side to be θ ₁ and θ ₂ , respectively, the subject side X Then, the triangle is set to satisfy θ ₁ <θ ₂ . Under this condition, the reflecting surface for the incident light becomes the first surface 23 on the subject side, and on the subject side X where a relatively large amount of the light A having a small incident angle is incident, these lights are directed to the subject side X or the inner surface of the opposite barrel. Can be reflected to the side.

On the contrary, θ ₁ > θ ₂ on the side X ′ opposite to the subject. This is formed on the subject side X in this part
This is because when the sawtooth shape is similar to the above, the light B having a large incident angle is reflected on the first surface 23, and this light is directed to the anti-subject side X ′. The light B having a large incident angle which is not incident on the subject side X is represented by θ as shown in FIG.
After being reflected by the second surface 24 satisfying the condition of ₁ > θ ₂ , it is further reflected by the first surface 23, and as a result, stray light reaching the non-subject side X ′, that is, the image sensor side can be reduced. It will be possible.

Regarding the formation range of the subject side X satisfying the condition of θ ₁ <θ ₂ and the non-subject side X ′ satisfying the condition of θ ₁ > θ ₂ , the environment such as the diameter and length of the lens barrel is used. Although it can be appropriately selected depending on the conditions, in the light shielding plate 19 according to the present embodiment, as shown in FIG. 3A, θ ₁ <θ ₂
The subject side X satisfying the condition is set to be 1/2 or more of the total length (a> b in FIG. 3A). This allows
Since the light A having a small incident angle can be reflected, it can be said that it is preferable to be applied to a lens barrel having a reduced size.

Incidentally, on the subject side X, θ ₁ <θ
_When the condition of ₂ is satisfied and θ ₁ is increased, the reflection surface that is the first surface 23 rises, so that it is possible to reflect the light A having a particularly small incident angle to the subject side X. _{When 1} is increased, the surface of the shading plate 19 has an optical axis I.
It will close the -I ', moreover, the vertex of the first surface 23 constituting the reflective surface (ridge portion), the molding techniques, can not at an acute angle, such curved so actually becomes somewhat curved The light reflected by the curved surface is directed toward the image pickup device side due to the interposition, which is also unfavorable.

Therefore, in such a case, as shown in FIG. 4, the surfaces 25 substantially parallel to the optical axis II 'should be formed between the substantially triangles forming one saw tooth. preferable. By forming such flat 25, the photographic
The light A having a small incident angle on the body side X is reflected by the inner surface of the lens barrel or the object side X facing the body side X, and is also on the side opposite to the object side.
The light B having a large incident angle at X'is reflected on the inner surface of the opposing lens barrel, and the apex (ridge line portion) of the reflecting surface can be separated from the optical axis II '. ,
Stray light can be reduced overall.

It should be noted that the embodiments described above are described for facilitating the understanding of the present invention, and not for limiting the present invention. Therefore, each element disclosed in the above embodiments is intended to include all design changes and equivalents within the technical scope of the present invention.

For example, in the above-mentioned embodiment, the lens group is composed of the two fixed lens groups and the two movable lens groups, but the structure of the lens group provided in the lens barrel is particularly limited. There is no such thing. On the subject side X, θ ₁ <θ
_In order to satisfy the condition of _{2 and} the condition of θ ₁ > θ ₂ on the anti-subject side X ′, the surface shape of the light shielding plate may be gradually changed.

[0034]

According to the present invention as described above, according to the present invention, a reflecting surface formed on the surface of the light shielding plate, the subject side of the light incidence angle is small is reflected in large amount, the reflecting surface of the light shielding plate object scene
Set it so that it faces the body, and on the other hand, on the side opposite to the subject where a large amount of light with a large incident angle is reflected,
Since the reflecting surface is set to face the non-subject side and the appropriate reflecting surface is set according to the incident angle of the light entering the lens barrel, it reflects on the inner surface of the barrel regardless of the incident angle. It is possible to reduce stray light that reaches the image pickup element as a whole. As a result, it is possible to prevent the sharpness of the captured image from being deteriorated due to stray light even if the lens barrel is downsized.

[Brief description of drawings]

FIG. 1 is an exploded perspective view showing a configuration of a lens barrel according to an embodiment of the present invention.

FIG. 2 is an exploded perspective view showing a main lens barrel and a light shielding plate of the same embodiment.

3 is a sectional view taken along the line AA of FIG.

FIG. 4 is a cross-sectional view showing another embodiment of the present invention, which is a cross-sectional view corresponding to the cross-sectional view taken along the line AA of FIG.

FIG. 5 is a conceptual diagram showing a relationship between incident light and reflected light.

[Explanation of Codes] II ′ ... Optical axis 2 ... Second group lens (movable lens group) 4 ... Fourth group lens (movable lens group) 5 ... Main lens barrel 8 ... Rear lens barrel 19 ... Light-shielding plate 23 ... First surface 24 ... Second surface 25 ... Plane

Claims (4)

[Claims] 1. A lens barrel for a camera, wherein a lens group consisting of a fixed lens group and / or a movable lens group is arranged in the lens barrel along the optical axis, and is arranged in the lens barrel. A light-shielding plate having a sawtooth-shaped cross section in the optical axis direction, wherein when the base angles of the substantially triangular shape forming the one sawtooth are θ ₁ and θ ₂ from the subject side, respectively, _A lens barrel for a camera, which has a light-shielding plate in which ₁ <θ ₂ and θ ₁ > θ ₂ on the side opposite to the subject. 2. The base angle on the subject side among the base angles of the substantially triangular shape forming the one saw tooth is larger on the side opposite to the subject than on the subject side. Lens barrel for camera. 3. The lens barrel for a camera according to claim 1, wherein a surface substantially parallel to the optical axis is provided between the substantially triangles forming the one saw tooth. 4. The base angle of the substantially triangular shape forming the one sawteeth is such that the range satisfying θ ₁ <θ ₂ is 1/2 or more of the total length from the subject side. The lens barrel for a camera according to any one of 3 above.