JP3486986B2 - Zoom lens barrel - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [0001] BACKGROUND OF THE INVENTION 1. Field of the Invention
To a zoom lens barrel to be moved to the zoom lens barrel. [0002] 2. Description of the Related Art As a conventional zoom lens barrel, for example,
The lens frame that holds the lens and the
It is rotatable and has a spiral cam groove around the optical axis.
And the cam groove fixed to the lens frame
The cam pin that fits into the
Some are provided with a game operation ring. This zoom lens
In the zoom lens barrel, the cam barrel is rotated by rotating the zoom operation ring.
Is rotated around the optical axis, and the cam groove
By rotating the cam pin in the direction parallel to the optical axis,
The lens frame and the lens are moved in the optical axis direction. [0003] That is, the lens frame and
The amount of movement of the lens in the optical axis direction is determined by the distance
Within the length of the spiral cam groove in the direction parallel to the optical axis
Is limited to [0004] SUMMARY OF THE INVENTION A zoom lens barrel is
In recent years, focal length displacement, that is, large zoom amount
Are required, but compact ones are also required.
ing. By the way, to increase the zoom amount,
Lens length in the direction parallel to the optical axis
The momentum must be increased. For this reason, compact
The length of the cam barrel in the optical axis direction is inevitable
Will be longer. That is, in the prior art, the zoom
If you try to increase the amount, you can make it more compact
There is a problem that can not be. [0005] The present invention addresses such conventional problems.
It was made by focusing on
Aim to provide a zoom lens barrel that does not increase in size
I do. [0006] [0007][Means for Solving the Problems] To achieve the purpose
NoLens barrel is a camera lens
The first lens group located farthest from the body
And a spiral lens for the first lens group around the optical axis.
Grooves and extend in the direction parallel to the optical axis.
Straight groove for the first lens group is formed and moved in the optical axis direction.
A movable cylindrical first lens group frame, and a plurality of the lenses
Of the group, closer to the camera body than the first lens group
Holding the disposed X-th lens group on the inner peripheral side,For the optical axis
And is disposed inside the first lens group frame,Optical axis
A cylindrical X-th lens group frame movable inThe first
A lens group frame and the X lens group frame,The light
A spiral cam groove for the X lens group is formed around the axis.
Circle that is rotatable about the optical axis and movable in the optical axis direction.
A cylindrical cam tube and a cam tube spiral around the optical axis
Grooves and extend in the direction parallel to the optical axis.
Cylindrical lens in which the straight groove for the X-th lens group is formed.
A fixed cylinder, one end of which is fixed to the cam cylinder and the other
The end is the cam groove for the first lens group of the first lens group frame.
Cam pin for the first lens group inserted in
Part is fixed to the cam barrel, and the other end of the cam barrel is
Cam pin for cam cylinder inserted in cam groove for cam cylinder
And one end is fixed to the X-th lens group frame,
The end of the cam barrel and the X-th lens group cam groove of the cam barrel.
The X-th lens group linearly inserted groove of the fixed cylinder
An X lens group cam pin, and one end of the cam pin for the X lens
The other end of the first lens group frame is fixed to the group frame.
Inserted into the straight groove for one lens group, The first lens group frame
Regulate the rotation ofAround the optical axis with the lens frame rotation regulating member
It is rotatably attached to the fixed cylinder and moves in the optical axis direction.
Rotating the cam pin for the cam cylinder without restricting
And a zoom operation ring.
It is. [0008] [Action] When the photographer rotates the zoom operation ring, the cam barrel
Rotational force is applied to the cam pin. This cam pipe for cam cylinder
Is inserted into the spiral cam cylinder cam groove around the optical axis.
The cam pin for the cam cylinder and the
The cam cylinder moves in the optical axis direction while rotating around the optical axis.
You. The cam cylinder rotates, and the laser fixed to this cam cylinder rotates.
When the lens cam pin rotates, a lens cam groove is formed.
Lens frame rotates in the optical axis direction while rotating around the optical axis.
Although it tries to move, rotation around the optical axis is restricted by the rotation
Because it is restricted by the material, it moves only in the optical axis direction. By the way, as described above, the cam cylinder is
The zoom operation ring also moves in the optical axis direction,
The movement distance of the lens frame due to the rotation of the ring
Of the cam barrel in the optical axis direction
It will be what you got. For this reason, the lens frame is
And the amount of movement more than the length in the direction parallel to
You. Therefore, without increasing the lens barrel length in the optical axis direction,
The zoom amount can be increased. [0010] DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a zoom lens barrel according to the present invention will be described.
This will be described with reference to the drawings. Zoom lens mirror of the present embodiment
The tube incorporates multiple lens groups and is attached to the camera body
It is something that can be done. In the following, for convenience of explanation
Above, the camera body side is the rear side, and the subject side is the front side. In this embodiment, the lens groups are shown in FIG.
As shown in FIG. 1, the first lens unit L1 and the
Two lens unit L2, third lens unit L3, fourth lens unit L4
There is. The zoom lens barrel of the present embodiment is shown in FIG.
Thus, the first lens group frame 10 holding the first lens group L1
And the second lens group frame 20 holding the second lens group L2
And a third lens group frame 30 holding the third lens group L3
And a fourth lens group frame 40 holding the fourth lens group L4
Is fixed to a camera body (not shown).
A fixed cylinder 50 and a plurality of cam grooves 62, 63, 64 are formed.
Cam cylinder 60 and zoom for zooming operation
An operation ring 80 and a focus for performing a focusing operation
Operation ring 90, first lens group frame 10, and focus operation
A cosmetic cylinder 70 for closing the gap with the ring 90 and a squeezing operation
Operating ring 100 for performing
Adjusts the amount of light guided to the camera body in conjunction with the rotation of the camera
The diaphragm mechanism 105 is provided. The fixed barrel 50 is attached to the camera body.
And a mounting portion 51 extending forward from the mounting portion 51.
And an inner cylindrical portion 52 having a cylindrical shape around the optical axis C,
Soon, extending forward from the mount portion 51 and centered on the optical axis C.
From the cylindrical intermediate tube portion 53 and the mount portion 51
And an outer cylindrical portion 57 having a cylindrical shape around the optical axis C.
And The outer tube portion 57 of the fixed tube 50 has
Penetrates from the inner circumference to the outer circumference, and extends in the direction around the optical axis.
The zoom operation ring insertion hole 58 is formed. Ma
In addition, the intermediate cylinder portion 53 of the fixed cylinder 50 is
A cam for a cam cylinder that penetrates the circumference and spirals around the optical axis
A groove 55 is formed. Further, the inner circumference of the intermediate cylindrical portion 53
On the side, a third lens group extending in a direction parallel to the optical axis C
A working straight groove 54 is formed. The cam cylinder 60 is formed by an intermediate cylinder 53 of the fixed cylinder 50.
Cam groove formed cylindrical along the inner peripheral surface of
From the front end of the tubular portion 61 and the intermediate tubular portion 53 of the fixed barrel 50,
And an outer cylindrical portion 65 formed in a cylindrical shape on the outer peripheral side of
are doing. The cam groove forming cylinder portion 61 of the cam cylinder 60 includes:
Spiral penetrates from the inner circumference to the outer circumference and around the optical axis
Cam groove 62 for the second lens group and a cam groove for the third lens group.
The groove 63 is formed. Further, the cam groove forming cylinder 6
1. Spiral around the optical axis so that it has a bottom on its inner circumference
A cam groove 64 for the fourth lens group is also formed. No.
Four lens group frame 40 holds and fixes fourth lens group L4.
Formed in a cylindrical shape along the inner peripheral surface of the inner tube portion 52 of the tube 50
From the lens frame 41 that is
The inner periphery of the cam groove forming cylinder portion 61 of the cam cylinder 60 that extends forward.
And a cylindrical portion 42 formed in a cylindrical shape along the surface.
ing. The third lens group frame 30 includes a third lens group L3.
The lens frame 31 for holding the lens and the aperture mechanism 105 are provided.
Diaphragm mechanism mounting portions 32, and the outer peripheral side thereof and the fourth
A cylindrical shape along the inner peripheral surface of the cylindrical portion 42 of the lens group frame 40
And a cylindrical portion 33 formed. Second lens group
The frame 20 includes a lens frame 21 that holds the second lens unit L2.
Along the inner peripheral surface of the cylindrical portion 33 of the third lens group frame 30 and
Cam pin fixing portion 2 extending rearward from lens frame portion 21
And 2. The first lens group frame 10 includes a first lens group L1.
From the lens frame 11 for holding the
A cylindrical inner cylindrical portion 1 extending rearward and having a cylindrical shape about the optical axis C.
2, similarly extending rearward from the lens frame 11 and having the optical axis C
And an outer cylindrical portion 15 having a cylindrical shape. No.
The inner cylindrical portion 12 and the outer cylindrical portion 15 of the one lens group frame 10 are
Position between the outer tubular portion 57 of the fixed barrel 50 and the intermediate tubular portion 53
are doing. The inner cylindrical portion 12 of the first lens group frame 10 has
Penetrates from the inner circumference to the outer circumference and spirals around the optical axis
When the first lens group cam groove 13 is formed,
A direction penetrating from the inside to the outside and parallel to the optical axis C
A straight groove 14 for the first lens group is formed.
You. The zoom operation ring 80 is an outer cylinder of the fixed cylinder 50.
An operation formed in a cylindrical shape along the outer peripheral surface of the portion 57
Along the outer periphery of the ring portion 81 and the intermediate tube portion 53 of the fixed tube 50
Inner cylindrical portion 82 formed in a cylindrical shape as shown in FIG.
0 through the zoom operation ring insertion hole 58 and the operation ring 81.
And a connecting portion 84 for connecting the side tubular portion 82 to the side cylindrical portion 82. Inside
The inner peripheral surface of the side cylindrical portion 82 extends in a direction parallel to the optical axis C.
A straight groove 83 for a cam cylinder is formed. focus
The operating ring 90 is substantially equal to the outer diameter of the outer cylindrical portion 57 of the fixed cylinder 50.
An operating ring portion 91 which is the same and is located in front of the outer cylindrical portion 57
And formed along the outer periphery of the intermediate cylinder portion 53 of the fixed cylinder 50.
Straight groove forming portion 92, operation ring portion 91 and straight groove shape
And a connecting portion 95 for connecting the forming portion 92 to the connecting portion 95. Go straight
The groove forming portion 92 has a fourth extending in a direction parallel to the optical axis C.
The rectilinear groove 93 for the two lens groups is formed around the optical axis.
Internal teeth 94 are formed. This internal tooth 94 is shown
Focussing on the camera body
Gear with the gear driven by the motor. Makeup tube 70
The outer peripheral surface of the operation ring 91 of the focus operation ring 90
Is in contact with the inner peripheral surface of the first lens group frame 10.
A shielding tubular portion 71 in contact with the outer peripheral surface of the side tubular portion 15;
The outer cylindrical portion 1 of the first lens group frame 10 is connected to the cylindrical portion 71.
5 and formed between the inner cylindrical portion 12.
And a connecting cylinder 72. Light is applied to the cam groove forming cylinder 61 of the cam cylinder 60.
The cam pipe for the cam cylinder should project in the direction away from the axis C.
5 is fixed. This cam cylinder cam pin 5 is
Of the fixed cylinder 50 located on the outer peripheral side of the
Cam cylinder cam groove 55 of the intermediate cylinder portion 53, and furthermore,
Inner cylindrical portion 82 of zoom operation ring 80 located on the outer peripheral side
Is inserted into the cam cylinder rectilinear groove 83. Because of this,
When the shadow person rotates the zoom operation ring 80, the fixed cylinder 50
Along the cam cylinder cam groove 55 formed,
The cam pin 5 rotates in the direction parallel to the optical axis C while rotating around the optical axis.
Go to As a result, the cam cylinder cam pin 5 is fixed.
The cam cylinder 60 is also rotated in the optical axis direction while rotating around the optical axis.
Moving. The cylindrical portion 33 of the third lens group frame 30 has an optical axis
C so that it protrudes in the direction away from C
The mupin 3 is fixed. Cam pin 3 for the third lens group
Is the third of the cam cylinder 60 located on the outer peripheral side of the cylinder section 33.
Lens group cam groove 63 and further positioned on the outer peripheral side thereof
Into the straight groove 54 for the third lens group of the fixed barrel 50
Have been. For this reason, the cam cylinder 60 rotates,
The third lens group cam groove 63 formed at 60 rotates.
Then, the third lens group cam pin 3 is aligned with the cam groove 63.
Move in a direction parallel to the optical axis C while rotating around the optical axis.
To try. However, the third lens group cam pin 3
It is also inserted into a straight groove 54 extending in a direction parallel to the axis C.
Therefore, rotation about the optical axis is performed by the straight groove 54.
It is restricted and moves only in a direction parallel to the optical axis C. This result
As a result, the third lens to which the third lens group cam pin 3 is fixed is attached.
The lens group frame 30 does not rotate around the optical axis,
Move in the direction. Note that the third lens group cam pin 3
The intermediate tubular portion 53 of the fixed barrel 50 and the third
The cam barrel 60 is provided between the lens group frame 30 and the barrel 33.
The cylindrical portion 4 of the fourth lens group frame 40 in addition to the cylindrical portion 61
2 is located, the cam pin 3 for the third lens group
The fourth lens group frame 40 does not move with the movement
The third lens group is provided on the cylindrical portion 42 of the fourth lens group frame 40.
Cam pin 3 penetrates and is long in the direction parallel to the optical axis C.
A relief hole 44 for mupin is formed. The cylindrical portion 42 of the fourth lens group frame 40 has
A fourth lens protruding in the direction away from the optical axis C on the outer peripheral side
A cam pin part 4 for a screw group is formed. For the fourth lens group
The cam pin portion 4 is a cam located on the outer peripheral side of the cylindrical portion 42.
It is inserted into the cam groove 64 for the fourth lens group of the cylinder 60.
For this reason, the cam cylinder 60 rotates and the cam cylinder 60 is formed.
When the fourth lens group cam groove 64 is rotated, the fourth lens group
The lens group cam pin portion 4 is rotated along the cam groove 64 along the optical axis.
Trying to move in a direction parallel to the optical axis C while rotating
You. Therefore, the fourth lens group cam pin portion 4 is formed.
The fourth lens group frame 40, which rotates around the optical axis,
Try to move in the axial direction. However, the fourth lens group frame 4
0 is a cam pin relief extending in a direction parallel to the optical axis C.
A third lens that moves only in a direction parallel to the optical axis C
Because the cam pin 3 for the lens group is inserted,
Cannot rotate. Therefore, the fourth lens group frame 40
Also move in the optical axis direction without rotating around the optical axis.
You. The outer cylinder 65 of the cam cylinder 60 has a first lens
The cam pin 1 for a screw group is fixed. This first lens group
Cam pin 1 is located outside the outer cylindrical portion 65.
Cam for the first lens group of the inner cylindrical portion 12 of the one lens group frame 10
It is inserted in the groove 13. Also does not rotate around the optical axis
At the front end of the cylindrical portion 33 of the third lens group frame 30, a rotation
The control member 6 is fixed. This rotation restricting member 6 is
Straight forward for the first lens group of the inner cylindrical portion 12 of one lens group frame 10
Inserted into the groove 14, the tip of which is connected to the connecting cylinder
72. Therefore, the cam cylinder 60 rotates.
The first lens group camera fixed to the cam barrel 60
When the mupin 1 rotates, the first lens group frame 10 is rotated about the optical axis.
Although it tries to move in the optical axis direction while rotating
Since rotation around the axis is regulated by the rotation regulating member 6, the optical axis
Move only in direction. Further, the makeup tube 70 is arranged in the optical axis direction.
Only the third lens group frame 30 and the rotation restricting member 6 that move.
The third lens group frame 30 in the optical axis direction.
Along with the third lens group frame 30 in the optical axis direction.
Move in the direction. Cam pin fixing portion 22 of second lens group frame 20
, The second lens group cam pin 2 is fixed. This
The cam pin 2 of the cam barrel 60 is provided with a cam groove 6 for the second lens group.
2 and a rectilinear groove 93 for the second lens group of the focus operation ring 90
And has been inserted into. Therefore, the cam cylinder 60 rotates.
The cam for the second lens group formed on the cam barrel 60
When the groove 62 rotates, the camera lens for the second lens group
Muppin 2 moves in the optical axis direction while rotating around the optical axis.
However, the optical axis is increased by the rectilinear groove 93 for the second lens group.
Since movement in the direction parallel to C is restricted,
Move only in the line direction. As a result, this second lens group
The second lens group frame 20 to which the cam pin 2 is fixed is
When the cam barrel 60 rotates, it does not rotate around the optical axis.
Move in the optical axis direction. Note that the focus operation ring 90
Is the rotation of the cam barrel 60, and the cam pin 2 for the second lens group
You have to regulate trying to rotate around the optical axis
The cam pin 2 for the second lens group rotates around the optical axis.
The focus control ring 90 is rotated even if I try
So that a constant frictional force acts between the fixed cylinder 50
Has become. The second lens group frame 20 is focused
It also moves in the optical axis direction by rotating the operation ring 90. You
That is, focusing by the photographer or focusing motor
When the waste operating ring 90 is turned, the cam pin for the second lens group
2 is a rectilinear groove for the second lens group of the focus operation ring 90.
A rotational force is applied from 93. This cam for the second lens group
The pin 2 is also provided on the cam groove 62 for the second lens group of the cam barrel 60.
This cam is inserted when rotational force is applied.
Along the groove 62, while rotating around the optical axis,
Move in the direction. As a result, the focus operation ring 90 rotates.
When rotated, the second lens group cam pin 2 is fixed.
The second lens group frame 20 rotates in the optical axis direction while rotating around the optical axis.
Go to Note that the cam pins 2 for the second lens group are used to
Fixing the cam pins of the second lens group frame 20 connected to each other
Between the portion 22 and the straight groove forming portion 92 of the focus operation ring 90.
In addition to the cam groove forming cylinder portion 61 of the cam cylinder 60,
The cylindrical portion 33 of the lens group frame 30 and the cylindrical portion of the fourth lens group frame 40
42 and an intermediate cylinder portion 53 of the fixed cylinder 50 are arranged. This
Rotation of the second lens group cam pin 2 around the optical axis.
Movement in a direction parallel to the optical axis C and the third lens group.
The frame 30, the fourth lens group frame 40, and the fixed barrel 50 are affected.
The cylindrical portion 33 of the third lens group frame 30 and the fourth lens
To the cylinder 42 of the screw group frame 40 and the intermediate cylinder 53 of the fixed cylinder 50.
Are the cams that avoid the cam pins 2 for the second lens group, respectively.
Pin escape cutouts 34, 43, 56 are formed. What
The cam grooves 13, 6 are provided on the outer periphery of each of the cam pins 1, 2,.
To improve the slidability with 2, ... a cylindrical collar
Is provided. In the above, the zoom lens mirror of this embodiment has been described.
The configuration and local operation of the cylinder have been described.
The overall operation of the zoom lens barrel according to the embodiment will be described.
You. To set a specific magnification, use the zoom control.
The ring making 80 is rotated around the optical axis. The zoom operation ring 80
When rotated, as described above, the operation ring 80
Rotational force is applied to the cam pin 5 and the cam pin cam pin
5 extends along the cam cylinder cam groove 55 of the fixed cylinder 50 to rotate the optical axis.
While rotating, it moves in a direction parallel to the optical axis C. this
Therefore, the cam cylinder to which the cam cylinder cam pin 5 is fixed
60 also moves in the optical axis direction while rotating around the optical axis. Here, the maximum displacement of the cam barrel 60 in the direction of the optical axis.
The moving distance, that is, as shown in FIG.
The length in the direction parallel to the optical axis of No. 5 is L. Also, in the same figure
As shown in the figure, the first lens group camera is in a direction parallel to the optical axis C.
Length of the groove 13, length of the cam groove for the second lens group,
Length of cam groove 63 for lens group, cam groove 64 for fourth lens group
Is the length of l₁, L_Two+ B, l_Three, L_FourToss
You. , And l_TwoIs necessary for the rotation of the zoom ring 80.
The required length, B is the rotation of the focus operation ring 90 (however,
Length required for rotation during wide-angle focusing)
That's it. When the cam barrel 60 rotates, as described above,
The first lens group frame 10 is provided with a cam pin 1 for the first lens group.
The second lens group frame 20 moves in the optical axis direction by rotation,
Movement in the optical axis direction by rotation of the cam groove 62 for the two lens groups
The third lens group frame 30 is provided with a cam groove 63 for the third lens group.
The fourth lens group frame 40 moves in the optical axis direction by rotation,
Movement in the optical axis direction by rotation of the cam groove 64 for the four lens groups.
You. At this time, each lens group frame 1 due to the rotation of the cam barrel 60
The maximum movement distance in the optical axis direction of 0, 20, 30, and 40 is
Length of the cam grooves 13, 62, 63, 64 in the direction parallel to the optical axis
Sa₁, L_Two, L_Three, L_Fourbe equivalent to. However, the second lens group frame
With respect to 20, the cam groove 62 for the second lens group
Length in the direction parallel to the optical axis C (l_Two+ B) zoom
Length required for operation l_TwoIs the maximum moving distance. The cam cylinder 60 is provided with a zoom operation ring 80.
Is moved in the optical axis direction by the rotation of.
Movement of each lens group frame 10, 20, 30, 40 by rotation
The distance is the sum of the moving distance of the cam barrel 60 in the optical axis direction.
You. That is, each lens by the rotation of the zoom operation ring 80
The maximum movement distance of the group frames 10, 20, 30, 40 is shown in FIG.
As shown, the maximum movement distance due to the rotation of the cam barrel 60 is:
The maximum moving distance L of the cam cylinder 60 in the optical axis direction is added.
Becomes Therefore, the maximum movement distance of the first lens group frame 10 is
(L + 1₁), The maximum movement distance of the second lens group frame 20 is
(L-1_Two), The maximum moving distance of the third lens group frame 30 (L
+ L_Three) Is the maximum moving distance (L + 1) of the fourth lens group frame._Four)
Becomes FIG. 2 shows the upper half from the center line (= optical axis C).
The minute indicates the lens barrel at maximum telephoto, and the lower half is the mirror at maximum wide angle.
The tube is shown. Further, in FIG.
Is also drawn on the upper half side from the center line,
The position of the rotation regulating member 6 and the makeup cylinder 70 at a distance,
It is drawn for convenience to make the connection relationship easy to understand.
Things. As described above, in this embodiment, each lens group frame
10, 20, 30, and 40 rotate around the optical axis of the cam barrel 60.
In addition to the rotation, the cam barrel 60 moves in the optical axis direction.
The light of each cam groove 13, 62, 63, 64
It is possible to secure a moving amount longer than the length in the direction parallel to the axis C.
it can. That is, each lens group frame 10, 20, 30, 4
0 is the displacement of the cam barrel 60 in the direction parallel to the optical axis C or more.
Momentum can be secured. Therefore, it is parallel to the optical axis C.
Increase the zoom amount without increasing the lens barrel length in the direction
can do. In this embodiment, this cam
Movement by rotation of the barrel 60 around the optical axis and the optical axis of the cam barrel 60
The two-stage movement method in combination with the movement in the direction,
Although adopted for all lens groups, each lens group
The first lens group that has the largest amount of movement in the optical axis direction
Adopting for L1 enjoys its effects most
Can be In the relative relationship between the cam pin and the cam groove,
If the cam groove rotates around the optical axis,
To move in a direction parallel to the optical axis C without rotating in the
It is necessary to regulate mupin. In this embodiment,
The second lens unit L2 and the third lens
Lens group L3 and fourth lens group L4,
0, a straight groove 54 for the third lens group is formed.
By inserting the third lens group cam pin 3 into the
The straightness of the cam pin 3 against the rotation of the groove 63 is secured.
You. However, the maximum movement of each lens group in the optical axis direction
Is fixed to the first lens unit L1 having the largest
When the rectilinear grooves formed in the fixed cylinder 50 are used,
Becomes longer. Therefore, the first lens unit L1
In this embodiment, the difference in the moving distance in the optical axis direction is
Although they are both moving in the same direction along the optical axis,
The one linear group groove 10 and the third lens group frame 30
4 and 6 that fit into the rectilinear groove are provided respectively.
The absolute required length of the straight groove is substantially reduced by the movement of 10, 30
The size of the lens barrel is reduced. Specifically
A first lens group straight-moving groove 14 is formed in the first lens group frame 10.
The optical axis is formed along with the movement of the first lens group frame 10.
Lens group frame that moves in the direction and does not rotate around the optical axis
30 is provided with a rotation restricting member 6 fitted into the rectilinear groove 14.
Relative straightness of the cam pin 1 to the cam groove 13,
Here, the straight movement of the cam groove 13 with respect to the rotation of the cam pin 1
Is secured. In this embodiment, as described above, the first
Since the moving amount of the lens group frame 10 is large, the first lens group
In the state where the frame 10 has moved forward (the maximum telephoto state)
Of the first lens group frame 10
Focus operation ring 9 which is adjacent to and does not move in the optical axis direction
If there is no gap between the focus control
It is necessary to lengthen the ring making 90 or the fixed cylinder 50 in the optical axis direction.
You. However, this increases the size of the lens barrel. There
In this embodiment, the first lens group frame 10 and the focus operation
A makeup tube 70 is interposed between the ring 90 and the first lens
The third lens group frame 30 that moves with the movement of the group frame 10
By moving the makeup cylinder 70 more, the first lens group frame 1
The gap between 0 and the focus operation ring 90 is closed.
More specifically, as shown in FIG.
0 is the rearmost position (maximum wide-angle state)
Over between lens group frame 10 and focus operation ring 90
-Focus on makeup tube 70 when wrapping
It is arranged so as to overlap with the operation ring 90,
Cosmetic cylinder 70 is connected to third lens group frame 30 by rotation restricting member 6
Then, the cosmetic tube 70 is moved together with the third lens group frame 30 in the optical axis direction.
It is configured to move. In this embodiment, the makeup tube 70 and the third
The first lens group frame 10 is connected to the lens group frame 30.
If the cosmetic tube 70 can be moved with the movement of
Any structure may be used. For example, the cosmetic tube 70 and the fourth lens
The lens group frame 40 is connected to the fourth lens group frame 40 with pins or the like.
In both cases, the cosmetic tube 70 may be moved. However,
In the case of the present embodiment, the second lens group frame 20 is
Moves independently, unlike other lens group frames.
Then, the second lens group frame 20 and the cosmetic tube 70 are connected.
It is not preferable. As shown in FIG. 2, it is assumed that the maximum telephoto state is used.
And a rear end 15a of the outer cylindrical portion 15 of the first lens group frame 10.
And a front end 91a of an operation ring 91 of the focus operation ring 90.
In the optical axis direction of the cosmetic cylinder 70 necessary to close the gap between
Let the length be ld. In the maximum wide-angle state, the first lens group frame 1
0 and focus operation ring 90 overlap
In this case, as described above, the makeup tube 70 is
It completely overlaps with the waste operating ring 90. Zoo
The first lens group frame 10 forward by rotating the
Moves and focuses on the rear end 15a of the first lens group frame 10.
When a gap is formed between the operation ring 90 and the front end 91a,
With the movement of the first lens group frame 10, the makeup tube 70 also moves.
I do. This moves with the movement of the first lens group frame 10.
The third lens group frame 30 and the cosmetic cylinder 70
This is because they are connected by the material 6. Transfer of this makeup tube 70
The movement causes the rear end 15a of the first lens group frame 10 to be in focus.
The gap between the operation ring 90 and the front end 91a is closed.
By the way, if there is no makeup tube 70,
Thus, the focus operation ring 90 or the fixed cylinder 50 is equivalent to ld.
It is necessary to increase the length in the optical axis direction. However, in this embodiment,
At the maximum wide angle, the focus control ring 90 is completely off.
-The cosmetic tube 70 that was wrapped is the first lens group frame 1
0, the rear end 15a of the first lens group frame 10
A gap is formed between the front end 91a of the focusing operation ring 90 and
When it comes, it moves with it and closes this gap.
Move the focus operation ring 90 or the fixed cylinder 50 by ld toward the optical axis.
There is no need to lengthen it in the opposite direction, and the lens barrel does not become large. By rotating the zoom operation ring 80, a desired image can be taken.
Once the shadow magnification is obtained, perform the focusing operation.
Then, the focus operation ring 90 is rotated. This file
The rotation of the focus operation ring 90 can be performed manually,
Drive the focusing motor provided in the camera body.
It is possible even if it moves. This focus operation ring 90 rotates
Then, as described above, the cam pin 2 for the second lens group
Is a rectilinear groove 93 for the second lens group of the focus operation ring 90.
Receives rotational force from This cam pin 2 is
Since it is inserted in the cam groove 62 for the second lens group,
When a rotational force is received from the focus operating ring 90, the light rotates around the optical axis.
It moves in a direction parallel to the optical axis C while rotating. Therefore, this
The second lens group frame 20 to which the cam pins 2 are fixed also has an optical axis.
It moves around the optical axis while rotating around. By the way, the second lens group cam pins 2 and
The cam groove 62 for the second lens group can be used only during zooming.
It also operates during focusing. So,
Second lens group during zooming and focusing
Between the cam pin 2 for cam and the cam groove 62 for the second lens group
Will be briefly described with reference to FIG. Zoom operation ring
Assuming that the rotation angle of 80 is θz, the cam groove for the second lens group
Relative rotation angle of the second lens group cam pin 2 with respect to 62
Is also θz. At this time, the cam pin 2 for the second lens group
The amount of movement in the direction parallel to the optical axis C is l_TwoIt is. Also hope
Second lens unit L2 necessary for focusing at a distance
In the direction of the optical axis from the telephoto end T to the wide-angle end W.
A (<l_Two). Focus on wide-angle
The amount of movement of the second lens unit L2 in the optical axis direction required for
B in the direction away from the wide-angle end W to the telephoto end T
You. Therefore, the cam pin 2 by focusing during telephoto
The range of movement is the cam pin 2 due to the rotation of the zoom operation ring 80.
Focusing at wide angle, though within the moving range of
The range of movement of the cam pin 2 depends on the rotation of the zoom operation ring 80.
Is out of the moving range of the cam pin 2 due to Because of this, the second
The length of the lens group cam groove 62 in the direction parallel to the optical axis C is
Length l required for rotation of zoom operation ring 80_TwoTo, wide
Length required for rotation of focus operation ring 90 at the time of corner
B is added. In this embodiment, the wide-angle
Of the second lens unit L2 necessary for focusing at the time
The amount of movement B in the optical axis direction and the amount of movement A during telephoto are:
Is different, but improves the operational feeling of the focus operation ring 90.
Is necessary for focusing at wide angle.
And the relative rotation angle θw thereof at telephoto.
The rotation angle θt is the same as the cam for the second lens group.
The groove 62 is formed. [0033] According to the present invention, the cam barrel is provided around the optical axis.
The lens frame moves in the optical axis direction while rotating, and the lens frame rotates
In addition to the movement of the cam barrel,
Movement is also added, so there is no need to enlarge the lens barrel itself.
To increase the amount of lens movement, that is, the amount of zoom.
Can be.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view (maximum wide-angle state) of a zoom lens barrel according to an embodiment of the present invention. FIG. 2 is a cross-sectional view of a zoom lens barrel according to an embodiment of the present invention (the upper half is in a maximum telephoto state, and the lower half is in a maximum wide-angle state).
It is. FIG. 3 is an explanatory diagram showing a relationship between a cam pin and a cam groove according to one embodiment of the present invention. [Description of Signs] 1 ... Cam pin for first lens group, 2 ... Cam pin for second lens group, 3 ... Cam pin for third lens group, 4 ... Cam pin portion for fourth lens group, 5 ... Cam pin for cam cylinder, 6 ... Rotation regulating member, 10 ... First lens group frame, 13 ... Cam groove for first lens group, 14 ... Straight groove for first lens group, 20 ... Second lens group frame, 30 ... Third lens group frame, 40 … The fourth lens group frame, 5
0: fixed cylinder, 51: mounting part, 54: straight groove for third lens group, 55: cam groove for cam cylinder, 60: cam cylinder, 62 ...
Cam groove for the second lens group, 63 ... cam groove for the third lens group,
Reference numeral 64 denotes a cam groove for the fourth lens group, 70 denotes a cosmetic tube, 80 denotes a zoom operation ring, and 90 denotes a focus operation ring.

Claims (1)

(57) [Claim 1] In a zoom lens barrel attached to a camera body and moving a plurality of lens groups in the direction of an optical axis, the zoom lens barrel includes, among the plurality of lens groups, The first lens group disposed at a far position is held on the inner peripheral side, and a spiral first lens group cam groove is formed around the optical axis, and the first lens group extends in a direction parallel to the optical axis. A straight lens groove for one lens group is formed, a cylindrical first lens group frame movable in the optical axis direction, and a plurality of the lens groups, which are arranged closer to the camera body than the first lens group. The X-th lens group is held on the inner peripheral side, and is located inside the first lens group frame with respect to the optical axis.
A cylindrical X-th lens group frame that is disposed and movable in the optical axis direction, and is disposed between the first lens group frame and the X lens group frame.
A spiral cam groove for the X-th lens group is formed around the optical axis, and a cylindrical cam cylinder rotatable about the optical axis and movable in the optical axis direction; A cylindrical fixed cylinder in which a cam groove for a cam cylinder is formed and a rectilinear groove for the X-th lens group extending in a direction parallel to the optical axis; A first lens group cam pin fixed and the other end inserted into the first lens group cam groove of the first lens group frame; one end fixed to the cam barrel; A cam cylinder cam pin having an end inserted into the cam cylinder cam groove of the fixed cylinder, one end fixed to the X-th lens group frame, and the other end being the The X-lens inserted into the X lens group cam groove and the X-lens group rectilinear groove of the fixed barrel. A cam pin for group lens is secured to one end said first X lens group frame, being the other end is inserted into the first lens group linear groove of the first lens group frame, the first lens group A lens frame rotation restricting member that restricts rotation of the frame, a zoom operation ring that is attached to the fixed cylinder so as to be rotatable around the optical axis, and rotates the cam pin cam pin without restricting movement in the optical axis direction. A zoom lens barrel comprising: