JP2901239B2 - camera - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention provides switching of focal length and focus adjustment using a motor or the like.
The camera is designed to be able to do this.
To the first cylindrical mounting frame and the viewfinder optical system
A cylindrical second mounting frame, and a driving device for the photographing optical system
The present invention relates to a camera having a structure. [Prior art] In the above-described camera, generally, a photographic optical system is used.
Drive mechanism for performing focus adjustment, etc.
Housed around or above the lens installation space, or
Divided into the space on both sides of the lens installation space
Configuration is taken. Conventionally, in this type of camera, this drive mechanism itself has
Or in a split configuration, how
The linking part is a shooting optical system and a viewfinder optical system.
Was arranged between. In particular, the focal length of the shooting optical system
To a camera that is configured to be able to change
The focal length change operation to the viewfinder optical system.
It is also desirable to communicate. Therefore, the shooting optical system and
At least one drive mechanism between the two
It has been considered reasonable to arrange the parts. [Problems to be Solved by the Invention] However, in the case of the above-described conventional configuration, the driving mechanism
At least a part of the photographic optical system and the finder optical system
In general, both optical systems are housed separately
If the first mounting frame and the second mounting frame are separate
I had no choice. Therefore, these two mounting frames
Make the optical axes of both optical systems parallel when finding
Therefore, it is necessary to adjust the mounting position between the mounting frames.
Was. In particular, the focal length of the shooting optics can be changed
And change the focal length.
For cameras that are also designed to transmit to the under optics
If you don't adjust both positions accurately,
Range that can be seen with the viewfinder as the focal length changes
It is possible that the shift between the
It has become difficult for shadow people to know the exact shooting range.
I will. Also, consider forming these two mounting frames integrally.
However, in this case, the above-described drive mechanism is incorporated therein.
The workability deteriorates because it must be inserted. In view of the above circumstances, an object of the present invention is to reduce workability.
Optics and viewfinder optics easily
In order to be able to be assembled. [Means for Solving the Problems] The characteristic configuration of the camera according to the present invention is
Cylindrical first mounting frame and a viewfinder optical system.
A second mounting frame having a cylindrical shape, and a driving mechanism for a photographing optical system.
Camera, the second mounting frame is above the first mounting frame.
Holding part that is formed integrally with the
Is formed on the first mounting frame to form a drive mechanism.
Are installed along the outer surface of the first mounting frame, and
From the drive mechanism to the internal photographing optical system through the first mounting frame
A mechanism for transmitting the driving force is installed.
The first frame is an interlocking mechanism that extends from the camera to the finder optical system.
And extend along the outer surface of the second mounting frame.
The finder optical system is driven by the moving mechanism.
That is being done. [Operation] In other words, the photographing optical system and viewfinder optical system inside the mounting frame
Is the drive mechanism for driving the system outside the mounting frame?
The drive mechanism design becomes easier and the drive mechanism
External work is mainly used for the
A second mounting frame for the optical system, and a second mounting frame for the photographing optical system.
The first mounting frame is connected to the drive mechanism to reduce the workability.
It can be integrally molded without coming. Therefore, taking
The relative positions of the shadow optical system and the viewfinder optical system
The placement accuracy is improved. Further, the driving mechanism of the photographing optical system is the first mounting frame.
Since it is held by the holding part molded in
Drive mechanism can be mounted with high precision
The stop position of the shooting optical system with respect to the position where the
It is possible to be accurate. Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the following embodiment, the standard shooting and the telephoto shooting are selectively performed.
An example of a camera with a switchable focal length
A description will be given of a focus switching camera as an example. The present invention
Is to switch the focal length in more steps than otherwise
Can be applied to, for example, a three-focus switching camera
Noh. FIG. 2 is a top view of the camera according to the present invention.
You. (1) is a release button, and (2) is a shooting light described later.
A switching device for switching the focal length of the school system (PS)
Button for switching the focal length. Each time the focal length switching button (2) is pressed,
The focal length of the shooting optical system (PS) is standard (for example, 50 mm)
(Hereinafter, this state is referred to as a standard shooting state)
And longer than the standard (for example, 70mm)
This state is referred to as a telephoto shooting state).
It is configured to take over. Note that, instead of the focal length switching button (2), the 30th
As shown in the figure, a switching focus
A distance switching lever (2 ') may be provided. In this configuration
The focal length switching lever (2 ') to the <TELE> position.
To the telephoto shooting mode, and set the <STND>
Set to the standard shooting condition,
By setting the camera to the <OFF> position,
The supply of electric power to the minute is stopped. The shooting optical system (PS) consists of a camera body (3) and a camera
Housed in the fixed barrel (3A) connected to the body (3)
From the tip of the fixed lens barrel (3A).
The tip of the main lens frame (4b) held by the lock (4)
Is out. As will be described in detail later, the main lens frame (4b)
In the quasi-photographing state, it is at the position shown by the broken line
In the position shown by the two-dot chain line in the figure.
You. Fig. 1 shows the photographing optical system (PS) and the funder optics
This shows the overall configuration of the system (FS). (4) in the figure is a shutter block in a standard shooting state.
And the main lens (4a) used both for telephoto shooting and
This main lens (4a), which is the front lens of the photographic optical system (PS), is
Main lens frame (4b) and shutter (shown
) Are integrated. And this
The shutter block (4) is fixed to the fixed base plate (5).
A pair of shafts (5X) and (5Y) move in the optical axis (L) direction.
Ride freely and supported by spring (6)
It is urged forward. The shutter block (4) has a flat surface on the optical axis (L).
Axis (X ₁ ) Supports a support lever (7A) that can rotate around
And inserted into the shooting optical path only during telephoto shooting.
Sub lens (7) is attached. And this
A fixed base that is integrally molded while covering the sub lens (7)
At the lower half (5A) of the plate (5), which is the first cylindrical mounting frame
The movable lens barrel (8) that can be slid and fitted inside is a shutter
To the optical axis (L).
And can be urged forward by the spring (6).
Have been. As shown in FIGS. 3 (a) and (b) and FIG.
The support lever (7A) for the secondary lens (7) is
The auxiliary lens (7) is inserted into the photographing optical path by the plug (9).
It is urged to the side to be. Of the shaft of the support lever (7A)
A gear portion (7a) is formed on the outer peripheral surface. And this
Having a gear portion (10a) that meshes with the gear portion (7a)
Coaxial core (X _Two ) Fan-shaped rotating around
An operation member (11) is provided. As shown in FIGS. 5 and 6, this operating member (11)
Has an oval section (11a) having an oval cross section.
Core (11a) rotates relative to round hole (10b) of gear member (10)
Insert it freely, and then insert the oval hole (12
a) is fitted so that relative rotation is impossible. And figure 5
As shown in FIG. 7 and the arm (12) of the intermediate member (12),
b) and the arm (10b) of the gear member (10) are overlapped,
Coil springs with both ends bent with the
A ring (13) is provided. As shown in FIG. 4, the operating member (11) is turned clockwise.
The intermediate member (12) and the intermediate member (1
Gear member (10) that is spring-linked to 2) rotates in the same direction
It is in the position. And the gear part of the gear member (10)
(10a) engages with the gear (7a) of the support lever (7A)
And the support lever against the urging force of the spring (9).
(7A) is in the position rotated counterclockwise, and the secondary lens
(7) is retired from the photographing optical path. At this time, the operation member (11), which is the operation side member, is
Operated gear connected to the support lever (7A) of the lens (7)
The spring member is connected to the gear member (10) which is the side member.
The secondary lens (7).
After Luda (7B) abuts the upper frame (8a) of the movable barrel (8)
Also, the operation to the side that retreats the sub lens (7) is allowed.
The secondary lens (7) has retired from the optical path
Of the operating member (11) while minimizing the space for
The operation amount can be set large, and the auxiliary lens (7)
For manufacturing errors and mounting errors of the components that make up and
Regardless, always pull the secondary lens (7) out of the shooting optical path.
You can get rid of it. As shown in FIGS. 5 and 10, this operating member (11)
Faces outside from the upper surface of the movable lens barrel (8). Soshi
As shown in FIGS. 8 and 10, the shutter block
This operation unit is moved in accordance with the movement of the optical fiber (4) in the optical axis (L) direction.
By contacting the operation protrusion (11b) of the material (11),
Cam surface (5a) for retracting the lens (7) from the imaging optical path
Are integrally provided inside the fixed base plate (5). In the standard shooting state, FIGS. 3 (a) and 9
(A) and, as shown in FIG. 10, the operation member (11)
The cam (5a) of the fixed base plate (5)
The flat part (5x) is in contact. At this time, the operating member (1
1) The shaft core (X _Two ) The most rotated clockwise posture around
, Against the urging force of the spring (9)
(7) is at a position retracted from the photographing optical path. The flat part (5x) of the cam surface (5a) is parallel to the optical axis (L)
And is formed with a certain length. That is, standard shooting
In the state, to perform the focus adjustment operation as described later
Lights the movable barrel (8) together with the shutter block (4)
When moving back and forth in the axis (L) direction,
(7) should be kept retired from the imaging optical path.
Has been established. The cam surface (5a) follows the flat part (5x), followed by the optical axis (L)
With a curved portion (5y) curved away from
I have. From the standard shooting condition described above, the shutter block
(4) and the movable lens barrel (8) are both along the optical axis (L).
The spring (9) by moving it forward.
3 (a), (b) and clockwise in FIG.
Counterclockwise in the figure in conjunction with the support lever (7A) urged to rotate
The operation protrusion (11) of the operation member (11)
b) shows the flatness of the cam surface (5a) as shown in FIG.
Detach from the abutment with the tongue (5x) and abut the bend (5y)
Become so. As a result, the support lever (7A)
The sub lens (7) is rotated clockwise by the urging force,
It is inserted in the road and planted in the shutter block (4).
It is positioned in contact with the pin (4b). This allows
The telephoto shooting state appears. This state is shown in FIG.
(B) and FIG. 9 (c). At this time, the operation protrusion (11b) of the operation member (11)
After detaching from the cam surface (5a) of the fixed base plate (5),
Shutter block to perform focus adjustment operation
(4) and the movable barrel (8) are moved back and forth in the optical axis (L) direction.
Even if it is moved, it does not come into contact with the cam surface (5a). That is, telephoto
In the shooting state, insert the sub lens (7) into the shooting optical path
It is configured to keep it as it is. That is, the support lever (7A) of the auxiliary lens (7), the spring
(9), shutter block (4) pin (4b),
Gear member (10), intermediate member (12), operation member (11), carp
Lespring (13), upper frame (8a) of movable lens barrel (8), and
And the cam surface (5a) of the fixed base plate (5)
(7) Change the position between the protruding position and the retreat position and fix
It constitutes a leaving means. Returning to FIG. 1 and continuing the description, the side of the fixed base plate (5)
A motor (M) is incorporated in the unit. Also fixed
Further below the lower half (5A) of the base plate (5), a gear base plate
(23) is provided and screwed to the fixed base plate (5).
You. On this gear base plate (23), the shaft core (X _Five ) Spin around
From the existing feed cam (14) and the motor (M)
Gear train (1) that transmits rotational driving force to the feed cam (14)
5) At the ratchet part (14a) on the outer peripheral surface of the feeding cam (14)
A stop lever (16) having an engaging pawl (16a),
Magnet that controls the operation of the stop lever (16)
(17) and a photographing optical system for the feeding cam (14)
From the feed lever (18), which is the cam follower on the (PS) side
A drive mechanism for the photographic optical system (PS)
You. The stop lever (16) is _Three ) Rotation around
And this stop lever
(16) in the counterclockwise direction in FIG.
a) engages with the ratchet portion (14a) of the extension cam (14)
A spring (19) biasing in the direction is provided. Ma
In addition, the mounting shaft (X _Three ) To
And the magnet (1) on the end opposite to the nail (16a).
An iron piece (20) to be adsorbed to 7) is attached. Then, the magnet (17) is operated and the iron piece (2
0), the claw (16) of the stop lever (16)
a) and the ratchet portion (14a) of the feeding cam (14)
Disabled, allowing the rotation of the feed cam (14),
By stopping the operation of the net (17), the spring
With the biasing force of (15), move the stop lever (16) counterclockwise.
Rotate the pawl (16a) into the ratchet of the feeding cam (14).
Engagement of the cam (14a) to prohibit the rotation of the feeding cam (14)
It is configured to be able to. Also, as shown in FIG. 11, the feeding lever (18) has
On its lower surface, a support lever attached to the gear base plate (23)
-The first pin (18a) pivotally supported by the pivot portion (21a) of (21)
In addition, two pins (hereinafter referred to as a second pin and a third pin, respectively)
(18b) and (18c) are planted. Also,
The axis (X _Four ) Can rotate around
A fourth pin is provided on the upper surface on the free end side of the feeding lever (18).
(18d) has been planted. The second pin (18b) and the third pin (18c) are respectively
A pair of cam surfaces (hereinafter, referred to as inner surfaces) of the feeding cam (14) are formed.
(Hereinafter, referred to as a first cam surface and a second cam surface) (14b), (14
It is configured to abut on each of c). Also,
The four pins (18d) are formed on the lower surface of the movable barrel (8).
A long hole extending in a direction perpendicular to the optical axis (L) (shown in FIG. 2)
(No) (8a) is engaged. That is, the feeding lever (18) is connected to the second pin (18
b) Alternatively, the third pin (18c) is
Abut the cam surfaces (14b) and (14c) to maintain the posture.
The movable barrel, which is the holding frame for the photographic optical system (PS)
The fourth pin (18d) engaging with (8) is
Shutter block urged forward by (6)
(4) A configuration that regulates movement and performs positioning.
Have been. The operation will be described later. Then, as described earlier, in the telephoto shooting state,
Imaging optics attached to the shutter block (4)
Main lens that holds the main lens (4a), the front lens of the system (PS)
As shown by the two-dot chain line in FIG.
It is in the protruding position that protrudes from the body (3).
Now, as described above, the position of the shutter block (4)
The setting is a shutter block with the main lens (4a)
A spring (6) for urging (4) forward,
Retreats the main lens (4a) against the bias of the ring (6)
A mechanism for sliding movement to the mounting side, that is, a motor (M),
Gear train (15), feeding cam (14) and feeding lever (1
8) is performed by the interlocking operation mechanism. Then, a delivery cam which is an operation side member of the operation mechanism
Between (14) and the extension lever (18) that is the operated side member
Next, as shown in FIG. 11, a pair of cams of the delivery cam (14)
A pair of feeding levers (18) corresponding to the surfaces (14b) and (14c)
The pins (18b) and (18c) of the
Swing of the lever (18) to the retreat position is allowed.
From here, temporarily hold the main lens (4a) in the telephoto shooting state
Example when external force is applied to shutter block (4)
For example, with the shutter block (4)
Swing lever (18)
Swings away from the extension cam (14),
External force is absorbed by (6), and excessive force is applied to the operation mechanism.
Can be prevented from being hung and the damage can be reduced.
Wear. The motor will be described in detail later in the description of the operation.
The feeding cam (14) is rotated in both forward and reverse directions by the forward and reverse rotation of (M).
And the attitude of the feeding lever (18) changes accordingly.
Shutter block through movable barrel (8)
In the positioning of (4), the direction of the optical axis (L) of the main lens (4a)
Along the lens, and exit of the sub lens (7) to the photographing optical path.
Retreat takes place. The driving of the motor (M) allows the standard photographing state and the desired
The focal length can be switched to the far shooting state, and
In each of the two photographing states, the same motor
Focusing by moving the main lens (4a) by driving (M)
It is configured to perform the adjustment operation. That is, gear train (15), feeding cam (14), feeding lever
(18), stop lever (16), magnet (17), and
And the focus of the photographing optical system (PS) by the motor (M), etc.
A series of operations for switching the distance and adjusting the focus at each focal length
, An operation means for performing the operation sequentially. At this time, the shutter block (4) is urged forward.
And a pair of feed cams (14)
A pair of pins (18) contacting the cam surfaces (14b) and (14c).
(b) To be performed by the feeding lever (18) having (18c)
With the feed cam (14) rotating at a constant speed,
The tangential direction of the rotation trajectory of (14), that is, the cam (14)
The inclination angle of these cam surfaces (14b) and (14c) with respect to the operating direction
And the required moving speed of the shutter block (4)
(For example, when performing focus adjustment in the telephoto shooting state, the standard shooting
Switching of the focal length, faster than the focus adjustment operation of the state
During operation, it is faster than during focus adjustment operation.
Can be formed to meet the typical moving speed)
Quickly and quickly switch the focal length when shooting.
The focus adjustment operation can be performed with high precision. The first cam surface (14b) of the feeding cam (14) and the abutment thereof
The second pin (18b) of the operating lever (18) is
Focus in standard shooting condition of system (PS) and standard shooting
Perform the first half of switching the focal length from the state to the telephoto shooting state.
It is configured as follows. The second cam surface (14c) of the feeding cam (14) and the second cam surface (14c)
The third pin (18c) of the operation lever (18) that comes into contact with
Focus of optical system (PS) from standard shooting condition to telephoto shooting condition
Focus adjustment in the latter half of distance switching and telephoto shooting
It is configured to perform. That is, the first cam surface (14b) of the feeding cam (14) has a short
Focal length adjustment cam surface (14X) and focal length switching
One end of the cam surface (14Y) is connected to the second cam surface (14c).
Is the other end of the focal length switching cam surface (14Y) and the long focal length
A cam surface (14Z) for away-side focus adjustment is formed. Then, the cam surface (14)
X) and the focal length switching cam surface (14Y) and the long focal length side focus
The adjusting cam surface (14Z) is a rotary feeder in that order.
Rotation direction of the cam (14), that is, the operation direction of the cam (14)
Are formed side by side. In this way, the cam surface is connected to the first cam surface (14b) and the second cam
Surface (14c) so that the cam follower
The operation error of the feeding lever (18) can be reduced. That is, if the cam surface is a series,
The end is the axis of rotation (X _Five ) Formed near
Will be. In that case, the fixed rotation angle of the feeding cam (14)
Is relatively short in the circumferential direction of the cam surface. so
Then, the rotation axis (X _Five ) Close shape
The formed cam surface is formed near the outer peripheral surface of the feeding cam (14).
Circumference for the same rotation angle error compared to the cam surface
Direction error increases, so the feed is a cam follower
The operating error of the lever (18) increases. On the other hand, the cam surface is divided and
By changing this above, the cam surface is extended
It can be formed only near the outer peripheral surface of the cam (14).
The dynamic error can be reduced. Furthermore, the rotary feed cam (14) is divided into a plurality of peripheral surfaces.
The first cam surface (14b) and the second cam surface (14c) are feeding cams.
Depth from the top surface of (14), that is, rotation of the feeding cam (14)
Spindle core (X _Five ) The directions are different. Also it
The cam follower is attached to the extension lever (18).
Each of the pair of divided peripheral surfaces (14b) and (14c)
A pair of pins (18b), (18
c) As shown in FIGS. 11 and 12, the operating lever (1
8) The amount of protrusion from the base plate (18A) is different. In other words, the cam of the rotary feed cam (14) is thus
Rotate the feed cam (14) by dividing the surfaces (14b) and (14c)
Shaft core (X _Five ) By displacing in two directions.
In any of the cam surfaces (14b) and (14c)
Also has a large displacement width in the radial direction of the feeding cam (14).
Shutter shutter
To control the movement of the cam (4).
b) and (14c) are converted to the linear shape of the shutter block (4).
The rotation axis (X _Five Against)
Rotation angle can be increased, and operation errors can be reduced.
Because Further, a pair of cam surfaces (14b), (1
4c), the focus adjustment cam surface (14X), (14Z)
As shown in FIG. 13, the rotation of the feeding cam (14) is
Center of rotation (X _Five Several cylindrical surfaces at different distances from
(M) is defined by an inclined surface (n) extending between each cylindrical surface (m).
Connected. Then, this inclined surface (n) is operated by a cam follower.
In the operating area where the focus adjustment is performed by operating the lever (18)
In addition, the cylindrical surface (m) is a non-operating region. What
In addition, the fourth pin (18d) of the operation lever (18) is
It is a focus adjustment member of the system (PS). Next, the cylindrical surface of the focus adjustment cam surface (14X) and (14Z)
(M) and the inclined surface (n) will be described. Both of the pair of cam surfaces (14b) and (14c)
FIG. 14 shows a linear development. The drawing
Shows a development view of only the first cam surface (14b).
The following explanation will be performed accordingly. Ie some cylindrical surfaces
(M) corresponds to a straight line portion (m ') extending in the horizontal direction in the figure.
Hit and connect some of the cylindrical surfaces (m) to each other
The inclined surface (n) is an inclined portion extending between the linear portions (m ').
Minutes (n '). Then, with respect to the first cam surface (14b),
The second pin (18b) of the corresponding feeding lever (18) is
As shown in the figure, any one of the longitudinal directions of the straight line portion (m ')
Part (actually, any part in the circumferential direction of the cylindrical surface (m)
Minutes). The second pin (18b) of the feeding lever (18) is
Line, one-dot chain line, or two-dot chain line
The position of the lever (18) remains unchanged,
-Optical axis (L) direction of block (4) and movable barrel (8)
The position of does not change. That is, the shutter block (4)
And positioning of the movable barrel (8) in the direction of the optical axis (L).
There is a margin in the circumferential direction at the rotation stop position of the feeding cam (14).
is there. This has the following implications: That is, in the focus adjustment operation, the shutter block
When stopping the movement in the optical axis (L) direction in (4),
(M) to stop the rotation of the feed cam (14).
And stop the operation of the magnet (17).
Pull out the pawl (16a) of the stop lever (16) to extend the cam (14)
Is configured to engage with the ratchet portion (14a) of the
I have. At this time, the power supply battery is new and the power supply voltage is sufficient
High, the motor (M) has sufficient driving force.
After the motor (M) stops, the feeding cam (14) rotates a predetermined number of times.
Rolled, the stop lever (16) claw (16a) is extended cam
Fully enter the ratchet part (14a) of (14). Soshi
The second pin (18b) of the feeding lever (18) is
The first cam surface (14b) of the feeding cam (14) at the position indicated by the solid line
The delivery cam (14) is positioned so as to come into contact with. On the other hand, the power supply voltage is
When it comes down, the driving force of the motor (M) runs short and the motor
(M) The rotation amount of the feeding cam (14) after stopping is below the predetermined amount.
May occur. In this case,
The pawl (16a) of the bar (16) is the ratchet of the extension cam (14)
Of the extension cam (14) without fully entering the section (14a).
Positioning will be performed. And the feeding lever
In FIG. 14, the second pin (18b) of (18)
At the position shown by the two-dot chain line, the first cam surface (14
Contact b). As described above, the operation lever (18) in FIG.
The second pin (18b) is the first cam surface (14b) of the feeding cam (14).
As long as it touches the same straight section (m ')
Position of the lock (4) and the movable barrel (8) in the direction of the optical axis (L)
The position does not change. Therefore, as described above,
The position of the cam (14) stops slightly due to fluctuations.
Even if cracks occur, always keep the main lens (4a)
Stable positioning is achieved. Although not shown, the third pin of the feeding lever (18) is not shown.
(18c) and the second cam surface (14c) of the feed cam (14).
Has the same configuration. On the other hand, the first pin (18a) of the feeding lever (18) is
The feeding lever (18) can be freely rotated by pivoting to (21a).
The support lever (21), which is a support member for supporting the
And as shown in FIG. 15, it was implanted in the gear base plate (23).
Externally fit the pin (23i) ₆ ) Rotate around
Installed. The support lever (21) has its pivot axis (X ₆ )
A long hole (21b) is formed on the opposite side of the pivot (21a),
On the other hand, it corresponds to this long hole (21b) in the gear base plate (23)
The diameter of the long hole (21b) is greater than the short axis
A hole (23j) is formed. The support lever (21) is connected to the hole in the gear base plate (23).
(23j) Supported at the tip of the first cylindrical shaft with the same outer diameter as the inner diameter
A second outside diameter of the lever (21) that can be fitted into the long hole (21b).
A jig (not shown) provided with the cylinder axis decentered
Through the hole (23j) of the gear base plate (23)
Insert only the cylindrical shaft into the slot (21b) and rotate it
By the shaft core (X ₆ ) Is configured to rotate around
You. Note that (22) in the figure is a fixing screw whose screw part is supported.
Through another elongated hole (21c) formed in the holding lever (21).
And is screwed to the gear base plate (23). That is, the support lever (21) is connected to the shaft center (X ₆ ) Pivot around
And a slot for position change operation (21b)
And a fixing screw (22), a cam follower
Position the support lever (21), which is the support member for the operation lever (18).
An adjusting means for changing the position is configured. The support lever (21) is ₆ To rotate around
Thus, the position of the pivot (21a) also moves. For example,
The support lever is turned counterclockwise from the state shown by the solid line in FIG.
When (21) is rotated, as shown by the two-dot chain line in FIG.
Then, the pivot (21a) moves downward in the figure. At this time, the feeding lever (18) is moved to its fourth pin (18).
d) engages with the movable barrel (8), and its second pin (18b)
By contacting the first cam surface (14b) of the feeding cam (14)
Since this pin is positioned, use this second pin (18b) as a fulcrum.
And rotates counterclockwise. Therefore, the two-dot chain in FIG.
As shown by the line, the fourth pin (18d) of the feeding lever (18)
Moves upward in the figure. Thus, the shutter urged forward in the optical axis (L) direction is provided.
Block (4) and the movable barrel (8) are moved forward.
Moves and the position of the main lens (4a) changes. In FIG. 15, the first pin (18) of the feeding lever (18) is
b) is the starting end of the first cam surface (14b) of the feeding cam (14)
(14s). This position will be described later,
In the quasi-shooting state, the photographic optical system (PS) (in this case,
Lens (4a)) equivalent to focusing on infinity
I do. At this time, if there is no error, the lens block
(4) and the movable barrel (8) are the last edges of the moving range.
It is in. As described above, the main lever is rotated by rotating the support lever (21).
By changing the position of the lens (4a),
Regardless of errors caused by operation errors or assembly errors,
-(18) is the first pin (18b) of the extension cam (14).
Optics in the state where it is located at the beginning (14s) of the recording surface (14b)
The shooting optics so that the system (PS) is focused at infinity
It is configured so that the position of (PS) can be finely adjusted. Then, a position change operation, which is an adjustment unit constituting the adjustment means, is performed.
The long slot (21b) of the action faces the outside of the operating means described above.
In. Therefore, fine adjustment of the position of the upper photographing optical system (PS)
Adjustment can be easily performed even after the operation means is assembled.
is there. In FIG. 15, the first pin of the feeding lever (18) is shown.
(18b) contacts the first cam surface (14b) of the extension cam (14).
Optical system associated with the rotation of the support lever (21) in the rotating state
(PS) fine adjustment, but the feed lever (18)
The two pins (18c) are on the second cam surface (14c) of the extension cam (14).
Fine adjustment may be performed in a state where the fine adjustment is in contact with the end portion. This place
In the telephoto shooting state, the camera is set to the shooting optical system (PS) (in this case,
Is that the main lens (4a) and sub lens (7)) are closest
It corresponds to the in-focus state, and if there is no error, the shutter
-The moving range of the block (4) and the movable barrel (8)
At the foremost edge of the On the other hand, as shown in FIG.
And three positions for different positions in the circumferential direction.
Brushes (hereinafter referred to as a first brush, a second brush, a third brush,
(14A), (14B), (14C)
You. In addition, the fixed part on which this feeding cam (14) is mounted
As shown in FIG. 17, the upper surface of the gear base plate (23)
In addition, three position detection brushes (14
A), (14B), (14C) for cam position detection
Position detection switch (S3) to configure the sensor of
(S5) electrically according to the rotation position of the feeding cam (14).
A position detection pattern for opening and closing is formed.
You. This position detection pattern is the rotation center of the feeding cam.
(X _Five ) Around five concentric circular arc terminals (23
A) to (23E). The innermost arc terminal (23A) and the fourth arc from the innermost circumference
The terminal (23D) is used for standard shooting together with the second brush (14B).
Shooting in two shooting states: shadow state and telephoto shooting state
The initial state of the optical system (PS) (in this embodiment, infinity
Initial state of the lens to detect the state of focusing on the position)
It constitutes the detection switch (S3). And shooting optics
When the system (PS) is in the initial state, the second brush (14B)
Non-conductive path (23x), one end of which deviates from the arc terminal (23D),
(23y), lens initial state detection switch (S3)
Is configured to be closed. In addition, the third arc terminal (23C) from the innermost circumference and the innermost circumference
Of the 4th and 5th circular terminals (23D) and (23E)
The protruding part is a standard photographing letter with the third brush (14C)
Shutter in two shooting states: telephoto state and telephoto state
-Lens position for detecting the amount of movement of block (4)
It constitutes the detection switch (S4). This lens position detection
Exit switch (S4) moves shutter block (4)
Opening and closing according to the rotation of the feeding cam (14)
Returns a pulse signal. Then, a control device described later is used.
The device (24) counts this pulse signal and
It is configured so that the position of the block (4) can be detected.
You. Furthermore, the second arc terminal (23B) from the innermost circumference and the outermost
The peripheral arc terminal (23E) is the same as the first brush (14A).
The shooting optical system (PS) is in standard shooting mode or telephoto shooting mode
Lens area detection to detect which state
The output switch (S5) is configured. And shooting optics
(PS) is in the telephoto shooting state, that is, when the shutter
The lock (4) is located in front of the optical axis (L), and
When the lens (7) is inserted in the imaging optical path, the first
One end of the brush (14A) is disconnected from the arc terminal (23B)
Abuts the communication part (23z), and the lens area detection switch (S5)
Is configured to be closed. Then, as shown in FIG. 18, the gear base plate (23)
On the bottom, each of the arc terminals (23A) to (23E)
Each connection terminal group (23
a) to (23e) facing outside from the gear base plate (23)
You. As shown in FIG. 19, the control device (24)
Release button in addition to three switches (S3) to (S5)
Release switch that opens and closes in conjunction with operation (1)
(S1), focus to select standard shooting condition and telephoto shooting condition
Len that opens and closes in conjunction with the operation of the distance switching lever (2)
Switch (S2) is connected. The control unit (24) has a shutter block.
(4) and the movable barrel (8) are moved in the optical axis (L) direction.
(M) for rotation and rotation of the delivery cam (14)
Operate and control the stop lever (16) that performs prohibition and allowance
Magnet (17) is connected. And
The motor (M) and magnet (17) are described above.
Control signal according to the state of each of the switches (S1) to (S5)
Is output. Next, this control and the accompanying focal length switching operation
FIG. 20 (a) to (e), and the focusing operation
And will be described with reference to the flowcharts of FIGS. 21 and 22.
You. << 1 >> Focus adjustment operation in standard shooting state The state shown in FIG. 20 (a) is the initial state of the standard shooting state.
State, that is, the photographing optical system (PS) (only by the main lens (4a))
Is in focus at infinity.
You. At this time, the shutter block (4) is the main lens
The frame (4b) is stopped at the position shown by the broken line in FIG.
Yes, before being incorporated into this shutter block (4)
The main lens (4a), which is a ball, is also in the retired position. In this state, the claw (16a) of the stop lever (16)
Except for the ratchet portion (14a) on the outer peripheral surface of the feeding cam (14)
Abuts the part. The iron piece (20) is a magnet
(17) is in contact. Then, the second pin (18b) of the feeding lever (18) is fed.
Abuts on the starting end (14s) of the first cam surface (14b) of the cam (14)
As a result, the front side in the optical axis (L) direction (upper side in the figure)
Shutter block (4) biased to
Have been. Also, the third pin (18) of the feeding lever (18)
c) is in contact with the second cam surface (14c) of the extension cam (14).
Not. At this time, only the lens initial state detection switch (S3) is
The other switches (S1), (S2), (S
3), (S4), and (S5) remain open (Fig. 21).
<# 0>, only the step number is described below). Release button (S1) by operating release button (1)
Is closed, the magnet (17) is activated.
Adsorbs iron piece (20) <# 2>, motor (M)
In (a), rotation starts in the counterclockwise direction <# 3>.
Then, when the feed cam (14) is moved through the gear train (15)
Start rotation in the measuring direction and switch the lens initial state detection switch (S
3) is released <# 4>. As the feed cam (14) rotates, the feed lever (18)
The second pin (18b) is the first cam surface (14b) of the feeding cam (14).
And the feed lever (18) is _Four Around)
Rotates counterclockwise. This allows the shutter block
(4) is biased by the spring (6) toward the optical axis (L).
It is fed forward. In accordance with the rotation of the feeding cam (14), the lens position detection switch
The opening and closing of the switch (S4) is repeated <# 5, 6>, and the shooting optical system
When (PS) reaches the in-focus position, the motor (M)
Rolling is stopped <# 7>. Shooting optical system (PS) is in focus
The determination (# 6) of whether or not the position has been reached is made by the control device (24)
Inside the camera by opening and closing the lens position detection switch (S4).
Count the pulse signal that is input, and count the count value.
It is performed by comparing the focus count value obtained separately.
It has become so. Short-circuit both ends of motor (M) and stop its rotation
<# 7>, then cut off the current to magnet (17)
<# 8>. This stops the stop lever (16)
With the urging force of the ring (19), as shown in FIG.
Shaft core (X _Three ) Around the counterclockwise rotation, the claw (16a)
Is engaged with the ratchet portion (14a) of the extension cam (14).
Position the output cam (14). Subsequently, a timer (not shown) is started <#
9>. Thereafter, the shutter (not shown) is opened and closed.
<# 10>, wait for the timer to expire <# 1
1>. This timer is faster than the longest shutter speed.
Set to time up after a slightly longer time
You. That is, in the step of <# 11>, opening and closing of the shutter
Waiting for operation to end. When the shutter opening / closing operation is completed, the motor (M)
In Figure 20 (b), start rotating clockwise <# 1
2>. Then, the feed cam (14) is moved through the gear train (15).
Start rotating counterclockwise in the figure. Along with that, leverage
-(18) rotates clockwise and the shutter block
(4) and the movable lens barrel (8) are moved rearward in the optical axis (L) direction.
Get stuck. When the extension cam (14) reaches the initial position, the lens
The period state detection switch (S3) is closed <# 13>. That
Then, short both ends of the motor (M) to stop its rotation.
<# 14> and cut off the power to the magnet (17) <#
15>. This returns to the initial state shown in FIG.
<# 16>. << 2 >> Focal length switching operation Switching of the shooting state by two focal lengths is performed by the focal length
This is performed by operating the switching button (2). Less than
Below, each is explained. i) Switching from the standard shooting state to the telephoto shooting state The initial state of the standard shooting state shown in FIG.
<# 100>, only the step number is described below)
And the lens interlocks with the pressing of the focal length switch button (2).
When the switch (S2) is closed, <# 101>
Check the state of the lens area detection switch (S5).
<# 102>. In the standard shooting condition, this lens area
Since the detection switch (S5) is open, <# 110>
Proceed to step. First, the motor (M) is turned counterclockwise in FIG.
<# 110>, the magnet (17) is activated
Adsorbs iron pieces (20) <# 111>. Motor (M) rotation
The feeding cam (14) starts rotating clockwise in conjunction with
The lens initial state detection switch (S3) is opened <# 11
2>. As the cam (14) rotates clockwise,
As with the focus adjustment operation in the standard shooting condition,
The second pin (18b) comes into contact with the first cam surface (14b)
The lever (18) is turned counterclockwise. This allows
Optical axis of shutter block (4) and movable barrel (8)
It is extended to the front side in the (L) direction. The first cam surface (14b) of the feeding cam (14) extends over the entire circumference.
The feed lever (1
8) is rotated and the second pin (18b) is moved to the first cam surface (14).
Beyond the end (14t) of b), the second pin (18b)
Will not be in contact. Therefore, it is urged forward in the optical axis (L) direction.
Pulled by the shutter block (4)
Allows the lever (18) to rotate further counterclockwise
Is done. At this time, the third pin (18c) of the feeding lever (18) is
It is in contact with the second cam surface (14c) of the output cam (14).
Later, as the feeding cam (14) rotates clockwise,
2 Third pin of the lever (18) along the cam surface (14c)
(18c) moves, the rotation of the feeding lever (18)
Controlled. The extension cam (14) is the telephoto shooting area of the shooting optical system (PS).
Lens area detection by rotating to the position corresponding to
When the switch (S5) is closed <# 113>, the magnet
Turn off the power to (17) <# 114> and stop the lever (1
Ratchet part of feeding cam (14) with claw (16a) of 6)
(14a). Further, the lens initial state detection switch (S3) is closed.
<# 115>, short both ends of the motor (M)
To stop the rotation <# 116>. This state is shown in Fig. 20.
This is the initial state of the telephoto shooting state shown in (d) <# 13
0>. At this time, the shutter block (4) is shown in FIG.
The main lens (4a) at the position shown by the two-dot chain line and the front lens
The main lens frame (4b) that holds the camera from the camera body (3)
It is in the protruding position to protrude. Note that, as already described, the secondary lens
(7) is inserted into the imaging optical path. ii) Switching from telephoto shooting state to standard shooting state Initial state of telephoto shooting state shown in FIG. 20 (d) <# 10
0>, the lens switch (S2) is also closed
<# 101>, the camera is in the telephoto shooting state and the lens area
Since the detection switch (S5) is closed, <# 102>
In the determination in step #, the process proceeds to step # 120. First, the motor (M) is turned clockwise in FIG.
<# 120>. In conjunction with the rotation of the motor (M)
The feeding cam (14) starts rotating counterclockwise, and the lens
State detection switch (S3) and lens area detection switch
(S5) are successively released <# 121, 122>. As the feed cam (14) rotates counterclockwise,
The extension that the third pin (18c) abuts on the second cam surface (14c)
The bar (18) is rotated clockwise. As a result,
Block (4) and movable barrel (8) are optical axis (L)
In the rear direction. During the rotation of the feeding cam (14) in the counterclockwise direction,
As shown in Fig. (C), the third pin of the feeding lever (18)
(18c) moves away from the second cam surface (14c) of the feeding cam (14)
And the second pin (18b) of the feeding lever (18) is drawn out.
It comes into contact with the first cam surface (14b) of the cam (14)
And thereafter, with the counterclockwise rotation of the feeding cam (14).
Along with the first cam surface (14b), the
When the two pins (18b) move, the feeding lever (18)
Rotation is controlled. The extension cam (14) is the standard shooting area of the shooting optical system (PS).
Is rotated to a position equivalent to the
When the lens initial state detection switch (S3) is closed <# 12
3> Short-circuit both ends of the motor (M) to
Stop <# 124>. This is shown in FIG.
<# 130>. During this switching, the magnet (17) is energized.
The stop lever (16) has its claw (16a)
Pivots in the direction that engages the ratchet (14a) of the arm (14)
Is done. However, the rotation direction of the feeding cam (14) is counterclockwise.
And engages with the pawl (16a) and the ratchet part (14a).
There is no problem because it is not the direction in which rotation is more prohibited. Was
However, instead of this configuration, the magnet (17)
Operate to separate the pawl (16a) from the ratchet (14a)
To avoid noise during rotation.
You may. Note that, as already described, the secondary lens
(7) is retracted from the imaging optical path. In summary, the motor (M), gear train (15),
Out cam (14), feeding lever (18), shutter block
(4) and whether the movable barrel (8) fixed to it, etc.
Focal length to switch the focal length of the shooting optical system (PS)
It constitutes a switching mechanism. Note that the focal length switch button (2) replaces the focal length
When the replacement lever (2 ') is provided,
(2 ') moves between <STND> and <TELE>.
Lens switch (S2) is closed each time
What is necessary is just to configure. << 3 >> Focus Adjustment Operation in Telephoto Shooting State In the initial state of the telephoto shooting state shown in FIG.
Shadow optics (PS) (primary lens (4a) and secondary lens (7)
) Are in focus at infinity. In this state, the claw (16a) of the stop lever (16)
Except for the ratchet portion (14a) on the outer peripheral surface of the feeding cam (14)
Abuts the part. The iron piece (20) is a magnet
(17) is in contact. Then, the third pin (18c) of the feeding lever (18) is fed.
This is in contact with the second cam surface (14c) of the cam (14).
Is urged forward (upward in the figure) in the direction of the optical axis (L).
The shutter block (4) is positioned. Ma
The second pin (18b) of the feeding lever (18) is connected to the feeding cam.
It does not contact the first cam surface (14b) of (14). At this time, the lens initial state detection switch (S3) and the lens
Switch (S5) is closed and other switches
Switches (S1), (S2), and (S4) remain open
(Refer to Fig. 21 <# 0>, hereafter only the step number is described.
). The release switch (S
When 1) is closed <# 1>, magnet (17) operates
Then, the iron piece (20) is adsorbed <# 2>, and the motor (M)
Start rotation counterclockwise in Fig. 20 (a) <#
3>. Then, the feed cam (14) is moved through the gear train (15).
Start rotating clockwise in the figure, and
H (S3) is released <# 4>. As the feed cam (14) rotates, the feed lever (18)
The third pin (18c) is the second cam surface (14c) of the extension cam (14).
And the feed lever (18) is _Four Around)
Rotate. Thereby, the shutter block (4)
The spring (6) biases the optical axis (L) forward in the optical axis (L) direction.
Be sent out. In accordance with the rotation of the feeding cam (14), the lens position detection switch
The opening and closing of the switch (S4) is repeated <# 5, 6>, and the shooting optical system
When (PS) reaches the in-focus position, both motors (M)
After shorting the end and stopping its rotation <# 7>,
Cut off power to magnet (17) <# 8>. As a result, the stop lever (16) is
With the urging force of (19), as shown in FIG.
(X _Three ) Around it, and its claw (16a) repeats.
Engage with the ratchet (14a) of the output cam (14)
Position the robot (14). Then, start the timer <# 9> and release the shutter
Open / close operation of <# 10>, and wait for the end <# 10>
11>. When the shutter opening / closing operation is completed, the motor
(M) starts rotating clockwise in FIG. 20 (e).
<# 12>. Then, the cam that is extended through the gear train (15)
(14) starts to rotate counterclockwise in the figure. With it
The feeding lever (18) rotates clockwise and the shutter
The block (4) and the movable barrel (8) are in the direction of the optical axis (L).
It is rolled back. When the extension cam (14) reaches the initial position, the lens
The period state detection switch (S3) is closed <# 13>. That
Then, short both ends of the motor (M) to stop its rotation.
<# 14> and cut off the power to the magnet (17) <#
15>. This returns to the initial state shown in FIG.
<# 16>. On the other hand, the standard shooting condition in the shooting optical system (PS)
Viewfinder optical system when switching between
(FS) also switches the magnification in conjunction
ing. Next, the configuration for that will be described. The viewfinder optical system (FS) is shown in Figs. 1 and 23.
As shown in (a), (b) and (c), the direction of the optical axis (L)
From the front side, objective lens (25), variable power lens (26),
Field frame (27), eyepiece (28), holding plate (29), and
It is composed of a frame plate (30) and the like. And this
The viewfinder optical system (FS) is a fixed base plate that is integrally molded
(5) of the upper half (5B), which is the second cylindrical mounting frame
Is housed in the department. As shown in FIG. 1, the upper half (5B) of the fixed base plate (5)
In addition, the automatic focus adjustment is performed by the active method.
Near-infrared light emitting element (31) constituting a light emitting portion for receiving
A condenser lens (32) and a light receiving element (33) are provided
And the light emitting portion, the light receiving portion, and the
With the front of the viewfinder optical system (PS) covered,
(34a), light receiving window (34b) and viewfinder window (34c)
Frame member (34) is fixed to the fixed base plate (5).
ing. It is shown in Fig. 1 and Fig. 24 (a), (b), (c)
In the viewfinder optical system (FS), the objective lens
The objective lens holder (35) that holds the lens (25)
It has a cylindrical portion (35A) along the (L) direction. Soshi
The tube (35A) and the gasket fixed to the fixed base plate (5)
The objective lens (25) is externally fitted to the
It is configured to be able to move in the (L) direction. Also, a variable power lens holder that holds the variable power lens (26)
ー (37) is the shaft center (X ₇ ) Mounted around for free rotation
And the variable power lens (26) is
It is configured to be able to leave. And this scaling
Fold the variable power lens (26) through the lens holder (37).
A spring that urges in the direction of insertion into the inner light path
(Not shown) is provided. FIGS. 23 (a) and 24 (a) show the standard shooting condition.
doing. In this state, the objective lens (2
5) is located at the forefront of the movement range. Soshi
The variable power lens (26) is
It is inserted in the finder optical path. FIG. 23 (b) and FIG. 24 (b) show the above-described photographing optics.
Performed in conjunction with the focal length switching operation in the system (PS)
The viewfinder switching operation is shown. See below
However, in conjunction with switching of the focal length, the objective lens (25)
It can be moved backward (left side in the figure) in the optical axis (L) direction.
It is configured as follows. As the objective lens (25) moves, the objective lens
The lower edge of the rudder (35) is in front of the zoom lens holder (37)
Press against the side end face. This allows the variable magnification lens
The rudder (37) resists the urging force of the spring,
It is turned in the measuring direction. Then, as shown in FIG. 23 (C) and FIG. 24 (C)
The objective lens (25) reaches the end of its travel range
When the zoom lens (26) is moved from the viewfinder optical path
It is configured to be completely evacuated. This state is telephoto
Moving the objective lens (25) and zooming in the shooting state
Finder optical system (FS) by retracting lens (26)
Is different from the standard shooting condition. As shown in Fig. 23 (a) to (c), the eyepiece
(28) is that the stepped part is the stepped part of the fixed base plate (5).
Abutting from the front, and a field frame (27) at the front end
Positioning is achieved by elastic contact. The frame plate (30) has a frame indicating the shooting range.
Translucent plating frame to show the camera in the viewfinder view
Are formed. And this frame board (30)
The holding plate (29) is elastically contacted from the front
The bent part (29a) of the holding plate (29) is
It is stopped by contact. As shown in Fig. 24 (a) to (c), the objective lens
The upper part and the side part of the cylindrical part (35A) of the holder (35)
One pin (hereinafter referred to as upper pin and side pin, respectively)
(35a) and (35b) are planted. The upper pin (35a) and the fixed base plate (5)
Between the pin (5b) and the spring (3
8) has been erected. Pin (5b) of fixed base plate (5)
Is the upper part of the objective lens holder (35) in side view
It is located approximately at the center of the movement range of the pin (35a). The spring (38) is used for the objective lens holder (35)
The upper pin (35a) is the pin (5b) of the fixed base plate (5).
Objective lens holder (35)
To the front side, and conversely
Push the object lens holder (35) backward
It is configured. Meanwhile, the side pin (35b) of the objective lens holder (35)
Fits into the forked part (39a) at the upper end of the switching lever (39).
I agree. This switching operation lever (39) is ₈ )
It is attached so that it can rotate around
So that the objective lens holder (35) can be moved back and forth.
Is configured. And the objective lens holder (35)
(35a) and the position of the pin (5b) on the fixed base plate (5)
As described above, the spring (38) biases the front
Either (standard shooting condition side) or backward (telephoto shooting condition side)
In the direction of the front and back of the cylinder (35A)
The end is the back (34d) of the frame member (34) or the fixed base plate
Positioned by contacting the contact (5c) of (5)
It is configured to: The switching lever (39) is connected to the rotation axis (X ₈ )
A bevel gear (39b) is provided on the opposite side of the forked part (39a).
doing. FIG. 1 and FIG.
As shown in Fig. 25 (a) and (b), a part of the circumference
Bevel with gear part (40a) consisting of only two teeth
The gear (40) is facing. This bevel gear (40) is shown in FIGS.
(B) and, as shown in FIG. 26, the spring (41)
Is connected to the gear (42). In addition, this gear
Gear (44) that rotates together with the gear (43) that meshes with (42)
Is the motor in the photographic optical system (PS) already described
Gears for transmitting drive from (M) to delivery cam (14)
It engages one gear (15a) in the row (15). That is, the bevel gear is linked with the forward and reverse rotation of the motor (M).
(40) rotates. And the gear of this bevel gear (40)
(40a) is the focal length of the photographic optical system (PS).
Bevel gear of the switching lever (39) only during the switching operation
It is configured to engage with the part (39b). This gear
Switching operation by the engagement of the bevel gear part (39b) with the part (40a).
Work lever (39) is shaft center (X ₈ Swivel around, as described above
, The magnification of the viewfinder optical system (FS) can be switched
It is configured as follows. Fig. 28 (a) to (c), switching operation lever (39)
FIG. 6 is a diagram showing a planar positional relationship with a bevel gear (40),
25 In the sectional view seen from the front direction shown in FIG.
It is developed along X-rays. << 1 >> Standard shooting state FIG. 28 (a) shows a standard shooting state. Bebergi
Gear (40a) is in the position [a] in the figure
Time is the initial state. At this time, the shooting optical system (PS)
Is in focus at infinity. From this initial state,
When the motor (M) is driven, the bevel gear (40)
It is rotated in the measuring direction to reach the position [b] in the figure. During this time, the focus adjustment operation is performed in the standard shooting condition.
You. That is, at the position [b] in the figure, the photographing optical system (PS)
The focus is on the closest position. During this time, the gear part (40a) of the bevel gear (40)
Is the bevel gear part (39b) of the switching operation lever (3).
Not bite. Therefore, the viewfinder optical system (FS)
The magnification is not switched by the finder optical
The system (FS) has a magnification suitable for standard shooting conditions. This
In the case of, the switching operation lever (39) is shown in FIG.
So, it is a forward leaning posture. << 2 >> When switching the focal length When switching the focal length from the standard shooting mode to the telephoto shooting mode
Indicates the position of the bevel gear (40) at the position [b] in FIG. 28 (a).
Is further rotated clockwise past the gear section (40
a) reaches the position [c] in the figure, and the switching operation lever (3)
The state immediately before engaging with the bevel gear portion (39b) is obtained.
During this time, as before, the finder optical system (FS)
The magnification is not changed and the viewfinder
The optical system (FS) remains at a magnification suitable for standard shooting conditions.
You. The gear part (40a) of the bevel gear (40)
While shifting from the position to the position [d], the switching operation lever
This lever (3) engages with the bevel gear (39b) of (39).
9) is rotated counterclockwise in FIG. 27 (b).
As shown in FIG. 28 (b), the gear portion of the bevel gear (40)
(40a) reaches the position [d] in the figure and the bevel gear section (39
When the engagement with b) is released, the switching operation lever (39) becomes the second
7 As shown by the solid line in FIG. At this time, the fork (39a) of the switching operation lever (39)
Upper pin (35) of the clamped objective lens holder (35)
a) is located behind the pin (5b) of the fixed base plate (5).
And then, as already mentioned, the spring (3
8) Push the objective lens holder (35)
The switching operation lever (39) is moved
As shown in FIG. 3 (c), the vehicle is further tilted backward. With the rearward movement of this objective lens holder (35)
The objective lens (25) moves to the rear end of its movement range
Along with the zoom lens (26) retracts from the viewfinder optical path
The viewfinder optical system (FS) is suitable for telephoto shooting
Magnification. Also, the bevel gear of the switching lever (39)
The part (39b) has moved to the position shown in Fig. 28 (c).
You. The gear part (40a) of the bevel gear (40) is a switching lever.
ー (39) Bevel gear part (39b)
FIG. 28 shows that the gear (40) is further rotated.
(E) as shown in (b) and (c).
At this position, the rotation of the bevel gear (40) stops. During this time
The gear part (40a) of the gear (40) is the switching lever (39)
Does not re-engage with the bevel gear section (39b). Subordinate
The switching of magnification with the viewfinder optical system (FS)
The viewfinder optical system (FS) is in a state of asobi
The magnification remains suitable for a long-distance shooting state. And in the shooting optical system (PS), bevel gears
The gear part (40a) of (40) is the same as that of [b] shown in FIG.
From the position to the position [e] shown in FIG. 28 (c).
The focal length is switched during
I have. And the gear part (40a) of the bevel gear (40) is the second
The telephoto shooting state is when the camera is at the position [e] in Fig. 8 (c).
Is in the initial state. At this time, the shooting optical system (PS)
Is in focus at infinity. When switching the focal length from telephoto shooting to standard shooting
Indicates that the bevel gear (40) is in the position [e] in FIG. 28 (c).
The gear (40a) is rotated counterclockwise from
It reaches the position of [d '] and the bevel of the switching lever (39)
It engages with the gear (39b). FIG. 28 shows the gear portion (40a) of the bevel gear (40).
From the position of [d '] in (c), the position of [c'] in FIG.
Move the switching lever (39) while shifting to the position
Rotate clockwise in (b). Bevel gear (4
0) is further rotated, and its gear (40a) is switched
Switch when the bar (39) comes off the bevel gear (39a)
The control lever (39) is indicated by the two-dot chain line in FIG.
As you can see, he leans forward. After that, the switching lever (39)
Means that the objective lens holder (35) has a spring (38)
It is further rotated in conjunction with moving forward with the power,
In the initial state shown in FIG. As the objective lens holder (35) moves forward
The objective lens (25) moves to the front end of its movement range
Along with the variable magnification lens (26) inserted in the finder optical path
The viewfinder optical system (FS) is suitable for standard shooting conditions
Return to magnification. The bevel gear (40) is further rotated.
The gear part (40a) is the same as that of [a] shown in FIG.
When the position is reached, its rotation is stopped. << 3 >> Telephoto shooting state The gear part (40a) of the bevel gear (40) is as shown in FIG.
From the initial state of the telephoto shooting state at the position [e],
Bevel gear (40) is driven clockwise
It is rotated to reach the position [f] in the figure. Telephoto shooting during this time
The focus adjustment operation in the state is performed. That is, in FIG.
In position, the photographic optics (PS) is focused on the closest position
You. During this time, the gear part (40a) of the bevel gear (40)
Is the bevel gear part (39a) of the switching lever (39)
Not bite. Therefore, the viewfinder optical system (FS)
The magnification is not switched in
The rate remains. That is, as described above, the objective lens that can move back and forth
Holder (35) swings to finder optical path
Retractable zoom lens holder (37), switching operation lever
Fine with (39) and spring (38)
Finder magnification to switch magnification of finder optical system (FS)
Switching means is constituted. And, as mentioned above, the gear of the bevel gear (40)
The section (40a) controls the focal length of the shooting optical system (PS).
Only when a change is made, the lever of the switching operation lever (39)
The lever (39) shaft engages with the bell gear (39b).
Core (X ₈ ) Pivot around to the viewfinder optical system (FS)
It is configured to perform magnification switching in the present embodiment. That is, the gear portion (40a) is formed only in a part of the circumferential direction.
Bevel gear (40), spring (41) and three gears
Gears (42) to (44) are movable members of the operating means.
(15a) and the movable member of the finder magnification switching means
The switching operation lever (39) is connected to the shooting optical system (PS).
Constructs interlocking means for interlocking only when switching the focal length
doing. And shooting in standard shooting condition and telephoto shooting condition
During focus adjustment with the optical system (PS), the viewfinder light
Viewfinder magnification switching means and motors in FS
Since the link with (M) has been cut off, one motor
(M) to adjust the focus of the shooting optical system (PS) and switch the focal length,
And to switch the magnification of the viewfinder optical system (FS)
, While efficiently driving the motor (M)
Its use reduces the load. On the other hand, FIGS. 25 (a) and (b) and FIGS. 29 (a) and
As shown in (b), the outer peripheral surface of the bevel gear (40)
The overhanging part (40b) is formed except for the gear part (40a).
Has been established. Also, at the lower end of the switching operation lever (39)
Has a projection (39c). The overhang (40b) of the bevel gear (40) is shown in Fig. 25 (a).
And as shown in FIG. 29 (a), this bevel gear (40)
Gear part (40a) is the bevel gear of the switching lever (39)
When the part (39b) is engaged, the switching lever
It is in a position where it does not come into contact with the projection (39c) of (39).
The axis (X ₈ ) Do not prevent rotation around
It has become. Also, as shown in FIG. 25 (b) and FIG. 29 (b),
The gear part (40a) of the bevel gear (40) is the switching operation lever (3
9) Bevel gear (39b) is not engaged,
FS is in standard shooting mode or telephoto shooting mode
When the magnification is suitable for any of
The protruding part (40b) of the gear (40) is
It is at a position facing the origin (39c). Then, the switching operation is performed with the overhang portion (40b) of the bevel gear (40).
Slightly apart from the projection (39c) of the lever (39)
You. In this state, switch to the viewfinder optical system (FS).
Work lever (39) with axis (X ₈ Something to rotate around
When an external force is applied, the switching lever (39) rotates slightly.
Then, the projection (39c) of the bevel gear (40) extends
b), and the axis (X
₈ ) Prevent rotation around. This allows the objective lens
The upper pin (35a) of the holder (35) is the fixed base plate
Movement to the position beyond pin (5b) of (5) is prevented.
The switching lever (39) is biased by the spring (38).
To return to the correct position. That is, even when vibration is applied, fine
The magnification of the optical system (FS) can be switched carelessly
It is configured to prevent In the above embodiment, the cam (14) has a cam surface shape.
Divide the peripheral surface for forming into the first half and the second half, and
It is assumed that the cam surface (14b) and the second cam surface (14c) are formed.
As described above, in carrying out the present invention, the feeding cam (1
4) The configuration for not dividing the peripheral surface for forming the cam surface
No. Also, as described in the previous embodiment, the photographing optical system (PS)
When the focal length of the camera can be switched between two levels
In such a case, divide the peripheral surface of the feeding cam (14) into three or more parts.
It may be. Furthermore, the focal length of the shooting optical system (PS)
You may comprise so that it can switch to three or more steps. This
In the case of, even if the peripheral surface of the feeding cam (14) is divided into three
Often, it may be divided into two or four or more
It is not necessary. Furthermore, the feeding cam (14) in the previous embodiment is a rotary cam.
Was replaced by a direct-acting cam.
You may. In the above embodiment, the photographing optical system (PS) is housed.
The shutter block (4) and the movable lens barrel (8)
It is urged forward by the ring (6), and the
The fourth of the feeding lever (18) whose posture is changed in conjunction with the rotation
Insert the pin (18d) into the long hole (8a) of the movable barrel (8)
To position the photographic optical system (PS)
However, instead of this, it is linked to the motor (M).
Cam follower along the cam groove with the cam surface as the side wall
May be configured to move. [Effects of the Invention] As described above, the camera according to the present invention provides
System drive mechanism on the outer surface of the mounting frame of the imaging optical system.
And work to incorporate the drive mechanism of the imaging optical system
The property does not decrease. And the mounting frame of the shooting optical system
And the mounting frame of the viewfinder optical system are integrally formed.
The position between the two can be accurately determined without adjusting the mounting position
And, consequently, accurately determine the relative positions of the optical axes of both optical systems.
Can be In addition, the finder optical system
The interlocking mechanism extending to the system is provided outside the first mounting frame and the second mounting frame.
It is arranged so that it extends along the surface, and the driving device of the shooting optical system
Drive the viewfinder optical system
Drive the viewfinder without compromising workability
Can change the focal length of the shooting optics
Finder for changing the focal length of cameras
The mechanism for transmitting to the
You.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 shows an embodiment of a camera according to the present invention, FIG. 1 is an exploded perspective view of a photographing optical system and a viewfinder optical system, FIG. 2 is an overall plan view, and FIG. ) And (b) are rear views of the shutter block, and FIG.
4B shows a telephoto photographing state, respectively. FIG. 4 is an enlarged rear view of a main part of the shutter block in a standard photographing state. FIG. FIG. 6 is an exploded perspective view of a part of the retracting means for the sub lens, FIG. 7 is an enlarged side view of a part of the retracting means for the sub lens, and FIG. 9 (a) through 9 (c) are schematic plan views showing the relationship between the shutter block, the movable lens barrel, and the retracting means for the auxiliary lens, and FIG. 9 (a) is a standard photographing state. 9 (b) shows the focal length switching, FIG. 9 (c) shows the telephoto photographing state, FIG. 10 shows a perspective view of the photographing optical system in the standard photographing state, and FIG. FIG. 12 is a perspective view of the lever, FIG. 12 is a cross-sectional view of the feeding cam and the feeding lever,
FIG. 13 is a plan view of the feeding cam, FIG. 14 is a development view of a short focal length side focus adjusting cam surface of the feeding cam, FIG. 15 is a plan view of adjusting means for a support lever of the feeding lever, and FIG. FIG. 17 is a plan view of a position detecting pattern of the gear base plate, FIG. 18 is a bottom view of the gear base plate, FIG. 19 is a circuit diagram around the control device, FIGS. 20 (a) to 20 (e) are plan views of a driving mechanism for the photographing optical system.
Fig. 20 (a) shows the initial state where the photographing optical system is focused on the infinity position in the standard photographing state, and Fig. 20 (b) shows the state where the photographing optical system is focused on the closest position in the standard photographing state. FIG. 20 (c) shows the state when the focal length is switched, FIG. 20 (d) shows the initial state where the photographing optical system is focused on the infinity position in the telephoto state, and FIG.
FIG. 20 (e) shows a state in which the photographing optical system is focused on the closest position in the telephoto shooting state, FIG. 21 is a flowchart of the focus adjustment operation, FIG. 22 is a flowchart of the focal length switching operation, and FIG. 23 (a) through 23 (c) are longitudinal sectional views of the finder optical system. FIG. 23 (a) is a standard photographing state, FIG. 23 (b) is when the focal length is switched, and FIG. 23 (c) is telephoto. FIGS. 24 (a) to (c) are side views of the finder magnification switching means. FIG. 24 (a) is a standard photographing state, and FIG. FIG. 24 (c) shows a telephoto shooting state, respectively, and FIGS. 25 (a) and (b) are cross-sectional views showing the connection between the switching operation lever and the bevel gear.
FIG. 25 (a) shows the focal length switching, FIG. 25 (b) shows the focus adjustment, FIG. 26 is a schematic sectional view of the interlocking means, and FIGS. 27 (a) to (c) show the switching operation lever. Side view, 27th
FIG. 27 (a) shows the standard shooting state, FIG. 27 (b) shows the focal length switching state, FIG. 27 (c) shows the telephoto shooting state, and FIGS. 28 (a) to (c) show the switching operation lever. FIG. 25 (a) is a development view taken along the line X-X in FIG. 25 (a) showing the relationship between the bevel gear portion and the gear portion of the bevel gear.
28 (b) shows the focal length switching, and FIG. 28 (c) shows the telephoto shooting state, respectively. FIGS. 29 (a) and (b) show the relationship between the projection of the switching operation lever and the overhanging portion of the bevel gear. 29 (a) shows the focal length switching, FIG. 29 (b) shows the focus adjustment, and FIG. 30 is a part of a camera showing another embodiment of the switching operation tool. FIG. (5A) ... first mounting frame, (5B) ... second mounting frame,
(PS)… shooting optical system, (FS)… finder.

   ────────────────────────────────────────────────── ─── Continuation of front page        Panel     Referee Mimi Takahashi     Judge Hidetomo Higashimori     Judge Akira Watanuki                (56) References JP-A-62-286826 (JP, A)                 JP-A-55-157730 (JP, A)                 JP-A-63-26642 (JP, A)                 Japanese Patent Application Laid-Open No. 60-172032 (JP, A)                 Shokai Sho 61-150340 (JP, U)                 Actual opening Sho 62-30244 (JP, U)                 Shokai Sho 61-101733 (JP, U)                 Shokai Sho 61-206942 (JP, U)

Claims (1)

(57) [Claims] In a camera comprising: a first cylindrical mounting frame for a photographic optical system; a second cylindrical mounting frame for a finder optical system; and a driving mechanism for the photographic optical system, wherein the second mounting frame is The drive mechanism is integrally formed above the first mounting frame, and a part of a holding portion for holding the driving mechanism is formed on the first mounting frame, so that the driving mechanism is mounted on an outer surface of the first mounting frame. And a mechanism for transmitting a driving force from the driving mechanism to the internal photographing optical system through the first mounting frame, and further extending from the driving mechanism to the finder optical system. A camera, wherein an interlocking mechanism is disposed so as to extend along outer surfaces of the first mounting frame and the second mounting frame, and the finder optical system is driven by the driving mechanism. 2. 2. The camera according to claim 1, wherein the drive mechanism is disposed along a lower surface of the first mounting frame.