JP2737184B2 - Camera focal length control device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a camera focal length control device that changes the focal length of a photographic lens.

B. Prior Art The present applicant has previously proposed a zoom camera capable of step zooming. That is, in this type of camera, a plurality of predetermined focal lengths (driving focal lengths) are set within the focal length range of the zoom lens, and the positions (driving focal lengths) of these driving focal lengths are set by operating the zooming operation member. The zoom lens is sequentially driven to the (front position).

For example, with a zoom lens having a focal length range of 35 mm to 80 mm and a driving focal length set to 35 mm, 50 mm, 70 mm, and 80 mm, the zoom operation member is operated when the focal length of the zoom lens is 35 mm. Then, the focal length
The zoom lens is driven to be 50 mm. Then
When the zooming operation member is operated when the focal length is 50 mm, the zoom lens is driven so that the focal length becomes 70 mm.

C. Problems to be Solved by the Invention However, in such a conventional camera, for example, when the focal length of the zoom lens is 35 mm and it is desired to set it to 70 mm, first, the zooming operation member is operated once to reduce the focal length. Wait until the next drive focal length is 50mm,
After that, the zooming operation member was operated again to set it to 70 mm. That is, the photographing lens cannot be driven at a stretch from 35 mm to 70 mm, resulting in poor operability.

It is a technical object of the present invention to enable a photographing lens to be driven at a stroke to a driving destination position having a desired focal length.

D. Means for Solving the Problems To be described with reference to FIG. 1 (a), which is a diagram corresponding to the claims, the camera focal length control device according to the first aspect of the present invention sets the photographing lens to the first focal length. The first position,
A driving unit 101 for driving at least between a second position serving as a second focal length and a third position serving as a third focal length between the first and second focal lengths; The operation member 102 switches to the release position when the operation is switched to the position, and the third position is operated when the operation member 102 is operated once when the photographing lens is at the first position. Setting means 103 for setting the second position as a driving position of the photographing lens when the operating member 102 is operated twice when the photographing lens is at the first position.
Storage means 104 for storing the driving position of the photographing lens set by the setting means 103; and driving the photographing lens from the first position to the stored driving position even when the operation of the operation member 102 is released. Control means 105 for controlling the driving means 101 to solve the above technical problem.

Also, referring to FIG. 1 (b), which is a claim correspondence diagram, a camera focal length control device according to a second aspect of the present invention includes the driving means 101 and the operating member 102 described above, and the photographing lens is Operating member 10 when in position 1
If the second lens is operated only for the first time, the third position is set as the driving position of the photographing lens, and when the photographing lens is at the first position, the operation member 102 is moved more than the first time. When the operation is performed for a long second time, the setting unit 203 sets the second position as the drive destination position of the photographing lens.
A storage unit 204 for storing the driving position of the photographing lens set by the setting unit 203; and driving the photographing lens from the first position to the stored driving position even when the operation of the operation member 102 is released. Control means 205 for controlling the driving means 101 to solve the above technical problem.

E. Operation (1) The setting means 105 sets the third position as the driving position of the photographing lens when the operating member 102 is operated once while the photographing lens is at the first position. Then, when the operation member 102 is operated twice, the second position is set as the driving position of the photographing lens. The storage unit 104 stores the set driving destination position of the photographing lens, and the control unit 105 controls the driving unit 101 so that the photographing lens is stored from the first position even when the operation of the operation member 102 is released. Drive to the destination position.

(2) The invention according to claim 2 The setting means 203 is provided when the operating member 102 is operated for a first time while the taking lens is at the first position.
The third position is set as the driving position of the taking lens, and when the operating member 102 is operated for a second time longer than the first time, the second position is set as the driving position of the taking lens. Set. The storage unit 204 stores the set driving destination position of the photographing lens, and the control unit 205 stores the driving unit 101
Is controlled, and the photographing lens is driven from the first position to the stored driving destination position even when the operation of the operation member 102 is released.

F. Embodiment -First Embodiment- A first embodiment of the present invention will be described with reference to FIGS.

2, a focal length detection circuit 2, a motor drive circuit 3, and a display circuit 4 are connected to a CPU 1 that controls the entire camera sequence.
An encoder 6 that detects the position of the zoom lens 5 is connected to the focal length detection circuit 2. The focal length of the zoom lens 5 is detected from the output of the encoder 6 and input to the CPU 1. Here, the focal length of the zoom lens 5 in the present embodiment is variable within a range of 35 mm to 80 mm.

A zooming motor 7 is connected to the motor driving circuit 3, and drives the zoom lens 5 by the motor 7 in response to a zooming signal from the CPU 1 to be described later to change the focal length. The display circuit 4 is connected to a liquid crystal display (hereinafter, referred to as LCD) 8 provided on the surface of the camera body, and drives the LCD 8 according to a command from the CPU 1 to display a focal length and the like.

Further, three switches ZUS, ZDS and SW1 are connected to the CPU1, respectively. The switches ZUS and ZDS are switches that are turned on in conjunction with the operation of a zoom-up button and a zoom-down button (not shown). The switch ZUS is turned on while the zoom-up button is being pressed (switching to the operation position). Instead, the switch ZDS is turned on (switched to the operation position) while the zoom-down button is being pressed. C
When the step zoom mode described later is not set, PU1 outputs a zooming signal to the motor drive circuit 3 according to turning on of the switches ZUS and ZDS.
While the ZUS is turned on, the focal length of the zoom lens 5 is changed to the telephoto side, and while the switch ZDS is turned on, the focal length is changed to the wide angle side. When the operation of the zoom up button and the zoom down button is released, the switches ZUS, ZDS
Are turned off (switched to the release position). The switches ZUS and ZDS are not turned on at the same time.

The switch SW1 is a switch that is turned on in conjunction with the operation of a mode setting button (not shown), and the CPU 1 sets the step zoom mode with the turning on of the switch SW1. When the step zoom mode is set, the CPU 1 sets the seven focal lengths 35 mm and 40 m shown in FIG. 3 based on the number of operations or the operation time of the switches ZUS and ZDS as described later in detail.
m, 45 mm, 50 mm, 60 mm, 70 mm, 80 mm) to output a zooming signal to drive the zoom lens 5. When the switch SW1 is turned on when the step zoom mode is set, the step zoom mode is released.

In the configuration of the above embodiment, the motor drive circuit 5 and the zooming motor 7 switch the drive means 101 to the switches ZUS, Z
The DS constitutes the operation member 102, and the CPU 1 constitutes the setting means 103, the storage means 104, and the control means 105.

Next, the control procedure of zooming when the CPU 1 sets the step zoom mode will be described based on the flowchart of FIG.

This program is started when the step zoom mode is set by turning on the switch SW1, and first, the step S1
Then, the count value K of the counter described later is cleared, and the timer is cleared in step S2, and the process proceeds to step S3. In step S3, it is determined whether or not the switch ZUS is on. If the switch is on, the count value K is increased by "+1" in step S9.
And proceed to step S10. On the other hand, when the switch ZUS is determined to be off in step S3, it is determined whether the switch ZDS is on in step S4.
At step 18, the count value K is incremented by "-1" and step S10 is performed.
Proceed to.

In step S10, while reading the count value K,
In step S11, the focal length at which the zoom lens 5 is to be driven (drive destination focal length) is set and stored.

That is, as shown in FIG. 3, the zoomable focal length range (35 mm to 80 mm) of the zoom lens 5 is divided into six regions A to F by the above seven focal lengths. Then, the focal length of the zoom lens 5 based on these areas A to F and the count value K is given to the CPU 1.
It is stored as a table as shown in the table shown in the figure.
The CPU 1 reads the current focal length of the zoom lens 5 from the focal length detection circuit 2 and based on the area (any one of A to F) including this focal length and the count value K read in step S11. The focal length for driving the zoom lens 5 is set, and this is stored in the storage area.

Here, the current focal length of the zoom lens 5 is 7
When the focal length is one, the focal length is included in one near area when performing zoom-in, and is included in one far area when performing zoom-down.
For example, if the current focal length is 50 mm, this 50 mm is included in the area C when zooming up and is included in the area D when zooming down.

Next, the process proceeds to step S12, in which the LCD 8
Is driven, the focal length set in step S11 is displayed, and the process proceeds to step S13. In step S13, switch ZUS
It is determined whether or not is still on, and if it is on, step S16
In, it is determined whether a predetermined time has elapsed from the update of the count value in step S9. When step S16 is affirmed, the process returns to step S9, and when denied, the process returns to step S13. If step S13 is denied, switch is performed in step S14.
Determine whether the ZDS is on. If off, step S17
To start the timer and return to step S3. If it is ON, it is determined in step S15 whether a predetermined time has elapsed from the update of the count value in step S18. When step S15 is affirmed, the process returns to step S18, and when denied, the process returns to step S14.

Here, since the switches ZUS and ZDS are not turned on at the same time as described above, steps S3 to S9 to
When step S13 is denied after S12, step S14 is naturally denied. Similarly, when the process proceeds from step S4 to step S13 via steps S18 and S10 to S12, step S13 is negative.

If it is determined in step S4 that the switch ZDS is turned off, the process proceeds to step S5, and it is determined whether a predetermined time has elapsed after the timer is started in step S17. If step S5 is denied, it is determined in step S25 whether or not the switch SW1 is on. If the switch SW1 is on, the step zoom mode is canceled to terminate the process, and if off, the process returns to step S3.

When step S5 is affirmed, the process proceeds to step S6, in which a drive signal is output to the motor drive circuit 3 to drive the zoom lens 5 to the drive destination focus drive set and stored in step S11. Accordingly, the motor drive circuit 3 starts driving the zoom lens 5 by the motor 7 toward the drive focal length. Next, in step S7, it is determined from the output of the focal length detection circuit 2 whether or not the zoom lens 5 has been driven to this driving focal length.
If the result is affirmative, the zoom lens 5 is stopped in step S8. Thereafter, the process returns to step S1.

According to the above procedure, when the step zoom mode is set,
If the switch ZUS is turned on in step S3, the count value K is incremented by "+1" in step S9,
After S10, the driving focal length of the zoom lens 5 based on the current focal length and the count value is set and displayed in steps S11 and S12. Thereafter, each time the switch ZUS is turned on, the count value is incremented by “+1”, and the driving focal length based on this (the focal length farther than the current focal length: the fifth focal length:
Is updated and displayed each time. And
Each time the switch ZUS is turned off, the timer starts in step S17, and if it is determined that the time is up in step S5,
The zoom lens 5 is driven to a position (drive destination position) having the last set drive focal length (steps S6 to S6).
8). That is, the drive destination position of the zoom lens 5 is determined by the number of times the switch ZUS is operated.

When the switch ZUS is continuously turned on for a predetermined time after the processing in step S9 after the processing in steps S10 to S12 (determined in step S16), the process returns to step S9 and the count value K is incremented by “+1”. Thereafter, the count value is incremented by "+1" at predetermined time intervals, and the drive focal length of the zoom lens 5 based on the count value K is set and displayed. Then, when the operation of the switch ZUS is released, the timer starts in step S17. After that, when the time-up is determined in step S5, the zoom lens 5 is moved to a position where the last set focal length of the driving destination is set as described above. Is driven. That is, when the switch ZUS is continuously operated, the drive destination position of the zoom lens 5 is determined based on the operation time.

As for the switch ZDS, the driving focal length of the zoom lens can be set to the nearer driving focal length (see FIG. 5) from the current focal length by the number of operations and the operation time as described above. The zoom lens 5 is driven to a position at which the drive focal length is set.

Therefore, according to the above description, no matter where the zoom lens 5 is located, by specifying a desired drive focal length in advance by a switch operation, the zoom lens 5 is moved from the current focal length to the designated drive focal length. It can be driven directly.

The focal length range of the zoom lens 5 is not limited to 35 mm to 80 mm. Further, the drive focal length of the photographing lens when the step zoom mode is set is not limited to that shown in FIG. In short, any zoom lens having three or more drive focal lengths may be used.

Further, the present invention can be applied to a camera in which a photographer can set three or more drive focal lengths by operating a button or the like.

Second Embodiment Next, a second embodiment of the present invention will be described with reference to FIGS.

In the first embodiment, when the step zoom mode is set, the focal length at which the zoom lens 5 (FIG. 2) is driven is predetermined as shown in FIG. 3, but in the present embodiment, when the step zoom mode is set, By operating switches ZUS and ZDS,
A drive focal length can be set for each predetermined unit focal length from the current focal length of the zoom lens 5 (hereinafter, referred to as fp).

In the first embodiment, it is impossible to start the driving of the zoom lens 5 after setting the focal length of the driving destination, and to reset the driving lens during the driving. Also, the focal length of the driving destination can be set.

When the switch SW1 is turned on when the step zoom mode is not set, the step zoom mode is set, and the program in FIG. 6 is started accordingly. First, step S51
Reads the current focal length f _P of the zoom lens 5 from the focal length detection circuit 2, clears the count value K in step S 52, and clears the timer in step S 53.
Next, in step S54, it is determined whether the switch ZUS or the switch ZDS is turned on. If step S54 is denied, the process proceeds to step S56, and if affirmative, step S10 is performed.
Go to subroutine 0. This subroutine is for changing the drive destination position of the zoom lens 5, and details thereof are shown in FIG.

In FIG. 7, first, it is determined in step S101 whether or not the switch ZUS is on. If the result is negative, the process proceeds to step S105, and if the result is affirmative, the process proceeds to step S102. In step S102, the count value K is incremented by "+1", and then step
Proceed to subroutine of S300. This subroutine is for setting and displaying the drive destination position of the zoom lens 5, the details of which are shown in FIG.

In FIG. 8, first, in step S301, the zoom lens 5
The driving _destination: focal length f _T, as well as operation set by _{f T = f P + Δf ×} K ... (1), and stores the driving _destination: focal length f _T in the storage area. Here, Δf is the zoom lens 5
Is a unit focal length for driving, for example, 10 mm is set in advance. Next, in step S302, the calculated driving focal length for driving the zoom lens 5 is calculated.
It is determined whether f _T is larger than the focal length f _MAX (for example, 80 mm) at the telephoto end of the zoom lens 5. Step 302
There If a negative flow proceeds to step S304, the process proceeds to step S304 the focal length f _MAX as the driving destination: focal length f _T in step S303 if an affirmative. In step S304, the driving destination: focal length f _T calculated in step S301 is equal to or focal length f _MIN (e.g. 35 mm) is smaller than at the wide-angle end of the zoom lens 5. Step S304 is negative the process proceeds to step S306, the process proceeds to step S306 the focal length f _MIN as a driving destination: focal length f _T at step S305 when it is affirmed. Step S306
So the LCD8 via the display circuit 4 (FIG. 2) to display the set driving destination focal length f _T.

Then, returning to FIG. 7, in step S103, the switch ZUS
It is determined whether or not is still ON. If step S103 is denied, the process proceeds to step S105. If affirmed, in step S104, it is determined whether a predetermined time has elapsed from the end of the process of step S300. If step S104 is denied, the process returns to step S103, and if affirmed, the process returns to step S102.

In step S105, it is determined whether or not the switch ZDS is on. If the determination is affirmative, the process proceeds to step S106. If the determination is negative, the process returns to the process in FIG. Step S106, the count value K in the run mode by "-1", the program proceeds to the subroutine of step S300 (Figure 8), to set and display the driving destination: focal length f _T as described above.

Thereafter, in step S107, it is determined whether the switch ZDS is still on. If step S107 is denied, the process returns to the process of FIG. 6, and if affirmed, in step S108,
It is determined whether a predetermined time has elapsed from the end of the process in step S300 after step S106. If step S108 is denied, the process returns to step S107, and if yes, step S106
Return to

Thereafter, the process returns to FIG. 6, starts the timer in step S55, and proceeds to step S56. In step S56, whether or not a predetermined time has elapsed since the timer was started,
That is, it is determined whether or not the time is up. Step S56
Is negative, the process returns to step S54, and if affirmative, the subroutine of step S200 is executed. This subroutine performs a zooming process, and details thereof are shown in FIG.

In FIG. 9, first, in step S201, it is determined whether f _T = f _P or not.
That zoom lens set driving destination focal length f _T 5
Is determined whether or not is currently located. If step S201 is affirmed, the process proceeds to step S60 of FIG. 6, which will be described later, and if denied, the process proceeds to step S202. In step S202, f _T
> It is determined whether the f _P, the step in the case of f _T> f _P
Zoom up is started in S203. That is, the motor 7 is driven by the motor drive circuit 3 to change the focal length of the zoom lens 5 to the far side. On the other hand, in step S202
If f _T <f _P is determined, zoom-down is started in step S204. That is, the motor 7 is driven by the motor drive circuit 3 to change the focal length of the zoom lens 5 to the near side.

After step S203 or S204 is to return to the six diagrams the process proceeds to step S58 reads the current focal length f _P from the focal length detection circuit 2 at step S57. Step S
In 58, it is determined whether or not f _P = f _T, if a negative the program proceeding to the step S61. In the step S61, it is determined whether or not the switch ZUS or the switch ZDS is turned on. If the result is negative, the process returns to the step S57. If the result is affirmative, the processing of the above-described step S100 (FIG. 7) is performed. (FIG. 9) and returns to step S57.

When step S58 is affirmed, the process proceeds to step S59, in which the zoom lens 5 is stopped. Then, in step S60, it is determined whether the mode setting switch SW1 is on. If it is on, it ends the process and returns to normal processing (not shown), and if it is off, it returns to step S51.

According to the above procedure, when the step zoom mode is set,
When the switch ZUS is operated a plurality of times, the count value K is incremented by "+1" each time the switch ZUS is operated, and the drive focal length of the zoom lens 5 is incremented each time this step is performed based on the above equation (1). f _T is displayed. That is, the unit focal length Δ
If the f and 10mm, the driving destination: focal length f _T is changed to 10mm increments far side at every operation of the switch ZUS. When the switch ZUS is continuously operated, the count value K is incremented by “+1” at predetermined time intervals, and the drive focal length is changed.
f _T is changed to the far side by 10 mm.

On the other hand, when the switch ZDS is operated a plurality of times or continuously, the count value K is incremented by “−1” in accordance with the number of operations or the operation time, and the driving is performed accordingly. above: focal length f _T is changed to 10mm increments near side.

Thereafter, when the predetermined time from OFF switch ZUS or ZDS has elapsed, zooming is started toward the set driving destination focal length f _T. When the switch ZUS or ZDS during driving of the zoom lens 5 by the zooming is operated, the same manner as described above drive destination: focal length f _T is newly set, zooming towards this new drive destination: focal length f _T is started Is done.

The unit focal length described above is not limited to 10 mm, and may be any value as long as three or more drive focal lengths can be set.

In the first and second embodiments, the zooming is started after a predetermined time has elapsed after the setting of the driving focal length. For example, when any operation is performed after the setting of the driving focal length, the zooming is started. May be started.

Further, an example using a zoom lens has been described, but any photographing lens that can have three or more focal lengths may be used.

G. Effects of the Invention According to the first aspect of the present invention, a desired drive destination position is set from a plurality of drive destination positions that can be set according to the number of times the operation member is operated, and the operation of the operation member is released. Since the photographing lens is driven to the set driving destination position, for example, at the time of the above-described step zoom, the photographing lens can be directly driven from the current position of the photographing lens to a desired driving destination position. The performance is improved.

According to the second aspect of the present invention, a desired driving destination position is set from a plurality of settable driving destination positions according to the operation time of the operation member, and the set driving is performed even when the operation of the operation member is released. Since the shooting lens is driven to the front position,
The same effect as described above can be obtained.

[Brief description of the drawings]

1 (a) and 1 (b) are claims correspondence diagrams. 2 to 5 show a first embodiment of the present invention, FIG. 2 is a block diagram showing an overall configuration of a focal length control device according to the present invention, and FIG. 3 is a drive focus at the time of step zooming. FIG. 4 is a diagram showing a distance, FIG. 4 is a flowchart of a processing procedure, and FIG. 5 is a diagram showing a driving focal length of a photographing lens corresponding to a count value. 6 to 9 show a second embodiment of the present invention, and are flowcharts each showing a processing procedure. 1: CPU, 3: Motor drive circuit 5: Zoom lens 7: Zooming motor 101: Driving means, 102: Operation member 103: Setting means, 104: Control means ZUS: Zoom up switch ZDS: Zoom down switch

Continued on the front page (72) Inventor Kazumi Kazami 1-6-3 Nishioi, Shinagawa-ku, Tokyo Nikon Oi Works Co., Ltd. (72) Inventor Toshiyuki Nakamura 1-3-6 Nishioi, Shinagawa-ku, Tokyo Stock Company (56) References JP-A-58-125005 (JP, A) JP-A-58-103273 (JP, A)

Claims (2)

(57) [Claims] 1. An imaging lens according to claim 1, wherein said first lens has a first focal length.
, A second position that is a second focal length, and the first
A driving unit that drives at least between a third position that is a third focal length between the second focal lengths, an operating member that switches to an operating position when an operation is applied and switches to a release position when the operation is released, and When the operating member is operated once while the photographing lens is at the first position, the third position is set as a driving position of the photographing lens, and the photographing lens is moved to the first position. Setting means for setting the second position as the driving position of the photographing lens when the operating member is operated twice, and storing the driving position of the photographing lens set by the setting means And control means for controlling the driving means so as to drive the photographing lens from the first position to the stored driving destination position even when the operation of the operation member is released. Camera Focal length control device. 2. An imaging lens according to claim 1, wherein said first lens has a first focal length.
, A second position that is a second focal length, and the first
A driving unit that drives at least between a third position that is a third focal length between the second focal lengths, an operating member that switches to an operating position when an operation is applied and switches to a release position when the operation is released, and When the operating member is operated for a first time while the photographing lens is at the first position, the third position is set as a driving position of the photographing lens, and the photographing lens is When the operating member is operated for a second time longer than the first time while the camera is at the first position, the second position is set as a driving position of the photographing lens. Setting means; storage means for storing the driving position of the photographing lens set by the setting means; and storing the photographing lens from the first position even if the operation of the operating member is released. To drive to position A focal length control device for a camera, comprising: control means for controlling the driving means.