JP2001013395A5 - - Google Patents

Description

[Claims]
1. A zoom lens device comprising a light amount setting means for variably setting a passing light amount of an optical system including a zoom unit and a focus unit, and a control means for driving control of the zoom unit.
The control means can limit the driving range of the zoom unit to a light amount maintaining range in which the actual passing light amount of the optical system is not reduced from the set passing light amount by the light amount setting means by driving the zoom unit.
In a state where the drive range for zooming of the zoom unit is limited to the light amount maintenance range, the drive control for correcting the angle of view fluctuation accompanying the drive of the focus unit of the zoom unit is performed regardless of the light amount maintenance range. A zoom lens device characterized by performing.
2. A zoom lens device comprising a light amount setting means for variably setting a passing light amount of an optical system including a zoom unit and a focus unit, and a control means for driving control of the zoom unit.
As the driving end of the zoom unit, the control means can set a light amount maintaining end in which the actual passing light amount of the optical system does not decrease from the set passing light amount by the light amount setting means by driving the zoom unit.
With the drive end for zooming of the zoom unit set to the light amount maintenance end, the drive control for correcting the angle of view fluctuation accompanying the drive of the focus unit of the zoom unit is performed regardless of the light amount maintenance end. A zoom lens device characterized by performing.
3. A zoom lens device comprising a light amount setting means for variably setting a passing light amount of an optical system including a zoom unit and a focus unit, and a control means for driving control of the zoom unit.
The control means can limit the driving range of the zoom unit to a light amount maintaining range in which the actual passing light amount of the optical system is not reduced from the set passing light amount by the light amount setting means by driving the zoom unit.
In a state where the drive range for zooming of the zoom unit is limited to the light amount maintenance range, the drive control for correcting the angle of view fluctuation accompanying the drive of the focus unit of the zoom unit is performed regardless of the light amount maintenance range. A zoom lens device characterized in that it selectively operates in a first mode to be performed and a second mode in which the driving range for correcting the angle of view fluctuation of the zoom unit is also limited to the light amount maintaining range.
4. A zoom lens device comprising a light amount setting means for variably setting a passing light amount of an optical system including a zoom unit and a focus unit, and a control means for driving control of the zoom unit.
As the driving end of the zoom unit, the control means can set a light amount maintaining end in which the actual passing light amount of the optical system does not decrease from the set passing light amount by the light amount setting means by driving the zoom unit.
With the drive end for zooming of the zoom unit set to the light amount maintenance end, the drive control for correcting the angle of view fluctuation accompanying the drive of the focus unit of the zoom unit is performed regardless of the light amount maintenance end. A zoom lens device characterized in that it selectively operates in a first mode to be performed and a second mode in which a driving end for correcting the angle of view fluctuation of the zoom unit is also set to the light amount maintaining end.
5. The light amount setting means includes a light-shielding member that variably sets a light passing area.
The zoom lens device according to claim 1 or 3, wherein the control means sets the light amount maintaining range according to the state of the light-shielding member.
6. The control means is
A zoom command information calculation unit that calculates zoom control command information for driving and controlling the zoom unit for correcting the angle of view fluctuation, and a zoom command information calculation unit.
A drive range calculation unit that calculates the light amount maintenance range based on the setting state of the light amount setting means, and
The zoom lens device according to claim 1 or 3, further comprising a drive control unit that controls the drive of the zoom unit based on the light amount maintenance range and the zoom control command information.
7. The zoom command information calculation unit performs the zoom control command based on focus command information for driving and controlling the focus unit and information on the positions of the focus unit and the lenses constituting the zoom unit, respectively. The zoom lens device according to claim 6, wherein the information is calculated.
8. The drive range calculation unit calculates the light amount maintenance range based on the information stored in the storage means in accordance with the setting state of the light amount setting means, claim 6 or 7. The zoom lens device described in.
9. The light amount setting means includes a light-shielding member that variably sets a light passing area.
The zoom lens device according to claim 2 or 4, wherein the control means sets the light amount maintaining end according to the state of the light-shielding member.
10. The control means is
A zoom command information calculation unit that calculates zoom control command information for driving and controlling the zoom unit for correcting the angle of view fluctuation, and a zoom command information calculation unit.
A drive end calculation unit that calculates the light amount maintenance end based on the setting state of the light amount setting means, and a drive end calculation unit.
The zoom lens device according to claim 2 or 4, further comprising a drive control unit that controls the drive of the zoom unit based on the light amount maintaining end and the zoom control command information.
11. The zoom command information calculation unit performs the zoom control command based on focus command information for driving and controlling the focus unit and information on the positions of the focus unit and the lenses constituting the zoom unit, respectively. The zoom lens device according to claim 10, wherein the information is calculated.
12. The drive end calculation unit calculates the light amount maintenance end based on the information stored in the storage means in accordance with the setting state of the light amount setting means, claim 10 or 11. The zoom lens device described in.
13. The zoom lens device according to claim 1, wherein the control means drives and controls the focus unit in response to a user operation.
14. Of the focus partFocusingToThe angle of view holding mode that drives the zoom unit to correct the fluctuation of the angle of view with respect to the reference angle of view and keeps the angle of view at the reference angle of view, and the reduction in the amount of light in the photographing optical system due to the driving of the zoom unit In a zoom lens device having a regulating function that regulates the shift of the zoom unit to the telephoto side from the reference value in order to prevent it.
A zoom lens device characterized in that control by the regulation function is prohibited when the angle of view holding mode is selected.
15. The zoom lens device according to any one of claims 1 to 14, and focus operation information necessary for calculating focus control command information for driving and controlling the focus unit according to a user operation. A zoom lens system characterized by having an operating device that outputs.
16. The zoom lens device according to any one of claims 1 to 14 is required to calculate zoom control command information for driving and controlling the zoom unit for zooming according to a user operation. A zoom lens system characterized by having an operation device that outputs various zoom operation information.
17. A camera system comprising the zoom lens system according to claim 15 or 16 and a camera to which the zoom lens device is mounted.

Therefore, an object of the present invention is to provide a zoom lens device capable of keeping the angle of view constant even when the focus is controlled at the end point of the zoom drive allowable range (light amount maintenance range) by the F value priority function. ..

Further, the present application In the fifth aspect of the invention, by driving the zoom unit to correct the angle of view for a greater reference angle to the focusing of the focusing unit that changes, angle retention for holding the angle to the reference angle The angle of view retention mode is selected for the zoom lens device that has a regulation function that regulates the shift of the zoom unit to the telephoto side from the reference value in order to prevent the light amount of the photographing optical system from decreasing due to the mode and drive of the zoom unit. When it is done, the control by the above regulation function is prohibited. This makes it possible to perform control that prioritizes maintaining the angle of view rather than maintaining the amount of light.

0014.
BEST MODE FOR CARRYING OUT THE INVENTION
FIG. 1 shows the configuration of the zoom lens device 101 according to the embodiment of the present invention. Reference numeral 4 denotes a CPU (control means), to which the zoom demand 1 and the focus demand 2 are connected. From the zoom demand 1, zoom speed data (zoom operation information) corresponding to the operation speed is input to the CPU 4. Further, from the focus demand 2, focus control data (focus operation information) corresponding to the operation amount is input. Further, the angle of view correction priority mode setting switch 3 is connected to the CPU 4. When the angle of view correction priority mode setting switch 3 is ON, the angle of view fluctuation correction function is prioritized over the F value priority function (first mode, angle of view holding mode), and when this is OFF, the angle of view fluctuation correction is performed. The F value priority function is prioritized over the function (second mode).

Next, in step 8, the output from the angle of view correction priority mode setting switch 3 is taken in, and in step 9, the state of the angle of view correction priority mode setting switch 3 is determined. When the angle of view correction priority mode setting switch 3 is ON, the angle of view correction priority flag is set in step 10A, and the process proceeds to step 11. On the other hand, when the angle of view correction priority mode setting switch 3 is OFF in step 9, the angle of view correction priority flag is cleared in step 10B, and the process proceeds to step 11.