Photography – Having variable focal length of camera objective – Having focus operation
Reexamination Certificate
2001-07-12
2002-09-17
Perkey, W. B. (Department: 2851)
Photography
Having variable focal length of camera objective
Having focus operation
C348S357000, C348S352000, C359S696000
Reexamination Certificate
active
06453123
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention relates to the system to control zooming of the lens for digital still cameras receiving electronic signals (pulses) from micro controller unit (MCU), in which the program of zoom lens movement based on the lens design data is written, and also to control auto-focusing of the zoom lens using the very mechanism which drives the zooming of the lens receiving electronic signals (pulses) from the MCU or electronically controlled distance measuring system of the digital still camera.
2. Background art
In the case of digital still cameras, the zoom lens is usually to have the front (headmost) lens element or the first group of lenses fixed at the headmost position of the zoom lens assembly not to move. And the second group and the third group of the lenses move at a time to get the whole lens to work as a zoom lens. The movements of the second and third groups of the lenses change the focal length in straight succession working as a zoom lens. From wide angle (shortest focal length of the lens) to telephoto (longest focal length of the lens), the two groups of the lenses must be moved correspondingly each other. From one focal length position to another focal length position the moving strokes of two groups of lenses are determined by the design of the lens. Usually the moving strokes of these two groups of the lenses are controlled by cams mechanically, which are groove cams in most cases.
FIG. 1
shows a typical design of zoom lens with 2× (two times) zooming ratio for digital still cameras. As shown there the first group of lenses (
1
) is fixed at the front (headmost) position and does not move. The second group of lenses (
2
) and the third group of lenses (
3
) move back and forth according to the change of the focal length, and the lines (
4
,
5
) show the movements (tracks) of these two groups. The straight line (
4
) shows the movement (track) of the second group of lenses (
2
), and the curved line (
5
) shows the movement (track) of the third group of lenses (
3
). Each group moves at a time correspondingly each other following the predetermined tracks from one focal length -point to another. In
FIG. 1
, five focal length points are shown as examples of zooming positions. The position #1 shows the positions of the two groups of lenses at the focal length of 11.0 mm (the longest, telephoto position), #2 at the focal length of 9.615 mm, #3 at the focal length of 8.319 mm, #4 at the focal length of 6.913 mm and #5 at the focal length of 5.505 mm (the shortest, wide angle position).
To get the two groups of lenses to carry out the correspondent movements effectively, usually a mechanism with groove cams is used. FIG.
2
and
FIG. 2-
a
show the conventional and mechanical controlling system of zoom lens, which has six groove cams. One group of the lenses is controlled by three groove cams of same curve and dimensions as a set provided on the periphery of the outermost lens barrel (a tube to hold the whole lens assembly), and another set of three groove cams of same curve and dimensions provided on the same periphery of the lens barrel controls the other group of the lenses.
The first set of the groove cams (
6
) provided on the outermost lens barrel (
7
) controls the second group of the lenses (
2
), and the second set of the groove cams (
8
) provided on the outermost lens barrel (
7
) controls the third group of the lenses (
3
). At the bottom rim of the outermost lens barrel (
7
) the gear teeth (
9
) are provided, which are engaged with the driving gears (
10
) of the stepping motor (
11
). When the zooming switch is turned on, the stepping motor (
11
) starts rotating, and then the outermost lens barrel (
7
) starts rotating. While the outermost lens barrel (
7
) is rotating, the groove cams (
6
,
8
) move, too, and the two groups of the lenses (
2
,
3
) are also moving back and forth (up and down) by the movements of the pins (
12
) fixed on the lens barrel of each lens group and inserted into the slots of the groove cams, which move according to the curves of the groove cams (
6
,
8
). The curves of the groove cams (
6
,
8
) are to be designed according to the design data of the zoom lens accurately, namely according to the tracks like the tracks (
4
,
5
) shown in FIG.
1
. The direction of lens movement (back or forth) is determined by the direction of stepping motor rotation.
In this kind of mechanical controlling of zooming, the accuracy of the groove cams are highly required and it is very difficult to manufacture lens barrels with such accurate groove cams, and consequently the cost of such accurate parts and components is quite expensive. The assembling and adjustment of the lens with such controlling mechanism are also quite difficult.
Further more, to focus the lens automatically, so-called auto-focusing, it is usually necessary to adjust the position of one of the lens groups regardless of the lens zooming mechanism. Receiving signals from auto-focusing systems of the MCU or electronic distance measuring system of the digital still camera, one of the lens groups must move back and forth very slightly. However, in the case of theretofore-explained mechanical cam type zooming system, it is physically impossible because all the moving lens groups are connected to the zooming cam mechanism. If one of the lens group starts moving, other lens group starts moving too, and it is impossible for one of the groups alone to move separately from the zooming system. So in the case of mechanical cam zooming system of digital still cameras, usually the image sensor like CCD or C-MOS moves to adjust the lens focus instead of driving any of lens groups or lens element.
However, it is also extremely difficult to move the whole image sensor, which is connected to the print-circuit board (PCB), and it means that the image sensor must be moved together with a part of the PCB or with connecting wires.
The lens focusing of the digital still cameras must be adjusted with very small scale unit of a hundredth of millimeter, and if the focusing is adjusted by moving the image sensor, the horizontality of the image sensor against the lens must be also extremely high and the image sensor must be kept perfectly even with the lens. This kind of lens focusing method is also very difficult to carry out in comparison with the method of moving the lens element or one of the lens groups, which are held in lens barrels (tubes) and can move smoothly and easily back and forth (up and down).
FIG. 3
shows the mechanism of focusing by moving the image sensor. The image sensor (
13
) is placed just behind of the rearmost lens, and the image sensor is fixed on the base (
14
). The threaded bearing (
15
) is formed as a part of the image sensor base (
13
). The stepping motor (
16
) is provided to drive the auto-focusing mechanism, and the stepping motor has the screw rod (
17
) as an extension of the motor shaft. The screw rod is engaged with the female-screw-thread provided inner wall of the threaded bearing (
15
).
When the auto-focusing system switch is turned on, the stepping motor (
16
) rotates and the screw rod (
17
) rotates and the threaded bearing (
15
) moves back and forth (up and down). Thus the image sensor (
13
) moves back and forth (up and down) regardless of the movement of lens zooming.
The accuracy required for such movement of image sensor and adjustment of lens focus by such a delicate method is very high, and even if it is possible, it must be quite expensive.
To eliminate theretofore explained difficulties of controlling of lens zooming by cams mechanically and of adjusting lens focus by moving the image sensor, it is preferable to have a much simpler system with much less and inexpensive parts and components, and with much easier way of assembling.
SUMMERY OF THE INVENTION
In this invention the groove cams, which are used in conventional mechanism of zooming control, are eliminated, and instead of the cams the two lens groups are controlled by two stepping motors, and one st
Arc Design, Inc.
Perkey W. B.
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