GB2233773A - "Zoom lens camera" - Google Patents

Abstract

A zoom lens camera having a zoom switch means which is operated to drive a zoom lens, a zoom driving means for driving the zoom lens, a photometric means for measuring light from an object, an aperture driving means for driving an aperture in accordance with the result of the photometry that is conducted by the photometric means, and a control means for controlling, when an instruction is given to drive the zoom lens, the zoom driving means and the aperture driving means such that the drive of the zoom lens is suspended temporarily, and after the aperture is driven in accordance with the result of the photometry that is conducted by the photometric means, the drive of the zoom lens is resumed. The camera is still video or conventional and the control is designed to minimize power consumption. <IMAGE>

Description

BACKGROLNID OF THE MENTION

1. Field of the Invention

The present invention relates to a zoom lens camera having a power zoom function.

2. Description of the Related Art

In electronic still cameras (still video camera), which have increasingly spread in recent years,the image of one frame (one or two fields)is recorded on one track of a magnetic disk. Accordingly, the lo magnetic disk is controlled so that it makes one revolution at the period of one field (l/60 sec. according to NTSC).

Since the magnetic disk, which serves as a recording medium, is rotated at such a high speed, a large number of frames can be shot in quick succession (i.e., continuous shooting mode), e.g., 1, 2 or 5 frames per second, for a desired period of time.

By combining this continuous shooting mode with zooming, a series of images which is gradually enlarged or reduced can be photographed.

In addition, it is possible to check a change in the image before it is actually photographed, by setting a monitor mode in which the image that is read out from an imaging device is displayed on a monitor.

Incidentally, zooming causes the luminance to change in accordance with a change in the angle of view and therefore necessitates changing the aperture.

The conventional electronic still cameras suffer, however, from the problem that when zooming is to be conducted, as described above, the aperture is controlled while the zoom lens is being moved, and consequently associated elements, i.e., imaging circuit, recording circuit, aperture motor, tracking motor, spindle motor, etc., are simultaneously activated, resulting in an increase in the peak of the current consumed.

Accordingly, the load on the power supply circuit increases and the rated capacity thereof must be increased, which results in an increase in the overall size and a rise in the cost.

SLIMARY OF THE INV MION In view of these circumstances, it is an object of the present invention to enable zooming without increasing the overall size and cost of the apparatus.

The zoom camera of the present invention comprises: a zoom switch means which is operated to drive a zoom lens; a zoom driving means for driving the zoom lens in response to the operation of the zoom switch means; a photometric means for measuring light from an object; an aperture driving means for driving an aperture in accordance with the result of the photometry that is conducted by the photometric means; and a control means for controlling, when an instruction is given to drive the zoom lens, the zoom driving means and the aperture driving means such that the drive of the zoom lens is suspended temporarily, and after the aperture is driven in accordance with the result of the photometry that is conducted by the photometric means, the drive of the zoom lens is resumed.

In the zoom camera having the above-described arrangement, the zoom lens is driven in either the TELE or WIDE direction by the zoom driving means, which comprises, for example, a zoom motor, in response to the operation of the zoom switch means, which comprises, for example, a TELE or WIDE switch.

For example, the drive of the zoom lens is suspended after it has been moved for a predetermined time. While the zoom lens is at rest, the aperture is driven by the aperture driving means, which comprises, for example, an aperture motor,in accordance with the result of the photometry that is conducted by the photometric means. After completion of the drive of the aperture, the zoom lens is moved again for a predetermined time.

Thus, the zoom lens and the aperture are driven alternately but not -3simultaneously. Accordingly, it is Possible to minimize the peak of the driving current and hence possible to reduce the capacity and configuration of the power supply circuit and lower the cost.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will be described below in detail with reference to the accompanying drawings,in which:

Fig. 1 is a block diagram showing the arrangement of one embodiment in which the zoom camera of the present invention is applied to an electronic still camera; Fig. 2 is a flowchart showing a monitor mode processing in the embodiment shown in Fig. 1; and Fig. 3 is a flowchart showing more detailed processing steps in the zoom processing shown in Fig. 2.

is DESCRIPTION OF PREFERRED EMBODIMENTS

Fig. 1 is a block diagram showing the arrangement of one embodiment in which the zoom camera of the present invention is applied to an electronic still camera. In the figure, reference numeral 2 denotes a zoom lens through which light from an object 1 enters an imaging device 4, comprising, for example, a CCD, after passing through an aperture 3.

The zoom lens 2 is driven by a zoom motor 5, which is driven by a zoom driving circuit 6. The aperture 3 is driven by an aperture motor 7, which is driven by an aperture driving circuit 8.

An imaging circuit 9 reads out an image signal from the imaging device 4 and delivers its output signal to a signal processing circuit 10.

An encoder 11 encodes the output from the signal processing circuit 10 into an INTSC television signal, for example, and supplies it to a monitor 12.

A recording circuit 13 records a signal that is outputted from the signal processing circuit 10 onto a magnetic disk 15 through a magnetic head 14. A spindle motor driving circuit 16 drives a spindle motor 17 which rotates the magnetic disk 15. A tracking motor driving circuit 18 drives a tracking motor 19 which moves the magnetic head 14. 5 A track detecting circuit 20 detects a level, DPSK signal, control code signal, etc. from a reproduced signal that is outputted from the magnetic head 14, and outputs the detected information to a microcomputer 22 which serves as a control means. A photometric circuit 21 measures light from the object 1 and outputs the result of the photometry to the microcomputer 22.

A TELE switch 23 and a WIDE switch 24 are operated to move the zoom lens 2 in the TELE direction and the WIDE direction, respectively. A mode changeover switch 25 is operated to set various photographing modes. A release switch 26 is operated to effect a series of recording operations (e.g., photometry, exposure computation, aperture drive, imaging device exposure, reading, recording, track shift, etc.).

The release switch 26 comprises, for example, a two-stage switch which is arranged such that when the first-stage switch is turned on, photometry, distance measurement and exposure computation are executed, and when the second-stage switch is turned on, the following image recording operation is initiated.

A power supply circuit 27 has a battery therein to supply necessary electric power to the circuits, means, etc.

An optical finder 28, which is used to identify the object 1, has a light-receiving element 29 therein for photometry.

The operation will next be explained with reference to flowcharts shown in Figs. 2 and 3.

Light from the object 1 enters the imaging device 4 through the zoom lens 2and the aperture 3. A signal that is produced in the imaging device 4 through photoelectric conversion is read out to the imaging circuit 9 and -5then inputted to the signal processing circuit 10. The signal processing circuit 10 processes the input signal into a signal which is conformable to the format of the electronic still camera.

When the monitor mode is set through the mode changeover switch 25, the signal that is processed in the signal processing circuit 10 is inputted to the encoder 11, in which it is converted into a signal conformable to the NTSC format, for example, and the converted signal is then outputted to the monitor 12. In this way, the object 1 can be monitored through the monitor 12.

When the monitor mode is set, as described above, the photometric circuit 21 measures the light from the object 1 on the basis of the output from the light receiving element 29 and outputs the result of the photometry to the microcomputer 22. The microcomputer 22 computes the signal that is inputted thereto from the photometric circuit 21 to determine a correct is exposure quantity (Steps S1 and S2).

If the computed exposure quantity is the same as the one which has already been set, the set exposure quantity is left as it is, whereas, if the set exposure quantity is different from the computed value, the aperture driving circuit 8 drives the aperture motor 7 in accordance with the computed exposure quantity(S3 and S4). Thus, the aperture 3 is moved to a position where a given exposure is obtained.

Accordingly, the display 12 always displays.an image with a correct exposure.

Next, the microcomputer 22 starts its built-in timer to execute a zoom processing (S5 and SG).

More specifically, if the TELE switch 23 is on and a TELE limit switch (not shown) is not on, the microcomputer 22 drives the zoom motor 5 through the zoom driving circuit 6 to move the zoom lens 2 in the TELE direction (S21, S22 and S23).

If the TELE switch 23 is off, it is judged whether or not the WIDE -6switch 24 is on (S21 and S24). If the WIDE switch 24 is on and a WIDE limit switch (not shown) is not on, the zoom lens 2 is moved in the WIDE direction (S25 and S26).

Wherever the zoom lens 2 is moved, i.e., in the TELE direction or the WIDE direction, the drive of the zoom motor 5 is suspended when the limit switch concerned turns on (S22, S25 and S27).

This zoom processing is carried out until the timer finishes counting a predetermined time, which has been set in advance, or the-release switch 6 is turned on (S7 and S8).

After the predetermined time has elapsed, the drive of the zoom motor 5 is suspended. and the processing of Step S1 and those following it are repeated (S10).

If the release switch 26 is turned on before the predetermined time set on the timer has elapsed, a release processing is executed (S8 and S9).

More specifically, a signal that is outputted from the imaging device 4 is inputted to the signal processing circuit 10 through the imaging circuit 9. The signal, which is converted into a signal conformable to the format of the electronic still camera in the signal processing circuit 10, is inputted to the recording circuit 13 where it is frequency- modulated. The signal is then supplied to the magnetic head 14. In the meantime, the microcomputer 22 drives the spindle motor 1 through the spindle motor driving circuit 16 to rotate the magnetic disk 15 at a speed of 3,600 rpm. Accordingly, the image of one frame is recorded on a given track (one field) or two tracks (two fields) of the magnetic disk 15.

Upon completion of this recording, the microcomputer 22 drives the tracking motor 19 through the tracking motor driving circuit 18 to move the magnetic head 14 inwardly to the next track on the magnetic disk 15. Then, a signal is reproduced from this track. The reproduced signal is inputted to the track detecting circuit 20 from the magnetic head 14. The track detecting circuit 20 detects and outputs a level of the reproduced signal to the microcomputer 22.

The microcomputer 22 judges from the signal that is inputted thereto from the track detecting circuit 20 whether or not another image signal has already been recorded on the track concerned. If another image signal has already been recorded on the track, the magnetic head 14 is moved to a subsequent vacant track. In this way, it is checked whether or not image data is recordable on a track where the magnetic head 14 is placed.

After the release processing has been executed in this way, the process returns to the processing of Step SI.

Although the present invention has been described by way of an example in which it is applied to an electronic still camera, it should be noted that the present invention is also applicable to ordinary cameras which are designed to effect photographic recording on film, or video cameras.

As has been described above, the zoom camera of the present invention is arranged such that the movement of the zoom lens and the movement of the aperture are alternately conducted. It is therefore possible to minimize the peak of the power consumption. As a result, the power supply circuit can be reduced in terms of both the capacity and configuration, so that it is possible to reduce the overall size of the apparatus and make the camera compact for the carrying convenience. In addition, the cost is also lowered.

Claims (21)

CLAIMS:

1. A zoom lens camera comprising:

a zoom driving means for driving said zoom lens; an aperture driving means for driving an aperture; and a control means for controlling said driving means and said aperture driving means so that. when said zoom lens and said aperture are simultaneously instructed to be operated, said aperture is driven while a move of said zoom lens is temporarily suspended.

2. A zoom lens camera according to claim 1, further comprising a zoom switch means which is operated to drive said zoom driving means.

3. A zoom lens camera according to claim 1, further comprising a photometric means for measuring light from an object.

4. A zoom lens camera according to claim 3, wherein said aperture driving means drives said aperture in accordance with the result of the photometry which is conducted by said photometric means.

5. A zoom lens camera according to claim 1, further comprising a photometric means for measuring light from an object whereby said aperture driving means drives said aperture in accordance with the result of the photometry of said photometric means.

6. A zoom lens camera comprising:

a zoom switch means which is operated to drive a zoom lens; a zoom driving means for driving said zoom lens in response to the operation of said zoom switch means; a photometric means for measuring light from an object; an aperture driving means for driving an aperture in accordance with the result of the photometry which is conducted by said photometric means; and a control means for controlling said driving means and said aperture driving means so that. when said zoom lens and said aperture are simultaneously instructed to be operated, said aperture is driven while a -9move of said zoom lens is temporarily suspended, and after said aperture is driven in accordance with the result of the photometry which is conducted by said photometric means, the drive of said zoom lens is resumed.

7. A zoom lens camera according to claim 6, wherein said zoom driving means has a zoom motor which drives said zoom lens.

8. A zoom lens camera according to claim 6, wherein said zoom switch means has a tele and/or wide switch.

9. A zoom lens camera according to claim 8, wherein when said tele and/or said wide switch is "on" condition during photographing operation, said zoom lens is driven in either a tele direction or a wide direction by said zoom lens driving means.

10. A zoom lens camera according to claim 6, wherein said aperture driving means has a aperture motor which drives said aperture.

11. A zoom lens camera according to claim 6, further comprising a mode changeover switch means which selects a continuous photographing mode.

12. A zoom lens camera according to claim 6, wherein said control means comprises a microcomputer.

13. A zoom lens camera according to claim 6, wherein said camera is a still video camera.

14. A zoom lens camera comprising:

a zoom switch means which is operated to drive a zoom lens., a zoom driving means for driving said zoom lens in response to the operation of said zoom switch means:

a photometric means for measuring light from an object; an aperture driving means for driving an aperture in accordance with the result of the photometry which is conducted by said photometric means; and a control means for controlling said driving means and said aperture driving means so that, when said zoom lens is instructed to be operated, said aperture is driven while a move of said zoom lens is temporarily -10suspended, and after said aperture is driven in accordance with the result of the photometry which is conducted by said photometric means, the drive of said zoom lens is resumed.

15. A zoom lens camera according to claim 14, wherein said zoom driving 5 means has a zoom motor which drives said zoom lens.

16. A zoom lens camera according to claim 14, wherein said zoom switch means has a tele and/or wide switch.

17. A zoom lens camera according to claim 16, wherein when said tele and/or said wide switch is "on" condition during photographing operation, said zoom lens is driven in either a tele direction or a wide direction by said zoom lens driving means.

18. A zoom lens camera according to claim 14, wherein said aperture driving means has a aperture motor which drives said aperture.

19. A zoom lens camera according to claim 14, further comprising a is mode changeover switch means which selects a continuous photographing mode.

20. A zoom lens camera according to claim 14, wherein said control means comprises a microcomputer.

21. A zoom lens camera according to claim 14, wherein said camera is a still video camera.

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