JP3899322B2 - Electronic imaging device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an electronic imaging apparatus capable of converting an optical image passing through an optical lens into an electric signal, recording the electric signal on various recording media, and reproducing a video signal from the recording medium.
[0002]
[Prior art]
In recent years, electronic cameras (electronic imaging devices) that are completely different from conventional cameras using silver salt films have been developed. This camera uses a two-dimensional solid-state imaging device such as a CCD (charge coupled device) and the like, obtains an image of a subject with this imaging device, converts it into an electrical signal, and stores this electrical signal in a recording medium. As the recording medium, a memory card, a magnetic disk, a magnetic tape, or the like is used.
[0003]
Then, the video signal recorded on the recording medium is read and reproduced later, and the reproduced image is displayed on a television monitor or the like, or recorded as a hard copy with a video printer and viewed.
[0004]
As a conventional example of an electronic imaging apparatus, a block diagram of an electronic still camera using a magnetic disk such as a floppy disk as a recording medium is shown in FIG.
[0005]
As shown in the figure, an electronic still camera includes an imaging system 61 that converts an optical image into an image signal, an optical system 60 that forms an object image on the imaging system 61, and an external input terminal for inputting an image signal from the outside. 38, an input switching circuit 37 for selecting and outputting one of the image signal from the external input terminal 38 and the image signal from the imaging system 61, and the image signal given through the input switching circuit 37 is a frequency. An FM modulation circuit 39 for modulating, a mixer 40 for mixing the modulation output of the FM modulation circuit 39 and the modulation output of the DPSK modulation circuit 48, and a signal level necessary for recording the output of the mixer 40 on the magnetic disk 44. A recording circuit 41 for converting to a recording signal, a recording / reproducing head 43 for performing recording / reading on the magnetic disk 44, and an output of the recording circuit 41 are provided to the magnetic head 43 for recording / reproducing. The recording / reproduction changeover switch 42 for giving the read output of the recording head 43 to the reproduction circuit 50, the FM demodulation circuit 51 for FM-demodulating the reproduction signal from the magnetic disk 44 reproduced and outputted from the reproduction circuit 50, and the reproduction from the reproduction circuit 50 The output of the DPSK demodulating circuit 53 and the FM demodulating circuit 51 that perform DPSK demodulation on the reproduced signal from the magnetic disk 44 that has been output is processed into a video signal composed of a luminance signal (Y) and a chroma signal (C). Reproduction process circuit 52, character generator 54 for generating character information, superimpose circuit 55 for synthesizing the output of reproduction process circuit 52 and the output of character generator 54, and an electronic for displaying the output from superimpose circuit 55 Output from view finder (EVF) 56 and superimpose circuit 55 An external output terminal 57 for taking out the head, a head access mechanism 45 for seeking the head 43, a motor 46 for rotationally driving the magnetic disk 44 as a recording medium, a spindle motor drive circuit 47 for driving and controlling the motor 46, various mode displays And a display unit 58 for performing status display, an operation unit 59 including switches for various operations of the camera, a system controller 49 for controlling these components, and the like.
[0006]
The DPSK modulation circuit 48 is a circuit that performs DPSK modulation (differential phase shift keying) on date and clock information output from the system controller 49. The display unit 58 is a low power consumption flat panel display using a liquid crystal display or the like, and can display characters and symbols.
[0007]
In the camera having such a configuration, at the time of recording (at the time of shooting), an optical image that has passed through the optical system 60 is formed on an imaging system 61 such as a CCD, and the optical image is converted into an electrical signal in the imaging system 61. Converted. An output signal (video signal) from the imaging system 61 is given to an FM modulation circuit 39 via an input switching circuit 37 for switching a signal from the imaging system 61 and a signal from the external input terminal 38, where FM modulation is performed. Is done.
[0008]
On the other hand, a data code signal including information such as date is output from the system controller 49, this data signal is DPSK modulated by the DPSK modulation circuit 48, and mixed with the video signal FM-modulated by the mixer 40.
[0009]
After that, the mixed signal is processed by the recording circuit 41 for recording on the magnetic disk 44 as a recording medium, and the recording / playback switch 42 set on the recording (R) side by the system controller 49 is set. And supplied to the recording / reproducing head 43 and recorded on the recording medium 44.
[0010]
The position of the recording / reproducing head 43 is controlled by the system controller 49 controlling the head access mechanism 45. The magnetic disk 44 is rotated at a constant speed by a motor 46 that is driven and controlled by a spindle motor drive circuit 47, and the spindle motor drive circuit 47 is controlled by a system controller 49.
[0011]
During reproduction, a signal is reproduced from the magnetic disk 44 by the recording / reproducing head 43. This time, the reproduction signal is supplied to the reproduction circuit 50 through the recording / playback switch 42 set to the reproduction (P) side by the system controller 49. The signal that has passed through the reproduction circuit 50 is supplied to an FM demodulation circuit 51 and a DPSK demodulation circuit 53, respectively. The FM demodulation circuit 51 demodulates the video signal, and the DPSK demodulation circuit 53 demodulates the data signal. Thereafter, the video signal is supplied to the reproduction process circuit 52 to become a video signal of a luminance signal (Y) and a chroma signal (C; chrominance signal), and is supplied to the superimpose circuit 55.
[0012]
On the other hand, the data signal demodulated by the DPSK demodulation circuit 53 is converted into a character signal corresponding to the content of the data signal by the character generator 54 via the system controller 49 and output to the superimpose circuit 55.
[0013]
The superimpose circuit 55 adds the character signal to the video signal, and the video signal to which the character signal is added is supplied to the EVF 56 and the external output terminal 57. Accordingly, the playback video and data contents are displayed by the EVF 56, and if a monitor device is connected to the external output terminal 57, the playback video and data contents are also displayed on the monitor device.
[0014]
Switching between the reproduction mode and the recording mode is set by a mode changeover switch in the operation unit 59, and operations such as shooting operation, frame designation, reproduction, and deletion of an image to be reproduced can be performed by the operation unit 59.
[0015]
Note that mode display and other various displays are performed on the display unit 58 under the control of the system controller 49.
[0016]
As can be seen from this conventional example, the electronic imaging apparatus has two operation modes, a recording mode and a reproduction mode, and the operation method and electrical characteristics (current consumption, etc.) are completely different depending on these modes.
[0017]
Conventionally, in order to switch between the two modes, an electronic still camera or the like uses a mode switching switch such as a slide switch, and the recording mode and the reproduction mode are switched depending on the state of the switch. .
[0018]
Cameras often have a lens cover, front view shutter, etc. that covers and protects the front surface of the lens, photometry system, and viewfinder when not in use. Therefore, these cover the lens and viewfinder. If this is the case, it cannot be used as a recording mode for photographing. However, in the conventional method, as disclosed in Japanese Utility Model Laid-Open No. 1-70475 and Japanese Patent Laid-Open No. 63-128329, the front surface of the lens is used. Even though the power switch is controlled by the opening / closing operation of the shutter (or cap) that protects, the mode switching operation is not involved at all.
[0019]
Therefore, the switching between the recording mode and the reproduction mode must be manually set and confirmed every time the user uses it, which is inconvenient.
[0020]
[Problems to be solved by the invention]
As described above, in the conventional apparatus, the switching of the recording / reproducing mode is set by the slide switch or the like, and the state of the lens surface of the camera (for example, the cap or the cover is closed). Therefore, when using the camera, the user must check whether the camera is currently in the recording / playback mode, depending on the switch status and various display devices. .
[0021]
Accordingly, an object of the present invention is to provide an electronic imaging apparatus that has good operability and can be operated quickly.
[0022]
[Means for Solving the Problems]
In order to achieve the above object, an electronic imaging apparatus according to claim 1 of the present invention includes an imaging means for converting a subject image formed by a photographing lens into video information, and a subject image captured by the imaging means. Recording means for processing and recording as an image signal on a recording medium, reproducing means for reproducing the image signal recorded on the recording medium, and display means for displaying the image signal reproduced by the reproducing means And before Protective cover that can be set at each position whether it is protected by covering the photographic lens by moving it in a direction substantially orthogonal to the optical axis of the photographic lens at a position closer to the subject than the photographic lens And an electronic imaging device having means Before The protective cover means is set to a position that covers and protects the photographing lens and the power supply power off state is set to a position where the protective cover means exposes the photographing lens and the power supply power on state is changed. In this case, the recording mode is automatically set, the protective cover means is set to a position to cover and protect the photographing lens, and the protective cover means covers the photographing lens from a power-off state. The playback mode is automatically set when the power supply is turned on in the protected position. If no operation is performed for a predetermined time after the playback mode is set, the power is automatically turned off. In addition, the protective cover means is set to a position that covers and protects the photographing lens, and the protective cover means is set to a position that exposes the photographing lens from the power-off state, and the power-supply power-on state. After the recording mode capable of recording by the recording means is automatically set when transitioning to By operating the switch means to enter the playback mode Even if the protective cover means remains in the position where the photographing lens is exposed. Switch to the playback mode .
[0023]
In the above configuration, the protective cover means is set to a position where the photographing lens is exposed and the power supply is turned on. Case Is automatically set to the recording mode, while the protective cover means covers the photographic lens and keeps the position where it is protected to make a transition to the power-on state. Case Will automatically set the playback mode. Furthermore, even if the protective cover is in a state where the photographing lens is exposed, the recording mode can be switched to the reproduction mode.
[0024]
In the present invention, when the switch means is operated, the protective cover is forcibly switched to the reproduction mode even if it is in a position where the photographing lens for performing the recording mode is exposed. It is possible to quickly switch to the playback mode, improving operability.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described by taking the case of an electronic still camera as an example with reference to the drawings.
[0026]
[First embodiment]
FIG. 1 is a schematic diagram of an electronic still camera device according to the present invention, and FIG. 2 is a block diagram of the electronic still camera device. In FIG. 1, reference numeral 1 denotes a camera taking lens, 2 denotes an autofocus (AF) and photometric sensor provided on the front surface of the camera, 3 denotes a shutter button provided on the upper surface of the camera, and 4 denotes switch means for detecting an external operation. The recording / reproducing mode switching command switch (mode forced switch) 5 is a floppy disk insertion slot provided on the side of the camera.
[0027]
Reference numeral 6 denotes an eject button for ejecting the floppy disk, 7 an LCD (liquid crystal) display device provided on the upper surface of the camera, 8 a power switch, 9 a built-in flash, 10 a lens 1 on the front of the camera, a photometric sensor, etc. It is an openable protective cover that covers. The protective cover 10 is composed of, for example, a hard light-shielding body, and is slid to expose the lens 1 and the photometric sensor at the time of photographing (recording) and to cover and protect them at other times. .
[0028]
The block diagram shown in FIG. 2 shows the circuit configuration of the camera according to the present invention, wherein 10 is a protective cover, 11 is an optical system, 12 is an image pickup circuit such as a CCD (charge coupled device), and 13 is FM. A modulation circuit, 14 is a recording circuit, 15 is a recording / reproducing circuit changeover switch, 16 is a recording / reproducing head, 17 is a head access mechanism, and 18 is a recording medium. Here, a magnetic disk such as a floppy disk is used. An example is shown.
[0029]
19 is a motor, 20 is a spindle motor drive circuit, 21 is a system controller, 22 is a reproduction circuit, 23 is an FM demodulation circuit, 24 is a reproduction process circuit, 25 is a superimpose circuit, 26 is an EVF, 27 is a character generator, 28 Is a display unit, 29 is an operation unit, 30 is a light shield detection means, and 31 is a recording / playback mode manual switching setting switch.
[0030]
The imaging circuit 12 converts an optical image into an image signal, the optical system 11 forms an object image on the imaging circuit 12, and the FM modulation circuit 13 frequency-modulates the image signal supplied from the imaging circuit 12. The recording circuit 14 converts the output from the FM modulation circuit 13 into a recording signal having a current level necessary for recording on the magnetic disk 18.
[0031]
The recording / reproducing head 16 is for performing recording / reading with respect to the magnetic disk 18, and the recording / reproducing circuit changeover switch 15 supplies the output of the recording circuit 14 to the magnetic head 16, and reading of the recording / reproducing head 16 is performed. The output is given to the reproduction circuit 22.
[0032]
The head access mechanism 17 is for seeking the position of the recording / reproducing head 16, and the motor 19 is for rotating the magnetic disk 18 as a recording medium at a constant speed. The spindle motor drive circuit 20 is for driving and controlling the motor 19, and the reproduction circuit 22 amplifies the signal read by the recording / reproduction head 16 and outputs it.
[0033]
The FM demodulation circuit 23 demodulates the video signal from the output from the reproduction circuit 22, and the reproduction process circuit 24 converts the video signal from the reproduction circuit 22 into a video signal composed of a luminance signal (Y) and a chroma signal (C). The character generator 27 is a circuit that generates a character signal corresponding to the character code output from the system controller 21.
[0034]
The superimpose circuit 25 adds the character signal to the video signal and outputs it. The EVF 26 displays the video signal with the character signal added as an image.
[0035]
The display unit 28 is used to display various modes and statuses, and is configured using a low power consumption flat panel display using a liquid crystal display or the like so that characters and symbols can be displayed. It has become.
[0036]
The operation unit 29 gives the system controller 21 operation inputs of various switches for various operations of the camera such as the mode switching command switch 4, the recording / reproducing mode manual switching switch 31, and other trigger switches, calendar settings, clock settings, and the like. The protective cover detection mechanism 30 detects the position of the protective cover 10 that can be opened and closed to cover and protect the front surface of the lens, photometry system, and viewfinder when the camera is not used. A signal output function.
[0037]
The mode switching command switch 4 is a switch provided in the camera shown in FIG. 1, and is a system controller for forcibly executing the setting mode by the recording / reproducing mode manual switching setting switch 31 for designating the recording / reproducing mode. 21 is a switch for giving a command to 21 and can set the mode regardless of the position of the protective cover 10 by setting the recording / reproducing mode manual switching setting switch 31 and operating the mode switching command switch 4. is there.
[0038]
In addition, the system controller 21 controls the center of each component. Basically, in the camera of the present invention, the recording / reproducing mode is determined by the position of the protective cover 10. Therefore, unless the mode switch 4 is pressed after the power is turned on, the setting mode of the recording / reproducing mode manual switch setting switch 31 is not effective.
[0039]
An example of the protective cover detection mechanism 30 is shown in FIG. As shown in the figure, the protective cover 10 is guided between the front side of the camera by the guide 10a and slides between the lens arrangement side and the standby side. When the protective cover 10 is moved to the lens arrangement side, this protection is performed. The detecting means (switch) operated by the cover 10 is provided in the guide 10a portion. Since the protective cover detection mechanism 30 only needs to have a configuration that operates when the protective cover 10 is moved to the lens arrangement side, various desired configurations can be adopted in addition to such a configuration.
[0040]
In such a configuration, when the protective cover 10 is closed, the protective cover detection mechanism 30 installed on the guide 10a of the protective cover 10 is pushed and operated accordingly, and when the power is turned on, the protective cover detection mechanism 30 is turned on. Thus, the contact signal can be obtained. Conversely, when the power is turned on with the protective cover 10 open, it can be detected from the state of the protective cover detection mechanism 30 that the protective cover 10 is open.
[0041]
Now, it is assumed that the power switch 8 is turned on with the recording / reproducing mode manual switching setting switch 31 set to the recording side, and the power of the camera is turned on. Then, the system controller 21 determines the state of the protective cover 10 based on the contact output of the protective cover detection mechanism 30.
[0042]
When the system controller 21 determines that the lens 1, the photometric sensor 2, the strobe 9 and the like are exposed to the outside according to the contact output status of the protective cover detection mechanism 30, the system controller 21 starts up the camera as a recording mode.
[0043]
Then, the system controller 21 sets the internal recording / reproducing circuit change-over switch 15 to the R side, which is the recording mode side, and starts supplying power to the imaging and recording system circuits. When the user presses the trigger switch, that is, the shutter button 3, the autofocus function, the exposure control mechanism, and the like function to control the optical system, and the subject image is formed on the image pickup circuit 12 to perform shooting. The
[0044]
The image signal of the subject image is output from the imaging circuit 12 and input to the FM modulation circuit 13 for frequency modulation. Then, the current signal is converted into a current signal by the recording circuit 14 and applied to the head 16 via the recording / reproducing circuit changeover switch 15, whereby the image signal of the photographed subject image is recorded on the magnetic disk 18.
[0045]
On the other hand, when the power is turned on with the protective cover 10 closed, even if the recording / reproducing mode manual changeover switch 31 is on the recording side, it is in accordance with the contact output status of the protective cover detection mechanism 30 regardless of this. The mode is set to the playback mode that is the mode.
[0046]
That is, in this state, the system controller 21 determines that the lens 1, the photometric sensor 2, the strobe 9, etc. are covered with the protective cover 10 according to the contact output status of the protective cover detection mechanism 30, and sets the camera to the playback mode. Launch. That is, only the playback system circuit is operated by supplying power to only the camera playback system circuit. Therefore, in this mode, shooting cannot be performed even if the shutter button 3 is pressed.
[0047]
That is, in this state, the system controller 21 performs control so that power is not supplied to the photographing system and recording system circuits, while the system controller 21 sets the internal recording / reproduction circuit change-over switch 15 to the P side which is the reproduction mode side. Set to. In addition, power is supplied to the reproduction system circuit to enable reproduction operation.
[0048]
When the user designates a frame via the operation unit 29 and gives a read command to the system controller 21, the system controller 21 controls the motor drive circuit 20 to rotate the motor 19 and control the head access mechanism 17. Then, the recorded image data of the designated frame is read from the magnetic disk 18.
[0049]
The read signal is applied to the reproduction circuit 22 via the recording / reproduction circuit change-over switch 15, amplified there, and then applied to the FM demodulation circuit 23, where it is FM demodulated. Then, it is converted into a video signal through the reproduction process circuit 24.
[0050]
Further, the system controller 21 gives a character code for displaying necessary information according to the operation and the current situation to the character generator 27, and the character generator 27 generates a character signal corresponding to the character code.
[0051]
This character signal is mixed by the superimpose circuit 25 together with the video signal from the reproduction process circuit 24, sent to the EVF 26 and displayed, and connected to an external monitor or video printer via an external output terminal (not shown). If so, these can be output.
[0052]
The mode setting operation of the first embodiment is represented by a flowchart as shown in FIG. This will be described with reference to the drawings. When the power switch is turned on, the system controller 21 first checks the state of the battery, etc., checks whether the camera is operable at a power level, and if it is determined that the camera is operable, turns on the power. (S1).
[0053]
Thereafter, whether the protective cover 10 is open or closed is determined based on the output of the protective cover detection mechanism 30 (S2, S3). If the protective cover 10 is closed, the camera is initialized as a playback mode (power is supplied to each circuit of the playback system, etc.) (S7), and each control process of the playback mode is performed (S8, S9).
[0054]
On the other hand, when the protective cover 10 is open, the system controller 21 initializes the camera as a recording mode (e.g., supplies power to each imaging and recording circuit) (S4), and then performs each control process of the recording mode. Perform (S5, S6).
[0055]
By adopting such a configuration, the protective cover 10 not only contributes to protecting the lens 1 and the like and preventing erroneous operation (such as accidental shooting while the protective cover 10 is closed), but also to the user. It is possible to determine at a glance whether this camera is ready to shoot.
[0056]
As described above, even if the recording / reproducing mode manual switching setting switch 31 is set to the recording side, the recording / reproducing mode setting of the camera is determined depending on the state of the protective cover 10. It is possible to prevent the unnecessary power consumption by turning on the power without knowing the setting state of the large recording mode, and also whether the recording mode is entered visually depending on the state of the protective cover 10. Thus, it becomes possible to see at a glance whether the playback mode is set, and the operability can be greatly improved.
[0057]
In addition, there is a recording / playback mode manual switch setting switch 31 and a mode switch command switch 4 in case the protective cover 10 cannot be closed or the protective cover detection mechanism 30 breaks down, and the protective cover 10 cannot be closed. When the protective cover detection mechanism 30 breaks down, the system controller 21 is turned on by turning on the power, setting the recording / reproducing mode manual switching setting switch 31 to the recording side, and pressing the mode switching command switch 4 of the camera. It is configured to control to shift to the mode.
[0058]
Similarly, the system controller 21 is controlled to shift to the playback mode by setting the recording / playback mode manual switching setting switch 31 to the playback side and pressing the recording / playback mode switching command switch 4 of the camera. ing. Therefore, even if the protective cover 10 cannot be closed or the protective cover detection mechanism 30 breaks down, it is possible to forcibly set and use any recording / reproducing mode.
[0059]
[Second Embodiment]
Next, a second embodiment will be described. In this case as well, the configuration is the same as in the first embodiment, but when the protective cover 10 is opened, the system controller 21 sets the camera to the recording mode, drives the photographing system, and closes the protective cover 10. Set the camera to the playback mode, stop the power supply of the shooting system circuit, start the power supply of the playback system circuit, enter the standby state, start playback when receiving a playback command, and playback This embodiment is different from the first embodiment in that a function for controlling the power supply to be turned off is provided when no operation is performed on the camera for 30 seconds after shifting to the mode.
[0060]
When the protective cover 10 is opened while the power is already turned on, the system controller 21 electrically detects it according to the contact output status of the protective cover detection mechanism 30, sets the camera to the recording mode, and can shoot. To.
[0061]
When the protective cover 10 is closed, the system controller 21 detects the contact output status of the protective cover detection mechanism 30 and sets the camera in the playback mode. Since the playback mode is set, shooting cannot be performed even if the shutter button 3 of the camera is pressed.
[0062]
This is shown in a flowchart in FIG. That is, this process can be realized by an interrupt process, and is configured such that an interrupt is generated when the state of the protective cover 10 changes (open to closed or closed to open).
[0063]
When this interrupt occurs, the system controller 21 determines whether or not the main power supply of the camera is turned on (S11). If the main power supply of the camera is not turned on, the power supply is turned on (S13), and then the protective cover is detected. The state of the protective cover 10 is recognized by referring to the contact output status of the mechanism 30 (S12). When the protective cover 10 is opened, the recording mode is immediately shifted (S14), and when the protective cover 10 is closed, the reproducing mode is shifted (S15). .
[0064]
Further, when the protective cover 10 is closed, the system controller 21 automatically powers off to save the battery if no operation is performed for 30 seconds (S16, S17).
[0065]
With this operation, the user can not only determine at a glance whether the camera is currently ready for photographing, but also sensuously open the protective cover 10 that covers the lens. Since it is common to take a picture and close the protective cover 10 and cover the lens with the cover after the picture is taken, the effect of preventing wasteful battery consumption due to leaving the recording system in an operating state for a long time in the recording mode. There is also.
[0066]
[Third embodiment]
Next, a third embodiment will be described with reference to FIG. FIG. 6 shows an embodiment when the protective cover 10 is a lens cap type.
[0067]
The electronic imaging apparatus according to the present invention includes a main body 33 and a lens unit 34, and is configured to cover a removable lens cap-shaped protective cover 35 on the front surface of the lens unit 34. When the lens cap-shaped protective cover 35 is removed from the lens unit 34, the system controller 21 electrically detects it and puts the camera into the recording mode. When the protective cover 35 is put on the lens unit 34, The system controller 21 electrically detects this and puts the camera into the playback mode.
[0068]
Whether or not the protective cover 35 is placed on the lens portion 34 can be determined by providing a switch or a sensor that operates when the protective cover 35 is attached to the lens portion 34.
[0069]
In this embodiment, the same effect as in the first and second embodiments can be considered.
[0070]
Further, a recording / reproducing mode switching command switch 4 for forcibly setting a mode designated in FIG. 1 is provided, and a recording / reproducing mode manual switching switch 31 for manually setting the recording / reproducing mode is provided in the camera circuit. The first reproduction mode in which the reproduction mode can be set regardless of the open / closed state (or attached state) of the protective cover 10 (or 35) by these settings and operations, and the protective cover 10 It is also possible to selectively switch the second playback mode in which the playback mode can be set depending on the open / closed state (or attached state) of (or 35). For example, in the case of the protective cover 35 in the form of a lens cap, even when the protective cover is lost or in the case of a failure in the case of the shutter-like protective cover 10, the recording / reproducing mode is switched by manual setting regardless of the state of the protective cover. It is possible to prevent the recording / playback from being hindered.
[0071]
As described above, this system includes an imaging unit for converting a subject image guided by the optical system into a video signal, a recording unit for recording the video signal from the imaging unit on a recording medium, and a recording medium. Reproducing means for reproducing the recorded video signal, recording means in the recording mode, and mode switching means for enabling the reproducing means in the reproducing mode, and at least the optical system covering the incident portion In an electronic imaging apparatus that has a protective cover for protecting the subject and separates the protective cover from the incident portion when taking a subject image, whether or not the protective cover covers the incident portion of the optical system Detecting means for detecting whether or not, and operating based on detection information of the detecting means, and when the protective cover does not cover the incident portion of the optical system, the recording mode, When you are Tsu is constructed by a control means for the mode set to the reproduction mode.
[0072]
In such a configuration, the detection means detects that a video signal can be obtained by operating an operation part member (for example, a protective cover such as a lens cap or a shutter) which is inevitably operated in a recording operation. When detected, the recording mode is set and the imaging unit and the recording unit are operable. On the other hand, the detection unit detects that the imaging unit cannot capture the image by shielding the lens with a lens cap. At this time, the playback mode is set, the playback unit is enabled, and the imaging unit and the recording unit are disabled.
[0073]
In addition, when a playback operation is performed, an operation member (such as an output terminal) that is inevitably operated is operated (a cable is connected to the output terminal), and when the detection means detects the operation member, When the detecting means detects that no operation is performed (the cable is not connected to the output terminal), the recording mode is set.
[0074]
That is, the present invention makes it possible to easily grasp the relationship between mode switching and the state of the camera (whether the cap or lens shutter is closed, that is, cannot be photographed, or is open, that is, capable of photographing). In addition to improving the operability and preventing erroneous operation, it is possible to avoid the state where the recording mode is set to a state where the power consumption is large even though only the reproduction mode is possible, thereby wasting the battery. Consumption can be prevented and energy saving can be realized.
[0075]
In addition, the system includes an imaging unit that converts a subject image formed by the photographing lens into a video signal, a protective cover that covers and protects the photographing lens, and a protective cover that determines whether the protective cover covers the photographing lens. Detection means for detecting a state, recording means for recording a video signal from the imaging means on a recording medium, reproducing means for reproducing the video signal recorded on the recording medium, and a mode operation member for instructing switching to a reproduction mode And the recording means in the recording mode, and the reproducing means in the reproduction mode. The detection means detects that the state of the protective cover does not cover the photographing lens, and switches to the recording mode. Mode switching means for forcibly switching to the regeneration mode regardless of the state of the protective cover when the mode operation member is operated. It can also be formed.
[0076]
In this configuration, when the detection means detects that the state of the protective cover does not cover the photographing lens, the mode is switched to the recording mode, and when the mode operation member is operated, it is forcibly set regardless of the state of the protective cover. Switch to playback mode.
[0077]
Therefore, according to this configuration, when the mode operation member is operated, the mode is forcibly switched to the playback mode regardless of the state of the protective cover, so that the mode can be quickly switched to the playback mode when it is desired to check the recorded image. The switch can be switched to improve the operability, and when the detection means detects that the state of the protective cover does not cover the photographing lens, it switches to the recording mode, so that the power consumption is large when the protective cover is closed. It is possible to prevent an erroneous operation such as setting the state of the recording mode, thereby preventing wasteful consumption of the battery and realizing energy saving.
[0078]
The present invention is not limited to the embodiment described above and shown in the drawings, and can be carried out by being appropriately modified within the scope not changing the gist thereof. In addition to the mode switching depending on the state of the cover, the playback mode and the recording mode are switched depending on whether or not a cable is connected to a member that is inevitably operated when using the camera, such as a video output terminal or an input terminal. It is possible to adopt various ways of changing such as doing so.
[0079]
Needless to say, the present invention can be applied not only to a floppy disk as a recording medium but also to a system that employs an IC memory card, a video tape, a magneto-optical disk, or the like.
[0080]
As described above in detail, the present invention makes it possible to easily grasp the relationship between mode switching and the state of the camera (whether the cap or lens shutter is closed, i.e., shooting is not possible or opened, i.e., shooting is possible). By doing so, it is possible to improve the operability and prevent erroneous operation, and it is possible to avoid a situation where the recording mode is set in a state where the power consumption is large although only the playback mode is possible. Energy saving can be realized by preventing wasteful consumption of the battery.
[0081]
Therefore, it is possible to prevent the user from accidentally starting up the power in the recording mode without intending to shoot and using up the battery unnecessarily, and the user can check the current mode at a glance. An effect is obtained.
[0082]
【The invention's effect】
As described above, according to the present invention, when the switch means is operated, the protective cover is forcibly switched to the reproduction mode even if it is in the position where the photographing lens for performing the recording mode is exposed. The user can quickly switch to the playback mode when he / she wants to check the recorded image, and the operability improves.
[Brief description of the drawings]
FIG. 1 is a schematic view of an electronic still camera device showing an embodiment of the present invention.
FIG. 2 is a block diagram showing a circuit configuration of a camera according to the present invention.
3 is a view showing an example of a protective cover detection mechanism 30. FIG.
FIG. 4 is a flowchart showing a mode setting operation of the first embodiment.
FIG. 5 is a flowchart showing a mode setting operation of the second embodiment.
FIG. 6 is a diagram for explaining a third embodiment.
FIG. 7 is a block diagram showing a configuration example of a conventional system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Shooting lens, 2 ... Auto focus (AF) and photometry sensor, 3 ... Shutter button, 4 ... Recording / playback mode switch command switch, 5 ... Floppy disk insertion port, 6 ... Eject button, 7 ... LCD (liquid crystal) ) Display device, 8 ... Power switch, 9 ... Strobe, 10, 35 ... Protective cover, 10a ... Guide, 11 ... Optical system, 12 ... Imaging circuit, 13 ... FM modulation circuit, 14 ... Recording circuit, 15 ... Recording / reproduction Circuit selector switch, 16 ... recording / reproducing head, 17 ... head access mechanism, 18 ... recording medium (magnetic disk, etc.), 19 ... motor, 20 ... spindle motor drive circuit, 21 ... system controller, 22 ... reproducing circuit, 23 ... FM demodulator, 24 ... reproduction process circuit, 25 ... superimpose circuit, 26 ... EVF (electronic viewfinder), 27 ... key Lactamide generator, 28 ... display unit, 29 ... operation unit, 30 ... protective cover detection mechanism, 31 ... recording / reproducing mode manually switching the switch.

Claims (1)

Imaging means for converting a subject image formed by the taking lens into video information;
Recording means for processing a subject image picked up by the image pickup means and recording it as an image signal on a recording medium;
Reproducing means for reproducing the image signal recorded on the recording medium;
Display means for displaying the image signal reproduced by the reproducing means ;
Possible protection at each position or by moving in a direction substantially perpendicular to allow shooting to expose or cover and protect the photographic lens to the optical axis of the taking lens position of the object side of the front Symbol photographic lens Cover means;
An electronic imaging device comprising :
Transition before Symbol protective cover means to the state of the said protective cover means from the state of the set to which and the power turns off power position covering and protecting a taking lens is set to a position exposing the photographic lens and power power-on In this case, the recording mode is automatically set, the protective cover means is set to a position to cover and protect the photographing lens, and the protective cover means covers the photographing lens from a power-off state. The playback mode is automatically set when the power supply is turned on in the protected position, and automatically when no operation is performed for a predetermined time after the playback mode is set. power power-off is made Rutotomoni,
The protective cover means is set to a position that covers and protects the photographing lens and the power supply power off state is set to a position where the protective cover means exposes the photographing lens and the power supply power on state is changed. In this case, after the recording mode capable of recording by the recording unit is automatically set, the protective cover unit remains in the position where the photographing lens is exposed by operating the switch unit for shifting to the reproduction mode. An electronic imaging apparatus characterized by being switched to the reproduction mode .

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