JP2004357123A - Digital camera, its finder control method and recording medium for controlling digital camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To facilitate a confirming operation of a reproduction image without breaking down a photographic posture by switching an optical finder and an electronic finder. <P>SOLUTION: This digital camera is constituted so that it is provided with a first finder system A which optically guides an object image which passes a photographic lens 2 to a finder 9, a second finder system B which electronically guides the object image to the finder via an imaging device 5 and a display device 7, a switching means 10 for switching valid states of both finder systems, a mode switching means 14 for switching a recording mode for recording the object image in a storage part 6 and a reproduction mode for reading the object image from the storage part 6 and displaying it on the display device 7 and a control part 11 for switching both modes. The control part 11 forcibly switches the finder system to the valid state of the second finder system when the recording mode is switched to the reproduction mode and is automatically restored to the finder system which is set as the valid state in an original recording mode when the reproduction mode is switched and returned to the recording mode again. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a digital still camera or a digital video camera having a viewfinder. The present invention also relates to a finder control method for a digital camera and a computer-readable recording medium for controlling a digital camera.
[0002]
In this specification, an image may be any of a case of only a still image, a case of only a moving image, and a case of including both a still image and a moving image.
[0003]
[Prior art]
2. Description of the Related Art Conventionally, there has been known a digital camera equipped with an optical viewfinder (OVF) for directly and clearly viewing a scene spreading in front of a user through a photographing lens. Since the optical viewfinder does not require power, it saves power and increases the number of images that can be taken with one battery.
[0004]
On the other hand, there is also known a configuration in which a subject image passed through a shooting lens is captured by an image sensor, displayed on a display device such as a liquid crystal device, and an image to be recorded is displayed in real time (for example, Patent Documents 1 and 2). In this case, the field ratio is 100% or a numerical value close to it, and strict framing can be performed with a focus on composition. In addition, since it is light (image) after passing through a lens, accurate framing can be performed even during macro shooting.
[0005]
[Patent Document 1]
JP-A-8-286273
[Patent Document 2]
JP 2000-138846 A
[0006]
[Problems to be solved by the invention]
However, most of the optical viewfinders have a viewfinder field ratio of 100%, and the field angle is low. Unnecessary objects that could not be confirmed in advance appear in the image, and parallax (a frame viewed from the viewfinder differs from a frame actually shot) occurs during close-up shooting (macro shooting). Further, in order to check the reproduced image, it is necessary to display the reproduced image on a display monitor such as a liquid crystal provided in the digital camera, or to transfer the reproduced image to a PC (personal computer) for display. Therefore, the photographing posture must be broken, and the operation of confirming the reproduced image becomes complicated. In addition, in the case of a person with strong presbyopia, there is a drawback in that it is necessary to wear corrective instruments such as glasses in order to view the monitor display.
[0007]
Further, the electronic viewfinder achieves a field of view of 100%, but its fineness is impaired due to the number of display pixels of a display device such as a liquid crystal display, and when displaying a delicate subject, it may not be displayed properly. In addition, a display device such as a liquid crystal device has a limitation in the number of colors that can be formed, and has a drawback that colors may be different from those of the actual device. It may be difficult to see outdoors on sunny days. Also, since power is always required, the battery is consumed.
[0008]
The present invention has been made in view of such circumstances, and an object of the present invention is to switch the finder between an optical type and an electronic type according to the situation, thereby compensating for the disadvantages of both, and improving the usability. Another object of the present invention is to make it possible to easily confirm a reproduced image without changing the shooting posture.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the present invention takes the following measures.
[0010]
As a first solution, a digital camera according to the present invention includes a first finder system for optically guiding a subject image passing through a photographing lens to a finder, and capturing and displaying the subject image passing through the photographing lens. A second finder system for electronically leading to the finder, and a switching means for switching between a valid state of the first finder system and a valid state of the second finder system are provided.
[0011]
The operation of this configuration is as follows. At the start of photographing, it is arbitrary which one of the first finder system and the second finder system is activated first. Further, the switching between the two viewfinder systems is not always performed, but is switched as needed. At the start of photographing, if it is desired to use the optical finder system to confirm a delicate subject image, the first finder system is enabled (switching means is operated as necessary). Then, next, when it is desired to confirm the photographing angle of view accurately, the switching unit switches to a state in which the second finder system is enabled instead of the first finder system. Conversely, when it is desired to use the electronic finder system at the start of photographing in order to confirm an accurate photographing angle of view, the second finder system is made effective (the switching means is operated as necessary). Then, when it is desired to confirm a delicate subject image, the switching unit switches to a state in which the first finder system is enabled instead of the second finder system.
[0012]
When the first finder system is in the valid state, the subject image passing through the photographing lens is guided to the finder via the first finder system including only the optical system. In this case, the subject image reflected on the finder is delicate because the first finder system is only the optical system, and the subject image can be accurately captured.
[0013]
Contrary to the above, when the second finder system is in the valid state, the subject image passing through the photographing lens is captured by the image sensor, and the captured data is displayed on the display device. The subject image projected on the display device is guided to a finder. Since the image sensor and the display device are interposed, the field of view has a value of 100% or a value close to 100%, and it is possible to accurately confirm the photographing angle of view.
[0014]
As described above, according to the digital camera of the first solution, the disadvantage of the roughness found in the electronic finder system and the disadvantage of the low visual field ratio seen in the optical finder system are compensated for and eliminated together. By the switching operation, it is possible to satisfy both functions of delicate subject image confirmation and accurate shooting angle-of-view confirmation.
[0015]
Note that which of the first finder system and the second finder system is to be activated first may be fixed in advance. One is to give priority to the first finder system. Another is to give priority to the second finder system. Further, the priority does not have to be fixed. Further, a priority switching method may be adopted.
[0016]
In addition, the configuration may be such that the two finder systems are always switched. One is to switch from the first finder system to the second finder system. Another one is to switch from the second finder system to the first finder system. This switching may be performed by a user operation or automatically performed by using a timer.
[0017]
The digital camera as the first solving means can be developed as a finder control method of the digital camera as follows. The first finder system optically guides the subject image passing through the taking lens to the finder, and the second finder system guides the subject image passing through the taking lens to the finder electronically through imaging and display. And a switching means for switching between an effective state of the first finder system and an effective state of the second finder system, wherein the method comprises the following steps: It is configured to include.
[0018]
That is, a step of determining whether the switching means has been operated, a step of determining the operating position of the switching means when determining that the switching means has been operated, and a first operating position in the step of determining the operating position Outputting a command to switch the finder system to an effective state of the first finder system when it is determined that the finder system is in the second operation position in the operation position determination step. Outputting a command to switch the system to the valid state.
[0019]
According to the finder control method of the digital camera of the first solution, the disadvantage of the roughness found in the electronic finder system and the disadvantage of the low visual field ratio seen in the optical finder system are compensated for and eliminated together. By the corresponding switching operation, it is possible to satisfy both functions of delicate subject image confirmation and accurate shooting angle-of-view confirmation.
[0020]
The finder control method for a digital camera according to the first solution can be developed as a computer-readable recording medium for controlling a digital camera as follows. It is a recording medium that records a program for causing a computer to execute a plurality of steps having the following contents.
[0021]
That is, an effective state of the first finder system for optically guiding the subject image passing through the photographing lens to the finder, and a second state for electronically guiding the subject image passing through the photographing lens to the finder through imaging and display. A step of determining whether switching means for switching the viewfinder system to the valid state has been operated; a step of determining an operation position of the switching means when determining that the switching means has been operated; and a step of determining the operation position. Outputting a command to switch a finder system to an effective state of the first finder system when it is determined to be the first operation position; and outputting the finder when it is determined to be the second operation position in the operation position determination step. Outputting a command to switch the system to the valid state of the second finder system. This is a computer-readable recording medium for controlling a digital camera in which a program for causing a computer to execute these steps is recorded.
[0022]
By using the recording medium for controlling the digital camera of the first solution, the disadvantage of the roughness found in the electronic finder system and the disadvantage of the low visual field ratio seen in the optical finder system are both eliminated and solved. By performing a switching operation as needed, both functions of delicate object image confirmation and accurate shooting angle-of-view confirmation can be satisfied.
[0023]
The invention described above can also be applied to a model capable of switching between the recording mode and the reproduction mode as follows. This is the digital camera of the second solution. That is, a recording mode in which an image of a subject from the photographing lens is captured by an image sensor in the second finder system and recorded in a storage unit, and image data in the storage unit is reproduced and displayed in the second finder system. There is provided mode switching means for switching between a reproduction mode and a reproduction mode to be displayed on the apparatus. Further, when the mode switching unit switches from the recording mode to the reproduction mode, the control unit forcibly switches the finder system to the valid state of the second finder system.
[0024]
The operation of this configuration is as follows. In the recording mode, recording may be performed with the first finder system enabled, or recording may be performed with the second finder system enabled. Then, in order to confirm the recording situation on the spot, the mode switching means may be operated to switch from the recording mode to the reproduction mode. In such a case, the image data is read from the storage unit and displayed on the second finder display device. At this time, if the second finder system is in the valid state immediately before the mode switching, the state may be kept as it is. However, if the first finder system is in the valid state immediately before the mode switching, the finder system is switched. It is necessary to switch from the first finder system to the second finder system. In order to cope with the necessity of this switching, the present invention includes the above-described forced switching control means, so that the second finder system is forcibly switched to the valid state in conjunction with the switching to the playback mode. Done. That is, there is no need to perform an artificial operation. Therefore, when confirming the reproduction of the photographed image, it is possible to take a photograph while looking through the viewfinder and to check the reproduced image through the viewfinder in the posture while looking through the viewfinder, without changing the photographing posture. As described above, the mode switching operation is simplified, and the usability is excellent.
[0025]
It should be noted that if the control unit is configured to switch the forced switching function between enabled and disabled, and provided with selectivity to enable or disable as necessary, the degree of freedom of operation is further increased, Usability can be improved.
[0026]
The digital camera as the second solving means can be developed as a finder control method of the digital camera as follows. The first finder system optically guides the subject image passing through the taking lens to the finder, and the second finder system guides the subject image passing through the taking lens to the finder electronically through imaging and display. A digital camera finder control method, comprising: switching means for switching between an effective state of the first finder system and an effective state of the second finder system; and mode switching means for switching between a recording mode and a reproduction mode. In addition, it is configured to include a plurality of steps having the following contents.
[0027]
That is, a step of determining whether the mode switching means has been operated, a step of determining whether the operation of the mode switching means is a reproduction mode or a recording mode when determining that the mode switching means has been operated, and Determining the state of the finder system in the original recording mode when it is determined in the reproduction mode in the step of; and switching the effective finder system in the reproduction mode when the first finder system is determined in the finder system determination step. Outputting a command for forcibly switching to a valid state of the second finder system.
[0028]
According to the finder control method of the digital camera according to the second solution, when confirming the reproduction of the photographed image, the photographer looks into the finder and shoots the photographed image. You can check it, so you don't have to change your shooting posture.
[0029]
Further, the finder control method for a digital camera according to the second solving means can be developed as a computer-readable recording medium for controlling a digital camera as follows. It is a recording medium that records a program for causing a computer to execute a plurality of steps having the following contents.
[0030]
That is, a step of determining whether a mode switching unit for switching between a recording mode and a reproduction mode has been operated, and determining whether the operation of the mode switching unit is a reproduction mode or a recording mode when it is determined that the mode switching unit has been operated. Determining the state of the finder system in the original recording mode when the mode is determined to be the playback mode in the step of determining the mode; and When it is determined that the first finder system is a first finder system, the effective finder system in the reproduction mode is changed to a second finder system for electronically guiding the subject image passing through the photographing lens to the finder through imaging and display. And outputting a command for forcibly switching to the valid state. This is a computer-readable recording medium for controlling a digital camera in which a program for causing a computer to execute these steps is recorded.
[0031]
By using the recording medium for controlling the digital camera according to the second solution, when confirming the reproduction of the photographed image, the photographer looks through the finder and shoots the image through the finder in the posture while looking through the finder. Since the image can be checked, the photographing posture does not need to be changed.
[0032]
The above invention can be further developed as follows. This is the digital camera of the third solution. That is, the control means has the following functions. That is, when the mode switching unit switches from the recording mode to the reproduction mode, and then switches back from the reproduction mode to the recording mode, the finder system that was in the valid state in the recording mode immediately before switching the finder system to the reproduction mode. That is, the control means is configured to automatically return to the normal state.
[0033]
The operation of this configuration is as follows. When the mode switching means is operated to switch from the recording mode to the reproduction mode, if the first finder system is in a valid state immediately before the mode switching, the control means for the forced switching changes the finder system. The first finder system is forcibly switched to the second finder system. In such a case, when the mode switching means is operated again to return from the reproduction mode to the recording mode, if the finder system remains in the valid state of the second finder system, usability may deteriorate. . Therefore, the forced switching control means forcibly returns to the finder system which was selected and made effective in the original recording mode, thereby eliminating the need for an artificial return operation, and automatically returning to the original view mode. You can return to the viewfinder system. Therefore, when proceeding to re-recording after confirming the playback of the captured image, you can check the playback through the viewfinder and check the subject through the viewfinder while looking through the viewfinder. It is easy to reproduce the original recording situation without changing. As described above, the mode switching operation is simplified, and the usability is excellent.
[0034]
In addition, if the finder system automatic return function of this control means is configured to be switched between enabled and disabled, and if necessary, it is possible to enable or disable it, so that the degree of freedom of operation is further increased. It can be increased and usability can be improved.
[0035]
The digital camera as the third solution can be developed as a finder control method of the digital camera as follows. The first finder system optically guides the subject image passing through the taking lens to the finder, and the second finder system guides the subject image passing through the taking lens to the finder electronically through imaging and display. A digital camera finder control method, comprising: switching means for switching between an effective state of the first finder system and an effective state of the second finder system; and mode switching means for switching between a recording mode and a reproduction mode. In addition, it is configured to include a plurality of steps having the following contents.
[0036]
That is, a step of determining whether the mode switching means has been operated, a step of determining whether the operation of the mode switching means is a reproduction mode or a recording mode when determining that the mode switching means has been operated, and Setting the effective finder system immediately before switching the mode to a flag when the mode is determined to be the reproduction mode in the step; and setting the flag to the first finder system or the second finder system when the mode is determined to be the reproduction mode. Determining whether the flag is set to the first finder system, and outputting a command for forcibly switching the effective finder system to the second finder system in the reproduction mode after the switching when the flag setting state is determined to be the first finder system. The setting state of the flag when the recording mode is determined in the mode determination step. Determining whether the flag is a first finder system or a second finder system; and determining whether the flag is set to the first finder system when the mode is determined to be the recording mode. Outputting a command for forcibly switching the finder system to the valid state of the first finder system.
[0037]
According to the finder control method for a digital camera according to the third solution, when proceeding to re-recording after confirming the reproduction of the photographed image, confirming the reproduction by looking through the finder, and keeping the posture while looking through the finder. , The subject can be confirmed through the viewfinder, so that the original recording situation can be easily reproduced without changing the shooting posture.
[0038]
The finder control method for a digital camera according to the third solution can be developed as a computer-readable recording medium for controlling a digital camera as follows. It is a recording medium that records a program for causing a computer to execute a plurality of steps having the following contents.
[0039]
That is, a step of determining whether a mode switching unit for switching between a recording mode and a reproduction mode has been operated, and determining whether the operation of the mode switching unit is a reproduction mode or a recording mode when it is determined that the mode switching unit has been operated. Setting the effective finder system immediately before switching the mode to a flag when the mode is determined to be the playback mode in the mode determination step, and setting the flag when the mode is determined to be the playback mode. Judging whether the first finder system optically guides the passed subject image to the finder or the second finder system which guides the subject image passed through the photographing lens to the finder electronically through imaging and display. When the flag setting state is determined to be the first finder system, Outputting a command for forcibly switching the effective finder system to the effective state of the second finder system in the mode, and determining whether the flag setting state is the first finder system when the mode determination step determines that the recording mode is set. Determining the second finder system; and determining the effective finder system by the first finder in the switched recording mode when the setting state of the flag when determining the recording mode is the first finder system. And outputting a command for forcibly switching the system to the valid state. This is a computer-readable recording medium for controlling a digital camera in which a program for causing a computer to execute these steps is recorded.
[0040]
By using the recording medium for controlling the digital camera of the third solution, when proceeding to re-recording after confirming the reproduction of the photographed image, the reproduction is confirmed by looking through the finder, and the photographer is kept looking through the finder. Since the subject can be confirmed through the viewfinder in the posture, the original recording situation can be easily reproduced without changing the photographing posture.
[0041]
In the above description, the computer-readable recording medium may be a magnetic tape, a magnetic disk, an optical disk, a magneto-optical disk, a semiconductor memory, or the like.
[0042]
In the above-mentioned invention, it is also a preferable embodiment to further include a diopter adjustment mechanism for the finder. According to this structure, when a person with myopia or hyperopia is unclear when looking through the viewfinder, the user can operate the diopter adjustment mechanism of the viewfinder to adjust the focus so that the user can see clearly. become able to. That is, even a person with nearsightedness or farsightedness can handle the camera with the naked eye. In addition, even a person with strong presbyopia can obviate the need for corrective instruments such as reading glasses when viewing a reproduced image with a finder.
[0043]
As described above, according to the present invention, it is possible to compensate for the drawbacks of the optical viewfinder and the electronic viewfinder, facilitate the operation of checking the reproduced image without changing the shooting posture, and easily reproduce the original recording situation. Has an action.
[0044]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of a digital camera according to the present invention will be described with reference to the drawings.
[0045]
(Embodiment 1)
1 and 2 are cross-sectional views illustrating a schematic configuration of a digital camera according to Embodiment 1 of the present invention. In FIG. 1, the solid line indicates the selected state of the optical finder, and the dotted line indicates the selected state of the electronic finder. In FIG. 2, the solid line indicates the selected state of the electronic finder, and the dotted line indicates the selected state of the optical finder. FIG. 3 is a block diagram showing a configuration of the digital camera according to Embodiment 1 of the present invention.
[0046]
As shown in FIGS. 1 and 2, the digital camera 1 includes a photographing lens 2 composed of a combination lens group, a first reflection part 3 composed of a reflection mirror and the like, a second reflection part 4 composed of a prism and the like, a CCD and the like. Image sensor 5, image data accumulating unit 6, display device 7 including a liquid crystal panel, etc., eyepiece 8, finder 9, switching means 10 such as operation switches and operation buttons, control unit 11 such as microprocessor, motor, deceleration A drive mechanism 12 including a gear mechanism and the like is provided.
[0047]
As shown in FIG. 1, the first reflecting portion 3, the second reflecting portion 4, and the eyepiece 8 optically guide the subject image passing through the photographing lens 2 to the finder 9. Constitute the first finder system A.
[0048]
Further, as shown in FIG. 2, a subject image passing through the photographing lens 2 is picked up by an image pickup device 5 and is electronically converted into image data. The image data is stored in a storage unit 6, read out, and read out. 7, and further guided to the finder 9 via the second reflector 4 and the eyepiece 8, which constitute a second finder system B.
[0049]
The first finder system A is an optical system, and the second finder system B is an electronic system.
[0050]
As a mechanism for switching between the first finder system A and the second finder system B, a switching unit 10, a control unit 11, and a driving mechanism 12 are provided. The drive mechanism 12 is driven and controlled by the control unit 11, switches the attitude of the first reflection unit 3, and controls the movement of the display device 7. That is, the first reflecting unit 3 is in a first state of 45 degrees incline shown in FIG. 1 with respect to the optical axis extension line of the photographing lens 2 to direct incident light to the second reflecting unit 4, Although it is possible to switch to the second state shown in FIG. 2 deviated from the optical axis extension line of the taking lens 2 and to direct the incident light to the image sensor 5, the control unit 11 controls the drive unit 12 through the drive mechanism 12. It controls the switching of levers. In addition, the display device 7 enters the first state shown in FIG. 1 in which the slide unit retreats from the incident surface of the second reflection unit 4 and slides the reflection light from the first reflection unit 3 to the second reflection unit 4. The state can be switched between a state in which light is allowed to enter and a second state shown in FIG. 2 that faces the incident surface of the second reflection unit 4. Controls switching.
[0051]
The first state of the first reflector 3 shown in FIG. 1 corresponds to the first state of the display device 7, and the first reflector 3 transmits light from the photographing lens 2 to the second reflector 4. The display device 7 enters the optical path so that the light is reflected toward the display device, and at the same time, the display device 7 exits the optical path so as not to prevent the light from the first reflective portion 3 from being incident on the second reflective portion 4. State. As a result, the first finder system A enters an effective state, and enters an optical finder state. The subject image from the photographing lens 2 is reflected by the first reflector 3 and enters the second reflector 4. The second reflection unit 4 reflects the incident image so that the image is correctly projected on the eyepiece 8 in the vertical and horizontal directions. The subject image emitted from the second reflector 4 is projected on a finder 9 through an eyepiece 8.
[0052]
In addition, the second state of the first reflection unit 3 shown in FIG. 2 and the second state of the display device 7 correspond to each other. The display device 7 is moved up to a position corresponding to the incident surface of the second reflection section 4 in conjunction with the flip-up. As a result, the second finder system B is enabled, and the electronic finder is in a state. A subject image from the photographing lens 2 is picked up by the image pickup device 5 and electronically converted into image data. The image data is stored in the storage unit 6, read out, projected on the display device 7, and further subjected to the second reflection. The section 4 is guided to a finder 9 via an eyepiece 8.
[0053]
When an optical finder in which the first finder system A shown in FIG. 1 is effective is selected, the switching means 10 is at the operation position (1). Since the first finder system A is in the effective state, a delicate subject image can be confirmed. However, the shooting angle of view may lack accuracy. Therefore, when it is desired to confirm the photographing angle of view accurately, the switching means 10 is switched from this state to the operation position (2). This switches to the state shown in FIG. That is, the control unit 11 and the driving mechanism 12 are driven by the operation of the switching unit 10, and the display device 7 is moved to a position facing the second reflecting unit 4 while the first reflecting unit 3 is flipped up. The second finder system B switches to a valid electronic finder state. At this time, the first reflector 3 and the display device 7 operate in conjunction with each other. By setting the second finder system B to an effective state, it is possible to confirm an accurate shooting angle of view.
[0054]
When the electronic finder in which the second finder system B shown in FIG. 2 is valid is selected, the switching means 10 is at the operation position (2). Since the second finder system B is in the valid state, it is possible to accurately confirm the shooting angle of view. However, the delicateness of the subject image may be lacking. Therefore, when it is desired to delicately check the subject image, the switching means 10 is switched from this state to the operation position (1). This switches to the state shown in FIG. That is, by operating the switching means 10, the control unit 11 and the driving mechanism 12 are driven to lower the first reflection unit 3 and at the same time to retreat the display device 7, so that the first finder system A is an effective optical finder. Switch to state. Also at this time, the first reflector 3 and the display device 7 operate in conjunction with each other. By setting the first finder system A to an effective state, a subject image can be delicately checked.
[0055]
As shown in FIG. 3, the control unit 11 is configured to receive various operation signals from the operation unit 13 and perform corresponding necessary control. Further, the control unit 11 has a function of storing the image data from the image sensor 5 in the storage unit 6 and a function of transmitting the image data read from the storage unit 6 to the display device 7. Further, the control unit 11 is configured to receive a switching control signal from the switching unit 10, control the driving mechanism 12, and control the driving of the first reflection unit 3 and the display device 7 via the driving mechanism 12. ing. The storage unit 6 may be a frame memory for a finder, but may be a flash memory, a magnetic disk, an optical disk, or the like for image recording.
[0056]
FIG. 4 is a flowchart showing the operation of switching the finder system of the digital camera according to the first embodiment having the above configuration. This control is executed by the control unit 11.
[0057]
In step S11, it is determined whether or not the switching means 10 has been operated. If the switching means 10 has been operated, the process proceeds to step S12, and it is determined whether or not the operation position of the switching means 10 is the operation position (2). If the operation position is (2), the process proceeds to step S13, where the drive mechanism 12 is controlled so that the first reflection unit 3 and the display device 7 are in the second state. As a result, the second finder system B is enabled as shown in FIG. On the other hand, if the operation position is (1) in the determination of step S12, the process proceeds to step S14, where the drive mechanism 12 is controlled so that the first reflecting unit 3 and the display device 7 are in the first state. As a result, the first finder system A is activated as shown in FIG.
[0058]
When a recording operation is performed on the operation unit 13 in the state of FIG. 1 or 2, image data obtained by the image sensor 5 is stored in the storage unit 6. When the recording operation is performed in the state of FIG. 1, the first reflection unit 3 is flipped up so that the subject image from the image sensor 5 enters the image sensor 5.
[0059]
As described above, according to the present embodiment, it is possible to make up for and solve both the defect of the roughness found in the electronic finder system and the defect of the low visual field ratio seen in the optical finder system. In other words, both the functions of delicate subject image confirmation and accurate shooting angle-of-view confirmation can be satisfied by switching operation as needed. This allows the photographing as desired.
[0060]
In addition, it does not prevent providing a monitor device such as a liquid crystal monitor separately from the finder. In that case, an image captured by the image sensor can be displayed on the monitor device. Further, it is possible to read out not only the image picked up by the image pickup device but also the image data previously shot and stored in the storage unit 6 and display it on the monitor device.
[0061]
(Embodiment 2)
5 and 6 are cross-sectional views illustrating a schematic configuration of a digital camera according to Embodiment 2 of the present invention. FIG. 5 shows the recording mode, and the solid line shows the selected state of the optical finder. Note that the dotted line indicates the selected state of the electronic finder. FIG. 6 shows the reproduction mode, and the solid line shows the selected state of the electronic finder. Note that the dotted line indicates the selected state of the optical finder. FIG. 7 is a block diagram showing a configuration of the digital camera according to Embodiment 1 of the present invention. In these figures, the same reference numerals as those in FIGS. 1 and 2 of the first embodiment denote the same constituent elements, and a detailed description thereof will be omitted.
[0062]
The recording mode is a mode in which the second finder system B is enabled, a subject image from the photographing lens 2 is photographed by the image pickup device 5, and the obtained image data is recorded in the storage unit 6. The reproduction mode is a mode in which the second finder system B is enabled, image data is read from the storage unit 6, and displayed on the display device 7. Further, a mode switching unit 14 such as an operation switch or an operation button for switching between a recording mode and a reproduction mode is provided. Further, the control unit 11 is configured to forcibly switch the finder system to the valid state of the second finder system B when the mode switching unit 14 is switched from the recording mode to the reproduction mode.
[0063]
As shown in FIG. 5, the recording mode is set when the mode switching unit 14 is operated to the operation position a. The switching means 10 is located at the operation position (1), and an optical finder in which the first finder system A is enabled is used for checking the subject. Although not shown, even in the recording mode setting state in which the mode switching unit 14 is at the operation position a, when the switching unit 10 is switched to the operation position of (2), the second switching operation is performed in the same manner as in the first embodiment. The subject can be confirmed with an electronic finder in which the finder system B is enabled. That is, in the recording mode setting state, the valid state of the first finder system A and the valid state of the second finder system B can be arbitrarily switched.
[0064]
When the mode switching means 14 is switched from the recording mode setting state to the operation position b, the reproduction mode is set. At this time, if the effective finder system in the original recording mode is the electronic finder of the second finder system B, the effective finder system in the original recording mode is changed to the optical finder of the first finder system A. If, the finder system is forcibly switched to the electronic finder of the second finder system B. FIG. 6 shows this state. The mode switching means 14 is switched to the operation position b, and the effective finder system is forcibly switched to the second finder system B in conjunction with this. The switching means 10 has also been switched to the operation position (2).
[0065]
In the reproduction mode, the image data stored in the storage unit 6 is read out and displayed on the display device 7, and is displayed on the finder 9 via the second reflection unit 4 and the eyepiece 8. With the switching of the control, the control unit 11 controls the drive mechanism 12 to move the display device 7 to a position facing the incident surface of the second reflection unit 4. This operation is performed automatically. The first reflecting section 3 is also switched from the first state to the second state in conjunction with the first reflecting section 3, but this operation is not necessarily required.
[0066]
FIG. 8 is a flowchart showing the mode switching operation of the digital camera according to the second embodiment having the above configuration. This control is executed by the control unit 11.
[0067]
In step S21, it is determined whether or not the mode switching means 14 has been operated. If the mode switching means 14 has been operated, the process proceeds to step S22, and it is determined whether or not the operation position of the mode switching means 14 is the operation position b indicating the playback mode. . When the operation position is b, the process proceeds to step S23, and it is determined whether or not the immediately preceding effective finder system is the second finder system B. When the effective finder system is not the second finder system B but the first finder system A, the process proceeds to step S24, where the first reflection unit 3 and the display device 7 are set to the second state. The drive mechanism 12 is controlled as described above. As a result, the second finder system B is enabled as shown in FIG. The control unit 11 constitutes control means for forced switching. If the mode switching means 14 is set to a indicating the recording mode in step S22, and if the effective finder system is already the second finder system B in step S23, step S24 is skipped. I do.
[0068]
As described above, according to the present embodiment, when switching to the playback mode, if the first finder system is in the valid state immediately before the switching, the effective finder system is switched to the second finder suitable for the playback mode. Since it is not necessary to automatically switch to the system B and perform an artificial operation, it is excellent in usability and operability.
[0069]
(Embodiment 3)
9 and 10 are cross-sectional views illustrating a schematic configuration of a digital camera according to Embodiment 3 of the present invention. FIG. 9 shows a recording mode, and FIG. 10 shows a reproduction mode. In these drawings, the same reference numerals as those in FIGS. 5 and 6 of the second embodiment denote the same components, and a detailed description thereof will be omitted. A block diagram showing the configuration of the digital camera according to the present embodiment is the same as that shown in FIG. In the third embodiment, based on the second embodiment, when returning from the reproduction mode to the recording mode, the effective finder system in the original recording mode is effectively returned to the original.
[0070]
It is assumed that the mode switching unit 14 operates the mode switching unit 14 to switch from the recording mode of FIG. 9 at the operation position a to the operation position b, thereby setting the reproduction mode as shown in FIG. The effective finder system immediately before switching to the reproduction mode is the first finder system A in FIG. Although not shown, the immediately preceding effective finder system may be the second finder system B.
[0071]
When switching from the state in FIG. 9 to the reproduction mode, the effective finder system is forcibly switched to the second finder system B as shown in FIG. 10 in the same manner as in the second embodiment. That is, the display device 7 is moved to a position facing the incident surface of the second reflection unit 4. When a reproduction operation is performed in the operation unit 13, the image data stored in the storage unit 6 is read out and sent to the display device 7. The reproduced image on the display device 7 is projected on the finder 9 via the second reflecting section 4 and the eyepiece 8. The first reflecting section 3 is also switched from the first state to the second state in conjunction with the first reflecting section 3, but this operation is not necessarily required.
[0072]
When the mode switching means 14 is switched to the operation position a in order to return to the recording mode again after the reproduction, the state of FIG. 10 returns to the state of FIG. That is, control is performed so that the effective finder system returns to the effective finder system in the original recording mode. In the case of this example, since the first finder system A was in the valid state in the recording mode immediately before switching to the reproduction mode as shown in FIG. The finder system A is controlled so as to be in an effective state. Although not shown, when the second finder system B is in the valid state in the recording mode immediately before switching to the reproduction mode, when the reproduction mode is returned to the recording mode, the original second finder system B is restored. It is controlled to be in a valid state.
[0073]
FIG. 11 is a flowchart showing the mode switching operation of the digital camera according to the third embodiment having the above configuration. This control is executed by the control unit 11.
[0074]
In step S31, it is determined whether or not the mode switching means 14 has been operated. If the mode switching means 14 has been operated, the process proceeds to step S32, and it is determined whether or not the operation position of the mode switching means 14 is the operation position b indicating the reproduction mode. . If the operation position is "b", the process proceeds to step S33, and the effective finder system immediately before mode switching is set as a flag. That is, when the immediately preceding effective finder system is the first finder system A, the flag is set to "1", and when the immediately preceding effective finder system is the second finder system B, the flag is set to "2". I do. Next, the process proceeds to step S34 to determine whether the flag is "2", that is, whether the immediately preceding effective finder system is the second finder system B. If the effective finder system is not the second finder system B but the first finder system A, the process proceeds to step S35, where the first reflection unit 3 and the display device 7 are set to the second state. The drive mechanism 12 is controlled as described above. As a result, as shown in FIG. 10, the second finder system B is activated. Next, in step S36, the command is invalidated by operating the switching unit 10. If it is determined in step S34 that the effective finder system has already become the second finder system B, step S35 is skipped.
[0075]
On the other hand, if it is determined in step S32 that the operation position of the mode switching means 14 is "a" and the mode has been switched to the recording mode, the process proceeds to step S37 to determine whether the flag is set to "1". If this determination is affirmative, that is, if it indicates that the effective finder system immediately before the switching of the reproduction mode is the first finder system A, the process proceeds to step S38, where the first reflection unit 3 and the display are displayed. The drive mechanism 12 is controlled so that the device 7 is in the first state. As a result, the valid state of the second finder system B in FIG. 10 is automatically returned to the valid state of the first finder system A shown in FIG. Next, in step S39, the invalidation of the operation of the switching unit 10 is released. If the determination in step S37 is negative, that is, if it indicates that the effective finder system immediately before the switching of the reproduction mode is the second finder system B, step S38 is skipped.
[0076]
As described above, according to the present embodiment, playback is performed immediately after recording to check the recording state, and subsequently when recording is performed in the same situation as before, it is not necessary to perform a finder-based artificial operation each time. Yes. Since it automatically returns to the original viewfinder system, it is easy to use and the operability of mode switching is further improved.
[0077]
(Embodiment 4)
FIG. 12 shows a schematic configuration of a digital camera according to Embodiment 4 of the present invention. In the present embodiment, a diopter adjustment mechanism 15 that adjusts the condensing position of the eyepiece 8 is provided. The diopter adjustment mechanism 15 is configured to slide the eyepiece 8 back and forth by turning the dial, and to approach and separate from the emission surface of the second reflection unit 4.
[0078]
Regardless of whether the effective finder system is the first finder system A or the second finder system B, the eyepiece 8 is slid forward and backward by operating the diopter adjustment mechanism 15, and The focusing position of the optical image from the second reflection section 4 is adjusted by adjusting the focusing position. Even if the user is nearsighted or farsighted, the necessity of wearing a corrective device such as eyeglasses is eased, and an optical image is correctly formed on the retina of the eye.
[0079]
Note that the present invention is not limited to the above embodiment, and may be implemented as follows.
[0080]
In the above-described embodiment, the display device 7 is disposed on the front surface of the incident surface of the second reflection unit 4. Instead, the display device is disposed behind the exit surface of the second reflection unit 4. You may. In this case, when using the electronic viewfinder, the image displayed by the display device is directly emitted to the eyepiece. When the optical finder is used, the display device is slid so as to be retracted from the emission surface of the second reflecting portion.
[0081]
Further, in the above-described embodiment, the first reflecting portion 3 is jumped up when the electronic finder is used. However, instead of this, one input light such as a splitter or a half mirror is used as the first reflecting portion. By using a differentiating optical element, the first reflecting portion may not be moved when switching between the optical finder and the electronic finder.
[0082]
Further, in the above embodiment, the display device 7 is slid to switch between the optical finder and the electronic finder. However, one surface of the first reflecting portion may be a mirror and the other surface may be a display device. Good. In this case, at the time of the optical viewfinder, the image of the subject from the photographing lens is reflected by the mirror, enters the second reflector, and is projected on the viewfinder. When using the electronic viewfinder, the front and back of the first reflector are inverted. The image pickup device may receive the image of the subject jumping up from the photographing lens, display the image on a display device on the back surface of the first reflecting portion, enter the second reflecting portion, and project the image on a finder. .
[0083]
【The invention's effect】
As described in detail above, according to the present invention, the disadvantage of roughness found in the electronic finder system and the disadvantage of low visual field ratio seen in the optical finder system are both eliminated and eliminated, and a switching operation as required Thereby, both functions of delicate subject image confirmation and accurate shooting angle-of-view confirmation can be satisfied.
[0084]
In addition, in conjunction with the switching from the recording mode to the playback mode, the finder system is forcibly switched to the electronic finder in which the second finder system is in an effective state. It is possible to continuously confirm the reproduction from the recording in the posture, and the reproduction can be confirmed without changing the photographing posture, so that the operability of mode switching can be simplified.
[0085]
In addition, the optical viewfinder, which is the first viewfinder system, is switched from the recording mode to the playback mode when the optical viewfinder is in the active state. In conjunction with this, the viewfinder system is switched to the electronic viewfinder, which is the second viewfinder system, and recording is performed again. By returning to the optical viewfinder that was valid in the original recording mode when returning to the original recording mode, the original recording situation can be easily reproduced without changing the shooting posture, and the operability of mode switching Can be further simplified.
[0086]
In addition, by adding a diopter adjustment mechanism to the viewfinder, even people with myopia or hyperopia can clearly see the subject image and reproduced image from the viewfinder with the naked eye without the need for corrective instruments such as reading glasses. Can be.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a schematic configuration of a selected state of an optical finder (first finder system) of a digital camera according to a first embodiment of the present invention;
FIG. 2 is a sectional view showing a schematic configuration of a selected state of an electronic finder (second finder system) of the digital camera according to the first embodiment of the present invention;
FIG. 3 is a block diagram illustrating a configuration of a digital camera according to Embodiment 1 of the present invention.
FIG. 4 is a flowchart showing a viewfinder system switching operation of the digital camera according to the first embodiment of the present invention.
FIG. 5 is a cross-sectional view showing a schematic configuration of a digital camera according to a second embodiment of the present invention in a recording mode selected state;
FIG. 6 is a cross-sectional view illustrating a schematic configuration of a digital camera according to a second embodiment of the present invention in a selected playback mode.
FIG. 7 is a block diagram illustrating a configuration of a digital camera according to Embodiment 2 of the present invention.
FIG. 8 is a flowchart showing a mode switching operation of the digital camera according to the second embodiment of the present invention.
FIG. 9 is a cross-sectional view showing a schematic configuration of a digital camera according to a third embodiment of the present invention in a recording mode selected state;
FIG. 10 is a cross-sectional view schematically showing a configuration of a digital camera according to a third embodiment of the present invention in a selected playback mode.
FIG. 11 is a flowchart showing a mode switching operation of the digital camera according to the third embodiment of the present invention.
FIG. 12 is a sectional view showing a schematic configuration of a digital camera according to a fourth embodiment of the present invention.
[Explanation of symbols]
1 Digital camera
2 Shooting lens
3 First reflector
4 Second reflector
5 Image sensor
6 storage unit
7 Display device
8 Eyepiece
9 Viewfinder
10 Switching means
11 Control part
12 Drive mechanism
13 Operation section
14 Mode switching means
15 Diopter adjustment mechanism
A First finder system (optical finder)
B Second finder system (electronic finder)

Claims (12)

A first finder system that optically guides the subject image through the taking lens to the finder,
A second finder system for electronically guiding the subject image passing through the photographing lens to the finder via imaging and display;
A digital camera comprising switching means for switching between an effective state of the first finder system and an effective state of the second finder system. Further, a recording mode in which an image of a subject from the photographing lens is captured by an image sensor in the second finder system and recorded in a storage unit, and image data in the storage unit is reproduced to be displayed in the second finder system. Mode switching means for switching between a reproduction mode to be displayed on the device,
2. The digital camera according to claim 1, further comprising control means for forcibly switching a finder system to an effective state of the second finder system when the mode switching unit switches from a recording mode to a reproduction mode. The digital camera according to claim 2, wherein the control unit is configured to switch the forced switching function between enabled and disabled. The control means switches the mode from the recording mode to the reproduction mode by the mode switching means and then returns to the recording mode from the reproduction mode. The digital camera according to claim 2, wherein the digital camera is configured to automatically return to the finder system. The digital camera according to claim 4, wherein the control unit is configured to enable / disable a function of a finder system automatic return. The digital camera according to claim 1, further comprising a diopter adjustment mechanism for the finder. A first finder system that optically guides the subject image through the taking lens to the finder,
A second finder system for electronically guiding the subject image passing through the photographing lens to the finder via imaging and display;
A finder control method for a digital camera, comprising: switching means for switching between an effective state of the first finder system and an effective state of the second finder system,
Determining whether the switching means has been operated;
Determining the operating position of the switching means when determining that the switching means has been operated;
Outputting a command to switch the finder system to an effective state of the first finder system when the first finder system is determined to be the first operation position in the operation position determination step;
Outputting a command to switch the finder system to a valid state of the second finder system when it is determined that the finder system is in the second operation position in the operation position determination step. A first finder system that optically guides the subject image through the taking lens to the finder,
A second finder system for electronically guiding the subject image passing through the photographing lens to the finder via imaging and display;
Switching means for switching between an effective state of the first finder system and an effective state of the second finder system;
A viewfinder control method for a digital camera including a mode switching unit that switches between a recording mode and a playback mode,
Determining whether the mode switching means has been operated;
Determining that the operation of the mode switching means is a playback mode or a recording mode when it is determined that the mode switching means has been operated;
Determining the state of the finder system in the original recording mode when it is determined that the playback mode in the mode determination step,
Outputting a command for forcibly switching a valid finder system to a valid state of a second finder system in a playback mode when the first finder system is determined in the finder system determination step. . A first finder system that optically guides the subject image through the taking lens to the finder,
A second finder system for electronically guiding the subject image passing through the photographing lens to the finder via imaging and display;
Switching means for switching between an effective state of the first finder system and an effective state of the second finder system;
A viewfinder control method for a digital camera including a mode switching unit that switches between a recording mode and a playback mode,
Determining whether the mode switching means has been operated;
Determining that the operation of the mode switching means is a playback mode or a recording mode when it is determined that the mode switching means has been operated;
Setting a flag to the effective finder system immediately before mode switching when it is determined that the playback mode in the mode determination step,
Determining whether the setting state of the flag at the time of determining the reproduction mode is a first finder system or a second finder system;
Outputting a command for forcibly switching the valid finder system to the valid state of the second finder system in the reproduction mode after switching when the setting state of the flag is determined to be the first finder system;
A step of determining whether the setting state of the flag is a first finder system or a second finder system when it is determined that the mode is the recording mode in the mode determination step;
When it is determined that the setting state of the flag when the recording mode is determined is the first finder system, a command is output for forcibly switching the effective finder system to the first finder system in the recording mode after switching. And a viewfinder control method for a digital camera. On the computer,
An effective state of a first finder system for optically guiding a subject image passing through a photographic lens to a finder, and a second finder system for electronically guiding the subject image passing through the photographic lens to the finder through imaging and display. Determining whether switching means for switching between the active state and the active state has been operated;
Determining the operating position of the switching means when determining that the switching means has been operated;
Outputting a command to switch a finder system to an effective state of the first finder system when the first finder system is determined to be the first operation position in the operation position determination step;
Outputting a command to switch the finder system to the valid state of the second finder system when the second finder system is determined to be in the second operation position in the operation position determination step. Recording media for controlling digital cameras. On the computer,
Determining whether a mode switching means for switching between a recording mode and a reproduction mode has been operated;
Determining that the operation of the mode switching means is a playback mode or a recording mode when it is determined that the mode switching means has been operated;
Determining the state of the finder system in the original recording mode when it is determined that the playback mode in the mode determination step,
In the finder system determination step, when it is determined that the subject image that has passed through the taking lens is the first finder system that optically guides the subject to the finder, the effective finder system is taken in the playback mode and the subject image that passes through the taking lens is taken. And outputting a command for forcibly switching to a valid state of a second finder system which is electronically guided to the finder via a display. . On the computer,
Determining whether a mode switching means for switching between a recording mode and a reproduction mode has been operated;
Determining that the operation of the mode switching means is a playback mode or a recording mode when it is determined that the mode switching means has been operated;
Setting a flag to the effective finder system immediately before mode switching when it is determined that the playback mode in the mode determination step,
The setting state of the flag when it is determined that the playback mode is set is determined by a first finder system that optically guides a subject image passing through a photographic lens to a finder, or by capturing and displaying a subject image passing through the photographic lens. Determining whether the second finder system electronically leads to the finder, and
Outputting a command for forcibly switching the valid finder system to the valid state of the second finder system in the reproduction mode after switching when the setting state of the flag is determined to be the first finder system;
A step of determining whether the setting state of the flag is a first finder system or a second finder system when it is determined that the mode is the recording mode in the mode determination step;
When the setting state of the flag at the time of determining the recording mode is determined to be the first finder system, a command for forcibly switching the effective finder system to the first finder system in the recording mode after switching is output. And a computer-readable recording medium for controlling a digital camera in which a program for executing the steps is recorded.

Images