JP3862365B2 - camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera that has a plurality of focus detection areas in a finder field of view and allows a photographer to arbitrarily select an area for performing a focus detection operation.
[0002]
[Prior art]
A camera in which a plurality of focus detection areas for performing focus detection for focusing operation by autofocus are provided not only in the center of the viewfinder field but also in the horizontal and vertical directions is often used. When such a camera is used, it is possible to detect the focus in a wide range within the finder field of view, and when a subject does not exist at the center of the finder, so-called AF required in a camera having only one focus detection area at the center of the finder. The subject can be focused without locking.
[0003]
However, when the number of focus detection areas in the viewfinder field increases, the choice of which focus detection area is finally subjected to the focusing operation also increases. In this regard, the camera may be made to automatically select a focus detection area such as the closest side, but the focus detection area selected by this may not always match the photographer's intention.
[0004]
For this reason, as a means for reliably selecting the focus detection area intended by the photographer, the photographer's eyeball is observed to determine which position the photographer is looking in the viewfinder field, and focus detection corresponding to that position is detected. A line-of-sight detection device for selecting a region has been proposed. However, when such a device is attached to the camera, problems such as an increase in the size and cost of the camera and an increase in the release time lag corresponding to the detection time occur. In particular, when shooting a fast-moving subject, a delay in the release time lag caused by the line-of-sight detection device leads to missing a photo opportunity.
[0005]
Therefore, the photographer intended to select the arbitrary focus detection area by operating the operation means provided on the camera and to perform the focusing operation only on the selected focus detection area. A camera capable of taking a picture has been proposed.
[0006]
By the way, the camera is normally used in a horizontal posture in which the viewfinder field is horizontally long. However, when shooting with a vertically long composition, it is used in a vertical posture in which the viewfinder field is vertically long. For this reason, as an operation means for selecting an arbitrary region from a plurality of focus detection regions, the operability is good even when the camera is used in a vertical posture as in the case of being used in a horizontal posture. It is desirable to have
[0007]
Here, a conventional camera having an operation means for selecting a focus detection area will be described with reference to FIGS. FIG. 11A shows the case where the camera is used in a horizontal posture, and FIG. 12A shows the case where the camera is used in a vertical posture. Further, FIG. 11B shows the finder field in the horizontal posture, FIG. 12B shows the finder field in the vertical posture, and “□” in each figure shows the focus detection region.
[0008]
In these drawings, 51 is a camera body, 52 is a finder, 53 is a first information input member (operation means) disposed on the upper part of the camera body, and 55 is a second information input disposed on the back of the camera body. A member (operation means) 54 is a third information input member (operation means) arranged at the lower part of the camera body. The first and third information input members 53 and 54 are dials having the same form, and the second information input member 55 is a dial larger than the first and third information input members 53 and 54. .
[0009]
Reference numeral 56 denotes a horizontal posture focus detection area selection start button. this By pressing, the focus detection area can be selected by the first information input member 53 and the second information input member 55. Reference numeral 57 denotes a vertical position focus detection area selection start button, which can be pressed to select a focus detection area by the third information input member 54 and the second information input member 55.
[0010]
When the camera configured as described above is used in the horizontal posture, the photographer grips the camera body and presses the horizontal posture focus detection area selection start button 56 as shown in FIG. By rotating the first information input member 53 with the index finger, the focus detection area shown in FIG. 11B is selected in the H direction (absolute lateral direction of the camera), and the second information input member 55 is moved. The V direction (the absolute vertical direction of the camera) is selected by rotating with the thumb.
[0011]
On the other hand, when the camera is used in the vertical posture, the photographer grips the camera and presses the vertical posture focus detection area selection start button 57 as shown in FIG. By rotating the member 54 with the index finger, the H direction (absolute lateral direction of the camera) of the focus detection region shown in FIG. 12B is selected, and the second information input member 55 is rotated with the thumb. This selects the V direction (the absolute vertical direction of the camera). Note that the focus detection region selected by such a selection operation is illuminated by an LED or the like within the viewfinder field.
[0012]
[Problems to be solved by the invention]
However, when the camera as described above is set in the vertical position, a 90 degree shift occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder and the absolute H direction and V direction of the camera. For this reason, if the camera is changed from a horizontal posture to a vertical posture, or if the camera is changed from a vertical posture to a horizontal posture, the user may be wondering which direction can be used to select which direction. May occur.
[0013]
SUMMARY OF THE INVENTION An object of the present invention is to provide a camera that allows a focus detection region selection operation to be performed with the same sense in both horizontal and vertical postures.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, in the first invention of the present application, within the viewfinder field of view. Multiple displays These have areas display From within the region 1 display For selecting an area First Operation means Control means for moving the display area in response to an input from In a camera equipped with A first mode and a second mode corresponding to the postures of the camera in the first direction and the second direction, respectively. Have In the case of the first mode, the control means moves the display area in the second direction based on an input from the first operation means, and in the case of the second mode, The display area is moved in the first direction based on an input from one operation means. Like that.
[0015]
That is, when the camera is held in any posture, the first operation means or the third operation means having the same shape can be operated with the index finger of the hand gripping the camera body, and the horizontal position when the camera is held in each posture. The focus detection area can be selected in the direction, and if the second operating means is operated with the thumb of the gripped hand, the focus detection area can be selected in the vertical direction when holding in each posture, and the focus is maintained in any posture. A user-friendly camera that can perform detection area selection operations with the same sensation is realized.
[0016]
Further, in the second invention of the present application, there are a plurality of focus detection areas arranged in the absolute horizontal direction and the absolute vertical direction of the camera body in the finder field, and an area for performing a focus detection operation from these focus detection areas First, second, third and fourth operating means for selecting Control means for moving the focus detection area in response to an input from In a camera equipped with A mode setting unit that is operated according to the posture of the camera and is capable of setting different first and second modes for selecting a focus detection area; The first and third operating means have the same form as each other, and the second and fourth operating means have the same form as each other, When the first mode is set by the control means by the control means, the focus detection area is received in the absolute lateral direction by receiving an input from the first operating means (the lateral direction when holding in the horizontal posture). The focus detection area is moved in the absolute vertical direction (vertical direction when held in the horizontal posture) by receiving an input from the second operation means, and the second mode is set by the mode setting means. The focus detection area is moved in the absolute lateral direction by receiving an input from the fourth operation means, and the focus detection area is moved in the absolute vertical direction by receiving an input from the third operation means. Move to Like that.
[0017]
That is, when the camera is held in any posture, the first operation means or the third operation means having the same shape can be operated with the index finger of the hand gripping the camera body, and the horizontal position when the camera is held in each posture. Select the focus detection area in the direction, and select the focus detection area in the vertical direction when holding in each posture by operating the second operation means or the fourth operation means having the same shape with the thumb of the gripped hand. Thus, a user-friendly camera is realized in which the focus detection area selection operation can be performed with the same feeling in any posture.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
(First embodiment)
1 and 2 show a camera according to the first embodiment of the present invention. FIG. 1A shows a case where the camera is used in a horizontal posture, and FIG. 2A shows a case where the camera is used in a vertical posture. 1B shows the finder field in the horizontal posture, FIG. 2B shows the finder field in the vertical posture, and “□” in each figure shows the focus detection region.
[0019]
In these drawings, 11 is a camera body, 12 is a viewfinder, 13 is a first information input member (operation means) disposed on the upper part of the camera body 11, and 15 is a second information disposed on the back of the camera body. An information input member (operation means) 14 is a third information input member (operation means) disposed in the lower part of the camera body 11. Each of the information input members 13 to 15 is operated not only for selecting a focus detection area to be described later but also for performing detailed selection and setting of various types of shooting information, depending on various shooting modes. Function as different information input means.
[0020]
Further, the first information input member 13 and the third information input member 14 are dials having the same form, and are operated by the index finger of the hand gripping the camera when the camera is held in the horizontal posture and the vertical posture, respectively. It is placed at the optimal position (near the release button). The second information input member 15 is a dial larger than the first information input member 13 and the third information input member 14, and is a hand that grips the camera when the camera is held in a horizontal posture and a vertical posture. It is placed in the best position to operate with your thumb.
[0021]
Reference numeral 16 denotes a horizontal posture focus detection area selection start button, which is pressed to set a first mode in which a focus detection area can be selected by the first information input member 13 and the second information input member 15. The Reference numeral 17 denotes a vertical posture focus detection area selection start button, which is pressed to set a second mode in which the third information input member 14 and the second information input member 15 can select a focus detection area. The
[0022]
FIG. Shows an electric circuit of the camera of the present embodiment. In this figure, reference numeral 100 denotes a microcomputer (hereinafter referred to as CPU), which includes a photometry circuit 102, an automatic focus detection circuit 103, a signal input control circuit 104, an LCD drive circuit 105, an LED drive circuit 106, and a shutter control. A circuit 108 and a motor control circuit 109 are connected. In addition, the CPU 100 transmits signals via a focus adjustment circuit 110 and an aperture driving circuit 111 arranged in a photographing lens (not shown) and a mount contact (not shown). Further, the CPU 100 is accompanied by an EEPROM 100a that stores data of various functions of the camera.
[0023]
Reference numerals 13 to 17 and 30 to 34 denote information input operation means in the camera body 11, respectively. SW-MDIAL 1 and SW-MDIAL 2 are dial switches provided on the first information input member 13, and output signals at different timings depending on the rotation direction of the first information input member 13. Signals from these dial switches are input to an up / down counter of the signal input control circuit 104, and the up / down counter detects the amount and direction of rotation of the first information input member 13.
[0024]
SW-MDIAL 1 ′ and SW-MDIAL 2 ′ are dial switches provided on the third information input member 14, and output signals at different timings depending on the rotation direction of the third information input member 14. Signals from these dial switches are input to an up / down counter of the signal input control circuit 104, and the up / down counter detects the amount and direction of rotation of the third information input member 14.
[0025]
SW-SDIAL 1 and SW-SDIAL 2 are dial switches provided on the second information input member 15, and output signals at different timings depending on the rotation direction of the second information input member 15. Signals from these dial switches are input to an up / down counter of the signal input control circuit 104, and the up / down counter detects the amount and direction of rotation of the second information input member 15.
[0026]
SW-AFS is a switch that is turned on by pressing the focus detection area selection start button 16 for horizontal posture, and SW-AFS ′ is a switch that is turned on by pressing the focus detection area selection start button 17 for vertical posture.
[0027]
SW1 is a switch that is turned on by a first stroke operation of a release button 30 for horizontal posture provided on the camera body 11 and starts photometry, AF, line-of-sight detection operation, etc. SW2 is a second switch of the release button 30 for horizontal posture. This switch is turned on by a stroke operation to perform an exposure operation.
[0028]
SW-AEL is a switch that is turned on by pressing a lateral posture AE lock button 31 provided on the upper portion of the camera body 11. SW 1 ′ is a switch that is turned on by a first stroke operation of the release button 32 for vertical posture provided on the accessory and starts photometry, AF, line-of-sight detection operation, etc. SW 2 ′ is a second switch for the release button 32 for vertical posture. This switch is turned on by a stroke operation to perform an exposure operation.
[0029]
SW-AEL ′ is a switch that is turned on by pressing a vertical posture AE lock button 33 provided at the bottom of the camera body 11. Reference numeral 34 denotes a mode dial provided in the camera main body 11, and various shooting modes can be selected and set by rotating the dial.
[0030]
The photometric circuit 102 amplifies the luminance signal sent from the photometric sensor 102a, logarithmically compresses and A / D converts it, and sends it to the CPU 100 as luminance information of each sensor.
The photometric sensor 102a is composed of a photodiode that performs photometry on four predetermined areas in the finder field. The line sensor 103a is a known CCD line sensor composed of line sensors corresponding to a plurality of focus detection areas provided on a display unit (not shown) on a focus plate. The automatic focus detection circuit 103 performs A / D conversion on the voltage obtained from the line sensor 103 a and sends it to the CPU 100.
[0031]
The LCD drive circuit 105 is a known circuit for driving the liquid crystal display element LCD, and displays the aperture value, shutter time, set shooting mode, and the like on the monitor LCD 105b and the viewfinder LCD 105a in accordance with signals from the CPU 100. Display both simultaneously. Further, the LCD drive circuit 105 determines which of the plurality of focus detection areas on the focus plate the focusing LCD 105c performs the focusing operation, and which of the focusing operations is performed. Displayed according to a signal from the CPU 100.
[0032]
The LED driving circuit 106 includes a lighting LED (F-LED) 106a and a superimposing LED. (SI-LED) 106b is turned on and blinked. When energized, the shutter control circuit 108 controls the magnet MG-1 that travels the front curtain and the magnet MG-2 that travels the rear curtain, and exposes the photosensitive member to a predetermined amount of light. The motor control circuit 109 controls a motor M1 that winds and rewinds the film and a motor M2 that charges the main mirror 2 and the shutter 4. A shutter control circuit 108 and a motor control circuit 109 control a series of camera release sequences.
[0033]
Next, by each information input member 13-15 in this camera (CPU100). Focus detection area Select action FIG. It demonstrates using the flowchart of these.
[0034]
In step 1, it is determined whether or not the lateral focus detection area selection start button 16 (SW-AFS) is turned on. If it is turned on, the process proceeds to step 2 to enter the routine of the first mode described above. . On the other hand, when the horizontal focus detection area selection start button 16 is OFF, the process proceeds to step 6.
[0035]
In step 2, it is detected whether or not a signal from the first information input member 13 or the second information input member 15 is input, and when it is input, the signal is output from any information input member. Determine if it is a signal. If the signal is from the first information input member 13, the process proceeds to step 3, and if the signal is from the second information input member 15, the process proceeds to step 4.
[0036]
In step 3, the signal from the first information input member 13 is counted by an up / down counter, and the LCD drive circuit 105 and the LED drive circuit 106 are passed through the signal input control circuit 104 and the CPU 100 as shown in FIG. The display of the focus detection area for causing the focusing operation (focus detection operation) to be performed in the H direction (the absolute horizontal direction of the camera and the horizontal direction in the horizontal posture) is performed. Which direction of the H direction is moved is determined by ON / OFF timings of signals from the two switches SW-MDIAL1 and SW-MDIAL2 provided in the first information input member 13.
[0037]
In step 4, the signal from the second information input member 15 is counted by an up / down counter, and through the signal input control circuit 104 and the CPU 100, the LCD drive circuit 105 and the LED drive circuit. 106 On the other hand, the focus detection region display is moved to perform the focusing operation in the V direction (absolute vertical direction of the camera and vertical direction in the horizontal posture) in FIG. Which direction of the V direction is moved is determined by the ON / OFF timings of signals from the two switches SW-SDIAL1 and SW-SDIAL2 provided in the second information input member 15.
[0038]
After moving the focus detection area in steps 3 and 4, the process proceeds to step 5 where the signal of SW1 is monitored. If this signal is OFF, the process returns to step 2, and the first information input member 13 and the second information again. The routine for detecting the signal from the information input member 15 is entered. On the other hand, if the signal of SW1 is ON, the process returns to the normal operation monitor in step 1. In step 6, the vertical posture focus detection area selection start button 17 ( SW-AFS ' ) Is turned on. If it is turned on, the process proceeds to step 7 to enter the second mode routine described above. On the other hand, when the focus detection area selection start button 17 for vertical posture is OFF, the process returns to step 1.
[0039]
In step 7, it is detected whether or not a signal from the second information input member 15 or the third information input member 14 is input, and when it is input, the signal is output from any information input member. Determine if it is a signal. If the signal is from the second information input member 15, the process proceeds to step 8, and if the signal is from the third information input member 14, the process proceeds to step 9.
[0040]
In Step 8, the signal from the second information input member 15 is counted by an up / down counter, and the LCD drive circuit 105 and the LED drive circuit 106 are passed through the signal input control circuit 104 and the CPU 100 as shown in FIG. The display of the focus detection area for performing the focusing operation in the H direction (the absolute horizontal direction of the camera and the vertical direction in the vertical posture) is moved. That is, when the horizontal posture focus detection region selection start button 16 is turned on, the vertical posture focus detection region selection start button 17 is turned on for the second information input member 15 used for selecting the V direction of the focus detection region. In this case, the focus detection area is used for selection in the H direction. Note that the direction of the movement in the H direction is determined by the ON / OFF timings of signals from the two switches SW-SDIAL1 and SW-SDIAL2 provided in the second information input member 15.
[0041]
In step 9, the signal from the third information input member 14 is counted by an up / down counter, and through the signal input control circuit 104 and the CPU 100, the LCD drive circuit 105 and the LED drive circuit. 106 On the other hand, the focus detection region display is moved so as to perform the focusing operation in the V direction (absolute vertical direction of the camera, horizontal direction in the vertical posture) of FIG. Which direction of the V direction is moved is determined by ON / OFF timings of signals from two switches SW-MDIAL1 ′ and SW-MDIAL2 ′ provided on the third information input member 14.
[0042]
After the focus detection area is moved in steps 8 and 9 as described above, the process proceeds to step 10 where the signal of SW1 (SW1 ′) is monitored. If this is OFF, the process returns to step 7 and again the second information input member. 15 and a detection routine for signals from the third information input member 14 are entered. On the other hand, if the signal of SW1 is ON, the process returns to the normal operation monitor in step 1.
[0043]
When the camera configured as described above is used in the horizontal position, the photographer grips the camera body 11 and turns on the horizontal position focus detection area selection start button 16 as shown in FIG. Then, by rotating the first information input member 13 with the index finger, the lateral direction of the focus detection region (absolute lateral direction of the camera) shown in FIG. 1B is selected, and the second information input member 15 is moved. The vertical direction (the absolute vertical direction of the camera) is selected by rotating with the thumb.
[0044]
On the other hand, when the camera is used in the vertical position, the photographer grips the camera body 11 as shown in FIG. 2A, turns on the vertical position focus detection area selection start button 17, and then enters the third position. By rotating the information input member 14 with the index finger, the horizontal direction (absolute vertical direction of the camera) shown in FIG. 2B is selected, and the focus is detected by rotating the second information input member 15 with the thumb. Select the vertical direction of the area (the absolute horizontal direction of the camera).
[0045]
As described above, in the camera of this embodiment, the photographer holds the camera by operating the information input members 13 and 14 having the same form with the index finger, regardless of whether the camera is used in the horizontal position or the vertical position. The focus detection area can be selected in the horizontal direction, and the focus detection area can be selected in the vertical direction while holding the camera by operating the information input member 15 with the thumb. For this reason, even if a deviation occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder depending on the posture of the camera, and the absolute H direction and V direction of the camera, the focus in which direction by which information input member. The focus detection area selection operation can be performed with the same feeling in any posture, so that it is possible to prevent the focus detection area selection operation from causing rattling or an erroneous operation. .
[0046]
5 and 6 show a state in which the camera is held in a vertical posture with a holding method different from that in FIG. In either case, the camera is in the vertical posture, but the photographer does not use the second and third information input members 15 and 14 that are normally used in the vertical posture, and the first and the first used in the horizontal posture. The second information input members 13 and 15 are prepared to be used. This type of posture is used to quickly check the framing without changing the camera's holding, especially when checking whether the subject is framed horizontally or vertically. There are cases where shooting is performed. Depending on the shooting situation and the photographer, as shown in FIG. 6, shooting and operation may be performed while supporting the lower side of the vertical camera with a hand.
[0047]
In such a case, the photographer often frequently moves the camera repeatedly between the vertical posture and the horizontal posture. Accordingly, even when the camera is in the vertical posture, when the focus detection area is selected and operated using the information input members 13 and 15 for the horizontal posture, the operation is rather the same as when the camera is returned to the horizontal posture. This is less likely to cause sensory confusion, which is possible with the current camera configuration.
[0048]
(Second Embodiment)
FIG. 7 shows a camera according to the second embodiment of the present invention. In this figure, 60 is a camera body, 61 is an accessory that can be attached to and detached from the camera body 60, 62 is a viewfinder, 63 is a first information input member (operation means) disposed on the upper part of the camera body, and 65 is the back of the camera body Reference numeral 64 denotes a second information input member (operation means) disposed on the accessory 61, and reference numeral 64 denotes a third information input member (operation means) disposed on the accessory 61. Each information input member 63 to 65 is operated not only to select a focus detection area but also to perform detailed selection and setting of various shooting information, and varies depending on various shooting modes. It functions as an information input means.
[0049]
The first information input member 63 and the third information input member 64 are dials having the same form, and are operated with the index finger of the hand gripping the camera when the camera is held in the horizontal position and the vertical position, respectively. It is placed in the optimal position (near the release button). The second information input member 65 is a dial larger than the first information input member 63 and the third information input member 64, and grips the camera when the camera is held in a horizontal posture and a vertical posture. It is placed in an optimal position for operation with the thumb of the hand.
[0050]
Reference numeral 66 denotes a horizontal posture focus detection area selection start button, which is pressed to set a first mode in which a focus detection area can be selected by the first information input member 63 and the second information input member 65. The Reference numeral 67 denotes a vertical posture focus detection area selection start button, which is pressed to set a second mode in which a focus detection area can be selected by the third information input member 64 and the second information input member 65. The
[0051]
When the camera configured as described above is used in the horizontal position, the photographer grips the camera body 60 as shown in FIG. By rotating the information input member 63 with the index finger, the horizontal direction of the focus detection area (the absolute horizontal direction of the camera) is selected as in the first embodiment, and the second information input member 65 is rotated with the thumb. By operating, the vertical direction (the absolute vertical direction of the camera) is selected.
[0052]
On the other hand, when the camera is used in the vertical position, the photographer grips the accessory 61 and turns on the vertical position focus detection area selection start button 67 as shown in FIG. By rotating the input member 64 with the index finger, the horizontal direction (the absolute vertical direction of the camera) is selected, and by rotating the second information input member 65 with the thumb, the vertical direction of the focus detection region (the absolute value of the camera) (Horizontal direction) is selected.
[0053]
As described above, in the camera of the present embodiment, the photographer focuses on the state in which the camera is held by operating the information input members 63 and 64 having the same form with the index finger, regardless of whether the camera is used in the horizontal posture or the vertical posture. The detection area can be selected in the horizontal direction, and the focus detection area can be selected in the vertical direction while holding the camera by operating the information input member 65 with the thumb. For this reason, even if a deviation occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder depending on the posture of the camera, and the absolute H direction and V direction of the camera, the focus in which direction by which information input member. The focus detection area selection operation can be performed with the same sense in any posture, and it is possible to prevent the focus detection area selection operation from causing rattling or erroneous operations. .
[0054]
Further, in the present embodiment, the third information input member 64 and the vertical focus detection area selection start button 67 are arranged on the accessory 61, and a connector (not shown) that electrically connects the camera body 60 and the accessory 61. The control signals are exchanged between the two. This makes it possible to reduce the size and weight of the camera body 60 itself.
[0055]
(Third embodiment)
FIG. 8 shows a camera according to a third embodiment of the present invention. In this figure, 71 is a camera body, 72 is a viewfinder, 73 is a first information input member (operation means) disposed on the upper part of the camera body 71, and 75 is a first information input member on the upper part of the camera body 71. 73 is a second information input member (operation means) disposed near 73, 74 is a third information input member (operation means) disposed below the camera body 71, and 78 is below the camera body 71. This is a fourth information input member (operation means) disposed near the third information input member 74. The information input members 73 and 75 and the information input members 75 and 78 are operated not only for selecting a focus detection area described later but also for performing detailed selection and setting of various types of shooting information. It functions as different information input means according to various photographing modes.
[0056]
The first information input member 73 and the third information input member 74 are dials having the same form, and are operated by the index finger of the hand gripping the camera when the camera is held in the horizontal posture and the vertical posture, respectively. It is placed at the optimal position (near the release button). The second information input member 75 and the fourth information input member 78 are buttons having the same form, and are operated by the thumb of the hand gripping the camera when the camera is held in a horizontal posture and a vertical posture, respectively. It is arranged in the most suitable position.
[0057]
Reference numeral 76 denotes a horizontal posture focus detection area selection start button, which is pressed to set a first mode in which a focus detection area can be selected by the first information input member 73 and the second information input member 75. The Reference numeral 77 denotes a vertical position focus detection area selection start button, which is depressed to press the third information input member 74 and the fourth information input member. 78 The second mode that enables the selection of the focus detection area is set.
[0058]
When the camera configured as described above is used in the horizontal posture, the photographer grips the camera main body 71 as shown in FIG. By rotating the information input member 73 with the index finger, as in the first embodiment, the lateral direction of the focus detection region (the absolute lateral direction of the camera) is selected, and the second information input member 75 is moved with the thumb. By operating, the vertical direction (the absolute vertical direction of the camera) is selected.
[0059]
On the other hand, when the camera is used in the vertical position, the photographer grips the camera body 71 as shown in FIG. 2A, turns on the vertical position focus detection area selection start button 77, and then enters the third position. By rotating the information input member 74 with the index finger, the horizontal direction of the focus detection area (the absolute vertical direction of the camera) is selected, and by operating the fourth information input member 78 with the thumb, the vertical direction (the absolute value of the camera) (Horizontal direction) is selected.
[0060]
As described above, in the camera according to the present embodiment, the photographer focuses on the state in which the camera is held by operating the information input members 73 and 74 having the same form with the index finger regardless of whether the camera is used in the horizontal posture or the vertical posture. The detection area can be selected in the horizontal direction, and the focus detection area can be selected in the vertical direction while holding the camera by operating the information input members 75 and 78 having the same form with the thumb. For this reason, even if a deviation occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder depending on the posture of the camera, and the absolute H direction and V direction of the camera, the focus in which direction by which information input member. The focus detection area selection operation can be performed with the same feeling in any posture, so that it is possible to prevent the focus detection area selection operation from causing rattling or an erroneous operation. .
[0061]
As in the present embodiment, the second information input member 75 and the fourth information input member 78 are arranged at different positions on the camera, so that a large information input member is provided on the back cover of the camera. This eliminates the need for a smaller camera. Also, compared with the dial operation with the thumb, the input operation can be easily performed while maintaining the normal camera holding state.
[0062]
(Fourth embodiment)
FIG. 9 shows a camera according to a fourth embodiment of the present invention. In this figure, 80 is a camera body, 81 is an accessory that can be attached to and detached from the camera body 80, 82 is a viewfinder, 83 is a first information input member (operation means) disposed on the upper part of the camera body 80, and 85 is a camera. A second information input member (operation means) disposed near the first information input member 83 in the upper part of the main body 80; a third information input member (operation means) 84 disposed in the accessory 81; Reference numeral 88 denotes a fourth information input member (operation means) disposed near the third information input member 84 in the accessory 81. The information input members 83 and 85 and the information input members 85 and 88 are operated not only for selecting a focus detection area described later, but also for performing detailed selection and setting of various types of shooting information. It functions as different information input means according to various photographing modes.
[0063]
The first information input member 83 and the third information input member 84 are dials having the same form, and are operated by the index finger of the hand gripping the camera when the camera is held in the horizontal position and the vertical position, respectively. It is placed in the optimal position (near the release button). The second information input member 85 and the fourth information input member 88 are buttons having the same form, and are operated with the thumb of the hand gripping the camera when the camera is held in a horizontal posture and a vertical posture, respectively. It is arranged in the optimal position.
[0064]
Reference numeral 86 denotes a horizontal posture focus detection area selection start button, which is pressed to set a first mode in which a focus detection area can be selected by the first information input member 83 and the second information input member 85. The Reference numeral 87 denotes a vertical position focus detection area selection start button, which is depressed to press the third information input member 84 and the fourth information input member. 88 The second mode that enables the selection of the focus detection area is set.
[0065]
When the camera configured as described above is used in the horizontal position, the photographer grips the camera body 80 as shown in FIG. By rotating the information input member 83 with the index finger, as in the first embodiment, the horizontal direction of the focus detection area (the absolute horizontal direction of the camera) is selected, and the second information input member 85 is moved with the thumb. By operating, the vertical direction (the absolute vertical direction of the camera) is selected.
[0066]
On the other hand, when the camera is used in the vertical posture, the photographer grips the accessory 81 and turns on the vertical posture focus detection area selection start button 87 as shown in FIG. By rotating the input member 84 with the index finger, the horizontal direction of the focus detection area (the absolute vertical direction of the camera) is selected, and by operating the fourth information input member 88 with the thumb, the vertical direction (the absolute horizontal direction of the camera) Direction).
[0067]
As described above, in the camera of the present embodiment, the photographer focuses on the state in which the camera is held by operating the information input members 83 and 84 having the same form with the index finger, regardless of whether the camera is used in the horizontal posture or the vertical posture. The detection area can be selected in the horizontal direction, and the focus detection area can be selected in the vertical direction in a state where the camera is held by operating the information input members 85 and 88 having the same form with the thumb. For this reason, even if a deviation occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder depending on the posture of the camera, and the absolute H direction and V direction of the camera, the focus in which direction by which information input member. The focus detection area selection operation can be performed with the same sense in any posture, and it is possible to prevent the focus detection area selection operation from causing rattling or erroneous operations. .
[0068]
As in the present embodiment, the second information input member 85 and the fourth information input member 88 are arranged at different positions of the camera, thereby providing a large information input member on the back cover of the camera. This eliminates the need for a smaller camera. Also, compared with the dial operation with the thumb, the input operation can be easily performed while maintaining the normal camera holding state.
[0069]
In this embodiment, , The third information input member 84, the vertical posture focus detection region selection start button 87, and the fourth information input member 88 are arranged in an accessory 81 that can be attached to and detached from the camera body 80. The camera body 80 and the accessory 81 are connected to each other. Control signals are exchanged between the two by a connector (not shown) that is electrically connected. For this reason, the camera body 80 itself can be reduced in size and weight.
[0070]
(Fifth embodiment)
FIG. 10 shows a camera that is the fifth embodiment of the present invention. In this figure, 90 is a camera body, 91 is an accessory that can be attached to and detached from the camera body 90, 92 is a viewfinder, 93 is a first information input member (operation means) disposed on the upper part of the camera body 91, and 95 is a camera. A second information input member (operation means) disposed near the first information input member 93 in the upper part of the main body 81; 94 a third information input member (operation means) disposed in the accessory 91; Reference numeral 98 denotes a fourth information input member (operation means) disposed near the third information input member 94 in the accessory 91. The information input members 93 and 95 and the information input members 95 and 98 are operated not only for selecting a focus detection area described later, but also for performing detailed selection and setting of various types of shooting information. It functions as different information input means according to various photographing modes.
[0071]
The first information input member 93 and the third information input member 94 are dials having the same form, and are operated with the index finger of the hand gripping the camera when the camera is held in the horizontal position and the vertical position, respectively. It is placed in the optimal position (near the release button). The second information input member 95 and the fourth information input member 98 are buttons having the same form, and are operated with the thumb of the hand gripping the camera when the camera is held in the horizontal position and the vertical position, respectively. It is arranged in the optimal position.
[0072]
Reference numeral 96 denotes a horizontal posture focus detection area selection start button, which is pressed to set a first mode in which a focus detection area can be selected by the first information input member 93 and the second information input member 95. The Reference numeral 97 denotes a focus detection area selection start button for vertical posture. By pressing this button, the third information input member 94 and the fourth information input member are pressed. 98 The second mode that enables the selection of the focus detection area is set.
[0073]
When the camera configured as described above is used in the horizontal posture, the photographer grips the camera main body 90 as shown in FIG. By rotating the information input member 93 with the index finger, as in the first embodiment, the horizontal direction of the focus detection region (the absolute horizontal direction of the camera) is selected, and the second information input member 95 is moved with the thumb. By operating, the vertical direction (the absolute vertical direction of the camera) is selected.
[0074]
On the other hand, when the camera is used in the vertical posture, the photographer grips the accessory 91 and turns on the vertical posture focus detection area selection start button 97 as shown in FIG. By rotating the input member 94 with the index finger, the horizontal direction of the focus detection region (the absolute vertical direction of the camera) is selected, and by operating the fourth information input member 98 with the thumb, the vertical direction (the absolute horizontal direction of the camera) Direction).
[0075]
As described above, in the camera of the present embodiment, whether the camera is used in the horizontal position or the vertical position, the photographer focuses on the state in which the camera is held by operating the information input members 93 and 94 having the same form with the index finger. The detection area can be selected in the horizontal direction, and the focus detection area can be selected in the vertical direction while holding the camera by operating the information input members 95 and 98 having the same form with the thumb. For this reason, even if a deviation occurs between the horizontal direction and the vertical direction that the photographer feels by observing the viewfinder depending on the posture of the camera, and the absolute H direction and V direction of the camera, the focus in which direction by which information input member. The focus detection area selection operation can be performed with the same sense in any posture, and it is possible to prevent the focus detection area selection operation from causing rattling or erroneous operations. .
[0076]
As in the present embodiment, the second information input member 95 and the fourth information input member 98 are arranged at different positions on the camera, thereby providing a large information input member on the back cover of the camera. This eliminates the need for a smaller camera. Also, compared with the dial operation with the thumb, the input operation can be easily performed while maintaining the normal camera holding state.
[0077]
In this embodiment, , The third information input member 94 and the vertical posture focus detection area selection start button 97 are arranged on an accessory 91 that can be attached to and detached from the camera body 90, and the camera body 90 and the accessory 91 are not electrically connected. Control signals are exchanged between the two by a connector. For this reason, the camera body 90 itself can be reduced in size and weight.
[0078]
【The invention's effect】
As described above, according to the first invention of the present application, when the camera is held in any posture, the first operating means or the third operating means having the same form with the index finger of the hand gripping the camera. If you operate, you can select the horizontal focus detection area when holding in each posture, and if you operate the second operating means with the thumb of the gripped hand, select the vertical focus detection area when holding in each posture Therefore, it is possible to realize a user-friendly camera that can perform a focus detection area selection operation with the same feeling in any posture, and can perform a quick focus detection area selection without any sluggish operation or erroneous operation. According to the second invention of the present application, when the camera is held in any posture, the first operating means or the third operating means having the same form can be operated with the index finger of the hand gripping the camera. The focus detection area can be selected in the horizontal direction when holding in each posture, and the second operation means or the fourth operation means having the same form can be operated with the thumbs of the gripped hands. Since the focus detection area can be selected in the vertical direction, the focus detection area selection operation can be performed with the same feeling in any posture. , It is possible to realize an easy-to-use camera that can quickly select a focus detection area without being sluggish or erroneous.
[0079]
In addition, since the conventional functions, operation means, and operability are maintained in each of the above-described inventions, the operability that does not cause a sense of incongruity to those who are used to operating conventional cameras is provided, and the existing operation means is also used. Therefore, it is not necessary to add a new operation means, an increase in manufacturing cost, a complicated operation method, and an increase in the size of the camera can be suppressed, which is preferable in terms of design.
[0080]
In the second invention, if the second operating means and the fourth operating means are arranged at different positions of the camera, a large operation is performed on the rear surface of the camera as in the first invention. It is not necessary to provide means (second operation means), the camera can be reduced in size, and the input operation with the thumb can be performed very easily while maintaining the normal camera holding state.
[Brief description of the drawings]
FIGS. 1A and 1B are a rear view and a viewfinder view of a camera (horizontal posture) according to a first embodiment of the present invention. FIGS.
FIG. 2 is a rear view of the camera (vertical posture) and a viewfinder view.
FIG. 3 is a block diagram showing an electric circuit of the camera.
FIG. 4 is a flowchart for selecting a focus detection area of the camera.
FIG. 5 is a rear view showing an example of a holding state in a vertical posture of the camera.
6 is a rear view showing an example of a holding state of the camera in a vertical posture. FIG.
FIG. 7 is a rear view of the camera according to the second embodiment of the present invention.
FIG. 8 is a rear view of a camera according to a third embodiment of the present invention.
FIG. 9 is a rear view of a camera according to a fourth embodiment of the present invention.
FIG. 10 is a rear view of a camera according to a fifth embodiment of the present invention.
FIGS. 11A and 11B are a rear view and a viewfinder view of a conventional camera (horizontal posture). FIGS.
12A and 12B are a rear view and a viewfinder view of a conventional camera (vertical posture).
[Explanation of symbols]
11, 60, 71, 80, 90 ... camera body
12, 62, 72, 82, 92 ... finder
13, 63, 73, 83, 93 ... first information input member
14, 64, 74, 84, 94 ... third information input member
15, 65, 75, 85, 95 ... second information input member
16, 66, 76, 86, 96 ... Horizontal focus detection area selection start button
17, 67, 77, 87, 97 ... Vertical focus detection area selection start button

Claims (9)

A camera having a plurality of display areas in the viewfinder field of view, and a control means for moving the display area in response to an input from a first operating means for selecting one display area from these display areas In
The camera has a first mode and a second mode corresponding to the postures of the first direction and the second direction, respectively .
The control means includes
In the case of the first mode, the display area is moved in the second direction based on an input from the first operating means,
In the second mode, the display area is moved in the first direction based on an input from the first operation means .   The camera according to claim 1, wherein the mode setting unit sets the first mode when gripping in a horizontal posture and sets the second mode when gripping in a vertical posture. In addition to the first operation means, the apparatus has second and third operation means, and the second operation means is disposed at a position where it can be operated with an index finger of a hand gripped in a horizontal posture, and the third operation The means is disposed at a position where it can be operated with the index finger of the hand clipped vertically, and the first operating means is disposed at a position where it can be operated with the hand gripped in the lateral position and the thumb gripped in the vertical position. The camera according to claim 2. The camera according to claim 3, wherein said third operating means is arranged in the accessory to be attached to the camera body. A plurality of focus detection areas arranged in the absolute horizontal direction and absolute vertical direction of the camera body in the finder field, and a first and a first for selecting an area for performing a focus detection operation from these focus detection areas In the camera provided with the control means for moving the focus detection area in response to the input from the second, third and fourth operation means,
The mode setting means is operated according to the posture of the camera and can set different first and second modes for selecting the focus detection area, and the first and third operation means are mutually connected. Having the same form, and the second and fourth operating means have the same form,
The control means includes
When the first mode is set by the mode setting unit, the focus detection region is moved in the absolute lateral direction by receiving an input from the first operation unit, and the second operation is performed. Moving the focus detection area in the absolute vertical direction by receiving an input from the means;
When the second mode is set by the mode setting unit, the focus detection region is moved in the absolute lateral direction by receiving an input from the fourth operation unit, and the third operation is performed. A camera characterized in that the focus detection area is moved in the absolute vertical direction by receiving an input from the means .   The camera according to claim 5, wherein the mode setting unit sets the first mode when gripping in a horizontal posture and sets the second mode when gripping in a vertical posture.   The first operating means is disposed at a position where it can be operated with an index finger of a hand gripped in a lateral position, and the second operating means is disposed at a position where it can be operated with a thumb of a hand clipped in a lateral position. The fourth operating means is disposed at a position operable with the thumb of the hand gripped in the vertical posture, and the fourth operating means is disposed at a position operable with the thumb of the hand gripped in the vertical posture. The camera according to claim 6.   The camera according to any one of claims 5 to 7, wherein the third operation means is disposed in an accessory attached to the camera body.   The camera according to any one of claims 5 to 7, wherein the third and fourth operation means are arranged in an accessory attached to the camera body.

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