JP2007074629A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an imaging apparatus in which convenience for a photographer can be improved by displaying only the information required for the photographer. <P>SOLUTION: The present invention relates to an imaging apparatus for imaging an object. The imaging apparatus includes: a display means for displaying a picked-up image of the object; an inclination detecting means for detecting inclination of the imaging apparatus with respect to a reference attitude; a generation means for generating a guide indication corresponding to the inclination of the imaging apparatus detected by the inclination detecting means; and a switching means for switching for display or non-display of the guide indication on the display means based on the inclination of the imaging apparatus detected by the inclination detecting means. The imaging apparatus is characterized in that the inclination of the imaging apparatus for switching between display and non-display of the guide indication, is varied in accordance with a zoom position of the imaging apparatus. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention generally relates to an imaging apparatus, and more particularly to an imaging apparatus having display means for displaying a captured image.

  As one of the imaging devices, a camera and recorder (camcorder) in which a video camera and a video tape recorder (VTR) are integrated has been conventionally used. There is an increasing demand for improvement. In such an imaging apparatus, when an imager takes a picture by hand without using a fixing device such as a tripod, it is very difficult to keep shooting while maintaining the horizontal state of the imaging apparatus. In view of this, there has been proposed an imaging apparatus including a display device that detects a horizontal state of the imaging apparatus and displays a photographing angle during photographing on a screen to notify a photographer (see, for example, Patent Document 1).

In particular, in recent years, high-definition high-definition monitors and cameras have begun to spread, and the opportunity to see a 16: 9 horizontal screen has increased. Along with this, the horizontal state of the imaging device during shooting was not so much noticeable on the conventional 4: 3 screen, but it may be easily noticed on the 16: 9 high-definition screen that spreads in the horizontal direction. . Therefore, a technique for informing the photographer of the horizontal state of the imaging device is becoming increasingly important.
Japanese Unexamined Patent Publication No. 64-40824

  However, when the zoom position is on the tele side, the shooting angle of view is narrowed down, so the horizontal state of the image pickup apparatus is less concerned than on the wide side. In other words, in high-vision shooting, when the zoom position is on the wide side, the horizontal spread is conspicuous at the time of shooting, so the display that informs the horizontal state of the imaging device is information necessary for the photographer. On the other hand, when the zoom position is on the tele side, the horizontal spread becomes inconspicuous, so that the display for notifying the horizontal state of the imaging apparatus is not necessarily necessary information for the photographer.

  In the prior art, this point is not taken into consideration, and the photographer is always informed of the horizontal state of the imaging device regardless of the zoom position. Accordingly, the display of the horizontal state of the imaging device on the tele side is not always necessary information for the photographer, and is often troublesome information.

  Accordingly, an object of the present invention is to provide an imaging apparatus that can display only information required by a photographer and improve the convenience of the photographer.

  In order to achieve the above object, an imaging apparatus according to one aspect of the present invention is an imaging apparatus that captures an image of a subject, the display unit displaying a captured image of the subject, and the inclination of the imaging device with respect to a reference posture. An inclination detecting means for detecting, a generating means for generating a guide display corresponding to the inclination of the imaging apparatus detected by the inclination detecting means, and the display means based on the inclination of the imaging apparatus detected by the inclination detecting means Switching means for switching between display and non-display of the guide display, and the inclination of the imaging device for switching between display and non-display of the guide display varies depending on the zoom position of the image pickup device. To do.

  An imaging apparatus according to another aspect of the present invention is an imaging apparatus that images a subject, a display unit that displays a captured image of the subject, a tilt detection unit that detects a tilt of the imaging device with respect to a reference posture, Generation means for generating a guide display corresponding to the inclination of the imaging apparatus detected by the inclination detection means, and display of the guide display on the display means based on the inclination of the imaging apparatus detected by the inclination detection means Or switching means for switching between non-display and display sensitivity changing means for changing the display sensitivity of the guide display in accordance with the zoom position of the imaging device.

  An imaging apparatus according to still another aspect of the present invention is an imaging apparatus that captures an image of a subject, a display unit that displays a captured image of the subject, and an inclination detection unit that detects an inclination of the imaging device with respect to a reference posture. Generation means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detection means, and the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means. There is a switching means for switching between display and non-display, and a display sensitivity changing means for changing the display sensitivity of the guide display according to the zoom position of the imaging device, and the zoom position detected by the zoom position detecting means is wide. The inclination of the imaging device that switches between display and non-display of the guide display is smaller and the display sensitivity is higher toward the side.

  An imaging apparatus according to still another aspect of the present invention is an imaging apparatus that captures an image of a subject, a display unit that displays a captured image of the subject, and an inclination detection unit that detects an inclination of the imaging device with respect to a reference posture. Generation means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detection means, and the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means. It has switching means for switching between display and non-display, and detection sensitivity changing means for changing the detection sensitivity of the tilt detection means in accordance with the zoom position of the imaging device.

  An imaging apparatus according to still another aspect of the present invention is an imaging apparatus that captures an image of a subject, a display unit that displays a captured image of the subject, and an inclination detection unit that detects an inclination of the imaging device with respect to a reference posture. Generating means for generating a guide display corresponding to the inclination detected by the inclination detecting means, and the zoom position of the imaging apparatus and the inclination of the imaging apparatus detected by the inclination detecting means based on the inclination to the display means. And control means for controlling display or non-display of the guide display.

  According to still another aspect of the present invention, there is provided a display method for displaying a guide display corresponding to an inclination of the imaging device with respect to a reference posture on a display unit that displays a captured image of a subject, the inclination of the imaging device. Detecting the position of the imaging device, changing the zoom position of the imaging device, and displaying the guide display on the display means based on the detected tilt and the zoom position of the imaging device. Features.

  According to still another aspect of the present invention, there is provided a display method for displaying a guide display corresponding to an inclination of the imaging device with respect to a reference posture on a display unit that displays a captured image of a subject, the inclination of the imaging device. Detecting the zoom position of the imaging device on the wide side or the tele side, and detecting the imaging detected in the detection step when the zoom position of the imaging device is on the tele side. The step of comparing the tilt of the apparatus with the first predetermined value and the tilt of the image pickup apparatus detected in the detection step and the second predetermined value are compared when the zoom position of the image pickup apparatus is on the wide side. In the step and the comparison step, when the inclination of the imaging device detected in the detection step is not less than the first predetermined value or not less than the second predetermined value Characterized by having a step of displaying the guide displayed on the display means.

  According to still another aspect of the present invention, there is provided a display method for displaying a guide display corresponding to an inclination of the imaging device with respect to a reference posture on a display unit that displays a captured image of a subject, the inclination of the imaging device. The zoom position of the imaging device when the inclination of the imaging device is equal to or greater than the predetermined value, and the step of comparing the tilt of the imaging device detected in the detection step with a predetermined value. A step of determining whether the zoom position is the wide side or a step of increasing the display sensitivity of the guide display when the zoom position is determined to be the wide side in the determination step. And

  Further objects and other features of the present invention will become apparent from the preferred embodiments described below with reference to the accompanying drawings.

  According to the present invention, it is possible to provide an imaging apparatus capable of displaying only information required by a photographer and improving the convenience of the photographer.

  DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, preferred embodiments of the invention will be described with reference to the accompanying drawings. In addition, in each figure, the same reference number is attached | subjected about the same member and the overlapping description is abbreviate | omitted.

  FIG. 1 is a schematic block diagram showing a system configuration of an imaging apparatus 1 as one aspect of the present invention. The imaging device 1 is an imaging device that images light from a subject on an imaging element via an imaging optical system and images the subject. In the present embodiment, the imaging device 1 is embodied as a camcorder.

  In FIG. 1, 101 is a fixed first fixed lens group, 102 is a zoom lens (variable lens group) that performs zooming, 103 is a stop, 104 is a fixed second fixed lens group, and 105 is a focus. It is a lens (lens group). The focus lens 105 has both a focus adjustment function and a so-called competition function that corrects movement of the focal plane due to zooming. Reference numeral 106 denotes an image sensor such as a CCD that photoelectrically converts the formed optical subject image and outputs it as a video signal.

  Reference numeral 107 denotes an analog signal processing circuit. The analog signal processing circuit 107 performs a predetermined process on the signal obtained by the image sensor 106 to generate an analog image signal. The analog signal processing circuit 107 includes, for example, a CDS (co-related double sampling) circuit, an AGC (Automatic Gain Control) circuit, and the like.

  Reference numeral 108 denotes a camera signal processing circuit having an A / D converter. The camera signal processing circuit 108 converts the analog imaging signal generated by the analog signal processing circuit 107 into a digital signal. Further, the camera signal processing circuit 107 performs predetermined signal processing such as gamma correction and white balance on the digital signal to generate a final output video signal.

  Reference numeral 109 denotes a recording device that records a moving image or a still image, and uses a magnetic tape or a semiconductor memory as the recording device.

  The analog imaging signal amplified by the analog signal processing circuit 107 (AGC) is transmitted to the AF gate 112 and the aperture control circuit 121. The AF gate 112 sets a range in which an optimum signal is extracted from the entire screen for focusing. The size of the AF gate 112 (that is, the range in which the signal is extracted) is variable. In some cases, a plurality of AF gates 112 are provided.

  Reference numeral 113 denotes an AF signal processing circuit. The AF signal processing circuit 113 extracts a high frequency component, a low frequency component, and a luminance difference component (difference between the maximum value and the minimum value of the luminance level of the video signal) used for focus detection.

  Reference numeral 114 denotes a main control unit. In this embodiment, the main control unit 114 includes a camera control unit 115 and a display control unit 116.

  The camera control unit 115 controls the drive and output signals of the camera signal processing circuit 108 and controls the focus lens 105 based on the output signals of the AF signal processing circuit 113. In addition, the camera control unit 115 reads the operation information of the zoom switch 127 (a voltage corresponding to the rotation angle or slide amount of the operation member is output, and variable speed zoom is performed according to the output voltage), and controls the zoom. To do. The camera control unit 115 moves the focus lens 105 so that the output signal level of the AF signal processing circuit 113 is maximized. Thereby, automatic focus adjustment is performed.

  The aperture control circuit 123 drives the aperture 103 so as to maintain an appropriate exposure amount. In other words, the aperture control circuit 123 detects the level of the output signal of the analog signal processing circuit 107, and if the level is not a constant level (appropriate exposure amount), the aperture control signal for setting the level to a constant level. Generate. The aperture amount control signal is output to the IG driver 124, and the aperture 103 is driven through the IG meter 125 so as to obtain an appropriate exposure amount.

  Reference numerals 117 and 118 denote drivers capable of changing current waveforms for outputting driving energy to the lens driving motor in accordance with the driving commands for the zoom lens 102 and the focus lens 105 output from the camera control unit 115. Reference numerals 119 and 120 denote motors for driving the zoom lens 102 and the focus lens 105. The positions of the zoom lens 102 and the focus lens 105 are detected by lens position detection means 121 and 122.

  The lens position detection means 121 and 122 include a photo sensor (not shown) and a light shielding plate (not shown). The photosensor includes a light emitting unit and a light receiving unit. The light shielding plate is fixed to each of the zoom lens 102 and the focus lens 105. Therefore, when the zoom lens 102 and the focus lens 105 move in parallel with the optical axis, the light shielding plate moves together with the zoom lens 102 and the focus lens 105. As a result, when the light shielding plate blocks the optical path between the light emitting unit and the light receiving unit of the photosensor, the output signal of the light receiving unit becomes a low level, and when it does not block, the output of the light receiving unit The signal becomes a high level. Therefore, it is possible to detect whether or not the zoom lens 102 and the focus lens 105 are present at the reference position, with the position where the output signal of the light receiving unit changes as the reference position. Based on the reference position, the lens moving speed, the lens moving direction, and the like, the camera control unit 115 can recognize the position of each lens.

  The zoom switch 128 is connected to the camera control unit 115. The zoom switch 128 is a switch for moving the zoom lens 102 in the wide direction or the tele direction. The zoom switch 128 has a circuit configuration in which the voltage changes according to the pressing. The camera control unit 115 detects a voltage change when the zoom switch 128 is pressed, and determines at what zoom speed of the variable speed zoom the zoom lens 102 is driven according to the detected voltage.

  Reference numeral 126 denotes an inclination sensor. The tilt sensor 126 detects the tilt of the imaging device 1. The inclination sensor 126 uses an acceleration sensor in this embodiment.

  Reference numeral 127 denotes an amplifier circuit. The amplifier circuit 127 amplifies the output of the tilt sensor (acceleration sensor) 126.

  In the main control unit 114, the display control unit 116 takes in the output of the amplifier circuit 127 and determines whether to display according to the tilt from the tilt information detected by the tilt sensor 126. The display control unit 116 outputs to the guide display setting unit 129.

  The guide display setting unit 129 outputs a guide display (display of the tilt of the imaging device 1) corresponding to the tilt of the imaging device 1. The display processing circuit 110 superimposes the guide display on the output video signal. A display device 111 such as a viewfinder or a liquid crystal panel displays an output video signal on which a guide display is superimposed.

  Hereinafter, the control operation (display method) of the display control unit 116 will be described. FIG. 2 is a flowchart for explaining the control operation of the display control unit 116.

  Referring to FIG. 2, first, tilt information of the imaging device 1 is detected based on the output of the tilt sensor 126 (step 1102). Next, it is determined whether or not the current zoom position is on the tele side (or wide side) (step 1104).

  In step 1104, if the current zoom position is on the tele side, it is determined whether or not the current inclination of the image pickup apparatus 1 is greater than or equal to a predetermined value α (step 1106). If the current inclination of the imaging apparatus 1 is equal to or greater than the predetermined value α, the guide display is turned on (step 1108). If the current inclination of the imaging apparatus 1 is less than the predetermined value α, the guide display is turned off (step 1112).

  On the other hand, if it is determined in step 1104 that the current zoom position is on the wide side, it is determined whether or not the inclination of the current imaging apparatus 1 is equal to or greater than a predetermined value β (step 1110). If the current inclination of the imaging apparatus 1 is equal to or greater than the predetermined value β, the guide display is turned on (step 1108). If the current inclination of the imaging apparatus 1 is less than the predetermined value β, the guide display is turned off (step 1112).

  Here, the relationship between the predetermined value α and the predetermined value β satisfies the following formula 1.

  Referring to Equation 1, the inclination of the imaging apparatus 1 for which the guide display is turned on is set smaller on the wide side than on the tele side. As a result, on the wide side where the inclination of the imaging device 1 is conspicuous, guide display is performed even for an inclination smaller than that on the tele side.

  FIG. 3 is a graph showing the relationship between the tilt of the imaging apparatus 1 and the output of the tilt sensor (acceleration sensor) 126. FIG. 3 employs the tilt of the imaging device 1 on the horizontal axis and the output of the tilt sensor 126 on the vertical axis. By appropriately setting the gain of the amplifier circuit 127, the output of the inclination sensor 126 can be set to be in the voltage ranges (A) to (C) as shown in FIG.

  First, the voltage range (B) shows a case where the output of the tilt sensor 126 is half of the power supply voltage and the imaging apparatus 1 is located at the normal position, that is, the captured image is kept horizontal. ing. On the other hand, the voltage range (A) shows a case where the output of the tilt sensor 126 is at the GND level and the imaging apparatus 1 is tilted 90 degrees to the left. A voltage range (C) indicates a case where the output of the tilt sensor 126 is the same as the power supply voltage and the imaging apparatus 1 is tilted 90 degrees to the right.

  In the inclination between the voltage range (A) and the voltage range (B) or between the voltage range (B) and the voltage range (C), the output of the inclination sensor 126 changes linearly with respect to the inclination of the imaging device 1. To do. Therefore, if the threshold is set with a predetermined voltage with respect to the output of the inclination sensor 126 at the positive position indicated by the voltage range (B), the inclination of the imaging device 1 is equal to or greater than a predetermined angle (predetermined value α or β). It can be determined whether or not. In other words, the angle at which the guide display is turned on (the inclination of the imaging device 1) can be set separately by switching the threshold value (voltage value) of the output of the inclination sensor 126 on the wide side and the tele side. If the direction of the tilt sensor 126 is reversed, the output of the tilt sensor 126 when the image pickup apparatus 1 is tilted has an inverse relationship to the graph shown in FIG.

  FIG. 4 is a diagram schematically illustrating a range in which a guide display is displayed on the display device 111 such as a viewfinder or a liquid crystal panel. As described above, the output threshold value (voltage value) of the tilt sensor 126 for displaying the guide display is switched between the wide side and the tele side. As a result, as shown in FIG. 4, the area where the guide display is turned off when the zoom position is the wide side can be made narrower than when the zoom position is the tele side. 4A shows a range in which the guide display is displayed when the zoom position is the wide side, and FIG. 4B shows a range in which the guide display is displayed when the zoom position is the tele side. Show.

  In step 1104 shown in FIG. 2, the step of determining whether or not the zoom position is on the tele side may determine whether or not the zoom position is on the tele side (or the wide side) from a predetermined value. Further, if the predetermined value is arbitrarily set, it is possible to switch the determination as to whether the zoom position is on the tele side (or the wide side) with the arbitrary predetermined value. Accordingly, if the predetermined value is set at a position close to the tele end, the tilt of the imaging device 1 can be displayed in almost all zoom regions except near the tele end. Thereby, the photographer can quickly know the tilt state of the camera. On the other hand, if the predetermined value is set at a position close to the wide end, the guide display can be displayed only in the vicinity of the wide end, and the tilt guide display is not displayed from the middle to the tele side unless the image pickup apparatus 1 is largely tilted. . Thereby, the photographer can shoot with little concern about the horizontal state.

  As described above, in the present embodiment, when the guide display related to the tilt of the imaging device 1 is displayed on the display device 111, the tilt to be displayed is changed depending on whether the zoom position is the wide side or the tele side. In particular, when shooting on the wide side where the tilt of the imaging device 1 is conspicuous, by setting a small tilt for displaying the guide display, the photographer is quickly informed of the tilt of the imaging device 1 and the imaging device 1 is kept horizontal. Accuracy can be improved.

  Further, by changing the tilt setting of the imaging apparatus 1 that displays the guide display, it is possible to always display the guide display on the wide side and not to display the guide display on the tele side. In this case, the imaging apparatus 1 that displays the wide-side guide display is set to display ON when the tilt is 0 degree or more, and the imaging apparatus 1 that displays the tele-side guide display is set to display OFF when the tilt is less than ± 90 degrees. do it.

  In the present embodiment, an example in which the guide display is switched based on the determination of whether or not the zoom position is the tele side (or the wide side) has been described. However, the present invention is not limited to this example. . For example, if the zoom position is divided into three and the inclinations (predetermined values) of the imaging apparatus 1 that displays the guide display for the three areas are α, β, and γ, there are three areas: a wide area, a middle area, and a tele area. The guide display can be switched in the zoom area. Further, if the number of divisions of the zoom area is increased and the inclination of the imaging apparatus 1 that displays the guide display according to the number of divisions is set, the guide display can be controlled by arbitrarily dividing the zoom area. is there.

  Hereinafter, another control operation of the display control unit 116 in the main control unit 114 will be described with reference to FIG. FIG. 5 is a flowchart for explaining another control operation of the display control unit 116.

  Referring to FIG. 5, first, the tilt information of the imaging device 1 is detected based on the output of the tilt sensor 126 (step 1202). Next, it is determined from the inclination information detected in step 1202 whether or not the current inclination of the imaging apparatus 1 (that is, the detected inclination of the imaging apparatus 1) is equal to or greater than a predetermined value α (step 1204).

  When the current inclination of the imaging apparatus 1 is less than the predetermined value α, the guide display is set to OFF (step 1206), and the process proceeds to step 1216 described later. On the other hand, if the current inclination of the imaging apparatus 1 is equal to or greater than the predetermined value α, the guide display is set to ON (step 1208). Next, it is determined whether or not the current zoom position is on the wide side (step 1210).

  In step 1210, if the current zoom position is on the tele side, the display sensitivity of the guide display is set to normal (step 1212). If the current zoom position is on the wide side, the display sensitivity of the guide display is increased (step 1214). This is an operation for exaggerating the inclination of the imaging apparatus 1 displaying the guide display from the actual inclination. Then, display information is instructed to the guide display setting unit 129 (step 1216), and the guide display is displayed on the display device 111.

  In the present embodiment, when the zoom position is on the wide side, by exaggerating the guide display, the inclination of the imaging device 1 becomes clearer and the photographer can easily recognize it. In addition, when the zoom position is on the wide side, increasing the display sensitivity of the guide display makes it easier to understand the change in the tilt of the imaging apparatus 1 with respect to minute movements (blurs), so that the imaging apparatus 1 is adjusted to the horizontal state. It becomes easy. When the imaging apparatus 1 is in a horizontal state, the guide display is set to OFF in step 1204 shown in FIG. 5 because the inclination of the imaging apparatus 1 is less than the predetermined value α.

  As described above, in the present embodiment, when the zoom position is on the wide side, the display sensitivity of the wide display is changed (increased) as compared with the case where the zoom position is on the tele side. The photographer can be informed of the tilt more clearly. Furthermore, in the present embodiment, since the amount of movement of the imaging device 1 with respect to a delicate inclination can be clearly understood, the horizontal state of the imaging device 1 can be easily maintained.

  Hereinafter, the control operation of the display control unit 116 that combines the control operation shown in FIG. 2 and the control operation shown in FIG. 5 will be described with reference to FIG. In other words, in the present embodiment, the tilt of the imaging device 1 that displays the guide display is changed on the wide side and the tele side, and the tilt of the imaging device 1 is increased by increasing the display sensitivity of the guide display on the wide side. Display exaggeratedly. FIG. 6 is a flowchart for explaining another control operation of the display control unit 116.

  Referring to FIG. 6, first, the tilt information of the imaging device 1 is detected based on the output of the tilt sensor 126 (step 1302). Next, it is determined whether or not the current zoom position is the wide side (or the tele side) (step 1304).

  In step 1304, if the current zoom position is on the wide side, the inclination of the current imaging device 1 (that is, the detected inclination of the imaging device 1) is determined from the inclination information detected in step 1302 by a predetermined value β. It is determined whether or not the above is true (step 1306). If the inclination of the imaging device 1 is equal to or greater than the predetermined value β, the guide display is turned on and the display sensitivity of the guide display is increased (step 1308). Then, display information is instructed to the guide display setting unit 129 (step 1310), and the guide display is displayed on the display device 111.

  On the other hand, if the current zoom position is on the tele side in step 1304, it is determined from the tilt information detected in step 1302 whether the current tilt of the imaging device 1 is greater than or equal to a predetermined value α (step 1304). 1312). If the inclination of the imaging device 1 is equal to or greater than the predetermined value α, the guide display is turned on and the display sensitivity of the guide display is set to normal (step 1314). Then, as in the case where the zoom position is on the wide side, display information is instructed to the guide display setting unit 129 (step 1310), and the guide display is displayed on the display device 111.

  If the inclination of the imaging device 1 is less than the predetermined value β in step 1306 or if the inclination of the imaging device 1 is less than the predetermined value α in step 1312, the imaging device 1 is kept substantially horizontal. The guide display is turned off (step 1316). Then, the guide display setting unit 129 is instructed to turn off the guide display (step 1310), and the guide display of the display device 111 is turned off in response to the instruction.

  Here, the relationship between the predetermined value α and the predetermined value β satisfies the following Expression 2.

  As a result, the tilt of the imaging device 1 for which the guide display is ON is always smaller on the wide side than on the tele side, and the wide side guide display is exaggerated as the tilt of the imaging device 1 increases. .

  In the present embodiment, the guide display when the imaging device 1 is tilted is displayed with a small tilt when the zoom position where the tilt is easily noticeable is on the wide side, so that the photographer is quickly informed of the tilt of the imaging device 1. Can do. Further, when the imaging device 1 has a large tilt, the display is exaggerated rather than the actual tilt, so that the tilt of the imaging device 1 becomes clearer. Furthermore, the change in the tilt of the imaging device 1 with respect to a minute movement can be easily understood, and the horizontal state of the imaging device 1 can be easily adjusted, and the accuracy of the horizontal state can be improved.

  As described with reference to FIG. 2, by changing the tilt setting of the imaging apparatus 1 that displays the guide display, the guide display is always displayed on the wide side and the guide display is not always displayed on the tele side. It is also possible to make it. In this case, the imaging apparatus 1 that displays the wide-side guide display is set to display ON when the tilt is 0 degree or more, and the imaging apparatus 1 that displays the tele-side guide display is set to display OFF when the tilt is less than ± 90 degrees. do it.

  Hereinafter, another configuration of the detection unit that detects the inclination of the imaging apparatus 1 will be described. FIG. 7 is a schematic block diagram illustrating an example of the configuration of the detection unit of the imaging apparatus 1.

  Reference numeral 701 denotes a variable gain amplifier that can change the output gain from the tilt sensor 126. Based on the zoom position determined by the camera control unit 115, the gain setting is performed via the gain control unit 702 included in the main control unit 114. Can be changed.

  FIG. 8 is a schematic block diagram showing the configuration of the variable gain amplifier 701. As shown in FIG. 8, the variable gain amplifier 701 includes a gain changeover switch 703, an amplifier 704, and a resistor 705. When the gain changeover switch 703 is turned on by the gain changeover signal from the main control unit 114, the input resistance of the amplifier 704 is connected in parallel, and the amplifier gain is increased. As a result, the sensor sensitivity is increased. Such a gain change is performed in order to exaggerate the inclination of the imaging apparatus 1 displayed on the guide display from the actual inclination when the current zoom position is on the wide side.

  With reference to FIG. 9, the control operation of the display control unit 116 in the configuration of the detecting means shown in FIG. 7 will be described. FIG. 9 is a flowchart for explaining another control operation of the display control unit 116.

  Referring to FIG. 9, first, the inclination information of the imaging apparatus 1 that is the output of the variable gain amplifier 701 is detected (step 1402). Next, it is determined whether or not the current zoom position is on the wide side (step 1404).

  In step 1404, if the current zoom position is on the wide side, it is determined whether or not the sensor sensitivity is increased (step 1406). In other words, it is determined whether or not the gain of the variable gain amplifier 701 is set high. If the sensor sensitivity has not increased, the sensor sensitivity is increased (step 1408). On the other hand, if the sensor sensitivity is increased, it is determined from the tilt information detected in step 1402 whether the current tilt of the imaging device 1 (that is, the detected tilt of the imaging device 1) is greater than or equal to a predetermined value α. Is determined (step 1410). If the current inclination of the imaging device 1 is equal to or greater than the predetermined value α, the guide display is turned on (step 1412). Then, display information is instructed to the guide display setting unit 129 (step 1414), and the guide display is displayed on the display device 111.

  On the other hand, if the current zoom position is on the tele side, it is determined whether the sensor sensitivity is a normal setting (step 1416). If the sensor sensitivity is not a normal setting, the sensor sensitivity is changed to a normal setting (step 1418). This is an operation of turning off the gain changeover switch 703 of the gain variable amplifier 701 described above. If the sensor sensitivity is a normal setting, the process proceeds to step 1410.

  Note that, regardless of whether the current zoom position is the wide side or the tele side, if the inclination of the imaging apparatus 1 is less than the predetermined value α in step 1410, the guide display is turned off (step 1420). Then, the guide display setting unit 129 is instructed to turn off the guide display (step 1414), and the guide display of the display device 111 is turned off in response to the instruction.

  In this way, when the current zoom position is on the wide side, the display control described with reference to FIG. 5 is performed by increasing the gain of the variable gain amplifier 701 compared to when the zoom position is on the tele side. The same effect can be obtained. That is, on the wide side where the inclination of the imaging device 1 is easily noticeable, the imaging person can clearly recognize the inclination of the imaging device 1. Furthermore, since the change in the tilt of the imaging device 1 with respect to minute movements can be easily understood, the imaging device 1 can be easily adjusted to the horizontal state, and the accuracy of the horizontal state can be improved.

  As described with reference to FIG. 2, in the display control shown in FIGS. 5, 6, and 9, the zoom position is set to the wide side (or the telephoto side) by arbitrarily setting a predetermined value for determining the zoom position. Side)) can be switched. Further, if the zoom position is divided into three and the inclinations (predetermined values) of the imaging apparatus 1 that displays the guide display for the three areas are α, β, and γ, there are three areas: a wide area, a middle area, and a tele area. The guide display can be switched in the zoom area. Further, if the number of divisions of the zoom area is increased and the inclination of the imaging apparatus 1 that displays the guide display according to the number of divisions is set, the guide display can be controlled by arbitrarily dividing the zoom area. is there.

  The imaging device 1 notifies the photographer of even a slight tilt on the wide side where the tilt of the imaging device 1 is conspicuous by changing the tilt for switching between display and non-display of the guide display according to the zoom position (that is, shooting) Can urge the person to correct the inclination). Thereby, the imaging device 1 can provide a high-quality image in which the inclination is not noticeable, that is, the image quality. In addition, on the tele side where the tilt of the imaging device 1 is not noticeable, it is possible to prevent the information (guide display) regarding the horizontal state of the imaging device 1 from being displayed unless the imaging device 1 is tilted greatly. The clutter can be suppressed. Thus, the imaging device 1 can provide high-quality images and improve the convenience of the photographer.

  The preferred embodiments of the present invention have been described above, but the present invention is not limited to these embodiments, and various modifications and changes can be made within the scope of the gist.

1 is a schematic block diagram illustrating a system configuration of an imaging apparatus as one aspect of the present invention. 3 is a flowchart for explaining a control operation of a display control unit shown in FIG. 1. 3 is a graph showing the relationship between the tilt of the imaging device shown in FIG. 1 and the output of a tilt sensor (acceleration sensor). It is a figure which shows typically the range where a guide display is displayed on the display apparatus shown in FIG. 6 is a flowchart for explaining another control operation of the display control unit shown in FIG. 1. 6 is a flowchart for explaining another control operation of the display control unit shown in FIG. 1. It is a schematic block diagram which shows an example of a structure of the detection means of the imaging device shown in FIG. FIG. 8 is a schematic block diagram illustrating a configuration of a variable gain amplifier illustrated in FIG. 7. It is a flowchart for demonstrating another control operation | movement of the display control part shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Imaging device 102 Zoom lens 103 Diaphragm 105 Focus lens 106 Imaging element 107 Analog signal processing circuit 108 Camera signal processing circuit 111 Display device 113 AF signal processing circuit 114 Main control unit 115 Camera control unit 116 Display control unit 126 Tilt sensor 127 Amplifier circuit 129 Guide display setting unit 701 Gain variable amplifier 702 Gain control unit 703 Gain changeover switch 704 Amplifier 705 Resistance

Claims (16)

An imaging device for imaging a subject,
Display means for displaying a captured image of the subject;
Tilt detecting means for detecting the tilt of the imaging device with respect to a reference posture;
Generating means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detecting means;
Switching means for switching display or non-display of the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means;
The image pickup apparatus, wherein the inclination of the image pickup apparatus that switches between display and non-display of the guide display differs according to a zoom position of the image pickup apparatus.   The imaging apparatus according to claim 1, wherein an inclination of the imaging apparatus that switches between display and non-display of the guide display is smaller as a zoom position of the imaging apparatus becomes wider. An imaging device for imaging a subject,
Display means for displaying a captured image of the subject;
Tilt detecting means for detecting the tilt of the imaging device with respect to a reference posture;
Generating means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detecting means;
Switching means for switching display or non-display of the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means;
An image pickup apparatus comprising: display sensitivity changing means for changing display sensitivity of the guide display according to a zoom position of the image pickup apparatus.   The imaging apparatus according to claim 3, wherein the display sensitivity changing unit changes the display sensitivity so that the display sensitivity increases as the zoom position detected by the zoom position detection unit becomes wider. An imaging device for imaging a subject,
Display means for displaying a captured image of the subject;
Tilt detecting means for detecting the tilt of the imaging device with respect to a reference posture;
Generating means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detecting means;
Switching means for switching display or non-display of the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means;
Display sensitivity changing means for changing the display sensitivity of the guide display according to the zoom position of the imaging device;
The imaging apparatus characterized in that the tilt of the imaging apparatus that switches between display and non-display of the guide display is smaller and the display sensitivity is higher as the zoom position detected by the zoom position detection means is wider. An imaging device for imaging a subject,
Display means for displaying a captured image of the subject;
Tilt detecting means for detecting the tilt of the imaging device with respect to a reference posture;
Generating means for generating a guide display corresponding to the inclination of the imaging device detected by the inclination detecting means;
Switching means for switching display or non-display of the guide display on the display means based on the inclination of the imaging device detected by the inclination detection means;
An imaging apparatus comprising: a detection sensitivity changing unit that changes a detection sensitivity of the tilt detection unit according to a zoom position of the imaging apparatus.   The imaging apparatus according to claim 6, wherein the detection sensitivity changing unit changes the detection sensitivity such that the detection sensitivity increases as the zoom position detected by the zoom position detection unit becomes wider. An imaging device for imaging a subject,
Display means for displaying a captured image of the subject;
Tilt detecting means for detecting the tilt of the imaging device with respect to a reference posture;
Generating means for generating a guide display corresponding to the inclination detected by the inclination detecting means;
Control means for controlling display or non-display of the guide display on the display means based on the zoom position of the image pickup apparatus and the inclination of the image pickup apparatus detected by the inclination detection means. apparatus.   9. The imaging apparatus according to claim 8, wherein the control unit controls display sensitivity of the guide display based on the zoom position detected by the zoom position detection unit.   9. The imaging apparatus according to claim 8, wherein the control unit controls the detection sensitivity of the tilt detection unit based on the zoom position detected by the zoom position detection unit. A display method for displaying a guide display corresponding to the inclination of the imaging device with respect to a reference posture on a display means for displaying a captured image of a subject,
Detecting the tilt of the imaging device;
Changing the zoom position of the imaging device;
And displaying the guide display on the display means based on the detected tilt of the imaging device and the zoom position. A display method for displaying a guide display corresponding to the inclination of the imaging device with respect to a reference posture on a display means for displaying a captured image of a subject,
Detecting the tilt of the imaging device;
Determining whether the zoom position of the imaging device is the wide side or the tele side;
A step of comparing the tilt of the imaging device detected in the detection step with a first predetermined value when the zoom position of the imaging device is on the tele side;
When the zoom position of the imaging device is on the wide side, comparing the tilt of the imaging device detected in the detection step with a second predetermined value;
In the comparison step, the guide display is displayed on the display means when the inclination of the imaging device detected in the detection step is greater than or equal to the first predetermined value or greater than the second predetermined value. A display method comprising the steps of:   The display method according to claim 12, wherein the first predetermined value is larger than the second predetermined value.   In the comparison step, when the inclination of the imaging device detected in the detection step is equal to or higher than the first predetermined value or higher than the second predetermined value, the display sensitivity of the guide display is increased. The display method according to claim 12, further comprising:   13. The display method according to claim 12, further comprising a step of increasing detection sensitivity for detecting an inclination of the imaging device when the zoom position is determined to be a wide side in the determination step. A display method for displaying a guide display corresponding to the inclination of the imaging device with respect to a reference posture on a display means for displaying a captured image of a subject,
Detecting the tilt of the imaging device;
Comparing the inclination of the imaging device detected in the detection step with a predetermined value;
Determining whether the zoom position of the imaging device is the wide side or the tele side when the tilt of the imaging device is equal to or greater than the predetermined value;
And a step of increasing the display sensitivity of the guide display when it is determined in the determining step that the zoom position is on the wide side.