JP4681798B2 - Lens device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a lens device used for a television camera, a video camera, a television lens, a video lens, and the like, and a photographing device including a lens device and a camera device connected to the lens device.
[0002]
[Prior art]
When ENG zoom lens is attached to ENG camera and ENG camera is fixed to a tripod depending on shooting contents such as news, broadcast, drama, variety, documentary, shooting location, shooting situation, photographer's preference, etc. Taken when carrying it. For the same reason, it is determined whether zoom, focus, and iris are driven electrically or manually. For example, when zooming is used as an example, when quick zoom drive is necessary, drive manually and zoom drive at a constant low speed, or when ENG camera is fixed on a tripod and zoom drive cannot be performed manually For example, it is driven electrically.
[0003]
FIG. 12 is a top view of the ENG camera zoom lens, and FIG. 13 is a side view of the ENG camera zoom lens.
[0004]
As shown in FIGS. 12 and 13, 100 is not shown, but a fixed focus lens, a moving focus lens, a zoom lens, an iris mechanism, a relay lens, and the like are provided in that order from the front. Is a lens barrel, 101 is a focus ring for moving the focus lens back and forth along the optical axis by rotating, and 102 is a focus ring for adjusting the focus. 102 is rotated to move the zoom lens along the optical axis. A zoom ring for adjusting the zoom by moving back and forth, 103 an iris ring for adjusting the iris diaphragm diameter by rotating, and 104 for attaching to the lens barrel of the ENG zoom lens, and electrically driving the zoom, focus and iris. Motor for driving, position detector, control circuit, zoom, focus, eye A drive unit containing a clutch, a switch, etc. for switching whether to drive the motor electrically or manually. 105 is a zoom switch for controlling the zoom when it is electrically driven. 106 is an iris electrically driven. The iris electric / manual changeover switch 107 is used to switch between whether the iris is driven or manually driven. 107 is an electrical interface between the ENG lens and the ENG camera, and a command signal for driving the iris electrically is supplied from the ENG camera side. The camera cable 108 is a zoom switch speed variable volume that varies the drive speed of the zoom lens with respect to the operation amount of the zoom switch 105 when the zoom is electrically driven, and 109 is whether the zoom is electrically driven or manually driven. Zoom clutch to switch, 110 is focus Or to drive an electric, a focus clutch for switching whether to drive manually.
[0005]
The driving of the zoom ring 102, the focus ring 101, and the iris ring 103 when carrying the ENG camera in the above configuration will be described.
[0006]
The zoom ring 102 is driven by switching the zoom clutch 109 to the electric side, operating the zoom switch 105 to electrically drive the zoom ring 102, and switching the zoom clutch 109 to the manual side, and manually moving the zoom ring 102. There is a zoom manual mode to drive.
[0007]
When the ENG camera is carried, the focus ring 101 is driven by an operating member that controls when the focus is driven electrically. Therefore, the focus clutch 110 is switched to the manual side and the focus ring 101 is driven manually. Only focus manual mode is used.
[0008]
To drive the iris, the iris electric / manual changeover switch 106 is switched to the electric side, and the iris ring 103 is electrically driven by control from the ENG camera side so that the amount of light incident on the image sensor in the ENG camera is constant. There are an iris servo mode and a manual iris mode in which the iris electric / manual changeover switch is switched to the manual side and the iris ring 103 is driven manually. In the case of an iris, when the iris ring 103 is driven by the photographer's intention, it is necessary to select the iris manual mode.
[0009]
In addition, when carrying the ENG camera and manually driving the zoom, focus, and iris, the shoulder pad placed on the bottom of the ENG camera is placed on the shoulder and the drive unit 104 is supported with the right hand. Manual driving of the ring 102, the focus ring 101, and the iris ring 103 is performed only with the left hand.
[0010]
[Problems to be solved by the invention]
However, according to the above conventional example, when carrying an ENG camera, quick zoom drive is necessary, and if it is desired to drive the iris at the intention of the photographer, it is necessary to manually drive the zoom, focus, and iris. In this case, the right hand cannot be used at all, and the zoom, focus, and iris manual drive must be performed only with the left hand, which requires a very advanced operation technique.
[0011]
In view of such problems, the object of the present application is to provide a means for assigning another function to a zoom switch, a zoom switch speed variable volume, etc. arranged in the drive unit, for example, when driving zoom electrically. It is possible to drive the iris instead of zooming by manipulating the zoom switch for controlling the zoom, and to drive the focus electrically by manipulating the zoom switch speed variable volume. In this case, even when quick zoom drive is required and the iris is driven by the photographer's intention, the iris or focus can be controlled with the right hand, and zoom, focus, and iris can be controlled with the left hand only. No need for manual drive It is to eliminate the need for technology.
[0012]
[Means for Solving the Problems]
In order to achieve the above object, a lens device of the present invention is a lens device mounted on a camera device, and includes a zoom lens, an iris, and a zoom ring for manually driving the zoom lens,
The zoom driving means for electrically driving the zoom lens, the zoom switch operated to control the zoom driving means, and the zoom lens are electrically driven by the zoom driving means or manually driven by the zoom ring. A zoom clutch for switching between, an iris ring for manually driving the iris, an iris driving means for electrically driving the iris, an iris electric / manual changeover switch settable between the electric side and the manual side, and the zoom side and the iris Zoom / iris switching means that can be set on the side, and
When the iris electric / manual switching switch is set to the manual side and the zoom / iris switching means is set to the iris side, the iris driving means can electrically drive the iris based on the operation of the zoom switch. And when the iris electric / manual switching switch is set to the electric side, By the iris position command signal from the camera device The iris driving means But The iris can be electrically driven, and when the iris electric / manual switching switch is set to the manual side and the zoom / iris switching means is set to the zoom side, the iris is manually driven by the iris ring. It is characterized by being possible.
A lens device according to another aspect of the present invention is a lens device mounted on a camera device, and electrically operates a zoom lens, a focus lens, a zoom ring for manually driving the zoom lens, and the zoom lens. A zoom driving means, a zoom switch operated to control the zoom driving means, a zoom clutch for switching whether the zoom lens is electrically driven by the zoom driving means or manually driven by the zoom ring; A focus ring for manually driving the focus lens, focus drive means for electrically driving the focus lens, a focus clutch that can be set between an electric side and a manual side, and a zoom side and a focus side can be set. Zoom / focus switching means, and the focus clutch is electrically operated When the zoom / focus switching means is set to the focus side, the focus lens can be electrically driven based on the operation of the zoom switch, and the focus clutch is set to the manual side. In the case where the zoom / focus switching means is set to the zoom side, the focus lens is not electrically driven based on the operation of the zoom switch.
The photographing apparatus of the present invention includes the above-described lens device and a camera device equipped with the lens device.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
(Example)
(First embodiment)
The first embodiment of the present invention will be described below with reference to the drawings.
[0014]
FIG. 1 shows the configuration of an optical apparatus in which the first embodiment of the present invention is implemented.
[0015]
In the figure, reference numeral 1 denotes a zoom speed command signal for detecting a zoom speed command signal instructing a zoom drive direction and a zoom drive speed proportional to an operation amount of the zoom switch 105 in order to electrically drive a zoom lens optical system 9 described later. It is a generation means. The zoom speed command signal generating means 1 may be a potentiometer, an analog detector such as a volume, or a digital detector such as a rotary encoder. 2 is a signal level for taking the zoom speed command signal into an A / D conversion means 3 described later. Zoom speed command signal calculation means for performing shift conversion, 3 A / D conversion means for converting an analog signal output from the zoom speed command signal calculation means 2 into a digital signal, 4 a CPU for controlling the operation of each function, 5 D / A conversion means for converting a zoom control signal output from the CPU 4 to electrically drive a zoom lens optical system 9 to be described later from a digital signal to an analog signal, and 6 a zoom control output from the D / A conversion means 5. The signal level of the signal, zoom control signal calculation means for performing shift conversion, 7 drives a zoom motor 8 to be described later. Zoom power amplifying means 8, a zoom motor 8 for driving a zoom lens optical system 9, which will be described later, 9 a zoom lens optical system for adjusting the magnification of the optical device, and 10 a zoom position corresponding to the position of the zoom lens optical system 9 A zoom position signal detecting means 11 for outputting a signal, a zoom position signal calculating means 11 for performing a signal level and shift conversion for taking the zoom position signal into an A / D converting means 12 to be described later, and 12 from the zoom position signal calculating means 11. A / D conversion means for converting the output analog signal into a digital signal, 13 is a D / D that converts the focus control signal output from the CPU 4 to electrically drive a focus lens optical system 17 (to be described later) from a digital signal to an analog signal. A conversion means, 14 is the signal level and shift of the focus control signal output from the D / A conversion means 13 Focus control signal calculation means for performing conversion, 15 is a focus power amplification means for driving a focus motor 16 to be described later, 16 is a focus motor for driving a focus lens optical system 17 to be described later, and 17 is a focus lens for adjusting the focus of the optical device. An optical system, 18 is a focus position signal detection means for outputting a focus position signal corresponding to the position of the focus lens optical system 17, and 19 is a signal level and shift conversion for taking the focus position signal into an A / D conversion means 20 described later. Focus position signal calculating means 20 for performing the above, 20 is an A / D converting means for converting the analog signal output from the focus position signal calculating means 19 into a digital signal, and 21 is output from the CPU 4 for electrically driving an iris mechanism 25 described later. The iris control signal from the digital signal A D / A conversion means for converting to a log signal, 22 is a signal level of an iris control signal output from the D / A conversion means 21, an iris control signal calculating means for performing shift conversion, and 23 drives an iris motor 24 described later. Iris power amplifying means, 24 is an iris motor that drives an iris mechanism 25 to be described later, 25 is an iris mechanism that adjusts the light amount of the optical device, and 26 is an iris position signal detection that outputs an iris position signal corresponding to the position of the iris mechanism 25 Means 27 is a signal level for taking the iris position signal into an A / D conversion means 28 to be described later, and an iris position signal calculating means 28 for performing shift conversion, and 28 is an analog signal output from the iris position signal calculating means 27 as a digital signal. A / D conversion means 29 for converting to a zoom speed by operating the zoom switch 105 Whether the zoom speed command signal input to the CPU 4 via the command signal generating means 1, the zoom speed command signal calculating means 2 and the A / D conversion means 3 is handled as a zoom speed command signal for instructing the zoom drive direction and the zoom drive speed. Zoom / iris switching means 30 for switching whether to handle the iris driving direction and the iris driving speed as an iris speed command signal, 30 is a signal level for taking in a zoom switch speed variable volume position signal into an A / D conversion means 31 described later. Zoom switch speed variable volume position signal calculation means 31 for performing shift conversion, 31 is an A / D conversion means for converting an analog signal output from the zoom switch speed variable volume position signal calculation means 30 into a digital signal, and 32 is from the camera device. Camera iris position command signal input to optical device The camera iris position command signal calculating means 33 performs signal level and shift conversion for taking in (ICS) into the A / D conversion means 33 described later, and 33 is a digital signal for the analog signal output from the camera iris position command signal calculating means 32. A / D conversion means for converting into a zoom, 105 is a zoom switch for controlling when the zoom is driven electrically, and 106 is an iris electric / manual switching switch for switching whether the iris is driven electrically or manually. , 108 is a zoom switch speed variable volume that varies the drive speed of the zoom lens with respect to the operation amount of the zoom switch 105 when the zoom is electrically driven. The zoom switch speed variable volume 108 may be either a potentiometer, an analog detector such as a volume, or a digital detector such as a rotary encoder. Reference numeral 109 denotes a zoom clutch that switches whether the zoom is driven electrically or manually. Reference numeral 110 denotes a focus clutch that switches whether the focus is driven electrically or manually.
[0016]
In the above configuration, the control for driving the zoom lens optical system 9 will be described first. When the zoom clutch 109 is on the electric side and the zoom / iris switching means 29 is switched to the zoom side, the zoom can be electrically driven by operating the zoom switch 105. In this case, the zoom speed command signal output from the zoom speed command signal generating means 1 for detecting the zoom speed command signal for instructing the drive direction and drive speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means. 2. Input to CPU 4 via A / D conversion means 3. Further, when the zoom is driven electrically, the zoom switch speed variable volume position signal from the zoom switch speed variable volume 108 that varies the drive speed of the zoom lens with respect to the operation amount of the zoom switch 105 is changed to the zoom switch speed variable volume position signal calculation means 30. , Input to the CPU 4 via the A / D conversion means 31. The CPU 4 obtains a zoom control signal in accordance with the zoom speed command signal and the zoom switch speed variable volume position signal, and the zoom power amplifying means 7 and the zoom motor 8 via the D / A conversion means 5 and the zoom control signal calculating means 14. The zoom lens optical system 9 is driven. Further, when the zoom clutch 109 is switched to the manual side or the zoom / iris switching means 29 is switched to the iris side, the zoom lens optical system 9 is not electrically driven even if the zoom switch 105 is operated. .
[0017]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0018]
First, it is determined whether or not the zoom clutch 109 is switched to the electric side (step 101). If the zoom clutch 109 is not the electric side, it is determined whether or not the zoom clutch 109 is switched to the electric side (step 101). 101). If the zoom clutch 109 is on the electric side, it is determined whether or not the zoom / iris switching means 29 is switched to the zoom side (step 102). If the zoom / iris switching means 29 is not on the zoom side, the zoom clutch The process returns to the determination (step 101) as to whether 109 is switched to the electric side. When the zoom / iris switching means 29 is on the zoom side, the zoom speed command signal is obtained as A from the A / D conversion means 3 (step 103), and then the zoom switch speed variable volume position is obtained from the A / D conversion means 31. The signal is acquired as B (step 104). The multiplication of the zoom speed command signal A, the zoom switch speed variable volume position command signal B, and the constant K1 is obtained and used as the zoom control signal (step 105). Thereafter, the zoom control signal is output to the D / A conversion means 5 (step 106), and the process returns to the determination (step 101) as to whether or not the zoom clutch 109 has been switched to the electric side.
[0019]
Next, a description will be given of control when the iris mechanism 25 is driven. When the iris electric / manual switching switch 106 is on the manual side and the zoom / iris switching means 29 is switched to the iris side, the zoom switch 105 can be operated to electrically drive the iris. In this case, the zoom speed command signal output from the command signal generating means 1 for detecting a command signal instructing the driving direction and driving speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means 2, A / The data is input to the CPU 4 via the D conversion means 3. The CPU 4 obtains an iris control signal in accordance with the zoom speed command signal, controls the iris motor 24 by the iris power amplifying means 23 via the D / A conversion means 21 and the iris control signal calculation means 22, and the iris mechanism 25 Driven. Further, when the iris electric / manual changeover switch 106 is switched to the electric side, the iris can be electrically driven by a camera iris position command signal (ICS) input from the camera device to the optical device. In this case, a camera iris position command signal is input to the CPU 4 via the camera iris position command signal calculation means 32 and the A / D conversion means. Further, an iris position signal output from an iris position detector 26 that detects the position of the iris mechanism 25 is input to the CPU 4 via an iris position signal calculator 27 and an A / D converter 28. The CPU 4 obtains an iris control signal in accordance with the difference between the camera iris position command signal and the iris position signal, and the iris motor 24 by the iris power amplifier 23 through the D / A converter 21 and the iris control signal calculator 22. And the iris mechanism 25 is driven. Finally, when the iris electric / manual switching switch 106 is on the manual side and the zoom / iris switching means 29 is switched to the zoom side, the iris mechanism 25 can be driven manually.
[0020]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0021]
First, it is determined whether or not the iris electric / manual changeover switch 106 is switched to the electric side (step 111). If the iris electric / manual changeover switch 106 is on the electric side, the A / D conversion means 33 sends the camera to the camera. The iris position signal is acquired as C (step 112), and the iris position signal is acquired as D from the A / D conversion means 28 (step 113). Next, the difference between the camera iris position command signal C and the iris position signal D is taken, and the difference is multiplied by a constant K2, which is used as the iris control signal (step 114). Thereafter, the iris control signal is output to the D / A conversion means 21 (step 115), and the process returns to the determination (step 111) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side. If the iris electric / manual changeover switch 106 is not on the electric side, it is determined whether or not the zoom / iris switching means 29 is switched to the iris side (step 116), and the zoom / iris switching means 29 is not on the iris side. The process returns to the determination (step 111) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side. When the zoom / iris switching means 29 is on the iris side, the zoom speed command signal is acquired as A from the A / D conversion means 3 (step 117), and then the multiplication of the zoom speed command signal A and a constant K2 is obtained. This is used as an iris control signal (step 118). Thereafter, the iris control signal is output to the D / A conversion means 21 (step 115), and the process returns to the determination (step 111) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side.
[0022]
In this embodiment, the speed control is performed when the iris mechanism is electrically driven using the zoom switch. However, the zoom switch indicates a zoom drive position proportional to the operation amount of the zoom switch, and the zoom switch is used. Thus, the control when the iris mechanism is electrically driven may be position control.
[0023]
In this embodiment, the iris mechanism is electrically driven using a zoom switch. However, speed control and position control of a macro lens that can be electrically driven may be performed.
[0024]
As described above, the zoom lens, the optical device having the focus lens and the iris mechanism, the zoom lens, the driving means installed in the iris mechanism, and the zoom lens by operating the driving means of the zoom lens. In an optical apparatus having a zoom operation means, an iris drive switching means for switching the iris mechanism to electric drive and manual drive,
By providing an operation switching means for switching whether to drive the zoom lens or the iris mechanism when operating the zoom operation means,
By enabling the iris mechanism to be electrically driven by the zoom operation means, when carrying an ENG camera, quick zoom driving is necessary, and even when the iris is to be driven by the photographer's intention, The iris can be controlled with the right hand, and there is no need to perform zooming, focusing, and manual driving of the iris with only the left hand, and it is possible to eliminate the need for very advanced operation techniques.
[0025]
(Second embodiment)
In the first embodiment, the iris is electrically driven using the zoom switch. However, an optical apparatus configured to electrically drive the focus will be described below as a second embodiment.
[0026]
The second embodiment of the present invention will be described below with reference to the drawings.
[0027]
FIG. 4 shows the configuration of the optical apparatus in which the second embodiment is implemented.
[0028]
In the figure, since 1 to 28, 30 to 33, 105, 106, 108 and 110 have been described above, description thereof will be omitted.
[0029]
Reference numeral 34 denotes a zoom speed command signal input to the CPU 4 via the zoom speed command signal generating means 1, zoom speed command signal calculating means 2, and A / D conversion means 3 by operating the zoom switch 105. Zoom / focus switching means for switching whether to handle as a zoom speed command signal for instructing or a focus speed command signal to instruct the focus drive direction and focus drive speed.
[0030]
In the above configuration, the control for driving the zoom lens optical system 9 is the same as that in the first embodiment, and thus the description thereof is omitted.
[0031]
The control when driving the focus lens optical system 17 will be described. When the focus clutch 110 is on the electric side and the zoom / focus switching means 34 is switched to the focus side, the zoom can be electrically driven by operating the zoom switch 105. In this case, the zoom speed command signal output from the command signal generating means 1 for detecting a command signal instructing the driving direction and driving speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means 2, A / The data is input to the CPU 4 via the D conversion means 3. The CPU 4 obtains a focus control signal in accordance with the zoom speed command signal, controls the focus motor 16 by the focus power amplifying means 15 via the D / A conversion means 13 and the focus control signal calculation means 14, and the focus lens optical system. 17 is driven. Further, when the focus clutch 110 is switched to the manual side or the zoom / focus switching means 34 is switched to the zoom side, even if the zoom switch 105 is operated, the focus lens optical system 17 is not electrically driven. .
[0032]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0033]
First, it is determined whether or not the focus clutch 110 is switched to the electric side (step 121). If the focus clutch 110 is not the electric side, it is determined whether or not the focus clutch 110 is switched to the electric side (step). 121). If the focus clutch 110 is on the electric side, it is determined whether or not the zoom / focus switching means 34 is switched to the focus side (step 122). If the zoom / focus switching means 34 is not on the focus side, the focus clutch 110 It returns to the judgment (step 121) whether 110 is switched to the electric side. When the zoom / focus switching means 34 is on the focus side, the zoom speed command signal is acquired as A from the A / D conversion means 3 (step 123), and then the multiplication of the zoom speed command signal A and the constant K4 is obtained. This is used as a focus control signal (step 124). Thereafter, the focus control signal is output to the D / A conversion means 13 (step 125), and the process returns to the determination (step 121) as to whether or not the focus clutch 110 is switched to the electric side.
[0034]
In this embodiment, the speed control is performed when the focus lens optical system is electrically driven using the zoom switch. However, the zoom switch indicates the zoom drive position proportional to the operation amount of the zoom switch. Control when the focus lens optical system is electrically driven using the position control may be used as position control.
[0035]
As described above, the zoom lens, the optical device having the focus lens and the iris mechanism, the zoom lens, the driving unit installed in the focus lens, and the zoom lens by operating the driving unit of the zoom lens. In an optical apparatus having a zoom operation means, a focus drive switching means for switching the focus lens to electric drive and manual drive,
By providing an operation switching means for switching whether to drive the zoom lens or the focus lens when the zoom operation means is operated, the zoom operation means can electrically drive the focus lens. Because of this, when carrying an ENG camera, it is possible to control the iris with the right hand, even when you want to drive the iris at the will of the photographer, and zoom and focus with only the left hand. Therefore, it is not necessary to manually drive the iris, and it is possible to eliminate the need for a very advanced operation technique.
[0036]
(Third embodiment)
In the first embodiment, the iris is electrically driven using the zoom switch. However, an optical apparatus configured to electrically drive the iris using the zoom switch speed variable volume will be described below as a third embodiment.
[0037]
The third embodiment of the present invention will be described below with reference to the drawings.
[0038]
The configuration of the optical apparatus in which the third embodiment is implemented is shown in FIG.
[0039]
In the figure, since 1 to 28, 30 to 33, 105, 106, 108 and 110 have been described above, description thereof will be omitted.
[0040]
The zoom switch 35 is electrically driven by a zoom switch speed variable volume position signal input to the CPU 4 via the zoom switch speed variable volume position signal calculation means 30 and the A / D conversion means 33 by operating the zoom switch speed variable volume 108. Zoom / iris switching means for switching between a zoom switch speed variable volume position signal for changing the zoom lens drive speed relative to the operation amount of the zoom switch 105 and an iris position command signal for indicating the iris drive position. is there.
[0041]
In the above configuration, control when the zoom lens optical system 9 is driven will be described.
[0042]
When the zoom clutch 109 is on the electric side and the zoom / iris switching means 35 is switched to the zoom side, the zoom switch speed variable volume 108 can also be electrically driven with effective zoom by operating the zoom switch 105. In this case, the zoom speed command signal output from the zoom speed command signal generating means 1 for detecting the zoom speed command signal for instructing the drive direction and drive speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means. 2. Input to CPU 4 via A / D conversion means 3. Further, when the zoom is driven electrically, the zoom switch speed variable volume position signal from the zoom switch speed variable volume 108 that varies the drive speed of the zoom lens with respect to the operation amount of the zoom switch 105 is changed to the zoom switch speed variable volume position signal calculation means 30. , Input to the CPU 4 via the A / D conversion means 31. The CPU 4 obtains a zoom control signal in accordance with the zoom speed command signal and the zoom switch speed variable volume position signal, and the zoom power amplifying means 7 and the zoom motor 8 via the D / A conversion means 5 and the zoom control signal calculating means 14. The zoom lens optical system 9 is driven. When the zoom clutch 109 is on the electric side and the zoom / iris switching means 35 is switched to the iris side, the zoom switch speed variable volume 108 can be electrically operated with an invalid zoom by operating the zoom switch 105. . In this case, the zoom speed command signal output from the zoom speed command signal generating means 1 for detecting the zoom speed command signal for instructing the drive direction and drive speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means. 2. Input to CPU 4 via A / D conversion means 3. The CPU 4 obtains a zoom control signal in accordance with the zoom speed command signal, controls the zoom motor 8 by the zoom power amplification means 7 via the D / A conversion means 5 and the zoom control signal calculation means 14, and zoom lens optical system 9 is driven. Finally, when the zoom clutch 109 is switched to the manual side, even if the zoom switch 105 is operated, the zoom lens optical system 9 is not electrically driven.
[0043]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0044]
First, it is determined whether or not the zoom clutch 109 is switched to the electric side (step 131). If the zoom clutch 109 is not the electric side, it is determined whether or not the zoom clutch 109 is switched to the electric side (step 131). Return to 131). When the zoom clutch 109 is on the electric side, the zoom speed command signal is acquired as A from the A / D conversion means 3 (step 132), and it is determined whether or not the zoom / iris switching means 35 is switched to the zoom side. (Step 133). When the zoom / iris switching means 35 is on the zoom side, the zoom switch speed variable volume position signal is acquired as B from the A / D conversion means 31 (step 134). The multiplication of the zoom speed command signal A, the zoom switch speed variable volume position command signal B and the constant K1 is obtained, and this is used as the zoom control signal (step 135). Thereafter, the zoom control signal is output to the D / A conversion means 5 (step 136), and the process returns to the determination (step 131) as to whether or not the zoom clutch 109 has been switched to the electric side. If the zoom / iris switching means 35 is not on the zoom side, the multiplication of the zoom speed command signal A and the constant K1 is obtained and used as the zoom control signal (step 137). Thereafter, the zoom control signal is output to the D / A conversion means 5 (step 136), and the process returns to the determination (step 131) as to whether or not the zoom clutch 109 has been switched to the electric side.
[0045]
Next, a description will be given of control when the iris mechanism 25 is driven. When the iris electric / manual switching switch 106 is on the manual side and the zoom / iris switching means 35 is switched to the iris side, the iris can be electrically driven by operating the zoom switch speed variable volume 108. In this case, a zoom switch speed variable volume position signal is input from the zoom switch speed variable volume 108 to the CPU 4 via the zoom switch speed variable volume position signal calculation means 30 and the A / D conversion means 31. Further, an iris position signal output from an iris position detector 26 that detects the position of the iris mechanism 25 is input to the CPU 4 via an iris position signal calculator 27 and an A / D converter 28. The CPU 4 obtains an iris control signal according to the difference between the zoom switch speed variable volume position command signal and the iris position signal, and the iris power amplifying means 23 through the D / A conversion means 21 and the iris control signal calculation means 22. The iris motor 24 is controlled, and the iris mechanism 25 is driven. Further, when the iris electric / manual changeover switch 106 is switched to the electric side, the iris can be electrically driven by a camera iris position command signal (ICS) input from the camera device to the optical device. In this case, a camera iris position command signal is input to the CPU 4 via the camera iris position command signal calculation means 32 and the A / D conversion means. Further, an iris position signal output from an iris position detector 26 that detects the position of the iris mechanism 25 is input to the CPU 4 via an iris position signal calculator 27 and an A / D converter 28. The CPU 4 obtains an iris control signal in accordance with the difference between the camera iris position command signal and the iris position signal, and the iris motor 24 by the iris power amplifier 23 through the D / A converter 21 and the iris control signal calculator 22. And the iris mechanism 25 is driven. Finally, when the iris electric / manual switching switch 106 is on the manual side and the zoom / iris switching means 35 is switched to the zoom side, the iris mechanism 25 can be driven manually.
[0046]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0047]
First, it is determined whether or not the iris electric / manual changeover switch 106 is switched to the electric side (step 141). If the iris electric / manual changeover switch 106 is on the electric side, the A / D conversion means 33 sends the camera to the camera. The iris position signal is acquired as C (step 142), and the iris position signal is acquired as D from the A / D conversion means 28 (step 143). Next, the difference between the camera iris position command signal C and the iris position signal D is taken, and the difference is multiplied by a constant K2, which is used as the iris control signal (step 144). Thereafter, the iris control signal is output to the D / A conversion means 21 (step 145), and the process returns to the determination (step 141) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side. If the iris electric / manual changeover switch 106 is not on the electric side, it is determined whether or not the zoom / iris switching means 35 has been switched to the iris side (step 146), and if the zoom / iris switching means 35 is not on the iris side. The process returns to the determination (step 141) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side. When the zoom / iris switching means 35 is on the iris side, the zoom switch speed variable volume position signal is obtained as B from the A / D conversion means 31 (step 147), and the iris position signal is obtained from the A / D conversion means 28. Obtained as D (step 148). Next, the difference between the zoom switch speed variable volume position signal B and the iris position signal D is calculated, and the difference is multiplied by a constant K2, and this is used as the iris control signal (step 149). Thereafter, the iris control signal is output to the D / A conversion means 21 (step 145), and the process returns to the determination (step 141) as to whether or not the iris electric / manual changeover switch 106 has been switched to the electric side.
[0048]
In this embodiment, the iris mechanism is electrically driven using the zoom switch speed variable volume, but speed control and position control may be performed on the macro lens that can be electrically driven.
[0049]
As described above, the zoom lens, the optical device having the focus lens and the iris mechanism, the zoom lens, the driving means installed in the iris mechanism, and the zoom lens by operating the driving means of the zoom lens. In an optical apparatus comprising: a zoom operation unit that performs zoom operation speed variable unit that varies a drive speed of a zoom lens with respect to an operation amount of the zoom operation unit; and an iris drive switching unit that switches the iris mechanism to electric drive and manual drive.
By providing an operation switching means for switching whether to drive the iris mechanism or to change the drive speed when driving the zoom lens when operating the zoom operation speed variable means,
By enabling the iris mechanism to be electrically driven by the zoom operation means, when carrying an ENG camera, quick zoom driving is necessary, and even when the iris is to be driven by the photographer's intention, The iris can be controlled with the right hand, and there is no need to perform zooming, focusing, and manual driving of the iris with only the left hand, and it is possible to eliminate the need for very advanced operation techniques.
[0050]
(Fourth embodiment)
In the second embodiment, the focus is electrically driven using a zoom switch, but an optical apparatus configured to electrically drive the focus using a zoom switch speed variable volume will be described below as a fourth embodiment.
[0051]
The fourth embodiment of the present invention will be described below with reference to the drawings.
[0052]
The configuration of the optical apparatus in which the fourth embodiment is implemented is shown in FIG.
[0053]
In the figure, since 1 to 28, 30 to 33, 105, 106, 108 and 110 have been described above, description thereof will be omitted.
[0054]
The zoom switch is driven electrically by a zoom switch speed variable volume position signal input to the CPU 4 via the zoom switch speed variable volume position signal calculation means 30 and the A / D conversion means 33 by operating the zoom switch speed variable volume. Zoom / focus switching means for switching between a zoom switch speed variable volume position signal for varying the zoom lens drive speed relative to the operation amount of the zoom switch 105 and a focus position command signal for instructing the focus drive position. is there.
[0055]
In the above configuration, control when the zoom lens optical system 9 is driven will be described.
[0056]
When the zoom clutch 109 is on the electric side and the zoom / focus switching means 36 is switched to the zoom side, the zoom switch speed variable volume 108 can also be electrically driven with effective zoom by operating the zoom switch 105. In this case, the zoom speed command signal output from the zoom speed command signal generating means 1 for detecting the zoom speed command signal for instructing the drive direction and drive speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means. 2. Input to CPU 4 via A / D conversion means 3. Further, when the zoom is driven electrically, the zoom switch speed variable volume position signal from the zoom switch speed variable volume 108 that varies the drive speed of the zoom lens with respect to the operation amount of the zoom switch 105 is changed to the zoom switch speed variable volume position signal calculation means 30. , Input to the CPU 4 via the A / D conversion means 31. The CPU 4 obtains a zoom control signal in accordance with the zoom speed command signal and the zoom switch speed variable volume position signal, and the zoom power amplifying means 7 and the zoom motor 8 via the D / A conversion means 5 and the zoom control signal calculating means 14. The zoom lens optical system 9 is driven. Further, when the zoom clutch 109 is on the electric side and the zoom / focus switching means 36 is switched to the focus side, the zoom switch speed variable volume 108 can be electrically operated with an invalid zoom by operating the zoom switch 105. . In this case, the zoom speed command signal output from the zoom speed command signal generating means 1 for detecting the zoom speed command signal for instructing the drive direction and drive speed proportional to the operation amount of the zoom switch 105 is the zoom speed command signal calculating means. 2. Input to CPU 4 via A / D conversion means 3. The CPU 4 obtains a zoom control signal in accordance with the zoom speed command signal, controls the zoom motor 8 by the zoom power amplification means 7 via the D / A conversion means 5 and the zoom control signal calculation means 14, and zoom lens optical system 9 is driven. Finally, when the zoom clutch 109 is switched to the manual side, even if the zoom switch 105 is operated, the zoom lens optical system 9 is not electrically driven.
[0057]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0058]
First, it is determined whether or not the zoom clutch 109 is switched to the electric side (step 151). If the zoom clutch 109 is not the electric side, it is determined whether or not the zoom clutch 109 is switched to the electric side (step). Return to 151). When the zoom clutch 109 is on the electric side, the zoom speed command signal is acquired as A from the A / D conversion means 3 (step 152), and it is determined whether or not the zoom / focus switching means 36 is switched to the zoom side. (Step 153). When the zoom / focus switching means 36 is on the zoom side, the zoom switch speed variable volume position signal is acquired as B from the A / D conversion means 31 (step 154). The multiplication of the zoom speed command signal A, the zoom switch speed variable volume position command signal B, and the constant K1 is obtained and used as a zoom control signal (step 155). Thereafter, the zoom control signal is output to the D / A converter 5 (step 156), and the process returns to the determination (step 151) as to whether or not the zoom clutch 109 has been switched to the electric side. If the zoom / focus switching means 36 is not on the zoom side, the multiplication of the zoom speed command signal A and the constant K1 is obtained and used as the zoom control signal (step 157). Thereafter, the zoom control signal is output to the D / A converter 5 (step 156), and the process returns to the determination (step 151) as to whether or not the zoom clutch 109 has been switched to the electric side.
[0059]
Next, a description will be given of control when the focus lens optical system 17 is driven. When the focus clutch 110 is electrically operated and the zoom / focus switching means 36 is switched to the focus side, the focus can be electrically driven by operating the zoom switch speed variable volume 108. In this case, a zoom switch speed variable volume position signal is input from the zoom switch speed variable volume 108 to the CPU 4 via the zoom switch speed variable volume position signal calculation means 30 and the A / D conversion means 31. A focus position signal output from a focus position detection unit 18 that detects the position of the focus lens optical system 17 is input to the CPU 4 via the focus position signal calculation unit 19 and the A / D conversion unit 20. From the CPU 4, a focus control signal is obtained according to the difference between the zoom switch speed variable volume position command signal and the focus position signal, and by the focus power amplification means 15 via the D / A conversion means 13 and the focus control signal calculation means 14. The focus lens 16 is driven by controlling the focus motor 16. When the focus clutch 110 is switched to the manual side or the zoom / focus switching means 36 is switched to the zoom side, the focus lens optical system 17 is electrically driven even if the zoom switch variable volume 108 is operated. I will not.
[0060]
The processing of the CPU 4 at this time will be described with reference to FIG.
[0061]
First, it is determined whether or not the focus clutch 110 is switched to the electric side (step 161). If the focus clutch 110 is not the electric side, it is determined whether or not the focus clutch 110 is switched to the electric side (step). Return to 161). If the focus clutch 110 is on the electric side, it is determined whether the zoom / focus switching means 36 is switched to the focus side (step 162). If the zoom / focus switching means 34 is not on the focus side, the focus clutch 110 It returns to the judgment (step 161) whether 110 is switched to the electric side. When the zoom / focus switching means 36 is on the focus side, the zoom switch speed variable volume position signal is obtained as B from the A / D conversion means 31 (step 163), and the focus position signal is obtained from the A / D conversion means 20 as E. (Step 164). Next, the difference between the zoom switch speed variable volume position signal B and the focus position signal E is calculated, and the difference is multiplied by a constant K4 to obtain a focus control signal (step 165). Thereafter, the focus control signal is output to the D / A conversion means 13 (step 166), and the process returns to the determination (step 161) as to whether or not the focus clutch 110 has been switched to the electric side.
[0062]
As described above, the zoom lens, the optical device having the focus lens and the iris mechanism, the zoom lens, the driving means installed in the iris mechanism, and the zoom lens by operating the driving means of the zoom lens. In an optical apparatus having a zoom operation means, a zoom operation speed variable means for changing a drive speed of the zoom lens with respect to an operation amount of the zoom operation means, a focus drive switching means for switching the focus lens to electric drive and manual drive
By providing an operation switching means for switching whether to drive the zoom lens or to drive the focus lens when the zoom operation speed variable means is operated,
By enabling the iris mechanism to be electrically driven by the zoom operation means, when carrying an ENG camera, quick zoom driving is necessary, and even when the iris is to be driven by the photographer's intention, The iris can be controlled with the right hand, and there is no need to perform zooming, focusing, and manual driving of the iris with only the left hand, and it is possible to eliminate the need for very advanced operation techniques.
[0063]
Embodiment of the present invention
While various examples and embodiments of the present invention have been shown and described, those skilled in the art will recognize that the spirit and scope of the present invention is not limited to the specific descriptions and figures within this specification, It will be understood that various modifications and changes are fully set forth in the appended claims.
[0064]
Examples of embodiments of the present invention are listed below.
[0065]
[Embodiment 1]
A zoom lens, an iris, a zoom lens manual operation means for manually operating the zoom lens, and an electric zoom operation in which the zoom lens is electrically operated and the output changes in proportion to the operation amount. And switching means for switching whether to drive the zoom lens or to control the iris when the zoom electric operation means is operated,
A lens apparatus having a mode in which the iris can be controlled by operating the zoom electric operation means.
[0066]
“Embodiment 2”
A zoom lens, a macro lens, a zoom lens manual operation means for manually operating the zoom lens, and a zoom electric motor in which an output is changed in proportion to an operation amount. And switching means for switching whether to drive the zoom lens or to control the macro lens when the zoom electric operation means is operated.
A lens apparatus having a mode in which the macro lens can be controlled by operating the zoom electric operation means.
[0067]
“Embodiment 3”
A zoom lens, a focus lens, a zoom lens manual operation means for manually operating the zoom lens, and a zoom electric motor in which an output is changed in proportion to an operation amount. And switching means for switching whether to drive the zoom lens or to control the focus lens when the zoom electric operation means is operated,
A lens apparatus having a mode in which the focus lens can be controlled by operating the zoom electric operation means.
[0068]
“Embodiment 4”
A zoom lens, an iris, a zoom lens manual operation means for manually operating the zoom lens, and a zoom whose output changes in proportion to the operation amount while the drive speed of the zoom lens is variable. A variable speed operation means; and a switching means for switching whether to drive the zoom lens or to control the iris when the zoom speed variable operation means is operated,
A lens apparatus having a mode in which the iris can be controlled by operating the zoom speed variable operation means.
[0069]
“Embodiment 5”
The zoom lens, the macro lens, the zoom lens manual operation means for manually operating the zoom lens, and the drive speed of the zoom lens are variable and the output changes in proportion to the operation amount. A zoom speed variable operation means, and a switching means for switching whether to drive the zoom lens or to control the macro lens when the zoom speed variable operation means is operated,
A lens apparatus having a mode in which the macro lens can be controlled by operating the zoom speed variable operation means.
[0070]
“Embodiment 6”
The zoom lens, the focus lens, the zoom lens manual operation means for manually operating the zoom lens, and the drive speed of the zoom lens are variable and the output changes in proportion to the operation amount. Zoom speed variable operation means, and switching means for switching between driving the zoom lens or controlling the focus lens when the zoom speed variable operation means is operated,
A lens apparatus having a mode in which the focus lens can be controlled by operating the zoom speed variable operation means.
[0071]
“Embodiment 7”
An imaging device comprising: the lens device according to any one of Embodiments 1 to 6; and a camera device connected to the lens device.
[0072]
【The invention's effect】
According to the present invention, A lens device mounted on a camera device, the zoom lens, an iris, a zoom driving unit that electrically drives the zoom lens, an iris driving unit that electrically drives the iris, and an operation signal corresponding to an operation. Electric zoom operation means for outputting to the zoom drive means, and whether to operate the zoom drive means according to the operation of the electric zoom operation means or whether to operate the iris drive means according to the operation of the electric zoom operation means Switching means for switching This makes it possible to operate the iris with the electric zoom operation means, and when carrying the ENG camera, quick zoom drive is required, and even when the iris is driven by the photographer's intention, the iris can be operated with the right hand. Therefore, it is not necessary to perform zoom, focus, and manual drive of the iris only with the left hand, and it becomes possible to eliminate the need for a very advanced operation technique.
[Brief description of the drawings]
FIG. 1 is a block diagram of a first embodiment.
FIG. 2 is a zoom lens control sequence according to the first embodiment.
FIG. 3 is an iris mechanism control sequence according to the first embodiment.
FIG. 4 is a block diagram of the second embodiment.
FIG. 5 is a focus mechanism control sequence according to the second embodiment.
FIG. 6 is a block diagram of a third embodiment.
FIG. 7 is a zoom lens control sequence according to the third embodiment.
FIG. 8 is an iris mechanism control sequence according to the third embodiment.
FIG. 9 is a block diagram of the fourth embodiment.
FIG. 10 is a zoom lens control sequence according to the fourth embodiment.
FIG. 11 is a focus control sequence according to the fourth embodiment.
FIG. 12 is a top view of a conventional zoom lens.
FIG. 13 is a side view of a conventional zoom lens.
[Explanation of symbols]
1 Zoom speed command signal generation means
2 Zoom speed command signal calculation means
3, 12, 20, 28, 31, 33 A / D conversion means
4 CPU
5, 13, 21 D / A conversion means
6 Zoom control signal calculation means
7 Zoom power amplification means
8 Zoom motor
9 Zoom lens optical system
10 Zoom position signal detection means
11 Zoom position signal calculation means
14 Focus control signal calculation means
15 Focus power amplification means
16 Focus motor
17 Focus lens optical system
18 Focus position detection means
19 Focus position signal calculation means
22 Iris control signal calculation means
23 Iris power amplification means
24 Iris motor
25 Iris mechanism
26 Iris position detection means
27 Iris position signal calculation means
29, 35 Zoom / iris switching means
30 Zoom switch speed variable volume position signal calculation means
32 Camera iris position command signal calculation means
34, 36 Zoom / focus switching means
100 lens barrel
101 Focus ring
102 Zoom ring
103 Iris ring
104 Drive unit
105 Zoom switch
106 Iris electric / manual switch
107 Camera cable
108 Zoom switch speed variable volume
109 Zoom clutch
110 Focus clutch

Claims (3)

A lens device attached to the camera device,
A zoom lens,
With iris,
A zoom ring for manually driving the zoom lens;
Zoom drive means for electrically driving the zoom lens;
A zoom switch operated to control the zoom driving means;
A zoom clutch that switches whether the zoom lens is electrically driven by the zoom drive means or manually driven by the zoom ring;
An iris ring for manually driving the iris;
Iris driving means for electrically driving the iris;
An iris electric / manual changeover switch that can be set on the electric side and the manual side;
Zoom / iris switching means that can be set on the zoom side and the iris side;
With
When the iris electric / manual switching switch is set to the manual side and the zoom / iris switching means is set to the iris side, the iris driving means can electrically drive the iris based on the operation of the zoom switch. And
When the iris electric / manual switching switch is set to the electric side, the iris driving means can electrically drive the iris by an iris position command signal from the camera device ,
A lens device characterized in that when the iris electric / manual changeover switch is set to the manual side and the zoom / iris changeover means is set to the zoom side, the iris can be manually driven by the iris ring. . A lens device attached to the camera device,
A zoom lens,
A focus lens,
A zoom ring for manually driving the zoom lens;
Zoom drive means for electrically driving the zoom lens;
A zoom switch operated to control the zoom driving means;
A zoom clutch that switches whether the zoom lens is electrically driven by the zoom drive means or manually driven by the zoom ring;
A focus ring for manually driving the focus lens;
Focus drive means for electrically driving the focus lens;
A focus clutch that can be set between the electric side and the manual side;
Zoom / focus switching means that can be set on the zoom side and the focus side;
With
When the focus clutch is set to the electric side and the zoom / focus switching means is set to the focus side, the focus lens can be electrically driven based on an operation of the zoom switch;
When the focus clutch is set to the manual side or the zoom / focus switching means is set to the zoom side, the focus lens is not electrically driven based on the operation of the zoom switch. A lens device.   An imaging device comprising: the lens device according to claim 1; and a camera device on which the lens device is mounted.

Images