US20010043271A1 - Image input apparatus having interchangeable image pickup device and pan head - Google Patents
Image input apparatus having interchangeable image pickup device and pan head Download PDFInfo
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- US20010043271A1 US20010043271A1 US08/547,201 US54720195A US2001043271A1 US 20010043271 A1 US20010043271 A1 US 20010043271A1 US 54720195 A US54720195 A US 54720195A US 2001043271 A1 US2001043271 A1 US 2001043271A1
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- US
- United States
- Prior art keywords
- pan head
- image pickup
- pickup device
- image
- input apparatus
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
- H04N23/60—Control of cameras or camera modules
- H04N23/66—Remote control of cameras or camera parts, e.g. by remote control devices
- H04N23/663—Remote control of cameras or camera parts, e.g. by remote control devices for controlling interchangeable camera parts based on electronic image sensor signals
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/14—Systems for two-way working
- H04N7/141—Systems for two-way working between two video terminals, e.g. videophone
- H04N7/142—Constructional details of the terminal equipment, e.g. arrangements of the camera and the display
Definitions
- the present invention relates to a pan head for turning a pedestal (which has a mechanism for holding an image pickup device) in at least one of the horizontal and vertical directions.
- the present invention also relates to an image pickup device held by such a pan head, and to an image input apparatus provided with both the pan head and the image pickup device.
- a monitoring camera developed for monitoring an image input apparatus equipped with a combination of a monitoring camera with a remote controlled lens and a remote controlled pan head for holding the monitoring camera, and the like are used.
- the monitoring camera is fixed on the ceiling, the wall or the like so as to capture a predetermined image taking area.
- the image taking area of the monitoring camera is thus predetermined, it is impossible to adapt to various circumstances, for example, to concentrate image taking on an arbitrary speaker, by changing the image taking area during a videoconference, which thus results in a failure to sufficiently deliver functionality with respect to the videoconference.
- the pan head with the monitoring camera mounted thereon is fixed on the ceiling, the wall or the like, and the lens and the pan head are driven by remote control as occasion demands. Since this method can change the image taking area and direction by remote control, it is possible to readily concentrate image taking on an arbitrary speaker, or to take an image of the whole or part of a conference room, and therefore, to sufficiently deliver functionality required for the videoconference. Furthermore, a camera with a lens having an appropriate focal length can be mounted on the pan head, which allows the choice of a video camera with reference to the environment such as a conference room.
- the above-mentioned image input apparatus is equipped with a pan head for interchangeably mounting a video camera thereon to choose a video camera suited to the environment.
- a pan head for interchangeably mounting a video camera thereon to choose a video camera suited to the environment.
- the driving force of a pedestal in the pan head is set such as to cope with the heaviest video camera to be mounted thereon, a large pan head, which is high in cost, is needed. Therefore, it is difficult to obtain a low-cost image input apparatus.
- An object of the present invention is to provide an image input apparatus which solves the above problems, achieves high general versatility, reduces cost, and simplifies the change of operation control on a pan head.
- an image input apparatus having a pan head for mounting an image pickup device thereon and for changing the image pickup direction (or orientation) of said image pickup device, wherein the image pickup device comprises an engaging portion and a transmission means capable of transmitting specification information about an operation of the pan head from the image pickup device to the pan head, and the pan head comprises a holding portion to be engaged with the engaging portion so as to interchangeably hold the image pickup device, a receiving means capable of receiving the specification information when the image pickup device is held by the holding portion, and a selection means for selecting an operation of the pan head corresponding to the held image pickup device based on the specification information received.
- a pan head for mounting an image pickup device thereon and for changing the image pickup direction of the image pickup device, the pan head comprising a holding means for interchangeably holding the image pickup device, and a selection means for selecting an operation of the pan head corresponding to the image pickup device when the image pickup device is mounted on the holding means.
- an image pickup device mountable on a pan head capable of changing the image pickup direction of the image pickup device, the image pickup device comprising an engaging portion to be engaged with a holding portion provided in the pan head, and a transmission means capable of transmitting information about an operation of the pan head from the image pickup device to the pan head.
- FIG. 1 is a block diagram showing the configuration of an embodiment of an image input apparatus according to the present invention
- FIG. 2 is a perspective view showing an outward appearance of the image input apparatus shown in FIG. 1;
- FIG. 3 is a perspective view showing a state in which a camera head unit and a pan head unit of the image input apparatus shown in FIG. 1 are separate;
- FIG. 4 is a perspective view showing a control terminal and an input/output terminal provided in the camera head unit of the image input apparatus shown in FIG. 1;
- FIG. 5 is a perspective view showing a terminal and an input/output terminal of a pan head control switching mechanism provided in the pan head unit of the image input apparatus shown in FIG. 1;
- FIG. 6 is a view showing a connecting state of operating portions of the control terminal of the camera head unit and the terminals of the pan head unit control switching mechanism;
- FIG. 7 is a view showing a state before the operating portions of the control terminal of the camera head unit and the terminals of the pan head unit control switching mechanism are connected;
- FIG. 8 is a perspective view showing the structure of a horizontal driver in the image input apparatus shown in FIG. 1;
- FIG. 9 is a perspective view showing the structure of a vertical driver in the image input apparatus shown in FIG. 1 ;
- FIG. 10 is a view showing patterns of pan head switching control modes in the image input apparatus shown in FIG. 1;
- FIG. 11 is a graph showing the relation between the driving speed and the driving voltage of the pan head when the weight of a lens is used as a parameter;
- FIG. 12 is a graph showing the relation between the pan head driving speed and the lens focal length when the focal length is used as a parameter
- FIG. 13 is a flowchart showing a pan head control switching operation in the image input apparatus shown in FIG. 1;
- FIG. 14 is a flowchart showing an optical axis control operation in the image input apparatus shown in FIG. 1;
- FIG. 15 is a flowchart showing an initialization process of the optical axis control operation in the image input apparatus shown in FIG. 1.
- the image input apparatus shown in FIGS. 1 to 3 is composed of a camera head unit 21 and a pan head unit 22 which comprises an electric pan head for mounting the camera head unit 21 thereon.
- the camera head unit 21 comprises a zoom lens 1 , an iris 2 , an image pickup device 3 , a signal processing circuit 4 , a camera controller 5 , an iris driver 6 , a focus controller 7 , and a zoom controller 8 .
- the camera controller 5 is capable of mutual communication with the devices and the circuits within the camera head unit 21 .
- the image pickup device 3 is, for example, a CCD (charge-coupled device) for converting an optical image obtained through the zoom lens 1 into electric signals.
- CCD charge-coupled device
- the signal processing circuit 4 generates video signals by subjecting the electric signals from the image pickup device 3 to predetermined processing, and outputs the video signals to an external monitor (not shown) and a video recording/reproducing apparatus (also not shown) through a terminal Vout. Parameters related to the processing performed on the electric signals from the image pickup device 3 by the signal processing circuit 4 are controlled by the camera controller 5 .
- the iris driver 6 drives the iris 2 so that the amount of light passing from the zoom lens 1 to the image pickup device 3 is a predetermined amount, that is, the electric signals from the image pickup device 3 are at a substantially constant level.
- the drive amount of the iris 2 is designated by the camera controller 5 .
- the focus controller 7 drives some of the lenses constituting the zoom leans 1 so that the zoom lens 1 is focused on a predetermined subject.
- the drive amount is designated by the camera controller 5 .
- the zoom controller 8 drives some of the lenses constituting the zoom lens 1 to obtain a predetermined focal length of the zoom lens 1 .
- the drive amount is designated by the camera controller 5 .
- the camera controller 5 comprises a memory (not shown) and a CPU (also not shown).
- the CPU determines the drive amounts of the iris driver 6 , the focus controller 7 , and the zoom controller 8 based on information from an I/F controller 16 , which will be described later, and controls the processing operation of the signal processing circuit 4 .
- the memory stores data on the focal length and weight of the zoom lens 1 and the like.
- the camera controller 5 is provided with an input/output terminal 10 for connecting the camera controller 5 to an external device (for example, a personal computer, a work station and a codec in a videoconference system) through the I/F controller 16 to allow communication therebetween.
- the control terminal 9 for connecting the camera controller 5 to a pan head control switching mechanism 11 of the pan head unit 22 which will be described later.
- the control terminal 9 is provided with three operating portions 9 a , 9 b and 9 c for setting a pan head operation with respect to the camera head unit 21 .
- the control terminal 9 and the input/output terminal 10 are, as shown in FIG. 4, formed in a support member 31 attached to the rear of a housing 21 a of the camera head unit 21 .
- the operating portions 9 a , 9 b and 9 c are spaced in parallel, and the shapes thereof are respectively determined in accordance with head operations set with respect to the camera head unit 21 .
- the operating portion 9 a is shaped like a projection, and the operating portions 9 b and 9 c are flat.
- the input/output terminal 10 is located adjacent to the operating portion 9 c .
- the pan head unit 22 is, as shown in FIG. 3, provided with a pedestal 22 a having a holding mechanism 42 for interchangeably holding the camera head unit 21 .
- the pedestal 22 a is turned on the horizontal axis (in a pan direction) and on the vertical axis (in a tilt direction) by an optical axis controller 15 . This movement of the pedestal 22 a changes the direction of the optical axis of the camera head unit 21 , that is, the image taking area.
- the optical axis controller 15 comprises a horizontal driver 13 for driving the pedestal 22 a in the pan direction, a horizontal position detector 13 a for detecting the drive amount of the pedestal 22 a in the pan direction, a vertical driver 14 for driving the pedestal 22 a in the tilt direction, and a vertical position detector 14 a for detecting the drive amount of the pedestal 22 a in the tilt direction.
- the structures of the horizontal driver 13 and the vertical driver 14 will be described later.
- the horizontal driver 13 and the vertical driver 14 are controlled by a pan head controller 12 , and the control amount is determined by using the driving voltage and the driving speed.
- the pan head controller 12 has a CPU (central processing unit; not shown) and a memory (also not shown). The CPU determines the aforesaid control amount for each of control modes previously stored in the memory. The control mode is selected based on a selection signal from a pan head control switching mechanism 11 as will be described later. In this embodiment, as shown in FIG. 10, eight control modes M 1 , . . . , M 8 are selectable with reference to the weight and the focal length of the lens 1 in the camera head unit 21 .
- the driving voltage in the control modes one of three patterns set in accordance with the weight of the zoom lens 1 as shown in FIG. 11 is selected.
- the lens weight is divided into three regions, i.e., above 600 g, 600 g to 300 g and below 300 g, and the patterns of the driving voltage are set corresponding to the respective regions of the lens weight.
- the driving speed in the control modes one of three patterns set in accordance with the focal length of the zoom lens 1 is selected as shown in FIG. 12.
- the focal length of the zoom lens 1 is divided into three regions, a wide-angle lens focal length, a standard lens focal length, and a telephoto lens focal length, and the patterns of the driving speed are set corresponding to the respective regions.
- the driving speed is set such as to decrease as the focal length increases from the wide-angle lens to the telephoto lens.
- the pan head control switching mechanism 11 provided on the holding mechanism of the pedestal 22 a has three terminals 11 a , 11 b and 11 c and an input/output terminal 17 .
- the terminal 11 a is located to be opposed to the operating portion 9 a of the control terminal 9 when the camera head unit 21 is attached to the pedestal 22 a .
- the terminals 11 b , and 11 c are positioned corresponding to the operating portions 9 b and 9 c of the control terminal 9 , respectively.
- the input/output terminal 17 is located to be opposed to the input/output terminal 10 .
- the pan head control switching mechanism 11 also has a bracket 32 attached to the holding mechanism 42 of the pedestal 22 a as shown in FIG. 5.
- the bracket 32 comprises the terminals 11 a , 11 b , and 11 c , the input/output terminal 17 , and a stopper 33 for positioning the support member 31 of the camera head unit 21 .
- the terminals 11 a , 11 b and 11 c are spaced in parallel.
- the terminals 11 a , 11 b and 11 c are each, as shown in FIGS. 6 and 7, turnably supported at one end thereof by a shaft 25 attached to the bracket 32 , urged by a spring member 27 at the center thereof, and held in such a position that the other end thereof is in contact with a part of the bracket 32 against the spring force of the spring member 27 as shown in FIG. 7.
- Actuating switches 26 are respectively opposed to the other ends of the terminals 11 a , 11 b and 11 c .
- control mode is selected by the pan head controller 12 according to the combination of these selection signals.
- selection signals for determining a proper control mode to the camera head unit 21 are generated by choosing respective shapes of the operating portions 9 a , 9 b and 9 c such as to make the corresponding actuating switches 26 perform turning-on operations.
- eight control modes M 1 , . . . , M 8 are selectable with reference to the weight and focal length of the lens 1 in the camera head unit 1 .
- the actuating switch 26 corresponding to the terminal 11 a performs a turning-on operation and the actuating switches 26 corresponding to the other terminals 11 b and 11 c do not perform any turning-on operation, by which the control mode M 1 is selected.
- the control mode M 1 is set under the condition that the lens weight is less than 300 g and the focal length is standard.
- the input/output terminal 17 is electrically connected to the input/output terminal 10 , by which the camera controller 5 and the I/F controller 16 are connected through the input/output terminals 10 and 17 so as to communicate with each other.
- the I/F controller 16 receives an operation control signal from external equipment (such as a computer), and sends information about the camera head unit 21 and the pan head unit 22 to the external equipment.
- external equipment such as a computer
- the pan head controller 12 is capable of communication with other devices in the pan head unit 22 .
- FIG. 8 is a perspective view showing the structure of the horizontal driver 13 in the image input apparatus shown in FIG. 1.
- the horizontal driver 13 has a stepper motor 51 supported by a support member (not shown), as shown in FIG. 8.
- a worm gear 52 is attached to an output shaft of the stepper motor 51 at one end, and rotatably supported by a base 61 at the other end thereof.
- a helical gear 53 mounted on a shaft 55 is meshed with the worm gear 52 . Both ends of the shaft 55 are rotatably supported by corresponding support plates 56 .
- a worm gear 54 and a disk 57 with a plurality of slits 58 are fixed on the shaft 55 .
- a helical gear 62 mounted on a shaft 60 is meshed with the worm gear 54 .
- the shaft 60 is supported rotatably in the pan direction by the base 61 .
- the helical gear 62 is provided with a pin (not shown) which projects toward the base 61 and actuates two microswitches 63 mounted on the base 61 in correlation to the rotation of the helical gear 62 .
- An initial position and an operation limit point (position) in the pan direction of the shaft 60 are sensed by actuating the microswitches 63 with the pin.
- the disk 57 is located orthogonal to the optical path formed by a photointerrupter 59 to open and shut the optical path.
- the photointerrupter 59 detects a signal in response to the opening and closing of the optical path, and the detection signal is given to the horizontal position detector 13 a .
- the horizontal position detector 13 a detects the rotation angle of the shaft 60 in the pan direction based on the detection signal from the photointerrupter 59 .
- FIG. 9 is a perspective view showing the structure of the vertical driver 14 in the image input apparatus shown in FIG. 1.
- the vertical driver 14 is mounted on an operation table 71 attached to the shaft 60 of the horizontal driver 13 as shown in FIG. 9, and provided with a stepper motor 73 .
- An output shaft of the stepper motor 73 is attached to a spur gear 74 which is meshed with a spur gear 75 .
- the spur gear 75 is integrally fixed to a worm gear 76 .
- Shaft portions 91 at both ends of the worm gear 76 are rotatably supported by bearings 77 attached to the operation table 71 , respectively.
- the worm gear 76 is meshed with a helical gear 78 integrally fixed to a bevel gear 79 .
- the bevel gear 79 is meshed with a bevel gear 80 mounted on a shaft 83 .
- the shaft 83 is rotatably supported at the center thereof by a bearing 84 fixed on the operation table 71 .
- Elliptic cams 88 are attached to both ends of the shaft 83 , and respectively fitted in cam grooves 90 formed on a camera head fixing plate 89 .
- the camera head fixing plate 89 is supported by the shaft portions 91 of the worm gear 76 so as to pivot on the shaft portions 91 in a tilt direction in correlation to the movement of the cams 88 .
- the bevel gear 80 has a pin 81 which projects in parallel with the shaft 83 and actuates two microswitches 82 and 92 in correlation to the rotation of the bevel gear 80 .
- the microswitches 82 and 92 are mounted on the operation table 71 .
- An initial position and an operation limit point (position) in the tilt direction of the camera head fixing plate 89 are sensed by actuating the microswitches 82 and 92 with the pin 81 .
- a disk 85 with a plurality of slits 86 is fixed on the shaft 83 .
- the disk 85 is located orthogonal to the optical path formed by a photointerrupter 87 to open and shut the optical path.
- the photointerrupter 87 detects a signal in response to the open and shut of the optical path, and the detection signal is given to the vertical position detector 14 a .
- the vertical position detector 14 a detects the rotation angle of the camera head fixing plate 89 in the tilt direction based on the detection signal from the photointerrupter 87 .
- FIG. 13 is a flowchart showing the pan head control switching operation in the image input apparatus shown in FIG. 1.
- Step S 101 When the camera head unit 21 is mounted on the pan head unit 22 , as shown in FIG. 13, the support member 31 of the camera head unit 21 (shown in FIG. 4) is fitted in the bracket 32 of the pan head unit 22 (shown in FIG. 5) (Step S 101 ).
- the terminals 11 a , 11 b and 11 c are pressed by the corresponding operating portions 9 a , 9 b and 9 c in correlation to the fitting of the support member 31 and the bracket 32 . Then, the actuating switches 26 are pressed by the other ends of the terminals 11 a , 11 b and 11 c , thereby performing turning-on operations. In other words, signals generated by the turning-on operations of the actuating switches 26 are given as selection signals to the pan head controller 12 , and one of the control modes M 1 , . . . , M 8 is selected by the pan head controller 12 according to the combination of these selection signals (step S 102 ).
- the terminal 11 a is pressed by the operating portion 9 a , the actuating switch 26 corresponding to the terminal 11 a performs a turning-on operation, and other actuating switches 26 do not perform any turning-on operations, by which the control mode M 1 is selected.
- Step S 103 it is judged whether or not the selected control mode is Mode M 8 (Step S 103 ). If the selected control mode is M 8 , that is, if the camera head unit 21 is not mounted on the pan head unit 22 , the process ends.
- Step S 104 data corresponding to the selected control mode is read from the memory (Step S 104 ), and the driving voltage in accordance with the lens weight is set (Step S 105 ). After setting the driving voltage, the driving speed in accordance with the lens focal length is set (Step S 106 ).
- the driving voltage and driving speed best-suited to the weight and focal length of the zoom lens 1 in the camera head unit 1 are automatically selected.
- the driving voltage is set at a low value, which achieves small power consumption and reduced noise.
- the driving speed of the pan head unit 22 is set high, an arbitrary subject can be captured instantaneously.
- a telephoto lens is used, a subject can be captured accurately by driving the pan head unit 22 at low speed.
- the optimum pan head operation with reference to the weight and focal length of the zoom lens 1 in the camera head unit 21 can be selected automatically, and the selection of the pan head operation best-suited to the camera head unit 22 can be simplified.
- pan head unit 22 interchangeably mounts the camera head unit 21 thereon, it is possible to select the camera head unit 21 having a lens suited to the intended use and to obtain high general versatility.
- FIG. 14 is a flowchart showing an optical axis control operation of the image input apparatus shown in FIG. 1.
- an external device for giving operation guidance to the camera head unit 21 and the pan head unit 22 is connected to a terminal I/F of the pan head unit 22 through a cable. After the completion of the connection, the camera head unit 21 and the pan head unit 22 are capable of operation.
- Step S 202 a command from the external device is waited for.
- Step S 203 it is judged by the I/F controller 16 whether or not the input command is a command relating to the pan head unit 22 . If the input command is not a command relating to the pan head unit 22 , that is, if the input command is a command relating to the camera head unit 21 , the command is sent from the I/F controller 16 to the camera controller 5 through the input/output terminals 17 and 10 .
- the zoom operation of the zoom lens 1 , the operation of the iris 2 and the like are controlled (Step S 214 ).
- Step S 204 When the input command relates to the pan head unit 22 , it is judged whether or not the command is an initialization command (Step S 204 ). If the command is an initialization command, it is sent to the pan head controller 22 , which executes an initialization process for setting the optical axis of the zoom lens 1 in an initial position (Step S 215 ). The initialization process will be described in detail later.
- the input command is not an initialization command, that is, if the input command is information for designating the angle of the optical axis in the pan direction or the tilt direction
- the angle designated by the command is converted into positional information (Step S 205 ), and the positional information is stored as a designated position in the memory (Step S 206 ).
- Step S 207 it is judged whether or not the current position of the optical axis agrees with a designated position. If the optical axis is currently in the designated position, the process from Step S 201 on is executed again.
- Step S 208 If the current position of the optical axis does not agree with the designated position, the stepper motor 51 of the horizontal driver 13 or the stepper motor 73 of the vertical driver 14 is driven to start the angle adjustment in the pan direction or the tilt direction so that the optical axis reaches from the current position to the designated position (Step S 208 ).
- Step S 209 After the angle adjustment in the pan direction or the tilt direction is started, it is judged whether or not the horizontal driver 13 or the vertical driver 14 reaches an operation limit point before the optical axis reaches from the current position to the designated position (Step S 209 ). If it is judged that the horizontal driver 13 or the vertical driver 14 reaches the operation limit point before the optical axis reaches from the current position to the designated position, a positional information correction process is carried out to reset the designated position stored in the memory (Step S 210 ), and the stepper motor 51 of the horizontal driver 13 or the stepper motor 73 of the vertical driver 14 is stopped (Step S 212 ). After the stepper motor 51 or 73 is stopped, the process from Step S 201 on is executed again.
- the position of the optical axis is sequentially updated by a computation such as addition or substraction, and the stepper motor 51 of the horizontal driver 13 or the stepper motor 73 of the vertical driver 14 is driven until the optical axis reaches from the current position to the designated position (Step S 211 ).
- the current position stored in the memory is updated (Step S 213 ). After updating the current position, the process from Step S 201 on is executed again.
- the command input from the external device is a command for the camera head unit 21
- it is sent from the I/F controller 16 to the camera controller 5 through the input/output terminals 17 and 10 .
- the input command is a command for the pan head unit 22
- it is sent from the I/F controller 16 to the pan head controller 12 . Accordingly, it is possible to combine a control line for the camera head unit 21 and a control line for the pan head unit 22 into one line, and thereby, to eliminate excess trouble of separately laying the control lines for the camera head unit 21 and the pan head unit 22 as in the conventional apparatus in which a camera can be mounted on a pan head.
- the I/F controller 16 is set to communicate with the external device, there is no need to add a special connecting device which allows communication between the I/F controller 16 and the external device.
- FIG. 15 is a flowchart showing an initialization process in the optical axis control operation of the image input apparatus shown in FIG. 1.
- initialization in the horizontal direction is first performed.
- directions are given to make a turn in an A direction (for example, a horizontal and clockwise direction), and the stepper motor 51 of the horizontal driver 13 is driven (Step S 301 ).
- the drive of the stepper motor 51 in the horizontal driver 13 is continued until an operation limit point of the shaft 60 is detected in response to the actuation of the microswitch 63 .
- the stepper motor 51 is stopped (Steps S 302 and S 303 ).
- Step S 304 positional information corresponding to the operation limit point is stored in the memory (Step S 304 ).
- Step S 305 the stepper motor 51 of the horizontal driver 13 is driven (Step S 305 ), and the current positional information is calculated by subtracting positional information corresponding to the drive amount of the stepper motor 51 from the positional information stored in the memory (Step S 306 ).
- the positional information corresponding to the drive amount of the stepper motor 51 is found from the rotation angle of the shaft 60 in the pan direction obtained based on the above-mentioned detection signal of the photointerrupter 59 .
- the stepper motor 51 is driven until the calculated current positional information agrees with predetermined information designated and stored in the memory. When the current positional information agrees with the designated information stored in the memory, the stepper motor 51 is stopped (Steps S 307 , S 308 ). After the stop of the stepper motor 51 , the initialization process in the horizontal direction ends.
- initialization in the vertical direction is performed by using a similar procedure to the initialization in the horizontal direction.
- the description of the initialization in the vertical direction is omitted in this embodiment.
- an absolute value of the optical axis of the zoom lens 1 can be detected and the direction of the optical axis can be set arbitrarily by executing the initialization process.
- the camera head unit 21 is moved by the operation of the optical axis controller 15 in this embodiment, the camera head unit 21 and the signal processing circuit 4 may be separated from each other, a package for housing the zoom lens 1 , the image pickup device 3 and the like together may be driven by the optical axis controller 15 .
- a driving method for changing the relative position between the zoom lens 1 and the image pickup device 3 a method of changing the optical axis of incident light by placing a variable vertical angle prism in front of the zoom lens 1 , or a method of changing the angle relative to the optical axis by placing a plate glass member (whose opposite surfaces are parallel) in the optical path may be adopted.
- mode information stored in the memory may be read into the pan head unit when the camera head unit is mounted on the pan head unit.
- more accurate motion control can be exerted by storing information about the lens weight, focal length and the like in the memory, not as mode information, but as concrete numeric values.
- the pan head in the above-mentioned embodiment is equipped with a holding mechanism attached to a pedestal to interchangeably hold an image pickup device, and a pan head control switching mechanism for performing switching so as to select and control a pan head operation suited to the image pickup device when the image pickup device is mounted on the holding mechanism.
- the pan head operation corresponding to the image pickup device is selected and carried out by a drive means based on the switching operation of the pan head control switching mechanism. Therefore, it is possible to achieve an image input apparatus which is excellent in general versatility and low in cost and is capable of changing pan head control with no trouble.
- the pan head has an input/output terminal to be connected to an input/output terminal of the image pickup device for signals relating to control when the image pickup device is mounted on the holding mechanism, the trouble of laying another control line separate from a control line for the image pickup device can be eliminated.
Abstract
An image input apparatus has a pan head for mounting an image pickup device thereon and for changing the image pickup direction of the image pickup device. The image pickup device has an engaging device, and control terminals capable of transmitting specification information about an operation of the pan head from the image pickup device to the pan head. The pan head has a holding device to be engaged with the engaging device so as to interchangeably hold the image pickup device, identifying terminals capable of receiving the specification information when the image pickup device is held by the holding device, and a selection circuit for selecting an operation of the pan head corresponding to the held image pickup device based on the received specification information.
Description
- 1. Field of the Invention The present invention relates to a pan head for turning a pedestal (which has a mechanism for holding an image pickup device) in at least one of the horizontal and vertical directions. The present invention also relates to an image pickup device held by such a pan head, and to an image input apparatus provided with both the pan head and the image pickup device.
- 2. Description of the Related Art
- In recent years, a video camera which generates video signals corresponding to a subject has been widely used as an image input apparatus for a computer, and a combination system made up of this video camera and a computer (for example, a personal computer and a work station) is proceeding toward practical utilization in electronic mail for images, a videoconference system, and the like.
- In these electronic image mail and video conference systems, a monitoring camera developed for monitoring, an image input apparatus equipped with a combination of a monitoring camera with a remote controlled lens and a remote controlled pan head for holding the monitoring camera, and the like are used.
- For example, in a videoconference system using only a monitoring camera, the monitoring camera is fixed on the ceiling, the wall or the like so as to capture a predetermined image taking area. However, since the image taking area of the monitoring camera is thus predetermined, it is impossible to adapt to various circumstances, for example, to concentrate image taking on an arbitrary speaker, by changing the image taking area during a videoconference, which thus results in a failure to sufficiently deliver functionality with respect to the videoconference.
- On the other hand, in a videoconference system using an image input apparatus equipped with a combination of a monitoring camera with a remote controlled lens and a remote controlled pan head for holding the monitoring camera, the pan head with the monitoring camera mounted thereon is fixed on the ceiling, the wall or the like, and the lens and the pan head are driven by remote control as occasion demands. Since this method can change the image taking area and direction by remote control, it is possible to readily concentrate image taking on an arbitrary speaker, or to take an image of the whole or part of a conference room, and therefore, to sufficiently deliver functionality required for the videoconference. Furthermore, a camera with a lens having an appropriate focal length can be mounted on the pan head, which allows the choice of a video camera with reference to the environment such as a conference room.
- The above-mentioned image input apparatus is equipped with a pan head for interchangeably mounting a video camera thereon to choose a video camera suited to the environment. However, since the driving force of a pedestal in the pan head is set such as to cope with the heaviest video camera to be mounted thereon, a large pan head, which is high in cost, is needed. Therefore, it is difficult to obtain a low-cost image input apparatus.
- Furthermore, it is necessary to change the control on the pan head in accordance with a video camera at every replacement of the video camera, and this change is troublesome.
- In order to lower the cost of the pan head and to simplify the change of control on the pan head, a videoconference camera combining an image pickup device and a pan head has been developed and is nearing practical use. However, since the image pickup device and the pan head are combined in the videoconference camera, it is impossible to choose the camera with reference to the environment, such as a conference room.
- An object of the present invention is to provide an image input apparatus which solves the above problems, achieves high general versatility, reduces cost, and simplifies the change of operation control on a pan head.
- In order to achieve the above object, according to an aspect of the present invention, there is provided an image input apparatus having a pan head for mounting an image pickup device thereon and for changing the image pickup direction (or orientation) of said image pickup device, wherein the image pickup device comprises an engaging portion and a transmission means capable of transmitting specification information about an operation of the pan head from the image pickup device to the pan head, and the pan head comprises a holding portion to be engaged with the engaging portion so as to interchangeably hold the image pickup device, a receiving means capable of receiving the specification information when the image pickup device is held by the holding portion, and a selection means for selecting an operation of the pan head corresponding to the held image pickup device based on the specification information received.
- According to another aspect of the present invention, there is provided a pan head for mounting an image pickup device thereon and for changing the image pickup direction of the image pickup device, the pan head comprising a holding means for interchangeably holding the image pickup device, and a selection means for selecting an operation of the pan head corresponding to the image pickup device when the image pickup device is mounted on the holding means.
- According to a further aspect of the present invention, there is provided an image pickup device mountable on a pan head capable of changing the image pickup direction of the image pickup device, the image pickup device comprising an engaging portion to be engaged with a holding portion provided in the pan head, and a transmission means capable of transmitting information about an operation of the pan head from the image pickup device to the pan head.
- These and other objects, features and advantages of the present invention will become more apparent from the following description of the preferred embodiment taken in conjunction with the accompanying drawings.
- FIG. 1 is a block diagram showing the configuration of an embodiment of an image input apparatus according to the present invention;
- FIG. 2 is a perspective view showing an outward appearance of the image input apparatus shown in FIG. 1;
- FIG. 3 is a perspective view showing a state in which a camera head unit and a pan head unit of the image input apparatus shown in FIG. 1 are separate;
- FIG. 4 is a perspective view showing a control terminal and an input/output terminal provided in the camera head unit of the image input apparatus shown in FIG. 1;
- FIG. 5 is a perspective view showing a terminal and an input/output terminal of a pan head control switching mechanism provided in the pan head unit of the image input apparatus shown in FIG. 1;
- FIG. 6 is a view showing a connecting state of operating portions of the control terminal of the camera head unit and the terminals of the pan head unit control switching mechanism;
- FIG. 7 is a view showing a state before the operating portions of the control terminal of the camera head unit and the terminals of the pan head unit control switching mechanism are connected;
- FIG. 8 is a perspective view showing the structure of a horizontal driver in the image input apparatus shown in FIG. 1;
- FIG. 9 is a perspective view showing the structure of a vertical driver in the image input apparatus shown in FIG.1;
- FIG. 10 is a view showing patterns of pan head switching control modes in the image input apparatus shown in FIG. 1;
- FIG. 11 is a graph showing the relation between the driving speed and the driving voltage of the pan head when the weight of a lens is used as a parameter;
- FIG. 12 is a graph showing the relation between the pan head driving speed and the lens focal length when the focal length is used as a parameter;
- FIG. 13 is a flowchart showing a pan head control switching operation in the image input apparatus shown in FIG. 1;
- FIG. 14 is a flowchart showing an optical axis control operation in the image input apparatus shown in FIG. 1; and
- FIG. 15 is a flowchart showing an initialization process of the optical axis control operation in the image input apparatus shown in FIG. 1.
- A preferred embodiment of the present invention will now be described in conjunction with the accompanying drawings.
- The image input apparatus shown in FIGS.1 to 3 is composed of a
camera head unit 21 and apan head unit 22 which comprises an electric pan head for mounting thecamera head unit 21 thereon. - As shown in FIG. 1, the
camera head unit 21 comprises azoom lens 1, aniris 2, animage pickup device 3, asignal processing circuit 4, acamera controller 5, aniris driver 6, a focus controller 7, and a zoom controller 8. Thecamera controller 5 is capable of mutual communication with the devices and the circuits within thecamera head unit 21. - The
image pickup device 3 is, for example, a CCD (charge-coupled device) for converting an optical image obtained through thezoom lens 1 into electric signals. - The
signal processing circuit 4 generates video signals by subjecting the electric signals from theimage pickup device 3 to predetermined processing, and outputs the video signals to an external monitor (not shown) and a video recording/reproducing apparatus (also not shown) through a terminal Vout. Parameters related to the processing performed on the electric signals from theimage pickup device 3 by thesignal processing circuit 4 are controlled by thecamera controller 5. - The
iris driver 6 drives theiris 2 so that the amount of light passing from thezoom lens 1 to theimage pickup device 3 is a predetermined amount, that is, the electric signals from theimage pickup device 3 are at a substantially constant level. The drive amount of theiris 2 is designated by thecamera controller 5. - The focus controller7 drives some of the lenses constituting the
zoom leans 1 so that thezoom lens 1 is focused on a predetermined subject. The drive amount is designated by thecamera controller 5. - The zoom controller8 drives some of the lenses constituting the
zoom lens 1 to obtain a predetermined focal length of thezoom lens 1. The drive amount is designated by thecamera controller 5. - The
camera controller 5 comprises a memory (not shown) and a CPU (also not shown). The CPU determines the drive amounts of theiris driver 6, the focus controller 7, and the zoom controller 8 based on information from an I/F controller 16, which will be described later, and controls the processing operation of thesignal processing circuit 4. The memory stores data on the focal length and weight of thezoom lens 1 and the like. - The
camera controller 5 is provided with an input/output terminal 10 for connecting thecamera controller 5 to an external device (for example, a personal computer, a work station and a codec in a videoconference system) through the I/F controller 16 to allow communication therebetween. Thecontrol terminal 9 for connecting thecamera controller 5 to a pan headcontrol switching mechanism 11 of thepan head unit 22 which will be described later. Thecontrol terminal 9 is provided with threeoperating portions camera head unit 21. - The
control terminal 9 and the input/output terminal 10 are, as shown in FIG. 4, formed in asupport member 31 attached to the rear of ahousing 21 a of thecamera head unit 21. Theoperating portions camera head unit 21. In this embodiment, theoperating portion 9 a is shaped like a projection, and theoperating portions output terminal 10 is located adjacent to theoperating portion 9 c. - The
pan head unit 22 is, as shown in FIG. 3, provided with apedestal 22 a having a holdingmechanism 42 for interchangeably holding thecamera head unit 21. Thepedestal 22 a is turned on the horizontal axis (in a pan direction) and on the vertical axis (in a tilt direction) by anoptical axis controller 15. This movement of thepedestal 22 a changes the direction of the optical axis of thecamera head unit 21, that is, the image taking area. - The
optical axis controller 15 comprises ahorizontal driver 13 for driving thepedestal 22 a in the pan direction, ahorizontal position detector 13 a for detecting the drive amount of thepedestal 22 a in the pan direction, avertical driver 14 for driving thepedestal 22 a in the tilt direction, and avertical position detector 14 a for detecting the drive amount of thepedestal 22 a in the tilt direction. The structures of thehorizontal driver 13 and thevertical driver 14 will be described later. - The
horizontal driver 13 and thevertical driver 14 are controlled by apan head controller 12, and the control amount is determined by using the driving voltage and the driving speed. Thepan head controller 12 has a CPU (central processing unit; not shown) and a memory (also not shown). The CPU determines the aforesaid control amount for each of control modes previously stored in the memory. The control mode is selected based on a selection signal from a pan headcontrol switching mechanism 11 as will be described later. In this embodiment, as shown in FIG. 10, eight control modes M1, . . . , M8 are selectable with reference to the weight and the focal length of thelens 1 in thecamera head unit 21. - As the driving voltage in the control modes, one of three patterns set in accordance with the weight of the
zoom lens 1 as shown in FIG. 11 is selected. The lens weight is divided into three regions, i.e., above 600 g, 600 g to 300 g and below 300 g, and the patterns of the driving voltage are set corresponding to the respective regions of the lens weight. Similarly, as the driving speed in the control modes, one of three patterns set in accordance with the focal length of thezoom lens 1 is selected as shown in FIG. 12. The focal length of thezoom lens 1 is divided into three regions, a wide-angle lens focal length, a standard lens focal length, and a telephoto lens focal length, and the patterns of the driving speed are set corresponding to the respective regions. The driving speed is set such as to decrease as the focal length increases from the wide-angle lens to the telephoto lens. - The pan head
control switching mechanism 11 provided on the holding mechanism of thepedestal 22 a has threeterminals output terminal 17. The terminal 11 a is located to be opposed to the operatingportion 9 a of thecontrol terminal 9 when thecamera head unit 21 is attached to thepedestal 22 a. Similarly, theterminals operating portions control terminal 9, respectively. The input/output terminal 17 is located to be opposed to the input/output terminal 10. - The pan head
control switching mechanism 11 also has abracket 32 attached to theholding mechanism 42 of thepedestal 22 a as shown in FIG. 5. Thebracket 32 comprises theterminals output terminal 17, and astopper 33 for positioning thesupport member 31 of thecamera head unit 21. Theterminals - The
terminals shaft 25 attached to thebracket 32, urged by aspring member 27 at the center thereof, and held in such a position that the other end thereof is in contact with a part of thebracket 32 against the spring force of thespring member 27 as shown in FIG. 7. Actuating switches 26 are respectively opposed to the other ends of theterminals corresponding operating portion actuating switch 26, thereby performing a turning-on operation. In other words, signals generated in response to the turning-on operations of the actuating switches 26 are given as selection signals to thepan head controller 12, and the control mode is selected by thepan head controller 12 according to the combination of these selection signals. In short, selection signals for determining a proper control mode to thecamera head unit 21 are generated by choosing respective shapes of the operatingportions lens 1 in thecamera head unit 1. Since the operatingportion 9 a projects and the operatingportions actuating switch 26 corresponding to the terminal 11 a performs a turning-on operation and the actuating switches 26 corresponding to theother terminals - When the
bracket 32 is fitted on thesupport member 31 of thecamera head unit 21, the input/output terminal 17 is electrically connected to the input/output terminal 10, by which thecamera controller 5 and the I/F controller 16 are connected through the input/output terminals - The I/
F controller 16 receives an operation control signal from external equipment (such as a computer), and sends information about thecamera head unit 21 and thepan head unit 22 to the external equipment. As is clear from the above description, thepan head controller 12 is capable of communication with other devices in thepan head unit 22. - The structure of the
horizontal driver 13 will be described in detail with reference to FIG. 8. FIG. 8 is a perspective view showing the structure of thehorizontal driver 13 in the image input apparatus shown in FIG. 1. - The
horizontal driver 13 has astepper motor 51 supported by a support member (not shown), as shown in FIG. 8. Aworm gear 52 is attached to an output shaft of thestepper motor 51 at one end, and rotatably supported by a base 61 at the other end thereof. Ahelical gear 53 mounted on ashaft 55 is meshed with theworm gear 52. Both ends of theshaft 55 are rotatably supported by correspondingsupport plates 56. - A
worm gear 54 and adisk 57 with a plurality ofslits 58 are fixed on theshaft 55. Ahelical gear 62 mounted on ashaft 60 is meshed with theworm gear 54. Theshaft 60 is supported rotatably in the pan direction by thebase 61. - The
helical gear 62 is provided with a pin (not shown) which projects toward thebase 61 and actuates twomicroswitches 63 mounted on the base 61 in correlation to the rotation of thehelical gear 62. An initial position and an operation limit point (position) in the pan direction of theshaft 60 are sensed by actuating themicroswitches 63 with the pin. - The
disk 57 is located orthogonal to the optical path formed by aphotointerrupter 59 to open and shut the optical path. Thephotointerrupter 59 detects a signal in response to the opening and closing of the optical path, and the detection signal is given to thehorizontal position detector 13 a. Thehorizontal position detector 13 a detects the rotation angle of theshaft 60 in the pan direction based on the detection signal from thephotointerrupter 59. - The structure of the
vertical driver 14 will now be described in detail with reference to FIG. 9. FIG. 9 is a perspective view showing the structure of thevertical driver 14 in the image input apparatus shown in FIG. 1. - The
vertical driver 14 is mounted on an operation table 71 attached to theshaft 60 of thehorizontal driver 13 as shown in FIG. 9, and provided with astepper motor 73. - An output shaft of the
stepper motor 73 is attached to aspur gear 74 which is meshed with aspur gear 75. Thespur gear 75 is integrally fixed to aworm gear 76.Shaft portions 91 at both ends of theworm gear 76 are rotatably supported bybearings 77 attached to the operation table 71, respectively. - The
worm gear 76 is meshed with ahelical gear 78 integrally fixed to abevel gear 79. Thebevel gear 79 is meshed with abevel gear 80 mounted on ashaft 83. Theshaft 83 is rotatably supported at the center thereof by a bearing 84 fixed on the operation table 71. -
Elliptic cams 88 are attached to both ends of theshaft 83, and respectively fitted incam grooves 90 formed on a camerahead fixing plate 89. The camerahead fixing plate 89 is supported by theshaft portions 91 of theworm gear 76 so as to pivot on theshaft portions 91 in a tilt direction in correlation to the movement of thecams 88. - The
bevel gear 80 has apin 81 which projects in parallel with theshaft 83 and actuates twomicroswitches bevel gear 80. Themicroswitches head fixing plate 89 are sensed by actuating themicroswitches pin 81. - A
disk 85 with a plurality ofslits 86 is fixed on theshaft 83. - The
disk 85 is located orthogonal to the optical path formed by aphotointerrupter 87 to open and shut the optical path. Thephotointerrupter 87 detects a signal in response to the open and shut of the optical path, and the detection signal is given to thevertical position detector 14 a. Thevertical position detector 14 a detects the rotation angle of the camerahead fixing plate 89 in the tilt direction based on the detection signal from thephotointerrupter 87. - A pan head control switching operation in the image input apparatus will now be described with reference to FIG. 13. FIG. 13 is a flowchart showing the pan head control switching operation in the image input apparatus shown in FIG. 1.
- When the
camera head unit 21 is mounted on thepan head unit 22, as shown in FIG. 13, thesupport member 31 of the camera head unit 21 (shown in FIG. 4) is fitted in thebracket 32 of the pan head unit 22 (shown in FIG. 5) (Step S101). - The
terminals corresponding operating portions support member 31 and thebracket 32. Then, the actuating switches 26 are pressed by the other ends of theterminals pan head controller 12, and one of the control modes M1, . . . , M8 is selected by thepan head controller 12 according to the combination of these selection signals (step S102). In this embodiment, the terminal 11 a is pressed by the operatingportion 9 a, theactuating switch 26 corresponding to the terminal 11 a performs a turning-on operation, and other actuating switches 26 do not perform any turning-on operations, by which the control mode M1 is selected. - Next, it is judged whether or not the selected control mode is Mode M8 (Step S103). If the selected control mode is M8, that is, if the
camera head unit 21 is not mounted on thepan head unit 22, the process ends. - If the selected control mode is a mode other than M8, data corresponding to the selected control mode is read from the memory (Step S104), and the driving voltage in accordance with the lens weight is set (Step S105). After setting the driving voltage, the driving speed in accordance with the lens focal length is set (Step S106).
- Accordingly, when the
camera head unit 21 is mounted on thepan head unit 22, the driving voltage and driving speed best-suited to the weight and focal length of thezoom lens 1 in thecamera head unit 1 are automatically selected. Specifically, when a light lens is mounted, that is, when thecamera head unit 21 is light, the driving voltage is set at a low value, which achieves small power consumption and reduced noise. When a wide-angle lens is used, since the driving speed of thepan head unit 22 is set high, an arbitrary subject can be captured instantaneously. When a telephoto lens is used, a subject can be captured accurately by driving thepan head unit 22 at low speed. As mentioned above, when thecamera head unit 21 is mounted on thepan head unit 22, the optimum pan head operation with reference to the weight and focal length of thezoom lens 1 in thecamera head unit 21 can be selected automatically, and the selection of the pan head operation best-suited to thecamera head unit 22 can be simplified. - Since the size of the
camera head unit 21 capable of being mounted on thepan head unit 22 is predetermined, there is no need to excessively increase the driving force of thepan head unit 22 and the rise in cost of thepan head unit 22 can be restricted. - Furthermore, since the
pan head unit 22 interchangeably mounts thecamera head unit 21 thereon, it is possible to select thecamera head unit 21 having a lens suited to the intended use and to obtain high general versatility. - An optical axis control operation will now be described with reference to FIG. 14. FIG. 14 is a flowchart showing an optical axis control operation of the image input apparatus shown in FIG. 1.
- After the
camera head unit 21 is mounted on thepan head unit 22, an external device for giving operation guidance to thecamera head unit 21 and thepan head unit 22 is connected to a terminal I/F of thepan head unit 22 through a cable. After the completion of the connection, thecamera head unit 21 and thepan head unit 22 are capable of operation. - Referring to FIG. 14, first, a command from the external device is waited for (Step S202). When a command is input from the external device, it is judged by the I/
F controller 16 whether or not the input command is a command relating to the pan head unit 22 (Step S203). If the input command is not a command relating to thepan head unit 22, that is, if the input command is a command relating to thecamera head unit 21, the command is sent from the I/F controller 16 to thecamera controller 5 through the input/output terminals zoom lens 1, the operation of theiris 2 and the like are controlled (Step S214). - When the input command relates to the
pan head unit 22, it is judged whether or not the command is an initialization command (Step S204). If the command is an initialization command, it is sent to thepan head controller 22, which executes an initialization process for setting the optical axis of thezoom lens 1 in an initial position (Step S215). The initialization process will be described in detail later. - If the input command is not an initialization command, that is, if the input command is information for designating the angle of the optical axis in the pan direction or the tilt direction, the angle designated by the command is converted into positional information (Step S205), and the positional information is stored as a designated position in the memory (Step S206).
- Subsequently, it is judged whether or not the current position of the optical axis agrees with a designated position (Step S207). If the optical axis is currently in the designated position, the process from Step S201 on is executed again.
- If the current position of the optical axis does not agree with the designated position, the
stepper motor 51 of thehorizontal driver 13 or thestepper motor 73 of thevertical driver 14 is driven to start the angle adjustment in the pan direction or the tilt direction so that the optical axis reaches from the current position to the designated position (Step S208). - After the angle adjustment in the pan direction or the tilt direction is started, it is judged whether or not the
horizontal driver 13 or thevertical driver 14 reaches an operation limit point before the optical axis reaches from the current position to the designated position (Step S209). If it is judged that thehorizontal driver 13 or thevertical driver 14 reaches the operation limit point before the optical axis reaches from the current position to the designated position, a positional information correction process is carried out to reset the designated position stored in the memory (Step S210), and thestepper motor 51 of thehorizontal driver 13 or thestepper motor 73 of thevertical driver 14 is stopped (Step S212). After thestepper motor - If it is judged that the
horizontal driver 13 or thevertical driver 14 does not reach the operation limit point before the optical axis reaches from the current position to the designated position, the position of the optical axis is sequentially updated by a computation such as addition or substraction, and thestepper motor 51 of thehorizontal driver 13 or thestepper motor 73 of thevertical driver 14 is driven until the optical axis reaches from the current position to the designated position (Step S211). When the optical axis reaches the designated position, the current position stored in the memory is updated (Step S213). After updating the current position, the process from Step S201 on is executed again. - When the command input from the external device is a command for the
camera head unit 21, it is sent from the I/F controller 16 to thecamera controller 5 through the input/output terminals pan head unit 22, it is sent from the I/F controller 16 to thepan head controller 12. Accordingly, it is possible to combine a control line for thecamera head unit 21 and a control line for thepan head unit 22 into one line, and thereby, to eliminate excess trouble of separately laying the control lines for thecamera head unit 21 and thepan head unit 22 as in the conventional apparatus in which a camera can be mounted on a pan head. Furthermore, since the I/F controller 16 is set to communicate with the external device, there is no need to add a special connecting device which allows communication between the I/F controller 16 and the external device. - Next, the initialization process for the
pan head unit 22 will be described with reference to FIG. 15. FIG. 15 is a flowchart showing an initialization process in the optical axis control operation of the image input apparatus shown in FIG. 1. - In the initialization process, initialization in the horizontal direction is first performed. When the initialization in the horizontal direction is started, as shown in FIG. 15, directions are given to make a turn in an A direction (for example, a horizontal and clockwise direction), and the
stepper motor 51 of thehorizontal driver 13 is driven (Step S301). The drive of thestepper motor 51 in thehorizontal driver 13 is continued until an operation limit point of theshaft 60 is detected in response to the actuation of themicroswitch 63. When the operation limit point is detected, thestepper motor 51 is stopped (Steps S302 and S303). - When the
stepper motor 51 is stopped, positional information corresponding to the operation limit point is stored in the memory (Step S304). - Next, directions are given to make a turn opposite to the A direction (in a horizontal and counterclockwise direction), the
stepper motor 51 of thehorizontal driver 13 is driven (Step S305), and the current positional information is calculated by subtracting positional information corresponding to the drive amount of thestepper motor 51 from the positional information stored in the memory (Step S306). The positional information corresponding to the drive amount of thestepper motor 51 is found from the rotation angle of theshaft 60 in the pan direction obtained based on the above-mentioned detection signal of thephotointerrupter 59. - The
stepper motor 51 is driven until the calculated current positional information agrees with predetermined information designated and stored in the memory. When the current positional information agrees with the designated information stored in the memory, thestepper motor 51 is stopped (Steps S307, S308). After the stop of thestepper motor 51, the initialization process in the horizontal direction ends. - Subsequently, initialization in the vertical direction is performed by using a similar procedure to the initialization in the horizontal direction. The description of the initialization in the vertical direction is omitted in this embodiment.
- Thus, an absolute value of the optical axis of the
zoom lens 1 can be detected and the direction of the optical axis can be set arbitrarily by executing the initialization process. - Although the
camera head unit 21 is moved by the operation of theoptical axis controller 15 in this embodiment, thecamera head unit 21 and thesignal processing circuit 4 may be separated from each other, a package for housing thezoom lens 1, theimage pickup device 3 and the like together may be driven by theoptical axis controller 15. - If there is no need to greatly change the image taking area (position), a driving method for changing the relative position between the
zoom lens 1 and theimage pickup device 3, a method of changing the optical axis of incident light by placing a variable vertical angle prism in front of thezoom lens 1, or a method of changing the angle relative to the optical axis by placing a plate glass member (whose opposite surfaces are parallel) in the optical path may be adopted. Furthermore, mode information stored in the memory may be read into the pan head unit when the camera head unit is mounted on the pan head unit. Still further, more accurate motion control can be exerted by storing information about the lens weight, focal length and the like in the memory, not as mode information, but as concrete numeric values. - The pan head in the above-mentioned embodiment is equipped with a holding mechanism attached to a pedestal to interchangeably hold an image pickup device, and a pan head control switching mechanism for performing switching so as to select and control a pan head operation suited to the image pickup device when the image pickup device is mounted on the holding mechanism. The pan head operation corresponding to the image pickup device is selected and carried out by a drive means based on the switching operation of the pan head control switching mechanism. Therefore, it is possible to achieve an image input apparatus which is excellent in general versatility and low in cost and is capable of changing pan head control with no trouble.
- In addition, since the pan head has an input/output terminal to be connected to an input/output terminal of the image pickup device for signals relating to control when the image pickup device is mounted on the holding mechanism, the trouble of laying another control line separate from a control line for the image pickup device can be eliminated.
- The individual components shown in outline or designated by blocks in the Drawings are all well-known in the image recording arts, and their specific construction and operation are not critical to the operation or best mode for carrying out the invention.
- While the present invention has been described with respect to what is presently considered to be the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. To the contrary, the invention is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
Claims (24)
1. A pan head for mounting an image pickup device thereon and for changing the image pickup direction of the image pickup device, said pan head comprising:
(a) holding means for interchangeably holding the image pickup device; and
(b) selection means for selecting a pan head operation corresponding to the image pickup device held by said holding means when the image pickup device is mounted on said holding means.
2. A pan head according to , further comprising receiving means for receiving specification information used to specify the pan head operation, the specification information corresponding to the image pickup device mounted on said holding means.
claim 1
3. A pan head according to , wherein said selection means generates information used to select the pan head operation based on the specification information received by said receiving means.
claim 2
4. A pan head according to , further comprising drive means for executing the pan head operation based on the selection of said selection means.
claim 3
5. A pan head according to , further comprising a memory for storing data on operations of said pan head corresponding to different image pickup devices.
claim 4
6. A pan head according to , wherein said drive means reads out data on the pan head operation from said memory based on the selection of said selection means when the image pickup device is mounted on said holding means.
claim 5
7. A pan head according to , wherein the data on the operation of said pan head comprises data representing at least either the driving voltage or the driving speed of said drive means.
claim 6
8. A pan head according to , wherein the image pickup device has a plurality of control terminals for providing the specification information, and wherein said receiving means has a plurality of identifying terminals corresponding to the plurality of control terminals of the image pickup device.
claim 3
9. A pan head according to , wherein said selection means (i) judges a connection state between the control terminals and said identifying terminals when the image pickup device is mounted on said holding means, and (ii) generates the selection information based on the judgment result.
claim 8
10. A pan head according to , wherein the image pickup device has a lens mounted thereon, and wherein the specification information for specifying the operation of said pan head comprises information representing at least either the weight or the focal length of the lens mounted on the image pickup device.
claim 2
11. A pan head according to , wherein the image pickup device has an input/output terminal for providing a control signal relating to control of the image pickup device, and further comprising a pan head input/output terminal to be connected to the input/output terminal of the image pickup device for receiving the signal relating to control of the image pickup device when the image pickup device is mounted on said holding means.
claim 1
12. An image pickup device mountable on a pan head which is capable of changing an image pickup direction of said image pickup device, the pan head having a holding means, said image pickup device comprising:
(a) engaging means engageable with the holding means of the pan head; and
(b) transmission means for transmitting to the pan head information about an operation of the pan head with said image pickup device.
13. An image pickup device according to , wherein said transmission means has a control terminal for specifying an operation of the pan head.
claim 12
14. An image pickup device according to , wherein the pan head has an input/output terminal, and further comprising an image pickup device input/output terminal to be connected to the input/output terminal of the pan head, for transmitting to the pan head input/output terminal a signal relating to the control of said image pickup device when said image pickup device is mounted on the holding means.
claim 12
15. An image input apparatus having a pan head for mounting an image pickup device thereon and for changing the image pickup direction of said image pickup device, said image input apparatus comprising:
(a) said image pickup device comprising:
engaging means; and
transmission means for transmitting to said pan head specification information which specifies an operation of said pan head with said image pickup device,
(b) said pan head comprising:
holding means engageable with said engaging means to interchangeably connect said image pickup device and said pan head;
receiving means for receiving from said transmission means the specification information when said image pickup device is connected to said holding means; and
selection means for selecting an operation of said pan head corresponding to the connected image pickup device based on the received specification information.
16. An image input apparatus according to , wherein said selection means provides selection information for selecting the operation of said pan head based on the specification information received by said receiving means.
claim 15
17. An image input apparatus according to , further comprising pan head drive means for executing the operation of said pan head based on the selection information of said selection means.
claim 16
18. An image input apparatus according to , further comprising a pan head memory for storing data on operations of said pan head corresponding to different image pickup devices.
claim 17
19. An image input apparatus according to , wherein said drive means (i) reads out from said memory data on the operation of said pan head based on the selection information when said image pickup device is mounted on said holding means, and (ii) executes the operation of said pan head based on the read data.
claim 18
20. An image input apparatus according to , wherein the data on the operation of said pan head comprises data representing at least either the driving voltage or the driving speed of said drive means.
claim 19
21. An image input apparatus according to , wherein said image pickup device includes a lens mounted thereon, and wherein the specification information for specifying the operation of said pan head comprises information representing at least either the weight or the focal length of a lens mounted on said image pickup device.
claim 15
22. An image input apparatus according to , wherein said transmission means has a plurality of control terminals for transmitting the specification information, and wherein said receiving means has a plurality of identifying terminals corresponding to said plurality of control terminals.
claim 15
23. An image input apparatus according to , wherein said selection means (i) determines a connection state between said control terminals and said identifying terminals when said image pickup device is mounted on said holding means, and (ii) generates the selection information based on the judgment result.
claim 22
24. An image input apparatus according to , further comprising connecting means for transmitting from said pan head to said image pickup deice a signal for the control of said image pickup device when said image pickup device is mounted on said holding means.
claim 15
Applications Claiming Priority (3)
Application Number | Priority Date | Filing Date | Title |
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JP6301369A JPH08135889A (en) | 1994-11-10 | 1994-11-10 | Motor-driven pan head, image pick-up device and image input device |
JP301369/1994 | 1994-11-10 | ||
JP6-301369 | 1994-11-10 |
Publications (2)
Publication Number | Publication Date |
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US20010043271A1 true US20010043271A1 (en) | 2001-11-22 |
US6445410B2 US6445410B2 (en) | 2002-09-03 |
Family
ID=17896042
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US08/547,201 Expired - Lifetime US6445410B2 (en) | 1994-11-10 | 1995-10-24 | Image input apparatus having interchangeable image pickup device and pan head |
Country Status (2)
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US (1) | US6445410B2 (en) |
JP (1) | JPH08135889A (en) |
Cited By (14)
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JPH11177857A (en) * | 1997-12-12 | 1999-07-02 | Nikon Corp | Digital camera and recording medium |
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JPH0544890A (en) * | 1991-08-09 | 1993-02-23 | Heiwa Seiki Kogyo Kk | Universal head |
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US10509459B2 (en) | 2016-05-19 | 2019-12-17 | Scenera, Inc. | Scene-based sensor networks |
US10958820B2 (en) | 2016-05-19 | 2021-03-23 | Scenera, Inc. | Intelligent interface for interchangeable sensors |
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US11157745B2 (en) | 2018-02-20 | 2021-10-26 | Scenera, Inc. | Automated proximity discovery of networked cameras |
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Also Published As
Publication number | Publication date |
---|---|
US6445410B2 (en) | 2002-09-03 |
JPH08135889A (en) | 1996-05-31 |
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