JP4265060B2 - Image input / output device and data presentation device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an image input / output device that captures an image of a subject, converts the image into an image signal, and projects an image based on the image signal toward a screen, and a material presentation device that captures the image of the subject and outputs the image signal.
[0002]
[Prior art]
Conventionally, an object placed on a mounting table is imaged by an image sensor such as a CCD and converted into an image signal. An image is generated on the liquid crystal panel by the image signal, and the liquid crystal panel is illuminated by a projection lamp. A liquid crystal projector with a camera that projects an image onto a screen is known. Such a liquid crystal projector also includes an illumination lamp that illuminates a subject placed on the mounting table. It is also possible to switch between projecting an image based on an image signal captured by the image sensor or projecting an image based on an image signal input from the outside.
[0003]
[Problems to be solved by the invention]
In the conventional liquid crystal projector described above, when an image is projected on a screen, it is necessary to operate a number of switches as follows after placing a subject on the mounting table. In other words, a changeover switch for switching between projecting a video image based on a captured image signal or projecting a video image based on an externally input image signal, a subject illumination switch for turning on / off a subject illumination lamp, or turning on / off a projection lamp It is necessary to operate the projection lighting switch. If there are many switches to operate, the operation becomes complicated and difficult to use.
[0004]
An object of the present invention is to provide an image input / output that reduces the number of switch operations and makes it easier to use by performing a predetermined operation corresponding to a predetermined command, such as lighting an object illumination device by selecting an image signal of an imaging device. It is to provide a device and a material presentation device.
[0005]
[Means for Solving the Problems]
The present invention will be described with reference to the drawings showing an embodiment.
(1) An image input / output device according to the invention of claim 1 comprises: Subject 3 An image generation device 29 that generates an image based on an input image signal, a projection illumination device 31 that illuminates and projects an image generated by the image generation unit 29, and Subject 3 A subject illumination device 4 that illuminates the image, a selection unit 26 that selects one of the first image signal output from the imaging device 1 and the second image signal input from the outside, and outputs the selected signal to the image generation unit 29; Command means 44 and 45 for instructing to select one of the first image signal and the second image signal, and when the instruction means 44 and 45 instructs to select the first image signal, the subject illumination device 4 is The above-mentioned object is achieved by providing the control means 52 that lights up.
(2) The invention according to claim 2 is the image input / output device according to claim 1, further comprising determination means 52 for determining completion of lighting of the subject illumination device 4, and the control means 52 is configured such that the determination means 52 is the subject illumination device. The image generation of the image generation means 29 based on the first image signal is prohibited until it is determined that the lighting of 4 is completed.
(3) The invention according to claim 3 is the image input / output device according to claim 1, further comprising determination means 52 for determining completion of lighting of the subject illumination device 4. The selection means 26 is driven so as to select the first image signal after determining that the lighting of 4 is completed.
(4) An image input / output device according to the invention of claim 4 Subject 3 An image generation device 29 that generates an image based on an input image signal, a projection illumination device 31 that illuminates and projects an image generated by the image generation unit 29, and Subject 3 A subject illumination device 4 that illuminates the image, a selection unit 26 that selects one of the first image signal output from the imaging device 1 and the second image signal input from the outside, and outputs the selected signal to the image generation unit 29; Based on command means 44 and 45 for instructing to select one of the first image signal and the second image signal, and a selection command for the second image signal commanded from the command means 44 and 45, the subject illumination device 4 By providing the control means 52 for turning off the light, the above-mentioned object is achieved.
(5) The invention of claim 5 is the image input / output device according to claim 4, wherein the control means 52 turns off the subject illumination device 4 after the selection means 26 selects and inputs the second image signal. It is characterized by.
(6) The material presentation device according to the invention of claim 6 Subject 3 An image pickup apparatus 1 that picks up an image and outputs an image signal; Subject 3 A selection unit 26A for selecting and outputting either one of the first image signal output from the imaging device 1 and the second image signal input from the outside, the first image signal, Instruction means 44 and 45 for instructing to select one of the second image signals, and control means 52A for lighting the subject illumination device 4 when the instruction means 44 and 45 instructs to select the first image signal. The above object is achieved.
(7) The invention of claim 7 is the document presentation apparatus according to claim 6, further comprising a determination unit 52A for determining completion of lighting of the subject illumination device 4, and the control unit 52A is configured such that the determination unit 52A is the subject illumination device 4. The output of the first image signal is prohibited until it is determined that the lighting has been completed.
(8) According to an eighth aspect of the present invention, in the material presentation device according to the sixth aspect of the present invention, the material presentation device includes a determination unit 52A for determining completion of lighting of the subject illumination device 4, and the control unit 52A includes the determination unit 52A. The selection means 26A is driven so as to select the first image signal after determining the completion of lighting.
(9) The material presentation device according to the invention of claim 9 Subject 3 An image pickup apparatus 1 that picks up an image and outputs an image signal; Subject 3 A selection unit 26A for selecting and outputting either one of the first image signal output from the imaging device 1 and the second image signal input from the outside, the first image signal, Command means 44 and 45 for instructing to select any one of the second image signals, and control means for turning off the subject illumination device 4 based on the second image signal selection command instructed by the command means 44 and 45 52A is achieved.
(10) The invention of claim 10 is the document presentation apparatus according to claim 9, wherein the control means 52A turns off the subject illumination device 4 after the selection means 26A selects and inputs the second image signal. Features.
(11) An image input / output device according to the invention of claim 11 is provided. Subject 3 An image generation device 29 that generates an image based on an input image signal, a projection illumination device 31 that illuminates and projects an image generated by the image generation unit 29, and Subject 3 A subject illumination device 4 that illuminates the image, a selection unit 26 that selects one of the first image signal output from the imaging device 1 and the second image signal input from the outside, and outputs the selected signal to the image generation unit 29; Command means 46 for commanding lighting of the subject illumination device 4 and control means 52 for driving the selection means 26 to select the first image signal based on the lighting command for the subject illumination device 4 commanded from the command means 46. The above object is achieved.
(12) The invention of claim 12 is the image input / output device according to claim 11, further comprising determination means 52 for determining completion of lighting of the subject illumination device 4, and the control means 52 is configured such that the determination means 52 is the subject illumination device. The image generation by the image generation means 29 based on the first image signal is prohibited until it is determined that the lighting of 4 is completed.
(13) A thirteenth aspect of the invention is the image input / output device according to the eleventh aspect, further comprising determination means 52 for determining whether the lighting of the subject illumination device 4 is completed. The selection means 26 is driven so as to select the first image signal after determining that the lighting of 4 is completed.
(14) An image input / output device according to the invention of claim 14 is provided. Subject 3 An image generation device 29 that generates an image based on an input image signal, a projection illumination device 31 that illuminates and projects an image generated by the image generation unit 29, and Subject 3 A subject illumination device 4 that illuminates the image, a selection unit 26 that selects one of the first image signal output from the imaging device 1 and the second image signal input from the outside, and outputs the selected signal to the image generation unit 29; Command means 46 for instructing to turn off the subject illumination device 4, and control means 52 for driving the selection means 26 to select the second image signal based on the turn-off command for the subject illumination device 4 instructed from the instruction means 46. The above object is achieved.
(15) The invention of claim 15 is the image input / output device according to claim 14, wherein the control means 52 turns off the subject illumination device 4 after the selection means 26 selects and inputs the second image signal. It is characterized by.
(16) A material presentation device according to the invention of claim 16 provides: Subject 3 An image pickup apparatus 1 that picks up an image and outputs an image signal; Subject 3 Of the subject illumination device 4, a selection unit 26 A that selects and outputs either the first image signal output from the imaging device 1 or the second image signal input from the outside, and the subject illumination device 4. By providing command means 46 for instructing lighting, and control means 52A for driving the selection means 26A so as to select the first image signal based on the lighting command of the subject illumination device 4 instructed from the command means 46. Achieve the above objective.
(17) The invention of claim 17 is the document presentation apparatus according to claim 16, further comprising a determination unit 52A for determining completion of lighting of the subject illumination device 4, and the control unit 52A includes the determination unit 52A. The output of the first image signal is prohibited until it is determined that the lighting has been completed.
(18) According to an eighteenth aspect of the present invention, in the material presentation device according to the sixteenth aspect of the present invention, the control unit 52A includes a determination unit 52A that determines completion of lighting of the subject illumination device 4, and the determination unit 52A includes the determination unit 52A. The selection means 26A is driven so as to select the first image signal after determining the completion of lighting.
(19) A material presentation device according to the invention of claim 19 is provided. Subject 3 An image pickup apparatus 1 that picks up an image and outputs an image signal; Subject 3 Of the subject illumination device 4, a selection unit 26 that selects and outputs one of the first image signal output from the imaging device 1 and the second image signal input from the outside, and the subject illumination device 4. By providing command means 46 that commands turning off, and control means 52A that drives the selection means 26A to select the second image signal based on the turn-off command of the subject illumination device 4 that is commanded from the command means 46. Achieve the above objective.
(20) The invention of claim 20 is characterized in that, in the material presentation device according to claim 19, the control means 52A turns off the subject illumination device 4 after the second image signal is selected by the selection means 26A. To do.
(21) An image input / output device according to the invention of claim 21 Subject 3 An image generation device 29 that generates an image based on an input image signal, a projection illumination device 31 that illuminates and projects an image generated by the image generation unit 29, and Subject 3 The object illumination device 4 for illuminating the camera, the mounting unit 101 to which the external storage medium is mounted, the first image signal output from the imaging device 1 and the second image input from the external storage medium mounted to the mounting unit 101. A selection unit 26 that selects one of the signals and outputs it to the image generation unit 29; a detection unit 52 that detects that the external storage medium is mounted on the mounting unit; and the mounting of the external storage medium by the detection unit 52 The above object is achieved by providing a control means 52 that turns off the subject illumination device 4 when the object is detected.
(22) The material presentation device according to the invention of claim 22 Subject 3 An image pickup apparatus 1 that picks up an image and outputs an image signal; Subject 3 Any one of the subject illumination device 4 that illuminates the light source, the mounting unit 101 to which the external storage medium is mounted, the first image signal output from the imaging device 1 and the second image signal input from the mounted external storage medium A selection means 26A for selecting and outputting one, a detection means 52A for detecting that the external storage medium is attached to the attachment unit 101, and a subject illumination device when attachment of the external storage medium is detected by the detection means 52A The above-described object is achieved by providing the control means 52A for turning off 4.
[0006]
In the section of means for solving the above problems, the present invention is associated with the drawings of the embodiments for easy understanding. However, the present invention is not limited to the embodiments.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. 1 and 2 are external views of an image input / output device according to an embodiment of the present invention. FIG. 1 shows a case where the imaging apparatus 1 is in a use state (non-storage position), and FIG. 2 shows a case where the imaging apparatus 1 is in a non-use state (storage position).
[0008]
The image input / output device is powered on by the main switch 104. This image input / output device includes an imaging device 1 that inputs an image and a projection display device 7 that outputs an image. The imaging device 1 is rotatably supported at the tip of a column 6 provided in the housing of the projection display device 7. One end of the column 6 is supported so as to be rotatable with respect to the housing of the projection display device 7, and can be folded along the housing of the projection display device 7 as shown in FIG. 2. The column 6 is provided with an illumination lamp 4 and a reflecting mirror 5 that illuminate the subject 3. The subject 3 is mounted on a mounting table 71 at the top of the housing of the projection display device 7 and illuminated by the illumination lamp 4. The imaging device 1 captures an image of the illuminated subject 3 through the photographing lens 2.
[0009]
The projection display device 7 generates an image corresponding to an image signal on a liquid crystal panel of an image generation device (hereinafter referred to as an optical system) 29 described later, illuminates the liquid crystal panel, and passes a screen through the projection lens 8. Project an image on S. In the projection display device 7, an operation panel 10 provided with switches for instructing various operations, an input terminal 9 for inputting an image signal from the outside, and an external storage medium such as a PC card are inserted. Slot 101 is provided. For example, an external device 103 such as a video recorder is connected to the input terminal 9. The projection display device 7 is also provided with an infrared light receiving element 11 and receives an operation signal transmitted from the remote control transmitter 12.
[0010]
FIG. 3 is a block diagram showing an outline of the image input / output device according to this embodiment. In FIG. 3, an imaging apparatus 1 includes a photographic lens 2 that takes in a light beam from a subject 3, and an imaging element 20 such as a CCD that receives the light beam incident from the photographic lens 2, converts it into an electrical signal, and outputs it. I have. The imaging device 1 further includes a signal processing unit 21 and an imaging control unit 22. The signal processing unit 21 amplifies the image signal output from the image sensor 20 and converts it into a digital signal, and performs predetermined signal processing such as white balance adjustment processing. The image signal after the signal processing is sent from the imaging device 1 to the projection display device 7 through a cable accommodated in the column 6 (FIG. 1). The imaging control unit 22 controls the imaging element 20 and the signal processing unit 21 according to a command sent from the projection display device 7. The imaging control unit 22 also controls mute of an image signal to be described later.
[0011]
In FIG. 3, the projection display device 7 is based on an image changeover switch 26 that selects any one of a plurality of image signals input from a plurality of input terminals, and an image signal selected by the image changeover switch 26. An optical system 29 for generating an image on the liquid crystal panel, a drive circuit 28 for driving the liquid crystal panel based on an input image signal, and a projection lamp 31 for illuminating the liquid crystal panel on which the projection image is generated. Yes. The image changeover switch 26 outputs an image signal input from any one of the input terminals A, B, C, E to the output terminal D. An image signal from the signal processing unit 21 of the imaging device 1 is input to the input terminal A. An image signal input from the outside is input to the input terminal B. An image signal obtained by decoding the image signal stored in the PC card mounted in the slot 101 by the decoder circuit 102 is input to the input terminal E. The input terminal C receives an image signal input to the network interface unit 51 via the network and decoded. The changeover switch 26 is also provided with an open terminal F to which no image signal is input. As will be described later, when the main switch 104 is turned on and powered on, the changeover switch 26 is switched to the open terminal F.
[0012]
The projection lamp 31 is turned on when power is supplied from the power supply circuit 43 to the lighting circuit 32 via the switch 37 to illuminate the liquid crystal panel. The counting circuit 39 counts the cumulative lighting time of the projection lamp 31. The illumination lamp 4 is turned on when power is supplied from the power supply circuit 41 to the lighting circuit 33 via the switch 36 to illuminate the subject 3. The counting circuit 38 counts the cumulative lighting time of the illumination lamp 4. As the projection lamp 31 and the illumination lamp 4, a fluorescent lamp or a metal halide lamp is used.
[0013]
Fluorescent lamps and metal halide lamps require a certain amount of time from the extinguished state to the steady state. In the case of a fluorescent lamp, the longer the elapsed time from the previous extinction, the longer it takes to turn on as the ambient temperature decreases. Therefore, as will be described later, the input of the image signal to the projection display device 7 is prohibited for a predetermined time when the illumination lamp is turned on, and the input of the image signal to the projection display device 7 is permitted after the predetermined time has elapsed. Thereby, it is possible to prevent an unsightly image from being projected when the amount of illumination light increases. As a form of prohibiting image signal input, the changeover switch 26 can be switched to the open terminal F to block the image signal from the projection display device 7, or the image signal can be muted by the imaging device 1. The mute circuit is built in the signal processing unit 21. The processing unit 27 may incorporate a mute circuit. Screen data may be output from the OSD memory 30 to be described later to the processing unit 27 and superimposed on the entire image signal.
[0014]
The projection display device 7 also includes a CPU 52 that controls various devices and circuits of the image input / output device, a control unit 53 that inputs and outputs control signals to the respective units of the imaging device 1 and the projection display device 7 according to instructions from the CPU 52, And a processing unit 27 that performs γ adjustment processing on the image signal and outputs the image signal to the drive circuit 28. The processing unit 27 creates an overlay image by superimposing the superimposing data read from the OSD memory 30 on the image after the γ adjustment processing. The OSD memory 30 stores the superimposition data to be superimposed on the image in accordance with the drive signal output from the control unit 53, reads the stored superimposition data, and sends it to the processing unit 27. Note that the superimposition data is, for example, text data such as an on-screen menu and screen data for replacing the entire image.
[0015]
As described above, the projection display device 7 is provided with the operation panel 10. The operation panel 10 includes operation switches 44, 45 and 55 for switching the image changeover switch 26, an operation switch 46 for turning on / off the illumination lamp 4, and an operation for turning on / off the projection lamp 31. A switch 56, an illumination lamp indicator 47 and a projection lamp indicator 48 are provided. The illumination lamp indicator 47 displays information related to the cumulative lighting time of the illumination lamp 4. The projection lamp indicator 48 displays information related to the cumulative lighting time of the projection lamp 31.
[0016]
The image changeover switch 26 is changed over when any one of a plurality of image signals input to the projection display device 7 is selected. Switching of the image changeover switch 26 is performed by an operator by operating switches 44, 45 and 55 provided on the operation panel 10. The switch 44 is a switch for switching the input of the image changeover switch 26 to the terminal B, and the switch 45 and the switch 55 are switches for switching the input of the changeover switch 26 to the terminal A and the terminal C, respectively. When these switches are operated by the operator, a switching command signal is sent to the control unit 53. The controller 53 outputs a change command signal for the changeover switch 26 in response to the input change command signal. The operation of switching the input of the changeover switch 26 to the terminal E is performed when the CPU 52 detects that a PC card has been inserted into the slot 101. That is, the CPU 52 checks the signal level of the pins allocated for insertion / removal detection in the PC card connector provided in the slot 101. When the signal level of the insertion / extraction detection pin changes to a predetermined value, the CPU 52 determines that the PC card is attached and outputs a switching command signal to the changeover switch 26 via the control unit 53.
[0017]
The projection lamp 31 can be turned on and off by operating a switch 56 provided on the operation panel 10. In response to the operation signal input from the switch 56, the control unit 53 outputs a drive signal for turning on / off the projection lamp 31 to the switch 37. When the switch 37 is turned on, power is supplied from the power supply circuit 43 of the projection lamp 31 to the lighting circuit 32, and the lighting circuit 32 lights the projection lamp 31. On the other hand, when the switch 37 is turned off, the power supply to the lighting circuit 32 is cut off and the projection lamp 31 is turned off. The counting circuit 39 counts the cumulative lighting time of the projection lamp 31 and sends it to the control unit 53. The counting circuit 39 stops counting while the projection lamp 31 is turned off. The counting result by the counting circuit 39 is displayed on the indicator 48. The indicator 48 is normally off and blinks when the cumulative lighting time of the projection lamp 31 exceeds a predetermined time. The display of the indicator 48 is controlled by the control unit 53. When the cumulative lighting time of the projection lamp 31 exceeds a predetermined time, warning character data can be output from the OSD memory 30 to the processing unit 27 and the warning character can be displayed on the projected image.
[0018]
Further, the illumination lamp 4 can be turned on and off by operating a switch 46 provided on the operation panel 10. The control unit 53 outputs a drive signal for turning on / off the illumination lamp 4 to the switch 36 in response to the operation signal input from the switch 46. When the switch 36 is turned on, power is supplied from the power supply circuit 41 of the illumination lamp 4 to the lighting circuit 33, and the lighting circuit 33 turns on the illumination lamp 4. On the other hand, when the switch 36 is turned off, the supply of power to the lighting circuit 33 is cut off and the illumination lamp 4 is turned off. The counting circuit 38 counts the cumulative lighting time of the illumination lamp 4 and sends it to the control unit 53. The counting circuit 38 stops counting while the illumination lamp 4 is turned off. The counting result by the counting circuit 38 is displayed on the indicator 47. The indicator 47 is normally off and blinks when the cumulative lighting time of the projection lamp 31 exceeds a predetermined time. The display of the indicator 47 is controlled by the control unit 53. When the cumulative lighting time of the illumination lamp 4 exceeds a predetermined time, warning character data can be output from the OSD memory 30 to the processing unit 27 and the warning character can be displayed on the projected image.
[0019]
The projection display device 7 is operated by an operation signal from the remote control transmitter 12 in addition to the operation from the operation panel 10. The infrared light receiving element 11 receives an operation signal by infrared light transmitted from the remote control transmitter 12 and converts it into an electrical signal. The operation signal by infrared light is transmitted from the remote control transmitter 12 when the operator operates the remote control transmitter 12. The operation signal converted into the electrical signal by the infrared light receiving element 11 is demodulated by the demodulation circuit 34 and then decoded by the decoding circuit in the control unit 53. By decoding the operation signal, the operation signal is converted into an operation signal for switching the input of the image changeover switch 26. When the switches 49, 50 and 54 of the remote control transmitter 12 are operated, the input of the image changeover switch 26 is converted into operation signals for switching to the terminals A, B and C, respectively. The control unit 53 outputs a switching signal for the changeover switch 26 in response to these operation signals.
[0020]
Next, the optical system 29 will be described in detail with reference to FIG. The optical system 29 divides the illumination light from the liquid crystal panels P1 to P3 that respectively generate RGB color images and the projection lamp 31 (FIG. 2) into RGB and illuminates the liquid crystal panels P1 to P3. Disassembly dichroic mirrors D1 to D3 are provided. The light emitted from the projection lamp 31 (FIG. 2) is incident on the dichroic mirror D1 that is reflected by the mirror M1 and reflects red light. The dichroic mirror D1 reflects only red light and transmits the remaining light. The red light reflected by the dichroic mirror D1 is reflected again by the mirror M2, passes through the red liquid crystal panel P1, and the color synthesis dichroic mirrors D3 and D4, and is emitted to the projection lens 8.
[0021]
The light transmitted through the dichroic mirror D1 is incident on the dichroic mirror D2 that reflects blue light. The dichroic mirror D2 reflects only blue light and transmits the remaining light. The blue light reflected by the dichroic mirror D2 passes through the liquid crystal panel P3 for blue, then is reflected by the dichroic mirror D3 for color synthesis, passes through the dichroic mirror D4, and is emitted to the projection lens 8. The green light transmitted through the dichroic mirror D2 is transmitted through the green liquid crystal panel P2, reflected by the mirror M3 and the color composition dichroic mirror D4, and emitted to the projection lens 8.
[0022]
The combined red, blue, and green light emitted to the projection lens 8 is projected on the screen S by the projection lens 8. As described above, the optical system 29 drives the liquid crystal panels P1 to P3 by the drive signal from the drive circuit 28, and the images formed on the liquid crystal panels P1 to P3 are spatially modulated by the illumination light from the projection lamp 31. Then, the light is projected onto the screen S (FIG. 1) through the projection lens 8.
[0023]
In the image input / output device configured as described above,
(1) The illumination lamp 4 is turned on in response to the selection of the image signal from the imaging device 1,
(2) In response to the selection of the image signal from the external input terminal 9, the illumination lamp 4 is turned off,
(3) Control is performed to turn off the illumination lamp 4 in response to the insertion of the PC card into the slot 101.
[0024]
Hereinafter, the controls (1) to (3) will be described.
(1) The illumination lamp 4 is turned on in response to the image signal selection from the imaging device 1
When the main switch 104 is turned on to turn on the power, the changeover switch 26 is switched to the open terminal F. Since the open terminal F is open, no image signal is selected. At this time, the illumination lamp 4 is turned off and the projection lamp 31 is turned on. When the selection of the image signal from the image pickup apparatus 1 is instructed, the changeover switch 26 is switched to the input terminal A, and the image signal is muted in the image pickup apparatus 1 to instruct the lighting lamp 4 to be turned on. When a predetermined amount of time has passed from the lighting instruction and the lamp light quantity is stabilized, the mute of the image signal is canceled and the image signal from the imaging device 1 is input to the processing unit 27. Thus, a video is generated on the liquid crystal panel based on the image signal captured by the imaging device 1, the liquid crystal panel is illuminated with the illumination light of the projection lamp 31, and the video is projected onto the screen by the projection optical system.
[0025]
(2) Turn off the illumination lamp 4 in response to image signal selection from the outside.
When the main switch 104 is turned on to turn on the power, the changeover switch 26 is switched to the open terminal F. Since the open terminal F is open, no image signal is selected. At this time, the illumination lamp 4 is turned off and the projection lamp 31 is turned on. When the selection of the image signal from the external input terminal 9 is instructed, the changeover switch 26 is switched to the input terminal B, and the image signal as an external input is input to the processing unit 27. It should be noted that when the image signal from the external input terminal 9 is selected not just after the main switch 104 is turned on but in the normal use state, the illumination lamp 4 of the imaging device 1 is turned off if it is turned on. Since the projection lamp 31 is already lit by turning on the main switch 104, an image is generated on the liquid crystal panel based on the image signal input from the outside, and the image is projected on the screen.
[0026]
▲ 3 ▼ Turn off the illumination lamp 4 in response to the PC card slot installation
When the main switch 104 is turned on to turn on the power, the changeover switch 26 is switched to the open terminal F. Since the open terminal F is open, no image signal is selected. At this time, the illumination lamp 4 is turned off and the projection lamp 31 is turned on. When the PC card is inserted into the slot 101, the changeover switch 26 is switched to the input terminal E so as to select the image signal from the PC card, and the image signal is input to the processing unit 27. It should be noted that when the image signal from the external input terminal 9 is selected not just after the main switch 104 is turned on but in the normal use state, the illumination lamp 4 of the imaging device 1 is turned off if it is turned on. Since the projection lamp 31 is already lit by turning on the main switch 104, an image is generated on the liquid crystal panel based on the image signal from the PC card, and the image is projected on the screen.
[0027]
FIG. 5 shows a processing procedure performed by the CPU 52 to realize the above-described functions. The contents of the following steps are executed by the CPU 52, but in the following description, the operations of the respective devices in response to commands from the CPU 52 will be described for convenience. In FIG. 5, when the main switch 104 is turned on, this process is started in step S301. In step S302, 3 is set to the variable F. A variable F represents a state of the image input / output device, and F = 1 is a case where an image based on an image signal from the imaging device 1 is projected. F = 2 is a case where an image based on an image signal from the external input terminal 9 is projected. F = 3 represents no meaning at all. In step S303, the illumination lamp 4 is turned off, the projection lamp 31 is turned on, and the changeover switch 26 is switched to the open terminal F. This prohibits the input of any image signal.
[0028]
If it is determined in step S304 that the PC card is not inserted into the slot 101, the process proceeds to step S401. If it is determined in step S401 that selection of an image signal from the imaging device 1 is instructed by the switch 45, the process proceeds to step S402. If it is determined in step S402 that the variable F is not 1, the changeover switch 26 is switched to the input terminal A in step S402A, and the process proceeds to step S402B. In step S402B, the image signal from the imaging device 1 is muted. In step S403, lighting of the illumination lamp 4 is instructed, and the process proceeds to step S404. Note that mute is instructed to the signal processing unit 21 by the imaging control unit 22 of the imaging apparatus 1, and the signal processing unit 21 prohibits the output of the image signal.
[0029]
If it is determined in step S404 that a predetermined time has elapsed from the lighting instruction, the process proceeds to step S405, the mute is canceled, and the process proceeds to step S407. In step S407, 1 is set to variable F, and the process returns to step S304.
[0030]
By such processing, when an instruction to select the image signal of the imaging device 1 is issued by switching operation of the switch 45 after the main switch 104 is turned on, the switching device is switched to the input terminal A and at the same time the imaging device. The image signal from 1 is muted and the lighting lamp 4 is instructed to be turned on. When the mute is canceled after a predetermined time has elapsed after the lighting instruction, an image is generated on the liquid crystal panel by the image signal from the imaging device 1 and projected onto the screen. Therefore, the lighting command operation of the illumination lamp 4 is not necessary, and the operability is improved. Further, since the image is not projected on the screen until the operation of the illumination lamp 4 is stabilized, projection of an unsightly image is prevented.
[0031]
If it is determined in step S401 that the image signal selection command of the imaging apparatus 1 has not been output, the process proceeds to step S500. If it is determined in step S500 that the switch 44 has output a selection command for the image signal input to the external input terminal 9, the process proceeds to step S501. If the variable F is not determined to be 2 in step S501, the process proceeds to step S502. In step S502, the changeover switch 26 is switched to the external input terminal B, and the process proceeds to step S503. If the variable F is determined to be 1 in step S503, the illumination lamp 4 of the imaging device 1 is turned off in step S504. If the variable F is not determined to be 1 in step S503, the illumination lamp 4 is turned off, so the process skips step S504, which is the lamp turn-off process, and proceeds to step S505, where 2 is set in the variable F. Then, the process returns to step S304. When it is determined in step S501 that the variable F is 2, the process returns to step S304.
[0032]
By such processing, when an instruction to select an image signal from the external input terminal 9 is issued after the main switch 104 is turned on, the image signal from the external input terminal 9 is input to the processing unit 27 and the image is input. An image is generated on the liquid crystal panel by the signal and projected on the screen. Further, if the illumination lamp 4 is lit, it is turned off. Therefore, the operation of turning off the illumination lamp 4 by the switch 46 is not necessary, and the operability is improved. Further, it is not necessary to turn off the illumination lamp 4 by the switch 46, so that operability is improved and wasteful power consumption is suppressed. Further, by turning off the subject illumination lamp 4 after selecting an image signal from the outside, the subject illumination is switched when switching from the projected video based on the image signal from the imaging device 1 to the projected video based on the external image signal. It is possible to prevent an unsightly image from being projected as the lamp 4 is turned off.
[0033]
On the other hand, if a negative determination is made in step S500, the process proceeds to step S506. If the variable F is determined to be 1 in step S506, the illumination lamp 4 of the imaging device 1 is turned off in step S507, the variable F is set to 3 in step S508, and the changeover switch 26 is switched to the open terminal F. Return to S304. If it is determined in step S506 that the variable F is not 1, step S507 is skipped and the process proceeds to step S508. As a result of such processing, the illumination lamp 4 is turned off when neither the image signal from the imaging apparatus 1 nor the image signal from the external input terminal 9 is instructed after the main switch 104 is turned on. Therefore, useless power consumption is suppressed without turning off the illumination lamp 4.
[0034]
If it is determined in step S304 that a PC card is installed in the slot 101, the process proceeds to step 305. If it is not determined in step S305 that the variable F is not zero, the changeover switch 26 is switched to the input terminal E in step S306. If the variable F is determined to be 1 in step S307, the illumination lamp 4 is turned off in step S308. Next, 0 is set to the variable F in step S309, and the process returns to step S304. If it is determined in step S307 that the variable F is not 1, step S308 is skipped and the process proceeds to step S309. If it is determined in step S305 that the variable F is zero, the process returns to step S304.
[0035]
By such processing, when the main switch 104 is turned on and it is detected that the PC card is installed in the slot 101, the changeover switch 26 is switched to the input terminal E and the image signal from the PC card is received. Input to the processing unit 27. A video is generated on the liquid crystal panel based on the image signal read from the PC card. The liquid crystal panel is illuminated with the illumination light of the projection lamp 31, and an image is projected onto the screen by the projection optical system. At this time, if the illumination lamp 4 is lit, it is turned off. Also in this case, by switching off the subject illumination lamp 4 after selecting the image signal from the PC card, the projection video based on the image signal from the imaging device 1 is switched to the projection video based on the image signal of the PC card. At the time of switching, it is possible to prevent an unsightly image from being projected as the subject illumination lamp 4 is turned off.
[0036]
FIG. 6 is a diagram showing a modification of FIG. In the process of FIG. 5, in response to the operation of the switch 45 so as to select the image signal of the image pickup apparatus 1, the changeover switch 26 is switched to the input terminal A by the instruction of the CPU 52, and the illumination lamp 4 operates stably. The image signal was muted until In the process of FIG. 6, the CPU 52 turns on the illumination lamp 4 in response to the operation of the switch 45 so as to select the image signal of the imaging device 1, but does not output the change command of the changeover switch 26. The CPU 52 switches the changeover switch 26 to the input terminal A when it is determined that the lighting lamp 4 has been turned on after a predetermined time has elapsed since the lighting lamp 4 was instructed to turn on.
[0037]
If it is determined in step S401 that the switch 45 is instructed to select the input terminal A, the process proceeds to step S402. If it is determined in step S402 that the variable F is not 1, the lighting lamp 4 is instructed to be turned on in step S403. If it is determined in step S404 that a predetermined time has elapsed after the lamp lighting instruction, the CPU 52 outputs a command for switching to the input terminal A to the changeover switch 26 in step S406. Thereby, the image signal of the imaging device 1 is input to the processing unit 27 from the input terminal A of the changeover switch 26, and the video is projected on the screen.
[0038]
In the image input / output device configured as described above, an image signal from the imaging device 1 can be selected in response to an instruction to turn on the illumination lamp 4 instead of the above control.
[0039]
When the main switch 104 is turned on to turn on the power, the changeover switch 26 is switched to the open terminal F. Since the open terminal F is open, no image signal is selected. At this time, the illumination lamp 4 is turned off and the projection lamp 31 is turned on. When the lighting switch 46 of the illumination lamp 4 is turned on, the changeover switch 26 is switched to the input terminal A, the image signal from the imaging device 1 is muted, and the illumination lamp 4 is turned on. When the lamp light quantity is stabilized after a predetermined time has elapsed from the lighting instruction, the mute of the image signal is canceled and the image signal from the imaging device 1 is input to the processing unit 27. As a result, an image based on the image signal captured by the imaging device 1 is generated on the liquid crystal panel. The liquid crystal panel is illuminated with the illumination light of the projection lamp 31, and an image is projected onto the screen by the projection optical system.
[0040]
FIG. 7 shows a processing procedure performed by the CPU 52 to realize the above-described function. The contents of the following steps are executed by the CPU 52. In FIG. 7, the same steps as those in the flowchart of FIG.
[0041]
When the main switch 104 is turned on, this process is started in step S601. Steps S601 to 609 are exactly the same as steps S301 to S309 in FIG. If it is not detected in step S604 that a PC card has been inserted, the process proceeds to step S701. If it is determined in step S701 that the illumination switch 4 has been instructed to turn on by the illumination switch 46, the process proceeds to step S702. If it is determined in step S702 that the variable F is not 1, the changeover switch 26 is switched to the input terminal A in step S702A. In step S702B, the image signal from the imaging device 1 is muted, and the lighting lamp 4 is instructed to be turned on in step S703.
[0042]
If it is determined in step S704 that a predetermined time has elapsed from the lighting instruction, the process proceeds to step S705 to cancel mute. Thereafter, in step S707, the variable F is set to 1 and the process returns to step S604.
[0043]
By such processing, when lighting of the illumination lamp 4 is instructed after the main switch 104 is turned on, the changeover switch 26 is switched to the input terminal A to select the image signal from the imaging device 1 and the image signal is The lighting lamp 4 is instructed to be turned on after being muted. When the predetermined time has elapsed after the lighting instruction, the mute is canceled, and an image based on the image signal of the imaging device 1 is generated on the liquid crystal panel and projected onto the screen.
[0044]
If it is determined in step S701 that the switch 46 is not turned on, that is, the lighting command for the illumination lamp 4 is not output, the process proceeds to step S801. If variable F is not determined to be 2 in step S801, the process proceeds to step S802. In step S802, the changeover switch 26 is switched to the external input terminal B, and the process proceeds to step S803. If the variable F is determined to be 1 in step S803, the illumination lamp 4 of the imaging apparatus 1 is turned off in step S804. If the variable F is not determined to be 1, the process skips step S804 and changes to the variable F in step S805. Set 2 If it is determined in step S801 that the variable F is 2, the process returns to step S604.
[0045]
By such processing, when the command to turn on the illumination lamp 4 is not output after the main switch 104 is turned on, and the PC card is not mounted in the slot 101, the image signal from the external input terminal 9 is switched. The illumination lamp 4 is turned off. Therefore, an image input switching operation is not necessary, and wasteful power consumption is suppressed without turning off the illumination lamp 4.
[0046]
FIG. 8 is a diagram showing a modification of FIG. In the process of FIG. 7, in response to the operation of the switch 46 to turn on the illumination lamp 4, the changeover switch 26 is switched to the input terminal A and the illumination lamp 4 operates stably in response to a command from the CPU 52. The signal was muted. In the process of FIG. 8, the CPU 52 turns on the illumination lamp 4 in response to the operation of the switch 46 to turn on the illumination lamp 4, but does not output a change command for the changeover switch 26. The CPU 52 switches the changeover switch 26 to the input terminal A when it is determined that the lighting lamp 4 has been turned on after a predetermined time has elapsed since the lighting lamp 4 was instructed to turn on.
[0047]
If it is determined in step S701 that a command to turn on the illumination lamp 4 is output by the switch 46, the process proceeds to step S702. If it is determined in step S702 that the variable F is not 1, the lighting lamp 4 is instructed to be turned on in step S703. If it is determined in step S704 that a predetermined time has elapsed after the lamp lighting instruction, in step S706, the CPU 52 outputs a command for switching to the input terminal A to the changeover switch 26. Thereby, the image signal of the imaging device 1 is input to the processing unit 27 from the input terminal A of the changeover switch 26, and the video is projected on the screen.
[0048]
5 to 8, the input of the image signal is prohibited or the image signal is muted for a predetermined time until the light quantity of the illumination lamp 4 is stabilized. This predetermined time can set the maximum time required for lighting of the illumination lamp. Alternatively, the predetermined time may be variable by measuring the ambient temperature with a temperature sensor (not shown) or by measuring the elapsed time from the previous extinction.
[0049]
In the above description, mainly the image signal has been described. In general, image signals and audio signals are often used in combination. In this case, a reproduction circuit for reproducing an audio signal and an audio changeover switch may be provided so that the input of the audio changeover switch is changed over in synchronization with the input changeover of the image changeover switch 26. As a result, the reproduction circuit reproduces the audio signal switched by the audio switching switch in accordance with the switching of the images.
[0050]
In the above description, the image input / output device including the imaging device 1 and the projection display device 7 has been described. However, the present invention is also applied to a material presentation device including only the imaging device 1 that images the subject 3 and outputs an image signal. it can. FIG. 9 is a diagram showing a configuration of a material presentation device to which the present invention is applied. In FIG. 9, the same parts as those in FIG. The changeover switch 26A includes three input terminals A, B, and E, one open terminal F, and one output terminal G. An image signal from the imaging apparatus 1 is input to the input terminal A, an external image signal input from the external input terminal 9 is input to the input terminal B, and a PC card mounted in the slot 101 is input to the input terminal E. Image signal is input. The open terminal F is an open terminal to which no image signal is input. The output terminal G is connected to the external output terminal 105. The changeover switch 26A is changed over by the CPU 52A via the control unit 53A.
[0051]
In such a material presentation device, the same processing as described in FIG. 5 can be executed. When a command for selecting the input terminal A of the changeover switch 26 is output by the switch 45 of the operation panel 10, the changeover switch 26 is first switched to the input terminal A, the image signal is muted, and the illumination lamp 4 is turned on. After a predetermined time has elapsed, the mute is canceled and the video is projected. Alternatively, the same processing as described in FIG. 7 can be executed. When a command to turn on the illumination lamp 4 is output by the switch 46, the changeover switch 26 is switched to the input terminal A and the image signal is muted. Cancel mute after a predetermined time. It should be noted that the operation of the illumination lamp 4 can be stabilized and the output of the image signal can be prohibited by the same processing as described in FIGS. 6 and 8 instead of the mute of the image signal.
[0052]
Further, the changeover switch 26 can be switched to the input terminal E in response to the mounting of an external recording medium such as a PC card. At this time, the illumination lamp 4 can be turned off.
[0053]
As described above, according to the present invention, (1) the illumination lamp 4 is turned on in response to a command for selecting an image signal from the imaging device 1, and (2) the imaging device is responded to a command to turn on the illumination lamp 4. 1 image signal is selected, and (3) the illumination lamp 4 is turned off by selecting an external input image signal or mounting a PC card. Therefore, as long as such a function is realized, the present invention is not limited to the above-described embodiment, and various processing procedures, circuits, and configurations can be employed.
[0054]
【The invention's effect】
As described above in detail, the present invention has the following effects.
(1) As in the first, sixth, eleventh, and sixteenth aspects, the subject illumination device is turned on in response to the image signal selection command of the imaging device, or the subject illumination device is turned on. Since the image signal of the imaging device is selected, the operation of lighting the subject illumination device and the switching operation of the image signal are not required, and the operability is improved.
(2) If the subject lighting device is turned off in response to the selection of an image signal input from the outside as in the inventions of claims 4, 9, and 15, the lighting device is not turned off and the operability is improved. To do.
(3) If the image is not projected until the operation of the subject illumination device is stabilized as in the inventions of claims 2, 3, 7, 8, 12, 13, 17, 18, the subject illumination device is unstable. An unsightly image accompanying the operation is prevented from being projected onto the screen.
(4) If an externally input image signal is selected in response to a turn-off command of the subject illumination device as in the inventions of claims 14 and 19, an image signal selection operation becomes unnecessary and operability is improved. To do.
(5) As in the inventions of claims 21 and 22, if the attachment of the external storage medium is detected to select the image signal stored in the external storage medium and turn off the subject illumination device, Operability is improved.
(6) As in the fifth, fifteenth and twentieth aspects of the invention, when an image signal selection command is output from the outside, the subject illumination device is turned off after the image signal is selected. When switching from the video based on the image signal from the video based on the external image signal, it is possible to prevent an unsightly video accompanying the extinction of the subject illumination device from being displayed.
[Brief description of the drawings]
FIG. 1 is an external view of an image input / output device according to an embodiment of the present invention, and shows a case where an imaging device is in use.
FIG. 2 is an external view of an image input / output device according to an embodiment of the present invention, and shows a case where the imaging device is in a non-use state.
FIG. 3 is a block diagram showing an outline of the image input / output device of FIG. 1;
FIG. 4 is a block diagram of an optical system that is an image generation apparatus.
FIG. 5 is a flowchart illustrating an example of a processing procedure executed by a CPU.
6 is a flowchart showing a modification of FIG.
FIG. 7 is a flowchart illustrating another example of a processing procedure executed by the CPU.
FIG. 8 is a flowchart showing a modification of FIG.
FIG. 9 is a block diagram showing an outline of a material presentation device to which the present invention is applied.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Imaging device 2 ... Shooting lens
3 ... Subject 4 ... Lighting lamp
5 ... Reflector 6 ... Prop
7 ... Projection type display device 8 ... Projection lens
9 ... Input terminal 10 ... Operation panel
20 ... Image sensor 21 ... Signal processor
22 ... Imaging control unit 26 ... Image changeover switch
27 ... Processing unit 29 ... Optical system
31 ... Projection lamp 52 ... CPU
53 ... Control unit 100 ... Micro switch
104 ... Main switch S ... Screen

Claims (22)

An imaging device for imaging a subject ;
Image generating means for generating an image based on an input image signal;
A projection illumination device for illuminating and projecting the image generated by the image generation means;
And the object illumination device for illuminating the object,
Selection means for selecting any one of the first image signal output from the imaging device and the second image signal input from the outside and outputting the selected image signal to the image generation means;
Command means for instructing to select one of the first image signal and the second image signal;
An image input / output device comprising: control means for lighting the subject illumination device when the command means instructs to select the first image signal. The image input / output device according to claim 1.
Determining means for determining completion of lighting of the subject lighting device;
The image input / output apparatus, wherein the control means prohibits image generation of the image generation means based on the first image signal until the determination means determines that the lighting of the subject lighting device is completed. The image input / output device according to claim 1.
Determining means for determining completion of lighting of the subject lighting device;
The image input / output apparatus, wherein the control means drives the selection means to select the first image signal after the determination means determines that the lighting of the subject illumination device is completed. An imaging device for imaging a subject ;
Image generating means for generating an image based on an input image signal;
A projection illumination device for illuminating and projecting the image generated by the image generation means;
And the object illumination device for illuminating the object,
Selection means for selecting any one of the first image signal output from the imaging device and the second image signal input from the outside and outputting the selected image signal to the image generation means;
Command means for instructing to select one of the first image signal and the second image signal;
An image input / output apparatus comprising: control means for turning off the subject illumination device based on a selection command for the second image signal commanded by the command means. The image input / output device according to claim 4.
The image input / output apparatus, wherein the control means turns off the subject illumination device after the selection means selects and inputs the second image signal. An imaging device for imaging a subject and outputting an image signal;
And the object illumination device for illuminating the object,
Selecting means for selecting and outputting either the first image signal output from the imaging device or the second image signal input from the outside;
Command means for instructing to select one of the first image signal and the second image signal;
A material presentation device comprising: control means for lighting the subject illumination device when the command means instructs to select the first image signal. The material presentation device according to claim 6,
Determining means for determining completion of lighting of the subject lighting device;
The material presentation device, wherein the control unit prohibits the output of the first image signal until the determination unit determines that the lighting of the subject lighting device is completed. The material presentation device according to claim 6,
Determining means for determining completion of lighting of the subject lighting device;
The material presenting apparatus, wherein the control means drives the selection means so as to select the first image signal after the judgment means judges completion of lighting of the subject lighting device. An imaging device for imaging a subject and outputting an image signal;
And the object illumination device for illuminating the object,
Selecting means for selecting and outputting either the first image signal output from the imaging device or the second image signal input from the outside;
Command means for instructing to select one of the first image signal and the second image signal;
A material presentation device comprising: control means for turning off the subject illumination device based on a selection command for the second image signal commanded by the command means. In the data presentation device according to claim 9,
The material presentation device, wherein the control means turns off the subject illumination device after the selection means selects and inputs the second image signal. An imaging device for imaging a subject ;
Image generating means for generating an image based on an input image signal;
A projection illumination device for illuminating and projecting the image generated by the image generation means;
And the object illumination device for illuminating the object,
Selection means for selecting any one of the first image signal output from the imaging device and the second image signal input from the outside and outputting the selected image signal to the image generation means;
Command means for commanding lighting of the subject illumination device;
An image input / output apparatus comprising: control means for driving the selection means so as to select the first image signal based on a lighting command for the subject lighting device commanded by the command means. The image input / output device according to claim 11.
Determining means for determining completion of lighting of the subject lighting device;
The image input / output apparatus, wherein the control means prohibits image generation of the image generation means based on the first image signal until the determination means determines completion of lighting of the subject illumination device. The image input / output device according to claim 11.
Determining means for determining completion of lighting of the subject lighting device;
The image input / output apparatus, wherein the control means drives the selection means so as to select the first image signal after the determination means determines that the lighting of the subject illumination device is completed. An imaging device for imaging a subject ;
Image generating means for generating an image based on an input image signal;
A projection illumination device for illuminating and projecting the image generated by the image generation means;
And the object illumination device for illuminating the object,
Selection means for selecting any one of the first image signal output from the imaging device and the second image signal input from the outside and outputting the selected image signal to the image generation means;
Command means for commanding the subject illumination device to turn off;
An image input / output apparatus comprising: control means for driving the selection means so as to select the second image signal based on a turn-off command for the subject illumination device instructed by the command means. The image input / output device according to claim 14.
The image input / output apparatus, wherein the control means turns off the subject illumination device after the selection means selects and inputs the second image signal. An imaging device for imaging a subject and outputting an image signal;
And the object illumination device for illuminating the object,
Selecting means for selecting and outputting either the first image signal output from the imaging device or the second image signal input from the outside;
Command means for commanding lighting of the subject illumination device;
A material presentation apparatus comprising: a control unit that drives the selection unit to select the first image signal based on a lighting command of the subject lighting device commanded by the command unit. The material presentation device according to claim 16,
Determining means for determining completion of lighting of the subject lighting device;
The control unit prohibits the output of the first image signal until the determination unit determines that the lighting of the subject lighting device is completed. The material presentation device according to claim 16,
Determining means for determining completion of lighting of the subject lighting device;
The material presenting apparatus, wherein the control unit drives the selection unit to select the first image signal after the determination unit determines that the lighting of the subject lighting device is completed. An imaging device for imaging a subject and outputting an image signal;
And the object illumination device for illuminating the object,
Selecting means for selecting and outputting either the first image signal output from the imaging device or the second image signal input from the outside;
Command means for commanding the subject illumination device to turn off;
A material presentation device comprising: a control unit that drives the selection unit to select the second image signal based on a turn-off command of the subject lighting device commanded by the command unit. The material presentation device according to claim 19,
The material presentation device, wherein the control means turns off the subject illumination device after the selection means selects the second image signal. An imaging device for imaging a subject ;
Image generating means for generating an image based on an input image signal;
A projection illumination device for illuminating and projecting the image generated by the image generation means;
And the object illumination device for illuminating the object,
A mounting portion to which an external storage medium is mounted;
Selecting means for selecting any one of a first image signal output from the imaging device and a second image signal input from an external storage medium attached to the attachment unit, and outputting the selected image signal to the image generation means;
Detecting means for detecting that the external storage medium is attached to the attachment unit;
An image input / output apparatus comprising: control means for turning off the subject illumination device when the detection means detects attachment of the external storage medium. An imaging device for imaging a subject and outputting an image signal;
And the object illumination device for illuminating the object,
A mounting portion to which an external storage medium is mounted;
Selecting means for selecting and outputting either the first image signal output from the imaging device or the second image signal input from the attached external storage medium;
Detecting means for detecting that the external storage medium is attached to the attachment unit;
A material presentation apparatus comprising: a control unit that turns off the subject illumination device when the detection unit detects attachment of the external storage medium.

Images