JP3738698B2 - Projector and audio output method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a technique for outputting sound from a stereo speaker built in a projector.
[0002]
[Prior art]
Projectors that project images onto a screen or the like can be used in home theaters and the like, and have been rapidly spreading in recent years.
[0003]
Projectors are usually used on a desk. Here, the desktop placement is a form in which a projector is placed on a desk or the like and an image is projected from the front of the screen. For this reason, the left and right sides of the projector are set such that when the projector is used on a desk, the right side is set to the right and the left side is set to the left when facing the screen. In general, a viewer views an image displayed on the screen in front of the screen. Therefore, since the projector and the viewer are both in the same direction, the left and right sides of the projector are the same as those of the viewer as viewed from the viewer. Therefore, even if the projector projects the image directly on the screen, the viewer can see a correct image as the image displayed on the screen.
[0004]
On the other hand, as a usage form of the projector, two types of ceiling projection (ceiling) and rear projection are known in addition to the above-described desktop placement. Among them, the ceiling mount is a form in which the projector is hung upside down from the ceiling, etc., and the image is projected from the front of the screen, and the rear projection is the image placed from the back of the screen with the projector placed behind the screen. It is a form to use by projecting.
[0005]
When the projector is used on the ceiling, since the projector is arranged upside down, the projector is upside down and left and right as viewed from the viewer. Therefore, when the projector projects the image as it is on the screen, an image that is vertically and horizontally reversed when viewed from the viewer is displayed. Further, when the projector is used for rear projection, the projector is disposed behind the screen, so that the projector is opposite to the left and right when viewed from the viewer in front of the screen. Therefore, in this case, if the projector projects the image directly onto the screen, an image that is reversed left and right as viewed from the viewer is displayed.
[0006]
Therefore, when using the projector on a ceiling, the projector projects an image that is vertically and horizontally reversed with respect to the original image. When using the rear projection, the projector projects left and right images with respect to the original image. An image with only the image inverted is projected. In this way, even when the projector is used for ceiling or rear projection, the viewer can see the original correct image as the image displayed on the screen.
[0007]
In the case of the ceiling suspension, the projector is suspended in the upside down state instead of being suspended in the normal state for the following reason. That is, since the projector is usually designed in a tilted manner (designed so that an image is projected above the bottom of the projector when the projector is used on a desk), the projector is hung up and down in a normal state. When the bottom surface of the projector and the ceiling surface are not so far apart, a part of the projected image is blocked by the ceiling surface, and a normal image is not projected on the screen.
[0008]
Incidentally, the projector can not only project an image but also output sound, and for that purpose, a projector is incorporated. In recent years, stereo speakers are often used in order to make the speakers more realistic. Such stereo speakers are attached to the inside or outside of the projector housing so that the right channel speaker is on the right side of the projector and the left channel speaker is on the left side.
[0009]
Therefore, when the projector is used on a desk, as described above, since the left and right sides of the projector coincide with those of the viewer when viewed from the viewer, the right channel speaker is arranged on the right side when viewed from the viewer. The left channel speaker is arranged on the left side. Therefore, for the viewer, the sound that should be heard from the right side (sound on the right channel) is heard from the speaker arranged on the right side, and the sound that should be heard from the left side (sound on the left channel) is It will be heard from the speaker arranged on the left side, and there is no problem.
[0010]
[Problems to be solved by the invention]
However, when the projector is used for ceiling or rear projection, as described above, since the projector is at least left and right reversed when viewed from the viewer, the right channel speaker is arranged on the left side when viewed from the viewer. The left channel speaker is arranged on the right side. Therefore, for the viewer, the sound that should be heard from the right side (sound on the right channel) can be heard from the speaker arranged on the left side, and the sound that should be heard from the left side (sound on the left channel). ) Is heard from the speaker arranged on the right side, and the sound is reversed left and right with respect to the image, so that there is a problem of feeling very uncomfortable.
[0011]
Therefore, the object of the present invention is to solve the above-mentioned problems of the prior art, and even when used in a ceiling or rear projection, the right channel sound is heard from the speaker arranged on the right side when viewed from the viewer, The purpose is to provide a projector in which the sound of the channel can be heard from a speaker arranged on the left side when viewed from the viewer.
[0012]
[Means for solving the problems and their functions and effects]
In order to achieve at least a part of the above object, a projector according to the present invention is a projector capable of projecting an image,
A stereo speaker attached to the inside or outside of the projector and having a right channel speaker and a left channel speaker;
A right channel audio signal and a left channel audio signal obtained from a stereo audio signal source are input, and output destinations of these audio signals are selectively switched. In the first switching state, the right channel audio signal is changed to the right channel. The left channel audio signal is output to the left channel speaker, and in the second switching state, the right channel audio signal is output to the left channel speaker, and the left channel audio signal is output to the right channel speaker. An audio signal switching unit to output each;
An image processing system capable of selectively switching and projecting a normal image as the image and a reversed image obtained by inverting the right and left of the normal image;
When the audio signal switching unit is controlled so that the image processing system projects the normal image, the audio signal switching unit is set to the first switching state, and the image processing system projects the inverted image. In this case, a control unit that sets the audio signal switching unit to the second switching state;
It is a summary to provide.
[0013]
As described above, in the projector of the present invention, the audio signal switching unit selectively switches the output destination of the right channel audio signal and the left channel audio signal, and in the first switching state, the right channel audio signal is transmitted to the right channel speaker. The left channel audio signal is output to the left channel speaker, and the right channel audio signal is output to the left channel speaker and the left channel audio signal is output to the right channel speaker in the second switching state. .
[0018]
With this configuration, even when the projector is used for rear projection and is reversed from the left and right when viewed from the viewer, it is possible to project a reversed image with the left and right reversed. A normal image can be displayed. In addition, when the inverted image is projected, the audio signal switching unit is set to the second switching state, so that the audio is also horizontally reversed, and the audio is not reversed horizontally with respect to the image. There is no sense of incongruity.
[0019]
The projector of the present invention is a projector capable of projecting an image,
A stereo speaker attached to the inside or outside of the projector and having a right channel speaker and a left channel speaker;
A right channel audio signal and a left channel audio signal obtained from a stereo audio signal source are input, and output destinations of these audio signals are selectively switched. In the first switching state, the right channel audio signal is changed to the right channel. The left channel audio signal is output to the left channel speaker, and in the second switching state, the right channel audio signal is output to the left channel speaker, and the left channel audio signal is output to the right channel speaker. An audio signal switching unit to output each;
An image processing system capable of selectively switching and projecting a normal image and an inverted image obtained by inverting the normal image as the image;
When the audio signal switching unit is controlled so that the image processing system projects the normal image, the audio signal switching unit is set to the first switching state, and the image processing system projects the inverted image. Also in this case, a control unit that sets the audio signal switching unit to the first switching state;
It is a summary to provide.
[0020]
For example, when the projector is used for ceiling and rear projection, the projector is upside down as viewed from the viewer, but is not upside down. Therefore, in this case, it is not necessary to project an image that is inverted only up and down and to reverse the sound left and right. Therefore, by adopting the above-described configuration, even when the projector is used for ceiling and rear projection, a normal image can be displayed when viewed from the viewer, and the audio signal switching unit is provided in the first manner. Therefore, the sound is not reversed left and right, and the left and right of the image and the sound coincide with each other, and the viewer does not feel uncomfortable.
[0026]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described based on examples. Such description will be made in the order of the following items.
A. Projector configuration:
B. Projector operation:
B-1. Operation on the desk:
B-2. Operation on the ceiling:
B-3. Operation in rear projection:
B-4. Operation in ceiling / rear projection:
C. Variations:
C-1. Modification 1:
C-2. Modification 2:
C-3. Modification 3:
C-4. Modification 4:
C-5. Modification 5:
[0027]
A. Projector configuration:
FIG. 1 is a block diagram showing a configuration of a projector as an embodiment of the present invention.
[0028]
As shown in FIG. 1, the projector 100 according to the present embodiment is roughly divided into a voice processing system, an image processing system, and an operation / control system. Audio input terminals Rin and Lin for inputting an audio signal, analog switches 102 and 104 for switching the output destination of the audio signal, which is a characteristic part of the present invention, and an amplifier 106 for amplifying the audio signal, 108, 110 and 112, stereo speakers RSP and LSP which are built-in speakers, and audio output terminals Rout and Lout for outputting audio signals to the outside.
[0029]
Note that the stereo speakers RSP and LSP which are built-in speakers are attached to the inside of the casing of the projector 100, but may be attached to the outside of the casing.
[0030]
The image processing system includes an illumination optical system 132 for outputting illumination light, a liquid crystal light valve 134 for forming image light, a projection optical system 136 for projecting image light, and an image signal from the outside. An image input terminal Vin for inputting the image signal, an image processing unit 140 for processing the image signal, and a liquid crystal drive circuit 142 for driving the liquid crystal light valve 134 based on the processed image signal. Yes.
[0031]
The operation / control system includes a microcomputer unit (hereinafter abbreviated as MCU) 130 for controlling the analog switches 102 and 104, the liquid crystal light valve 134, and the like, and a remote controller (hereinafter referred to as a projector) for operating the projector from the outside. And a remote control signal processing unit 128 that processes a signal from the remote control 126 and transmits it to the MCU 130.
[0032]
B. Projector operation:
As described above, since there are three usage modes of the projector, desktop mounting, ceiling (ceiling), and rear projection, the operation of the projector 100 of this embodiment in each usage mode will be described below.
[0033]
B-1. Operation on the desk:
FIG. 2 is an explanatory diagram for explaining how to output sound when the projector 100 of FIG. 1 is used on a desk.
[0034]
When used on a desk, the installer first places the projector 100 on a desk (not shown) as shown in FIG. 2, and connects, for example, a DVD player 200 as an image / audio signal source to the outside. To do. Then, when the operator operates the remote controller 126 to instruct “desktop mode”, the instruction is transmitted from the remote controller 126 to the remote control signal processing unit 128 as a remote control signal. The remote control signal processing unit 128 analyzes the transmitted remote control signal and outputs the instruction content to the MCU 130. When the MCU 130 recognizes that the “desktop mode” has been selected from the input instruction content, the MCU 130 instructs the liquid crystal drive circuit 142 to perform “normal display” and both the analog switches 102 and 104 are on the a side. Control to switch to.
[0035]
Thereafter, when playback on the DVD player 200 is started, an image signal is input from the DVD player 200 to the image input terminal Vin of the projector 100, and a right channel audio signal is input to the right channel audio input terminal Rin. The left channel audio signal is input to the left channel audio input terminal Lin.
[0036]
The input image signal is subjected to predetermined processing by the image processing unit 140 and then input to the liquid crystal driving circuit 142. The liquid crystal drive circuit 142 drives the liquid crystal light valve 134 based on the input image signal. At this time, the liquid crystal driving circuit 142 drives the liquid crystal light valve 134 so that a normal image is projected in accordance with the above-described “normal display” instruction from the MCU 130.
[0037]
Since the liquid crystal light valve 134 is illuminated almost uniformly by the illumination optical system 132, when driven as described above, image light is formed by the drive, and the formed image light is projected by the projection optical system 136. The image is projected on the screen, and a normal image is displayed on the screen as shown in FIG.
[0038]
On the other hand, since the analog switches 102 and 104 are all switched to the a side by the control of the MCU 130 described above, the right channel audio signal input from the audio input terminal Rin passes through the analog switch 102 and passes through the amplifier 106. To the right channel speaker RSP. The left channel audio signal input from the audio input terminal Lin passes through the analog switch 104 and is input to the left channel speaker LSP via the amplifier 108. Therefore, as shown in FIG. 2, right channel sound is output from the right channel speaker RSP, and left channel sound is output from the left channel speaker LSP.
[0039]
In FIG. 2, nothing is connected to the audio output terminals Rout and Lout, but as an external stereo speaker, the right channel audio output terminal Rout is connected to the external right channel speaker, and the left channel audio output terminal Lout. If an external left channel speaker is connected to each other, the right channel audio signal input from the audio input terminal Rin is output from the right channel audio output terminal Rout via the amplifier 110 to the external right The left channel audio signal input to the channel speaker and input from the audio input terminal Lin is output from the left channel audio output terminal Lout via the amplifier 112 and input to the external left channel speaker. As a result, the right channel sound is also output from the external right channel speaker, and the left channel sound is also output from the external left channel speaker.
[0040]
B-2. Operation on the ceiling:
FIG. 3 is an explanatory diagram for explaining a sound output method when the projector 100 of FIG. 1 is used for the ceiling.
[0041]
In the case of using the ceiling, first, as shown in FIG. 3, the installer installs the projector 100 so that the projector 100 is turned upside down and suspended from the ceiling (not shown) or the like. For example, a DVD player 200 is connected as a signal source. Then, when the operator operates the remote controller 126 to instruct the “ceiling mode (ceiling) mode”, the instruction is transmitted to the remote control signal processing unit 128 as a remote control signal, and the remote control signal processing unit 128 The remote control signal is analyzed and the instruction content is output to the MCU 130. When the MCU 130 recognizes that the “Ceiling Mode” has been selected from the input instruction content, the MCU 130 instructs the liquid crystal drive circuit 142 to “invert vertically / invert horizontally” and to the analog switches 102 and 104. In either case, control is performed so as to switch to the b side.
[0042]
When playback on the DVD player 200 is started, an image signal is input from the DVD player 200 to the image input terminal Vin of the projector 100 as well as in the “desktop mode”, and the right channel is also displayed. The right channel audio signal is input to the audio input terminal Rin, and the left channel audio signal is input to the audio input terminal Lin of the left channel.
[0043]
The input image signal is input to the liquid crystal driving circuit 142 via the image processing unit 140, and the liquid crystal driving circuit 142 drives the liquid crystal light valve 134 based on the image signal. At this time, the liquid crystal drive circuit 142 follows the instruction of “upside down / horizontal inversion display” input from the MCU 130 so that an image that is vertically and horizontally reversed relative to a normal image is projected. The valve 134 is driven.
[0044]
As a result, when the image light formed by the liquid crystal light valve 134 is projected onto the screen, as shown in FIG. 3, the image is inverted vertically and horizontally as viewed from the projector 100 suspended from the ceiling. However, when viewed from the viewer, a normal image is displayed on the screen.
[0045]
On the other hand, since the analog switches 102 and 104 are both switched to the b side opposite to the “desktop mode” by the control of the MCU 130 described above, the right channel audio input from the audio input terminal Rin. This time, the signal passes through the analog switch 104 and is input to the left channel speaker LSP via the amplifier 108. Further, the left channel audio signal input from the audio input terminal Lin passes through the analog switch 102 and is input to the right channel speaker RSP via the amplifier 106. Therefore, in the “Ceiling Mode”, as shown in FIG. 3, the left channel sound is output from the right channel speaker RSP, and the right channel sound is output from the left channel speaker LSP.
[0046]
At this time, as described above, the projector 100 is suspended upside down from the ceiling. Therefore, when viewed from the viewer, the projector 100 is upside down and left and right, and the right channel speaker RSP is viewed from the viewer. The left channel speaker LSP is arranged on the right side. Therefore, for the viewer, the sound that should be heard from the right side (sound on the right channel) is heard from the speaker LSP arranged on the right side, and the sound that should be heard from the left side (sound on the left channel). Can be heard from the speaker RSP arranged on the left side. Therefore, since the sound is not reversed left and right with respect to the image, the viewer can hear the sound without feeling uncomfortable.
[0047]
In FIG. 3, nothing is connected to the audio output terminals Rout and Lout. However, as an external stereo speaker, an external right channel speaker is connected to the right channel audio output terminal Rout and an audio output is output from the left channel. Even if an external left channel speaker is connected to the terminal Lout, the right channel audio signal input from the audio input terminal Rin is transmitted to the right via the amplifier 110 as in the “desktop mode”. The left channel audio signal output from the audio output terminal Rout of the channel and input to the external right channel speaker and input from the audio input terminal Lin is output from the audio output terminal Lout of the left channel via the amplifier 112. , Input to the external left channel speaker. As a result, the right channel sound is output from the external right channel speaker, and the left channel sound is output from the external left channel speaker.
[0048]
Since the external stereo speaker is separate from the projector 100, it can be arranged regardless of the arrangement state of the projector. Therefore, even if the projector 100 is hung upside down from the ceiling and the top and bottom and the left and right are reversed, the external stereo speaker is arranged so that its left and right coincide with the left and right of the viewer, that is, the external right channel. The speaker can be arranged on the right side when viewed from the viewer, and the external left channel speaker can be arranged on the left side when viewed from the viewer.
[0049]
Therefore, even when such an external stereo speaker is installed, for the viewer, the right channel sound is placed on the right side from the external right channel speaker, and the left channel sound is placed on the left side. The viewer can hear the sound from the external left channel speaker, and the viewer can hear the sound without any problem without being reversed left and right with respect to the sound from the image and the built-in stereo speaker.
[0050]
B-3. Operation in rear projection:
FIG. 4 is an explanatory diagram for explaining a sound output method when the projector 100 of FIG. 1 is used for rear projection.
[0051]
When used in rear projection, the installer first places the projector 100 behind the transmissive screen 300 as shown in FIG. 4, and as an image / audio signal source outside the projector 100, for example, a DVD player. 200 is connected. Then, when the operator operates the remote controller 126 to instruct “rear projection mode”, the instruction is transmitted to the remote control signal processing unit 128, and the remote control signal processing unit 128 transmits the instruction content to the MCU 130. . When the MCU 130 recognizes that the “rear projection mode” has been selected from the instruction content, the MCU 130 instructs the liquid crystal drive circuit 142 to perform “left-right reverse display” and also instructs the analog switches 102 and 104 to “the ceiling mode”. As in the case of, control is performed so that both switch to the b side.
[0052]
When reproduction on the DVD player 200 is started, an image signal is input to the image input terminal Vin of the projector 100, a right channel audio signal is input to the right channel audio input terminal Rin, and an audio input terminal Lin is input to the left channel. The left channel audio signal is input respectively.
[0053]
The input image signal is input to the liquid crystal driving circuit 142 via the image processing unit 140, and the liquid crystal driving circuit 142 drives the liquid crystal light valve 134 based on the image signal. At this time, the liquid crystal driving circuit 142 drives the liquid crystal light valve 134 so as to project an image that is reversed only to the left and right with respect to a normal image in accordance with the “horizontal display” instruction input from the MCU 130.
[0054]
As a result, when the image light formed by the liquid crystal light valve 134 is projected onto the transmissive screen 300, the image is an image that is reversed left and right when viewed from the projector 100 disposed behind the transmissive screen 300. When viewed from the viewer in front of the mold screen 300, a normal image is displayed on the transmissive screen 300 as shown in FIG.
[0055]
On the other hand, since the analog switches 102 and 104 are both switched to the b side by the control of the MCU 130 described above, the right channel audio signal input from the audio input terminal Rin is the same as in the “ceiling mode”. Is input from the analog switch 104 to the left channel speaker LSP via the amplifier 108. Also, the left channel audio signal input from the audio input terminal Lin is input from the analog switch 102 to the right channel speaker RSP via the amplifier 106. Therefore, in the “rear projection mode”, as in the “ceiling mode”, the right channel speaker RSP outputs the left channel sound and the left channel speaker LSP as shown in FIG. The right channel sound is output.
[0056]
As described above, since the projector 100 is behind the transmissive screen 300, the left and right sides are reversed when viewed from the viewer in front of the transmissive screen 300. Therefore, the right channel speaker RSP is viewed from the viewer. The left channel speaker LSP is arranged on the right side. Therefore, by outputting the sound as described above, for the viewer, the sound that should be heard from the right side (sound on the right channel) is heard from the speaker LSP arranged on the right side with respect to the image being viewed. The sound to be heard from the left side (left channel sound) is heard from the speaker RSP disposed on the left side. Therefore, in this case as well, the sound is not reversed left and right with respect to the image, and the viewer can hear the sound without feeling uncomfortable.
[0057]
Also, in FIG. 4, nothing is connected to the audio output terminals Rout and Lout, but it is assumed that an external right channel speaker is connected to the right channel audio output terminal Rout and an external right channel speaker is connected to the left channel audio output terminal Lout. Even if the left channel speaker is connected to each other, the right channel audio signal input from the audio input terminal Rin is passed through the amplifier 110 in the same manner as in the “desktop mode” and the “ceiling mode”. The left channel audio signal output from the right channel audio output terminal Rout, input to the external right channel speaker, and input from the audio input terminal Lin is output from the left channel audio output terminal Lout via the amplifier 112. To the external left channel speaker. As a result, the right channel sound is output from the external right channel speaker, and the left channel sound is output from the external left channel speaker.
[0058]
Even in the “rear projection mode”, since the external stereo speaker is separate from the projector 100, it can be arranged regardless of the arrangement state of the projector. Therefore, by arranging the projector 100 behind the transmissive screen 300, the left and right of the external stereo speaker are aligned with the left and right of the viewer even if the viewer and the left and right are opposite. That is, the external right channel speaker can be disposed on the right side when viewed from the viewer, and the external left channel speaker can be disposed on the left side when viewed from the viewer.
[0059]
Therefore, for the viewer, the right channel sound can be heard from the external right channel speaker arranged on the right side, and the left channel sound can be heard from the external left channel speaker arranged on the left side for the image being viewed. In other words, the viewer can hear the sound without any problem without being reversed left and right with respect to the image and the sound from the built-in stereo speaker.
[0060]
B-4. Operation in ceiling / rear projection:
As described above, there are three types of usage of the projector: desktop placement, ceiling (ceiling), and rear projection. In addition, as a combined usage, the projector is used for ceiling and rear projection. If you want to.
[0061]
When using the ceiling and rear projection, the installer first hangs the projector 100 upside down from the ceiling (not shown) and installs the projector 100 behind the transmissive screen 300. For example, a DVD player 200 is connected to the outside of the projector 100 as an image / audio signal source. After that, when the operator operates the remote control 126 to instruct the “ceiling / rear projection mode”, the instruction is transmitted to the remote control signal processing unit 128 as a remote control signal, and the remote control signal processing unit 128 The remote control signal is analyzed and the instruction content is output to the MCU 130. When the MCU 130 recognizes that the “Ceiling / Rear Projection Mode” has been selected from the input instruction content, the MCU 130 instructs the liquid crystal drive circuit 142 to perform “upside down display” and also to the analog switches 102 and 104. In either case, control is performed so as to switch to the a side.
[0062]
When playback on the DVD player 200 is started, an image signal is input from the DVD player 200 to the image input terminal Vin of the projector 100, and a right channel audio signal is input to the right channel audio input terminal Rin. The left channel audio signal is input to the left channel audio input terminal Lin.
[0063]
The input image signal is input to the liquid crystal driving circuit 142 via the image processing unit 140, and the liquid crystal driving circuit 142 drives the liquid crystal light valve 134 based on the image signal. At this time, the liquid crystal drive circuit 142 drives the liquid crystal light valve 134 in accordance with the above-described “upside down display” instruction input from the MCU 130 so that an image that is only vertically inverted with respect to a normal image is projected. .
[0064]
At this time, as described above, the projector 100 is hung upside down from the ceiling and disposed behind the transmissive screen 300, so that only the top and bottom are reversed from the viewpoint of the viewer. Therefore, when the image light formed by the liquid crystal light valve 134 driven as described above is projected onto the screen, the image is inverted upside down when viewed from the projector 100, but is normal when viewed from the viewer. The image is displayed on the screen.
[0065]
On the other hand, since the analog switches 102 and 104 are both switched to the a side as in the “desktop mode” by the control of the MCU 130 described above, the right channel audio signal input from the audio input terminal Rin. Passes through the analog switch 102 and is input to the right channel speaker RSP via the amplifier 106. The left channel audio signal input from the audio input terminal Lin passes through the analog switch 104 and is input to the left channel speaker LSP via the amplifier 108. Accordingly, the right channel speaker RSP outputs a right channel sound, and the left channel speaker LSP outputs a left channel sound.
[0066]
As described above, since the projector 100 is upside down only when viewed from the viewer, the right channel speaker RSP is arranged on the right side when viewed from the viewer, as in the “desktop mode”. The left channel speaker LSP is arranged on the left side. Therefore, for the viewer, the sound that should be heard from the right side (sound on the right channel) is heard from the speaker RSP arranged on the right side, and the sound that should be heard from the left side (sound on the left channel). The sound is heard from the speaker LSP arranged on the left side.
[0067]
If an external stereo speaker is connected to the right channel audio output terminal Rout, an external right channel speaker is connected to the left channel audio output terminal Lout, and an external left channel speaker is connected to the audio input terminal Rin. The input right channel audio signal is output from the right channel audio output terminal Rout via the amplifier 110, input to the external right channel speaker, and the left channel audio signal input from the audio input terminal Lin is the amplifier. The sound is output from the audio output terminal Lout of the left channel via 112 and input to the external left channel speaker. As a result, the right channel sound is also output from the external right channel speaker, and the left channel sound is also output from the external left channel speaker.
[0068]
C. Variations:
The present invention is not limited to the above-described examples and embodiments, and can be implemented in various modes without departing from the scope of the invention.
[0069]
C-1. Modification 1:
In the above-described embodiment, the MCU 130 switches the output destination of the audio signal by controlling the analog switches 102 and 104 in accordance with the mode instruction from the operator. However, the present invention is not limited to this. Alternatively, the analog switches 102 and 104 may be directly switched by the operator operating buttons and knobs provided on the projector 100.
[0070]
C-2. Modification 2:
In the above-described embodiment, in the case of the “ceiling mode”, the MCU 130 recognizes that the “ceiling mode” is selected when the operator instructs the “ceiling mode”. However, the present invention is not limited to this. For example, when the projector 100 is provided upside down by the installer, for example, a gravity sensor or a posture sensor is provided in the projector 100, and this is detected by the sensor. By transmitting this information to the MCU 130, the MCU 130 may recognize that “the ceiling mode” has been selected.
[0071]
C-3. Modification 3:
In the embodiment described above, an analog switch is used as the audio signal switching unit, but a digital switch may be used. Alternatively, not only an electronic switch but also a mechanical switch may be used.
[0072]
C-4. Modification 4:
In the above-described embodiment, the stereo audio signal and the image signal are input from the outside, but the projector 100 itself may include a stereo audio signal source and an image signal source.
[0073]
C-5. Modification 5:
In the above-described embodiment, an image that is vertically inverted or horizontally inverted is generated by changing the driving method by the liquid crystal driving circuit 142. However, such an image is generated by image processing in the image processing unit 140. Alternatively, such an image may be optically formed in the projection optical system 136 or the like.
[0074]
C-6. Modification 6:
In the above-described embodiment, the projector 100 uses the liquid crystal light valve 134 as the electro-optical device. However, instead of this, a micromirror light modulation device, a CRT, or the like may be provided. For example, a DMD (digital micromirror device) (trademark of TI) can be used as the micromirror light modulator.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a projector as an embodiment of the present invention.
FIG. 2 is an explanatory diagram for explaining how to output sound when the projector 100 of FIG. 1 is used on a desk.
FIG. 3 is an explanatory diagram for explaining a method of outputting sound when the projector 100 of FIG. 1 is used for a ceiling.
4 is an explanatory diagram for explaining a method of outputting sound when the projector 100 of FIG. 1 is used for rear projection. FIG.
[Explanation of symbols]
100 ... Projector
102, 104 ... Analog switch
106, 108, 110, 112 ... amplifier
126 ... Remote control
128: Remote control signal processing unit
130 ... MCU
132. Illumination optical system
134 ... Liquid crystal light valve
136 ... Projection optical system
140: Image processing unit
142 ... Liquid crystal drive circuit
200 ... DVD player
300 ... transmission screen
LSP ... Left channel speaker
Lin ... Left channel audio input terminal
Lout ... Left channel audio output terminal
RSP ... Right channel speaker
Rin ... Right channel audio input terminal
Rout ... Right channel audio output terminal
Vin: Image input terminal

Claims (2)

A projector capable of projecting an image,
A stereo speaker attached to the inside or outside of the projector and having a right channel speaker and a left channel speaker;
A right channel audio signal and a left channel audio signal obtained from a stereo audio signal source are input, and output destinations of these audio signals are selectively switched. In the first switching state, the right channel audio signal is changed to the right channel. The left channel audio signal is output to the left channel speaker, and in the second switching state, the right channel audio signal is output to the left channel speaker, and the left channel audio signal is output to the right channel speaker. An audio signal switching unit to output each;
An image processing system capable of selectively switching and projecting a normal image as the image and a reversed image obtained by inverting the right and left of the normal image;
When the audio signal switching unit is controlled so that the image processing system projects the normal image, the audio signal switching unit is set to the first switching state, and the image processing system projects the inverted image. In this case, a control unit that sets the audio signal switching unit to the second switching state;
A projector comprising: A projector capable of projecting an image,
A stereo speaker attached to the inside or outside of the projector and having a right channel speaker and a left channel speaker;
A right channel audio signal and a left channel audio signal obtained from a stereo audio signal source are input, and output destinations of these audio signals are selectively switched. In the first switching state, the right channel audio signal is changed to the right channel. The left channel audio signal is output to the left channel speaker, and in the second switching state, the right channel audio signal is output to the left channel speaker, and the left channel audio signal is output to the right channel speaker. An audio signal switching unit to output each;
An image processing system capable of selectively switching and projecting a normal image and an inverted image obtained by inverting the normal image as the image;
When the audio signal switching unit is controlled so that the image processing system projects the normal image, the audio signal switching unit is set to the first switching state, and the image processing system projects the inverted image. Also in this case, a control unit that sets the audio signal switching unit to the first switching state;
A projector comprising:

Images