JP2014006386A - Projection display apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To improve the operability of a projection display apparatus that is operable through manipulation of both a remote control device using wired communication and a remote control device using wireless communication.SOLUTION: A projection display apparatus includes a reception control unit 8 which is configured such that when a wired remote control 12 has been connected to a connecting part 7 and when in an infrared remote control priority mode (S303), a signal received by an infrared reception sensor 6 from an infrared remote control 11 is accepted (S307) in order to perform operation in accordance with the signal, or the signal is dropped when not in the infrared remote control priority mode.

Description

  The present invention relates to a projection display device.

  Patent Document 1 discloses a system in which first and second remote controllers (hereinafter referred to as “remote controllers”) are attached to one projector. The first remote controller has a wireless / wired communication function and can operate all the functions of the projector, and the second remote controller can operate some functions of the projector.

JP 2010-74607 A

  Patent Document 1 is based on the premise that one of the remote controllers is used, and does not assume a situation where the wireless remote controller is operated when a wired remote controller is connected. If a wired remote control is connected, it will be configured not to accept a signal from an infrared remote control. For example, if only a control signal from a single remote control is accepted, the remote control user will suspect that the remote control will be faulty and will experience a decrease in operability. . On the other hand, if signals from all remote controllers are received, the maintenance staff who maintains multiple projectors in the same room will operate the wireless remote controller and the adjusted projector settings will be changed unintentionally. Will also occur, and feel the operability will decrease as well.

  It is an exemplary object of the present invention to provide a projection display device that is excellent in operability in a projection display device that can be operated by both a remote operation device using wired communication and a remote operation device using wireless communication. .

  The projection type display device of the present invention is a projection type display device that can operate by operating both the first remote control device by wired communication and the second remote control device by wireless communication, and projects an image. A first receiving means connected to the first remote control device for receiving a first signal from the first remote control device, and a second signal wirelessly received from the second remote control device When the first receiving means is connected to the second receiving means and the first remote control device, when a predetermined condition is satisfied, the second remote control device sends the second remote control device to the second remote control device. The second receiving unit receives the second signal received for performing an operation according to the second signal. However, if the predetermined condition is not satisfied, the second receiving unit receives the second signal received by the second receiving unit. Receiving control means for discarding And features.

  According to the present invention, it is possible to improve operability in a projection display device that can operate by operating both a remote operation device using wired communication and a remote operation device using wireless communication.

It is a block diagram of the projection type display apparatus of this embodiment. 2 is a flowchart for explaining the operation of the projection display device shown in FIG. 1. It is a flowchart which shows an example of S20 shown in FIG. It is a flowchart which shows an example of S30 shown in FIG. It is a flowchart which shows another example of S20 shown in FIG. It is a flowchart which shows the process which determines the usage condition which is this embodiment.

  FIG. 1 is a block diagram of a projector 1 according to this embodiment. The projector 1 can be operated by operating both the wired remote controller 12 and the infrared remote controller 11, and projects an image onto a projection surface (such as a screen) (not shown).

  The projector 1 includes a video signal processing circuit 2, a panel drive circuit 3, a liquid crystal panel 4, a lens drive circuit 5, an infrared light receiving sensor 6, a connection unit 7, a reception control unit 8, an MPU 9, a mode setting means 10, an operation panel 13, and a connection. A detection unit 14 is included.

  The input video signal is subjected to luminance / color signal processing such as gain, offset, and color adjustment, resolution conversion, frame rate conversion, image processing such as keystone, and the like in the video signal processing circuit 2. Thereafter, the signal is converted into a signal form suitable for the specification of the display panel 4 by the panel drive circuit 3 and displayed. The image displayed on the display panel 4 is enlarged and projected onto a screen or the like by an illumination optical system (not shown). The lens drive circuit 5 performs zoom, focus, and shift drive of a projection optical system including a movable lens for enlarged projection.

  The infrared light receiving sensor 6 is a sensor (second receiving means) that wirelessly receives a signal (second signal) from the infrared remote controller 11. In the present embodiment, an infrared remote controller is cited as an example of the second remote control device using wireless communication, but the medium is not particularly limited, such as radio waves and light.

  The connection unit 7 is connected to a wired remote controller 12 (first remote operation device by wired communication) or a connector of a cable connected thereto, and receives a signal (first signal) from the wired remote controller 12 (first signal). Receiving means).

  The reception control unit 8 has a function as a reception control unit (to be described later) that accepts or discards signals received by the infrared light receiving sensor 6 and the connection unit 7 in order to perform an operation in accordance therewith. The reception control unit 8 may be integrated with the MPU 9 (part of the MPU 9).

  In response to a request from the operation panel 13 or the reception control unit 8, the MPU 9 changes a process related to video to the video signal processing circuit 2 or issues a lens driving command to the lens driving circuit 5 (micro). Computer). In addition, the MPU 9 also functions as a reception control unit in order to control the operation of receiving or discarding signals by the reception control unit 8.

  The mode setting means 10 sets two modes for the reception control unit 8 in accordance with a user operation (or automatically as described later), and notifies the set mode to the MPU 9. In the present embodiment, the mode setting means 10 includes an installation mode (first mode) used for installation or maintenance inspection of the projector 1 and a normal mode used for other than installation and maintenance inspection of the projector 1. (Second mode) is set. The installation mode (maintenance mode) is used by a maintenance person, and the normal mode is used by a normal user who projects an image. However, the mode setting means 10 is not essential. The MPU 9 sends a command to the reception control unit 8 along the processing flow shown below according to the mode selected by the mode setting means 10.

  The operation panel 13 allows the user to make various settings (for example, setting of zoom, focus, and lens shift of the projection lens, and display of the internal test pattern in the setting mode). The operation panel 13 has a display unit and performs various displays.

  The connection detection unit 14 detects whether the wired remote controller 12 is connected to the connection unit 7, and sends the detection result to the reception control unit 8.

  FIG. 2 shows a flow when the MPU 9 sends a command to the reception control unit 8. “S” is an abbreviation of “step (process)”, and this is the same in other drawings. First, when the power is turned on, the reset of the MPU 9 is released and activated (S10), information on the current mode is acquired from the mode setting means 10 (S11), and the mode is determined (S12). If it is the installation mode, the flow moves to S20, and if it is the normal mode, the flow moves to S30.

  FIG. 3 is a flowchart illustrating an example of the process of S20 performed by the reception control unit 8.

  First, the reception control unit 8 determines whether the wired remote controller 12 is connected to the connection unit 7 based on the detection result from the connection detection unit 14 (S21). If the wired remote controller 12 is not connected to the connection unit 7 (NO in S21), the flow proceeds to S30 (arrow from S20 to S30 in FIG. 2). On the other hand, if the wired remote controller 12 is connected to the connection unit 7 (YES in S21), the reception control unit 8 determines whether a remote control signal has been received (S22). Reception of the remote control signal may be wired or wireless. The reception control unit 8 waits until a remote control signal is received (NO in S22).

  When the remote control signal is received (YES in S22), the reception control unit 8 determines the type of the remote control signal (S23). If the remote control signal is the second signal from the infrared remote controller 11 (NO in S23), the reception control unit 8 discards it (S26). On the other hand, if the remote control signal is the first signal from the wired remote control 12 (YES in S23), the reception control unit 8 analyzes this (S24) and executes the corresponding operation (command) (S25). . Thereafter, the flow returns to S21. In S24, a header signal and a predetermined vendor code are identified from the remote control signal, and an analysis is performed as to whether or not the command is addressed to itself. S25 may be performed by the reception control unit 8, or the reception control unit 8 may notify the MPU 9 of the result and may be executed by the MPU 9.

  FIG. 4 is a flowchart illustrating an example of the process of S30 performed by the reception control unit 8.

  First, the reception control unit 8 determines whether or not a remote control signal has been received (S31). Reception of the remote control signal may be wired or wireless. The reception control unit 8 waits until a remote control signal is received (NO in S31).

  When the remote control signal is received (YES in S31), the reception control unit 8 determines the type of the remote control signal (S32). If the remote control signal is the second signal from the infrared remote controller 11 (NO in S32), the reception control unit 8 determines whether the infrared remote control priority mode is set in the reception control unit 8 (or MPU 9). (S33).

  If not set (NO in S33), the reception control unit 8 determines whether or not the wired remote controller 12 is connected to the connection unit 7 based on the detection result from the connection detection unit 14 (S34). If the wired remote controller 12 is connected to the connection unit 7 (YES in S34), the reception control unit 8 notifies the MPU 9 of that fact. In response to this, the MPU 9 displays a message asking whether to accept the signal from the infrared remote controller 11 although the wired remote controller 12 is connected to the display unit of the operation panel 13 (S35). Instead of displaying a message, a lamp may be turned on (flashing) or a voice message may be emitted. This message reminds the user that the wired remote controller 12 is connected, and can stop using the infrared remote controller 11 if the user feels that the operation is not desirable.

  In response to this, the user operates the infrared remote controller 11 to input whether to accept a signal from the infrared remote controller 11 (OK) or discard the signal from the infrared remote controller 11 (NO). The user may perform this input by operating the operation panel 13 or may be performed through the wired remote controller 12 (YES in S32).

  When receiving the command for accepting the second signal from the infrared remote controller 11 (YES in S36), the reception control unit 8 sets an infrared remote control priority mode flag in the internal memory of the reception control unit 8 (or MPU 9) (S37). . As a result, the infrared remote controller priority mode is set. On the other hand, when receiving the instruction to discard the second signal from the infrared remote controller 11 (NO in S36), the reception control unit 8 discards the second signal (S38), and the flow returns to S31.

  When the remote control signal is the first signal from the wired remote controller 12 (NO in S32), the infrared remote controller priority mode is set (YES in S33), or after S37, The second signal is analyzed (S39). In S39, a header signal or a predetermined vendor code is identified from the remote control signal, and an analysis is performed as to whether or not the instruction is for itself. Thereafter, the reception control unit 8 or the MPU 9 executes a corresponding operation (command) (S40), and the flow returns to S31.

  According to the present embodiment, in the installation mode, if the wired remote control 12 is not connected to the connection unit 7, the mode is switched to the normal mode, and if the wired remote control 12 is connected to the connection unit 7, the infrared remote control 11 is used. Can not do it. Wired remote controls are often used for projector installation and maintenance. For this reason, it is possible to avoid the problem that the setting of the adjusted projector is unintentionally changed when a maintenance person who maintains and inspects a plurality of projectors in the same room operates the wireless remote controller.

  On the other hand, in the normal mode, if the wired remote controller 12 is not connected to the connection unit 7, since the infrared remote controller priority mode is set from NO to S37 in S34, the second signal from the infrared remote controller is always accepted and Followed action. Further, if the wired remote controller 12 is connected to the connection unit 7 and a predetermined condition is satisfied, the infrared remote controller 11 is enabled, and the second signal is received and an operation according to the second signal is performed. If not satisfied, the second signal is discarded. That is, the user can disable the infrared remote controller 11 if he / she remembers that the wired remote controller 12 is connected and wants to enable only the wired remote controller 12. Thereby, the operability in the normal mode can be improved.

  Whether the predetermined condition includes that the normal mode is set by the mode setting means 10 is optional. This is because, when the wired remote controller 12 is connected to the connection unit 7, if the predetermined condition is satisfied, the infrared remote controller 11 can be validated and the operability is improved.

  FIG. 5 is a flowchart showing another example of S20 shown in FIG. 2, and the same steps as those in FIG. In FIG. 5, when the remote control signal is the second signal from the infrared remote controller 11 (NO in S23), the reception control unit 8 does not immediately discard it but analyzes it (S27), It is determined whether it is a command (S28). If it is a predetermined command (YES in S28), the reception control unit 8 discards the remote control signal (S26), and if it is not a predetermined command (NO in S28), the reception control unit 8 or the CPU 9 executes the command (S28). S29). The predetermined commands are, for example, items relating to color adjustment, lens driving, and edge blend adjustment, and are command groups of items that are not preferably changed from others after installation is completed once at the time of installation. Thereby, it is possible to prevent the setting by the maintenance person from being changed unintentionally. Note that the edge blend adjustment is a technique in which the video signal is digitally graded to make the overlapping region uniform.

  The installation mode and the normal mode may be automatically set. For example, FIG. 6 is a flowchart showing an example. When the power is turned on (S50), the reset of the MPU 9 is released and the MPU 9 is activated (S51), and the MPU 9 acquires information about whether the wired remote controller 12 is connected from the reception control unit 8 (S52). When the wired remote controller 12 is connected (YES at S52), the MPU 9 sets the installation mode via the mode setting means 10, and when the infrared remote controller 11 is connected (NO at S52), the MPU 9 via the mode setting means 10 To set the normal mode.

  In addition, unlike the above, the user may determine the mode using the operation panel 13.

  As mentioned above, although preferable embodiment of this invention was described, this invention is not limited to these embodiment, A various deformation | transformation and change are possible within the range of the summary.

  The projection display device can be applied to a liquid crystal projector.

DESCRIPTION OF SYMBOLS 1 ... Projector (projection type display apparatus), 6 ... Infrared light receiving sensor (2nd receiving means), 7 ... Connection part (1st receiving means), 8 ... Reception control part (reception control means), 9 ... MPU ( Reception control means), 10 ... mode setting means, 11 ... infrared remote control (second remote operation device), 12 ... wired remote control (first remote operation device)

Claims (6)

A projection display device that is operable by operations of both the first remote control device by wired communication and the second remote control device by wireless communication, and projects an image,
First receiving means connected to the first remote control device for receiving a first signal from the first remote control device;
Second receiving means for receiving a second signal wirelessly from the second remote control device;
When the first receiving unit is connected to the first remote control device, the second receiving unit receives the second receiving unit from the second remote control device when a predetermined condition is satisfied. A reception control means for accepting the second signal to perform an operation according to the second signal, but discarding the second signal received by the second reception means when the predetermined condition is not satisfied;
A projection type display device comprising: Mode setting means for setting a first mode used for installation or maintenance inspection of the projection display device and a second mode used for other than installation and maintenance inspection of the projection display device. In addition,
The projection display apparatus according to claim 2, wherein the predetermined condition includes that the second mode is set by the mode setting unit.   The projection display apparatus according to claim 2, wherein the predetermined condition includes obtaining an instruction to receive the second signal. Mode setting means for setting a first mode used for installation or maintenance inspection of the projection display device and a second mode used for other than installation and maintenance inspection of the projection display device. In addition,
When the first remote control device is connected to the first reception unit and the first mode is set by the mode setting unit, the reception control unit is configured to receive the second reception unit. 4. The projection display device according to claim 1, wherein the second signal received by the means is discarded. A projection optical system for projecting the image;
Mode setting means for setting a first mode used for installation or maintenance inspection of the projection display device and a second mode used for other than installation and maintenance inspection of the projection display device; ,
Further comprising
When the first remote control device is connected to the first receiving unit and the first mode is set by the mode setting unit, the reception control unit is configured to output the second signal. Is related to a predetermined operation including an operation for changing the color adjustment of the image, the driving of the projection optical system, and the edge blend adjustment of the image, and the second signal is the predetermined operation. The projection type display device according to any one of claims 1 to 4, wherein when it is not, the projection type display device receives it for an operation in accordance with it. A projection optical system that has a movable lens and projects the image;
The predetermined condition further includes that the second signal does not relate to an operation including a color adjustment of the image, driving of the projection optical system, and an operation of changing an edge blend adjustment of the image. The projection display device according to claim 1.