JP2011160190A - Vehicle-mounted monitor system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a vehicle-mounted monitor system provided with a plurality of monitors, which readily operates each monitor by a single unit of remote controller. <P>SOLUTION: The vehicle-mounted monitor system has a main monitor 22 provided within a vehicle room 100A; a rear monitor 13 arranged more backward than the main monitor 22; a remote controller 12 which emits optical signals corresponding to operation of an operator;, a front light receiver 22C of the main monitor 22; a rear light receiver 13C of the rear monitor 13; and a controller which controls the display states of the main monitor 22 and the rear monitor 13, according to optical signals if the front light receiver 22C and the rear light receiver 13C receive the optical signals emitted from the remote control unit 12. The front light receiver 22C and rear light receiver 13C are arranged toward the rear portion, and the controller determines an optical signal as instruction for either the front light receiver 22C or the rear light receiver 13C, based on the light receiving states of the front light receiver and the rear light receiver, and performs operation according to the instruction. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to an in-vehicle monitor system including a remote control device.

  2. Description of the Related Art Conventionally, there is known a system that includes a rear monitor in a rear part of a passenger compartment in addition to a main monitor disposed in a front part of the passenger compartment. In such a system, in order to be able to operate both the main monitor and the rear monitor with one remote controller, the remote control device is equipped with an operation switching button for switching the operation target between the main monitor and the rear monitor. A method has been proposed in which the operation of the main monitor and the operation of the rear monitor are performed with one remote control device by operating the buttons (see, for example, Patent Document 1).

JP 2007-324822 A

By the way, since the apparatus described in Patent Document 1 needs to switch the operation switching button in order to switch the operation target, it is possible to more easily operate both the main monitor and the rear monitor with a single remote controller. Was desired.
The present invention has been made in view of the above-described circumstances, and it is an object of the present invention to make it possible to easily operate each monitor individually by a single remote control device in an in-vehicle monitor system including a plurality of monitors. To do.

In order to achieve the above object, the present invention includes a front monitor disposed at a front portion of a vehicle interior, a rear monitor disposed rearward of the front monitor and facing a rear portion of the vehicle interior, and an operating element. A remote control device that emits an optical signal in response to an operation of the operation element, a front light receiving unit disposed integrally with or in the vicinity of the front monitor, and disposed integrally with or near the rear monitor. When the optical signal emitted by the remote control device is received by the rear light receiving unit, the front light receiving unit, and the rear light receiving unit, the display state of the front monitor and the rear monitor is controlled according to the optical signal. A control unit, and the front light receiving unit and the rear light receiving unit are installed facing rearward, and the control unit is provided for both a light receiving state in the front light receiving unit and a light receiving state in the rear light receiving unit. Based on optical signal As an indication for one of the light receiving unit, to provide a vehicle monitor system, characterized by the operation in accordance with the instructions.
According to this configuration, the control unit follows this instruction based on both the light receiving state in the front light receiving unit and the light receiving state in the rear light receiving unit as an instruction to one of the light receiving units. In order to operate, the display state of the front monitor and the rear monitor can be individually operated by the remote control device without the operator selecting which of the front monitor and the rear monitor to operate.

In the above configuration, when both the front light receiving unit and the rear light receiving unit receive an optical signal, the control unit receives the light signal received by the front light receiving unit and the rear light receiving unit. The optical signals may be compared with each other, and when these optical signals coincide with each other, the optical signal may be determined as an instruction to the rear light receiving unit.
In this case, the optical signal received by the front side light receiving unit is compared with the optical signal received by the rear side light receiving unit, and when these optical signals match, it is determined as an instruction to the rear side light receiving unit. Based on the result that the same optical signal emitted from the light is received by both the rear light receiving unit and the front light receiving unit, it can be determined that the optical signal is an instruction to the rear light receiving unit, It can be determined accurately. Therefore, the display state of the front monitor and the rear monitor can be individually operated by the remote control device without the operator selecting which of the front monitor and the rear monitor to operate.

Further, the control unit receives the optical signal received by the front light receiving unit and the rear light receiving unit when the front light receiving unit and the rear light receiving unit respectively receive optical signals within a predetermined time. The optical signal may be compared.
In this case, in order to compare the optical signal received by the front side light receiving unit and the optical signal received by the rear side light receiving unit when the optical signal is received by both the front side light receiving unit and the rear side light receiving unit within a predetermined time, It can be correctly determined that the same optical signal emitted from the rear part of the passenger compartment is received by the rear light receiving unit and the front light receiving unit, and it can be correctly determined that the optical signal is an instruction to the rear light receiving unit.

In addition, when the control unit receives an optical signal in both the front light receiving unit and the rear light receiving unit, the control unit uses the optical signal as an instruction to the rear light receiving unit, and the optical signal is transmitted only by the front light receiving unit. When the light is received, the optical signal may be used as an instruction to the front light receiving unit.
In this case, when the remote control device is operated from the rear part of the passenger compartment and an optical signal is received by both the front light receiving part and the rear light receiving part, the control part operates as an instruction to the rear light receiving part. When the remote control device is operated from the front part of the passenger compartment and an optical signal is received only by the front light receiving part, the control part operates as an instruction to the front light receiving part. Therefore, the front monitor and the rear monitor can be individually operated by the remote control device without the operator selecting which of the front monitor and the rear monitor to operate.
Further, the rear light receiving unit may be provided with a shield that blocks an optical signal of the remote control device emitted from a front part in the vehicle compartment ahead of the rear light receiving unit.
In this case, since the light signal emitted from the front part in the vehicle interior is blocked by the shielding provided in the rear light receiving part, the light signal from the front part in the vehicle interior is detected by the rear light receiving part. Can be prevented.

  According to the present invention, each of the front monitor and the rear monitor included in the in-vehicle monitor system can be individually operated by the remote control device without the operator selecting which monitor to operate.

It is a figure which shows the outline of the arrangement | positioning state of the vehicle-mounted monitor system which concerns on 1st Embodiment. It is a block diagram which shows schematic structure of a vehicle-mounted monitor system. It is a graph which shows an example of the correspondence of operation | movement of a main unit, and operation by a remote control. It is the schematic which shows the structure of a main unit and a rear monitor. It is the partially broken sectional view which looked at the rear side light-receiving part from the side. It is a flowchart which shows operation | movement of the main unit corresponding to operation of a remote control. It is a flowchart which shows a process when a remote control is operated. It is a flowchart which shows operation | movement of the vehicle-mounted monitor system which concerns on 2nd Embodiment.

Embodiments of the present invention will be described below with reference to the drawings.
[First Embodiment]
FIG. 1 is a diagram showing an outline of an arrangement state of a vehicle-mounted monitor system according to a first embodiment in a vehicle.

  The in-vehicle monitor system 10 is configured by each unit installed in the passenger compartment 100A of the automobile 100. Specifically, the in-vehicle monitor system 10 includes a main unit 11 disposed on the front seat 101 side located in the front part of the passenger compartment 100A, and the passenger compartment. The rear monitor 13 (rear monitor) used by the occupant seated on the rear seat 102 and the speaker 15 (FIG. 2) for outputting sound into the vehicle is arranged on the rear seat 102 side located at the rear of the 100A. A remote controller 12 that transmits an optical signal for remotely operating the main unit 11 at a position away from the main unit 11 is provided. The main unit 11 includes a main monitor 22 that is used by a driver or a passenger seated in a passenger seat. The remote controller 12 is a remote control device that transmits an optical signal in the infrared region.

  The main unit 11 is installed in a dashboard or console box (not shown) disposed in front of the front seat 101 and is located in the center in the vehicle width direction, and is formed between the driver seat and the passenger seat. It faces the rear seat 102 side through the space K. The rear monitor 13 is located behind the main monitor 22 and the front seat 101 and behind the space K, and is substantially at the same position so as to overlap the main monitor 22 in the vehicle width direction, and in the front-rear direction of the passenger compartment 100A. They are arranged side by side.

This in-vehicle monitor system 10 functions as a navigation device, displays a route guidance screen on the main monitor 22, and outputs route guidance sound from the speaker 15. The in-vehicle monitor system 10 functions as a radio receiver, displays a channel selection screen on the main monitor 22, and outputs sound of a radio broadcast being received from the speaker 15. The in-vehicle monitor system 10 functions as a CD and DVD player, reproduces video data and audio data recorded on the CD and DVD, displays video on the main monitor 22 and the rear monitor 13, and corresponds to the main monitor 22. Audio is output from the speaker 15, and audio corresponding to the rear monitor 13 is output from a speaker (not shown) included in the rear monitor 13. The in-vehicle monitor system 10 includes a USB interface to which a USB memory and a portable music player are connected. Video data and audio data recorded in a device connected to the USB interface are transmitted to the main monitor 22, the speaker 15, and Playback is output from the speaker of the rear monitor 13. Furthermore, the in-vehicle monitor system 10 also functions as a television receiver, displays and outputs television broadcast video on the main monitor 22 and the rear monitor 13, and outputs audio from the speakers 15 and the rear monitor 13 speakers. In addition, when the automobile 100 moves backward, the in-vehicle monitor system 10 displays a captured image of the back camera 68 (FIG. 2) provided at the rear end of the automobile 100 on the main monitor 22.
In addition, the arrangement | positioning of the speaker in 100 A of interiors is arbitrary, and you may arrange | position a speaker other than the speaker of the speaker 15 and the rear monitor 13. FIG.

As described above, the in-vehicle monitor system 10 outputs various images and sounds to the driver and the occupant in the passenger compartment 100A. The main unit 11 is operated by a single remote controller 12. As shown in FIG. 1, the remote controller 12 may be used by an occupant seated in the passenger seat, or may be used by an occupant seated in the rear seat 102.
The in-vehicle monitor system 10 includes a front monitor 22 </ b> C exposed on the same surface as the display surface of the main monitor 22 in the main monitor 22 provided in the main unit 11 in order to receive an infrared signal emitted from the remote controller 12. The rear light receiving unit 13C is provided on the same surface as the display surface. The front light receiving unit 22C receives an infrared signal when the remote control 12 emits an infrared signal from the front seat 101, and the rear light receiving unit 13C receives the infrared signal when the remote control 12 emits an infrared signal from the rear seat 102. Receive light.

FIG. 2 is a block diagram showing a schematic configuration of the in-vehicle monitor system.
As shown in FIG. 2, the main unit 11 is input to the main unit 11, a CPU 23 (control unit) that controls the entire main unit 11, a video signal processing device 62 that outputs a video signal to the main monitor 22, and the main unit 11. A video switch 63 for switching a plurality of video sources, and an audio switch 64 for switching a plurality of audio sources input to the main unit 11. The main unit 11 includes an external output terminal 71 for connecting the rear monitor 13. The external output terminal 71 includes an external video output terminal 71A that outputs a video signal and an external audio output terminal 71B that outputs an audio signal. The external video output terminal 71A and the external audio output terminal 71B are connected to a cable 79. The rear monitor 13 is connected via The rear monitor 13 is a sub-monitor that reproduces and outputs video and audio based on the video signal and audio signal received from the main unit 11 via the cable 79.
Connected to the CPU 23 are a ROM 24 that stores various control programs executed by the CPU 23 in advance, and a RAM 25 that temporarily stores programs executed by the CPU 23 and various data to be processed.

A video / audio source unit 65 having various video sources and audio sources is connected to the video switch 63 and the audio switch 64.
The video / audio source unit 65 includes a TV tuner 65A, a CD / DVD playback device 65B, a radio tuner 65C, and a USB interface unit 65D. Connected to TV interface video and audio received by TV tuner 65A, video and audio read from CD or DVD by CD / DVD playback device 65B, radio broadcast audio received by radio tuner 65C, and USB interface unit 65D. Video and / or audio input from an external device (not shown) is sent to the video switch 63 and the audio switch 64 via a D / A converter (not shown) that converts a digital signal into an analog signal, respectively. Entered.
If the radio tuner 65C can receive characters and images broadcast together with sound, the characters or images may be input to the video switch 63 as a video source.

The video switch 63 and the audio switch 64 are connected to an external video input terminal 66A and an external audio input terminal 66B of the external input terminal 66, respectively. An external device (not shown) such as a DVD playback device can be connected to the external video input terminal 66A and the external audio input terminal 66B, and analog video signals and analog audio signals input from these devices are directly converted into video. The signal is input to the switch 63 and the audio switch 64.
The audio switch 64 selects any one of various audio sources included in the video / audio source unit 65 and various analog audio signals input from the external audio input terminal 66 </ b> B, and outputs the external audio via the amplifier circuit 72. The data is output to the output terminal 71B and the electronic volume 73. The audio switch 64 can output two different audio signals independently at the same time. Here, the electronic volume 73 and the external audio output terminal 71 </ b> B output audio signals that are linked to the respective images reproduced on the main monitor 22 and the rear monitor 13.
The electronic volume 73 amplifies the audio signal input from the amplifier circuit 72 with a predetermined gain and outputs the amplified signal to the power IC 74. The power IC 74 further amplifies the audio signal with the predetermined gain to drive the speaker 15, and the speaker 15 To output sound.

  The video switch 63 selects any one of various video sources provided in the video / audio source unit 65 and various analog video signals input from the external video input terminal 66 </ b> A, and passes the video signal through the amplifier circuit 75. The data is output to the processing device 62 and the external video output terminal 71A. The video switch 63 can output two different systems of video signals to the amplifier circuit 75 independently and simultaneously.

The amplification circuit 75 connected to the video switch 63 can output two systems simultaneously, one output system is connected to the video signal processing device 62, and the other output system is connected to the external video output terminal 71A.
The video signal processing device 62 includes an A / D converter 76 that converts the analog video signal input from the amplifier circuit 75 into a digital signal, and an OSD (On Screen Display) that displays arbitrary characters and symbols on the main monitor 22. A processing unit 77 is included. A navigation module 78 that performs route guidance is connected to the OSD processing unit 77, and a video signal for displaying a map for route guidance is output from the navigation module 78 to the OSD processing unit 77. The OSD processing unit 77 performs a process of superimposing the route guidance screen on the video from the video source based on the video signal input from the navigation module 78 and the video signal input from the video switch 63. And output to the main monitor 22. Further, when the OSD processing unit 77 displays a menu screen for operating the main unit 11 based on an instruction from the CPU 23, a channel selection screen for radio channel selection, or the like, these screens are displayed as video from a video source or a predetermined channel. The image is superimposed on the background image and combined and output to the main monitor 22. As a result, a route guidance map, menu screen, and the like are displayed on the main monitor 22.

  The video switch 63 is connected to a back camera 68 that captures an image behind the vehicle. The back camera 68 is a camera provided on a bumper or trunk lid at the rear end of the vehicle 100 of the automobile 100, and sequentially outputs captured image data captured by an image sensor such as a CCD or CMOS to the video switch 63. When the automobile 100 is switched to the reverse gear, the video switch 63 starts supplying power to the back camera 68 and outputs a video signal input from the back camera 68 to the video signal processing device 62 via the amplifier circuit 75. To do. For this reason, when the automobile 100 moves backward, an image obtained by photographing the rear of the automobile 100 is displayed on the main monitor 22.

The CPU 23 is connected to the front light receiving unit 22 </ b> C provided integrally with the main monitor 22. The front light receiving unit 22C receives and demodulates the infrared signal transmitted from the remote controller 12, generates an operation signal indicating the operation content of the remote controller 12, and outputs the operation signal to the CPU.
Further, the rear light receiving unit 13 </ b> C included in the rear monitor 13 is connected to the CPU 23 via a cable 50. The rear light receiving unit 13C receives and demodulates the infrared signal transmitted from the remote controller 12 in the same manner as the front light receiving unit 22C, generates an operation signal indicating the operation content of the remote controller 12, and outputs the operation signal to the CPU 23.
The CPU 23 discriminates the content of the instruction by the operation of the remote controller 12 based on the operation signal input from the front light receiving unit 22C and the rear light receiving unit 13C, and in accordance with this instruction, the video switch 63, the audio switch 64, the video / audio. The display state of the main monitor 22 and the rear monitor 13 is controlled by controlling the source unit 65, the video signal processing device 62, and the like.

  FIG. 2 illustrates a remote control 12 having a number of keys in a flat casing. The remote controller 12 has a plurality of operation keys 12A (operation elements), and is configured with an infrared LED (not shown) at the tip thereof and a drive circuit (not shown) that emits the infrared LED. The transmission unit 12B is provided. In response to the operation of the operation key 12A, the remote controller 12 transmits an operation signal (infrared light signal) corresponding to the pressed operation key 12A from the transmitting unit 12B at the tip thereof. As the operation key 12A, for example, as shown in FIG. 2, a source key 31 for switching a video source and / or an audio source to be played back by the main unit 11, and a menu screen related to a navigation function and a DVD playback function are displayed on the main monitor 22. There is a MENU key 32 or the like.

FIG. 3 is a chart showing an example of a correspondence relationship between the operation of the main unit 11 and the operation by the remote controller 12.
In the example of FIG. 3, the operation key 12A of the remote controller 12 includes a cross key, a MENU key 32 (FIG. 2), an enter key, a return key, a REC key, a REPEAT key, a SCAN key, a RANDOM key, and the like.
Among these, the cross key is used to scroll the map on the navigation screen based on the output of the navigation module 78 when the navigation function is executed, or to select a target track (chapter or audio track) when playing a CD / DVD. The key to be operated. The MENU key 32 is a key that is operated when displaying each menu screen or the like, the enter key is a key that is operated when determining an object on the menu screen or the like, and the return key is a key that does not display the menu screen or the like. The REC key is operated when instructing recording of video and audio of the television broadcast being received during reception of the television broadcast. The REPEAT key is a key that is operated when a repeat playback of a track is instructed during playback of a CD / DVD or the like, and the SCAN key is a key that is operated when a reroute is instructed during execution of a navigation function. The key is a key operated when instructing random reproduction of a track such as a CD / DVD.

Further, the operation content corresponding to the currently selected source is assigned to each key of the operation key 12A. That is, even with the same operation key, different operation contents are assigned depending on the source selected at the time of operation. For example, when the video and audio of the navigation function is selected as the video and audio source, and the cross key is operated while the navigation screen is displayed on the main monitor 22, the map is scrolled. When the cross key is operated while the DVD is selected as the source, the DVD track to be reproduced is selected.
Also, the operation content may not be assigned depending on the source selected during the operation. For example, while the DVD is selected as the source, no operation content is assigned to the return key, so that no processing is executed even if the return key is operated during this time.

By the way, when the same key operation is operated, the CPU 23 transmits an infrared signal transmitted from the remote controller 12 toward the rear monitor 13 and a case where the infrared signal is transmitted toward the main monitor 22. May perform different actions.
For example, the remote controller 12 includes a source key 31 (FIG. 2) that is operated when the video switch 63 and the audio switch 64 are used to instruct switching of the video / audio source, and the CPU 23 includes the source key 31 (FIG. 2). When an operation signal corresponding to the above operation is input, the video switch 63 and the audio switch 64 are controlled to switch the video source and audio source to be reproduced.

  Specifically, the CPU 23 receives an optical signal corresponding to the operation of the source key 31 only by the front light receiving unit 22C, and an image displayed on the main monitor 22 when an operation signal is input from the front light receiving unit 22C. Navigation function video, radio broadcast reception operation menu screen, CD playback operation menu screen, DVD video, TV broadcast video, video read from a device connected to the USB interface unit 65D, USB interface Operation menu screen related to audio playback from the device connected to the unit 65D, video input from the device connected to the external video input terminal 66A, and audio playback from the device connected to the external audio input terminal 66B The menu screen is switched in the order of the operation menu screen. On the operation menu screen for radio broadcast reception, CD playback, and audio playback from a device connected to the USB interface unit 65D, the OSD processing unit 77 displays a radio channel selection menu, a music (song) list, and the like. The

  On the other hand, the CPU 23 receives an optical signal corresponding to the operation of the source key 31 only by the rear light receiving unit 13C, and when the operation signal is input from the rear light receiving unit 13C, it is displayed on the rear monitor 13. The video is switched in the order of DVD video, TV broadcast video, video read from a device connected to the USB interface unit 65D, and video input from a device connected to the external video input terminal 66A. Since the screen related to the navigation function and the back camera is not displayed on the rear monitor 13, switching to a screen using these as video sources is not performed. Further, since the output of the OSD processing unit 77 is limited to the main monitor 22 as shown in FIG. 2, the screen processed by the OSD processing unit 77 is not displayed on the rear monitor 13. Further, since there are no screens to be displayed on the rear monitor 13 for operations for reproducing audio, such as radio broadcasting, CD reproduction, and audio reproduction from a device connected to the USB interface unit 65D, these functions are not provided. Switching to the screen is not performed.

FIG. 4 is a schematic diagram showing the configuration of the main unit 11 and the rear monitor 13.
As described above, the main monitor 22 is disposed at the front portion in the passenger compartment 100A, and the rear monitor 13 is disposed behind the main monitor 22 and is disposed toward the rear portion of the passenger compartment 100A.
The main monitor 22 is provided with a display screen 22B facing an occupant (operator) seated on the front seat 101. The front panel 22A as a frame of the display screen 22B has a front side below the display screen 22B. The light receiving portion 22C is embedded as a unit. Further, the rear monitor 13 includes a display screen 13B facing a passenger seated in the rear seat 102, and a front panel 13A as a frame of the display screen 13B is integrated with a rear light receiving unit 13C below the display screen 13B. It is buried. In this way, the front light receiving unit 22C faces the front seat 101, and the rear light receiving unit 13C faces the rear seat 102.

FIG. 5 is a partially broken cross-sectional view of the rear light receiving portion 13C as viewed from the side.
The rear light-receiving unit 13C includes a light-receiving unit 51 that receives an optical signal from the remote controller 12 and a substrate 52 on which the light-receiving unit 51 is mounted. By receiving the optical signal to be received by the light receiving unit 51, the infrared signal transmitted by the remote controller 12 is received. On the surface of the substrate 52 opposite to the surface on which the light receiving unit 51 is disposed, that is, the surface of the substrate 52 on the front seat 101 side, a filter 53 (shielding object) that blocks light in the wavelength region including the infrared region. Is provided. Further, the front seat 101 side surface (back surface) of the substrate 52 is covered with a housing 13 </ b> D of the rear monitor 13.

  As described above, since the filter 53 is provided on the substrate 52, an optical signal is emitted from the front seat 101 side toward the rear surface of the rear monitor 13 by the remote controller 12, as indicated by reference numeral P2 in the figure, and the housing 13D Even if an optical signal enters the inside through a gap or the like, the optical signal is blocked by the filter 53. Thereby, even if an infrared signal is emitted from the front seat 101 side toward the rear surface of the rear monitor 13 depending on the angle of the remote controller 12, the rear light receiving unit 13C does not detect this infrared signal.

Therefore, as shown in FIG. 1, when an occupant seated in the front seat 101 operates the remote controller 12 toward the main monitor 22, an infrared signal is received only by the front light receiving unit 22 </ b> C. In contrast, when an occupant seated in the rear seat 102 operates the remote controller 12 and an infrared signal is transmitted forward from the rear seat 102, the infrared signal is transmitted to both the rear light receiving unit 13C and the front light receiving unit 22C. Received by.
In the present embodiment, only one remote controller 12 may be provided, or remote controllers 12 having the same specifications may be provided on the front seat 101 and the rear seat 102, respectively. Different operations are performed depending on whether the operation is directed toward the main monitor 22 or the operation is performed toward the main monitor 22. For this reason, the CPU 23 of the main unit 11 needs to specify which direction the infrared signal received by the rear light receiving unit 13C and the front light receiving unit 22C is operated. Therefore, the CPU 23 determines that the infrared signal received by the rear light receiving unit 13C and the front light receiving unit 22C is based on the reception state and the reception timing in both the rear light receiving unit 13C and the front light receiving unit 22C. It is determined whether it is operated toward 13C or the front light receiving unit 22C, and an operation corresponding to the determination result is performed.

FIG. 6 is a flowchart showing the operation of the main unit 11 corresponding to the operation of the remote controller 12.
The CPU 23 determines whether or not the remote controller 12 is operated and an infrared light signal associated with the operation is received by the front light receiving unit 22C (step S11).
If it is determined in step S11 that the optical signal is received by the front light receiving unit 22C (step S11: Yes), the CPU 23 temporarily stores the received signal in the RAM 25 (step S12), and the rear light receiving unit 13C receives the optical signal. Is received simultaneously with the front light receiving unit 22C (step S13). Here, when the rear light receiving unit 13C receives the optical signal within a predetermined time after the front light receiving unit 22C receives the optical signal, the CPU 23 receives the rear light receiving unit 13C and the front light receiving unit 22C. Is determined to have received the optical signal simultaneously. This predetermined time is the time from when the optical signal of the remote controller 12 operated from the rear seat 102 side reaches the rear light receiving unit 13C until this optical signal passes through the space K and reaches the front light receiving unit 22C. In the case of T, it is set longer than the time T in consideration of the optical signal discrimination and processing time by the CPU 23 and the like, and is set to be short enough not to reduce the response of the operation of the remote controller 12 and is stored in the ROM 24. ing.

  In step S13, when the optical signal is simultaneously received by the front light receiving unit 22C and the rear light receiving unit 13C (step S13: Yes), the CPU 23 stores the optical signal received by the rear light receiving unit 13C and the RAM 25. To determine whether or not the contents of the optical signals simultaneously received by the front light receiving unit 22C and the rear light receiving unit 13C match (step S14). When it is determined that the contents of the optical signals match (step S14: Yes), the CPU 23 determines whether or not the operation content indicated by the optical signal is an operation related to the rear monitor 13 (step S15). That is, in step S15, it is determined whether or not the optical signal is an operation corresponding to the video source of the video being displayed on the rear monitor 13 and any operation is possible according to the operation content.

  For example, in the example of FIG. 3, when the cross key is operated while the DVD image is displayed on the rear monitor 13, the main unit 11 can perform an operation of changing the DVD track in accordance with this operation. Even if the return key is operated with respect to the rear monitor 13 in a state where the DVD image is displayed, the corresponding operation is not assigned, and thus the main unit 11 cannot perform any operation. As described above, the main unit 11 determines whether or not the operation is related to the rear monitor 13 based on the operation being performed on the rear monitor 13 and the operation content assigned to the key operated on the remote controller 12.

  If it is determined that the optical signal is an operation related to the rear monitor 13 (step S15: Yes), the CPU 23 performs control to execute a function corresponding to the optical signal (step S16), and changes the display state of the rear monitor 13. . As described above, when the CPU 23 determines that the contents of the optical signals match in step S14, the CPU 23 determines that the optical signal is an instruction to the rear light receiving unit 13C, and determines that the remote controller 12 is operated from the rear seat 102 side. Therefore, even if an occupant seated in the rear seat 102 operates the remote controller 12 and the optical signal at this time is also received by the front light receiving unit 22C, the main monitor 22 is not erroneously operated.

Further, when the CPU 23 determines the optical signal from the source key 31 as an instruction to the rear light receiving unit 13C, the CPU 23 skips radio, CD, and USB (audio), and performs DVD, TV, USB (video), and external The source displayed on the rear monitor 13 is switched in the order of input. For this reason, radio, CD, and USB (audio) sources that have no content to be played back other than audio and that are not reflected by the OSD processing unit 77 are not displayed on the rear monitor 13, and the source can be switched smoothly. Can be done.
If it is determined that the optical signal is not an operation related to the rear monitor 13 (step S15: No), the CPU 23 ends the process without executing anything.

  When it is determined in step S14 that the contents of the optical signals do not match (step S14: No), the CPU 23 individually executes a function corresponding to the optical signal of the remote controller 12 for the main monitor 22 and the rear monitor 13 ( Step S17). That is, when different optical signals are simultaneously received by the front side light receiving unit 22C and the rear side light receiving unit 13C, the CPU 23 is configured such that different operations are simultaneously executed by the plurality of remote controllers 12 on the front seat 101 and the rear seat 102, respectively. The main monitor 22 and the rear monitor 13 individually perform the function of the operated operation key 12A.

In step S13, if it is not determined that the optical signal is received simultaneously by the front light receiving unit 22C and the rear light receiving unit 13C (step S13: No), the CPU 23 is an operation related to the main monitor 22. Whether or not (step S18). In step S18, the optical signal is a source operating on the main monitor 22 when the remote controller 12 is operated, that is, navigation, radio, CD, DVD, TV, USB (video), USB (audio), and It is determined whether the operation corresponds to one of the external input sources.
If it is determined that the optical signal is an operation related to the main monitor 22 (step S18: Yes), the CPU 23 performs control to execute a function corresponding to the optical signal (step S19), and the display state of the main monitor 22 is changed. change. As described above, when an optical signal is received by the front light receiving unit 22C and at the same time no optical signal is received by the rear light receiving unit 13C, that is, when an optical signal is received only by the front light receiving unit 22C, the CPU 23 Determines the optical signal as an instruction to the front light receiving unit 22C, determines that the operation of the remote controller 12 is performed on the front seat 101, and executes the function of the operation key 12A on the main monitor 22 based on the optical signal. .
When it is determined that the optical signal is not an operation related to the main monitor 22 (step S18: No), that is, for example, when the REC key is operated with navigation selected as the source, the CPU 23 does not execute anything. The process ends.

If no optical signal is received by the front light receiving unit 22C in step S11 (step S11: No), the CPU 23 determines whether or not the rear light receiving unit 13C of the rear monitor 13 has received the optical signal (step S11). S20). When the rear light receiving unit 13C of the rear monitor 13 receives an optical signal (step S20: Yes), the process proceeds to step S15 to determine whether the optical signal is an operation related to the rear monitor 13, and the optical signal is When it is determined that the operation is related to the rear monitor 13 (step S15: Yes), the CPU 23 performs control to execute the function corresponding to the optical signal (step S16), and changes the display state of the rear monitor 13. As described above, when the optical signal is received only by the rear light receiving unit 13C, the CPU 23 determines that the operation of the remote controller 12 is performed at the rear seat 102, and the display state on the rear monitor 13 based on the optical signal. To change.
If it is determined that the optical signal is not an operation related to the rear monitor 13 (step S15: No), the CPU 23 ends the process without executing anything.
When it is determined in step S20 that the rear light receiving unit 13C has not received the optical signal (step S20: No), the process returns to step S11.

FIG. 7 is a flowchart showing in detail the process of step S17 of FIG.
As described above, if the CPU 23 determines in step S14 that the contents of the optical signals do not match, the process proceeds to step S17. In step S17, the CPU 23 acquires the received content of the optical signal received by the front light receiving unit 22C (step S31), and whether or not the received content is an operation related to the main monitor 22 in the same manner as in step S18. Is discriminated (step S32). When it is determined that the received content is an operation related to the main monitor 22 (step S32: Yes), the CPU 23 sets the received content as an execution target (step S33).
Next, the CPU 23 acquires the received content of the optical signal received by the rear light receiving unit 13C (step S34), and determines whether this received content is an operation related to the rear monitor 13 in the same manner as in step S15 ( Step S35). When it is determined that the received content is an operation related to the rear monitor 13 (step S35: Yes), the CPU 23 sets the received content as an execution target (step S36).

Then, the CPU 23 executes the operation of the received content set as the execution target in step S33 and step S36 on the main monitor 22 and the rear monitor 13 (step S37), and ends the process.
If it is determined in step S32 that the received content is not an operation related to the main monitor 22 (step S32: No), the CPU 23 skips the process of step S33 and proceeds to the process of step S34.
If it is determined in step S35 that the received content is not an operation related to the rear monitor 13 (step S32: No), the CPU 23 skips the process of step S36 and proceeds to the process of step S37.
As described above, when the contents of the optical signals simultaneously received by the front side light receiving unit 22C and the rear side light receiving unit 13C do not match, the CPU 23 instructs the optical signals received by the front side light receiving unit 22C and the rear side light receiving unit 13C. The operation key 12A is instructed individually on the main monitor 22 and the rear monitor 13, respectively. For this reason, even when different instructions are issued simultaneously by the two remote controllers 12 at the front seat 101 and the rear seat 102 and different optical signals are received at the same time by the front light receiving unit 22C and the rear light receiving unit 13C, The instruction by 12 operations can be executed reliably.

  In the in-vehicle monitor system 10, while a video source that can be selected as a source simultaneously on the main monitor 22 and the rear monitor 13, such as a video recorded on a DVD or a television broadcast video, is simultaneously played on the main monitor 22 and the rear monitor 13, When an operation for changing the display state of the monitor is instructed by the remote controller 12, the display is simultaneously changed on both the main monitor 22 and the rear monitor 13. For example, when a DVD image is selected as a source on both the main monitor 22 and the rear monitor 13 and the cross key of the remote controller 12 is operated, the tracks to be reproduced on both the main monitor 22 and the rear monitor 13 are operated. Changes are performed. Further, when the TV tuner 65A is a double tuner type having two tuners for two monitors, the TV source can be separately supplied to the main monitor 22 and the rear monitor 13, and one monitor is controlled by the cross key of the remote controller 12. Changing the channel does not affect the other monitor.

  In the present embodiment, when the optical signal is received only by the front light receiving unit 22C, the CPU 23 controls the display of the main monitor 22 based on the optical signal, and the optical signal is received only by the rear light receiving unit 13C. In the case where the display on the rear monitor 13 is controlled based on the optical signal, and the optical signal is received by the front light receiving unit 22C and the rear light receiving unit 13C within a predetermined time, and the received optical signals match. The optical signal is determined as an instruction to the rear light receiving unit 13C, and the display on the rear monitor 13 is controlled. Thereby, the display of the main monitor 22 and the rear monitor 13 can be controlled based on the optical signal transmitted from the front seat 101 to the front light receiving unit 22C and the optical signal transmitted from the rear seat 102 to the rear light receiving unit 13C. At the same time, the optical signal of the remote controller 12 emitted from the rear seat 102 side for operating the rear monitor 13 is influenced by the angle of the remote controller 12 when the remote controller 12 is operated, and the like. When both are received by 22C, the display of the rear monitor 13 is controlled. That is, the display on the main monitor 22 is controlled when the remote controller 12 is operated on the front seat 101 side, and the display on the rear monitor 13 is controlled when the remote controller 12 is operated on the rear seat 102. The main monitor 22 and the rear monitor 13 can be individually operated by the remote controller 12 without the occupant selecting which of the rear monitor 13 to operate.

Further, a filter 53 is provided on the substrate 52 so that the optical signal of the remote control 12 emitted on the front seat 101 side is not received by the rear light receiving unit 13C, so that the passenger of the front seat 101 displays the display on the main monitor 22. When the remote controller 12 is operated for operation, the display on the rear monitor 13 is not erroneously operated.
Further, when it is desired to operate the display on the main monitor 22 from the rear seat 102, only the front light receiving unit 22C is operated by positioning the transmission unit 12B of the remote control 12 in front of the rear light receiving unit 13C and operating the remote control 12. An optical signal can be transmitted to the main monitor 22 and the display on the main monitor 22 can be operated.

  Further, the CPU 23, the video switch 63, and the audio switch 64 are provided in the main unit 11, the rear light receiving unit 13 </ b> C is connected to the CPU 23 through the cable 50, and the outputs of the video switch 63 and the audio switch 64 are connected to the rear monitor 13 through the cable 79. Therefore, the instruction received by the rear light receiving unit 13C can be processed by the CPU 23 and the display on the rear monitor 13 can be controlled. Therefore, it is not necessary to provide the CPU 23, the video switch 63, and the audio switch 64 in the rear monitor 13, and the structure of the rear monitor 13 can be simplified while the rear monitor 13 can be operated by the remote controller 12.

  As described above, according to the embodiment to which the present invention is applied, the CPU 23 performs the optical signal of the remote controller 12 based on both the light receiving state in the front light receiving unit 22C and the light receiving state in the rear light receiving unit 13C. As an instruction to one of the light receiving units, the operation is performed according to this instruction. That is, the CPU 23 controls the display of the main monitor 22 when the optical signal is received only by the front light receiving unit 22C, and the CPU 23 controls the display of the rear monitor 13 when the optical signal is received only by the rear light receiving unit 13C. The display is controlled, and when the optical signal is received by both the front light receiving unit 22C and the rear light receiving unit 13C and the received optical signals match, the display of the rear monitor 13 is controlled. Thus, the main monitor 22 and the rear monitor 13 can be individually operated by the remote controller 12 without the occupant selecting which of the main monitor 22 and the rear monitor 13 is to be operated.

  Further, the CPU 23 compares the optical signal received by the front side light receiving unit 22C with the optical signal received by the rear side light receiving unit 13C, and when these optical signals match, it is determined as an instruction to the rear side light receiving unit 13C. Based on the result that the same optical signal emitted from the rear part of the passenger compartment 100A by the remote controller 12 is received by the rear light receiving part 13C and the front light receiving part 22C, the optical signal is an instruction to the rear light receiving part 13C. It can be determined that there is, and the instruction from the remote controller 12 can be accurately determined.

  Further, when the CPU 23 receives the optical signal in both the front light receiving unit 22C and the rear light receiving unit 13C within a predetermined time, the CPU 23 receives the light signal received by the front light receiving unit 22C and the light received by the rear light receiving unit 13C. In order to compare the signals, it can be correctly determined that the same light signal emitted from the rear seat 102 of the rear part of the passenger compartment 100A has been received by the rear light receiving part 13C and the front light receiving part 22C. It can be correctly determined that the instruction is for the side light receiving unit 13C.

  For example, as described above, when the source key 31 is operated toward the front light receiving unit 22C, the main unit 11 displays a video displayed on the main monitor 22 as a navigation function video and an operation menu related to radio broadcast reception. Screen, CD playback operation menu screen, DVD video, TV broadcast video, video read from a device connected to the USB interface unit 65D, and audio playback from a device connected to the USB interface unit 65D The menu screen, the video input from the device connected to the external video input terminal 66A, and the operation menu screen related to audio playback from the device connected to the external audio input terminal 66B are switched in this order. On the other hand, when the source key 31 is operated toward the rear light receiving unit 13C and the rear light receiving unit 13C receives an optical signal, an image displayed on the rear monitor 13 is changed to a DVD image or a television broadcast. Switching is performed in the order of video, video read from a device connected to the USB interface unit 65D, and video input from a device connected to the external video input terminal 66A.

For this reason, when the source key 31 of the remote controller 12 is operated with the remote controller 12 pointed to the rear light receiving unit 13C, it is read from a DVD image, a TV broadcast image, or a device connected to the USB interface unit 65D. When the four images of the image and the image input from the device connected to the external image input terminal 66A are changed and operated toward the front light receiving unit 22C, the image of the navigation function is displayed on the above four screens. 9 screens including a radio broadcast menu screen, a CD playback operation menu screen, a USB device audio menu screen, and an external audio input terminal menu screen are transitioned. As described above, the main unit 11 performs different operations on the operation of one key of the remote controller 12 depending on whether the operation is directed to the rear light receiving unit 13C or the front light receiving unit 22C. Since this switching is determined by the orientation of the remote controller 12 at the time of operation, the occupant who is the operator simply points the remote controller 12 toward the operation target of the remote control 12 and switches or specifies the operation target. Yes.
Further, since the light receiving unit 51 of the rear light receiving unit 13C is provided with the filter 53, even if an infrared signal is emitted from the front seat 101 side to the rear surface of the rear monitor 13 by the remote controller 12, the infrared signal is transmitted by the filter 53. Blocked. Thereby, even if an infrared signal is emitted from the front seat 101 side toward the rear surface of the rear monitor 13 depending on the angle of the remote controller 12, the rear light receiving unit 13C does not detect this infrared signal.

In addition, the said 1st Embodiment shows the one aspect | mode which applied this invention, Comprising: This invention is not limited to the said 1st Embodiment. For example, in the first embodiment, the rear monitor 13 is positioned behind the main monitor 22 and behind the space K, and in the vehicle width direction, in the vehicle compartment 100A at substantially the same position so as to overlap the main monitor 22. However, the present invention is not limited to this. The rear monitor 13 only needs to be disposed behind the main monitor 22. For example, the rear monitor 13 may be disposed so that the display screen 13 </ b> B faces the rear seat 102 on the back of the driver's seat or the passenger seat. Further, for example, in the first embodiment, the front light receiving portion 22C is provided integrally with the main unit 11 body together with the main monitor 22, and the rear light receiving portion 13C is provided integrally with the rear monitor 13. The present invention is not limited to this, and the front light receiving unit 22C is configured separately from the main monitor 22, and the front light receiving unit 22C is provided in the vicinity of the main monitor 22 or from the main monitor 22. The rear light receiving unit 13C may be provided separately from the rear monitor 13, and the rear light receiving unit 13C may be installed independently in the vicinity of the rear monitor 13, or from the rear monitor 13. You may provide so that it may overhang.
Furthermore, although the filter 53 has been described as being provided on the surface of the substrate 52 on the front seat 101 side, the present invention is not limited to this, for example, provided between the light receiving unit 51 and the substrate 52. May be.
In addition, although the in-vehicle monitor system 10 has been described as functioning as a CD and DVD player, the in-vehicle monitor system 10 is not limited to this, and the in-vehicle monitor system 10 includes video data stored in a hard disk drive (HDD) or Blu-ray disc (BD). Or a player that plays back audio data. Of course, the other detailed configuration of the in-vehicle monitor system 10 can be arbitrarily changed.

[Second Embodiment]
Hereinafter, a second embodiment to which the present invention is applied will be described with reference to FIG. In the second embodiment, parts that are configured in the same manner as in the first embodiment are given the same reference numerals, and descriptions thereof are omitted. The in-vehicle monitor system 10 according to the second embodiment is configured similarly to the in-vehicle monitor system 10 of the first embodiment, and the operation when the remote controller 12 is operated is the first embodiment. Is different. Therefore, in the second embodiment, the operation will be described with reference to a flowchart.

FIG. 8 is a flowchart showing an operation when the remote controller 12 is operated in the in-vehicle monitor system 10 according to the second embodiment.
The CPU 23 determines whether or not the remote controller 12 is operated and an optical signal associated with the operation is received by the rear light receiving unit 13C (step S41).
If it is determined in step S41 that the rear light receiving unit 13C has received an optical signal (step S41: Yes), the CPU 23 determines whether or not the received content is an operation related to the rear monitor 13 (step S42). When it is determined that the received content is an operation related to the rear monitor 13 (step S42: Yes), the CPU 23 performs control to execute a function corresponding to the optical signal (step S43), changes the display of the rear monitor 13, and performs processing. finish.
When it is determined that the optical signal is not an operation related to the rear monitor 13 (step S43: No), the CPU 23 ends the process without executing anything.

If it is determined in step S41 that the optical signal is not received by the rear light receiving unit 13C (step S41: No), the CPU 23 determines whether or not the optical signal is received by the front light receiving unit 22C (step S44). : Yes).
If it is determined in step S44 that the optical signal is received by the front light receiving unit 22C (step S44: Yes), the CPU 23 determines whether or not the received content is an operation related to the main monitor 22 (step S45). When it is determined that the received content is an operation related to the main monitor 22 (step S45: Yes), the CPU 23 performs control to execute the function corresponding to the optical signal (step S46), changes the display of the main monitor 22, The process ends.
When it is determined that the optical signal is not an operation related to the main monitor 22 (step S45: No), the CPU 23 ends the process without executing anything.
If it is determined in step S44 that the front light receiving unit 22C has not received an optical signal (step S44: No), the process ends.

  In the second embodiment, if an optical signal is received by the rear light receiving unit 13C in step S41, it is determined whether or not the received content is an operation related to the rear monitor 13, and then a function corresponding to the optical signal. Control to execute. That is, as a result, when the optical signal is received by the rear light receiving unit 13C, the CPU 23 assumes that the optical signal is received only by the rear light receiving unit 13C regardless of the reception state by the front light receiving unit 22C. When the optical signal is received by both the front light receiving unit 22C and the rear light receiving unit 13C in step S41, control for changing the display of the rear monitor 13 based on the optical signal is executed. If no optical signal is received by the rear light receiving unit 13C, the CPU 23 determines whether or not the optical signal is received by the front light receiving unit 22C. If the optical signal is received by the front light receiving unit 22C, the display on the main monitor 22 is performed. Shift to control to change.

  Therefore, the CPU 23 operates when the remote controller 12 is operated from the rear seat 102 at the rear of the passenger compartment 100A and receives an optical signal in both the front light receiving unit 22C and the rear light receiving unit 13C, and only in the rear light receiving unit 13C. When an optical signal is received, it operates as an instruction to the rear light receiving unit 13C. Further, when the remote controller 12 is operated from the front seat 101 in the front part of the passenger compartment 100A and the optical signal is received only by the front light receiving unit 22C, the CPU 23 operates as an instruction to the front light receiving unit 22C. Therefore, the main monitor 22 and the rear monitor 13 can be individually operated by the remote controller 12 without the operator selecting which of the main monitor 22 and the rear monitor 13 to operate.

10 On-vehicle monitor system 12 Remote control (remote control device)
12A Operation key (operator)
13 Rear monitor (rear monitor)
13C Rear side light receiver 22 Main monitor (front monitor)
22A front panel 22C front side light receiving unit 23 CPU (control unit)
53 Filter (Shield)
100A passenger compartment

Claims (5)

A front monitor disposed at the front of the vehicle interior, a rear monitor disposed behind the front monitor and facing the rear of the vehicle compartment;
A remote control device that includes an operator and emits an optical signal in response to the operation of the operator;
A front light receiving portion disposed integrally with or near the front monitor, and a rear light receiving portion disposed integrally with or near the rear monitor;
A control unit that controls the display state of the front monitor and the rear monitor according to the optical signal when the optical signal emitted by the remote control device is received by the front light receiving unit and the rear light receiving unit,
The front side light receiving part and the rear side light receiving part are installed facing backward,
The control unit operates in accordance with this instruction as an instruction to one of the light receiving units based on both the light receiving state in the front light receiving unit and the light receiving state in the rear light receiving unit. ,
An in-vehicle monitor system. The control unit compares the optical signal received by the front light receiving unit with the optical signal received by the rear light receiving unit when both the front light receiving unit and the rear light receiving unit receive the optical signal. When these optical signals match, the optical signal is determined as an instruction to the rear light receiving unit,
The in-vehicle monitor system according to claim 1. When the front light receiving unit and the rear light receiving unit each receive an optical signal within a predetermined time, the control unit receives an optical signal received by the front light receiving unit and an optical signal received by the rear light receiving unit. Comparing with the
The in-vehicle monitor system according to claim 2. When the control unit receives an optical signal in both the front light receiving unit and the rear light receiving unit, the control unit uses the optical signal as an instruction to the rear light receiving unit, and receives the optical signal only by the front light receiving unit. If this is the case, the optical signal is used as an instruction to the front light receiving unit,
The in-vehicle monitor system according to claim 1. The rear light receiving unit is provided with a shield that blocks an optical signal of the remote control device emitted from the front part of the vehicle interior ahead of the rear light receiving unit,
The in-vehicle monitor system according to any one of claims 1 to 4.

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