JP2010062687A - Television receiver - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent a failure of a component due to heat and a halt of a video recording process even when temperature abnormality of a component related to video display or audio output is detected during a recording process of broadcast content, in a television receiver including a video recording function. <P>SOLUTION: When the temperature abnormality of a backlight 17 in a video display part is detected by a control circuit 4, and the temperature abnormality is detected during execution of a video recording process, the power distribution to the backlight 17 is stopped or restrained while continuing the video recording process by a recording/reproducing circuit 8, and the occurrence of the temperature abnormality is reported. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a television receiver having a recording function.

  In recent years, thin television receivers typified by liquid crystal television receivers have a built-in data recording / reading device for recording and reading data on a data recording medium, and contents such as broadcast programs ( Some have a recording function for recording (broadcast content) and a reproduction function based on recorded data. As a result, space saving of the entire AV system having a recording / playback function is realized. The data recording / reading device is, for example, a drive device for a memory disk such as a DVD (Digital Versatile Disc), a Blu-ray disc, or a hard disk, or a memory slot to which a card type memory is attached or detached.

In addition, a thin television receiver has a small ratio of the volume of the apparatus to the amount of heat generated from a heating element such as a backlight or a volume control amplifier, and the heat load per unit volume is high. For this reason, some components of a thin television receiver may become excessively hot depending on usage conditions such as continuous operation for a long time or use in a high temperature environment. For example, in a liquid crystal television receiver, the backlight and the liquid crystal panel may become excessively hot due to the heat generated from the backlight, or the amplifier may become excessively hot due to the heat generated from the volume control amplifier. .
A conventional television receiver monitors the temperature of a component that tends to become high temperature, and when an abnormal temperature (excessive high temperature) of the component is detected, the power is turned off (standby state for detecting a power-on operation). It was automatically migrated. Thereby, it is possible to prevent the component from being damaged by heat.
On the other hand, Patent Document 1 discloses an image forming apparatus that shifts to a power-off state after storing abnormal fixing information in an EEPROM when an abnormal temperature of the fixing heater is detected.
JP-A-9-329998

However, if a television receiver equipped with a recording function detects an abnormal temperature (excessive high temperature) of parts related to video display or audio output during the broadcast content recording process, it will record when the power is turned off. There was a problem that processing was interrupted. In general, broadcast content cannot be re-recorded if the broadcast time is missed. For this reason, the recording process of broadcast content is unexpectedly interrupted, which makes users feel dissatisfied.
Accordingly, the present invention has been made in view of the above circumstances, and an object of the present invention is to provide a component for video display and audio output during a broadcast content recording process in a television receiver having a recording function. An object of the present invention is to provide a television receiver capable of avoiding failure of parts and interruption of recording processing due to heat even when a temperature abnormality is detected.

In order to achieve the above object, a television receiver according to the present invention is an apparatus provided with each component shown in the following (1) to (4).
(1) Video display means for displaying the video of the broadcast content based on the video signal of the broadcast content.
(2) Recording means for recording the broadcast content based on the video signal of the broadcast content.
(3) First temperature abnormality detection means for detecting a temperature abnormality of the image display means.
(4) When a temperature abnormality is detected by the first temperature abnormality detection means during the execution of the recording process by the recording means, energization to the video display means is stopped while continuing the recording process by the recording means Or the 1st temperature abnormal time control means to suppress.
In a television receiver having a recording function, the recording process can be continued even when the power supply to the video display means is stopped or suppressed. Therefore, according to the present invention, in the television receiver having a recording function, even if a temperature abnormality of a part related to video display or audio output is detected during the broadcast content recording process, the video display means by heat is detected. Failure and interruption of the recording process can be avoided.
Further, it is preferable that the television receiver according to the present invention further includes a component shown in the following (5).
(5) Abnormality notification means for notifying that when the first temperature abnormality control means continues the recording process by the recording means and stops or suppresses the energization of the video display means.
Thereby, since the user (viewer of the image) can grasp the abnormal situation, it is possible to prevent the user from being overwhelmed more than necessary.

Further, when the television receiver according to the present invention is a liquid crystal television receiver, the first temperature abnormality detecting means and the first temperature abnormality control means are respectively the following (6) and (7). It is conceivable to execute the processing shown in FIG.
(6) The first temperature abnormality detection means detects a temperature abnormality in one or both of the liquid crystal panel included in the video display means and the illumination means that illuminates the liquid crystal panel.
(7) The first temperature abnormality control unit stops or suppresses energization to the illumination unit while continuing the recording process by the recording unit.
In this case, it is conceivable that the first temperature abnormality detecting means and the first temperature abnormality control means execute the processes shown in the following (8) and (9), respectively. This example is an example in which the first temperature abnormality control unit suppresses energization to the illumination unit (decreases the supplied power).
(8) The first temperature abnormality control unit sequentially selects some light sources from among a plurality of light sources provided in the illumination unit while continuing the recording process by the recording unit, and the some light sources Is energized and the energization of the remaining light sources is stopped.
(9) The first abnormality notification unit displays notification information in a partial area of the liquid crystal panel illuminated by the partial light source that is energized in the illumination unit.
Thereby, in the illumination means, the supplied power is suppressed and the light source to be energized is sequentially switched. Therefore, the temperature of the illumination means and the liquid crystal panel is lowered and the failure due to heat does not occur. In addition, since the illumination unit and the liquid crystal panel are effectively used for notification of abnormality, it is possible to provide a user-friendly notification.

Further, it is conceivable that the television receiver according to the present invention further includes each component shown in the following (10) and (11).
(10) Temperature abnormality elimination detection means for detecting that the temperature abnormality of the image display means has been eliminated.
(11) Abnormality elimination notification means for notifying that when the temperature abnormality elimination detection means detects the elimination of the temperature abnormality of the video display means.
As a result, the user can quickly know that it is possible to view the video again, and convenience is enhanced.
Further, it is conceivable that the television receiver according to the present invention further includes each component shown in the following (12) to (14).
(12) Volume control means for amplifying an audio signal of the broadcast content and supplying it to a speaker.
(13) Second temperature abnormality detecting means for detecting a temperature abnormality of the volume adjusting means.
(14) When a temperature abnormality is detected by the second temperature abnormality detection means during the execution of the recording process by the recording means, the energization to the volume control means is stopped while continuing the recording process by the recording means Second temperature abnormality control means.
In the television receiver, the volume control means (volume control amplifier) is a component that tends to be hot like the video display means. Therefore, the configuration shown in the above (12) to (14) is effective for avoiding failure of the volume control means and interruption of the recording process due to heat.

  The television receiver according to the present invention can avoid failure of a component due to heat and interruption of the recording process even when a temperature abnormality of the component related to video display or audio output is detected during the broadcast content recording process.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that the present invention can be understood. The following embodiment is an example embodying the present invention, and does not limit the technical scope of the present invention.
FIG. 1 is a block diagram showing a schematic configuration of the television receiver X according to the embodiment of the present invention, FIG. 2 is a flowchart showing a control procedure when the television receiver X has a temperature abnormality, and FIG. 3 is a television. The figure showing an example of the temperature abnormality notification screen in the receiver X.

First, the configuration of the television receiver X according to the embodiment of the present invention will be described with reference to the block diagram shown in FIG.
As shown in FIG. 1, the television receiver X is a liquid crystal television receiver, and includes a plurality of tuners, an external signal input unit 2, a demodulation / separation circuit 3, a video decoding circuit 11, a video selection circuit 12, and a video. Processing circuit 13, liquid crystal driver 14, liquid crystal panel 15, dimming circuit 16, backlight 17, notification lamp 18, audio decoding circuit 21, audio selection circuit 22, audio processing circuit 23, amplifier 24, speaker 25, control circuit 4 It includes an energization switching circuit 5, a remote control light receiving unit 6, a remote control 7, a recording / playback circuit 8, a disk drive 9, and temperature sensors 10a and 10b.

The tuner 1 is an electronic component that extracts a signal of content being broadcast (broadcast content) from an input television broadcast signal. More specifically, the tuner 1 extracts a carrier frequency component signal including a broadcast program signal instructed to be selected by the control circuit 4, and transmits the extracted signal to the demodulation / separation circuit 3 in the subsequent stage. To do. The tuner 1 is provided for each broadcasting medium (terrestrial wave, BS, CS, etc.).
The demodulation / separation circuit 3 demodulates a transport stream signal (Transport Stream signal: hereinafter referred to as a TS signal) from the carrier frequency component transmitted from the tuner 1. Further, the demodulation / separation circuit 3 separates and extracts a video signal and an audio signal corresponding to a broadcast program to be viewed and additional data from the extracted TS signal. Further, the demodulation / separation circuit 3 extracts a video signal and an audio signal of a broadcast program to be viewed according to a PID (Packet IDentification) received from the control circuit 4, and each signal is extracted from the video decoding circuit 11 And to each of the speech decoding circuits 21.
Further, the demodulation / separation circuit 3 extracts SI (Service Information) as additional data from the TS signal and transmits it to the control circuit 4. The SI is data in which information of an EPG (electronic program guide) (for example, information indicating a program name, a program genre, a broadcast time, etc.) is multiplexed.

The external signal input unit 2 is a signal input interface for inputting a video signal and an audio signal from an external device.
The disk drive 9 is a device in which a removable memory disk such as a DVD or a Blu-ray disk is set, and data is read from and written to the memory disk. At that time, the disk drive 9 accesses the data recorded on the memory disk at a speed corresponding to the rotation speed while rotating the set memory disk at a variable speed by a motor (servo motor).

The recording / playback circuit 8 executes a process for outputting a command for the rotational speed (motor rotational speed) of the memory disk to the disk drive 9, and a content recording process and a content playback process. It is.
For example, the recording / playback circuit 8 (an example of a recording unit) performs content recording processing based on the video signal output from the video selection circuit 12 and the audio signal output from the audio selection circuit 22. At that time, the recording / reproducing circuit 8 generates content data (recording data) from the input signal and records the data on the memory disk through the disk drive 9. The content that is symmetrical to the recording is content of a broadcast program obtained by the tuner 1 (broadcast content) or content that is input through the external signal input unit 2.
Further, the recording / playback circuit 8 reads content data (recorded data) from the memory disk through the disk drive 9 and executes a content playback process for generating a playback signal for the content. The reproduction signals are a reproduction video signal (video signal) and a reproduction audio signal (audio signal) of the content, the video signal in the reproduction signal is sent to the video selection circuit 12, and the audio signal in the reproduction signal is the audio selection circuit. 22 is transmitted.
Thereby, in the television receiver X, the video of the content of the broadcast program is displayed on the basis of the video signal of the content of the broadcast program by the liquid crystal panel 15 (an example of video display means) illuminated by the backlight 17. Is displayed.
Further, the amplifier 24 (an example of volume control means) amplifies the audio signal of the content such as a broadcast program, and supplies the amplified audio signal to the speaker 25.

The video decoding circuit 11 decodes the video signal transmitted from the demodulation / separation circuit 3 and transmits the decoded video signal to the video selection circuit 12. Similarly, the audio decoding circuit 21 decodes the audio signal transmitted from the demodulation / separation circuit 3 and transmits the decoded audio signal to the audio selection circuit 22.
The video selection circuit 12 selects one or a plurality of video signals from a plurality of video signals input according to a control command from the control circuit 4 and transmits the selected video signals to the video processing circuit 13. Further, the video selection circuit 12 selects one video signal from the video signals of a plurality of input contents and transmits it to the recording / playback circuit 8. The video input to the video selection circuit 12 includes a video signal of broadcast program content (broadcast content) input through the video decoding circuit 11 and a video of external input content input through the external signal input unit 2. And a video signal of the playback content input through the recording / playback circuit 8 are included.

The video processing circuit 13 generates a frame image signal to be supplied to the liquid crystal driver 14 in order to display a content image on the liquid crystal panel 15 in accordance with a control command from the control circuit 4.
For example, the video processing circuit 13 generates a frame image signal for display in which images of one or a plurality of contents are laid out in the entire display area in accordance with a control command from the control circuit 4. That is, the video selection circuit 12 displays a frame image signal in which an image of one content is displayed over the entire display area or only in a part of the display area, and a plurality of content images are arranged and arranged. Frame image signals and the like are generated.

The liquid crystal driver 14 controls the liquid crystal panel 15 based on the frame image signal sequentially transmitted from the video processing circuit 13 in a predetermined cycle, and corresponds to one frame (one frame) corresponding to the frame image signal. This circuit sequentially displays images on the liquid crystal panel 15.
The liquid crystal panel 15 is an example of video display means for displaying video corresponding to the frame image signal in accordance with control by the liquid crystal driver 14.
The backlight 17 illuminates the display area of the liquid crystal panel 15 from the back side with light from a plurality of light sources arranged on the back side of the liquid crystal panel 15. The plurality of light sources in the backlight 17 are, for example, fluorescent tubes and LEDs.
The light control circuit 16 is a circuit that adjusts the brightness of light emitted from the backlight 17 by adjusting the power supplied to the light source of the backlight 17 in accordance with a control command from the control circuit 4.

The voice decoding circuit 21 decodes the voice signal transmitted from the demodulation / separation circuit 3 and transmits the decoded voice signal to the voice selection circuit 22.
The audio selection circuit 22 is a circuit that selects one audio signal from a plurality of input audio signals in accordance with a control command from the control circuit 4 and transmits the selected audio signal to the audio processing circuit 23. The audio selection circuit 22 also executes a process of selecting one audio signal from a plurality of input audio signals and transmitting it to the recording / playback circuit 8 in accordance with a control command from the control circuit 4. . The audio signal input to the audio selection circuit 22 includes an audio signal of the content of the broadcast program selected by the tuner 1 (an audio signal input through the audio decoding circuit 21), and the external signal input unit 2 And the audio signal of the playback content input through the recording / playback circuit 8 are included.
The voice processing circuit 23 performs various signal processing on the voice signal selected by the voice selection circuit 22 in accordance with an instruction from the control circuit 4. For example, equalization processing, surround processing, or the like according to the characteristics of the speaker 25 is performed.
The amplifier 24 amplifies the audio signal processed by the audio processing circuit 23 in accordance with an instruction from the control circuit 4, performs a volume adjustment process for adjusting the amplification gain, and outputs the processed audio signal to the speaker. 25 is output. The amplifier 24 is, for example, a digital amplifier.

The two temperature sensors 10a and 10b are temperature detection means such as a thermistor. One of the first temperature sensors 10 a is mounted on a substrate on which the light source in the backlight 17 is mounted, and detects the temperature of the backlight 17. Since the backlight 17 and the liquid crystal panel 15 are close to each other, the first temperature sensor 10 a substantially functions as a sensor for detecting the temperature of the liquid crystal panel 15.
The other second temperature sensor 10b is disposed in proximity to the amplifier 24 and detects the temperature of the amplifier 24.
Since the backlight 17 and the amplifier 24 generate a larger amount of heat than other components, the backlight 17 and the amplifier 24 may have excessively high temperatures (such as continuous operation for a long time or use in a high temperature environment) depending on the usage status of the television receiver X. It is a part that may become an abnormal temperature. Further, the liquid crystal panel 15 may become excessively high temperature (temperature abnormality) due to heat from the backlight 17. The first temperature sensor 10a and the second temperature sensor 10b are sensors that are used to detect temperature abnormalities in the backlight 17, the liquid crystal panel 15, and the amplifier 24 that tend to be high in temperature.

The remote control light receiving unit 6 is a signal transmission interface for receiving a radio signal by infrared rays from a remote control 7 (remote operation device) for operating the television receiver X according to a predetermined signal transmission protocol (so-called remote control protocol). . The remote control light receiving unit 6 extracts a signal representing operation input information for the remote control 7 from the infrared signal, and transmits the signal to the control circuit 4.
The energization switching circuit 5 is a circuit for switching whether or not to individually energize each of a plurality of component blocks provided in the television receiver X in accordance with a control command from the control circuit 4. For example, the energization switching circuit 5 can individually switch whether or not the dimming circuit 16 is energized and whether or not the amplifier 24 is energized.
The notification lamp 18 is a light emitting unit such as an LED for notifying the state of the television receiver X, and is disposed on a part of the frame member around the liquid crystal panel 15. For example, when the television receiver X is in a normal standby state (a state before starting activation in response to a power-on operation on the remote controller 7), the notification lamp 18 maintains a light emission at a low luminance. It becomes. Further, when the television receiver X is in a normal operating state (power ON state), the notification lamp 18 is in a state of maintaining light emission with high luminance. Further, when the television receiver X is in an abnormal state (for example, a temperature abnormal state), the notification lamp 18 is in a blinking state. The lighting state of the notification lamp 18 is controlled by the control circuit 4.

The control circuit 4 includes an MPU 4a that is a calculation means, and a ROM 4b (EPROM) and an EEPROM 4c that are storage means, and the MPU 4a controls the entire television receiver X by executing a control program.
The ROM 4b stores in advance a control program executed by the MPU 4a. The EEPROM 4c stores various data that is read and written (referenced or written) in the process executed by the MPU 4a.
In the following description, the processing executed by the control circuit 4 is realized by the MPU 4a executing a control program stored in the ROM 4b.
For example, the control circuit 4 acquires channel tuning and volume control information through the remote controller 7 and the remote control light receiving unit 6, and selects a tuning instruction for the tuner 1 and the amplifier 24 according to the contents of the acquired information. Outputs volume adjustment instructions.
As will be described later, the control circuit 4 detects a temperature abnormality based on the detected temperatures of the two temperature sensors 10a and 10b, and executes control when the temperature is abnormal.

Further, the control circuit 4 is based on the SI extracted by the demodulating / separating circuit 3, and provides EPG information (electronic program guide information) that is information relating to the content (program) currently being broadcast and the content to be broadcast from now on. ) To get. The EPG information is recorded in the EEPROM 4c.
The EPG information includes broadcast program content title (program name), broadcast medium type (terrestrial, BS, CS, etc.) and broadcast channel, broadcast start date / time and broadcast end date / time, content genre (news, wide show). Etc.), information on performers, etc. is included.
Then, the recording / playback circuit 8 acquires the EPG information (title, genre, etc.) related to the content to be recorded from the control circuit 4 during the recording process of the content of the broadcast program, and records the recorded data (contents of the content). Data) in the memory disk.
Further, the recording / playback circuit 8 reads the EPG information recorded in the memory disk together with the recording data (content data) to be played back during the content playback process, and sends it to the control circuit 4. To transmit.

  Next, an example of a control procedure performed when the temperature is abnormal by the control circuit 4 will be described with reference to the flowchart shown in FIG. The processing shown in FIG. 2 is executed when the television receiver X is outputting broadcast program content (video display and audio output) in response to a power-on operation on the remote controller 7. Is done. Note that S1, S2,... Shown below represent identification codes of processing procedures (steps).

First, the control circuit 4 determines whether or not a recording process is being performed by the recording / playback circuit 8 (S1), and switches the process according to the determination result. The recording process by the recording / reproducing circuit 8 includes a recording process of broadcast program content (broadcast content).
When the recording process is not in progress, the control circuit 4 detects the presence or absence of a display unit temperature abnormality based on the temperature detected by the first temperature sensor 10a (S2), and further detects the second temperature sensor 10b. The presence / absence of an amplifier temperature abnormality is detected based on the temperature (S3). For example, the control circuit 4 continues when the detected temperature of each temperature sensor exceeds the upper limit temperature predetermined for each temperature sensor or exceeds the preset temperature predetermined for each temperature sensor for a predetermined time or longer. In such a case, it is determined that the temperature is abnormal.
Then, the control circuit 4 returns the process to the above-described step S1 when no temperature abnormality is detected at any of the detected temperatures of the first temperature sensor 10a and the second temperature sensor 10b.

If the display unit temperature abnormality or the amplifier temperature abnormality is detected when the recording process is not being performed, the control circuit 4 notifies the notification lamp 18 that a temperature abnormality has occurred (S4). For example, the control circuit 4 notifies the occurrence of temperature abnormality by blinking the notification lamp 18.
Further, the control circuit 4 controls the energization switching circuit 5 to shift the television receiver X to a standby state (a state before starting activation in response to a power ON operation on the remote controller 7). (S5), the process when the temperature is abnormal is terminated. Accordingly, the user can grasp that the television receiver X has shifted to the standby state due to the occurrence of a temperature abnormality, based on the lighting state of the notification lamp 18.

On the other hand, when the recording process is in progress, the control circuit 4 detects the presence / absence of a display unit temperature abnormality based on the temperature detected by the first temperature sensor 10a (S6), as in steps S2 and S3. The presence or absence of an amplifier temperature abnormality is detected based on the temperature detected by the second temperature sensor 10b (S7).
Then, the control circuit 4 returns the process to the above-described step S1 when no temperature abnormality is detected at any of the detected temperatures of the first temperature sensor 10a and the second temperature sensor 10b.
The first temperature sensor 10a and the control circuit 4 performing the process of step S6 detect the first temperature abnormality detection that detects the temperature abnormality of the image display means (both the liquid crystal panel 15 and the backlight 17). It is an example of a means. Here, it is also conceivable that the first temperature sensor 10a detects the temperature of only one of the liquid crystal panel 15 and the backlight 17, and the control circuit 4 detects the temperature abnormality of one of them.
Further, the second temperature sensor 10b and the control circuit 4 that performs the process of step S7 are an example of a second temperature abnormality detecting unit that detects a temperature abnormality of the sound volume adjusting unit (the amplifier 24).

Further, when the display unit temperature abnormality or the amplifier temperature abnormality is detected during the recording process, the control circuit 4 controls the energization switching circuit 5 to stop the energization of the component in which the temperature abnormality has occurred. (S8). At this time, the control circuit 4 continues the recording process by the recording / reproducing circuit 8.
For example, when the display unit temperature abnormality is detected, the control circuit 4 stops energization to the dimming circuit 16, so that the backlight 17 (part of the video display unit) that is a heat source in the video display unit. ) Is stopped (an example of first temperature abnormality control means). At this time, it is conceivable that the current supply to the liquid crystal panel 15 is also stopped by stopping the current supply to the liquid crystal driver 14.
When the amplifier temperature abnormality is detected, the control circuit 4 stops energization of the amplifier 24 (an example of second temperature abnormality control means).
Note that the control circuit 4 can also stop energization of the backlight 17 by setting the designated value of the output luminance of the backlight 17 to the dimming circuit 16 to zero.
It is also conceivable to stop energization of both the backlight 17 and the amplifier 24 when the display unit temperature abnormality or the amplifier temperature abnormality is detected during the recording process.

Further, the control circuit 4 indicates that the continuation of the recording process by the recording / playback circuit 8 and the stop of energization to the video display unit (the backlight 17 or the like) or the amplifier 24 are performed by the process of step S8. , Notification is made through the notification lamp 18 (S9: abnormality notification process).
For example, the control circuit 4 performs the notification in step S9 by blinking the notification lamp 18 at a predetermined cycle. In this case, when a temperature abnormality occurs during the recording process, the notification in step S9 when the recording process is continued and the energization control is performed, and when the temperature abnormality occurs when the recording process is not performed, are executed. It is conceivable to make the content different from the notification in step S4. For example, in step S4 and step S9, the blinking cycle of the notification lamp 18 may be changed, the lighting color may be changed, or the like.
Further, when the display portion temperature abnormality occurs, the control circuit 4 outputs the sound data stored in advance in the ROM 4b to the sound processing circuit 23, thereby notifying that the display portion temperature abnormality has occurred. It is also conceivable to output a voice message through the speaker 25.
In addition, when the amplifier abnormality occurs, the control circuit 4 outputs notification information stored in advance in the ROM 4b to the video processing circuit 13 so that a message notifying that the amplifier temperature abnormality has occurred is transmitted. It is also possible to display on the liquid crystal panel 15.

Next, the control circuit 4 executes a process for detecting whether or not the generated temperature abnormality (the display part temperature abnormality or the amplifier temperature abnormality) has been resolved until the recording process is completed (S10). : Temperature abnormality elimination detection processing).
When it is detected in step S10 that the display portion temperature abnormality is eliminated or the amplifier temperature abnormality is eliminated, the control circuit 4 notifies the notification lamp 18 that the temperature abnormality has been eliminated (S11). : Error resolution notification process).
For example, in step S11, the control circuit 4 may switch the notification lamp 18 from a blinking state to a state in which light emission with low luminance is maintained. Thereby, the user can quickly know that it is possible to view the video again.

When the control circuit 4 detects that the recording process scheduled by the recording / playback circuit 8 has ended after the occurrence of the temperature abnormality (S12), the process proceeds to step S5 described above. As a result, the television receiver X shifts to the standby state (a state before starting activation in response to a power-on operation with respect to the remote controller 7), and the process when the temperature is abnormal ends.
According to the television receiver X described above, when a component temperature abnormality (the display unit temperature abnormality or the amplifier temperature abnormality) related to video display or audio output is detected during the recording process of the broadcast program content However, it is possible to avoid failure of parts due to heat and interruption of recording processing.

By the way, when the display part temperature abnormality occurs, it may be not always easy for the user to immediately grasp the abnormality state by the abnormality notification through the notification lamp 18. Moreover, even if a voice notification is given, the user may miss the notification. However, repeating voice notifications can cause discomfort to the user.
Therefore, when the display unit temperature abnormality occurs, the control circuit 4 controls the dimming circuit 16 to suppress the energization to the backlight 17 (decrease the supplied power), and the liquid crystal panel 15 It is conceivable to display a message indicating the content of the abnormality through the screen.

For example, it is conceivable that the control circuit 4 executes an abnormality notification process as described below in steps S8 and S9. FIG. 3 is a diagram illustrating an example of the state of the liquid crystal panel 15 when the abnormality notification process described below is performed.
When the display portion temperature abnormality occurs during the recording process, the control circuit 4 continues the recording process, and selects some of the light sources (fluorescent tubes and LEDs) in the backlight 17. Sequential selection is performed, energization is performed for some of the selected light sources, and energization for the remaining light sources is stopped (S8). Switching of the energization state for the backlight 17 is performed through the dimming circuit 16.
In FIG. 3, a black area is an area where the liquid crystal panel 15 is not illuminated, that is, an area where a light source turned off in the backlight 17 is arranged.
In FIG. 3, the band-shaped basin where the message g1 is displayed is the area where the liquid crystal panel 15 is illuminated, that is, the part of the light source that is lit (energized) in the backlight 17. This is the area that was placed.
Then, the control circuit 4 controls the video processing circuit 13 to cause an abnormal state in a partial area of the liquid crystal panel 15 illuminated by the partial light source that is energized in the illumination backlight 17. Is displayed (S9). Accordingly, the display position of the message g1 is also switched according to the switching of the positions of the part of the light sources that are energized.
As a result, the power supplied to the backlight 17 is suppressed, and the light source to be energized is sequentially switched. Therefore, the temperature of the backlight 17 and the liquid crystal panel 15 is lowered, so that a failure due to heat can be avoided. In addition, since the backlight 17 and the liquid crystal panel 15 are effectively used for notification of abnormality, it is possible to provide a user-friendly notification.

  The present invention can be used for a television receiver.

1 is a block diagram illustrating a schematic configuration of a television receiver X according to an embodiment of the present invention. 6 is a flowchart showing a control procedure when temperature abnormality occurs in the television receiver X. The figure showing an example of the temperature abnormality notification screen in the television receiver.

Explanation of symbols

X: Television receiver 1: Tuner 2: External signal input unit 3: Demodulation / separation circuit 4: Control circuit 5: Energization switching circuit 6: Remote control light receiving unit 7: Remote control 8: Recording / playback circuit 9: Disc drive 10a: 1st temperature sensor 10b: 2nd temperature sensor 11: Video decoding circuit 12: Video selection circuit 13: Video processing circuit 14: Liquid crystal driver 15: Liquid crystal panel 16: Dimming circuit 17: Backlight 18: Notification lamp 21: Audio decoding Circuit 22: Audio selection circuit 23: Audio processing circuit 24: Amplifier 25: Speakers S1, S2,...: Step (processing procedure)

Claims (6)

A television receiver comprising: video display means for displaying a video of the broadcast content based on a video signal of the broadcast content; and recording means for recording the broadcast content based on the video signal of the broadcast content. There,
First temperature abnormality detection means for detecting a temperature abnormality of the image display means;
When a temperature abnormality is detected by the first temperature abnormality detection means during the execution of the recording process by the recording means, the energization to the video display means is stopped or suppressed while continuing the recording process by the recording means. First temperature abnormality control means;
A television receiver, comprising:   An abnormality notification means for notifying that when the first temperature abnormality control means continues the recording process by the recording means and stops or suppresses the energization of the video display means. Item 2. The television receiver according to Item 1. The first temperature abnormality detecting means detects a temperature abnormality of one or both of a liquid crystal panel included in the image display means and an illuminating means for illuminating the liquid crystal panel;
The television receiver according to claim 2, wherein the first temperature abnormality control unit stops or suppresses energization to the illumination unit while continuing the recording process by the recording unit. The first temperature abnormality control unit continuously selects a part of the plurality of light sources provided in the illumination unit while continuing the recording process by the recording unit, and energizes the part of the light sources. And stop energizing the remaining light sources,
The television receiver according to claim 3, wherein the first abnormality notification unit displays notification information in a partial area of the liquid crystal panel illuminated by the partial light source that is energized in the illumination unit. Machine. Temperature abnormality elimination detection means for detecting that the temperature abnormality of the image display means has been eliminated;
An abnormality elimination notification means for notifying that when the temperature abnormality elimination detection means detects the elimination of the temperature abnormality of the video display means;
The television receiver according to claim 1, comprising: Volume control means for amplifying the audio signal of the broadcast content and supplying it to a speaker;
Second temperature abnormality detecting means for detecting a temperature abnormality of the volume adjusting means;
When the temperature abnormality is detected by the second temperature abnormality detecting means during the recording process by the recording means, the energization to the volume adjusting means is stopped while the recording process by the recording means is continued. Temperature abnormality control means,
A television receiver according to claim 1, comprising:

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