JP4623798B2 - Display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, for example, a control unit is provided in order to make a screen for displaying a video signal into a thin structure such as a wall hanging type or a stand type like a plasma display panel (PDP) display device or a TFT liquid crystal panel display device. The present invention relates to a protection circuit against abnormality of a display device having a separated structure.
[0002]
[Prior art]
As a display device for displaying an image, a so-called cathode ray tube, that is, a cathode ray tube (CRT) used in a general home television receiver has been well known.
[0003]
By the way, in recent years, television receivers have been required to be wall-mounted or to be thin and light for placing on a table or desk. Further, there is a demand for space saving on a desk when a display is placed on a desk when using a desktop personal computer or the like. Therefore, a thin display device using TFT liquid crystal or PDP has been developed.
[0004]
In such a thin display device, a video signal processing circuit that processes an input video signal into a signal that can be displayed on the screen is used as a control unit, and the display unit is configured separately from a display unit that includes a display screen such as a TFT liquid crystal or PDP. At the same time, by connecting both parts with a cable, there are some that satisfy the demands for reduction in thickness and weight and the demand for space saving. In other words, the display unit with these control units separated can be placed only on the desk or on the wall where it can be seen, and the control unit that does not need to be visible can be placed on the desk. By installing it in an invisible place such as under or on the wall, it is thinner and lighter than an integrated display device that simply uses a TFT liquid crystal display unit or PDP display unit to form a control unit integrally with the display unit. It is a display device that promotes the realization and space saving.
[0005]
However, since the control unit of a display device separated from such a control unit is often installed at a foot under a desk that is invisible to the human eye, or between a furniture and a wall, etc. Since some of them ride on the door and are not tilted correctly but installed at an angle, they may fall over due to slight vibrations. Further, even when the control unit is installed in a correct posture, the user of the display device may be kicked during use or walking and fall down.
[0006]
When the control unit falls, for example, the heat dissipation hole provided on the side lays down and the upper opening area decreases, so the heat dissipation efficiency of the control unit decreases, and the internal temperature of the control unit rises to an abnormal temperature Things are likely to happen.
[0007]
Also, even if the control unit is installed normally, the installation location is not visible to the feet under the desk or the gap between the furniture and the wall, etc., so it fell on the control unit from the desk If paper gets on or dust or the like accumulates on the control unit, the heat dissipation holes provided on the control unit are blocked, and the heat dissipation efficiency of the control unit is reduced. A situation in which the temperature rises to an abnormal temperature is likely to occur.
[0008]
By the way, in the conventional display device separated from the control unit, a cooling fan, a temperature abnormality detection circuit, etc. are provided on the display unit side, and an abnormality occurring on the display unit side is notified to the user from the display unit or the control unit. As is known, the control unit is only provided with a protection circuit that shuts off the power supply by a simple thermal fuse or thermistor, etc. None of them had a means to notify the user.
[0009]
Therefore, because an abnormality has occurred on the control unit side, even if there is a limitation or abnormality in the display content of the display unit, the user does not know the limitation of the display content or the reason for the occurrence of the abnormality. It was not possible to take recovery measures such as setting the department to the correct installation posture.
[0010]
Hereinafter, the configuration of a display device separated by a conventional control unit will be described with reference to the drawings.
FIG. 10 is a block diagram illustrating a configuration of a display device separated by a conventional control unit.
[0011]
In the display device 200 of FIG. 10, the display unit 1 and the control unit 2 are connected by a connection cable 3, and the casing of the display unit 1 and the casing of the control unit 2 are separated. Since the display unit 1 and the control unit 2 independently obtain power supply power from a commercial power supply, the connection cable 3 transmits and receives video signals and control signals.
[0012]
The display unit 1 includes a main display screen 8. In this conventional example, the main display screen is a TFT liquid crystal display panel, and is not self-luminous, so that the auxiliary light emitting circuit 17 is provided as auxiliary light. However, since the power consumption is not so large in the display unit using the TFT liquid crystal display panel, for example, the cooling fan 15 or the like is not necessarily required. However, for example, when the main display screen 8 is a PDP, the power consumption also increases, so the cooling fan 15 or the overcurrent detection circuit 22 and the temperature abnormality detection circuit 23 are often required.
[0013]
The interface circuit 11 converts a video signal and a control signal transmitted / received from the control unit 2 through the connection cable 3 into a signal that can be internally processed by the display unit 1. The main display screen control circuit 12 controls the received video signal to display on the main display screen 8. The control circuit 13 controls each part in the display unit 1 in order to execute processing described in a program or the like stored in the storage circuit 16, and also detects a detection signal from each abnormality detection circuit described later in the display part 1. Is notified to the control unit 2.
[0014]
The power supply circuit 14 obtains power supply power from a commercial power supply or a control unit, and supplies necessary voltage to each unit in the display unit 1 after voltage conversion. The cooling fan 15 is driven at all times or when a temperature abnormality is detected by a temperature abnormality detection circuit 23 described later, and ventilates the air whose temperature has increased inside the display unit 1 and the air at room temperature outside. The storage circuit 16 stores an operation program for the display unit 1 executed by the control circuit 13 and a processing program for detecting an abnormality.
[0015]
As described above, the auxiliary light-emitting circuit 17 uses, for example, a cold cathode tube or a high-intensity LED as auxiliary light for the main display screen 8 such as a liquid crystal that is not self-luminous. It is a means to improve.
[0016]
The power supply abnormality detection circuit 21 detects the abnormal temperature and abnormal output current of the power supply circuit 14. The overcurrent detection circuit 22 detects a case where the current flowing into the main display screen control circuit becomes an overcurrent. The temperature abnormality detection circuit 23 detects that the temperature in the display unit 1 has become an abnormal temperature. The fan abnormality detection circuit 24 detects an abnormal temperature, an abnormal current, and the like of the cooling fan 15. The light detection circuit 25 detects an abnormality of the auxiliary light emitting circuit 17 by detecting the light amount (luminance) of the auxiliary light emitting circuit 17. Further, since the main display screen 8 is a liquid crystal, the light detection circuit 25 can also detect an abnormality of the main display screen 8 by detecting the amount of transmitted external light.
[0017]
On the other hand, the control unit 2 performs signal processing for display on the display unit 1 and outputs the video signal transmitted from a video signal output device such as a television tuner device or a personal computer (not shown).
[0018]
A heat radiating hole 7 is formed in the upper part of the housing of the control unit 2. When the control unit 2 is installed in a correct posture, heat generated inside the control unit 2 from the heat radiating hole 7 is transferred to the outside. Designed to be released.
[0019]
The interface circuit 31 converts the input video signal into a signal that can be processed internally. The video signal processing circuit 32 processes the received video signal into a video signal to be displayed on the display unit 1. The interface circuit 33 converts the processed video signal into a communication signal to the display unit 1.
[0020]
The control circuit 34 is an arithmetic element used for device control such as a microprocessor, for example, and controls each unit in the control unit 2 to execute processing described in a program or the like stored in the storage circuit 35. Based on each abnormality detection signal transmitted from the display unit 1, an abnormality detection notification output is generated. The storage circuit 35 stores an operation program of the control unit 2 executed by the control circuit 34 and a processing program at the time of abnormality detection, and stores each abnormality detection signal received from the display unit 2. The sound output circuit 36 includes, for example, a buzzer and generates an alarm sound by an abnormality detection notification output from the control circuit 34. The display output circuit 37 is made of, for example, an LED or the like, and turns on a warning lamp by an abnormality detection notification output from the control circuit 34. The power supply circuit 38 obtains power supply power from a commercial power supply, and supplies necessary voltage to each unit in the control unit 2 after voltage conversion.
[0021]
Next, an operation when an abnormality is detected in the display device 200 of FIG. 10 will be described.
When an abnormality is detected by any of the power supply abnormality detection circuit 21, overcurrent detection circuit 22, temperature abnormality detection circuit 23, fan abnormality detection circuit 24, or light detection circuit 25, the abnormality detection signal is sent to the control circuit 13. Sent. The control circuit 13 executes processing in accordance with the processing program at the time of abnormality detection stored in the storage circuit 16, and sends an abnormality detection signal to the control unit 2 via the interface circuit 11.
[0022]
The abnormality detection signal received by the control unit 2 is converted into an abnormality detection signal that can be internally processed by the interface circuit 33 and input to the control circuit 34. In the control circuit 34, the received abnormality detection signal is stored in the storage circuit 35 and an abnormality processing program corresponding to the abnormality detection signal is read from the storage circuit 35 and executed to generate an alarm sound for the sound output circuit 36. The abnormality detection notification output for sending the warning lamp for lighting the warning lamp is sent to the display output circuit 37.
[0023]
As a conventional technique as described above, for example, Japanese Patent Laid-Open No. 9-244571 discloses a display device in which a control unit that does not have an auxiliary light emitting circuit or the like is a separated type because the main display screen is a PDP. It is shown.
[0024]
In the display device described in Japanese Patent Laid-Open No. 9-244571, an overcurrent detection circuit 13 that detects an overcurrent input to the PDP drive circuit 12 in the display unit 1 and a power supply abnormality detection circuit that detects an abnormality in the power supply circuit 14a. 14b, the abnormality signal output from the four abnormality detection circuits of the temperature abnormality detection circuit 16 for detecting the abnormality of the internal temperature of the display unit 1 and the fan abnormality detection circuit 15b for detecting the abnormality of the cooling fan 15a is input to the MPU 17, An abnormal signal is transferred to the control unit 2 by the MPU 17. In the control unit 2, the MPU 23 causes the LED 25, the buzzer 24, or the like to perform output corresponding to the abnormality content.
[0025]
For example, Japanese Patent Laid-Open No. 6-308907 discloses a liquid crystal inverter abnormality detection method.
The display device described in Japanese Patent Application Laid-Open No. 6-308907 shows a case of a centralized management system having a plurality of display units for one control unit, and each of the display devices 101 to 103 including a plurality of liquid crystal panels. The brightness is measured by the light quantity sensors (brightness sensors) 111 to 113 installed in the monitor, the brightness is monitored by one control device 20, the display device having an abnormality is discriminated by the discriminating means 21, and the display device In this system, numbers and the like are displayed on the display means 30. In addition, in this display device, a light quantity sensor is installed between the backlight and the liquid crystal panel to detect external light, and thus a technology for detecting a failure of each liquid crystal panel based on the transmittance of the external light is shown. Has been.
[0026]
[Problems to be solved by the invention]
However, in the display device disclosed in Japanese Patent Laid-Open No. 9-244571 described above, the abnormal content of the display unit 1 is only output by a buzzer sound or LED lighting. Therefore, it is difficult for the user of the display device to instantly understand what the meaning of the buzzer sound or LED lighting suddenly output when an abnormality occurs is. In addition, since the output content is only a buzzer sound or LED lighting, after the user perceives that an abnormality has occurred in the display unit, the user confirms the lighting state of the display unit or the display in the vicinity of the display unit, etc. You must check where the anomaly has occurred.
[0027]
Further, in the centralized management system disclosed in Japanese Patent Application Laid-Open No. 6-308907, since abnormality in luminance of a plurality of display devices is managed by one control device, various characteristics and luminance that are different for each display device. Complicated management is required for sensors and equipment for the influence of external light. Therefore, not only a complicated luminance management system is required, but also an individual display device requires a complicated structure because accurate luminance measurement is required.
[0028]
In addition, in the conventional display device, as described above, there is no device having means for notifying the user from the display unit or the control unit about the abnormality occurring on the control unit side. If there is a restriction or abnormality on the display content based on the occurrence, the user cannot know the restriction on the display content, the reason for the occurrence of the abnormality, and the location of the abnormality, and initiate recovery measures for the abnormality. Has the problem of being delayed.
[0029]
Furthermore, if there is an auxiliary light emitting circuit that illuminates the main display screen in the vicinity of the main display screen of the display unit, is there an abnormality on the auxiliary light emitting circuit side when an abnormality occurs in the illumination? In addition, it is impossible to know where the abnormality occurred on the power circuit side, and when there are a plurality of light emitting means of the auxiliary light emitting circuit, an abnormality indicating which light emitting part the abnormality occurred Since the location where the error occurred cannot be known, there is a problem that recovery measures for the abnormality cannot be started.
[0030]
The present invention has been made to solve the above-described conventional problems, and allows the user of the display device to easily recognize the location where the abnormality has occurred, and to quickly take a recovery measure against the abnormality. An object of the present invention is to provide a display device having a relatively simple system configuration that can be started.
[0031]
[Means for Solving the Problems]
In order to achieve the above-described object, the display device according to the first aspect of the present invention is configured such that a control unit including a video signal processing circuit that performs signal processing on an input video signal includes a main display screen. The control unit is configured to detect that the installation posture of the control unit is abnormal, and to detect that the internal temperature of the control unit is abnormal. A temperature abnormality detection circuit to detect, a font storage circuit storing various character fonts to be displayed on the display unit, and a message corresponding to the abnormality content when an abnormality is detected in the display device; A font control circuit that performs input / output control of a character font; a synthesis circuit that synthesizes the character font on an arbitrary screen to generate a video signal of a message screen; the input video signal; Characterized in that it comprises a selection circuit for selecting and outputting one of the video signals of the message screen.
[0032]
According to a second aspect of the present invention, there is provided the display device according to the first aspect, wherein the control unit starts counting a predetermined time that is preset when an abnormality in the internal temperature of the control unit is detected; A cooling fan that lowers the internal temperature by replacing the internal air with the external air, and a fan control circuit that starts the cooling fan when an abnormality in the internal temperature is detected even when the timer finishes timing It is characterized by that.
[0033]
According to a third aspect of the present invention, there is provided the display device according to the first or second aspect, wherein the display unit includes a sub display screen controlled independently of the main display screen, and the message screen on the sub display screen. And a sub-display screen control circuit to be displayed.
[0034]
According to a fourth aspect of the present invention, in the display device according to any one of the first to third aspects, the display unit includes an auxiliary light emitting circuit that illuminates the main display screen in the vicinity of the main display screen. In addition, the display unit includes a light emission abnormality detection circuit that detects a light emission abnormality of the auxiliary light emission circuit, and the control unit responds by the font control circuit when an abnormality is detected by the light emission abnormality detection circuit. Generating and outputting a message to be output.
[0035]
According to a fifth aspect of the present invention, there is provided a display device according to the present invention, wherein a control unit including a video signal processing circuit that performs signal processing on an input video signal and a display unit including a main display screen are integrally formed, A display device having an auxiliary light emitting circuit for illuminating the main display screen in the vicinity of the main display screen, the font storage circuit storing various character fonts to be displayed on the display unit, and an abnormality in the display device When a message is detected, a font control circuit that controls the input / output of the character font in order to generate a message corresponding to the abnormal content, and a video signal of the message screen by combining the character font on an arbitrary screen A selection circuit for selecting and outputting one of the input video signal and the video signal of the message screen, and the main display screen are controlled independently of the power display. The amount is small sub display screen, and a sub display screen control circuit for displaying the message screen on the sub display screen, characterized in that it comprises a light emitting abnormality detection circuit for detecting an abnormal emission of the auxiliary light emitting circuit.
[0036]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described based on illustrated embodiments.
Embodiment 1 FIG.
1 is a perspective view showing a schematic configuration of a display device according to a first embodiment of the present invention, and FIG. 2 is a block diagram showing an internal configuration of the display device of FIG. 1 or 2, the same reference numerals are given to the same functions as those of the conventional display device 200 shown in FIG. 10, and a duplicate description is omitted.
[0037]
In the display device 301 of the first embodiment, the display unit 51 and the control unit 52 are connected by the connection cable 3, and the casing of the display unit 51 and the casing of the control unit 52 are separated. Since the display unit 51 and the control unit 52 obtain power power from the commercial power source independently by using the power cables 4 and 5, the connection cable 3 transmits and receives the video signal and the control signal. .
[0038]
The display device 301 of the first embodiment shown in FIGS. 1 and 2 is mainly different from the conventional display device 200 shown in FIG. 10 in that a control unit 52 includes a posture abnormality detection circuit 61, a temperature abnormality detection circuit 62, The point where the font control circuit 63 and the font storage circuit 64 are newly installed, the point where the counter 39 is provided in the control circuit 34 in relation to the installation of the posture abnormality detection circuit 61, and the installation of the font control circuit 63 In this regard, a synthesizing circuit 65 and a selection circuit 66 are provided in the video signal processing circuit 32.
[0039]
The posture abnormality detection circuit 61 is a circuit for detecting whether or not the control unit 52 is installed in a correct posture. For example, as shown in FIG. 3, the posture abnormality detection circuit 61 can detect a posture abnormality. It can be constituted by a certain sensor and its peripheral circuit.
[0040]
The sensor 110 of FIG. 3 is configured by providing a pendulum-like conductive electrode (positive side electrode) 112 in a cylindrical conductive electrode (negative side electrode) 111 so that the electrodes do not normally contact each other. . A voltage is applied between the electrodes 111 and 112 from the power supply circuit 38 via the voltage adjusting resistor R101. Further, the voltage of the conductive electrode (positive electrode) 112 is input to the control circuit 34 via a circuit composed of R102 and C101, and is periodically monitored by the control circuit 34.
[0041]
In the monitoring of the control circuit 34, for example, when the control unit 52 is installed in a correct posture, the positive side electrode 112 in the sensor 110 is separated from the negative side electrode 111. Therefore, the control circuit 34 detects a voltage substantially equal to the voltage applied from the power supply circuit 38. However, when the control unit 52 falls, the positive electrode 112 in the sensor 110 comes into contact with the negative electrode 111, so that current flows between the electrodes, and the applied voltage drops. The control circuit 34 detects a voltage that is lower than the voltage applied from the power supply circuit 38. Due to this voltage drop, the control circuit 34 can detect that the posture of the control unit 52 has become incorrect due to a fall or the like.
[0042]
The temperature abnormality detection circuit 62 is, for example, a circuit that detects a temperature by using a thermocouple or the like, and detects a temperature higher than a predetermined temperature that is regarded as dangerous for safety management. It is arranged on the upper part of a component that generates a large amount of heat, such as around 34, and easily rises in temperature during use.
[0043]
The font control circuit 63 is a circuit that creates a warning message according to an instruction from the control circuit 34. For example, the font control circuit 63 reads a character font necessary for creating a warning message from a font storage circuit 64 described later, and sends the character font to the video signal processing circuit 32 in the order of the character of the message.
[0044]
The font storage circuit 64 is a circuit that stores data of all character fonts necessary for the warning message.
[0045]
A counter 39 provided in the control circuit 34 starts the counter 39 when the posture abnormality detection circuit 61 detects an abnormality, and can control whether the detected abnormality is not a false detection due to vibration or the like. In order to measure a predetermined time such as a time sufficient for the user of the display device 301 who notices the device 52 to fall down to perform the operation of returning the posture of the control device 52 to the original state, the posture abnormality detection circuit 61 detects an abnormality. The number of processes executed each time it is detected is measured. Therefore, the counter 39 functions as a kind of timer.
[0046]
FIG. 4 is an operation flowchart of the control circuit 34 until the display device 301 according to the first embodiment displays a warning message using the posture abnormality detection circuit 61 and the counter 39.
[0047]
First, the control circuit 34 resets the counter 39, and sets the count value n of the counter 39 to n = 0 (step S1). Next, the control circuit 34 starts reading the voltage data detected by the posture abnormality detection circuit 61 (step S2). Then, the control circuit 34 determines whether or not the attitude of the control unit 52 is normal depending on whether or not the read voltage data is about the power supply voltage (step S3). If the attitude of the control unit 52 is normal (step S3: YES), the process ends.
[0048]
When the posture of the control unit 52 is not normal (step S3: NO), the control circuit 34 sets the count value n of the counter 39 to n = n + 1 (step S4). Then, for the count value n calculated in step S4, it is determined whether or not the count value n is larger than a numerical value N indicating the prescribed number of times (step S5). As described above, this numerical value N is the time during which it can be confirmed that the abnormality in which the count value n is detected is not a false detection due to vibration or the like, or the user of the display device 301 who has noticed that the control device 52 has fallen. It is a numerical value that is set in advance so as to have a sufficient time for executing the operation of returning the attitude of the control device 52 to the original position.
[0049]
When the count value n is larger than the numerical value N indicating the specified number of times (step S5: YES), the control circuit 34 controls the font control circuit 63, the composition circuit 65, the selection circuit 66, etc. A warning message is displayed on the main display screen 8 of the unit 51. If the count value n does not become larger than the numerical value N indicating the specified number of times (step S5: NO), the control circuit 34 returns to step S2 again to read the data detected by the posture abnormality detection circuit 61. It is determined whether or not the attitude of the control unit 52 is normal. If the attitude of the control unit 52 is determined to be normal (step S3: YES) in the determination as to whether the attitude of the control unit 52 is normal again or later (step S3), at that time End the process.
[0050]
A synthesizing circuit 65 provided in the video signal processing circuit 32 synthesizes the character font in the character order of the message sent from the font control circuit 63 as, for example, a video signal that can be displayed on the main display screen 8 of the display unit 51. To do. Further, the selection circuit 66 switches and outputs the video signal by selecting one of the video signal of the warning message synthesized by the synthesis circuit 65 and the video signal input from the interface circuit 31.
[0051]
FIG. 5 is a diagram illustrating an example of a state in which the warning message 101 is displayed in the main display screen 8 of the display unit 51.
In the case of FIG. 5, the warning message 101 is synthesized and displayed in the lower right part of the main display screen 8 on which the mesh-like geometric pattern is displayed. Note that the mesh-like geometric pattern in FIG. 5 is an example, and an arbitrary pattern or color can be selected. For example, a gray solid color or other colors may be used, or other geometric patterns may be used. Also, an arbitrary position can be selected for the layout in which the warning message 101 is combined in the main display screen 8, and may be, for example, the center of the screen or the upper part of the screen.
[0052]
Next, the overall operation of the display device 301 according to the first embodiment will be described.
The temperature abnormality detection circuit 62 that detects the temperature inside the control unit 52 converts the detected ambient temperature into a signal such as voltage or numerical data, and inputs it to the input port of the control circuit 34. The control circuit 34 recognizes the current internal temperature from the signal input from the temperature abnormality detection circuit 62, and determines whether or not it is within the data range of the safe temperature range stored in advance in the storage circuit 35.
[0053]
On the other hand, the posture abnormality detection circuit 61 detects that the posture of the control unit 52 is normal (that is, has not fallen) and notifies the control circuit 34 of it. Thereafter, the control unit 34 performs the control as shown in the flowchart of FIG. That is, when a signal indicating that an abnormality is detected is input from the posture abnormality detection circuit 61, the control circuit 34 starts counting by the counter 39 according to the process shown in the flowchart of FIG. Is determined to be normal.
[0054]
When it is determined that the posture is abnormal by the input from the posture abnormality detection circuit 61, the control circuit 34 outputs an instruction to the font control circuit 63 and creates a warning message corresponding to the posture abnormality from the font storage circuit 64. The data of the character font (character signal) necessary for the reading is sequentially read.
[0055]
The font data read by the font control circuit 63 in the order of warning messages is input to the synthesis circuit 65 of the video signal processing circuit 32. In the combining circuit 65, the input character font data is combined with a predetermined base screen to generate a video signal for the message screen. Then, in response to an instruction from the control circuit 34, the selection circuit 66 in the video signal processing circuit 32 switches the input from the interface circuit 31 to the input from the synthesis circuit 65 and outputs it to the interface circuit 33.
[0056]
The video signal of the message screen is input to the display unit 51, converted into a signal that can be internally processed by the interface circuit 11, and input to the main display screen control circuit 12. The main display screen control circuit 12 generates screen display data from the input video signal of the message screen, and displays a warning message as shown in FIG.
[0057]
Further, when it is determined that the temperature is abnormal due to the input from the temperature abnormality detection circuit 62, the control circuit 34 outputs an instruction to the font control circuit 63, and a warning message corresponding to the temperature abnormality from the font storage circuit 64. The data of the character font (character signal) necessary for creating the data is read in order. Since the subsequent processing is the same as that in the case where it is determined that the posture is abnormal, the description thereof is omitted.
[0058]
In the first embodiment, since the display device 301 is configured and operated as described above, the overturn or abnormal temperature of the control unit 52 can be displayed on the main display screen 8 of the display unit 51. Therefore, this Embodiment 1 can notify the user of the display device 301 so that the abnormality content of the control unit 52 can be easily understood, and can quickly recognize the location where the abnormality has occurred. Recovery measures can be started early. In addition, since the circuit added in the first embodiment uses a circuit that can be used relatively easily that has been conventionally used, an abnormality in the control unit 52 of the display device is used with a relatively simple system configuration. Can be notified.
[0059]
Embodiment 2. FIG.
In the first embodiment described above, the display unit has no cooling fan in the control unit. However, in the second embodiment, the display unit further has a cooling fan in the control unit of the first embodiment. It becomes.
[0060]
FIG. 6 is a block diagram showing an internal configuration of the display device according to the second embodiment of the present invention.
The display device 302 of the second embodiment shown in FIG. 6 is mainly different from the display device 301 of the first embodiment shown in FIGS. 1 and 2 in that a cooling fan control circuit 81 and a cooling fan 82 are provided in the control unit 53. Are newly installed and the timer 40 is provided in the control circuit 34 in connection with the installation of the cooling fan 82.
[0061]
The cooling fan control circuit 81 is a control circuit that controls on and off of the cooling fan 82. The cooling fan 82 is a fan installed in the vicinity of a heat generating part such as the power supply circuit 38 or the control circuit 34 so that the heat in the control unit 53 can be efficiently discharged. The timer 40 provided in the control circuit 34 is a timer device that measures the elapsed time after displaying the warning message shown in the first embodiment.
[0062]
Next, the operation of the display device 302 according to the second embodiment will be described.
The operation until the warning message is displayed on the main display screen 8 of the display unit 51 is the same as that of the first embodiment. The control circuit 34 of the second embodiment starts the timer 40 when displaying a warning message. The time counted by the timer 40 is preset for each content of the warning message. For example, when displaying a posture abnormality message, it takes about one minute for the user to correct the posture of the control unit 53. Time 1 minute. The control circuit 34 performs control to output the instruction to the fan control circuit 81 and turn on the cooling fan 82 when the posture abnormality is detected even if the timer 40 measures 1 minute.
[0063]
Also, when displaying a warning message for temperature abnormality, since it takes time for the temperature to begin to drop even if the user immediately starts recovery measures, for example, the control circuit 34 counts 2 minutes. When a temperature abnormality is detected, an instruction is output to the fan control circuit 81 so that the cooling fan 82 is turned on.
[0064]
In the second embodiment, since the display device 302 is configured and operated as described above, in addition to being able to notify the user of the abnormal content in the same manner as in the first embodiment, the user is absent from the seat, etc. When the recovery measure cannot be implemented even if the abnormality content is displayed on the main display screen 8 of the display unit 51, the internal temperature of the control unit 53 can be lowered to a safe temperature by turning on the cooling fan 82. Therefore, in the second embodiment, the control circuit 34 turns on the cooling fan 82 when no recovery measures or improvement measures are taken even if the abnormality content is displayed. Therefore, a safer display device than in the first embodiment is provided. Can be provided.
[0065]
Depending on the content of the abnormality, there may be a case where the temperature in the control unit 53 does not decrease even when the cooling fan 82 is used. In this case, for example, the power supply circuit 38 is shut off.
[0066]
Embodiment 3 FIG.
In the first and second embodiments described above, the warning message is displayed on the main display screen 8 of the display unit 51. However, in the following third embodiment, the warning message of the first and second embodiments is the main display screen. A display device for displaying on a sub display screen provided separately was provided.
[0067]
FIG. 7 is a block diagram showing an internal configuration of the display device according to Embodiment 3 of the present invention.
The display device 303 of the third embodiment shown in FIG. 7 is mainly different from the display device 302 of the second embodiment shown in FIG. 6 in that a sub display screen control circuit 71 and a sub display screen 72 are provided in the display unit 54. It is a newly established point.
[0068]
Similar to the main display screen control circuit 12, the sub display screen control circuit 71 controls the received video signal to be displayed on the sub display screen 72. Although the sub display screen 72 is smaller than the main display screen 8, it is possible to display the full text of the warning message or to notify the user of the full text by scrolling even if only a part can be displayed.
[0069]
In the first and second embodiments described above, the case where an abnormality has occurred in the control unit 52 or the control unit 53 has been described. However, regarding the abnormality in the display unit 51, the sound output circuit 36 in the control unit 52 or 53 is the same as in the past. The display output circuit 37 is used. This is because when the display unit 51 is displayed on the main display screen 8 when there is an abnormality, there is a concern that the internal temperature of the display unit 51 may be further increased due to heat generated by the power supply circuit 14 or the control circuit 13. This is because, depending on the location of the abnormality, it may not be possible to display on the main display screen 8 as in the case where an abnormality occurs in the auxiliary light emitting circuit 17.
[0070]
However, displaying a warning message for an abnormality in the display unit 51 makes it easier for the user to understand the content of the abnormality and makes it easier to implement a recovery measure at an early stage. Therefore, a small sub display screen 72 is provided separately from the main display screen 8 in the display unit 54 of the third embodiment.
[0071]
Next, the operation of the display device 303 according to the third embodiment will be described.
The operation until the abnormality is detected by any one of the detection circuits 21 to 25 in the display unit 54 and output to the acoustic output circuit 36 or the display output circuit 37 in the control unit 53 is the same as the conventional display device shown in FIG. Since it is the same as 200, the description is omitted.
[0072]
When the control circuit 34 of the control unit 53 according to the third embodiment receives a notification that an abnormality has been detected from the display unit 54, the control circuit 34 outputs the notification to the acoustic output circuit 36 or the display output circuit 37 as described above, and performs font control. An instruction is output to the circuit 63, and data of character fonts (character signals) necessary for creating a warning message corresponding to the abnormality received from the font storage circuit 64 is read in order.
[0073]
Subsequent operations performed in the control unit 53 until the video signal of the message screen is output are the same as those in the first and second embodiments described above, and thus description thereof is omitted.
[0074]
The interface circuit 11 and the control circuit 13 of the display unit 54 that has received the video signal of the message screen, depending on the content of the warning message or the control command accompanying the warning message, 12 and sent to the sub display screen control circuit 71 to display a warning message on the sub display screen 72.
[0075]
In the third embodiment, since the display device 303 is configured and operated as described above, a warning message can be displayed on the secondary display screen for an abnormality in the display unit, and the abnormality content can be notified to the user. . Therefore, in the third embodiment, even when the warning message cannot be displayed on the main display screen, the warning message can be displayed on the sub display screen for the abnormality in the display unit as well as the abnormality in the control unit. A display device that is safer than the first and second embodiments can be provided.
[0076]
Note that the power of the sub display screen control circuit 71 and the sub display screen 72 may be supplied from the power supply circuit 14, but since the sub display screen 72 is small and consumes little power, for example, a battery or a power adapter or the like. Another power source can be used. In that case, in the second embodiment, the main power supply is only shut off when the temperature in the control unit 53 does not drop even when the cooling fan 82 is used. In the third embodiment, such a main power supply is cut off. Even in an environment where is blocked, a warning message can be displayed on the sub-display screen 72, and an abnormality recovery measure can be implemented more quickly.
[0077]
Embodiment 4 FIG.
In the above-described first to third embodiments, the auxiliary light emitting circuit 17 in the display unit detects an abnormality only with respect to luminance after light emission and the like, and the current input to each of the plurality of light emitting units of the auxiliary light emitting circuit 17 is detected. No abnormalities were detected. Therefore, even if it is possible to detect that any of the light emitting means of the auxiliary light emitting circuit 17 is not emitting light by conventional luminance detection or the like, which light emitting means in each light emitting means is abnormal. Could not be detected. The light emitting means is means for illuminating the LCD display panel, such as a cold cathode tube. Therefore, in the following fourth embodiment, the display device is configured to display a warning message about the abnormal content of the auxiliary light emitting circuit 17 that illuminates the main display screen 8 on the sub display screen.
[0078]
FIG. 8 is a block diagram showing an internal configuration of the display device according to Embodiment 4 of the present invention.
The display device 304 according to the fourth embodiment shown in FIG. 8 is mainly different from the display device 303 according to the third embodiment shown in FIG. 7 in that each auxiliary light emission circuit 17 in the display unit 55 is not shown. The current abnormality detection circuit 91 is newly installed on the power input side of the means.
[0079]
The current abnormality detection circuit 91 detects a current value input from the power supply circuit 14 to each light emitting means of the auxiliary light emitting circuit 17 and notifies the control circuit 13 of the current value. Therefore, the control circuit 13 can determine whether each light emitting unit emits light from the current value input to each of the plurality of light emitting units. Hereinafter, the configuration of the current abnormality detection circuit 91 will be described with reference to the drawings.
[0080]
FIG. 9 is a circuit diagram showing a configuration of an example of the current abnormality detection circuit 91.
The auxiliary light emitting circuit 17 is provided with backlights BL1 and BL51 such as two cold cathode tubes. Each of the backlights BL1 and BL51 is caused to emit light by a drive IC and a light emission control circuit for each backlight.
[0081]
The current abnormality detection circuit 91 is connected to the output side of each of the backlights BL1 and BL51, compares the divided component of each output voltage with the reference voltage by the comparators COMP1 and COMP2, and inputs each comparison result to the control circuit 13. is doing. The control circuit 13 detects an abnormality in the current flowing through each of the backlights BL1 and BL51 from each input comparison result.
[0082]
That is, when an abnormality occurs in both the backlights BL1 and BL51 and the backlights are not lit, current does not flow through the backlights BL1 and BL51, so the voltage does not change. At this time, the control unit 13 receives a signal “H” from each of the comparators COMP1 and COMP2. Upon receiving this input signal, the control circuit 13 determines that the backlights BL1 and BL51 are not normally lit.
[0083]
In addition, when an abnormality occurs in only one of the backlights BL1 and BL51, a signal “H” is input to the control unit 13 only from either one of the comparators COMP1 or COMP2. Can determine that either one of the backlights BL1 or BL51 is not normally lit. In this way, when there are a plurality of backlights, it is possible to individually determine which backlight has an abnormality.
[0084]
The reference voltage Vref is set to a voltage slightly lower than the DC voltage generated when the backlights BL1 and BL51 are normally turned on. Further, if the reference voltage Vref is varied by the control circuit 13, the control circuit 13 can determine whether or not the circuit for controlling the luminance of each backlight is normal. In that case, for example, a malfunction of the luminance control circuit provided on the inverter board in the power supply circuit 14 can also be displayed on the sub display screen 72 as a warning message.
[0085]
Next, the operation of the display device 304 according to the fourth embodiment will be described.
When an abnormality is detected in any of the light emitting means of the auxiliary light emitting circuit 17 by the control circuit 13 based on the detection result of the current abnormality detecting circuit 91 in the display unit 54, the control circuit 13 controls the control circuit 53. An abnormality detection notification is output toward the circuit 34.
[0086]
When the control circuit 34 of the control unit 53 according to the fourth embodiment receives a notification from the control circuit 13 that an abnormality has been detected in any of the light emitting means, it outputs an instruction to the font control circuit 63, and the font storage circuit 64. The data of the character font (character signal) necessary for creating the warning message corresponding to the position of the light emitting means and the abnormality of the light emitting means received from the above are sequentially read.
[0087]
Subsequent operations performed in the control unit 53 until the video signal of the message screen is output, and operations until the display unit 54 that has received the video signal of the message screen displays a warning message on the sub display screen 72 Since this is the same as in the case of the third embodiment described above, description thereof is omitted.
[0088]
In the fourth embodiment, since the display device 304 is configured and operated as described above, any light emission even when an abnormality occurs in any of the light emitting means of the auxiliary light emitting circuit 17 or all of the light emitting means. Whether the means is abnormal can be displayed on the sub display screen. Therefore, in the fourth embodiment, not only a warning message can be displayed for an abnormality in the display unit, but also a warning message is displayed as to which of the light emitting means in the light emitting circuit is abnormal. Therefore, it is possible to provide a display device that allows the user to take recovery measures more rapidly than in the third embodiment.
[0089]
Further, the configurations of the abnormality detection circuit 91 and the sub display screen 72 of the auxiliary light emitting circuit 17 in the above-described fourth embodiment are not limited to the control unit separation type display device as in each of the above-described embodiments, The present invention can be applied to a display device integrated with a control unit. In the integrated display device in that case, in the same manner as in the fourth embodiment, in addition to the warning message about the abnormality in the display unit, the warning message about which of the light emitting means in the light emitting circuit is abnormal. Can be displayed, so that it is possible to obtain an effect that the user can promptly take a recovery measure.
[0090]
As described above, in the display devices according to the first to fourth embodiments, the contents of the abnormality can be detected and the user can be notified in detail of the abnormality occurrence location by a warning message, so that the user can take prompt recovery measures. Can be made.
[0091]
In the display devices of the first to fourth embodiments described above, the heat radiating holes 7 are provided in the control unit. However, it goes without saying that the present invention can be applied to display devices that do not have the heat radiating holes 7.
[0092]
【The invention's effect】
As described above, in the present invention of claim 1, since the overturn or abnormal temperature of the control unit can be displayed on the main display screen of the display unit,
It is possible to notify the user of the display device so that the contents of the abnormality of the control unit can be easily understood, and it is possible to quickly recognize the abnormality occurrence location. As a result, the user can quickly start a recovery measure for the abnormality, and a safe display device can be provided. In addition, since the circuit added in the first aspect of the present invention uses a circuit that can be used relatively easily that has been used in the past, an abnormality in the control unit of the display device can be used with a relatively simple system configuration. Can be notified.
[0093]
In the present invention of claim 2, in addition to being able to notify the user of the abnormality content, if the abnormality is not recovered even if the abnormality content is displayed on the main display screen of the display unit, the cooling fan is turned on.
Even if the user does not perform recovery measures, the internal temperature of the control unit can be lowered to a safe temperature, and a safer display device can be provided.
[0094]
In the present invention of claim 3, since a warning message can be displayed not only for an abnormality in the control unit but also for an abnormality in the display unit,
Warning messages can be displayed on the secondary display screen for abnormalities in the display unit, and even if the message cannot be displayed on the main display screen, the user can be notified of the details of the abnormality, so that the user can quickly start recovery measures. And a safer display device can be provided.
[0095]
According to the fourth and fifth aspects of the present invention, when an abnormality occurs in any of the light emitting means of the auxiliary light emitting circuit or all the light emitting means, which light emitting means is abnormal is displayed on the sub display screen. So you can
Since it is possible to display a warning message as to which of the light emitting means in the light emitting circuit is abnormal, it is possible to promptly start the recovery measures and to provide an even safer display device it can.
[Brief description of the drawings]
FIG. 1 is a perspective view illustrating a schematic configuration of a display device according to a first embodiment of the present invention.
2 is a block diagram showing an internal configuration of the display device of FIG. 1. FIG.
FIG. 3 is a diagram illustrating a configuration of an example of a posture abnormality detection circuit.
FIG. 4 is an operation flowchart of the control circuit until a warning message is displayed.
FIG. 5 is a diagram showing an example of a state in which a warning message is displayed in the main display screen of the display unit.
FIG. 6 is a block diagram showing an internal configuration of a display device according to a second embodiment of the present invention.
FIG. 7 is a block diagram showing an internal configuration of a display device according to a third embodiment of the present invention.
FIG. 8 is a block diagram showing an internal configuration of a display device according to a fourth embodiment of the present invention.
FIG. 9 is a circuit diagram showing a configuration of an example of a current abnormality detection circuit.
FIG. 10 is a block diagram showing a configuration of a display device separated by a conventional control unit.
[Explanation of symbols]
1, 51, 54, 55 Display unit, 2, 52, 53 Control unit, 3, 6 Connection cable, 4, 5 Power cable, 7 Heat radiation hole, 8 Main display screen, 11, 31, 33 Interface circuit, 12 Main display Screen control circuit, 13, 34 Control circuit, 14, 38 Power supply circuit, 15, 82 Cooling fan, 16, 35 Memory circuit, 17 Auxiliary light emitting circuit, 21 Power supply abnormality detection circuit, 22 Overcurrent detection circuit, 23, 62 Temperature Abnormality detection circuit, 24 fan abnormality detection circuit, 25 light detection circuit, 32 video signal processing circuit, 36 sound output circuit, 37 display output circuit, 39 counter, 40 timer, 61 posture abnormality detection circuit, 63 font control circuit, 64 font Memory circuit, 65 synthesis circuit, 66 selection circuit, 71 sub display screen control circuit, 72 sub display screen, 81 fan control circuit, 91 current abnormality detection circuit, 101 warning message, 110 sensor, 111 negative electrode, 112 positive electrode, 200, 301, 302, 303, 304 display device.

Claims (5)

A control unit including a video signal processing circuit that performs signal processing on an input video signal is a display device that is separated from a display unit including a main display screen,
The controller is
A posture abnormality detection circuit for detecting that the installation posture of the control unit is abnormal;
A temperature abnormality detection circuit for detecting that the internal temperature of the control unit is abnormal;
A font storage circuit storing various character fonts to be displayed on the display unit;
A font control circuit for performing input / output control of the character font in order to generate a message corresponding to the content of the abnormality when an abnormality is detected in the display device;
A synthesis circuit that synthesizes the character font on an arbitrary screen to generate a video signal of a message screen;
A display device comprising: a selection circuit that selects and outputs either the input video signal or the video signal of the message screen. The control unit, a timer that starts counting a predetermined time set in advance when an abnormality in the internal temperature of the control unit is detected; and
A cooling fan that lowers the internal temperature by replacing the internal air with the external air;
2. The display device according to claim 1, further comprising a fan control circuit that starts the cooling fan when an abnormality in the internal temperature is detected even when the timer finishes timing. The display unit is a sub-display screen controlled independently of the main display screen;
3. The display device according to claim 1, further comprising a sub display screen control circuit that displays the message screen on the sub display screen. When the display unit has an auxiliary light emitting circuit that illuminates the main display screen in the vicinity of the main display screen,
The display unit includes a light emission abnormality detection circuit that detects light emission abnormality of the auxiliary light emission circuit,
4. The display according to claim 1, wherein, when an abnormality is detected by the light emission abnormality detection circuit, the control unit generates and outputs a corresponding message by the font control circuit. 5. apparatus. A control unit that includes a video signal processing circuit that performs signal processing on an input video signal and a display unit that includes a main display screen are integrally formed, and the auxiliary display that illuminates the main display screen in the vicinity of the main display screen A display device having a light emitting circuit,
A font storage circuit storing various character fonts to be displayed on the display unit;
A font control circuit for performing input / output control of the character font in order to generate a message corresponding to the content of the abnormality when an abnormality is detected in the display device;
A synthesis circuit that synthesizes the character font on an arbitrary screen to generate a video signal of a message screen;
A selection circuit that selects and outputs either the input video signal or the video signal of the message screen;
A sub display screen that is controlled independently of the main display screen and consumes less power;
A sub display screen control circuit for displaying the message screen on the sub display screen;
A display device comprising: a light emission abnormality detection circuit that detects light emission abnormality of the auxiliary light emission circuit.

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