JPH03296714A - Image display device - Google Patents

Abstract

PURPOSE:To effectively by outputting an alarm display signal and a supply stop signal for power supply to a light source and a display panel when environmental temperature exceeds permissible temperature. CONSTITUTION:A temperature detecting means 7 detects the environmental temperature of the light source 2 and display panel and its detection signal is inputted to a control means 3. The control means 3 judges whether or not the environmental temperature is lower than the permissible temperature from the detection signal and outputs the alarm display signal when the environmental temperature exceeds the permissible temperature to make an alarm display. Further, the control means 3 sends the power supply stop signal to a power source control means 5 to stop supplying electric power to the light source 2 for display panel 1. Consequently, the image display device is obtained which can be protected by turning off the power source when the environmental temperature exceeds the permissible temperature.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an image display device, and particularly to an image display device suitable for a vehicle-mounted AV (audio-visual) device.

[Conventional technology]

In-vehicle audio systems are moving beyond traditional auditory systems to systems that include visual components and are even equipped with navigation systems and the like. Such a system is known as a so-called AV system.

An AV system necessarily includes a display device for displaying images. Display devices include CRT and LC.
There are D (liquid crystal display elements), plasma displays, etc., but LCDs are often used in systems that require relatively small size.

In an image display device using an LCD panel, a light source (hereinafter referred to as a backlight) is provided at the back of the LCD in order to ensure brightness on the screen.

Fluorescent discharge tubes are generally used as backlights.

[Problem to be solved by the invention]

When the conventional image display device using the above-mentioned backlit LCD panel is used in a vehicle, there are the following problems in particular. That is, in-vehicle AV systems are often placed under harsher environmental conditions than those for general household use, and are easily affected by seasonal temperature changes. The temperature inside a car that is left outside in the middle of summer becomes extremely high, and conversely, the temperature inside a car that is left outside in the middle of winter drops significantly. Moreover, the environmental conditions vary geographically and are extremely diverse.

LCDs may be destroyed at high temperatures (e.g. around 70°C), and backlights may be destroyed at low temperatures (e.g. around -10°C).
(before and after), it tends to deteriorate, which poses a problem in terms of lifespan.

An object of the present invention is to provide an image display device that can be protected by automatically shutting off the power when the environmental temperature exceeds an allowable temperature range.

[Means to solve the problem]

The present invention provides an image display device that has a light source that emits light when supplied with power from a power source and that forms an image on a screen of a display panel using light emitted from the light source. temperature detection means for detecting temperature and outputting a detection signal; and determining whether or not the environmental temperature is within a permissible temperature based on the detection signal, and displaying a warning when the environmental temperature exceeds the permissible temperature. a control means for outputting a signal and a signal to stop the supply of power to the light source and the display panel; a display means for performing a display operation according to the warning display signal; and a power supply control means for cutting off the power supply according to the stop signal for power supply. .

[Effect]

According to the present invention, the temperature detection means detects the environmental temperature of the light source and the display panel. The detection signal is input to the control means. The control means determines whether the environmental temperature is within a permissible temperature range based on the detection signal. If the environmental temperature exceeds the permissible temperature, the control means outputs a warning display signal to the display means to display a warning. On the other hand, a power supply stop signal is given from the control means to the power supply control means, and the supply of power to the light source or the display panel is stopped.

〔Example〕

Next, preferred embodiments of the present invention will be described based on the drawings.

FIG. 1 shows an embodiment of the present invention. In FIG. 1, the image display device has an LCD panel 1. As shown in FIG.

Although not shown, the LCD panel 1 has a sandwich structure in which liquid crystal is filled between a pair of glass plates, and images are formed using an active matrix display method. LCD
The panel 1 does not have the function of emitting light by itself. Therefore, although external light is used, a backlight device 2 is used to provide sufficient brightness on the display screen.

FIG. 2 shows the appearance of the LCD panel 1 and the backlight device 2. Figure 2 is an exploded perspective view, and the actual LC
The D panel 1 and the backlight device 2 are integrated with a light diffusing plate 13 in between. The LCD panel 1 is arranged behind the LCD panel 1 with a light diffusing plate 13 interposed therebetween. The backlight device 2 has a U-shaped fluorescent tube 11, and is housed in a semi-cylindrical casing. On the inside of the casing,
A corrugated reflecting plate 12 is provided to increase the luminous efficiency of the fluorescent tube 11 and to create parallel light beams. The light diffusing plate 13 is for diffusing the light from the fluorescent tubes 11 and making the brightness distribution on the screen of the LCD panel 1 uniform.

As shown in FIGS. 1 and 2, a temperature detector 7 is attached to the back side of the LCD panel 1. As shown in FIGS.

The mounting position of the temperature detector 7 is set to the optimum position for detecting the environmental temperature of the LCD panel 1 and the backlight device 2.

Detection signal of temperature detector 7. li is control circuit 3
given to.

The control circuit 3 controls the LCD based on the detection signal DTH.
It is determined whether the environmental temperatures of the panel 1 and the backlight device 2 are within the allowable temperature range, and a display signal C8 and a power control signal R are output to the display 4 and the power control switch 5, respectively. A specific example of the control circuit 3 is shown in FIG.

In FIG. 3, a thermistor is used as the temperature detector 7. The temperature detector 7 forms a series circuit with the resistors R and R2, bears the divided voltage, and exhibits negative resistance characteristics against temperature changes. The resistance characteristics of a thermistor are nonlinear and difficult to handle, as shown in FIG. Therefore, a resistor R3 is connected in parallel to the temperature detector 7. As a result, the original characteristic A of the thermistor is corrected to be characteristic B, and becomes a characteristic that can be linearly approximated. The control circuit 3 has a comparator 9 as a determining means when the environmental temperature is high, and a comparator 8 as a determining means when the environmental temperature is low.

The high temperature reference value of comparator 9 is created by a voltage dividing circuit of resistors R and R7, and the low temperature reference value of comparator 8 is created by resistors R and R7.
It is made with a voltage divider circuit of R5. The detection signal DTH from the temperature detector 7 is input to the comparators 8 and 9, respectively. Comparator 8 and the output terminal of comparator 8 are OR-connected by diode D1 and diode D2, and connected to the base of drive transistor o via resistor R8. A terminal for outputting the power control signal C1 is led out from the output ends of the diodes D1 and D2. A display device 4 is connected to the collector of the drive transistor 0 from the power supply voltage vcc via a resistor R10. The indicator 4 is an LED (light emitting diode), and is lit by the current flowing when the drive transistor 10 is turned on. The display unit 4 is equipped with an LC for easy viewing by the user.
It is attached to the display surface side of the D panel 1 (see FIGS. 1 and 2). It will be easy for those skilled in the art to replace this display 4 with other elements, such as an electronic buzzer. The resistor R9 is a fixed bias resistor.

Next, the operations shown in FIGS. 1 and 3 will be explained.

The temperature detector 7 outputs a detection signal D and an HG ratio corresponding to the environmental temperature of the LCD panel 1 or the backlight device 2.

In FIG. 3, the resistance value of the temperature detector 7 decreases as the temperature rises. Then, the value of the detection signal DTH becomes low,
When the value falls below the high temperature reference value of the comparator 9, the output of the comparator 9 becomes "H" level. this"
The diode D1 is forward biased due to the "H" level and becomes conductive, and the base of the drive transistor 10 becomes "H" level.
” level.As a result, drive transistor 1
0 is conductive and collector current flows. This collector current lights up the indicator 4 (LED).

On the other hand, the power supply control signal C is output from the cathode of the diode D1.
7 is output and sent to the power control switch 5. This power control signal C1 causes the power control switch 5 to
The switch 5WD1 backlight switch SWBL is turned OFF (open), and the supply of the LCD power source 1 backlight power source PBL from the power source 6 to the LCD panel 1 and the backlight device 2 is cut off.

Further, when the temperature decreases, the resistance value of the temperature detector 7 increases. Then, the value of the detection signal DTH becomes high, and when the value exceeds the low temperature reference value of the comparator 8, the output of the comparator 8 becomes "H" level. As a result, diode D2 becomes conductive, and drive transistor 0 is turned on in the same manner.

The display 4 is turned on, and the power control signal C2 is output. In response to this power control signal C7, the LCD switch SWD and backlight switch 5WBL of the power control switch 5 are cut off, and the supply of the backlight power P and LCD power PDL is stopped.

In this way, one temperature detector 7 detects both high and low temperatures, and in either case, if the temperature exceeds the allowable value, a warning is displayed and the power is cut off, so the display of the image display device is stopped. L with clarification to the user of the reason.
The CD panel 1 and the backlight device 2 can be effectively protected.

〔Effect of the invention〕

According to the present invention, the temperature of the environment in which the image display device is placed is determined and the power source is stopped depending on the condition, so that the image display device can be protected.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an embodiment of the present invention, and FIG. 2 is a block diagram showing an embodiment of the present invention.
FIG. 3 is an exploded perspective view showing the appearance of the CD panel and backlight device; FIG. 3 is a circuit diagram showing a specific example of the control circuit and temperature detector; FIG. 4 is an explanatory diagram showing the temperature characteristics of the resistance of the thermistor. 1... LCD panel 2... Backlight device 3... Control circuit 4... Display unit 5... Power control switch 6... Power supply 7... Temperature detector 8... Comparator 9 ... Comparator 10 ... Drive 11 ... Fluorescent tube 12 ... Reflection plate 13 ... Light diffusion plate C9 ... Display signal C2 ... Power supply control signal DTRI ... Detection signal D t , D 2...Diode PBL...Backlight power supply P,...LCD power transistor R1-R1゜...Resistance vcc...Power supply voltage GND...Ground potential 5WBL...Backlight switch SWD・・・LCD switch

Claims (1)

[Claims] 1. A light source that emits light by receiving power from a power source;
An image display device that forms an image on a screen of a display panel using light emitted from the light source, comprising: temperature detection means that detects the environmental temperature of the light source and the display panel and outputs a detection signal; a control that determines whether the environmental temperature is within a permissible temperature based on the permissible temperature, and outputs a warning display signal and a signal to stop supplying power to the light source and display panel when the environmental temperature exceeds the permissible temperature; An image display device comprising: a display unit that performs a display operation in response to the warning display signal; and a power supply control unit that shuts off the power supply in response to the power supply stop signal. 2. The image display device according to claim 1, wherein the temperature detection means is a thermistor having a resistor connected in parallel. 3. The image display device according to claim 1 or 2, wherein the control means includes a first comparing means for comparing a reference signal corresponding to a high temperature with the detection signal, and a reference signal corresponding to a low temperature and the detection signal. a second comparing means for performing a comparison with the first and second comparing means; an OR circuit for calculating the logical sum of each output signal of the first and second comparing means; and a driving means for driving the display means by the output signal of the OR circuit. An image display device comprising: