KR0129979B1 - Hit emmition apparatus and method of liquid crystal projectionsytem - Google Patents

Abstract

Disclosed is an apparatus and method to radiate heat in a liquid crystal project system. The apparatus comprises a temperature sensor, a controller, a timer, a display apparatus and an alarm means. The temperature sensor detects temperature in the liquid crystal project system, and generates a corresponding signal. The controller controls a blower and a power supplier in the liquid crystal project system according to the signal from the temperature sensor. The timer supplies clock signals to the controller. The display apparatus and alarm means operate by control signals from the controller when the temperature is over a set temperature. Thereby, the liquid crystal project system is safely protected against over heat.

Description

Liquid Crystal Project System Heat Sink and Method

1 is a block diagram of a liquid crystal project system.

2 is a flowchart of a heat dissipation method of a liquid crystal project system.

3 is a flowchart of a liquid crystal project system.

* Explanation of symbols for main parts of the drawings

1: microcontroller 2: lamp driving power circuit

3: Video driving power circuit unit 4: Video / audio signal processing unit

5: temperature detection unit 6: remote control module

7: multiplex 8: key input device

9: indicator lamp 10: fan

11: liquid crystal panel

The present invention relates to a microcontroller system for controlling a liquid crystal project for projecting an image by using a liquid crystal, a lamp, and a predetermined optical system, and in particular, a liquid crystal damage or other damage caused by an increase in internal temperature derived from the use of a lamp. The present invention relates to a heat dissipation device and method of a liquid crystal project system having a heat dissipation measure for preventing malfunction of electronic components.

The conventional microcontroller system for controlling a liquid crystal project has been composed of a microcontroller system using a microprocessor so that a user can easily operate basic functions such as a power switch, volume control, and screen adjustment. In addition, the OSD (on screen display) function is used to provide a low-level reference to functions that operate directly on the screen, and OSD I.C is connected to the microprocessor to support the realization of this function. And because the liquid crystal project uses metal halide lamps that emit powerful light, the internal temperature is going to be quite high. Therefore, when the high temperature condition is maintained for a certain time, the liquid crystal panel may have a serious effect. As a countermeasure, a fan for discharging the heated air inside is used.

However, the liquid crystal project that requires strong light is very hot due to the characteristics of the lamp, and the temperature inside the project is considerably high. Therefore, the heat dissipation by a simple fan does not provide sufficient heat dissipation effect. In particular, the color filter, which is one of the components of the liquid crystal panel, is susceptible to heat and may be damaged if it is in a hot temperature for a long time. In addition, the electronic components constituting the circuit also has a problem that can cause a malfunction at a temperature higher than a certain level.

The heat dissipating device of the liquid crystal project system of the present invention was devised to improve the above problems, and prevents the internal temperature from being dangerously increased due to the use of a metal halide lamp, and also in view of such a case, It is an object of the present invention to provide a liquid crystal project heat dissipation device and a method for ensuring safe operation using a microcontroller and having a function of informing the temperature rise even on a screen.

In order to achieve the above object, the liquid crystal project heat dissipation device according to the present invention receives an instruction signal through a remote controller module or a key board according to programmed cold and cold, and processes an image and an audio signal according to the contents of a program to display an image on a screen. A microcontroller having a function of outputting an output signal and having a control function for displaying a character on the screen, and a power supply, lamp, and fan operation required for processing video and audio signals according to the control of the microcontroller. A liquid crystal project having a video drive power supply means for supplying necessary power and the like and a blowing means operated by power supply from the video drive power supply means according to the control of the microcontroller, the temperature inside the liquid crystal project. Detect the predetermined level A temperature detecting means for outputting a call, a control means for judging whether the temperature detected by the temperature detecting means has risen to a temperature higher than or equal to a predetermined level, and generating control signals to the blowing means and the video driving power supply means for a predetermined time; And timing means for providing a timing click signal to the control means.

In addition, the method of heat dissipation using the liquid crystal project heat dissipation device as described above, when the temperature detecting means detects an excessive increase in the internal temperature and informs the control means, 'turning on' a temperature LED indicating an abnormal state of the internal temperature; Displaying a character indicating the abnormal state to the liquid crystal display means for a predetermined time; automatically turning off the lamp if there is no power key input during the character displaying time; and increasing the internal temperature after turning off the lamp. Rotating the blower means for a predetermined time to lower, and after turning the blower means for a predetermined time, the main power of the liquid crystal project is turned off.

An embodiment is described below with reference to the drawings.

First, a block diagram of the liquid crystal project system shown in FIG. 1 is as follows.

The microcontroller 1 having a function of receiving an input signal from an input device having a function according to a pre-programmed content and processing the program according to a program and outputting an output signal is used to display characters on a liquid crystal screen. It has a built-in display control function.

Under the control of the microcontroller, a video drive power supply circuit section 3, which supplies power for processing video and audio signals, power for fan operation, and the like, and rotates by control from the video drive power circuit section. There is a fan 10 to lower the temperature.

In addition, there is a display lamp 9 for providing powerful light required for the liquid crystal project, and a lamp driving power supply circuit unit 2 for supplying power for driving the lamp according to the control of the microcontroller.

In addition, various signal processing processes for receiving a video signal to form an image on the liquid crystal screen and creating an image signal suitable for the liquid crystal screen, and video and audio for receiving an audio signal and outputting it to a speaker through a signal amplification processing circuit. The multiplexer combines the signal processing unit 4 and the R, G, B color signals separated from the image signal and the R, G, B color signals output from the microcontroller according to the Yout signal of the microcontroller 1 ( 7) There is.

Next, a key input device 8 for inputting a user's required action to the microcontroller, and a filter processing and amplifying process by receiving a signal output from the remote controller so as to perform the role of the key input device remotely. There is a remote control module 6 for sending a signal to the microcontroller via.

Finally, for the purpose of detecting the internal temperature, it consists of a temperature sensor for detecting when the temperature rises above a predetermined temperature (about 100 ℃), the temperature detector (5) for sending the detected signal to the microcontroller (1) There is).

The liquid crystal microcontroller system heat dissipation method having the above configuration is as follows.

If the temperature inside the system increases due to the use of a lamp or if the ambient room temperature where the liquid crystal project is operating is high, that is, the temperature rises to a dangerous temperature that may cause damage or malfunction of the liquid crystal or other electronic components, the temperature detector detects this. Send a danger signal to the microcontroller. In fact, the temperature detector sends a high level (+ 5V) signal as a normal signal when the internal temperature is not a dangerous temperature, and sends a low level (0V) signal when the temperature reaches a dangerous level. The microcontroller receives the danger signal from the temperature detector and activates the heat sink according to the preprogrammed content. That is, the liquid crystal project system determines the dangerous signal in the input signal determination routine of the program as shown in FIG. 3 and jumps to the heat dissipation device program routine as shown in FIG. 2, which is one of the program routines for each function. .

As shown in FIG. 2, the heat dissipation method of the heat dissipation device is as follows.

1. When a danger signal comes in, 'Turn on' the temperature light-emitting diode indicating the abnormal condition of the internal temperature.

2. Display a letter on the screen indicating the danger condition.

3. Do not press any other functions for a certain period of time (30 seconds in which the text is displayed). Check the power key and turn off the lamp when the power key is pressed.

4. If there is no power key input within a certain time (30 seconds), the lamp is turned off automatically.

5. After the lamp is turned off, the fan will continue to rotate for a period of time (here 60 seconds) to lower the elevated internal temperature.

6. Turn off the main power of the LCD project after a certain amount of time (60 seconds) of fan rotation.

Here, the flow chart of the liquid crystal project microcontroller shown in FIG. 3 is further described. The key input signal, the remote control input signal, and other signals are read, and if there is an input signal, the program jumps to the program processing routine according to the input signal. After executing the program, the program returns to the input readout routine again. If there is no input signal, the input readout routine is repeated until there is an input signal.

As described above, the heat dissipation device of the liquid crystal project system according to the present invention includes a temperature detection unit employing a temperature sensor, a lamp power circuit unit control for driving a fan for heat dissipation, and a lamp power off by receiving the temperature detection signal and warning on the screen. By programming the display to a microcontroller, it is possible to prevent damage to the liquid crystal panel (particularly the color filter part) and other electronic components inside the liquid crystal project and to prevent malfunction.

Claims (4)

It accepts the instruction signal through the remote control module or the key board according to the programmed contents, and processes the video and audio signals according to the contents of the program and sends out the video output signal on the screen, and enables the character display on the screen. Microcontroller with control function. In the liquid crystal project having a power supply for the process of processing video and audio signals under the control of the microcontroller, a lamp and a video drive power supply means and a blowing means operated by power supply from the video drive power supply means, Temperature detecting means for detecting a temperature inside the liquid crystal project and outputting a predetermined level signal, and determining whether the temperature detected by the temperature detecting means has risen to a temperature higher than or equal to a predetermined level, And control means for generating a control signal for a predetermined period, and timing means for providing a timing click signal to the control means, wherein the control means is configured to determine that a signal output from the temperature detection means is a temperature signal of a predetermined level or more. Predetermined display and alarm control signal And display means for informing the temperature increase state for a predetermined time through a predetermined character when the display control signal is output and the temperature increase state through a predetermined alarm sound when the alarm control signal is output. And a warning means for informing a predetermined time period. The control means according to claim 1, wherein the control means controls the other function key signal not to be input while the character display of the display means and the alarm sound generation of the alarm means are performed, and then checks the power key of the power supply means. And controlling the power of the lamp to be turned off, and controlling the main power to be cut off after operating the blowing means for a predetermined time while the power of the lamp is turned off. When the temperature detecting means detects an excessive increase in the internal temperature and notifies the control means, the step of turning on the temperature LED indicating an abnormal state of the internal temperature and displaying a character display informing the liquid crystal display means of the abnormal state for a predetermined time period. Automatically turning off the lamp if there is no power key input during the character display time, rotating the blower means for a predetermined time to lower the internal temperature after the lamp is turned off; And turning off the main power supply of the liquid crystal project after the blowing means is rotated for a predetermined time. 4. The method of claim 3, wherein the displaying of the text on the liquid crystal display means prevents input of a key other than a power key during the text display time, and checks the power key to turn off the lamp power when the power key is pressed. The heat dissipation method of the liquid crystal project characterized in that it further comprises a sub-step of turning off.