KR910000706B1 - Thermostat of lcd projector luminance apparatus - Google Patents

Abstract

The LCD projector optical system includes a source light lamp (5), concentrating lens (4), heat absorption filter (3), object lens (2), LCD panel (1) and projection lens (11). The temperature control supplies cooling air by colling-fan (7) for the fresh air to come first to the LCD panel, which is most heated in the projector

Description

Temperature controller of LCD projector lighting unit

1 is a schematic diagram of an LCD projector lighting apparatus according to the present invention.

2 is a block diagram of a temperature control unit of the LCD projector lighting apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1 LCD panel 2 Objective lens

3: heat absorption filter 4: condensing lens

5: light source lamp 6: reflector

7: cooling fan 8: motor

9: first thermometer 10: second thermometer

11: projection lens 12: LCD TV circuit

13: temperature control part 14: adder

15,16 Subtractor 17: D / A Converter

18: motor drive amplifier 19,25,32: thyristor

20,28: Dio 21,26: Differential

22,29: pulse generator 23,33: resistance

24: switch 27: DC power circuit

30: Oagate 31: T-flip flop

100: motor drive speed control unit 101: motor drive power switching means

102: first pulse generator 103: power switching means for driving lamps and LCD

106: main power source switching means 104: second pulse generator

105: main power control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature control device of an LCD projector lighting device, and more particularly, to a power consumption of the lamp power source and a fan motor power source that is convenient for a user.

Conventionally, in this type of device, there is a disadvantage in that the lamp power is not on-off switch and the whole power on / off switch, so that the lamp is not cooled when the entire power is turned off after use.

Therefore, the present invention will be described in accordance with FIG.

The optical system of the LCD projector consists of a light source lamp (5), a condenser lens (4), a heat absorption filter (3), an objective lens (2), an LCD panel (1) and a projection lens (11). Formed via ABCDEFGHI. In order to force the air circulation, the cooling fan 7 is driven. The reason for configuring the air circulation passage in this way is that the farther the distance from the light source lamp 5 is, the lower the temperature is. It is for cooling the receiving LCD panel 1.

The LCD TV circuit 12 is a TV circuit provided to display the TV image of the upper body of the LCD panel 1, and measures the temperature at the air inlet A and the air outlet H, respectively, and outputs them as digital data. As the first thermometer 9 and the second thermometer 10, the highest temperature T1 and the lowest temperature T2 are measured and applied to the temperature controller 13.

Therefore, the temperature controller 13 adjusts the required temperature according to the rise and fall of the temperature. Particularly, even when the user turns off the power switch 24, the cooling fan 7 is stopped only after the light source lamp 5 is sufficiently cooled. The function to make is provided.

The configuration of the temperature control unit 13 configured for the overall temperature control as shown in FIG. 2 is as follows.

One end of the switch 24 with one connection terminal grounded is connected to the fifth V terminal, and the reference terminal thereof is connected to the thyristor 25 to the gate G2, and the differentiator 26, diode 28, and pulse generator The connection terminal of the switch 24 connected to one side input of the oragate 30 via the 29 and the 5 V terminal is also connected to the oragate via the resistor 23 and the differentiator 21 pulse generator 22. Is connected to the other side of the 30, and the output of the orifice 30 is connected to the clock terminal CK of the T flip-flop 31, and the Q output terminal of the T flip-flop 31 is connected to the thyristor 32. It is applied to the gate G1. The cathode end of the thyristor 32 is connected to the anode end of the thyristor 19 and the anode end of the thyristor 25.

The sensing temperatures T1 and T2 of the first thermometer 9 and the second thermometer 10 are respectively applied to the adder 14 and the subtractor 15 to be compared with the reference temperatures Ref2 and Ref1, respectively. The output of the adder 14 and the sense temperature T1 are connected to the motor drive amplifier 18 via the subtractor 16 and the D / A converter 17 and the motor drive amplifier 18 is also the thyristor 19. It is connected to the cathode end of the motor and is connected to the motor drive end.

In addition, the output of the subtractor 15, to which the sensing temperature T1 of the first thermometer 9 is applied, is connected to the gate G3 of the thyristor 19 and is connected to the resistor 23 via the diode 20. The cathode end of the thyristor 25 is connected to the lamp output end and connected to the LCD output end via the DC power supply circuit 27.

Referring to the operation of the thermostat according to the present invention configured as described above, if the switch 24 is turned on to view the LCD projector, that is, if the switch 24 is connected to the 5V stage, 5V is passed through the switch 24. It is applied to the gate G2 of 25, and the thyristor 25 becomes conductive. At the same time, the 5V power supply through the switch 24 is applied to the pulse generator 29 via the differentiator 26 and the diode 28 and generated as a pulse, and the pulse generated by the pulse generator 29 is the oragate 30. Is inputted to the output of the T flip-flop 31, and a " 1 " pulse is applied to the clock terminal CK of the T flip-flop 31 to output a " 1 " Since the thyristor 32 is turned on, the power is applied to the light source lamp 5 via the thyristors 32 and 25.

In addition, power is also applied to the LCD panel via the DC power supply circuit 27. When the light source lamp 5 becomes large, it starts to warm from the vicinity of the light source lamp 5, and power is supplied to the LCD panel, and the LCD projector starts to operate.

At this time, T2 is equal to room temperature and T1 starts to rise. When the initial T1 temperature is lower than the reference temperature Ref2 (T1 <Ref2), the output carry C1 of the subtractor 15 is "0", but when T1 rises and becomes higher than the reference temperature Ref2 (T1> Ref2), the subtractor ( The output carry C1 of 15) becomes " 1 " so that &quot; 1 &quot; is applied to the gate G3 of the thyristor 19, so that the thyristor 19 becomes conductive, so that the power supply to the motor driving amplifier 18 In this case, the control voltage of the motor driving amplifier 18 passes through the D / A converter 17 in proportion to the value of (T1-T2-Ref1) determined by the adder 14 and the subtractor 16. In the motor driving amplifier 18, the larger the difference between (T1-T2) is, the larger the voltage is applied, the higher the rotational speed of the motor is, the faster cooling occurs.

Therefore, if the LCD projector continues to operate while the light source lamp 5 is turned on, the cooling fan is driven to prevent the temperature from rising. When the LCD projector completes the screening, the light source lamp 5 and the LCD panel 1 are turned off as the switch 24 is turned off. However, since the temperature T1 is still higher than the temperature of Ref2, the cooling fan 7 continues to drive and the driving speed decreases as the temperature difference between T1 and T2 decreases.

When the T1 temperature is lower than the Ref2 reference temperature, the output carry C1 of the subtractor 15 becomes "0". At this moment, a pulse is generated by the resistor 23, the diode 20, the differentiator 21, and the pulse generator 22. Since the generated pulse is applied to the clock terminal CK of the T-flop flop 31 via the ora gate 30, the Q output terminal of the T-flop flop 3 becomes "0" and the thyristor 32 Is "off" so that the power is cut off.

The above operation only allows the user to turn on and off the LCD projector. The above operation only allows the user to turn on and off the LCD projector to properly cool the light source lamp to prevent product damage. In addition to lengthening, there is an effect of preventing deterioration due to heat generation.

Therefore, there is an advantage that can reduce unnecessary power consumption.

Claims (4)

An LCD projector that illuminates a lamp from the rear of the LCD and projects a screen of the LCD by installing a projection lens in front of the LCD, wherein the difference in temperature (T2, T1) detected by a temperature measuring device respectively installed at the inlet and outlet of the air is measured. A motor drive controlled by a fan motor drive speed controller 100 that adjusts the rotational speed of the cooling fan motor in proportion and an output carry bit of the subtractor 15 that compares the detected temperature of the air outlet and the set temperature Red2. Power is supplied by the power supply switching means 101, the first pulse generator 102 generating the main power supply control pulse by the change of the output carry bit of the subtractor 15, and the power switch 24 operated by the user. A lamp and LCD driving power switching means 103 for supplying and cutting off, a second pulse generating unit 104 for generating a main power control pulse by a state change of the power switch 24, and the first and second Pulse generator (10 A main power control unit 105 which receives the output of the 2,104 and controls the on / off of the main power switching means 106, and is controlled by the main power control unit 105 to operate the motor driving power switching means 101 and the lamp; Temperature control device of the LCD projector lighting device comprising a main power switching means for applying power to the input terminal of the LCD driving power switching means (103). The first pulse generator 102 is configured by the resistor 23 and the output signal of the subtractor 15 generated when the temperature T1 detected at the air outlet is lower than the reference set temperature Ref2. A differentiator 21 for differentiating the power 5V input through the diode 20 and a pulse generator 22 for receiving the output of the differentiator 21 and applying a main power control pulse to the main power control unit 105. Temperature control device of the LCD projector lighting device, characterized in that configured to. The second pulse generator 104 of claim 1 is characterized in that the differentiator 26 receives and differentiates the power supply 5V when the power switch 24 is connected to the power supply 5V terminal. And a pulse generator (29) for receiving an output and applying a main power control pulse to the main power control unit (105). The main power supply control unit 105 of claim 1, wherein the main power supply control unit 105 is toggled by an output of the oragate 30 and the output of the oragate 36, which receive pulses from the first and second pulse generators 102 and 104. And a T flip-flop (31) for controlling the operation of the switching means (106).

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