JP2004109369A - Light source lamp driving control circuit for projector device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a light source lamp driving control circuit for a projector device capable of surely preventing a light source lamp from being turned on in a state where an opening/closing member is closed in a projector device equipped with an opening/closing door covering over a projection lens. <P>SOLUTION: The light source lamp driving control circuit for the projector device is equipped with a detector for detecting the opening/closing state of the opening/closing member, an amplification part for amplifying the detection signal of the detector, and a control circuit for on/off controlling the light source lamp based on an output signal from the amplification part and a light source lamp on/off control signal from the control part of the projector device. The amplification part is equipped with a plurality of amplifier circuits connected in parallel. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a projector device that converts a video signal into an optical signal, enlarges the optical signal with a projection lens, and projects the image signal on a screen, and particularly relates to a projector device that includes an opening / closing member that covers the projection lens.
[0002]
[Prior art]
The projector device includes an electronic circuit for processing a video signal, a display device such as a liquid crystal for converting the video signal into an optical signal, an optical system for reflecting or refracting an optical signal, a light source lamp for projection, and heat generated by a light source lamp. And a cooling device for dissipating the heat.
[0003]
By the way, there is a projector device provided with a door for covering the projection lens in order to protect the projection lens. The opening and closing of the door is performed manually. In such a projector device, it is dangerous to turn on the light source lamp when the door is closed because the temperature inside the device body becomes high.
[0004]
Therefore, the present applicant has developed a light source lamp drive control circuit for preventing the light source lamp from lighting when the door is closed.
[0005]
FIG. 5 shows a configuration of a light source lamp drive control circuit developed by the present applicant.
[0006]
The door opening / closing detecting section 10 includes a switch 11 for detecting an open / closed state of the door. The switch 11 is turned off when the door is closed, and the contact piece is connected to the installation side. When the door is open, the contact is turned on, and the contact piece is connected to the DC power supply V1. Therefore, when the door is closed, the output signal A of the switch 11 becomes L level, and when the door is opened, the output signal A of the switch 11 becomes H level.
[0007]
The output signal of the switch 11 is sent to the input terminal 21 of the amplifier 20 via the output terminal 12 of the door open / close detector 10. The amplification section 20 includes an NPN transistor 22 and a diode 23. The base of the transistor 22 is connected to the input terminal 21 of the amplifier 20 via the resistor R1. The collector of the transistor 22 is connected to the DC power supply V2 via the resistor R2. The emitter of the transistor 22 is grounded.
[0008]
The collector of the transistor 22 is connected to the anode of the diode 23. The cathode of the diode 23 is connected to the input terminal 41 of the lamp drive circuit 40 via the output terminal 24 of the amplifier 20.
[0009]
Therefore, the output signal B of the diode 23 is sent to the output terminal 24 of the amplifier 20. When the output signal A of the switch 11 is at L level (when the door is closed), the transistor 22 is turned off, and the output signal B of the diode 23 is at H level. When the output signal A of the switch 11 is at H level (when the door is open), the transistor 22 is turned on, and the output signal B of the diode 23 is at L level.
[0010]
A lamp drive control signal C from a CPU (not shown) is input via a diode 31 to an intermediate point of a connection line connecting the output terminal 24 of the amplifier 20 and the input terminal 41 of the lamp drive circuit 40. I have. The lamp drive control signal C has an L level when the lamp is turned on, and has an H level when the lamp is turned off. The CPU normally holds the lamp drive control signal C at H level. Then, the CPU sets the lamp drive control signal C to the L level in response to a lamp-on command from an operation unit (a remote control transmitter or an operation unit provided in the apparatus main body), and responds to a lamp-off command from the operation unit. Then, the lamp drive control signal C is set to the H level.
[0011]
The lamp driving circuit 40 includes a lamp driving power supply circuit 42. The control input terminal 42 a of the lamp driving power supply circuit 42 is connected to the input terminal 41 of the lamp driving circuit 40. The output terminal of the lamp driving power supply circuit 42 is connected to the output terminals 43 and 44 of the lamp driving circuit 40. Output terminals 43 and 44 of the lamp drive circuit 40 are connected to input terminals 51 and 52 of the light source lamp 50.
[0012]
The lamp driving power supply circuit 42 supplies power to the light source lamp 50 when the signal D input to the control input terminal 42a is at L level, and supplies the light source when the signal D input to the control input terminal 42a is at H level. The power supply to the lamp 50 is stopped.
[0013]
The operation when the door is open and the operation when the door is closed will be described.
[0014]
(1) When the door is open When the door is open, the output signal A of the switch 11 goes high and the output signal B of the diode 23 goes low. In this state, when the lamp driving control signal C from the CPU goes to L level, the signal D input to the input terminal 41 of the lamp driving circuit 40 goes to L level, and power is supplied from the lamp driving power supply circuit 42 to the light source lamp 50. Since the light is supplied, the light source lamp 50 is turned on.
[0015]
When the lamp drive control signal C from the CPU goes high, the signal D input to the input terminal 41 of the lamp drive circuit 40 goes high, and the supply of power from the lamp drive power supply circuit 42 to the light source lamp 50 is stopped. As a result, the light source lamp 50 is turned off.
[0016]
In other words, when the door is open, the light source lamp 50 is turned on when the lamp drive control signal C from the CPU goes to L level, and turned off when the lamp drive control signal C from the CPU goes to H level. State.
[0017]
(2) When the door is closed When the door is closed, the output signal A of the switch 11 goes low and the output signal B of the diode 23 goes high. In this state, when the lamp drive control signal C from the CPU goes high, the signal D input to the input terminal 41 of the lamp drive circuit 40 goes high, and the light source lamp 50 is turned off.
[0018]
Further, even if the lamp drive control signal C from the CPU goes low, the signal D input to the input terminal 41 of the lamp drive circuit 40 goes high, so that the light source lamp 50 is turned off.
[0019]
That is, in the state where the door is closed, the light source lamp 50 remains off regardless of the lamp drive control signal C from the CPU.
[0020]
The light source lamp drive control circuit as described above has the following problem.
[0021]
If the wiring for inputting a signal to the input terminal 41 of the lamp driving circuit 40 is disconnected, the input signal D to the control input terminal 42a of the lamp driving power supply circuit 42 becomes L level, so that the door is closed. The light source lamp 50 is turned on even when there is.
[0022]
Further, when the collector and the emitter of the transistor 22 are short-circuited by solder touch, or when the collector and the base of the transistor 22 are short-circuited by solder touch, the transistor 22 is turned on even when the door is closed. , The output signal B of the diode 23 becomes L level. Then, when the lamp drive control signal C from the CPU becomes L level due to a user operation or the like, the light source lamp 50 is turned on.
[0023]
[Problems to be solved by the invention]
The present invention provides a light source lamp drive control circuit in a projector device provided with an opening / closing member for covering a projection lens, which can reliably prevent a light source lamp from being turned on when the opening / closing member is closed. The purpose is to:
[0024]
[Means for Solving the Problems]
According to a first aspect of the present invention, in a light source lamp drive control circuit in a projector device including an opening / closing member that covers a projection lens, a detector for detecting an open / closed state of the opening / closing member, and a detection signal of the detector are amplified. And a control circuit for turning on and off the light source lamp based on the output signal of the amplifier and the light source lamp on / off control signal from the control unit of the projector device, and the amplifiers are connected in parallel. A plurality of connected amplifier circuits are provided.Each amplifier circuit includes a transistor whose on-off control is performed according to a detection signal of a detector and a diode whose anode is connected to an output terminal of the transistor. It turns on when the detection signal of the detector is a signal indicating that the opening / closing member is open, and the output signal of each amplifier circuit is the first signal. Pressure level, each transistor is turned off when the detection signal of the detector is a signal indicating that the opening / closing member is closed, the output signal of each amplifier circuit is at the second voltage level, and the control circuit When the output signal of the unit is at the first voltage level, the light source lamp is turned on / off in accordance with the light source lamp on / off control signal. When the output signal of the amplifier is at the second voltage level, the light source lamp on / off control signal is output. Regardless, it is a circuit for turning off the light source lamp.
[0025]
According to a second aspect of the present invention, in the light source lamp drive control circuit of the projector device according to the first aspect, the first voltage level is an L level, the second voltage level is an H level, The control circuit includes an OR gate, a lamp driving power supply circuit, and a DC power supply. An output signal of the amplification unit is input to one input terminal of the OR gate, and a light source lamp on / off control signal is input to the other input terminal. The output terminal of the OR gate is connected to a DC power supply via a resistor, and the connection point between the output terminal of the OR gate and the resistor is connected to the control input terminal of a lamp driving power supply circuit. The driving power supply circuit turns on the light source lamp when the control signal input to the control input terminal is at the L level, and the control signal input to the control input terminal is at the H level. And characterized in that for the light source lamp to off mode while.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a liquid crystal projector will be described with reference to the drawings.
[0027]
1 and 2 show the appearance of a liquid crystal projector.
[0028]
On the front surface of the main body of the liquid crystal projector, an intake hole 101, a remote control light receiving unit 102, a projection lens 103 and the like are provided. On the upper surface of the main body of the liquid crystal projector, a power button 104 and various operation buttons 105 are provided. An exhaust hole 106 is provided on a side surface of the liquid crystal projector main body. A door (opening / closing member for covering the projection lens 103) 110 for closing the front surface of the liquid crystal projector is provided on the liquid crystal projector main body so as to be freely opened and closed.
[0029]
FIG. 3 shows the configuration of the light source lamp drive control circuit.
[0030]
The door open / close detection unit 10 includes a switch 11 for detecting the open / closed state of the door 110. The switch 11 is turned off when the door 110 is closed, and the contact piece is connected to the installation side. When the door 110 is open, it is turned on, and the contact piece is connected to the DC power supply V1 side. Therefore, when the door 110 is closed, the output signal A of the switch 11 becomes L level, and when the door 110 is opened, the output signal A of the switch 11 becomes H level.
[0031]
The output signal A of the switch 11 is sent to the input terminal 21 of the amplifier 20 via the output terminal 12 of the door open / close detector 10. The amplification unit 20 includes two sets of amplification circuits connected in parallel. Each amplifier circuit includes an NPN transistor and a diode.
[0032]
The base of the transistor 22a of one amplifier circuit is connected to the input terminal 21 of the amplifier 20 via the resistor R1. The collector of the transistor 22a is connected to the DC power supply V2 via the resistor R2. The emitter of the transistor 22a is grounded. The collector of the transistor 22a is connected to the anode of the diode 23a. The cathode of the diode 23a is connected to the output terminal 24 of the amplifier 20. The output signal of the diode 23a is represented by B1.
[0033]
The base of the transistor 22b of the other amplifier circuit is connected to the input terminal 21 of the amplifier 20 via the resistor R3. The collector of the transistor 22b is connected to the DC power supply V2 via the resistor R2. The emitter of the transistor 22b is grounded. The collector of the transistor 22b is connected to the anode of the diode 23b. The cathode of the diode 23b is connected to the output terminal 24 of the amplifier 20. The output signal of the diode 23b is represented by B2.
[0034]
When the output signal A of the switch 11 is at L level (when the door is closed), the transistors 22a and 22b are turned off, so that the output signals B1 and B2 of the diodes 23a and 23b are at H level, The voltage (signal B) appearing at the output terminal 24 of the amplifying unit 20 becomes H level. When the output signal A of the switch 11 is at the H level (when the door is open), the transistors 22a and 22b are turned on, and the output signals B1 and B2 of the diodes 23a and 23b are at the L level. The voltage (signal B) appearing at the output terminal 24 of the amplifier 20 is at the L level.
[0035]
The output terminal 24 of the amplification unit 20 is connected to a first input terminal of the OR gate 30. A lamp drive control signal C from a CPU (not shown) is input to a second input terminal of the OR gate 30. The lamp drive control signal C has an L level when the lamp is turned on, and has an H level when the lamp is turned off. The CPU normally holds the lamp drive control signal C at H level. Then, the CPU sets the lamp drive control signal C to the L level in response to a lamp-on command from an operation unit (a remote control transmitter or an operation unit provided in the apparatus main body), and responds to a lamp-off command from the operation unit. Then, the lamp drive control signal C is set to the H level.
[0036]
The output terminal of the OR gate 30 is connected to the input terminal 41 of the lamp drive circuit 40. The output signal of the OR gate 30 is represented by D. The lamp driving circuit 40 includes a lamp driving power supply circuit 42. The input terminal 41 of the lamp drive circuit 40 is connected to the DC power supply V3 via the resistor R4. A connection point between the input terminal 41 of the lamp driving circuit 40 and the resistor R4 is connected to the control input terminal 42a of the lamp driving power supply circuit 42. The output terminal of the lamp driving power supply circuit 42 is connected to the output terminals 43 and 44 of the lamp driving circuit 40. Output terminals 43 and 44 of the lamp drive circuit 40 are connected to input terminals 51 and 52 of the light source lamp 50.
[0037]
The lamp driving power supply circuit 42 supplies power to the light source lamp 50 when the signal E input to the control input terminal 42a is at L level, and supplies the light source when the signal E input to the control input terminal 42a is at H level. The power supply to the lamp 50 is stopped.
[0038]
The operation when the door 110 is open and the operation when the door 110 is closed will be described.
[0039]
(1) When the door 110 is open When the door 110 is open, the output signal A of the switch 11 becomes H level, and the voltage (signal B) appearing at the output terminal 24 of the amplifier 20 becomes L level. . In this state, when the lamp drive control signal C from the CPU goes low, the output signal D of the OR gate 30 goes low and the signal E input to the control input terminal 42a of the lamp drive power supply circuit 42 goes low. Since power is supplied from the lamp driving power supply circuit 42 to the light source lamp 50, the light source lamp 50 is turned on.
[0040]
When the lamp drive control signal C from the CPU goes to H level, the output signal D of the OR gate 30 goes to H level, the signal E input to the control input terminal 42a of the lamp drive power supply circuit 42 goes to H level, Since the supply of power from the power supply circuit 42 to the light source lamp 50 is stopped, the light source lamp 50 is turned off.
[0041]
In other words, when the door 110 is open, the light source lamp 50 is turned on when the lamp drive control signal C from the CPU goes low, and the light source lamp 50 is turned on when the lamp drive control signal C from the CPU goes high. It turns off.
[0042]
(2) When the Door 110 is Closed When the door 110 is closed, the output signal A of the switch 11 becomes L level, and the voltage (signal B) appearing at the output terminal 24 of the amplifier 20 becomes H level. . In this state, when the lamp drive control signal C from the CPU goes to H level, the output signal D of the OR gate 30 goes to H level, and the signal E input to the control input terminal 42a of the lamp drive power supply circuit 42 goes to H level. Therefore, the light source lamp 50 is turned off.
[0043]
Even when the lamp drive control signal C from the CPU goes low, the output signal D of the OR gate 30 goes high, so that the signal E input to the control input terminal 42a of the lamp drive power supply circuit 42 becomes Since the level becomes H level, the light source lamp 50 is turned off.
[0044]
That is, in the state where the door 110 is closed, the light source lamp 50 remains off regardless of the lamp drive control signal C from the CPU.
[0045]
The light source lamp drive control circuit according to this embodiment has the following advantages over the light source lamp drive control circuit of FIG.
[0046]
Even if the wiring for inputting a signal to the input terminal 41 of the lamp driving circuit 40 is disconnected, the input signal E to the control input terminal 42a of the lamp driving power supply circuit 42 becomes H level, so that the door 110 is closed. It is prevented that the light source lamp 50 is turned on when the vehicle is in operation.
[0047]
Also, of the two sets of amplifying circuits in the amplifying section 20, the collector and the emitter of the transistor in one of the amplifying circuits may be short-circuited by solder touch, or the collector and the base of the transistor may be short-circuited by solder touch. This prevents the light source lamp 50 from turning on when the door 110 is closed, even if the transistor in one of the amplifier circuits is turned on while the door 110 is closed.
[0048]
Hereinafter, the reason will be described.
[0049]
FIG. 4 shows an equivalent circuit in the case where the transistor 22b in one of the two amplifier circuits in the amplifier unit 20 is always on due to the above-described factors.
[0050]
When the door 110 is closed, the output signal A of the switch 11 is at the L level, so that the transistor 22a in the normal operating amplifier circuit is turned off, and the output signal of the diode 23a in this amplifier circuit is turned off. B1 becomes H level. On the other hand, the output signal B2 of the diode 23b in the amplifier circuit in which the transistor is always on becomes L level. However, if the output signal B1 of the diode 23a in the normal operating amplifier circuit is at the H level, even if the output signal B2 of the diode 23b in the abnormal operating circuit is at the L level, the amplification is not performed. The voltage (signal B) appearing at the output terminal 24 of the unit 20 becomes H level. Therefore, when the door 110 is closed, the light source lamp 50 is prevented from being turned on.
[0051]
In order to further enhance security, it is preferable to take measures also in software. That is, by inputting the output signal A of the switch 11 to the CPU, the CPU can recognize the open / closed state of the door 110. If the CPU recognizes that the door 110 is open, the ON command of the light source lamp 50 from the operation unit (the remote control transmitter or the operation unit provided in the apparatus main body) is treated as valid, and the door 110 is handled. If the CPU recognizes that the light source lamp 50 is closed, the ON command of the light source lamp 50 from the operation unit is treated as invalid. Further, when the output signal A of the switch 11 becomes L level while the light source lamp 50 is turned on, the light source lamp 50 is forcibly turned off by controlling the lamp drive control signal C to H level. To do.
[0052]
It is preferable that an indicator, such as a light emitting diode, indicating the open / closed state of the door 110 is provided on an operation unit provided in the apparatus main body. When a light emitting diode indicating the open / closed state of the door 110 is provided in the operation unit provided in the apparatus main body, the CPU recognizes that the door 110 is open based on the output signal A of the switch 11, for example. The light emitting diode may be turned on, and if it is recognized that the door 110 is closed, the light emitting diode may be turned off.
[0053]
【The invention's effect】
According to the present invention, in a projector device provided with an opening / closing member that covers the optical system, it is possible to reliably prevent the light source lamp from being turned on when the opening / closing member is closed.
[Brief description of the drawings]
FIG. 1 is a perspective view showing an appearance of a liquid crystal projector, showing a state where a door is open.
FIG. 2 is a perspective view showing an appearance of the liquid crystal projector, showing a state in which a door is closed.
FIG. 3 is an electric circuit diagram showing a configuration of a light source lamp drive control circuit.
FIG. 4 is an electric circuit diagram showing an equivalent circuit when a transistor 22b in one of the two sets of amplifier circuits in the amplifier unit 20 is always on.
FIG. 5 is an electric circuit diagram showing a configuration of a light source lamp drive control circuit developed by the present applicant.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 Door opening / closing detection part 11 Switch 20 Amplification part 22a, 22b Transistor 23a, 23b Diode 30 OR gate 40 Lamp driving circuit 42 Lamp driving power supply circuit 50 Light source lamp 110 Door

Claims (2)

In a light source lamp drive control circuit in a projector device having an opening / closing member covering the projection lens,
Based on a detector for detecting the open / close state of the opening / closing member, an amplification unit for amplifying a detection signal of the detector, and an output signal of the amplification unit and a light source lamp on / off control signal from a control unit of the projector device, A control circuit for turning on and off the light source lamp is provided, and the amplifying unit includes a plurality of amplifying circuits connected in parallel, and each of the amplifying circuits is on / off controlled according to a detection signal of the detector. It comprises a transistor and a diode whose anode is connected to the output terminal of the transistor. Each transistor is turned on when the detection signal of the detector is a signal indicating that the opening / closing member is open, and the output signal of each amplifier circuit is output. Becomes the first voltage level, and each transistor is turned off when the detection signal of the detector is a signal indicating that the opening / closing member is closed. The output signal of the circuit becomes the second voltage level,
The control circuit controls on / off of the light source lamp according to the light source lamp on / off control signal when the output signal of the amplifier is at the first voltage level, and controls the light source when the output signal of the amplifier is at the second voltage level. A light source lamp drive control circuit in a projector device, which is a circuit for turning off a light source lamp regardless of a lamp on / off control signal. The first voltage level is at an L level, the second voltage level is at an H level, and the control circuit includes an OR gate, a lamp driving power supply circuit, and a DC power supply. The input signal of the amplifying unit is input to the input terminal, the light source lamp on / off control signal is input to the other input terminal, and the output terminal of the OR gate is connected to a DC power supply via a resistor. The connection point between the output terminal and the resistor is connected to the control input terminal of the lamp driving power supply circuit. The lamp driving power supply circuit turns off the light source lamp when the control signal input to the control input terminal is at the L level. 2. The projector device according to claim 1, wherein the light source lamp is turned on and the light source lamp is turned off when a control signal input to the control input terminal is at an H level. A light source lamp drive control circuit that.

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