JP2658550B2 - Temperature control device for projection type image display device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temperature control device of a projection-type image display device that projects an image displayed on a liquid crystal panel onto a screen.

2. Description of the Related Art In recent years, there has been an increasing demand for a large-screen image display device for enjoying a powerful video with the enhancement of video equipment such as a video tape recorder and video software. As a conventional large-screen image display device, there was a projection type TV using a CRT, but since the CRT was used for the image display unit, there was a limitation on miniaturization of the device due to physical control of the CRT etc. . To eliminate this control and reduce the size of the device, a projection type image display device using a liquid crystal panel for an image display unit has been proposed.

Generally, in a projection type image display device using a liquid crystal panel,
Since a high-intensity lamp is used as the light source, the temperature inside the device increases, but a cooling means is required to prevent such a state.

FIG. 3 is a configuration diagram showing the configuration of an example of a projection type image display device using a liquid crystal panel and an example of a conventional temperature control device. Usually, in a projection type image display device using a liquid crystal panel, three liquid crystal panels for red, green and blue are used in order to obtain a color image, but in FIG. 3, one liquid crystal panel is used for simplicity. Only shows. In FIG.
51 is a liquid crystal panel, 52 is a polarizing plate, 53 is a light source for projecting an image, 54 is a reflecting mirror for reflecting light emitted backward from the light source 53 forward, and 55 is for collecting light on the liquid crystal panel 51 Condenser lens, 56 is a projection lens for projecting an image on the liquid crystal panel 51, 57 is a screen for projecting an image, 58 is a thermistor for measuring the temperature of the device, and 59 is a device for cooling the device. The electric fan 60 is a control device for controlling the electric fan 59 by a signal from the thermistor 58.

The light from the light source 53 is condensed by the reflection mirror 54 and the condenser lens 55, guided to the liquid crystal panel 51, and projected on the screen 57 by the projection lens 56. At this time, the light source 53
However, since the temperatures of the liquid crystal panel 51 and the polarizing plate 52 need to be kept low from the viewpoint of reliability, a temperature controller is provided to cool the liquid crystal panel 51 and the polarizing plate 52. In the conventional temperature control device shown in FIG. 3, the temperature of the device is measured by a thermistor 58, and the control device 60
The temperature of the liquid crystal panel 51 and the polarizing plate 52 was controlled by controlling the rotation speed of the electric fan 59 based on the temperature of the device measured at 58.

FIG. 4 is a relationship diagram showing an example of the relationship between the temperature measured by the thermistor 58 after the device is started and the rotation speed of the electric fan 59. FIG. 4 (a) shows the temperature of the liquid crystal panel 51 and the temperature measured by the thermistor 58, and FIG. 4 (b) shows the rotation speed of the electric fan 59 at that time. As shown in FIG. 4 (b), in this temperature control device, the number of revolutions of the electric fan 59 is switched among four stages of "stop", "low speed", "medium speed", and "high speed".
Further, the temperatures at which “stop” and “low speed”, “low speed” and “medium speed”, and “medium speed” and “high speed” are switched are denoted by T ₁ , T ₂ and T ₃ , respectively.

When the device is started, the device is heated by the heat from the light source 53, and the temperature measured by the thermistor 58 also increases. Initially, the electric fan 59 is stopped, but when the temperature measured by the thermistor 58 rises and reaches the temperature T1 at time t1, the electric fan 59 starts to rotate at "low speed". Then, the liquid crystal panel 51 and the polarizing plate 52 whose rotation speeds are switched to “medium speed” when the temperature T2 is reached at the time t2 and “high speed” when the temperature T3 is reached at the time t3 are cooled.

SUMMARY OF THE INVENTION However, in a temperature control device of a projection type image display device having a conventional configuration, the temperature measured by the temperature measurement unit and the portion where it is desired to actually control the temperature are determined by the heat capacity of the image display device. Certain liquid crystal panels and polarizing plates had different temperatures. If the temperature of the liquid crystal panel 51 and the temperature measured by the thermistor 58 as the temperature measuring means are as shown in FIG. 4, for example, immediately before the time t1, the liquid crystal panel 51
Temperature has risen above T2, and the electric fan 59 must be rotating at "medium speed", but since the temperature measured by the thermistor 58 is below T1, the electric fan 59 has been "stopped" Remains. As described above, in the conventional temperature control device of the projection type image display device, since the temperature to be actually controlled is different from the temperature measured by the temperature measuring means, the cooling of the liquid crystal panel 51 and the polarizing plate 52 is not possible. There was a problem that the reliability was low and the reliability was low.

The present invention has been made in view of such a point, and an object of the present invention is to provide a temperature control device capable of sufficiently cooling a liquid crystal panel or a polarizing plate even when the device is started in a projection type image display device using a liquid crystal panel. I have.

Means for Solving the Problems In order to solve the above-mentioned problems, the present invention provides a temperature control device of a projection type image display device, a temperature measurement unit for measuring the temperature in the image display device, and cooling of the image display device. Cooling means, a control means for controlling the cooling means by a signal from the temperature detecting means, and a time measuring means for measuring a certain time, and after the image display apparatus is activated, a certain time measured by the time measuring means During the period, the signal from the temperature measuring means is corrected by the control means so that the cooling means is not stopped.

Operation The present invention makes it possible to sufficiently cool components requiring cooling, such as a liquid crystal panel and a polarizing plate, immediately after the start of the image display device, in the projection type image display device using the liquid crystal panel, by the configuration described above. Thus, the reliability of the liquid crystal panel and the polarizing plate can be improved.

Embodiment Hereinafter, a temperature control device of a projection type image display device according to an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing a configuration of a temperature control device of a projection type image display device according to an embodiment of the present invention. First
In the figure, 1 is a thermistor as a temperature measuring means in a projection type image display device, 2, 3 and 4 are comparator circuits for comparing the temperature measured by the thermistor 1 with a set reference temperature, and 5 is a cooling means. , A voltage variable circuit for varying the voltage applied to the electric fan 5 to vary the number of revolutions of the electric fan 5, and 7 a comparator circuit 2,
A control circuit, which is a control means for taking in data from 3, 4 and sending a control signal to the voltage variable circuit 6 to control the number of revolutions of the electric fan 5, 8 is for measuring a certain time after the start of the image display device. Timer circuit as time measuring means, 12,1
Reference numerals 3 and 14 denote voltage setting circuits for setting voltages corresponding to temperatures at which the number of revolutions of the electric fan 8 is switched for the comparator circuits 2, 3, and 4, respectively.

In the temperature control device configured as shown in FIG. 1, the temperature in the image display device is converted into a voltage by the thermistor 1,
The signals are input to the comparator circuits 2, 3, and 4. The temperature at which the number of revolutions of the electric fan 5 is switched by the voltage setting circuits 12, 13, 14
The voltages set to the voltages corresponding to T1, T2, and T3 are also input to the comparator circuits 2, 3, and 4. Each of the comparator circuits 2, 3, and 4 compares the voltage from the thermistor 1 with the voltage from the voltage setting circuits 12, 13, and 14, and outputs a signal according to the magnitude.
The control circuit 7 sends a signal for switching the number of revolutions of the electric fan 5 to the voltage variable circuit 6 according to the signals from the comparator circuits 2, 3, and 4. The voltage variable circuit 6 varies the drive voltage of the electric fan 5 according to a signal from the control circuit 7 and switches the rotation speed of the electric fan 5. Here, the timer circuit measures the time from the start of the image display device and sends a signal to the control circuit 7. The control circuit 7 operates within the time set by the timer circuit 8 to set the thermistor 1.
Even if the temperature measured in step (1) is a temperature at which the electric fan 5 is stopped, the signal sent to the voltage variable circuit 6 is corrected to a signal for rotating the electric fan 5 at "low speed" and sent to the voltage variable circuit 6.

FIG. 2 shows an example of control of the electric fan 5 by the temperature control device according to one embodiment of the present invention. FIG. 2 (a) shows the temperature of the liquid crystal panel and the temperature measured by the thermistor 1. FIG. 2 (b) shows the rotation speed of the electric fan at that time. FIG. 2 (b)
As shown in the above, in this temperature control device, the number of rotations of the electric fan is set to four of “stop”, “low speed”, “medium speed”, and “high speed”.
Switching to stages. Also, "stop" and "slow"
"Slow" and "medium speed", and the temperature respectively T _1, T _2, T ₃ to switch the "fast" and "medium speed". Also, it represents the time set by the timer circuit 8 at T _4. Between an image display apparatus as shown in FIG. 2 start (t ₀₎ and after to t ₄ is a temperature to the temperature measured by the thermistor 1 is the "stop" the electric fan 5 by T ₁ or less Even so, the control circuit 7 corrects the signal to rotate the electric fan 5 at "low speed". Of course, if the temperature measured by the thermistor 1 by the time t ₄ becomes equal to or greater than T2, "medium speed" the rotational speed of the electric fan 5, by switching the "fast" course. In the embodiment, the embodiment in which three comparator circuits are provided has been described. However, the number of comparator circuits may be any number.

As described above, according to the present embodiment, the signal for controlling the electric fan 5 is corrected so that the electric fan 5 does not stop within the time set by the timer circuit 8, so that the temperature measured by the thermistor 1 is reduced. Even if it has a time constant, the liquid crystal panel and the polarizing plate can be sufficiently cooled immediately after the image display device is started, and the reliability of the liquid crystal panel and the polarizing plate can be improved.

Effects of the Invention As described above, the present invention provides a temperature control device for a projection type image display device, a temperature measurement unit for measuring the temperature in the image display device, a cooling unit for cooling the inside of the image display device, Control means for controlling the cooling means by a signal from the detecting means, and a time measuring means for measuring a certain time,
After the image display device is activated, the signal from the temperature measuring means is corrected by the control means for a certain period of time measured by the time measuring means, and the cooling means is not stopped, so that the measurement is performed by the temperature measuring means. Even if the temperature is a time constant, the liquid crystal panel and the polarizing plate can be sufficiently cooled immediately after the image display device is started, and the excellent effect that the reliability of the liquid crystal panel and the polarizing plate can be improved can be obtained. Can be

[Brief description of the drawings]

FIG. 1 is a block diagram showing a configuration of a temperature control device of a projection type image display device according to one embodiment of the present invention, and FIGS. 2 (a) and 2 (b) show a relationship showing an operation relationship between a temperature measurement unit and a cooling unit. FIG. 3 is a block diagram showing an example of a projection-type image display device and a conventional temperature control device, and FIG. 4 is a relationship diagram showing an operational relationship between a conventional temperature measuring means and a cooling means. 1 ... Thermistor, 2,3,4 ... Comparator circuit, 5 ...
... Electric fan, 6 ... Variable voltage circuit, 7 ... Control circuit,
8: Timer circuit, 12, 13, 14 ... Voltage setting circuit.

Claims (1)

(57) [Claims] 1. A temperature control device for a projection type image display device for projecting an image displayed on a liquid crystal panel onto a screen, comprising: a temperature measuring means for measuring a temperature in the image display device; A cooling means for cooling the cooling means, a control means for controlling the cooling means by a signal from the temperature detecting means, and a time measuring means for measuring a certain time,
A projection type image wherein the signal from the temperature measuring means is corrected by the controlling means for a certain period of time measured by the time measuring means after activation of the image display device, and the cooling means is not stopped. Temperature control device for display device.