KR100425722B1 - Apparatus for preventing overheat in projector - Google Patents

Abstract

The present invention relates to a device for preventing overheating of a projector, and a device for detecting an overheat of a conventional projector is fixed so that an internal temperature can be measured so that the internal temperature of a relatively low temperature can be measured according to the installation position of the projector. By doing so, there is a problem that the effect of protecting the internal circuit is lowered, and the reliability thereof is lowered. The present invention in view of the above problems and the temperature sensor unit for detecting the temperature of the highest temperature region of the internal temperature of the projector regardless of the installation shape of the projector; A plurality of switch units configured to sense the position of the temperature sensor unit and output different output signals according to the installation position of the projector; Compared to the detection temperature of the temperature sensor unit according to the output signal of the switch unit, the detection unit is configured to cut off the operation of the lamp when the detected temperature is higher than the set temperature, and always the highest regardless of the layout of the projector The projector is provided with a temperature sensor for detecting the internal temperature, and by setting a reference temperature appropriate for the arrangement of the projector, comparing the maximum internal temperature detected by the temperature sensor with the reference temperature, and controlling the operation of the lamp, In addition to preventing the destruction of the internal circuit due to the internal temperature rise, the reliability of overheating prevention is improved, and stable projector operation can be performed by setting the internal temperature more efficiently.

Description

Projector overheat prevention device {APPARATUS FOR PREVENTING OVERHEAT IN PROJECTOR}

The present invention relates to a device for preventing overheating of a projector, and in particular, by changing a position of a temperature sensor according to a mounting position and a direction of a projector, detecting an accurate temperature inside the projector and using the same to prevent overheating of a projector. It relates to a prevention device.

In general, the projector has a built-in lamp to generate a high heat, and in order to protect the internal circuit from the high temperature, the projector has a temperature sensor and a blocking circuit that automatically cuts off the power supply according to the temperature detected by the temperature sensor. When described in detail with reference to the accompanying drawings, such a conventional overheat prevention device of the projector is as follows.

Fig. 1 is a side view showing a surface where an exhaust port of a conventional projector is located, and as shown therein, an exhaust port 1; A fan (2) located in the exhaust port (1) to exhaust air in the projector by blowing to lower the temperature in the projector; A temperature sensor (3) positioned at an upper side of the exhaust port (1) and configured to detect an ambient temperature and output a voltage corresponding to the temperature; Comparing the temperature detected by the temperature sensor 3 with the set temperature, and if the detected temperature is higher than the set temperature, it is composed of a blocking unit (not shown) for blocking the application of power.

Hereinafter, the overheat prevention apparatus of the conventional projector as described above will be described in more detail.

First, when the projector is used on the floor, the temperature inside the projector is increased by the heat of the lamp built into the projector according to the use of the projector, and the fan 2 is rotated to cool the air inside the projector and the outside air. By forced circulation, the temperature rise inside the projector is prevented.

In this state, the characteristic of the internal temperature of the projector is that the air whose temperature rises due to the heat generated by the lamp rises to the inside upper side of the projector, and when the temperature decreases slightly, it is circulated to the inside bottom side where the lamp is located.

Such a circulation causes a temperature difference to occur inside the projector, and the temperature of the inside upper side of the projector becomes higher than the bottom side.

The temperature sensor 3 used to detect the internal temperature of the projector is located on the inner upper side of the projector with the highest internal temperature.

As such, the temperature sensor 3 that detects the highest temperature among the temperatures inside the projector converts the current detected temperature into a voltage corresponding thereto and outputs the cut-off part, and the cut-off part corresponds to a voltage and a reference corresponding to the detected temperature of the temperature sensor 3. By comparing the voltage, if the temperature inside the projector is higher than the set temperature, it cuts off the power supply voltage so that the projector does not operate, thereby protecting the internal circuit.

However, the above embodiment is applied only when the lower side of the projector is the ground side, and when the projector is mounted on the ceiling, the lower side of the projector is mounted to contact the ceiling, so that the top and bottom of the projector are turned upside down.

That is, when the projector is installed on the ceiling, the temperature sensor 3 is located at the lower side of the inside of the projector which is the ground side, and thus, unlike the original installation position, the temperature sensor 3 detects a relatively low temperature among the internal temperatures. The reliability of preventing damages is reduced.

In other words, the projector installed on the ceiling has its temperature sensor 3 located on the lower side, and detects a relatively low internal temperature, so that even when the detected temperature is lower than the set temperature, it is close to the ceiling side, which is a relatively high internal temperature. The internal temperature may be above the set temperature, which may damage the internal circuit.

As described above, the overheat prevention device of the conventional projector has a means for detecting the internal temperature, so that the internal temperature of the relatively low temperature can be measured according to the installation position of the projector, thereby protecting the internal circuit. Was lowered, and there was a problem that the reliability was lowered.

In view of the above problems, the present invention provides a projector overheating prevention device capable of detecting the temperature of the highest part of the internal temperature of the projector by a simple configuration of a temperature sensor using a weight, regardless of the installation position of the projector. There is a purpose.

1 is a side view of a surface on which the overheat protection device of a typical projector is located.

Figure 2 is a block diagram of the overheat prevention device of the projector of the present invention.

3 is a schematic diagram when a projector to which the present invention is applied is normally arranged.

Fig. 4 is a schematic diagram when the projector to which the present invention is applied is placed upside down.

5 is a block diagram of a blocking unit in FIG. 2;

** Description of symbols for the main parts of the drawing **

1: Exhaust vent 2: Fan

3: temperature sensor 4: cut-off

5: weight 6: rotating shaft

7, 8: switch circuit part

The above object is a temperature sensor unit for detecting the temperature of the highest temperature region of the internal temperature of the projector, regardless of the installation shape of the projector; A plurality of switch units configured to sense the position of the temperature sensor unit and output different output signals according to the installation position of the projector; Compared to the detection temperature of the temperature sensor unit according to the output signal of the switch unit, and achieved by configuring a blocking unit for blocking the operation of the lamp when the detection temperature is higher than the set temperature, attached to the present invention Referring to the drawings in detail as follows.

Fig. 2 is a structural diagram of the overheat prevention device of the projector of the present invention, as shown in the exhaust port 1, and a fan 2 for circulating air inside the projector and outside air; It is located at the position symmetrical with the weight (5) around the rotating shaft (6), and always changes the position away from the ground regardless of the installation position of the projector, to detect the relatively highest temperature among the internal temperature A temperature sensor 3; A plurality of switch circuits (7, 8) for turning on and off according to the position of the weight (5) and outputting a voltage for distinguishing what the current installation position of the projector is; Comparing the temperature detected by the temperature sensor 3 and the set temperature is composed of a blocking unit (4) for blocking the application of power when the detection temperature is high.

Hereinafter, an embodiment of the present invention as described above will be described in more detail.

First, the exhaust port 1 and the fan 2 are positioned in the same manner as the conventional one, and serve to lower the internal temperature of the projector.

The temperature sensor 3 is conventionally fixed at a specific position. However, in the present invention, a rotating table 6 is provided, and a rotating table capable of rotating about the rotating shaft 6 (not shown), and one side end of the rotating table. Equipped with a weight (5) having a larger mass than the temperature sensor (3) in a position opposite to the temperature sensor (3).

As such, when the weight 5 and the temperature sensor 3 are symmetrically mounted about the rotation shaft 6, the weight 5 always faces the ground, and the temperature sensor 3 always moves away from the ground, In other words, the air heated by the lamp is directed to the area where the lamp is located, thereby detecting the temperature of the relatively high temperature of the internal temperature of the projector.

In addition, the plurality of switch circuits (7, 8), respectively, the state of the switch is determined according to the position of the weight (5), when the weight (5) when pressing the switch (SWA, SWB) installed in each The power supply voltage VCC is output through the resistors RA and RB.

The reason for determining whether the projector is installed in the forward direction or the reverse direction by using the switch circuit units 7 and 8 is to set the reference temperature of the power cutoff differently according to the installation position of the projector and to overheat according to the more accurate internal temperature. This is to perform prevention operation.

The temperature detected by the temperature sensor 3 is applied to the blocking unit 4 as in the prior art, and the reference temperature at which the value changes according to the output state of the switch circuit unit 7, 8 at the blocking unit 4 and Compared to overheating, power off.

FIG. 3 is a schematic view of a projector having the overheat protection device of the projector of the present invention disposed on a flat surface such as a tabletop. As shown in FIG. 3, the temperature sensor 3 is located at a position far from the ground, which is the upper part of the projector. The switch SWB of the switch circuit section 8 is closed by the weight 5.

When the switch SWB is closed in this way, the power supply voltage VCC is applied to one side, and the other side is connected to the other end of the resistor RB connected to the switch SWB and the output terminal, that is, the ground is connected to the output terminal. The output of 8) becomes low potential, on the contrary, the output of the switch circuit portion 7 becomes high potential.

In addition, the blocking unit 4 receiving the output voltage of the switch circuit unit 8 and the output voltage of the switch circuit unit 7 through different paths recognizes that the projector is located in the forward direction, and corresponds to the corresponding reference voltage and the temperature. By comparing the output voltage of the sensor 3, the internal circuit is protected by cutting off the power applied to the internal circuit of the projector when the detected temperature is above the reference temperature.

In addition, Figure 4 is a schematic diagram when the projector with the built-in overheat prevention device of the projector of the present invention is disposed in the reverse direction, such as the weight, as shown in the weight 5 is located close to the upper side of the projector in the ground direction The temperature sensor 3 is located close to the lower side of the projector in a direction far from the ground.

At this time, the weight 5 is pressed the switch (SWA) of the switch circuit portion 7, thereby closing the switch (SWA) so that the output of the switch circuit portion 7 is output at a low potential.

On the contrary, since the switch SWB is in the open state, the switch circuit section 8 outputs a high potential output signal.

The cut-off unit 4 receiving the output determines that the projector is installed upside down, and compares the temperature detected by the temperature sensor 3 with the reference temperature by applying a reference voltage in such a state. As a result, the operation of turning on / off the lamp of the projector is performed.

FIG. 5 is a detailed circuit diagram of the blocking unit 4 according to the present invention. As shown in FIG. 5, the output voltage of the temperature sensor 3 is applied to one input terminal and is provided by the resistors R1 and R2 at the other input terminal. A first comparison unit COMP1 receiving the first reference voltage REF1, which is the divided power supply voltage VCC, and comparing the output voltage of the temperature sensor 3 with the first reference voltage REF1; The output voltage of the temperature sensor 3 is applied to one input terminal, and the second reference voltage REF2, which is the power supply voltage VCC divided by the resistors R3 and R4, is applied to the other input terminal. A second comparison unit COMP2 for comparing and outputting the output voltage of 3) and the second reference voltage REF2; The output signal of the first comparison unit COMP1 to which the first reference voltage REF1 is applied or the second comparison unit COMP2 to which the second reference voltage REF2 is applied according to the output signals of the switch circuit units 7 and 8. The microcomputer MICOM outputs a control signal CONTROL for judging the output signal and turning the lamp on and off.

Hereinafter, the blocking unit 4 of the present invention configured as described above will be described in more detail.

First, the reference voltage REF1 compared by the first comparison unit COMP1 serves as a reference for determining a detection temperature when the projector is normally placed, and the reference voltage REF2 compared by the second comparison unit COMP2 is Assume that this is a criterion for determining the detected temperature when the projector is placed upside down.

In this state, when the projector is normally placed on a flat surface such as a tabletop, the output voltage of the switch circuit unit 8 is low potential, and the output voltage of the switch circuit unit 7 is output at high potential, and the microcomputer applied thereto is applied. MICOM determines whether the lamp is on or off with the projector normally disposed and the output signal of the first comparator COMP1.

That is, the output voltage of the temperature sensor 3 that detects the temperature of a position relatively far from the ground, that is, the region having the highest internal temperature, is independent of the first and second comparators COMP1 and COMP2 regardless of the arrangement of the projector. It is applied to the negative input terminal (-).

In this case, the reference voltages REF1 and REF2 obtained by dividing the power supply voltage by the resistors R1 and R2 and R3 and R4 are input to the positive input terminals (+) of the first and second comparison units COMP1 and COMP2. do.

The reference voltages REF1 and REF2 may be set by adjusting the sizes of the resistors R1 and R2 and R3 and R4.

In this state, since the temperature sensor 3 is a resistance whose resistance value changes with temperature, the power supply voltage VCC determined by the ratio of the resistance of the temperature sensor 3 to the resistance R5 is divided. The voltage is the output voltage of the temperature sensor 3, and if the output voltage is greater than the reference voltages REF1 and REF2, the output voltages of the first and second comparators COMP1 and COMP2 are negative. If the output voltage of the temperature sensor is a value located between the reference voltages REF1 and REF2, the output voltages of the first comparator COMP1 and the second comparator COMP2 are high and low signals, respectively. It is output as a potential signal.

When the projector is normally placed, the microcomputer MICOM receives the output signal of the first comparator COMP1 and turns off the lamp when the output signal of the first comparator COMP1 is a negative signal. )

On the contrary, when the projector is inverted while being installed on a ceiling or the like, the output signal of the switch circuit unit 7 is applied to the microcomputer MICOM at low potential and the output signal of the switch circuit unit 8 is high potential. The MICOM determines the state of the control signal CONTROL according to the output signal of the second comparator COMP2 and outputs the control signal, thereby controlling the operation of the lamp.

As described above, the apparatus for preventing overheating of the projector of the present invention includes a single temperature sensor that always detects the highest internal temperature regardless of the arrangement of the projector, sets an appropriate reference temperature on the arrangement of the projector, and the temperature sensor. By controlling the operation of the lamp by comparing the internal maximum temperature detected from the internal temperature and its reference temperature, the internal circuits are prevented from being destroyed due to the temperature rise inside the projector, and the reliability of the overheating prevention is improved and the internal efficiency is more efficient. By setting the temperature, it is possible to perform stable projector operation.

Claims (4)

A temperature sensor which is symmetrical with the weight around the axis of rotation and is always located far from the ground regardless of the installation position of the projector and detects the temperature of the highest temperature region of the internal temperature of the projector; A plurality of switch units which sense the position of the temperature sensor and output different output signals according to the installation position of the projector; The overheat prevention device of the projector characterized by comprising a cut-off unit for blocking the operation of the lamp when the detection temperature is higher than the reference temperature, comparing the different reference temperature according to the output signal of the switch unit. . delete The switch of claim 1, wherein each of the plurality of switch units comprises: a switch configured to be controlled on and off according to the position of the temperature sensor to connect and control the output terminal to ground; The one side is connected to the output terminal and the overheat prevention device of the projector, characterized in that consisting of a resistor for receiving a power voltage to the other side. The switch unit of claim 1, wherein the blocking unit receives a voltage corresponding to a temperature detected by a temperature sensor at one end thereof, and receives and compares a reference voltage according to a different reference temperature to the other side and outputs the same. The same number of comparisons; And a microcomputer configured to output a control signal for controlling the on / off of the lamp by determining one output signal determined according to the outputs of the plurality of switch units among the output signals of the comparator.