KR20020095929A - Nitrogen discontinous supply device of infrared light searcher - Google Patents

Abstract

PURPOSE: A discontinuous nitrogen supply device is provided to effectively cool the infrared detector by using a small amount of nitrogen gas, while preventing dew formation at the infrared detector. CONSTITUTION: A discontinuous nitrogen supply device comprises an infrared detector(120); a nitrogen gas supply unit(110) for supplying nitrogen gas to the infrared detector; a solenoid valve(130) installed at the nitrogen gas supply line for the nitrogen gas supply unit and the infrared detector, which supplies nitrogen gas to the infrared detector in accordance with the control signal output from a timer(140); and the timer operated by an operator, which outputs the control signal to the solenoid valve so as to open/shut the solenoid valve.

Description

Nitrogen discontinuous supply of infrared explorer {NITROGEN DISCONTINOUS SUPPLY DEVICE OF INFRARED LIGHT SEARCHER}

The present invention relates to an infrared searcher, and more particularly, to efficiently cool an infrared searcher even with a small amount of nitrogen gas by supplying nitrogen gas for cooling the infrared searcher discontinuously through a plurality of modes according to the operator's setting. A nitrogen discontinuous supply of an infrared searcher.

In general, infrared Explorer is a refers to devices which follow a distant target is installed in the vehicle through an infrared ray, the detectors (IR Sensor) to allow a distance target detection in situations such as these infrared Explorer, and in the real environment of nitrogen (N ₂ ) Should be cooled.

After supplying nitrogen (N ₂ ) from 10 seconds up to 40 seconds, the cooling holding time should be maintained for more than 15 seconds when shut off.

However, the test should be carried out for a long time during the test in the laboratory, but when nitrogen is supplied for a long time, dew may form due to the difference between the inside and outside temperature of the searcher, so that the detector cannot detect the dew. There is a problem to wait until.

Therefore, the test is time-consuming since it is impossible to continuously test, and there is a limitation of the volume of the cooling tank mounted on the actual aircraft, so that the operator exhausts all of the nitrogen gas when the operator does not capture the target at the time of launching the vehicle. There is this.

Accordingly, an object of the present invention is to solve the above problems, and when the operator operates a switch to cool the infrared searcher using a timer and a solenoid valve, the timer gradually shortens the opening time of the solenoid valve over time. This prevents dew condensation on the infrared searcher while effectively cooling the infrared searcher even with a small amount of nitrogen gas.

In addition, another object of the present invention is to minimize the amount of nitrogen gas used to enable the operator to capture the target multiple times when firing the aircraft.

1 is a block diagram schematically showing the configuration of the nitrogen discontinuous supply of the infrared searcher according to the present invention

2 is a waveform diagram showing a waveform output when each operation switch of the timer of the nitrogen discontinuous supply of the infrared searcher according to the present invention is operated;

<Explanation of symbols for main parts of the drawings>

110: nitrogen gas supply device 120: infrared detector

130: solenoid valve 140: timer

141: operation switch

Features of the present invention for achieving the above objects,

In a vehicle equipped with an infrared searcher and a nitrogen gas supply device for supplying nitrogen gas to the infrared searcher,

A valve installed on the nitrogen gas supply line of the nitrogen gas supply device and the infrared searcher;

And a timer manipulated by an operator to output a control signal to the valve to open and close the solenoid valve.

Here, the timer is

With a plurality of operation switches,

Each operation switch is selected according to the flight distance of the vehicle, and outputs a control signal in the form of pulses of different modes.

Here also the control signal,

As time passes, the width of the high signal gradually decreases.

Hereinafter, the configuration of the nitrogen discontinuous supply apparatus of the infrared searcher according to the present invention will be described in detail with reference to FIGS. 1 and 2.

1 is a block diagram schematically showing the configuration of the nitrogen discontinuous supply of the infrared searcher according to the present invention, Figure 2 is an output when each operation switch of the timer of the nitrogen discontinuous supply of the infrared searcher according to the present invention is operated It is a waveform diagram showing the waveform which becomes.

1 and 2, the nitrogen discontinuous supply device 100 of the infrared searcher according to the present invention includes a nitrogen gas supply device 110, an infrared searcher 120, a solenoid valve 130, and a timer ( 140).

The nitrogen gas supply device 110 is mounted on a vehicle (not shown) to supply nitrogen gas to the infrared searcher 120 to cool the infrared searcher 120.

The infrared searcher 120 is mounted on a vehicle to follow a target in the distance through infrared light.

The solenoid valve 130 is installed on the nitrogen gas supply line of the nitrogen gas supply device 110 and the infrared searcher 120, and is opened and closed in accordance with a control signal output from the timer 140 to supply nitrogen to the nitrogen gas supply device 110. The gas is supplied to the infrared searcher 120.

The timer 140 is operated by an operator's operation to output a pulsed control signal to the solenoid valve 130 to open and close the solenoid valve 130. The timer 140 is provided with a plurality of operation switches 141, each operation switch 141 is selected by the operator according to the flight distance of the aircraft, as shown in Figure 2 control signals of different modes Outputs Here too, the control signal gradually decreases in the width of the high section as time passes. That is, when the operation switch 141 is operated, the high signal T1 having the first section is output, the low signal T2 having a certain section is output, and the pulse is less than the high signal having the first section. After outputting the high signal T3 having the second section having the width, that is, the small time width, the low signal T4 having the predetermined section is output, and again having a pulse width smaller than the high signal T3 having the second section. The high signal Tn having the nth section is output. The reason why the high signal T3 having the second section is cooled even if the pulse width is smaller than that of the high signal T1 having the first section is that the infrared searcher 120 has already maintained some cooling. to be.

Hereinafter, the operation of the nitrogen discontinuous supply device of the infrared searcher according to the present invention will be described in detail with reference to FIGS. 1 and 2.

First, the operator selects the "1" mode through the operation switch 141 of the timer 140 to cool the infrared searcher 120 with nitrogen gas in order to track the target. Likewise, high signals with different periods are output.

Then, since the pulse signal output from the timer 140 is applied to the solenoid valve 130, the solenoid valve 130 is opened in the high section so that the nitrogen gas of the nitrogen gas supply device 110 is supplied to the infrared searcher 120. In the low section, the solenoid valve 130 is closed so that the nitrogen gas from the nitrogen gas supply device 110 is cut off to the infrared searcher 120.

In addition, the solenoid valve 130 is opened again in the high section and the solenoid valve 130 is closed in the high section, and the opening and closing of the solenoid valve 130 is repeatedly performed by a pulse period, and the infrared searcher 120 is completed. Cool down. On the other hand, the opening and closing time of the solenoid valve 130 according to the mode is set differently according to the flight distance is selected by the operator according to the flight distance of the aircraft.

Therefore, the time for supplying nitrogen gas to the infrared searcher is set differently to prevent condensation on the infrared searcher, and the operator can capture the target several times even with a small amount of nitrogen gas.

As described above, according to the nitrogen discontinuous supply device of the infrared searcher according to the present invention, when the operator operates the switch to cool the infrared searcher using a timer and a solenoid valve, the timer opens the solenoid valve over time. By gradually reducing the temperature, the infrared searcher can be effectively cooled with a small amount of nitrogen gas while preventing dew from forming in the infrared searcher.

By minimizing the use of nitrogen gas, target capture can be captured multiple times as the operator launches a vehicle.

Claims (3)

In a vehicle equipped with an infrared searcher and a nitrogen gas supply device for supplying nitrogen gas to the infrared searcher, A valve installed on the nitrogen gas supply line of the nitrogen gas supply device and the infrared searcher; And a timer operated by an operator to output a control signal to the valve to open and close the solenoid valve. The method of claim 1, The timer, With a plurality of operation switches, Each of the operation switch is selected according to the flight distance of the vehicle, the nitrogen discontinuous supply apparatus of the infrared searcher, characterized in that for outputting a control signal in the form of pulses of different modes. The method of claim 2, The control signal, Nitrogen discontinuous supply of infrared searcher, characterized in that the width of the high signal gradually decreases with time.