KR101181747B1 - Testing Device for Temperature Control Sensor of Aircraft - Google Patents

Abstract

The present invention relates to an apparatus for testing an aircraft temperature control sensor, and more particularly, a device connection part for performing a function of connecting a signal with a temperature control sensor, and a part and a temperature control by receiving a DC voltage from an external power source. The power supply unit to the detector, the variable resistance control unit for changing the resistance value for the output of the operating current of the temperature control sensor, and the operating current output from the temperature control sensor according to the resistance value change of the variable resistance control unit circuit A current measuring unit having a current measuring terminal which can be measured by using a measuring means, a voltage measuring unit having a voltage measuring terminal which can measure the output voltage of the temperature control detector by using a circuit measuring unit, and a temperature Function to adjust the response speed at the output of the operating current of the control detector Comprising a reaction rate control unit and a temperature control unit for changing the resistance value to the temperature control sensor according to the target temperature value by the operator, it is possible to accurately determine the failure site and defects of the temperature control sensor removed from the aircraft To an aircraft temperature control sensor test device.

According to the present invention, after simply connecting the temperature control detector, the variable resistance controller may be used to change the resistance of the temperature control detector and accurately measure the operating voltage output according to the change with a multimeter. Through various tests using the reaction rate control unit, etc., there is an advantage that it is possible to conveniently grasp the normal operation of the temperature control sensor.

Aircraft, Environmental Control Systems, Temperature Control Sensors

Description

Testing device for temperature control sensor of aircraft             

1 is a block diagram showing the configuration and interworking of environmental control system devices of an aircraft.

2 is a circuit diagram showing the circuit configuration of the aircraft temperature control sensor test apparatus according to a preferred embodiment of the present invention.

3 is a perspective view showing the shape of the aircraft temperature control sensor test apparatus shown in FIG.

4 is a flowchart illustrating a process of performing a lower limit set point check of a temperature control sensor by using the aircraft temperature control sensor test apparatus shown in FIGS. 2 and 3.

Description of the Related Art [0002]

10: temperature control sensor

100: Aircraft Temperature Control Sensor Test Device

110: connection

120: power supply                 

130: variable resistance control unit

140: reaction rate control unit

150: current measuring unit

160: voltage measuring unit

170: temperature control unit

The present invention relates to an aircraft temperature control sensor test apparatus that can easily test the temperature selection resistance value of the temperature control sensor of the aircraft environmental control system and the resulting operating current.

In general, the environmental control system devices of the aircraft refers to devices for improving the pilot's efficiency in flight by allowing the temperature inside the aircraft cockpit to be maintained at the optimum temperature for the pilot.

1 is a block diagram showing the configuration and interlocking state of the environmental control system of the aircraft, as shown in the environmental control system of the aircraft to select the desired cockpit temperature from the pilot to change the resistance value corresponding to The temperature control detector 10 and the temperature outputting the operating current to the temperature control valve 30 and sensing the control current level according to the cockpit temperature selection knob 20 and the resistance value changed from the cockpit temperature selection knob 20. Temperature for supplying the mixed air to the cockpit by adjusting a mixing ratio of the high temperature air delivered from the engine compressor 40 and the low temperature air supplied from the cooling turbine 50 according to the operating current output from the regulation sensor 10. Control valve 30.

Thus, when the pilot selects the desired temperature with the cockpit temperature selection knob 20 mounted on the cockpit panel, the cockpit temperature selection knob 20 changes the resistance value correspondingly and the temperature control sensor 10 changes the resistance. The temperature of the cockpit is adjusted by outputting an operating current to the temperature control valve 30 according to the value and causing the temperature control valve 30 to output air of a selected temperature in response to the level of the operating current.

As described above, the temperature control detector 10 has a function of supplying an operating current of the temperature control valve 30 for controlling the internal temperature of the aircraft cockpit, and a function of detecting the operating current so as to know the current temperature. It is an important device that plays a key role in the aviation control system.

Therefore, when an abnormality occurs in such a temperature control sensor 10, it is difficult to maintain the normal temperature of the aircraft cockpit, and therefore, during the manufacture of the aircraft or before the flight, it is necessary to test whether the temperature control sensor 10 operates normally, and the test result Maintenance and replacement should be performed accordingly.

However, in the related art, a test apparatus for inspecting such a temperature control sensor 10 has not been developed, and thus the temperature and temperature selected by the cockpit temperature selection knob 20 with all the apparatuses 10, 20, and 30 mounted thereon. Compare the temperature of the air output from the control valve 30 to check whether there is an abnormality, and if an abnormality occurs, if the normal mixed air is output after replacing the other temperature control sensor to the previously installed temperature control sensor (10) The test was conducted by determining that an abnormality occurred.

However, in this conventional case, since the cumbersome temperature measurement work must be performed in order to test the temperature control sensor 10, not only the human time is consumed, but also the reliability of the test is not high.

In addition, even when an abnormality occurs, the abnormal part cannot be accurately known, and the temperature control sensor 10, the cockpit temperature selection knob 20, and the temperature control valve 30 are replaced in order to retest to find an abnormality occurrence device. There is a very inefficient problem because it must be paid.

The present invention was devised to solve these problems, and provides an aircraft temperature control sensor test apparatus that can easily perform various tests of the temperature control sensor by measuring the resistance change and the output current of the aircraft temperature control sensor. By doing so, there is an object to solve the problems of inefficiency and reliability that have conventionally occurred.

In order to achieve the above object, the present invention provides a device for testing the temperature control sensor of the aircraft outputting the operating current to the temperature control valve in response to a change in the resistance value applied from the outside for controlling the temperature of the aircraft cockpit It is a device connection part that performs the function to connect the signal to the temperature control detector, a power supply that receives a DC voltage from an external power source and transmits it to each part and the temperature control detector, and a resistor for outputting the operating current of the temperature control detector. Current measurement including a variable resistance adjusting unit for changing a value and adjusting a current, and a current measuring terminal for measuring an operating current output from a temperature control detector according to a change in the resistance value of the variable resistance adjusting unit using a circuit measuring unit. Using the circuit measuring means to output the output voltage of the temperature control sensor A voltage measuring unit having a voltage measuring terminal configured to measure the reaction rate, a reaction rate adjusting unit performing a function of adjusting a reaction rate at the time of outputting the operating current of the temperature control sensor, and the operator according to a target temperature value It consists of a temperature controller to adjust the resistance value by changing the temperature sensor.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention in detail.

First, in adding reference numerals to components of each drawing, the same components are described so as to have the same reference numerals as much as possible even if displayed on different drawings.

FIG. 2 is a circuit diagram illustrating a circuit configuration of an aircraft temperature control sensor test apparatus according to a preferred embodiment of the present invention, and is a diagram illustrating a connection state for each terminal connected to a general temperature control sensor 10 for a test. 3 is a perspective view showing the shape of the aircraft temperature control sensor test apparatus 100 shown in FIG.

First, each terminal of the normal temperature control sensor 10 shown in FIG. 2 will be described.

The normal temperature control sensor 10 is connected to a power supply terminal A, a direct current (DC) return terminal P, a temperature selection terminals H, G and F connected to the cockpit temperature selection knob 20, and an external device. External connection terminals B, C, D, E, J and K which can be connected to each other, signal output terminals L and M for outputting signal outputs, and terminals such as N and R as test terminals.

As shown in FIG. 2 and FIG. 3, the temperature control sensor test apparatus 100 includes a device connection unit 110, a power supply unit 120, a variable resistance control unit 130, a reaction rate control unit 140, and a current measurement unit ( 150, the voltage measuring unit 160 and the temperature adjusting unit 170.

The device connection unit 110 performs a function of connecting the temperature control sensor test device 100 to the temperature control sensor 10 to enable signal exchange with the temperature control sensor 10 during the test, as shown in FIG. 3. It is provided with a connection connector 111 connectable to the connection jack 11 of the detector 10. When the connection connector 111 is connected to the connection jack 11 of the temperature control sensor 10 is connected to each terminal as shown in the circuit diagram of FIG.

The power supply unit 120 receives a direct current (DC) voltage of 28V from an external power supply and supplies the power to the respective parts 110 to 170 of the temperature control sensor test apparatus 100, and supplies the temperature through the power terminal A of the temperature control sensor 10. A function of transmitting a driving voltage to the regulation detector 10 is performed.

Preferably, the power supply unit 120 measures the power switch 121 for turning the power on or off, the power indicator 122 which is turned on when the power is turned on, and the power. It has a measuring terminal 123 that can be.

The variable resistance controller 130 is connected to the temperature selection terminal F and the external connection terminals B and E of the temperature control sensor 10 so as to change a resistance value for outputting the operating current of the temperature control sensor 10. Do this.

In this case, the variable resistance adjusting unit 130 includes a first variable resistance adjusting terminal 131 for adjusting the resistance value in the low temperature state and a second variable resistance adjusting terminal 132 for adjusting the resistance value in the high temperature state.

Because the thermocouple generating the operating current is usually built in the high temperature control and the low temperature control inside the temperature control sensor 10, two variable resistance control terminals to apply a resistance value to each thermocouple. (131, 132) is needed.

The reaction speed controller 140 is connected to the external connection terminals J and K of the temperature control sensor 10 to adjust the reaction speed at the time of outputting the operating current of the temperature control sensor 10.

At this time, the reaction rate adjusting unit 140 controls the slow and fast reaction speed by turning on / off the storage capacitor 142 and the storage capacitor 142 connected in parallel to the K terminal and the J terminal. It is provided with a reaction rate control switch 141.

The current measuring unit 150 is connected to the signal output terminals L and M of the temperature control sensor 10, and corresponds to the signal output terminal L of the temperature control sensor 10 in response to the resistance value changed by the variable resistance control unit 130. And current measuring terminals 151 and 152 for measuring an operating current output from M.

Therefore, the operator applies the resistance value to the temperature control sensor 10 using the variable resistance control unit 130 and connects the multimeter 200 to the current measurement terminals 152 and 152 with the operating current output corresponding thereto. Can be measured easily.

The voltage measuring unit 160 provides a voltage measuring terminal 161 that can measure the output voltage of the temperature control detector 10. Circuit voltages are respectively connected to the test terminal R and the DC return terminal as shown in FIG. 2. It is connected.

The temperature control unit 170 is connected to the temperature selection terminals G and H of the temperature control sensor 10, the operator can adjust the operation output signal by changing the resistance value in the temperature control sensor 10 according to the target temperature value. It performs the function that makes it possible.

The temperature controller 170 is similar in function to the variable resistor controller 130, but the variable resistor terminals 131 and 132 of the variable resistor controller 130 are displayed with a resistance value and a temperature controller. A temperature value is displayed on the temperature control terminal 171 of 170.

This is to increase the convenience by enabling both the test for measuring the resistance value and the operating current during the test of the temperature control sensor 10 and the test for checking the normal operation, and the test for checking the operating current and the corresponding temperature. to be.                     

Meanwhile, in order to operate the temperature control terminal 171, the temperature control selection switch 172 may be turned on.

4 is a flowchart illustrating a process of performing a lower limit set point check of the temperature control sensor 10 using the aircraft temperature control sensor test apparatus 100 shown in FIGS. 2 and 3.

First, the operator connects the temperature control sensor 10 through the device connection unit 110 of the temperature control sensor test apparatus 100 to make a connection state as shown in FIG. 2 (step: S1).

After connection, when the operator turns on the power switch 121 of the power supply unit 120, the power indicator 122 is turned on while the parts 110 to 170 of the temperature control sensor test apparatus 100 and the temperature control detector ( 10) a DC (28 V) power supply is applied (step S2).

When the power is applied, the operator adjusts the first variable resistance control terminal 131 of the variable resistance adjustment unit 130 to 10000 ohms and the second variable resistance control terminal 132 to 5000 ohms (step: S3), Accordingly, the temperature control sensor 10 operates an internal thermocouple to output an operating current to the signal output terminal.

Subsequently, the operator connects the red terminal of the multimeter to the plus terminal 151 of the current measuring terminals 151 and 152, and connects the black terminal to the negative terminal 152 (step: S4), and the output current is output. Adjust the first variable resistance adjusting terminal 131 by turning until it stabilizes at 50 ± 20mADC (step: S5).

When the operating current is stabilized to the above value, the lower set point check is terminated by checking whether the resistance value of the first variable resistance adjustment terminal 131 exists within 9686 to 10974 ohms, which is a normal range (step S6).

As such, the main test of the temperature control sensor 10, which is the middle set point check, the upper limit set point check, the dynamic response check, the maximum current limit check, the temperature selector ramp check, and the resistance value check according to the temperature change of the temperature control detector element And so on.

As mentioned above, although preferred embodiments of the present invention have been described in detail, those of ordinary skill in the art to which the present invention pertains should realize the present invention without departing from the spirit and scope of the present invention as defined in the appended claims. It will be appreciated that various modifications or changes can be made. Accordingly, modifications to future embodiments of the present invention will not depart from the technology of the present invention.

As described above, according to the present invention, after simply connecting the temperature control sensor, the resistance of the temperature control sensor can be changed using the variable resistance controller, and the operating voltage outputted according to the change can be accurately measured by the multimeter. Various tests using the temperature control unit and the reaction rate control unit can conveniently determine whether the temperature control sensor is operating normally.

Therefore, there is an advantage that can solve the time and human inefficiency that occurred in the past and improve the reliability of the test through accurate measurement.

Claims (4)

An apparatus for testing a temperature control sensor of an aircraft that outputs an operating current to a temperature control valve in response to a change in a resistance value applied from the outside for temperature control of the aircraft cockpit, A device connection unit which performs a function of connecting to enable the exchange of signals with the temperature control sensor; A power supply unit receiving a DC voltage from an external power source and transferring the DC voltage to each unit and the temperature control detector; A variable resistance adjusting unit for changing and adjusting a resistance value for outputting an operating current of the temperature adjusting sensor; An aircraft temperature control sensor test comprising a current measuring terminal having a current measuring terminal for measuring the operating current output from the temperature control sensor according to the change in the resistance value of the variable resistance control unit using a circuit measuring means. Device. The apparatus of claim 1, further comprising: a reaction rate controller configured to adjust a reaction rate at the time of outputting the operating current of the temperature control sensor; And a voltage measuring unit having a voltage measuring terminal for measuring an output voltage of the temperature adjusting sensor by using the circuit measuring means. The aircraft of claim 1, wherein the variable resistance controller includes a first variable resistance control terminal for adjusting a resistance value in a low temperature state and a second variable resistance control terminal for adjusting a resistance value in a high temperature state. Temperature control sensor test device. The apparatus of claim 1, further comprising a temperature controller configured to change and adjust a resistance value of the temperature control sensor according to a target temperature value.

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