JPS6110194Y2 - - Google Patents

Description

[Detailed Description of the Invention] The present invention relates to a temperature indication and alarm circuit that measures the temperature of various parts of an aircraft, etc., indicates the temperature, and outputs an alarm signal.

Generally, in an aircraft, a temperature measuring sensor such as a thermistor is attached to each part of the aircraft body, the temperature of each part is measured, and the measurement results are displayed on a meter (indicator). However, it is difficult to determine whether the temperature indicated by the meter exceeds the set temperature just by glancing at it. It is necessary to provide warning means such as a red lamp.

Conventionally, a circuit shown in FIG. 1 has been known as this type of temperature indication and alarm circuit. In this figure, 1 to 3 are resistors, 4 is a negative characteristic thermistor,
This thermistor 4 and each of the resistors 1 to 3 constitute a bridge circuit, and this bridge circuit is connected to the first DC power supply 5.
The first DC power supply 5 is connected to the first direct current power supply 5, and is supplied with current from the first DC power supply 5.

On the other hand, 6 is a diode, 7 is a resistor for alarm signal output, 8 is a variable resistor (resistance value R ₈ ) for setting the temperature at which the alarm signal is output, and 9 is a second DC power supply that connects diode 6 and the alarm signal. The output resistor 7 is connected in series and inserted between the connection point between the resistors 1 and 2 and the movable end of the variable resistor 8 . Also,
Each fixed end 8b, 8c of the variable resistor 8 is connected to each electrode of a second DC power supply (voltage V ₂ ) 9, and the fixed end 8c is connected to the connection point between the resistor 3 and thermistor 4. .

On the other hand, 10 is an indicator (meter) that displays the value (temperature) corresponding to the change in the resistance value of the thermistor 4.
A voltmeter is used. This indicator 10 is inserted between the connection point between resistor 1 and resistor 2 and the connection point between resistor 3 and thermistor 4.

Here, if the temperature of the place where the thermistor 4 is installed increases, in response to this temperature change,
The resistance value of the thermistor 4 becomes low, and the voltage (Vm) applied to the indicator 10 becomes high. Thereby, the indicator 10 displays the temperature at the location where the thermistor 4 is installed. In addition, when the temperature at the location where the thermistor 4 is installed becomes higher than the temperature installed at the variable resistor 8, in other words, the resistance value between the movable end 8a and the fixed end 8c of the variable resistor 8 is
In this case, when the voltage (Vm) applied to the indicator 10 becomes higher than the voltage (V ₂ x/R ₈ ) between the movable end 8a and fixed end 8c of the variable resistor 8, the diode 6 becomes a forward bias, an alarm signal current flows through the low resistor 7 for alarm signal output, an alarm signal (voltage) is generated between both ends of the alarm signal output resistor 7, and the generated alarm signal is output from terminals 11a and 11b. be done.

By the way, in the above-described circuit, when the diode 6 is turned on, the current flowing through the resistor 1 and thermistor 4 increases, and as a result, the balance of the bridge circuit is lost, and the indicator 10 cannot indicate the correct temperature.

Further, the voltage applied to the indicator 10 changes according to the voltage fluctuation of the first DC power source 5, and the voltage between the movable end 8a and the fixed end 8c of the variable resistor 8 changes depending on the voltage fluctuation of the first DC power source 5. Changes according to voltage fluctuations. Therefore, it is necessary to take precautions such as providing a circuit (constant voltage circuit) for stabilizing the power supply voltage, which poses a problem of increasing the number of parts.
These problems can be caused by harsh environmental conditions, especially when applied to instruments mounted on aircraft.
This is especially noticeable.

In view of the above points, this invention separates the operation of outputting the alarm signal and the operation of the indicator.
It is possible to prevent malfunction of the indicator even when an alarm signal is output, it is possible to keep the alarm temperature constant even when the power supply voltage fluctuates, and it is possible to eliminate the need for a second power supply. is possible,
This provides a temperature indication and alarm circuit that can simplify the circuit, using an AC power source as a power source, and using two diodes that alternately become forward biased in accordance with the phase of the output of this AC power source. The device is characterized in that the indicator is driven and the alarm temperature is detected alternately.

This invention will be explained below with reference to the drawings.

FIG. 2 is a circuit diagram showing an embodiment of this invention. In this figure, 12 is the first resistor (value
R ₁ ), one end of which is connected to the first terminal 13;
The other end is a variable resistor (value) for setting the alarm temperature.
R ₅ ) is connected to one fixed end 14b of 14. The movable end 14a of the variable resistor 14 is connected to the second terminal 1
5, the other fixed end 14c is connected to one end of a second resistor (value R ₂ ) 16, the other end of this second resistor 16 is connected to the cathode of the first diode 17, and this second The anode of the first diode 17 is connected to the third terminal 18 and also to one output terminal 19b of the AC power supply 19.
The other output terminal 19a of the AC power supply 19 is connected to the first terminal 13. This first terminal 13 is connected to the anode of the second diode 20 and also to one end of a third resistor (value R ₃ ) 21, and the other end of this third resistor 21 is connected to the fourth terminal. 22
and one terminal of an ammeter (indicator) 23. This ammeter 23 is for displaying temperature, and the other terminal is connected to the cathode of the second diode 20. Further, the fourth terminal 22 is connected to one end of a temperature sensor 24 whose resistance value Rx changes as the temperature changes. This temperature sensor 24 is a thermistor with negative characteristics, and the other end is connected to the third terminal 18.
It is connected to the. Further, the fourth terminal 22 is connected to the third terminal 22.
The cathode of the diode 25 is connected to one end of a fourth resistor 26 that generates an alarm signal voltage, and is also connected to one alarm signal output terminal 27a. Also,
The other end of the fourth resistor 26 is connected to the second terminal 15 and also to the other alarm signal output terminal 27b.

Here, when the AC power supply 19 generates an AC voltage and one output terminal 19a is at a positive potential (with respect to the other output terminal 19b), a current i ₁ from the AC power supply 19 is output from the output terminal 19a→ The current flows through the second diode 20 → ammeter 23 → temperature sensor 24 → the other output end 19b of the AC power supply 19. Therefore, the temperature sensor 2 is included in the ammeter 23.
A current i ₁ flows depending on the resistance value of 4, that is, the temperature of the location where the temperature sensor 24 is installed. Therefore, the measured temperature can be known from the indicated value of the ammeter 23. In this case, the first diode 17 becomes reverse biased, the potential of the second terminal 15 becomes equal to the potential of the output terminal 19a of the AC power supply 19, and the potential of the fourth terminal 22 becomes equal to the potential of the output terminal 19a of the AC power supply 19 due to the voltage drop. , one output terminal 19a of the AC power supply 19
Since the third diode 25 is reverse biased, no current (alarm signal current) flows through the fourth resistor 26 regardless of the resistance value (Rx) of the temperature sensor 24. In addition, since this state (the state in which the second diode 20 is forward biased) is only during the half cycle period of the AC signal generated by the AC power supply 19, the pointer of the ammeter 20 will be at the average value of the current i ₁ . Instruct the corresponding value (temperature).

Next, when the phase of the AC signal output by the AC power supply 19 is reversed, the current i ₂ is 1 resistor 12→the output terminal 19a of the AC power supply 19, and the current _i3 flows through the output terminal 19b of the AC power supply 19.
→ Temperature sensor 24 → Third resistor 21 → AC power supply 1
It flows through a path called output terminal 19a of No.9. Here, the movable end 14a and the fixed end 14 of the variable resistor 14 are
Rx
_If the relationship <R ₃ (R _{2 +} 15 is the potential of the fourth terminal 22
Since the potential is lower than that of , the third diode becomes forward biased, an alarm signal current flows through the fourth resistor 26, and an alarm signal is output from the alarm signal output terminals 27a and 27b. Also, Rx＞R ₃ (R ₂ +X)/
If the following relationship holds (R ₁ + R ₅ - The diode 25 becomes reverse biased, and no alarm signal is output from the alarm signal output terminals 27a, 27b.

Note that when the potential of the output terminal 19b of the AC power supply 19 is higher than the potential of the output terminal 19a, the second diode 20 is reverse biased, so no current flows through the ammeter 23. Therefore,
The operation of outputting the alarm signal and the instruction operation of the ammeter 23 are completely separated. Also, the alarm temperature is Rx=
Since this is the temperature of the temperature sensor 24 when the relationship R ₃ (R ₂ +X)/(R ₁ +R ₅ -X) holds,
Even if the voltage of the AC signal output from the AC power supply 19 fluctuates, it remains constant. Note that the temperature sensor 24 may be a thermistor with positive characteristics. in this case,
A similar function can be obtained by reversing the direction of the third diode 25. Further, the ammeter 23 may be a voltmeter. However, in this case, connect a load resistor in parallel with the voltmeter.

As explained above, this invention uses first and second diodes that alternately become forward biased in accordance with the phase of the output of the AC power source to drive the indicator.
Since the alarm temperature detection is performed alternately, the operation of outputting the alarm signal and the operation of the indicator can be separated, thereby preventing malfunction of the indicator when an alarm signal is output. . Further, even when the power supply voltage fluctuates, the alarm temperature can be kept constant, and the second power supply can be made unnecessary, thereby simplifying the circuit.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an example of a conventional temperature indication and alarm circuit, and FIG. 2 is a circuit diagram showing the configuration of an embodiment of this invention. 12...First resistor, 13...First terminal, 1
5... Second terminal, 16... Second resistor, 17...
...First diode, 18...Third terminal, 20
...Second diode, 21...Third resistor, 2
2... Fourth terminal, 23... Indicator (ammeter),
24... Temperature sensor, 25... Third diode, 26... Fourth resistor.

Claims (1)

[Scope of utility model registration request] A first resistor is inserted between the first and second terminals, a second resistor and a first diode are inserted in series between the second and third terminals, and a resistor is inserted between the third and fourth terminals. A temperature sensor is inserted, a third resistor is inserted between the fourth and first terminals, a second diode and an indicator are inserted in series, and a fourth resistor is inserted between the second and fourth terminals. a resistor and a third diode are inserted in series, and the second diode is connected to the first diode.
is inserted in series with the indicator with a polarity such that it is reverse biased when the first diode is forward biased and forward biased when the first diode is reverse biased. Temperature indication and alarm circuit.