KR100956851B1 - Water Level Detecting Device Using Timer IC - Google Patents

Abstract

The present invention relates to a water level sensor using a timer circuit.

More specifically, in the water level sensor using a timer circuit,

A power input unit for applying power, a metal sensor rod for detecting contact with water, a power distribution unit for distributing a voltage applied to the timer circuit by the power input unit when the metal sensor rod is in contact with water, and the power source; And a timer circuit for turning on / off the switching part by a voltage applied from the distribution part and a switching part for turning on / off by the timer circuit. The present invention relates to a water level detection device using a timer circuit in which a water level detection unit, in which a characteristic dummyster and a reverse current prevention diode are sequentially connected, is connected to a connector through a lead wire.

According to the present invention, it is possible to prevent fire due to stable characteristics and electrical overload, to have a long life of the sensor, and to reduce the number of parts of circuit elements constituting the level sensor, thereby improving the quality and reliability of the product.

 Timer circuit, metal sensor rod, alarm lamp

Description

Water Level Detecting Device Using Timer IC

The present invention relates to a water level sensor using a timer circuit.

More specifically, the present invention relates to a water level detection device using a timer circuit for blinking an alarm lamp using a timer circuit after detecting a water level with a metal sensor rod for water included in a fuel filter.

In general, diesel oil used as fuel for automobiles is refined and distributed very cleanly at refineries, but water and other impurities are often mixed during storage or transportation of refined fuel. In the case of using the fuel including the fuel, the fuel economy of the vehicle is reduced, or the incomplete exhaust gas is increased, the combustion efficiency of the vehicle is reduced and the life of the vehicle is greatly shortened.

Thus, in a refinery vehicle, a fuel filter is installed in a fuel supply line that pumps fuel stored in a fuel tank with a fuel pump to supply the engine, thereby removing moisture and other impurities from the fuel before being supplied to the engine. To provide clean fuel.

However, if water above the reference level accumulates in the fuel filter, it must be discharged or the fuel filter must be replaced so that the fuel filter can function normally. Inform the driver so that the driver can accurately and conveniently determine when to replace the fuel filter. To this end, the fuel filter is usually provided with a water level detection device to detect the water level.

A circuit diagram of the water level sensor for a conventional fuel filter for this purpose is shown in FIG.

However, in the case of the water level detection device of the conventional fuel filter, many circuit elements are used, and there is a problem that a lot of errors occur during production or use of the product.

The present invention has been made to solve the above problems, it is possible to prevent the fire due to the stable characteristics and electrical overload, the life of the sensor is permanent and the number of components of the circuit components constituting the water level level detection device is small An object of the present invention is to provide a water level sensor using a timer circuit that can improve quality and reliability.

The above object of the present invention is to provide a water level detection device using a timer circuit.

A power input unit for applying power, a metal sensor rod for detecting contact with water, a power distribution unit for distributing a voltage applied to the timer circuit by the power input unit when the metal sensor rod is in contact with water, and the power source; And a timer circuit for turning on / off the switching part by a voltage applied from the distribution part and a switching part for turning on / off by the timer circuit. A water level detection unit using a timer circuit, in which a water level detection unit, in which a characteristic dummyster and a reverse current prevention diode are sequentially connected, is connected to a connector through a lead wire, is achieved.

In the water level sensor using a timer circuit according to a preferred feature of the present invention, a resistor and a capacitor are connected in series, and the timer circuit is connected to a connection point between the resistor and the resistor and a connection point between the resistor and the capacitor and is applied by the power input unit. The voltage is divided and charged so that the voltage is applied to the bias voltage of the timer circuit, and the capacitor includes a power distribution unit characterized in that a discharge passage is formed in connection with the metal sensor rod.

According to the present invention, it is possible to prevent fire due to stable characteristics and electrical overload, to have a long life of the sensor, and to reduce the number of parts of circuit elements constituting the level sensor, thereby improving the quality and reliability of the product.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the water level sensor according to an embodiment of the present invention.

Figure 2 shows an external perspective view of the water level sensor according to the present invention, the fastening portion 6 for attaching to the fuel filter (not shown) is formed on the outside of the body case (1) and the fastening portion A number of threads are formed and screwed together to enable firm and airtight sealing.

The metal sensor rod 2 is installed at the center of the fastening part so that the metal sensor rod 2 protrudes to the outside, and the metal sensor rod 2 is connected to the water level detection unit 4 installed inside the body case 1 and the exposed portion is provided. When water is generated in the fuel filter while the fuel filter is installed inside the fuel filter, the fuel filter and the metal sensor rod (2), which are in contact with the vehicle body and are electrically grounded, are energized. It is made to be grounded. The water level detection unit 4 is connected to the alarm lamp (not shown) through the lead wire 3 and the connector 5, so that the alarm lamp is turned on when the water level is sensed by the metal sensor rod 2.

3 is a block diagram of the water level detection unit 4 according to the present invention, a block diagram, and FIG. 4 is an internal circuit diagram of the water level detection unit. Referring to FIG. The distribution unit 400 includes a timer circuit 500 and a switching unit 600.

The power input unit 300 functions to apply general commercial power to the water level detection level device, and the power distribution unit 400 receives commercial power from the power input unit 300 to distribute the voltage to the timer circuit 500. do.

The power distribution unit 400 is formed by connecting two resistors R1 and R2 and one capacitor C connected to the ground in series. The connection point Y between each resistor R1 and the resistor R2 is a timer circuit. The connection terminal (Y) of the resistor (R2) and the capacitor (C) is connected to the trigger terminal (pin 2) of the timer circuit 500 through the resistor (R3) at the same time. It is connected to the metal sensor rod 700 through the resistor (R4), the voltage divided and charged to the resistor (R1, R2) and the capacitor (C) is applied to the timer circuit 500 is output from the timer circuit 500 The output signal is adjusted and the switching unit 600 is turned on / off by the output signal of the timer circuit 500 to blink the alarm lamp.

The timer circuit 500 and the switching unit 600 of the present invention are more preferably composed of a NE555 and a PNP type transistor, respectively. Hereinafter, the present invention consisting of the NE555 and a PNP type transistor will be described in detail.

Typically, the NE555 consists of two comparators, a flip-flop, a discharge transistor and three resistor networks in series.

First, three resistors are connected in series between the power input (Vcc) and ground.

According to the voltage division principle, the voltage applied from the power input unit 300 is 1 / 3Vcc, 2 / 3Vcc to the (+) input of COM1 and the (-) input terminal of COM2 by the resistor and capacitor of the voltage distribution unit 400. Are each used as the reference voltage of the comparator.

The trigger terminal (pin 2) is clamped to the negative input side of the comparator (COM1). Therefore, if the voltage of the trigger terminal is less than 1 / 3Vcc, the output of the comparator COM1 is HIGH. Therefore, HIGH is input to the flip-flop S input, so that HIGH is output to the pin 3 of the output terminal.

On the contrary, if the voltage of the trigger terminal (pin 2) is greater than 1 / 3Vcc, the output of the comparator COM1 will be LOW so that the output of the flip-flop will not change.

The threshold terminal (No. 6 pin) also operates on the principle similar to the trigger terminal.

If the threshold voltage is greater than 2 / 3Vcc, the output of the comparator (COM2) is HIGH, so the R input of the flip-flop is HIGH and therefore the output is LOW. If the output of the comparator (COM2) is LOW, the inverting output is HIGH. Since the discharge transistor is turned on and the RC circuit is attached to the 7th terminal as an external circuit, the charge is discharged through the 7th terminal when the discharge transistor is turned on.

RESET (terminal 4) is used to stop or stop the timer circuit 500 because the output is always LOW regardless of the input by stopping the operation of the flip-flop.

According to the present invention, since the capacitor C is not charged immediately after power is supplied from the power input unit 300, the potential of the trigger terminal X point is 0V. Therefore, since the comparator C0M1 outputs HIGH and HIGH is input to the flip-flop S, the output Q becomes HIGH so that the switching unit 600 connected to the timer circuit 500 is turned on so that the dummy dummy PTC (PTC) is turned on. ) And diode (D1) turn on the alarm lamp connected to the rear stage.

When the charge is charged in the capacitor C and the potential of the trigger terminal or the X point exceeds 1/3 Vcc, the output of the comparator COM2 changes to LOW. However, since the flip-flop does not affect the output when it is LOW, the output (Q) is maintained in the HIGH state, and the inverted output (/ Q) is kept in the LOW state.

 Therefore, even if the trigger terminal or the X point exceeds 1 / 3Vcc, since the same state as before, the capacitor will continue to be charged. After that, when the potential of trigger terminal or X point exceeds 2 / 3Vcc, the output of COM2 is changed to HIGH, so the flip-flop is reset, the output (Q) is changed to LOW and the inverted output (/ Q) becomes HIGH accordingly. Then, the discharge transistor is turned on, and the charge that has been charged in the capacitor C starts to discharge through the discharge transistor.

When the output Q of the flip flop becomes LOW, the switching unit 600 connected to the timer circuit 500 is turned off to turn off the alarm lamp connected to the rear end.

After that, when the charge charged in the capacitor starts to discharge through the discharge transistor, the potential of the trigger terminal or the X point starts to fall again and when it starts to fall below 2 / 3Vcc, the output of COM2 becomes LOW again and the flip-flop is reset. Output Q will remain LOW. Therefore, since the inverting output (/ Q) becomes HIGH, the discharge transistor is kept in the ON state and continuous discharge proceeds. As the potential of the X point becomes smaller than 1 / 3Vcc due to the continuous discharge, the output of COM1 changes to HIGH, so the output of the flip-flop (Q) also changes to HIGH and the alarm lamp turns on again.

In addition, the inversion output (/ Q) becomes LOW so that the discharge transistor is turned off, and the capacitor stops discharging and starts charging again. When the capacitor changes to charging operation and the potential of trigger terminal or X point is greater than 1 / 3Vcc, COMP1 output goes LOW, but the flip-flop output remains HIGH and the alarm lamp remains lit.

This process is repeated until the potential of trigger terminal or X point becomes 2 / 3Vcc, and the potential of capacitor goes between 1 / 3Vcc and 2 / 3Vcc and output (Q) repeats HIGH and LOW. The lamp will perform a flashing operation.

After lighting, the extinction state continues until water is detected on the metal sensor rod 700. When water is detected by the metal sensor rod 700, the vehicle body is electrically grounded and the case of the fuel filter is also in contact with the vehicle body. The metal sensor rod 700 is also connected to the ground side.

Therefore, when the charging voltage charged in the capacitor C is discharged to the ground side through the resistor R4 and the metal sensor rod 700, and the potential of the trigger terminal or X is lower than 1 / 3Vcc, COM1 outputs HIGH and flip-flop Since HIGH is input to S of the output Q, the output Q becomes HIGH and the switching unit 600 connected to the timer circuit 500 is turned on to provide a static dummy dummy PTC through the switching unit 600. The driving signal for turning on the alarm lamp is output through the output terminal OUT through the diode D1.

On the other hand, when an overcurrent flows in the process of outputting the power voltage by the power input unit 300 to the alarm lamp side as described above, the resistance value of the static dummy dummy PCT is increased and the overcurrent is cut off. The internal circuit can be protected by being blocked by the diode D1 when drawn to the water level level detector.

Although one preferred embodiment of the present invention has been described above, it is apparent that the present invention may use various changes, modifications, and equivalents, and may be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

1 is a detailed internal circuit diagram of a conventional water level sensor.

Figure 2 is an external perspective view of the water level sensor according to an embodiment of the present invention.

Figure 3 is a block diagram of a water level detection unit according to an embodiment of the present invention.

4 is an internal circuit diagram of a water level detection unit according to an embodiment of the present invention.

*** Explanation of symbols for main parts of drawing ***

300: power input unit 400: power distribution unit

5OO: timer circuit 600: switching unit

700: metal sensor rod

Claims (2)

In the water level detection device using a timer circuit, A power input unit for applying power; A metal sensor rod that detects contact with water; One capacitor connected to the ground and two resistors are connected in series to distribute the voltage to the applied power, and one of the resistors and the connection point (X) of the capacitor are connected to the metal sensor rod through the third resistor. Distribution unit; And The connection point (Y) of the two resistors is connected to the threshold terminal, the connection point (X) of any one of the resistor and the capacitor is connected to the trigger terminal through a fourth resistor so that the metal sensor rod is in contact with water so that the capacitor A timer circuit for turning on / off a switching unit connected to an output terminal when discharged below a predetermined voltage; And a water level level detection unit connected to a connector through a lead wire, wherein the water level level detection unit is connected in series with a static dummy dummy and a reverse current preventing diode in series. delete

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