KR19980037269U - Conductive Liquid Level Sensor - Google Patents

Abstract

The present invention detects the liquid level of the liquid filled in the liquid tank during water supply and drainage, for example, in a conductive liquid tank installed in a factory or an apartment house, and displays a plate wiring on which a length indicator ruler is printed to indicate the height state of the detection unit. A conductive liquid level sensor that can use a cable as a sensor, the detection unit 10 is simply installed in the conductive liquid tank (6), the terminal conductor portion of the height of the detection plate wiring (1), that is, the electrode (4) Contacts the conductive liquid to detect the liquid level, and the electronic circuit unit 2 for converting the signal detected from the corresponding electrodes 4 of the plate wiring 1 and transmitting it to the controller (not shown) is provided outside. A conductive liquid level sensor, characterized in that there is.

Description

Conductive Liquid Level Sensor

The present invention detects the liquid level of the liquid filled in the liquid tank during water supply and drainage, for example, in a conductive liquid tank installed in a factory or an apartment house, and displays a plate wiring on which a length indicator ruler is printed to indicate the height state of the detection unit. It relates to a conductive liquid level sensor that can be used as a sensor.

Currently, water used as drinking water or industrial water is stored in a fixed amount of tank and used through attached water supply and drain pipes.

That is, for example, in a factory or a multi-unit house, a certain amount of liquid tank is installed in a corresponding place to fill as much liquid as necessary and then drain it. In order to know the depth of the liquid tank as a cylinder or a cuboid, Extra means were needed.

However, in order to check the height of the water to be filled in the liquid tank or the internal depth to be drained, the measurement of the previously displayed scale with the naked eye, or if there is no indication scale, by measuring through a tape measure or other auxiliary means The supplementary amount is required to supplement or use the required amount, and thus, there is a need for an auxiliary means to measure the amount more easily.

The present invention is a sensor for detecting the water level in the conductive liquid tank using the conductor part of the detection unit using the plate wiring as an electrode and printing a length indicating ruler on the plate wiring to install the detection unit without the length measuring device. Can be easily installed and the number of plate wirings can be increased by the required resolution, and each plate wiring can be cut and used appropriately, so that the amount of water stored in the tank regardless of the rectangular parallelepiped, cylindrical or oval shape It can display the water level in proportion, and provides two-wire communication between the detection unit and the controller to provide a conductive liquid level sensor that can be used by attaching a weight for vertical maintenance of the plate wiring in the liquid tank for easy remote control. Has its purpose.

1 is a perspective view showing a conductive liquid level sensor according to an embodiment of the present invention,

2 is a cross-sectional view of the liquid level sensor of the present invention installed in a spherical water tank,

3 is a circuit diagram in the detection unit shown in FIG.

4 is an output signal waveform diagram shown in the circuit output terminal of FIG.

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

1 ... plate wiring 2 ... electronic circuit part

3 ... Ruler 4 ... Conductor

5 ... Additional ... Tank

7 ... water supply pipe 8 ... drainage pipe

10 ... Detection unit

In the conductive liquid level sensor of the present invention for achieving the above object, the detection unit 10 is simply installed in the conductive liquid tank (6) so that the terminal conductor portion of the height of the detection plate wiring (1), that is, the electrodes (4) The electronic circuit part 2 which detects a liquid level in contact with a conductive liquid, converts the signal detected from the corresponding electrodes 4 of this plate wiring 1, and transmits it to a controller (not shown) is provided outside. It is characterized by that.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a conductive liquid level sensor according to an embodiment of the present invention, the conductive liquid level sensor of the present invention, for example, in a conductive liquid tank (6; In order to detect the liquid level of the liquid filled in the liquid tank 6 during water supply and drainage, and to indicate the height state in the detection unit 10, the corresponding electrode (at the end of the plate wiring 1 on which the length indicator ruler 3 is printed) 4) can be used as a sensor.

The detection unit 10 is simply installed in the conductive liquid tank 6 as shown in FIG. 2 so that the terminal conductor portions at the height of the corresponding plate wiring 1, that is, the electrodes 4 are in contact with the conductive liquid to form a liquid surface. The electronic circuit part 2 which detects and converts the signal detected from the said electrode 4 of this plate wiring 1, and transmits it to a controller (not shown) is provided outside.

In addition, the length indicator ruler 3 is printed on the plate wirings 1 which are arranged side by side at regular intervals. For example, the length of the plate wirings 1 is cut differently according to the size or shape of the tank, so that the conductive liquid The electrode 4, which is the corresponding conductor part in direct contact with the valve, is shown and a weight 5 is attached to keep the plate wire 1 to be installed vertically in the tank.

Therefore, the plate wiring 1 can be easily cut and installed in accordance with the shape of the various tanks in the multi-level water level detection and various tanks by using the end of the corresponding plate wiring 1 as the electrode 4 in the detection unit 10. By printing the length measuring ruler 3 on the plate wiring 1, the plate wiring 1 can be conveniently cut without the need for an additional length measuring ruler.

According to the conductive liquid level sensor of the present invention, the plate wiring 1 of the detection unit 10 is simply installed in the liquid tank 6, which is a spherical water tank, as shown in FIG. It is assumed that the conductive liquid stored in the water is water, and the plate wiring 1 is made of 11 strands. The liquid tank 6 is provided with an upper feed water pipe 7 and a lower drain pipe 8, respectively, and the eleven strands of plate wiring 1 end electrodes 4 are indicated by E0 to E10, respectively. (10) 10% to 100% is displayed on one side.

On the other hand, the detailed circuit diagram of the electronic circuit unit 2 in the detection unit 10 is shown as shown in Figure 3, where the electrode E0 is connected to the ground as a common electrode and positioned below 10% of the liquid tank 6 .

If the water level in the liquid tank 6 is 10% or less, the electrodes E1 to E10, which are the conductor portions of the plate wiring 1, are opened with the common ground E0 so that no current flows. Is applied to the Vcc voltage.

If water is supplied to the liquid tank 6 through the water supply pipe 7 shown in FIG. 2 and the water surface is at 10% level, the electrode E1 contacts the water so that a current can flow through the resistance of the water. . At this time, the voltage level of the input terminal IN1 is applied as the Vcc voltage level, but when the electrode E1 comes into contact with water, the voltage level of the input terminal IN1 falls below 5V, so that the base voltage of the transistor Q1 is lowered. The transistor Q1 is turned on so that the terminal 1 of the open circuit 9 transitions from a low state to a high state.

Therefore, the integrated circuit 9 detects a change in the voltage level of the input terminal IN1.

When water is continuously supplied to the liquid tank 6 and the water surface and the electrode E2 come into contact with each other, the voltage level of the input terminal IN2 becomes low (5 V or less) as the voltage level of the input terminal IN1 described above, and the liquid tank When the water level of (6) continues to increase and the electrodes E3-E10 gradually come into contact with the surface of the water, the integrated circuit 9 causes the voltage level of the input terminals IN1-IN10 to become low as the operating voltage level of the input terminals IN3-IN10. You will notice a change.

On the contrary, when the water begins to drain through the drain pipe 8 of the tank 6 shown in FIG. 2 and the water level decreases, and the electrode E10 falls from the water surface, the input terminal IN10 is changed from the low voltage level to the Vcc voltage level again. When the electrodes E9-E1 also fall off from the surface, the input terminals IN9-IN1 also return to the Vcc voltage level from the low level like the input terminal IN10 as described above. The integrated circuit 9 detects the voltage level change.

In the integrated circuit 9, the input terminals IN1-IN10 are connected through the respective transistors Q1-Q10, and the output transistor Q11 is connected through the resistor R32, respectively. The input terminals IN1-IN10 detect a change in the corresponding voltage level according to whether the electrodes E1-E10 are in contact with the surface of the water and transmit the same to the controller input terminal 11 through the transistor Q11 of the output terminal. And detect the signal to indicate the current level of the liquid tank (6).

That is, the integrated circuit 9 receives 10 parallel input signals from the input terminals IN1-IN10, converts them in series, and outputs them in series, which is driven by an on / off signal of the transistor Q11 through the resistor R32. And the power supply voltage drops to the zener voltage through the collector stage zener diode ZD1 of the output transistor Q11 during turn-on, and thus, the input terminal of the controller is changed by the change of the power current during turn-on / turn-off of the output transistor Q11. The signal is sent to (11).

The remote controller is used to control the water level display, water supply, and drainage pump by receiving the output signal of the integrated circuit 9 in the electronic circuit unit 2 of the detection unit 10.

Regulators REG1 and REG2 are respectively installed in the electronic circuit unit 2, and light emitting diodes LED1 are installed in the output transistor Q11 of the integrated circuit 9 so that the output transistor Q11 is turned on / off. It turns on and blinks when

In the output signal waveform of the output transistor Q11, (4-1) in FIG. 4 is an output state waveform when the water level of the tank 6 is 10% or less. The first bit is the START bit and the next bit is input. Represent each signal according to the level status (IN1-IN10) and transmit the signal according to the change of pulse width.

(4-2) in FIG. 4 shows the output waveform when the liquid tank 6 is at 30% water level, that is, when only the electrodes E1-E3 are in contact with the water surface.

When connecting the bridge diode BD1 to the power input unit, it is connected to the controller without the +-electrode to exclude the user's wrong connection.

In the conductive liquid level sensor of the present invention configured as described above, the electrodes E1-E10 shown in FIGS. 2 and 3 are the conductor portions of the plate wiring 1 and are connected to the input liquid according to the presence or absence of contact with the conductive liquid in the tank 6. It is used as the corresponding electrodes 4 to cause the voltage level change of (IN1-IN10). The resistor R1 shown in FIG. 3 determines that the transistor Q1, which has a voltage level of 5 V or less at the input terminal IN1 when the electrode E1 comes in contact with the water surface, transitions from a turn-off state to a turn-on state.

Each resistor is combined with each capacitor to be integrated and eliminated during charting and noise input, and the resistor R21 keeps the ① terminal of the integrated circuit 9 low when the transistor Q1 is turned off. The Zener diode ZD1 may receive the output signal as shown in FIG. 4 from both ends of the resistance Ra of the controller input terminal 11 by lowering the power supply voltage of the controller to the zener diode voltage when the output transistor Q11 is turned on. It is supposed to be.

As described above, according to the present invention, as a sensor for detecting the water level in the conductive liquid tank, the conductor part is used as an electrode by using the plate wiring of the detection unit, and the length marking ruler is printed on the plate wiring for measurement. It is possible to install the detection unit easily without using a ruler and to increase the number of plate wirings by the required resolution, and to cut and use each plate wiring appropriately. The water level can be displayed in proportion to the amount of water stored, and the two-wire communication between the detection unit and the controller facilitates long-distance monitoring and control, and can be used by attaching a weight for vertical maintenance of the plate wiring in the liquid tank. A liquid level sensor can be provided.

In addition, the present invention can increase the number of plate wirings by the required resolution, for example, the number of plate wirings can be used as 21 when displaying the water level in 5% units. In the case of a cuboid type liquid tank, the amount of water is installed by cutting the plate wiring in 10% increments in proportion to the height of the tank.In the case of an old tank, the plate wiring length is cut differently in proportion to the amount of water stored in the tank. Therefore, it is possible to display the water level according to the amount stored in the tank regardless of the shape of the tank tank.

Claims (4)

The detection unit 10 is simply installed in the conductive liquid tank 6 so that the terminal conductor portions at the height of the detection plate wiring 1, that is, the electrodes 4 are in contact with the conductive liquid to detect the liquid level, and the plate wiring 1 A conductive liquid level sensor, characterized in that the electronic circuit portion (2) for converting the signal detected from the corresponding electrodes (4) of the ()) and transmitting to the controller (not shown). 2. The conductive liquid level sensor according to claim 1, wherein the plate wiring (1) can be used by increasing the required resolution. The conductive liquid level sensor according to claim 1, wherein a weight (5) is attached to the bottom of the plate wiring (1) of the detection unit (10) to hold it vertically. 2. The integrated circuit (9) of the electronic circuit unit (2) according to claim 1, wherein the input terminals (IN1-IN10) through the respective transistors (Q1-Q10), the output transistor (Q11) through the resistor (R32). Are connected to each other, and the input terminals IN1-IN10 detect a change in the corresponding voltage level according to whether the electrodes E1-E10 are in contact with the water surface, and the controller input terminal through the transistor Q11 and the bridge diode BD1 of the output terminal. (11), wherein the controller is installed at a distance to detect the signal to display the current level of the liquid tank (6).