KR20050047235A - Multiple-stage liquid level sensor - Google Patents

Abstract

Disclosed is a multi-stage water level sensor which outputs different signals depending on the water level in the tank. An apparatus according to the present invention includes: a first electrode grounded, a second electrode smaller in length than the first electrode, and a third electrode smaller in length than the second electrode; A comparator that receives and compares the capacitances of the electrodes and the water in the tank, respectively, when the water in the tank does not contact the second electrode, and when the water in the tank contacts the second electrode, and in the tank on the third electrode. A signal unit including a signal output unit for outputting a signal to the water supply device, each of which distinguishes a case where water is not in contact; Electrodes are installed on their lower surface, characterized in that the body is provided with a signal portion interpolated. According to the present invention, a single water level sensor detects a plurality of water levels, thereby reducing costs and making it easy to operate, and using a grounded long electrode, a sharp electrode at the bottom, and an insulator surrounding a predetermined area of the electrode. Malfunctions are prevented.

Description

Multi-stage liquid level sensor

The present invention relates to a multi-stage water level sensor, and more particularly, to a multi-stage water level sensor that outputs different signals according to the water level in the tank.

In general, a water level sensor using an electrode is used to detect the water level in the tank.

However, since water in the tank has charge charges, if the charge charges are different from the VDD voltage applied from the outside, there is a problem that the semiconductor circuit which outputs a signal for the detected water level malfunctions.

In addition, since one level sensor detects only one level, a plurality of level sensors are installed, respectively, when there are a plurality of levels. Therefore, there is a problem in that the cost increases in various ways, such as the cost of preparing the water level sensor and the cost of installing the water level sensors.

Therefore, the technical problem to be achieved by the present invention is to provide a multi-level water level sensor that can prevent malfunction and reduce the cost.

According to an aspect of the present invention, there is provided a multi-stage water level sensor for sensing a water level in a water tank and outputting a signal to a water supply device. The first electrode is grounded, a second electrode is shorter than the first electrode, and the A third electrode having a smaller length than the second electrode; A comparator that receives and compares the first, second, and third electrode rods with the capacitance values of water in the water tank, when the water in the water tank is not in contact with the second electrode, and the water in the water tank in the second electrode. A signal unit including a signal output unit for outputting a signal to the water supply device, each of which is in contact with the third electrode and when the water in the tank is not in contact with the third electrode; The electrodes are installed on their lower surface, characterized in that the body is provided with the signal portion interpolated.

At this time, it is preferable that insulators having a diameter larger than those of the electrodes are respectively installed on the bottom surface of the body so as to surround predetermined areas of the electrodes.

Furthermore, each of the electrodes is preferably a pointed shape of the lower end.

Furthermore, at least one electrode having a length smaller than that of the first electrode and having a length different from that of the second electrode and the third electrode may be further installed on a lower surface of the body and connected to the signal unit. good.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In describing the present embodiment, a water tank containing water is described as an example of the use of the water level sensor according to the present invention, but is not necessarily limited thereto. That is, the water level sensor according to the present invention is applied to all the liquid and the container in which the liquid is contained.

1 is a schematic diagram for explaining a multi-stage water level sensor according to the present invention, Figure 2 is a circuit diagram for explaining the signal portion of the multi-stage water level sensor according to FIG.

1 and 2, the multi-level water level sensor according to the embodiment of the present invention includes a body 100, three electrode rods 210, 220, and 230 having different lengths, a signal unit 300, A fixing part 500 connected to the body 100 and having a hole into which a fastening means for installing the water level sensor according to the embodiment of the present invention is inserted into the tank, and between the fixing part 500 and the body 100. It includes an O-ring (600) to prevent water from flowing out of the tank through the gap of the. Here, the body 100 and the fixing part 500 may be used by injection molding to be integral. The signal unit 300 is interpolated to the body 100, a moisture proof road is applied to the signal unit 300, and electrode rods 210, 220, and 230 are installed on the lower surface of the body 100. When the electrodes 210, 220, 230 and the water in the tank contact each other, capacitance is generated and input to the signal unit 300. In the signal unit 300, signals are supplied to the water supply device according to the input capacitance. Generates.

Among the electrodes, the first electrode 210 is grounded, the second electrode 220 is smaller in length than the first electrode 210, and the third electrode 230 is smaller in length than the second electrode 220. Therefore, the lower end of the second electrode 220 is positioned higher than the lower end of the first electrode 210, and the lower end of the third electrode 230 is positioned higher than the lower end of the second electrode 220. ) Detects a low water level and the third electrode 230 detects a high water level.

When the multi-level water level sensor according to the embodiment of the present invention is installed in the water tank so that the first electrode 210 is longer than the second and third electrode rods 220 and 230, the second and third electrode rods 220 and 230 are grounded. The first electrode 210 is first contacted with water before it touches the water in the tank, so that charge charge of the water is released through the ground, thereby preventing malfunction of the sensor. In addition, since strong static electricity applied from the outside is also discharged through the first electrode 210, the stable operation of the sensor is guaranteed.

By sharpening the lower ends of the electrodes 210, 220, and 230, the surface tension when the water touches and drops the electrode is minimized to prevent malfunctions that may be caused by the water being buried in the electrode.

On the other hand, since the water level sensor is used in a humid environment, water droplets are formed on the lower surface of the body 100, and the electrode electrodes 210, 220, and 230 are electrically connected to each other by the water droplets, thereby causing a short circuit. have. In the embodiment of the present invention, the diameters of the electrodes 210, 220, and 230 are lower than those of the electrodes 100, so as to surround predetermined regions of the electrodes 210, 220, and 230, that is, predetermined regions including the upper ends of the electrodes. Each of these large insulators 400 was installed. Accordingly, the water droplets formed on the bottom surface of the body 100 flow down the outer surfaces of the insulators 400 and fall into the water tank, thereby preventing a short circuit caused by the water droplets formed on the body, thereby preventing malfunction of the sensor.

Referring to FIG. 2, the signal unit 300 includes a comparator 310 and a signal output unit 320. The comparator 310 receives the capacitance values of the first, second, and third electrode rods 210, 220, 230 and the water in the water tank, respectively, and decrements them. The capacitance value added or subtracted by the comparator 310 is represented by the following three cases. First, when the water in the tank is not in contact with the second electrode 220, that is, only the first electrode 210 is in contact with the water in the tank. Second, when the water in the tank is in contact with the second electrode 220, that is, only the first electrode 210 and the second electrode 220 is in contact with the water in the tank. Third, water in the tank is in contact with the third electrode rod 230, that is, water in the tank is in contact with all of the first, second and third electrode rods 210, 220, and 230. The signal output unit 320 outputs a different signal according to the capacitance value compared by the comparator 310, for example, a 5V signal in the first case, a 2.5V signal in the second case, and a third signal in the third case. Each output has a 0V signal to the water supply. Therefore, the water supply device can check the water level in the tank according to the input signal, and accordingly determine whether to supply the water to supply water or to stop the supply of water.

On the other hand, when the water level to be detected is three or more, the length is smaller than the first electrode 210, the electrode having a different length than the second electrode 220 and the third electrode 230 on the lower surface of the body 100 Further install and use to connect to the signal unit 300.

       As described above, according to the multi-stage water level sensor according to the present invention, since a plurality of water levels are sensed by one water level sensor, cost is reduced and work is easy.

Furthermore, malfunction of the water level sensor is prevented by using a grounded long electrode, a sharp electrode at the bottom, an insulator surrounding a predetermined area of the electrode, and the like.

The present invention is not limited to the above embodiments, and it is apparent that many modifications are possible by those skilled in the art within the technical spirit of the present invention.

1 is a schematic diagram for explaining a multi-stage water level sensor according to the present invention;

FIG. 2 is a circuit diagram illustrating a signal unit of the multi-level water level sensor according to FIG. 1.

<Description of Reference Numbers for Main Parts of Drawings>

100 body 210 first electrode

220: second electrode rod 230: third electrode rod

300: signal unit 310: comparator

320: signal output unit 400: insulator

500: fixed part 600: O-ring

Claims (4)

In the water level sensor that detects the water level in the tank and outputs a signal to the water supply device, A first electrode to be grounded, a second electrode smaller in length than the first electrode, and a third electrode smaller in length than the second electrode; A comparator that receives and compares the first, second, and third electrode rods with the capacitance values of water in the water tank, when the water in the water tank is not in contact with the second electrode, and the water in the water tank in the second electrode. A signal unit including a signal output unit for outputting a signal to the water supply device, each of which is in contact with the third electrode and when the water in the tank is not in contact with the third electrode; The electrode is installed on its lower surface, the multi-stage water level sensor having a body in which the signal portion is interpolated.       The multi-level water level sensor according to claim 1, wherein insulators each having a larger diameter than the electrodes are installed on the bottom surface of the body so as to surround predetermined regions of the electrodes.       The multi-level water level sensor according to claim 1, wherein each of the electrode rods has a pointed shape at a lower end thereof.       The method of claim 1, wherein at least one electrode having a length smaller than that of the first electrode and having a length different from that of the second electrode and the third electrode is further installed on a lower surface of the body and connected to the signal unit. Multi-level water level sensor.