KR101542578B1 - Water level sensor circuit - Google Patents

Abstract

The present invention is applied to a water level sensor including first and second electric connecting members mutually separated to face each other. A water level sensor circuit capable of sensing a water level by electrically connecting the first and second electric connecting members by a conductive fluid medium includes a power supply unit supplying a direct current voltage of a predetermined intensity; a signal generating unit receiving the direct current voltage from the power supply unit and generating and outputting a pulse voltage; a water level sensing unit including one end connected to the power supply unit and the other end connected to an output terminal of the signal generating unit and generating a synthesized voltage wherein the pulse voltage and direct current voltage are synthesized or separating the pulse voltage from the direct current voltage by the direct current voltage supply or a cutoff of the direct current voltage supply according to whether the first and second electric connecting members are electrically connected or not; and a comparing unit connected to a contact point wherein the output terminal of the signal generating unit and the water level sensing unit are electrically connected and outputting ON/OFF signals by comparing the synthesized voltage or the pulse voltage with a preset reference voltage.

Description

[0001] The present invention relates to a water level sensor circuit,

The present invention relates to a water level sensor circuit, and more particularly to a water level sensor including a first electrical connecting member and a second electrical connecting member which are mutually opposed to each other, And a water level sensor circuit for precisely sensing the water level as the member and the second electrical connecting member are connected to each other.

The humidifier is a household appliance for humidifying the indoor environment by humidifying the indoor air with high temperature and dryness in winter. The humidifier is a type of heating, ultrasonic, fan, and each of these advantages And the like are known.

That is, in the heating type humidifier, water is heated by a heater or an electrode rod to generate steam, and the ultrasonic humidifier emits water by ultrasonic vibrating a vibrator placed in water by an electric signal of a specific frequency generated through an electric circuit, The humidifier is used to rotate the fan installed on the water surface at a high speed to granulate the water by the generated wind, and each humidifier supplies moisture in the air in each specific manner.

1 is a diagram illustrating a conventional art. Referring to FIG. 1, there is shown a spray apparatus for an ultrasonic humidifier including a heat sink, a hicink holder, a vibrator, and a PCB having an ultrasonic oscillation circuit, A cylindrical heat sink holder 21 having a flange coupled to one side of the bottom plate and having an upwardly open internal space; A heat sink 23 laminated to the heat sink holder 21 and having an insertion groove formed at the center of the upper surface thereof; A PCB having one side fixedly coupled to the bottom surface of the heat sink 23 so as to be positioned in the internal space of the heat sink holder and having an ultrasonic oscillation circuit; A cylindrical oscillator guide 25 which is inserted into the insert groove of the heat sink and is inserted into the insert groove of the heat sink, A disk-shaped vibrator 27 into which the outer circumferential edge is inserted and coupled to the vibrator insertion groove; A guide retaining ring having a bottom surface and an outer circumferential surface which are closely inserted into and engaged with the upper surface of the vibrator guide and the inner surface of the upper surface of the insertion groove of the heat sink; And an upright level sensor 26 coupled to the upper surface of the heat sink 23 at both lower ends thereof.

However, in the related art, when the water level sensor is lowered when the water level sensor is lowered, surface tension and resistance values are generated at both sides of the water level depending on the type of water, There is a problem that the life of the vibrator is lowered by operating the vibrator even if the water level is low.

In addition, there is a case where moisture is left in the water level sensor, and there is a difference in electric conductivity depending on the type of water, and in the case of water having low electric conductivity, water level sensor is often not used. There is a problem that a measurement error occurs.

KR 10-0628464 B1

An object of the present invention to solve the problems derived from the prior art is to provide a water level sensor circuit for preventing a measurement error of a water level sensor due to surface tension of water and an error caused by a difference in electric conductivity of water .

It is another object of the present invention to provide a water level detection system for detecting a voltage using a capacitor without detecting a current in which corrosion due to electrolysis is generated so as to increase the measurement accuracy of water level detection from pollution sources, Sensor circuit.

According to an embodiment of the present invention, the above object is achieved by a water level detection sensor including a first electrical connecting member and a second electrical connecting member which are mutually opposed to each other, wherein the first electrical connecting member and the second electrical connecting member A water level sensor circuit for sensing a water level as the connecting members are electrically connected to each other by a conductive liquid medium, the water level sensor circuit comprising: a power supply for supplying a DC voltage of a predetermined size; A signal generator for generating a pulse voltage by receiving a DC voltage from the power supply; Wherein the DC voltage is supplied or cut off depending on whether the first electrical connecting member and the second electrical connecting member are conductive or not, A level detector for generating a combined voltage in which the DC voltage is combined or for separating the pulse voltage from the DC voltage; And a comparator connected to an output terminal of the signal generator and the contact point electrically connected to the water level sensing unit for comparing the synthesized voltage or the pulse voltage with a preset reference voltage to output an ON / OFF signal And a water level sensor circuit for detecting a water level of the water level sensor.

Preferably, the signal generating unit includes an RC circuit that is formed of a resistor and a capacitor and generates a pulse voltage according to a time constant value, a power supply unit connected to the (+) terminal, and an RC circuit connected to the (- And a first operational amplifier.

The positive terminal of the polarity capacitor may be connected to the power supply, and the negative terminal of the capacitor may be connected to the negative terminal of the capacitor, And is connected to an output terminal of the comparator.

According to the present invention, since the end portion of the first electrical connecting member is spaced apart from the second electrical connecting member, measurement errors due to the surface tension of water can be prevented as the water level is lowered.

Further, since the current is conducted and the signal is detected only when the water level reaches a certain level, it is possible to increase the measurement accuracy and to prevent the corrosion due to the minute current.

1 is a perspective view of an example for explaining the prior art,
2 is a perspective view illustrating a water level sensor according to an embodiment of the present invention,
3 is a circuit diagram showing a water level sensor circuit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Brief Description of Drawings FIG. 1 is a block diagram of a computer system according to an embodiment of the present invention; FIG. 2 is a block diagram of a computer system according to an embodiment of the present invention; FIG.

2, the water level sensor circuit of the present invention includes a first electrical connecting member 520 and a second electrical connecting member 540 which are spaced apart from each other as shown in FIG. 2, The first electrical connecting member 520 and the second electrical connecting member 540 are electrically connected to each other by the conductive liquid medium to sense the water level.

As shown in FIG. 3, the water level sensor circuit of the present invention includes a power supply unit 100 for supplying a DC voltage of a predetermined magnitude, a DC voltage supply unit 100 for receiving DC voltage from the power supply unit 100, And the other end of which is connected to the output terminal of the signal generating unit 300 and is connected to the first electrical connecting member 520. The signal generating unit 300 includes a signal generating unit 300, The DC voltage is supplied or cut off depending on whether or not the pulse voltage is connected to the second electric connection member 540 to generate a combined voltage in which the pulse voltage and the DC voltage are combined, The sensing unit 500 is connected to an output terminal of the signal generating unit 300 and a contact electrically connected to the level sensing unit 500 to compare the combined voltage or the pulse voltage with a predetermined reference voltage / Off and a comparison part 700 for outputting (ON / OFF) signal.

The power supply unit 100 may rectify an AC voltage supplied from the outside and supply the DC voltage in a converted state, or may supply DC directly through a battery or the like. At least one resistor (R1, R6) is connected to the output terminal of the power supply unit 100 to control the current.

The signal generator 300 outputs a pulse voltage through the first operational amplifier 320 according to the time constant value of the RC circuit composed of the resistors R7 and R11 and the capacitor C2 and outputs the pulse voltage to the first operational amplifier 320 is connected to the power supply unit 100 to apply a DC voltage and the negative terminal of the first operational amplifier 320 is connected to the RC circuit to apply a pulse voltage.

The water level sensing unit 500 includes a first electrical connection member 520 and a second electrical connection member 540 and a condenser C1 and the first electrical connection member 520 is connected to the signal generator 300 And the second electrical connecting member 540 is connected to the power supply unit 100. The capacitor C1 is connected between the first electrical connection member 520 and the signal generator 300. [

Here, the first electrical connecting member 520 and the second electrical connecting member 540 are spaced apart from each other in a water tank containing a conductive liquid medium, and the second electrical connecting member 540 is disposed on the bottom And the first electrical connecting member 520 is installed on the upper portion of the water tank. When the water level rises, the first electrical connecting member 520 contacts the conductive liquid medium at a certain point, 540, respectively.

A reference voltage is applied to the (+) terminal of the second operational amplifier 720 constituting the comparator 700, and a composite voltage or a pulse voltage is applied to the (-) terminal. In the present embodiment, when a composite voltage is applied to the second operational amplifier 540, it is determined that the reference voltage is exceeded and an off signal is output. When a pulse voltage is applied to the second operational amplifier 720 It is determined that the voltage is lower than the reference voltage and the on-signal is outputted.

The output signal of the comparator 700 may be connected to a luminescent lamp or a speaker for notification display and may be used in various devices for detecting the level of the water. Further, the output signal of the comparator 700 may be applied to a device Of course it is.

The signal smoothing unit 900 may further include a capacitor C3 having a polarity and a third operational amplifier (not shown) having a polarity. The signal smoothing unit 900 may further include a signal smoothing unit 900 for smoothing the signal waveform output from the comparison unit 700, 920). The positive terminal of the capacitor C3 is connected to the power supply unit 100 and the negative terminal of the capacitor C3 is connected to the output terminal of the comparator 700. The (+) terminal of the third operational amplifier unit 920 is connected to a branch point between the node connecting the capacitor C3 and the comparator 700, and the (-) terminal of the third operational amplifier unit 920 is connected to the comparator 700, Of the reference voltage.

Hereinafter, the operation principle of the present invention will be described based on the above description.

First, when the first electrical connecting member 520 and the second electrical connecting member 540 are electrically connected to each other and a water level is sensed, a combined voltage is generated in the first electrical connecting member 520, (-) terminal of the transistor 720 to form a voltage higher than the reference voltage. Accordingly, 0V is formed at the output terminal of the second operational amplifier 720 and at the (+) terminal of the third operational amplifier 920, and the (+) terminal voltage of the third operational amplifier 920 is The voltage of 0V is generated at the output terminal of the third operational amplifier 920. [ As a result, the PNP transistor for operating the oscillator is turned on to operate the oscillator.

Next, if the water level is not detected because the first electrical connecting member 520 and the second electrical connecting member 540 are not conducted, a pulse voltage is outputted through the output terminal of the first operational amplifier 320, (-) terminal of the second operational amplifier 720 to periodically form a voltage lower than the reference voltage. The pulse voltage is also output to the output terminal of the second operational amplifier 720. The pulse voltage is smoothed by the capacitor C3 connected to the (+) terminal of the third operational amplifier 920, A voltage higher than the reference voltage is generated at the output terminal of the amplifier 920. As a result, the PNP transistor for operating the oscillator is turned off, and the operation of the oscillator is stopped.

According to the present invention as described above, since the end portion of the first electrical connecting member is spaced apart from the second electrical connecting member, measurement error due to the surface tension of water can be prevented as the water level is lowered. Further, as a capacitor system using a potential difference, only when the water level reaches a certain level, the voltage is conducted and the signal is detected, so that the measurement accuracy can be increased and corrosion due to the microcurrent can be prevented. In particular, the water level sensing method using the condenser system of the present invention does not cause a voltage change according to the type of liquid, and utilizes only the potential difference, so that electrolysis is not required at all, and the parts and the operation method can be simplified.

The foregoing has outlined rather broadly the features and technical advantages of the present invention in order that the claims of the invention to be described below may be better understood. The embodiments described above are susceptible to various modifications and changes within the technical scope of the present invention by those skilled in the art. These various modifications and changes are also within the scope of the technical idea of the present invention and will be included in the claims of the present invention described below.

100: power supply unit 300: signal generating unit
320: first operational amplifier 500: level detector
520: first electrical connecting member 540: second electrical connecting member
700: comparator 720: second operational amplifier
900: Signal smoothing unit 920: Third operational amplifier

Claims (3)

The first electrical connecting member and the second electrical connecting member being electrically connected to each other by a conductive liquid medium (electrically connected to each other by a conductive liquid medium), wherein the first electrical connecting member and the second electrical connecting member are electrically connected to each other The water level sensor circuit according to claim 1,
A power supply unit for supplying a DC voltage of a predetermined size;
A signal generator for generating a pulse voltage by receiving a DC voltage from the power supply;
Wherein the DC voltage is supplied or cut off depending on whether the first electrical connecting member and the second electrical connecting member are conductive or not, A level detector for generating a combined voltage in which the DC voltage is combined or for separating the pulse voltage from the DC voltage; And
A comparator connected to an output terminal of the signal generator and the contact point electrically connected to the water level sensing unit for comparing the synthesized voltage or the pulse voltage with a predetermined reference voltage to output an ON / OFF signal;
Wherein the level sensor circuit comprises: The method according to claim 1,
Wherein the signal generator comprises:
An RC circuit composed of a resistor and a capacitor and generating a pulse voltage according to the time constant value,
And a first operational amplifier having a (+) terminal connected to the power supply unit and a (-) terminal connected to the RC circuit. The method according to claim 1,
And a signal smoothing unit for smoothing the signal waveform output from the comparison unit through a polarity capacitor,
Wherein the (+) terminal of the polarity capacitor is connected to the power supply unit, and the (-) terminal of the capacitor is connected to the output terminal of the comparison unit.

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