KR100893826B1 - A Power Supply Circuit of The Solenoid Valve - Google Patents

Abstract

The present invention relates to an electronic sensitive urinal in which a user writes in front of a male urinal in a public toilet and automatically operates and washes the urinal according to a result of detecting the user's human body. The present invention relates to a power management unit that efficiently manages the power of a valve operating according to a detection result so that it can be used for a long time.

In general, male urinals installed in rest areas and public buildings, etc., to clean the urinals with the user's urine after washing the urine to prevent odors and uneven stones that occur in the urinals, and to maintain a clean so as not to feel unpleasant, usually, detection When the user's human body is detected by installing the sensor, the solenoid valve is operated to discharge the washing water.

And the control box (1) for operating the wash water to operate the valve by inserting a battery inside the control box, or to supply power to the valve by wiring the power line on the wall or bottom surface to supply the valve It is configured to work.

In this case, the urinal for wiring the power line to the wall or floor of the public toilet adds a high installation cost. In particular, due to the nature of the bathroom, a lot of water is always exposed to the floor, which exposes the user to the risk of electric shock. have.

In addition, the urinal for inserting the battery into the control box to operate the valve, the voltage of the battery (6V) is lower than the operating voltage (5V) of the valve according to the number of times of use when driving the operation is not smooth 1 ~ 2 It has to be replaced once every month, and there is a problem that the microcomputer malfunctions due to the sudden drop in battery voltage and the counter electromotive voltage of the solenoid valve.

Therefore, the present invention has been made to solve the above problems, the object is to insert a battery inside the control box to rise above a certain voltage to drive the solenoid valve stably, the power of the valve to operate at the same time It is to provide an electronic sensitive urinal that can be managed for a long time efficiently.

Electromagnetic urinal, power management unit, charging unit, voltage boosting unit

Description

A power supply circuit that improves the efficiency of use of solenoid valves {A Power Supply Circuit of The Solenoid Valve}

1 is a perspective view of an electromagnetic sensitive urinal that operates in accordance with an embodiment of the present invention.

Figure 2 is a block diagram showing the configuration of the control box in the electronic sensitive urinal operated in accordance with an embodiment of the present invention.

3 is a circuit diagram of a control unit and a power management unit constituting a control box in an electronic urinal to operate according to an embodiment of the present invention.

4 is a circuit diagram of a voltage boosting unit in the power management unit of FIG.

5 is a circuit diagram of a charging unit in the power management unit of FIG.

<Description of the symbols for the main parts of the drawings>

10: urinal 20: control box

21: power management unit 21a: voltage boosting unit

21b: charging part 22: battery

23: solenoid valve 24: control unit

25: detection sensor

The present invention relates to an electronic sensitive urinal in which a user writes in front of a male urinal in a public toilet and automatically operates and washes the urinal according to a result of detecting the user's human body. The present invention relates to a power management unit that efficiently manages the power of a valve operating according to a detection result so that it can be used for a long time.

In general, male urinals installed in rest areas or public buildings, so that the user washes the urinal with the washing water after the urine is configured to prevent odors and uneven stones that occur in the urinal, and to maintain a clean so as not to feel uncomfortable.

In other words, the urinal for men installed in the existing public place is equipped with a push valve (push valve) between the water supply pipe for supplying the washing water to the urinal, when the user presses the push valve after urine, the general urine of the method to discharge the washing water, There is an electronic urinal equipped with a control box 1 for discharging the washing water by operating a valve according to the result of detecting the user's human body in front of the male urinal.

And the electronic sensitive urinal in which the control box 1 is installed is configured to operate the valve by inserting a battery into the control box or operating the valve or wiring the power line to the wall or the bottom surface. .

Here, the electronic urinal which operates the valve inside the control box by wiring the power line to the wall or the floor of the public toilet, adds a lot of installation cost, especially due to the nature of the toilet, There is a problem that the user is exposed to the risk of electric shock.

And the electronic sensitive urinal to insert the battery into the control box to operate the valve, the voltage of the battery (6V) is lower than the operating voltage (5V) of the valve according to the number of times of use when the operation is not smooth operation. It has to be replaced every two months, and there is a problem that the microcomputer malfunctions due to the sudden drop in battery voltage and the counter electromotive voltage of the solenoid valve.

Therefore, the present invention has been made to solve the above problems, the purpose is to insert the battery inside the control box to rise above a certain voltage to drive the solenoid valve, at the same time to efficiently operate the power supply of the valve It aims to provide an electronic urinal which can be managed for a long time.

Therefore, in order to achieve the above object, the present invention provides a voltage booster for raising a low output voltage supplied from a battery at a predetermined ratio, and a current using a capacitor before applying a predetermined voltage to the solenoid valve through the voltage booster. It is characterized in that it comprises a charging unit for always applying a constant voltage to the solenoid valve to occupy, and a control unit for opening and closing the solenoid valve in accordance with the signal applied from the sensor.

Here, the voltage boosting unit is configured to drive the solenoid valve by raising the coil to a predetermined voltage at a predetermined rate through the coil of the solenoid valve itself in which the coil having a predetermined number of turns is wound.

In addition, the charging unit is characterized in that the voltage booster occupies a current by using a capacitor before applying a predetermined voltage to the solenoid valve, and at the same time to charge the capacitor through the diode back-current current generated during the opening and closing of the solenoid valve. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. (In the detailed description of the principles of operation of the preferred embodiment of the present invention with reference to the accompanying drawings, if it is determined that the detailed description of the known function or configuration may unnecessarily obscure the subject matter of the present invention) Omit it.)

1 is a perspective view showing the appearance of the electronic sensitive urinal according to an embodiment of the present invention, Figure 2 is a block diagram showing the configuration of the control box of the electronic sensitive urinal according to an embodiment of the present invention, Figure 3 4 is a circuit diagram of a control unit and a power management unit operating according to an embodiment of the present invention, FIG. 4 is a circuit diagram showing an enlarged voltage boosting unit in the power management unit of FIG. 3, and FIG. 5 is a view of the charging unit of FIG. 3. It is a schematic showing.

As shown, the present invention is a male urinal installed in an existing public place, the user writes in front of the urinal 10, the sensor 25 automatically detects the user's human body control box 20 to discharge the washing water Relates to an electronic urinal installed.

Here, the control box 20 is opened and closed according to the voltage booster 21a for applying the voltage of the low output supplied from the battery 22 by a predetermined ratio and the voltage applied from the voltage booster. Before applying a predetermined voltage to the solenoid valve through the solenoid valve 23 for discharging and the voltage boosting unit 21a, the charging unit 21b occupies a current using a condenser and always applies a constant voltage to the solenoid valve. And a control unit 24 for opening and closing the solenoid valve 23 according to a signal applied from the detection sensor 25.

In addition, the coil of the voltage boosting unit 21a does not have a separate coil installed on a circuit board to boost the voltage, and replaces the function of the coil by using the winding of the solenoid valve itself.

That is, as illustrated, the voltage boosting unit has a node connected to a first transistor Q1 having one end connected to a battery and the other end connected to a winding of the solenoid, and a node connected to the other end of the first transistor Q1 and the winding of the solenoid. The third transistor Q3 having the other end connected to (A) and one end connected to the ground at the same time, and the second transistor Q2 having one end connected to the battery (DC Power) and the other end connected to the winding of the solenoid And a fourth transistor Q4 having the other end connected to the node B connected to the other end of the second transistor Q2 and the winding of the solenoid and connected to the ground at the same time.

Here, at least two transistors are used in the circuit configuration to drive the solenoid valve SOL_DC1. That is, when a forward driving current is applied to the first transistor Q1 and the fourth transistor Q4 in order to drive the solenoid valve SOL_DC1, the battery DC power is applied to the node A. The node B is grounded to drive the solenoid valve SOL_DC1 while the driving current is conducted.

When the driving current is applied in the reverse direction again, the second transistor Q2 and the third transistor Q3 are turned on, and the node B is reversed as opposed to the case where the first transistor Q1 and the fourth transistor Q4 are conducted. ), The battery (DC Power) is applied, the node (A) is grounded to return the solenoid valve to its original position.

In addition, the charging unit 21b occupies a certain amount of current in the capacitors C13, C26, and C25 based on the voltage raised by the voltage boosting unit 21a before driving the solenoid valve by the control unit, and simultaneously turns off the solenoid valve. The counter electromotive force generated at (Off) is configured to be recharged back to the capacitor through the diode D5.

That is, as shown in the drawing, the charging unit 21b has one end connected to a battery (DC Power) and the other end connected to the ground, and one end connected to the capacitor 13 and the other end thereof. A second capacitor C26 connected to the ground and a node C connected to one end of the first capacitor C13 and one end of the second capacitor C26, and the other end connected to the ground. 3 capacitor C25 and a Schottky diode D5 having one end connected to the node C and the other end connected to the node A. As shown in FIG.

Here, the charging unit 21b is configured to apply a current through the capacitors C13, C26, and C25 before applying a voltage to the first transistor Q1 and the second transistor Q2. Since the solenoid valve (SOL_DC1) is operated later, a constant voltage is always applied to the solenoid to maintain stable operation.

When the transistor is turned off while the driving current is being supplied, the Schottky diode D5 protects the transistor from being damaged due to the reverse driving current, and at the same time, the counter electromotive force of the solenoid valve is returned to the capacitor through the diode to be charged.

Therefore, by driving the solenoid valve through the power boosting unit 21a and the charging unit 21a as described above, even if the voltage of the battery is lowered through the preliminary charging capacitor, the solenoid driving can be smoothly driven, especially the solenoid By preventing the transistor or the control unit 24 from being damaged by the counter electromotive force that is operated when the valve is opened and closed, the counter electromotive force is charged again to the condenser so that the power can be more efficiently managed and used for a long time.

According to the present invention, by driving the solenoid valve through a voltage boosting unit composed of a plurality of transistors and coils as described above, the solenoid valve can be driven strongly by the boosted voltage.

In addition, it occupies power normally supplied through a charging unit composed of a diode and a capacitor, and opens and closes the solenoid to always apply a constant voltage to the solenoid valve, and in particular, the counter electromotive force generated when the solenoid returns to the capacitor through the diode. By charging the battery, it is possible to prevent malfunction of the control unit or malfunction of the transistor, and to use the battery more efficiently without replacing the battery for a long time.

Claims (5)

delete The control unit opens and closes the solenoid valve by receiving a signal sensed by the sensor, the voltage booster for raising the voltage applied from the battery by the control unit, and the solenoid by directly applying the voltage increased through the voltage booster. In the control box of the electromagnetic sensitive urinal comprising a charging unit which takes a current using a condenser and always applies a constant voltage to the solenoid valve before driving the valve, The voltage boosting unit does not install a separate coil on a circuit board to boost the power, the power management unit to increase the efficiency of use of the solenoid valve, characterized in that instead of the function of the coil by using the winding of the solenoid valve itself. The method of claim 2, The voltage boosting unit includes a first transistor Q1 having one end connected to a battery and the other end connected to a winding of the solenoid; A third transistor Q3 having the other end connected to the node A connected to the other end of the first transistor Q1 and the winding of the solenoid, and one end connected to the ground at the same time; And a second transistor Q2 having one end connected to a battery (DC Power) and the other end connected to a winding of the solenoid, Use of the solenoid valve, characterized in that the other end of the second transistor (Q2) and the other end is connected to the node (B) connected to the winding of the solenoid comprises a fourth transistor (Q4), one end is connected to the ground at the same time Power management unit with improved efficiency. The method according to claim 2 or 3, The charging unit occupies a certain amount of current in the capacitor based on the voltage raised through the winding of the solenoid valve, and recharges the electromotive force generated when the solenoid valve is turned off to the capacitor through a diode. Power management unit to increase the efficiency of the solenoid valve. The method of claim 4, wherein The charging unit includes a first capacitor C13 having one end connected to a battery and the other end connected to the ground; A second capacitor C26 having one end connected to the capacitor 13 and the other end connected to the ground; And a third capacitor C25 having one end connected to a node C connected to one end of the first capacitor C13 and one end of the second capacitor C26, and the other end connected to the ground. And a schottky diode (D5) having one end connected to the node (C) and the other end connected to one end of the solenoid valve.

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