JP2636016B2 - Faucet control device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION (Field of Industrial Application) The present invention relates to a faucet control device that performs, for example, a sensor for detecting a user, opening and closing of a water supply valve, and the like, using electric charges accumulated in a capacitor.

(Prior Art) In recent years, a faucet control device for a flush toilet that uses a battery as a power source to open and close a water supply valve and to operate a control device therefor (for example, Japanese Patent Application No. 60-299515 (Japanese Unexamined Patent Application Publication No. 62−15
No. 6446)) has been proposed, and in this type of faucet control device, when the user detecting sensor detects a human body, and then the detection stops, the solenoid of the water supply valve is energized to open the valve. To supply water.

In the above faucet control device, it is common to provide a pilot lamp that is lit when the user detection sensor detects a human body and notifies that the faucet control device is in a usable state. After being turned on, the pilot lamp was turned on until the power supply to the solenoid of the water supply valve was completed.

(Problems to be Solved by the Invention) By the way, assuming that the power supply of the above faucet control device has an internal resistance, when the energization is resumed at a predetermined timing after a human body is detected, the voltage due to the internal resistance of the power supply is There is a danger that the drop will be significant and the faucet control device will not operate properly.

Accordingly, the present inventors have proposed a power supply device including a power supply such as a battery and a capacitor in order to prevent this, and operating the faucet control device with electric charge accumulated in the capacitor by the power supply. doing.

However, when the power supply device includes a power supply such as a battery and a capacitor, and the pilot lamp and the solenoid are operated with the electric charge stored in the same capacitor, the pilot lamp that is lit when the solenoid of the water supply valve is energized is turned on. Since the charge of the capacitor is supplied and the voltage of the capacitor is reduced, the normal valve operation may not be performed.

The present invention has been made in view of such a situation,
An object of the present invention is to provide a faucet control device in which normal operation of a valve is not hindered by a voltage drop of a capacitor caused by lighting of a pilot lamp.

(Means for Solving the Problems) In order to achieve this object, according to the present invention, a sensor for detecting a user of a toilet bowl, and based on an output signal of the sensor, are turned on at least at the start of use and the faucet is used. A pilot lamp that informs that the control device is in a usable state, a water supply valve that supplies water at a predetermined timing based on an output signal of the sensor to clean a toilet, and a pilot lamp and a water supply valve that are based on an output signal of the sensor. A faucet control device comprising: a control means for drivingly controlling a water supply valve, wherein the control means operates the pilot lamp and the water supply valve with electric charges stored in a capacitor, wherein the control means outputs an output signal of the sensor. The pilot lamp is turned off, and after a sufficient time has elapsed for charging the condenser, the water supply valve is turned off. It was to drive.

(Operation) According to such a configuration, since the water supply valve is driven after the pilot lamp is turned off and a sufficient charge is accumulated in the condenser, the lighting of the pilot lamp does not affect the operation of the water supply valve. Absent.

Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.

FIG. 3 is a block diagram showing a faucet control device and a power supply device according to the embodiment of the present invention.

According to the figure, the faucet control device is a reflection type optical sensor 10
A sensor circuit 20 that outputs a detection signal when the optical sensor 10 detects a human body, a solenoid drive circuit 40 that supplies a current from a power supply 35 to a solenoid 30 of a water supply valve to drive the solenoid, and a power supply to a lamp 45. The apparatus includes a lamp driving circuit 50 that supplies current to the device 35 and lights the lamp, and a control circuit 60 that operates the solenoid driving circuit 40 and the lamp driving circuit 50 based on a detection signal from the sensor circuit 20 and a built-in timer 55.

The power supply unit 35 includes a power supply unit 105 including power supply batteries 100, 100, and a capacitor unit 111 including capacitors 110, 110 connected in parallel with the power supply batteries 100, 100,.

The solenoid drive circuit 40 connected to the power supply 35
The lamp drive circuit 50 is operated by the electric charge stored in the capacitor unit 111 by the power supply unit 105.

FIG. 1 or FIG.
Overall control is performed as shown in the figure.

That is, FIG. 1 is a flowchart showing a program of the control circuit 60, and as shown in the drawing, the optical sensor 10 and the sensor circuit
20 detects the user and sends an output signal (step
100), the lamp drive circuit 50 is energized, and the pilot lamp 45 is turned on (step 101).

Then, the timer 55 is set to zero (step 10).
2,202) After a predetermined time (T1), the pilot lamp 45 is turned off (steps 104 and 204), and the presence or absence of a user is checked again (steps 105 and 205).
Returning to the initial state, if there is a user, after a lapse of a predetermined time, that is, a sufficient time T0 for completing the charging of the capacitor unit 111 (steps 106 and 206), the energization of the solenoid 30 via the solenoid drive circuit 40 is performed. (Steps 107, 20
7) After that, when the detection of the user is stopped before a predetermined time (T2) has elapsed, the timer 55 is set to zero (step 11).
0), after a predetermined time (T3) (step 111), the solenoid 30
The power supply to the toilet is stopped (step 120), and the toilet is washed. (Main Washing) When the user is detected even after the lapse of the predetermined time (T2), the energization of the solenoid is stopped (step 112), and the toilet is washed. At the same time (pre-cleaning), the pilot lamp is turned on, and the user does not sense (step 114). At the same time, the pilot lamp is turned off (step 115), and the timer 55 is set to zero (step 116). After a predetermined time (T0) (117), the solenoid is energized (step 1).
18) Then, after a predetermined time (T3) (step 119), the solenoid is de-energized (step 120), and the toilet is washed again. (Main wash).

That is, if the user is sensed for the predetermined time (T1 + T0 + T2) or more, the cleaning is performed twice, and if it is less than the predetermined time (T1 + T0 + T2), the relatively long cleaning can be performed only once.

Further, as shown in FIG. 2, after the solenoid is energized, there is no user's sensing after energizing the solenoid (step 208), and the energization of the solenoid is stopped at a predetermined time (T3 ') (step 211). ), The toilet may be washed. The operation at this time is that the user sensing time is (T1 + T0
+ T2). (T3 ′ = T3) Therefore, in the present embodiment, the solenoid 30 is energized (steps 107, 118, 207) and energized (112, 120, 211) after a sufficient charge is accumulated in the capacitor unit 111. Lamp 45
To prevent the voltage drop due to the lighting of the lamp from affecting the operation of the water supply valve.

(Effect of the Invention) According to the present invention, after the pilot lamp is turned off by the control means, a sufficient charge is accumulated in the capacitor incorporated in the power supply device, and then the water supply valve is driven. As a result, the voltage drop of the condenser does not affect the operation of the water supply valve, and a faucet control device with stable operation can be obtained.

[Brief description of the drawings]

FIGS. 1 and 2 are flowcharts showing a program of the faucet control device according to the embodiment of the present invention, and FIG. 3 is a block diagram showing the faucet control device and the power supply device according to the embodiment of the present invention. . In the drawing, 10 is a sensor, 45 is a pilot lamp, 60
Is a control means, 110 is a capacitor, T0... Capacitor charging time, T1... ON delay, T2... Pre-cleaning time, T3.

 ──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-59-126831 (JP, A) JP-A-48-74046 (JP, A) JP-A-1-182426 (JP, A)

Claims (3)

(57) [Claims] 1. A sensor for detecting a user of a toilet bowl, and a pilot lamp which is lit at least at the start of use to indicate that the faucet control device is in a usable state, based on an output signal of the sensor. A water supply valve for supplying water at a predetermined timing based on an output signal of the sensor, and a faucet control device including control means for driving and controlling the pilot lamp and the water supply valve based on an output signal of the sensor; In the pilot lamp and the water supply valve operated by electric charge stored in a condenser, the control means includes a timer, measures a time during which a user is detected based on an output signal of the sensor, and determines a predetermined time (T1 ), The pilot lamp is turned off, and after a sufficient time (T0) has elapsed to charge the capacitor, the Faucet control device and controls to drive the valve. 2. The control means, when the detection of the user continues for a predetermined time (T0 + T2) after the predetermined time (T1), closes the water supply valve after the lapse of the predetermined time (T0 + T2). The pilot lamp is turned on until the detection of the user is completed, and then, after a sufficient time for charging the capacitor has elapsed, the water supply valve is driven again, and when the predetermined time (T0 + T2) does not continue. 2. The faucet control device according to claim 1, wherein the water supply by driving the water supply valve is controlled so as to be continuously performed for a predetermined time (T3) after the detection of the user. 3. The water supply by driving the water supply valve by the control means takes a predetermined time (T3 ') after the detection of the user is completed.
The faucet control device according to claim 1, wherein the control is performed continuously.