JPH01182682A - Automatic feedwater stopping device at power failure in feedwater control system - Google Patents

Abstract

PURPOSE:To stop any feedwater automatically even if power failure occurs in service as well as to prevent any waste water discharge from occurring by performing close operation with charge energy accumulated in a condenser. CONSTITUTION:A power source A of a feedwater control system, operating a solenoid valve for opening or closing with a pulse-form current, is constituted of a transformer 2, a rectifier 4 and a stepdown type regulator 5 and thereby power of constant voltage is fed to a feedwater control part B. In addition, a condenser is installed between an input terminal 5-1 of the regulator 5 and a gland G, while a voltage drop detecting element D is installed between an output terminal 4a of the rectifier 4 and the gland G. When the element D has detected any voltage drop, detection output is inputted into the feedwater control part B, thereby making the solenoid valve perform the closing operation.

Description

[Detailed Description of the Invention] (a) Industrial Application Field This invention relates to a water supply control device that detects whether a water washer, etc. is being used and automatically controls the water supply to the water washer, etc. Regarding automatic water supply stop device during power outage.

(b) Conventional technology Conventionally, among the water supply control devices for water washers, Japanese Patent Application Laid-Open No. 62-1
As seen in Japanese Patent Application No. 56446, there was a water supply solenoid valve whose valve mechanism was provided with a latching function so that the solenoid valve could be driven with a pulsed current, thereby saving power.

(c) Problems that the invention seeks to solveHowever,
The above-mentioned solenoid valve has a drawback that if a power outage occurs while the solenoid valve is in use, that is, when the solenoid valve is open, the solenoid valve remains open and water continues to flow.

(d) Means for solving the problem The present invention provides a water supply control device in which a solenoid valve equipped with a valve mechanism having a latching function is opened and closed using a pulsed current. The power supply section is composed of a transformer, a rectifier, and a step-down regulator to supply constant voltage power to the water supply control section, and connect the input terminal of the regulator to the ground via a capacitor, and connect the output terminal of the rectifier to the ground. A voltage drop detection element is interposed between the terminal and the ground, and the detection output of the element is configured to be input to the water supply control unit, and when the element detects a voltage drop, the electromagnetic valve is closed. The present invention provides an automatic water supply stop device in the event of a power outage in a water supply control device, characterized in that the water supply control device is configured to perform the following steps.

(E) Function In this invention, the output voltage of the rectifier is stepped down to the power supply voltage of the water supply control unit using a step-down regulator, so when the power is applied from the power supply, the capacitor is lower than the power supply voltage of the control unit. Saturated with high rectifier output voltage.

When a power outage occurs, the rectifier output voltage drops, but this voltage drop is detected by a voltage drop detection element and input to the water supply control section, which closes the solenoid valve as described below.

As mentioned above, the electromagnetic valve operates with pulsed current, so its power consumption is extremely low, and the electric charge accumulated in the capacitor, more specifically, the energy of the electric charge shown by the hatched part in Fig. 6, is used to operate the electromagnetic valve. It can be driven sufficiently.

In addition, since a step-down regulator is used to step down the rectifier output voltage to the power supply voltage of the water supply control unit, the range in which the capacitor charge can be used is up to the lower limit of the regulator's operable voltage, and within this range, there is no charge from the regulator. A regular power supply voltage is output to the water supply control section, and the water supply control section can be operated for a sufficient time to close the electromagnetic valve.

(f) Effects According to this invention, a capacitor is saturated with the output voltage of a rectifier, and when the rectifier output stops due to a power outage, a voltage drop is detected by a voltage drop detection element, and the electric charge accumulated in the capacitor is detected. By using energy to close the solenoid valve, even if a power outage occurs during use,
It can automatically stop water supply and stop wasteful water discharge.

(G) Embodiment The embodiment of the present invention will be described in detail based on the drawings. FIG.
indicates the water supply control section, and the power supply section'(A) Ci,1
00V, 50-60Hz AC wire (1) is connected to a transformer (
Step 2) steps down the voltage to about 20V, converts it to DC using a rectifier (4),
A step-down type regulator (5) steps down the voltage to about 6 cm and supplies it to the water supply control section (B).

The regulator (5) converts the DC voltage of about 20V from the rectifier (4) into a control device (as shown in FIGS. 2 and 3).
B) is used to step down the power supply voltage to about 6V and stably supply it to the control circuit (8).
The three-terminal step-down regulator shown in the equivalent circuit diagram in the figure (
5b) may be used, but if noise countermeasures are perfect, it is preferable to use the regulator (5b) shown in FIG. 3, which has less power loss.

In Figures 2 and 3, (6) is a Zener diode, and (7) is an F for keeping the Zener current approximately constant.
ET, (8) is a diode for temperature compensation, (9) is an operational amplifier for controlling the transistor (10), and the second
In the regulator (5a) shown in the figure, as a differential amplifier circuit,
The regulator (5b) in FIG. 3 is used as a Schmitt circuit.

The transistor (10) is also used as a current amplifying element in the regulator (5a) of FIG. 2, and as a switching element in the regulator (5b) of FIG. 3.

(R1) and (R2) are for obtaining a comparison voltage by dividing the output voltage of the regulator (5).

In addition, in FIG. 3, (11) is the actance for accumulating the energy of the current, and (12) is the diode for continuing to flow current to the output side even when the output from the transistor (10) is OFF. Use a fast recovery diode such as a Schottky type.

In FIG. 1, (13) is a smoothing capacitor for removing beam pull, and (16) is a diode connected in the forward direction.

The water supply control unit (B) has a sensor (S), such as an infrared sensor, connected to the arithmetic processing unit (B1) to detect whether or not the water washer is in use, that is, whether there is a human body below the faucet. When a human body detection signal is input from the sensor (S), a pulsed opening/closing signal corresponding to the signal is output from the same processing section (B1) to the solenoid driver (3),
The opening and closing of the solenoid valve (14) is controlled.

As shown in Fig. 4, the solenoid valve (14) has opening/closing coils (14b) (14c) of the solenoid (14a) arranged in the upper part, and a valve mechanism (15) arranged in the lower part. When the coil (14b) is energized, the plunger (15a) is pulled upward, and when the closing coil (14C) is energized, the plunger (15a) is pushed down.

The valve mechanism (15) is composed of a valve seat (15b), a valve body (15c), and a diaphragm (15d), and in the center of the valve body (15C) is a pilot valve that is opened and closed by a plunger (15a). (15e), and the diaphragm (15d) is provided with an orifice (15e) having a resistance greater than the flow resistance when the pilot valve (15e) is opened.
f) is perforated.

Therefore, when the open coil (14b) is energized, the pilot valve (15e) opens and the pressure on the top surface of the diaphragm (15d) decreases, so the water pressure from the inlet (15g) pushes valve # (15C) upwards and electromagnetic Open the valve (14) and maintain this state.

Also, when the closing coil (14C) is energized, the pilot valve (158) closes and the water flowing in from the orifice (15f) increases the pressure on the top surface of the tire flam (15d).
Push down the valve body (15c) to close the solenoid valve (14),
Maintain this state.

As described above, the opening/closing coils (14b) (14c) are connected to the plunger (15a) for opening/closing the pilot valve (15e).
), the same coil (14b) (
14c) is required to be extremely small, and since the open/closed state of the solenoid valve (14) is latched by water pressure, power consumption can be reduced.

In such a water supply control device, in the present invention, as shown in FIG. Connect via a large capacitor (C) that exceeds the capacitance range of the smoothing capacitor for ripple removal,
The capacitor (C) is saturated with the output voltage of the rectifier (4), and a voltage drop detection element (D) such as M5247 (Mitsubishi) is connected between the output terminal (4a) of the rectifier (4) and the ground. The same element (D) is installed to monitor the rectifier output voltage, and when the output voltage of the rectifier (4) drops below the set value due to a power outage, etc., a voltage drop signal is output and the water supply control unit (B) The closing coil (14c) of the electromagnetic valve (14) is actuated via a solenoid driver (3) provided therein to close the open valve (14).

As shown in the equivalent circuit diagram in Figure 5, the voltage drop detection element (D) has a 1.2V reference voltage circuit (Ref) built-in, and a rectifier (4) at the input terminal (port 1). The output voltage of the input terminal (D
When the output voltage of the rectifier (4) applied to the rectifier (4) becomes lower, a detection output is transmitted from the output terminal (D3) to the water supply control unit (8).

(D4) is a power supply terminal connected to the output side of the regulator (5), (D5) is a constant current circuit, (D6) is a hysteresis setting terminal, and the external terminal is connected to the input terminal (Dl) via a resistor (R5). Positive feedback is provided to prevent the above output from occurring due to voltage fluctuations of the ripple level.

In addition, the solenoid driver (3) has a solenoid valve (14).
AND gate (18) connected to the open coil (14b) of
1. A closed coil (14c) and an unconnected OR gate (19) are arranged. The water supply control unit (8) is connected to the AND gate (18).
) is input, and the detection output of the voltage drop detection element (D) is input inverted, and
19) has the closed coil output of the control section (B) and the same element (D
) output and input.

The embodiment of the present invention is configured as described above, and when the sensor (S) detects that the water washer is being used while power is being supplied from the AC power source (1), the water supply controller (B) sends a solenoid Solenoid valve (14) via driver (3)
A pulse-like control output is made to the open coil (14b) to open the valve (14) and maintain this state. When the sensor (fs) detects non-use, the controller (B) outputs a pulse-like control output to the closing coil (14c) to close the open valve (14) and maintain this state.

Next, control operations during a power outage will be explained.

When the power supply from the alternating voltage (1) is cut off, the rectifier (
The output voltage of 4) is pulled down by the resistors (R3) (R4) and rapidly decreases, but the discharge of the capacitor (C) is prevented by the forward diode C16), so the charge energy of this capacitor (C) Using,
A control output is generated to the closing coil (14c) of the electromagnetic valve (14) regardless of whether the open valve (14) is open or closed, thereby causing the open valve (14) to perform a closing operation.

That is, the drop in the output voltage of the rectifier (4) is sensed by the voltage drop detection element (D), and the detected output of the element (D) is
By inputting an inverse input to the AND gate (18) of the solenoid driver (3) and at the same time inputting an input to the OR gate (19), if the solenoid valve (14) is in a closed state, this state is maintained, and if it is in an open state, it is closed. Activate and maintain the closed state,
If the valve is being opened, the valve can be stopped and the valve can be closed, thereby maintaining the valve closed state.

As mentioned above, in the automatic water supply shutoff device in the event of a power outage according to this embodiment, regardless of whether the solenoid valve (14) is open or closed, or even if the mana-open valve (14) is in the open/close operation, when a power outage occurs, the automatic The solenoid valve (14) is automatically closed and maintained in the closed state, so even if a power outage occurs while the washer is in use, the water can be immediately stopped flowing and the water will continue to flow. This has the effect of preventing this.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing the configuration of an automatic water supply stop device during a power outage in a water supply control device according to the present invention. 2 and 3 are equivalent circuit diagrams of the regulator. FIG. 4 is a longitudinal sectional view of the solenoid valve. FIG. 5 is an equivalent circuit diagram of a voltage drop detection element. FIG. 6 is a graph showing the relationship between capacitor voltage and time. (^): Power supply section (B): Water supply control section (C):
Capacitor (D): Pressure drop detection element (G) Nigelround (2) Nidorance (4): Rectifier
(5): Regulator (f4): Solenoid valve ≦ β Seedling

Claims (1)

[Claims] 1) Solenoid valve equipped with a valve mechanism with latching function (
14) is configured to open and close using a pulsed current, and the power supply section (A) of the control device is composed of a transformer (2), a rectifier (4), and a step-down regulator (5). and supply a constant voltage power supply to the water supply control unit (B)
and the input terminal (5-1) of the regulator (5).
) and the ground (G) via a capacitor, and a voltage drop detection element (D) is interposed between the output terminal (4a) of the rectifier (4) and the ground (G),
The detection output of the element (D) is configured to be input to the water supply control unit (B), and when the element (D) detects a voltage drop, the electromagnetic valve (14) is configured to perform a closing operation. An automatic water supply stop device in the case of a power outage in a water supply control device, characterized in that: