JP2751491B2 - Power failure recovery judgment device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Industrial Field of the Invention The present invention requires not only heating equipment and hot water supply equipment but also detection of power failure recovery in a power failure recovery state that occurs during use of equipment, which requires stopping combustion. The present invention relates to a device for determining a power failure recovery of a device to be restored.

2. Description of the Related Art In recent years, as a power failure recovery determination device, there is a device having a mechanical lock switch as an operation switch that retains a pressed state when a conventional switch is pressed once and an open state when pressed and released again. In addition, in order to improve usability and emphasize design, a tact switch that returns when the switch is pressed and released is used as an operation switch, and a pulse signal generated each time the switch is pressed and released repeatedly determines whether or not a power failure has been restored. Is considered necessary.

Hereinafter, an example of the above-described conventional power failure recovery determination device will be described with reference to the drawings.

FIG. 3 and FIG. 4 show a conventional power failure recovery determination device. In FIG. 3, reference numeral 1 denotes an outlet, and 2 denotes a transformer. The transformer 2 is connected to a rectifier 3, and the AC power from the outlet 1 is full-wave rectified by the rectifier 3. Reference numeral 3 denotes a smoothing capacitor for smoothing the DC power obtained by the rectifier 3. 5 is a reset circuit,
When the outlet 1 is turned on or when the power is restored, the stability of the voltage of the DC power supply is detected. Reference numeral 6 denotes a mechanical lock switch for operating and stopping the device. Reference numeral 7 denotes a switch detection circuit, which is connected to the mechanical lock switch 6 and is used when the outlet 1 is turned on or when power is restored.
Detect the state of. 7 'is a reset signal determination unit,
A signal is output in response to a signal change when the DC power supply voltage from the reset circuit 5 is changed from an unstable state to a stable state.
Reference numeral 8 denotes a power input determination unit, which receives a signal from the switch detection circuit 7 according to a signal from the reset signal determination unit 7 ', and recovers from a power failure when the outlet 1 is turned on, when the appliance is stopped, or when the appliance is operating. Judge whether it is returning. Reference numeral 9 denotes an output unit, which transmits a signal to be output when the power input determination unit 8 detects recovery from a power failure during operation of the appliance to an external circuit. Ten
Denotes a determination unit, which comprises a reset signal determination unit 7 ', a power input determination unit 8, and an output unit 9.

Regarding the power failure recovery determination device configured as described above,
The operation will be described below with reference to FIGS. 4th
In FIG., (A) the figure of power failure recovery DC power supply voltage: V _a
Of FIG. In the elapsed time axis t ₀ is the time that initiated the blackout, t _R is the power failure state returns to the DC power supply voltage V _a represents the stable time. (B) shows the change in the voltage _Vb generated by the switch detection circuit 7 when the power failure recovery occurs when the mechanical lock switch 6 is pressed and the appliance is in the operating state, and (c) shows the mechanical lock switch 6 when power failure recovery in an open and become the instrument is stopped condition occurs, or represents a change in the V _b at outlet 1-on, V _c is the voltage level which is set to the power supply input determination unit 8, Only when _Vc ≦ _Vb, the power input determination unit 8 performs an abnormality determination. Note that the state of the mechanical lock switch 6 when the outlet 1 is turned on is assumed to be in an open state, assuming that the outlet 1 will not be disconnected during operation of the appliance. (B)
In the figures and (c), t ₀ and t _R conform to the contents of the figure (a). The recovery from a power failure when the outlet 1 is turned on and while the appliance is stopped will be described with reference to FIGS. In these states, the mechanical lock switch 6 is open,
(A) be FIGS V _a is not a constant voltage (b) Figure is 0V. Next, if a power failure occurs at t ₀ , both V _a and V _b become 0 V,
V _a is increased if more power failure recovery, stabilized at the time of t _R. If stable V _a is at t _R, the reset circuit 5 outputs a signal, the reset signal determination unit 7 ', the reset circuit 5
The power input determination unit 8 is operated by the change of the signal from the power supply. The power input determination unit 8 receives a signal from the switch detection circuit 7. Here V _b at t _R point in time is a 0V from the fact that the mechanical lock switch 6 is open. Power input judgment unit 8
Does not output to the output unit 9 because _Vb is 0 V and _Vc > _Vb . Next, recovery from a power failure during operation of the appliance will be described with reference to FIGS. In this state, the mechanical and lock switch 6 is closed, V _a has a higher voltage than V _b also V _c when stable. Then V if power failure occurs in t _{0 a,} with V _b 0V next and, more power failure recovery, V _a, increases with V _b, stabilizes at time t _R. At this point, the reset circuit 5 outputs a signal, and the reset signal determination unit 7 outputs a signal to the power input determination unit 8 according to a change in the signal of the reset circuit 5. The power input determination unit 8
It is determined that V _b ≧ V _c and output to the output unit 9. The output unit 9 outputs a signal from the power input determination unit 8 to an external circuit as recovery from a power failure during operation of the appliance.

Problems to be Solved by the Invention However, in the above configuration, it is premised that the mechanical lock switch 6 keeps the pressed state when pressed once, and the open state when pressed and released again. There is a problem that even if a tact switch is used instead of the mechanical lock switch 6, the recovery from power failure cannot be detected.

The present invention has been made in view of the above problems, and provides a power failure recovery determination device for a device that repeatedly uses a tact switch as an operation switch and repeatedly starts and stops by a pulse signal generated each time the switch is pressed and released.

Means for Solving the Problems To solve the above problems, the power failure recovery determination device of the present invention, at the time of power recovery or at power-on, a reset circuit that detects that the power supply voltage has stabilized and outputs a signal,
A reset signal determination unit that determines a change in a signal from the reset circuit and transmits the power input determination unit and a power input determination unit that performs determination based on a signal from the reset signal determination unit, or when power is supplied to the power input determination unit, Alternatively, a current detection circuit that detects whether a power failure is restored when the appliance is operating or a power failure is restored when the appliance is stopped and outputs a signal, and is connected to the current detection circuit and does not pass a current to the power failure when the device is operating, and stops the appliance. A capacitor that passes current at the time of or when the power is turned on, a diode that prevents the discharge of the capacitor at the time of a power failure, a tact switch that generates a pulse signal for determining operation or stop of the appliance, and a pulse signal of the tact switch, The operation of the appliance, a switch determination unit to determine the stop, the appliance stop signal from the switch determination unit and a normal signal from the power input determination unit by A switch signal output unit for performing power, a switch circuit that operates by a signal from the switch signal output unit and discharges the capacitor, and an output unit that transmits a signal from the power input determination unit and outputs the signal to an external circuit. A reset signal determination unit; a power input determination unit; a switch determination unit; a switch signal output unit; and a determination unit including the output unit.

Operation The present invention discharges the electric charge of the capacitor by operating the switch circuit when the appliance is stopped by the above configuration. When the appliance is operating, the operation of the switch circuit is stopped and the capacitor is charged. If a power failure recovery occurs in each state, if the switch circuit is stopped,
When the capacitor is discharged, the charging current is long, but when the capacitor is charged, the charging current does not flow. If the charge current to this capacitor is detected when power is restored,
It is possible to determine whether to recover from a power failure when the appliance is operating or to recover from a power failure when the appliance is stopped. In addition, when the power is turned on, the charge of the capacitor is spontaneously discharged, so that the charging current is detected, and the same determination as power recovery from the operation of the appliance is made. As a result, the power failure recovery determination can be performed even when the tact switch does not hold the stop or operation signal.

Embodiment Hereinafter, a power failure recovery determination device according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a configuration of a power failure recovery determination device according to an embodiment of the present invention. In FIG. 1, reference numeral 11 denotes an outlet, and reference numeral 12 denotes a transformer. The transformer 12 is connected to a rectifier 13. The rectifier 13 performs full-wave rectification of the AC power supplied from the outlet 11. Reference numeral 14 denotes a smoothing capacitor, which smoothes the DC power obtained by the rectifier 13. Reference numeral 15 denotes a reset circuit, which outputs when the DC power supply voltage is stabilized. A tact switch 16 generates a pulse signal each time the switch is pressed and released. Reference numeral 17 denotes a resistor connected to the tact switch 16. Reference numeral 18 denotes a switch determination unit that determines the operation or stop of the appliance based on a pulse signal from the tact switch 16. Reference numeral 19 denotes a switch signal output unit, which outputs a signal based on a stop signal of the switch determination unit 18 or a normal signal of the power input determination unit 26. Reference numeral 20 denotes a switch circuit, which operates according to a signal from the switch signal output unit 19. Reference numeral 21 denotes a capacitor, which supplies a charging current when recovering from a power failure during discharging, and does not flow a charging current when recovering from a power failure during charging. Reference numeral 22-a denotes a photocoupler issuing side, which emits light by charging current of the capacitor 21. Reference numeral 22-b denotes a light receiving side of the photocoupler, which is in a conductive state when the photocoupler light emitting side 22-a emits light, and is in an insulated state when light emission is stopped. 29 is a resistor, which limits the charging current of the capacitor 21. Reference numeral 23 denotes a diode, which prevents discharge of the capacitor 21 during a power failure. Reference numeral 24 denotes a resistor, which is connected to the photocoupler light receiving side 22-b. Reference numeral 25 denotes a reset signal determination unit which detects a change from the absence of a signal from the reset circuit 15. Reference numeral 26 denotes a power input determination unit which receives a signal from the reset signal determination unit 25 and inputs whether the photocoupler 22-b is in a conductive state or an insulated state. I do. Otherwise, a normal signal is output. An output unit 27 outputs an abnormal signal from the power input determination unit 26 to an external circuit. Reference numeral 28 denotes a determination unit, and a switch determination unit 1
8, a switch signal output unit 19, a reset signal determination unit 25, a power input determination unit 26, and an output unit 27.

Regarding the power failure recovery determination device configured as described above,
The operation will be described with reference to FIG. 1 and FIG.

First, FIG. 2A shows the capacitor 21 when the power is turned on.
Charging current i _a to the DC power supply voltage V _a, the voltage of the intersection of the resistor 24 and the photocoupler light-receiving unit 22-b and V _b represents the temporal variation of each. Also, V _c is the voltage level which is set to the power supply input determination unit 26, when the V _c ≦ V _b, it is determined that the power failure recovery during instrument operation. t _s indicates when the power is turned on, and t _R indicates when the DC power supply voltage is stable. Also will be described later t _k. On the other hand, FIG. 2B shows a power failure recovery state during operation of the appliance. i _a , V _a , V _b , V _c , and t _R conform to FIG. Also
t ₀ indicates the time of the start of the power failure. The power-on state will be described with reference to FIG. By performing the power-on by outlet 11 at t _s, the DC power supply voltage V _a is the charge current i _a flows with increased. If i _a flows, the photocoupler light emitting side 22-a emits light, the photocoupler light receiving side 22-b becomes conductive, and _Vb hardly increases. Eventually V _{a at} t _R
Are stabilized, and the reset circuit 15 outputs a signal. In response to the change in the signal, the reset signal determination unit 25 operates the power input determination unit 26. Power input determination unit 26 inputs the V _b, V _b
< _Vc is determined, and a normal signal is output to the switch signal output unit 19. The switch signal output unit 19 operates the switch circuit 20 by the output to discharge the charge of the capacitor 21.
This timing is t _k. (A) in the figure V _b that gradually increases between t _s ~t _k is for the reduction of i _a with the charging of the capacitor 21. Next, a description will be given of power recovery from a power failure when the appliance is stopped. When the appliance is stopped, the switch determination unit 18 outputs a stop signal to the switch signal output unit 19, so the switch signal output unit 19 outputs a signal, the switch circuit 20 operates, and discharges the charge of the capacitor 21. I have. If a power failure occurs in this state, the switch determination unit 18 becomes indefinite, and the switch circuit 20 does not operate. Further, if the power recovery is performed in this state, the time t _{s in} FIG.
Hereinafter, the same operation as when the power is turned on is performed. Finally, a description will be given of the recovery from the power failure during the operation of the appliance with reference to FIG. During the operation of the appliance, since the switch determination unit 18 outputs the operation signal, the switch signal output unit 19 does not output the signal, and the switch circuit 20 does not operate. Therefore, the capacitor 21 is being charged.
In this state, if a power failure occurs as in t ₀ , both V _a and V _b are 0 V
However, the charge of the capacitor 21 remains without being discharged by the diode 23. If power failure recovery in this state, the charging current i _a does not flow, since the photo coupler light-emitting side 22-a does not emit light, the photo coupler light-receiving unit 22-b becomes the insulation state, V _b at a voltage equal to V _a increases. At t _R , the reset circuit 15 outputs a signal, and the reset signal determination unit 25 detects a change in the signal of the reset circuit 15 and operates the power input determination unit 26.
Power input determination unit 26 outputs an abnormality signal to determine V _c ≦ V _b enter a V _b to the output unit 27. The output unit 27 outputs the abnormal signal to an external circuit.

Effect of the Invention As described above, the present invention detects that the power supply voltage is stable at the time of recovery from power failure or at the time of power-on, and determines and transmits a reset circuit that outputs a signal and a signal from the reset circuit. A reset signal determining unit, a power input determining unit that performs a determination based on a signal from the reset signal determining unit and the power input determining unit when power is turned on, or when a power failure is restored during operation of the appliance, or when the appliance is stopped. A current detection circuit that detects whether or not the power failure has returned, and outputs a signal, and a capacitor that is connected to the current detection circuit and that does not pass a current when the power failure returns during operation of the device, and that passes a current when the appliance is stopped or when the power is turned on. A diode for preventing the discharge of the capacitor at the time of power failure, a tact switch for generating a pulse signal for determining operation stop of the appliance, and a pulse signal of the tact switch. A switch judging unit for judging operation and stop of the appliance, an appliance stop signal from the switch judging unit, a switch signal output unit for outputting a normal signal from the power input judging unit, and the switch signal output unit A switch circuit that operates in response to a signal from the power supply and discharges the capacitor; an output unit that transmits an abnormal signal from the power input determination unit and outputs the signal to an external circuit; the reset signal determination unit; and the power input determination. Unit, the switch determination unit, the switch signal output unit, and a determination unit having the output unit, using a tact switch that cannot be detected conventionally as an operation switch, and is generated each time the switch is pressed and released. It is possible to determine the restoration of the power failure of the appliance which repeatedly performs the operation and the stop by the pulse signal.

[Brief description of the drawings]

FIG. 1 is a configuration diagram of a power failure recovery judging device in an embodiment of the present invention, FIG. 2 is a timing chart at the time of power failure recovery and power-on of FIG. 1, and FIG. FIG. 4 is a timing chart at the time of recovery from a power failure and at the time of power-on in FIG. 15 reset circuit, 16 tact switch, 18 switch determination section, 19 switch signal output section, 20 switch circuit, 21 capacitor, 25 reset signal determination section, 26 power supply Input determination unit.

Claims (1)

(57) [Claims] At the time of recovery from power failure or power-on,
A reset circuit that detects that the power supply voltage has stabilized and outputs a signal, and determines a change in a signal from the reset circuit,
A reset signal determining unit to be transmitted, a power input determining unit that performs determination based on a signal from the reset signal determining unit, and whether power is supplied to the power input determining unit, or a power failure recovery during appliance operation, or an appliance. A current detection circuit that detects whether or not the power failure is restored when the power is stopped and outputs a signal, and a capacitor that is connected to the current detection circuit and that does not pass a current when the power is restored when the device is operated, and that passes a current when the appliance is stopped or the power is turned on. A diode for preventing the discharge of the capacitor at the time of a power failure, a tact switch for generating a pulse signal for determining stop of operation of the appliance, and a switch determination unit for determining operation and stop of the appliance based on the pulse signal of the tact switch. A switch signal output unit for outputting an appliance stop signal from the switch determination unit and a normal signal from the power input determination unit; A switch circuit that operates in response to a signal from the switch signal output unit and discharges the capacitor, transmits an abnormal signal from the power input determination unit, and outputs the output signal to an external circuit; and the reset signal determination unit. A power failure recovery determination device comprising: a power input determination unit; a switch determination unit; a switch signal output unit; and a determination unit including the output unit.