JP3500597B2 - Shutter-emergency power supply - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a shutter-emergency power supply in a shutter-emergency opening system. 2. Description of the Related Art In the event of a fire in a building or the like, it is necessary to open a shutter that closes the opening of the building so that a fire department can enter the building. An emergency opening system with an emergency power supply is provided. The emergency power supply device in such an emergency opening system normally supplies commercial power for opening and closing the shutter via the same device even during normal times (non-fire). And at the time of fire, water pressure of firefighting
The fire water supply detection switch detects the amount of water to activate the emergency power supply, and sends an open signal to the control panel of the shutter switch to open the shutter curtain to a predetermined height, but opens the shutter. In the event of a non-power failure (when the commercial power is on), the power to be used is preferentially used. In the event of a power failure, the power from the battery built in the emergency power supply is converted and supplied by the inverter. To open the shutter. FIG. 1 is a time chart of a conventional emergency release device.
In normal times, commercial power is always supplied via an emergency release device. In the event of a fire, when the emergency power supply is activated by a signal from the detection switch, an open signal is sent to the shutter control panel (closes the contact (XA)) to open the shutter. At the time of no power failure, a commercial power supply is used as the power supply output. In this case, after the open signal is transmitted for TM1, the output of the commercial power supply is turned off for about one second to stop the shutter. When a battery is used as the power supply output, the shutter is stopped by stopping the drive of the inverter after sending the open signal for TM1. However, in the opening and closing operation of the shutter curtain, the opening and closing control mechanism (see FIG. 7) temporarily
When the lowering of the shutter is started by the push button, even if the open signal is transmitted, the close signal is given priority and the input of the open signal is inhibited (interlock), and the shutter curtain is unlocked at the lower limit position. The descent continues until it is released (self-holding). Therefore, in the event of a fire and no power outage (when commercial power is on), the shutter
While the curtain is descending, an open signal is sent from the emergency power supply to the shutter.
Even when transmitted to the control panel, the lowering of the shutter curtain is self-holding, and the shutter curtain starts to open only after the lower limit is activated at the fully closed position and self-holding is released. Absent. Therefore, in the case where the open signal is transmitted while the shutter curtain is descending, the time from when the open signal is transmitted to when the shutter curtain is fully closed is substantially (TM1-t) time. However, there was a fear that the shutter curtain could not be opened to the height required for firefighting activities. [0005] This can be dealt with by transmitting a stop signal from the emergency power supply to the shutter control panel once to stop driving the shutter curtain, and then transmitting an open signal. In this case, there is a problem that the number of wirings increases. In a shutter device having an automatic control panel capable of switching between an automatic mode and a manual mode (manual mode) as shown in FIG. 2, in the automatic mode, a sensor is provided. The shutter curtain is opened by sensing a person or an object, and the sensor is turned on after the shutter curtain is fully opened.
If not, the shutter will be closed after T seconds by the timer.
The ten is lowered to close the opening (Fig. 2
(A)) In the manual mode, when the door is fully closed, an opening instruction is issued by a push button to fully open the opening, and when fully opened, a closing instruction is issued by the push button to completely close the opening (FIG. 2
(B)). Therefore, even when an opening signal is transmitted from the emergency power supply and the shutter curtain is opened in the automatic mode, the shutter curtain is automatically lowered a predetermined time after the opening. At first glance, it is not possible to determine which mode such a control panel is in. Therefore, an emergency opening system provided with an emergency power supply for a shutter device having such a control panel. Was not allowed to use. SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problem, and ensures the shutter shutter even when there is no power outage (commercial power is ON). −
An emergency release device for a shutter that can release the ten to a predetermined height and can be installed well with a shutter device having a control panel equipped with an automatic mode and a manual mode. It is intended to provide. The technical means adopted by the present invention to solve the above-mentioned problem is to supply commercial power to the shutter control panel in normal times and to start up by a fire-fighting water supply detection switch in case of fire. In the event of a power failure, power is supplied from the built-in battery to the shutter control panel, and in the event of a non-power failure, commercial power is supplied to the shutter control panel as it is, and a shutter-emergency signal for transmitting a shutter release signal is supplied. In the power supply device, when activated by the fire-fighting water supply detection switch in the event of a fire, in the case of a non-power failure, the supply of commercial power is temporarily interrupted, and then the commercial power is restored and supplied. Things. With such a construction, the shutter car
If a signal from the fire water supply detection switch is input while the balance is descending, the commercial power supplied via the emergency power supply is turned off for a predetermined time, for example, about 1 second. Stops even in the state.
Thereafter, when the commercial power is restored, an open signal is output to the shutter control panel, so that the shutter curtain can be opened for a predetermined time by the emergency power supply device, and the opening height required for firefighting activities can be maintained. The shutter curtain can be opened. When the shutter curtain is opened and closed in an automatic mode, once the commercial power is turned off,
Thereafter, when the commercial power is restored, the operation mode starts from the manual mode. (From the viewpoint of safety, etc., the control panel capable of switching between the automatic mode and the manual mode is controlled so that once the power is turned off, the operation mode starts from the manual mode. Have been.). Therefore, if the opening signal from the emergency power supply is input to the push button input, the shutter curtain can be opened, and the shutter curtain does not automatically lower a predetermined time after the opening. FIG. 3 is a schematic perspective view showing a basic structure of a shutter-emergency opening system, and FIG. 4 is a block diagram showing an emergency opening device. It has a power supply device 1 and a fire water transmission detection switch 2, and when the fire brigade sends water from a pump car (not shown) to a water supply port 3 provided on the outer wall of the building, the detection switch is turned on by detecting the pressure and amount of water supply, A start signal is transmitted to the emergency power supply device 1 to start the emergency power supply device. When the emergency power supply device starts up, an open signal is transmitted to the control panel 5 of the shutter switch 4 and the shutter curtain 6 is moved to a predetermined position. Opened to height. As a power source for driving the electric shutter in the event of a fire, the commercial power source is used as it is when there is no power failure (the commercial power source is on), and the emergency power supply device is used when the commercial power source is off at the time of a power failure or the like. The inverter incorporated therein is activated to convert the DC power taken from the battery into AC power to drive the electric shutter. FIG. 5 is a flowchart showing a procedure for opening the shutter using the shutter-emergency opening system, and FIG. 6 is a time chart showing that the emergency power supply device is driven when the fire water supply detection switch is turned on. A known power supply monitoring circuit in the control circuit detects ON / OFF of the commercial power supply. When the commercial power supply is off, the power output is switched to the inverter side, and the inverter is activated to supply power from the battery to the shutter control panel. When there is no power failure (when the commercial power supply is ON),
Commercial power is supplied to the shutter control panel.
The power supply to the control panel is temporarily shut off. The power supply from the commercial power supply to the shutter control panel is cut off, for example, by turning a changeover switch to the inverter side according to a signal from a control circuit that has received a signal from the detection switch. The means for turning off is not limited to this. After a predetermined time, the output of the commercial power supply becomes O by a timer built in the control circuit.
N. The time during which the output of the commercial power supply is turned off is a length necessary to stop the operating shutter curtain and does not hinder the subsequent rapid opening of the shutter curtain. Well, preferably between 0.5 and 5 seconds, more preferably 1 second. At the same time as the output of the commercial power supply is turned on, a shutter open signal is transmitted to the shutter control panel, and the shutter curtain is opened for a predetermined time (TM1) by a timer, and the shutter is opened for a predetermined time. After elapse, the output of the commercial power supply is turned off by the timer, and the shutter is turned off.
The release of the curtain stops. One second later, the commercial power is turned on by the timer. FIG. 7 shows an opening / closing control circuit in the shutter control panel. When the ascending push button switch (PBU) is closed, the ascending side relay switch (RYU) and its make contacts (RYU1, RYU2, RYU3, RYU4). Is in the closed state, and when the lowering push button switch (PBD) is closed, the lower relay is opened.
Switch (RYD) and its make contact (RYD1, RYD
2, RYD3, RYD4) are connected so that they are closed. A normally open contact (XA) is connected in parallel to the ascending push button switch (PBU), and a shutter (closes the contact (XA)) by an open signal from a control circuit of the emergency power supply device. Open to the public. When the shutter curtain is lowered, the circuit on the shutter curtain rising side is opened by closing RYD2 downward in FIG. 6, and even if the contact (XA) is closed in this state, the shutter curtain is closed. Ten does not rise and continues to fall. Shutter car
When the ten falls to the lower limit, the lower limit switch (LSD) opens to open the circuit, and the lower relay switch (RYD) and make contact (RYD1, RYD2, RYD)
3, RYD4) returns to the original open state. Such an open / close control circuit itself is known. In such an emergency opening system, when the fire fighting water supply detection switch is turned on while the shutter curtain is being lowered by the push button, the emergency power supply device is driven, and the output of the commercial power supply is controlled by a signal from the control circuit. When the shutter is turned off for a second, the power supply to the shutter control panel is cut off, and the lowering operation of the shutter curtain is stopped. Then, the output of the commercial power supply is restored, and an open signal is transmitted from the control circuit to the shutter control panel, so that the shutter car is opened for a predetermined time.
Raise the ten. Therefore, not only does the shutter never open once the shutter is fully closed, but also the shutter curtain is raised from a state where the shutter is already opened to some extent, so that the drive is performed during the same time (TM1). Also, a larger opening can be secured. In a shutter device having a shutter control panel provided with an automatic mode and a manual mode, when the fire water supply detection switch is turned on while in the automatic mode, the emergency power supply device is driven, and the control circuit is controlled. , The output of the commercial power supply is turned off for one second. Once the power is turned off and the output of the commercial power supply is restored, the shutter control panel starts in the manual mode. Therefore, the opening signal is transmitted from the control circuit to the shutter control panel, and the shutter curtain can be raised for a predetermined time, and the raised shutter curtain can be automatically lowered. Absent. According to the present invention, commercial power is supplied to the shutter control panel in normal times, and is activated by the fire-fighting water supply detection switch in the event of a fire, and the power is controlled by the built-in battery in the event of a power failure. The emergency power supply unit supplies power to the control panel and supplies the commercial power to the shutter control panel as it is when there is no power failure, and sends out a shutter-open signal. In addition, in the case of a non-power failure, the supply of the commercial power is temporarily interrupted, and then the commercial power is restored and supplied. Therefore, the following advantageous effects are obtained. (1) Even when the emergency power supply sends an open signal when the commercial power supply is valid and the shutter curtain is lowered, the shutter is required to reach the height required for firefighting activities.
Can be opened. (2) Even if the emergency power supply sends an open signal when the shutter control panel is in the automatic mode, the output of the commercial power supply is once turned off. Since the shutter mode is in the manual mode, the shutter curtain opened by the open signal is not automatically lowered after a predetermined time. (3) Since the present invention is characterized in that the output of the commercial power supply is once turned off, the advantageous effects can be obtained without increasing the number of wirings or components.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a time chart of a conventional shutter-emergency opening system. FIG. 2 is a shutter capable of switching between an automatic mode and a manual mode.
FIG. 3 is a schematic perspective view of a shutter device having a control panel.
(A) shows the case of the automatic mode, and (b) shows the case of the manual mode. FIG. 3 is a schematic perspective view of a shutter-emergency opening device. FIG. 4 is a block diagram showing a configuration of a shutter-emergency opening system according to the present invention. FIG. 5 is a flowchart showing a procedure for opening a shutter by the shutter emergency opening system according to the present invention. FIG. 6 is a time chart of the shutter-emergency opening system according to the present invention. FIG. 7 is a circuit diagram showing opening / closing control of a shutter curtain. [Description of Signs] 1 Emergency power supply device 2 Fire water supply detection switch 4 Shutter-opening / closing device 5 Control panel

Claims (1)

(57) [Claims] [Claim 1] Normally, commercial power is supplied to the shutter control panel. In the event of a fire, it is activated by the fire water supply detection switch. -Supply to the control panel, supply the commercial power to the control panel as it is when there is no power failure, and supply the shutter-Control panel, and send out the shutter release signal-Emergency power supply device, which is activated by the fire water transmission detection switch in case of fire In the event of a power outage, a shutter-emergency power supply device in which the supply of commercial power is temporarily interrupted and then the commercial power is restored and supplied.