JP2013087544A - Gravitational lowering control system for fireproof and smokeproof shutter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a self-weight lowering control system for fireproof and smokeproof shutter without using an interlocking relay for harm prevention.SOLUTION: The gravitational lowering control system for fireproof and smokeproof shutter includes an automatic closing device 8 which operates to release a brake of an opening/closing machine by the input of a start signal outputting from a disaster prevention board 6, and lowers a shutter curtain 1 with its own weight, a manual closing device 9 including an emergency operation switch 90, and obstacle detection means 1b, 1c, and 10 of outputting an obstacle detection signal when detecting an obstacle at the time of lowering the shutter curtain 1 with its own weight. The manual closing device 9 includes a battery, and can transmit an operation signal to the automatic closing device 8 using the battery as a power source, and the shutter curtain 1 which is lowered with its own weight after the output of the start signal from the disaster prevention board 6 is stopped and re-lowered with the operation signal that is transmitted to the automatic closing device 8 from the manual closing device 9.

Description

The present invention relates to a self-weight drop control system for a fireproof / smokeproof shutter.

Fire / smoke shutters are installed to form a compartment in the building in the event of a fire to prevent the fire from spreading. When the opening of the fire / smoke-proof shutter is fully open, the shutter curtain's own weight drop is regulated by the brake of the switch, but when the detector detects a fire, it releases the brake based on the signal from the disaster prevention panel Thus, the shutter curtain is lowered by its own weight to the fully closed state to form a section. For fire and smoke prevention shutters, the shutter curtain is lowered by its own weight in the event of a fire, and when the evacuee touches the sitter curtain that is falling under its own weight, so-called hazard prevention interlocking is used to stop the drop of the shutter curtain. A repeater is provided.

As shown in FIGS. 1 and 2, when the hazard prevention interlock repeater receives a signal from the disaster prevention panel in the event of a fire, the hazard prevention interlock repeater sends a signal to the automatic closing device. The automatic closure device is activated to release the brake to lower the shutter curtain by its own weight, while the obstacle curtain detects the obstacle detection signal generated when the shutter curtain that lowers its own weight contacts an obstacle (for example, an evacuee) When the harm prevention interlock repeater receives the brake, the brake is returned to stop the weight reduction of the shutter curtain.

More specifically, as shown in FIG. 1, a conventional fire / smoke shutter self-weight drop control system includes a shutter curtain 1 that opens and closes an opening, and guide rails 2 provided on both sides of the opening. The shutter curtain 1 can be moved up and down with both ends in the width direction being guided by the guide rail 2, and is normally wound around a winding shaft (not shown) in the ceiling 3 above the opening. It is in a stowed posture in which the opening is opened, and its weight is lowered in the event of a fire, and the seat plate 1a at the lowermost end of the shutter curtain 1 is landed to close the opening. Based on the fire detection of the smoke detector 5, the switch 4 automatically closes the shutter curtain 1 by dropping the shutter curtain 1 by receiving the signal output from the hazard prevention interlocking relay 7 that has received the activation signal from the disaster prevention panel 6. A device 8 is provided. A manual operation portion 9 ′ is disposed on the wall located on the side of the guide rail 2. The seat plate 1a provided at the lowermost end of the shutter curtain 1 has a seat plate switch, and when there is an obstacle below the shutter curtain 1 that is descending its own weight, this is detected by the seat plate switch, An obstacle detection signal is output through the signal line 1b. The signal line 1b connected to the seat switch is wound around the cord reel 10 mounted at the upper end of the opening while maintaining the urging force in the winding direction.

In addition, the self-weight drop control system for the fire / smoke-proof shutter includes a manual closing means in the manual operation unit 9 ′ so that the shutter curtain can be manually lowered without waiting for a signal from the sensor in the event of a fire. . As the manual closing means, in addition to the mechanical manual closing device as shown in Patent Document 2, an electric manual closing device as shown in Patent Document 3 is also known. In the case of the electric type, a non-voltage contact signal is generated by pressing an emergency operation switch, and a brake release signal is output from the standby power supply. The manual operation unit 9 ′ of the conventional electric shutter is provided with a push button switch for manually lowering, raising and stopping the shutter curtain, but the manual operation unit 9 ′ is not provided with a power source.

The disaster prevention panel 6, the automatic closing device 8, and the wired obstacle detection means are electrically connected to a harm prevention interlocking repeater 7 disposed on the ceiling 4 via cables. In the event of a fire, the harm prevention interlocking relay unit 7 outputs an operation signal to the automatic closing device 8 based on a signal (DC 24 V) from the disaster prevention panel 6 based on the detection of the smoke detector 5, so that the automatic closing device 8 is Operate to release the brake of the switch 4 and lower the shutter curtain 1 by its own weight to prevent the spread of fire, and when an obstacle is detected while the shutter curtain 1 is descending, the above-mentioned wired obstacle detection Based on the signal from the means, a brake return signal is transmitted to the automatic closing device 8, the brake of the switch 4 is returned, and the descent of the shutter curtain 1 is stopped. A conventional harm prevention mechanism is described in Patent Document 1, for example.

In conventional fire-fighting / smoke-proof shutter weight drop control systems, control is performed via a harm prevention interlocking relay. The interlocking repeater for harm prevention is equipped with a battery to operate the automatic closing device by outputting power even at the time of power failure, but periodically replace the battery so that it does not malfunction due to battery life Is required. However, since the harm prevention interlock repeater is in the ceiling, work from the inspection port is required, and battery replacement work may be difficult depending on the installation environment. In addition, at present, the harmonization interlock repeater requires a dedicated battery (non-generic nickel-cadmium storage battery), which has hindered easy battery replacement.
JP 2008-31714 A JP 2001-254580 A JP 2002-81281 A

It is an object of the present invention to provide a self-weight drop control system for a fireproof / smokeproof shutter without using a harm prevention interlocking repeater.

The technical means adopted by the present invention are:
An automatic closing device that operates to release the brake of the switch by the input of the start signal output from the disaster prevention panel, and lowers the shutter curtain by its own weight,
A manual closing device with an emergency operation switch for manually dropping the shutter curtain by its own weight;
An obstacle detection means for outputting an obstacle detection signal when an obstacle is detected when the shutter curtain is lowered by its own weight;
With
The manual closing device is electrically connected to the automatic closing device so that signals can be transmitted and received,
The manual closing device is electrically connected to the obstacle detection means so as to be able to receive the obstacle detection signal;
The manual closing device includes a battery, and the operation signal can be transmitted to the automatic closing device by using the battery as a power source, and the shutter curtain that stops its own weight after the start signal is output from the disaster prevention panel is stopped. Re-descent is a fire / smoke-proof shutter self-weight drop control system that is performed by an activation signal transmitted from the manual closing device to the automatic closing device.
In an embodiment described later, the operation signal is a brake release signal and a brake return signal, and the automatic closing device operates to release the brake when receiving the brake release signal from the manual closing device and receives the brake return signal. Operates to return the brake.
In one aspect, the manual closing device transmits a brake release signal as an operating signal to the automatic closing device by using the battery as a power source by pressing the emergency operation switch,
The automatic closing device that has received the brake release signal operates to release the brake of the switch, and lowers the shutter curtain by its own weight,
Stopping / re-lowering of the shutter curtain, which is lowered by its own weight when the emergency operation switch is pressed, is performed by an operation signal transmitted from the manual closing device to the automatic closing device.

In one aspect, when the manual closing device receives the obstacle signal, the manual closing device transmits a brake return signal as an operation signal to the automatic closing device,
The automatic closing device that receives the brake return signal operates to return the brake of the switch, and stops the shutter curtain that descends its own weight.
When the manual closing device enters an obstacle non-detection state, the manual closing device transmits a brake release signal to the automatic closing device,
The automatic closing device that receives the brake release signal as the operation signal operates to release the brake of the switch, and lowers the shutter curtain that has stopped.

In one aspect, when the automatic closing device is operated to release the brake of the switch, an operation confirmation signal is transmitted from the automatic closing device to the manual closing device.
In one aspect, the activation confirmation signal is generated when the movable element of the activation mechanism of the automatic closing device has moved so as to release the brake of the switch, and when a switch that mechanically contacts the movable element is turned on. Is output.
In one aspect, the manual closing device transmits a brake release signal as an operating signal from the manual closing device to the automatic closing device when an operation confirmation signal is not received from the automatic closing device after the activation signal is output. .
In one aspect, transmission of a brake release signal as an activation signal from the manual closing device to the automatic closing device is stopped when the manual closing device receives the activation confirmation signal. When the brake release signal is transmitted from the manual closing device to the automatic closing device, when the shutter curtain that has been temporarily stopped after dropping its own weight is lowered again, after the start signal is output, the manual closing device is released from the automatic closing device. There are cases where the operation confirmation signal cannot be received and the emergency operation switch is pressed.

In one aspect, the manual closing device is normally in a sleep mode, and enters the operation mode from the sleep mode by receiving the activation signal output from the disaster prevention panel or a signal based on the activation signal.
In one aspect, the activation signal or a signal based on the activation signal is transmitted to the manual closure device via the automatic closure device.

According to the present invention, the shutter curtain that descends its own weight by the operation signal transmitted from the manual closing device to the automatic closing device (in the embodiment described later, the brake release signal and the brake return signal) is lowered and stopped again. Prevents the need for interlocking repeaters for prevention.
Since the manual closing device is provided at a height that is easy to operate, battery replacement (which can be designed to use a general-purpose battery) can be easily performed at hand, improving maintainability. it can.
Since the manual closing device according to the present invention can be configured by improving the conventional manual closing device, the number of parts can be reduced and the cost can be reduced as compared with the case where an interlocking device for hazard prevention is provided. be able to.

It is a perspective view which shows the dead weight control system of the conventional fire prevention / smoke prevention shutter. It is a block diagram which shows the self-weight fall control system of the conventional fire prevention / smoke prevention shutter. It is the schematic which shows the gravity fall control system of the fire prevention / smoke prevention shutter which concerns on this invention. It is a block diagram which shows the self-weight fall control system of the fire prevention / smoke prevention shutter which concerns on this invention. It is a block diagram which shows the electrical connection of a manual closing device and an automatic closing device. It is a schematic perspective view which shows the inside of an automatic closing device. It is a fragmentary figure which shows the inside of the schematic perspective view shown in FIG. It is a flowchart which shows the 1st control flow of the dead weight control system of the fire prevention / smoke prevention shutter which concerns on this invention. It is a flowchart which shows the 2nd control flow of the dead weight control system of the fire prevention / smoke prevention shutter which concerns on this invention.

[A] Overall Configuration of Control System A self-weight drop control system for fire / smoke-proof shutters according to the present invention will be described with reference to FIGS. FIG. 3 is a schematic diagram of a control system according to the present invention, and FIG. 4 is a block diagram of the control system according to the present invention. The basic configuration of the fire / smoke shutter itself is the same as that described in the prior art. As shown in FIG. 3, the fire / smoke-proof shutter includes a shutter curtain 1 that opens and closes an opening, and guide rails 2 provided on both sides of the opening. The shutter curtain 1 has guide rails at both ends in the width direction. It can be moved up and down in the state guided by 2 and is normally stored in a stowed posture in which the opening is opened by being wound around a winding shaft (not shown) in the ceiling behind the opening. Occasionally, the weight of the shutter curtain 1 is lowered and the lowermost seat plate 1a of the shutter curtain 1 is landed to close the opening. The opening / closing machine 4 is provided with an automatic closing device 8 that lowers the shutter curtain 1 by its own weight based on an activation signal output from the disaster prevention panel 6 when a fire of the smoke detector 5 is detected. The disaster prevention panel 6 outputs a start signal using a commercial power source as a power source when there is no power failure and using an emergency battery as a power source when a power failure occurs.

The seat plate 1a provided at the lowermost end of the shutter curtain 1 has a seat plate switch 1c, and when there is an obstacle below the shutter curtain 1 under its own weight, this is detected by the seat plate switch 1c. Then, the obstacle detection signal is output through the signal line 1b. The signal line 1b connected to the seat plate switch 1c is wound while holding a biasing force in the winding direction in the cord reel 10 mounted at the upper end of the opening.

In the event of a fire, an activation signal (DC24V) from the disaster prevention panel 6 is generated based on detection by the smoke detector 5, and the automatic closing device 8 receives the activation signal and operates to release the brake of the switch 4, The shutter curtain 1 is lowered by its own weight, and the opening is closed to prevent the fire from spreading.

The manual closing device 9 includes an emergency operation switch 90 for manually dropping the shutter curtain 1 by its own weight. The manual closing device 9 is installed at a height at which the wall surface in the vicinity of the opening is easy to operate so that the emergency operation switch 90 can be pressed quickly and easily in an emergency. The manual closing device 9 is electrically connected to the automatic closing device 8 via a cable so that signals can be transmitted and received. The manual closing device 9 is electrically connected to the cord reel 10 of the obstacle detection means via a cable so as to receive an obstacle detection signal. The manual closing device 9 includes a replaceable general-purpose battery, and an operation signal (DC24V) can be transmitted to the automatic closing device 8 using the battery as a power source.

The automatic closing device 8 receives an activation confirmation signal when the brake release mechanism is activated, an input unit that receives the activation signal from the disaster prevention panel 6, an output unit that transmits the activation signal from the disaster prevention panel 6 to the manual closing device 9. An output unit that transmits to the manual closing device 9, an input unit that receives an operation signal (brake release signal, brake return signal) from the manual closing device 9, and a control unit that controls input / output of the signal.

The manual closing device 9 includes an input unit that receives an activation signal from the automatic closing device 8, an input unit that receives an operation confirmation signal from the automatic closing device 8, and an input unit that receives an obstacle detection signal from the obstacle detection unit. And an output unit for transmitting an operation signal (brake release signal, brake return signal) to the automatic closing device 8 and a control unit for controlling input / output of the signal.

The manual closing device 9 is normally in a sleep mode to reduce battery consumption. When the manual closing device 9 is in the sleep mode, no activation signal is output. The activation signal (DC24V) from the disaster prevention panel 6 is transmitted to the manual closing device 9 via the automatic closing device 8, and the manual closing device 9 that has received the activation signal (DC24V) enters the operation mode from the sleep mode. After the start signal (DC24V) is once output from the disaster prevention panel 6, the control of stop / re-lowering of the shutter curtain that falls by its own weight is performed via the manual closing device 9 equipped with a battery. In the present embodiment, the self-weight drop control is performed using the manual closing device 9, but the self-weight drop provided on the wall body is located separately from the manual closing device 9 and located at the same height as the manual closing device 9. You may perform dead weight control using a control part. In this case, the description of the manual closing device 9 can be used for the description of the dead weight lowering control unit.

When an obstacle is detected during the descent of the shutter curtain 1, an obstacle detection signal from the wired obstacle detection means is input to the manual closing device 9, and the manual closing device 9 operates as a brake return signal. By outputting a signal to the automatic closing device 8, the brake release holding by the automatic closing device 8 is released, the brake of the opening / closing machine 4 is restored, and the descent of the shutter curtain 1 is stopped. After the obstacle is removed, the operation signal as a brake release signal is output from the manual closing device 9 to the automatic closing device 8 so that the automatic closing device 8 operates to release the brake of the switch 4. The shutter curtain 1 starts to descend again. The shutter curtain 1 continues to descend by its own weight, the seat plate 1a at the lower end of the shutter curtain 1 is landed, and the opening is closed. The obstacle detection means is not limited to the wired obstacle detection means described in the present embodiment.

[B] When the automatic closing device sensor 5 detects a fire, a fire detection signal is transmitted to the disaster prevention panel 6, and when a DC24V signal based on the activation signal from the disaster prevention panel 6 is input to the automatic closing device 8, the automatic closing device 5 When the device 8 is operated and the brake release mechanism of the automatic closing device 8 releases the brake portion of the switch 4, the shutter curtain 1 is lowered to partition the fire prevention area. The automatic closing device 8 releases the brake portion of the switch 4 by a plurality of mechanical elements that operate in conjunction with the rotation of the motor 80, and immediately shuts off the power to the motor 80 after the brake is released. When the seat switch 1c detects that the shutter curtain 1 that falls under its own weight hits an obstacle, an operation signal as a brake return signal is received from the manual closing device 9 that has received the obstacle detection signal from the cord reel 10. The shutter curtain 1 that is lowered by its own weight is stopped by returning the brake of the switch 4.

As shown in FIGS. 6 and 7, the automatic closing device 8 includes a box-shaped casing, and the following mechanical elements are provided in the casing.
A motor 80 having a motor shaft that can rotate forward and backward in the first direction or the second direction;
A one-way comprising a drive shaft that is in a rotation transmission state with the motor shaft only when the motor shaft rotates in the first direction, and the rotation transmission state is released by rotation in the second direction of the motor shaft Clutch 81;
A pinion 82 that rotates integrally with the drive shaft of the one-way clutch 81;
A rack 83 meshed with the pinion 82 and capable of reciprocating with the rotation of the pinion 82;
A brake release body 84 that can reciprocate in the direction of releasing the brake or returning the brake;
A main shaft 85 for guiding the reciprocation of the rack 83 and the brake release body 84;
Two compression springs (buffering spring 86A and return spring 86B) each sheathed on the main shaft 85 across the brake release body 84;
Means (three micro switches 87A, 87B, 87C that enter after the release of the brake release lever) for cutting off the power to the motor when the brake release body 84 moves in the brake release direction to release the brake.

In a state where the automatic closing device 8 is attached to the opening / closing device 4, a brake release lever 40 for releasing the brake portion of the opening / closing device 4 extends from the outside of the automatic closing device 8 into a long hole 80a formed in the surface portion 8A. The tip of the brake release lever 40 extends into the casing of the automatic closing device 8.

A brake release signal is input to the automatic closing device 8. As a transmission source of the brake release signal, there are a disaster prevention panel 6 and a manual closing device 9. For example, in the event of a fire, DC24V is transmitted to the automatic closing device 8 from the disaster prevention panel 6 that has received the detection signal from the smoke detector 5. When the emergency operation switch 90 of the manual closing device 9 is pressed, DC24V is transmitted from the manual closing device 9 to the automatic closing device 8. When the motor 80 is rotated in the first direction by the brake release signal, the rotation of the motor shaft is transmitted to the drive shaft of the one-way clutch 81, and the pinion 82 rotates with the rotation of the drive shaft, and the rotation of the pinion 82 As a result, the rack 83 meshing with the pinion 82 moves straight in the brake release direction, so that the brake release body 84 moves in the brake release direction along the main shaft 85 and pushes the brake release lever 40 of the switch 4. The brake of the switch 4 is released.

The three micro switches 87A, 87B, and 87C are electrically connected to a relay board that is a component of the control circuit 88, and the switch lever 89A that moves together with the brake release body 84 as the rack 83 moves contacts. Switch on. When the brake release body 84 moves by a predetermined amount, the micro switch 87A is turned on by contact with the switch lever 89A that moves together with the brake release body 84, so that output to the manual closing device 9 (transmission of operation confirmation signal) is performed. When the micro switch 87B is turned on, output to an external device such as the disaster prevention panel 6 is performed, and when the micro switch 87C is turned on, the power supply to the motor 80 is cut off.

In a state where the power supply to the motor 80 of the automatic closing device 8 is cut off, the drive shaft of the one-way clutch 81 is in a state of transmitting rotation with the motor shaft of the motor 80, and the motor 80 (motor with a speed reducer) is started to accelerate. The torque overcomes the spring force of the return spring 86B and the return force of the brake release lever 40 (a return spring (not shown) built in the switch), and the rotation of the pinion 82 and the movement of the rack 83 are restricted. The brake released state is maintained.

A brake return signal is input to the automatic closing device 8. The brake return signal is transmitted from the manual closing device 9 to the automatic closing device 8 when the obstacle detecting means detects the obstacle. When the motor 80 rotates in the second direction by the brake return signal, the rotation transmission state between the motor shaft and the drive shaft of the one-way clutch 81 is released, and the drive shaft becomes free independently of the motor shaft. The brake release body 84 and the rack 83 are pushed and moved in the brake return direction along the main shaft by the force of the return spring 86B that is compressed when the brake is released and the brake is released. Return to position. The return brake (not shown) built in the opening / closing machine also returns the opening / closing machine brake release lever 40 to return the brake.

In the automatic closing device 8 according to the present embodiment, immediately after the brake is released, the energization to the motor 80 is immediately interrupted, and even after the energization to the motor of the automatic closing device 8 is interrupted, the electricity is not energized. Although the automatic closing device 8 is characterized in that the brake release state of the switch 4 is maintained, the automatic closing device applicable to the present invention is not limited. In the present embodiment, an automatic closing device that operates by a single-shot (one-shot) signal and can maintain a brake released state is shown (advantageous with low battery consumption). The brake may be activated by an output signal to maintain the brake released state. In the latter case, for example, the brake release state is maintained while the operation signal is continuously transmitted from the manual closing device to the automatic closing device, and automatically when the transmission of the operation signal is stopped based on the obstacle detection signal. The closing device changes from the brake release state to the brake return state.

[C] Manual closing device The manual closing device 9 is provided with a box-shaped casing that is mounted or embedded at a height at which the wall surface in the vicinity of the opening is easy to operate, and a commercially available general-purpose battery is replaced in the casing. Provided possible. On the front panel of the manual closing device 9, an emergency operation switch 90, a recovery switch, a power capacity check switch, and an abnormality indicator lamp 91 are arranged. A lid 92 is provided on the front surface of the casing, and a recovery switch (not shown in FIG. 3) and a power capacity check switch (not shown in FIG. 3) can be pushed by opening the lid 92. It has become. In FIG. 3, reference numeral 93 denotes a keyhole. The emergency operation switch 90 can be pushed and operated with the lid 92 closed, and the abnormality indicator lamp 91 can be visually recognized from the transparent window provided on the lid 92 with the lid 92 closed.

The emergency operation switch 90 is used when it is desired to immediately lower the shutter curtain 1 by its own weight prior to the operation of the automatic closing device 8 based on the activation signal input from the disaster prevention panel 6. By pressing the emergency operation switch 90, an operation signal (DC24V) as a brake release signal is transmitted to the automatic closing device 8 using a battery built in the manual closing device 9 as a power source. Further, when the emergency operation switch 90 is pressed, the manual closing device 9 is changed from the sleep mode to the operation mode. The automatic closing device 8 that has received the brake release signal operates to release the brake of the switch, and lowers the shutter curtain 1 by its own weight. An operation confirmation signal is transmitted from the automatic closing device 8 to the manual closing device 9 by detecting that the automatic closing device 8 performs the brake releasing operation by the micro switch 87A. When the manual closing device 9 receives the operation confirmation signal from the automatic closing device 8, the manual closing device 9 stops outputting the operating signal (DC 24V) to the automatic closing device 8.

By pressing the recovery switch, a recovery output (brake return signal) is output to the automatic closing device 8 using the battery as a power source for a predetermined time (for example, 3 seconds). The transmission of the brake return signal by pressing the recovery switch is used, for example, during maintenance of the shutter device (when it is desired to stop the shutter curtain during its own weight drop). After a predetermined time has passed since the recovery switch was pressed (for example, for 10 seconds), the manual closing device 9 enters the sleep mode.

The manual closing device 9 includes a means for determining the voltage state of the battery built in the manual closing device 9, the battery voltage state is determined by pressing the power capacity check switch, and an abnormality indicator lamp ( LED) lights up or blinks to display the voltage state of the battery power supply. A power supply capacity check switch may also be used by long pressing the recovery switch. The manual closing device 9 includes a means for monitoring the disconnection of the cord reel, and displays the disconnection of the cord reel and the cord reel on the abnormal indicator lamp. One indicator lamp is configured to emit light in different display modes by lighting or flashing the voltage state of the battery power source and the disconnection of the cord reel. In this embodiment, the LED blinks when the battery is consumed, and the LED is lit when the cord reel is disconnected.

The manual closing device 9 includes an input unit that receives an activation signal (the activation signal output from the disaster prevention panel 6) from the automatic closing device 8, an input unit that receives an operation confirmation signal from the automatic closing device 8, and the automatic closing device 8 And an output unit for transmitting an operation signal (brake release signal, brake return signal) using a battery as a power source, and an automatic closing device via a cable so that signals can be transmitted to and received from the automatic closing device 8 8 is electrically connected.

Usually, the motor of the automatic closing device is designed to operate at DC 24 V, which is the operating voltage of the start signal from the disaster prevention panel 6. In one aspect, the manual closing device 9 includes a booster circuit, and generates an operating voltage DC24V of the motor of the automatic closing device 8 from a voltage obtained from a battery built in the manual closing device 9, thereby automatically closing the device. 8 is output. In another aspect, an operating voltage adjusting means (such as a step-down circuit) may be provided on the automatic closing device 8 side so that the motor of the automatic closing device 8 can operate at a lower voltage (for example, DC 12 V). If the automatic closing device 8 can be operated at a lower voltage, the motor of the automatic closing device 8 can be operated without using a booster circuit at the voltage obtained by the battery on the automatic closing device 9 side, and the battery of the manual closing device 9 can be operated. It can also reduce wear. The battery may be composed of a rechargeable battery or may be rechargeable using a commercial power source.

The manual closing device 9 includes an input unit that receives, as an obstacle detection signal, that the obstacle detection unit has entered the obstacle detection state, and is configured to be able to receive an obstacle detection signal via a cable. It is electrically connected to the detection means (code reel 10). In the obstacle detection state and the obstacle non-detection state, the signal of the seat plate switch 1c input via the cord reel 10 is used to determine the ON / OFF state of the seat plate switch 1c and output. Whether the seat switch 1c is ON or OFF can be determined by monitoring the resistance value. When the seat plate switch 1c is turned ON (the manual closing device 9 receives an obstacle detection signal), a brake return signal (DC24V) is instantaneously transmitted from the manual closing device 9 to the automatic closing device 8 using the battery as a power source. When the automatic closing device 8 receives the brake return signal, the brake release hold is released, the brake of the opening / closing machine 4 is returned, and the descent of the shutter curtain 1 is stopped. When the seat switch 1c is turned off (the obstacle is not detected when the obstacle is removed), the brake release signal (DC24V) is automatically supplied from the manual closing device 9 using the battery as a power source for a predetermined time (for example, after 10 seconds). Sent to the closure device 8. When the automatic closing device 8 receives the brake release signal, the brake is released, and the shutter curtain 1 is lowered again to close the opening.

The activation signal (DC24V) output from the disaster prevention panel 6 is transmitted to the manual closing device 9 via the automatic closing device 8, and the manual closing device 9 that has received the activation signal (DC24V) changes from the sleep mode to the operation mode. Become. The signal for setting the manual closing device 9 in the sleep mode to the operation mode does not need to be the activation signal (DC24V), and may be another signal output from the automatic closing device 8 that has received the activation signal (DC24). . If the operation confirmation signal is not received from the automatic closing device 8 after the manual closing device 9 enters the operation mode, the manual closing device 9 transmits a brake release signal (DC24V) to the automatic closing device 8 using the battery as a power source. To do. In one aspect, whether or not the operation confirmation signal is received is determined when the operation confirmation signal is not received while the activation signal supplied to the manual closing device 9 via the automatic closing device 8 continues. It is determined that “the operation confirmation signal is not received”. The manual closing device 9 acquires the time when the activation signal is input to the manual closing device 9 and the time when the supply of the activation signal to the manual closing device 9 stops, and based on whether or not the operation confirmation signal is received during that time. When the reception is “no”, a brake release signal (DC 24 V) is transmitted to the automatic closing device 8 using the battery as a power source. Alternatively, using a timer, if the operation confirmation signal is not received within a predetermined time after the activation signal is input to the manual closing device 9, it may be determined that the reception is “none”.

[D] Control Flow Control of the weight reduction of the shutter curtain according to the present embodiment will be described based on FIG. When the detector 5 detects heat and smoke during a fire, a start signal (DC 24 V) is output from the disaster prevention panel 6. The activation signal output from the disaster prevention panel 6 is directly transmitted to the automatic closing device 8, and when the automatic closing device 8 receives the activation signal, the motor 80 rotates in the first direction and the rack 83 moves in the brake releasing direction. Then, the brake release body 84 swings the brake release lever 40 of the opening / closing machine 4 to release the brake of the opening / closing machine 4 and the shutter curtain 1 starts its own weight drop. When the automatic closing device 8 releases the brake, an operation confirmation signal is transmitted from the automatic closing device 8 to the manual closing device 9.

The activation signal output by the disaster prevention panel 6 is also transmitted to the manual closing device 9. In one aspect, the activation signal is transmitted to the manual closure device 9 via the automatic closure device 8. When the manual closing device 9 receives the activation signal, the manual closing device 9 changes from the sleep mode to the operation mode. If the operation confirmation signal is not received from the automatic closing device 8 after the manual closing device 9 enters the operation mode, the manual closing device 9 automatically uses the battery as a power source and the operation signal (DC24V) as a brake release signal. To the closure device 8. When the automatic closing device 8 receives the activation signal and operates, the brake of the switch is released, and the shutter curtain 1 starts its own weight drop. When the manual closing device 9 receives the operation confirmation signal from the automatic closing device 8, the output of the operating signal to the automatic closing device 8 is stopped.

If no obstacle is detected by the obstacle detection means while the weight of the shutter curtain 1 is falling, the shutter curtain continues to descend until the seat plate 1a reaches the floor, and the opening is fully closed. When the obstacle detection means detects the landing, an operation signal (DC24V) as a brake return signal is transmitted from the manual closing device to the automatic closing device, and the motor 80 rotates in the second direction by the brake return signal. Thus, the rotation transmission state between the motor shaft and the drive shaft of the one-way clutch 81 is released, and the brake release body 84 and the rack 83 are pushed and moved in the brake return direction by the force of the return spring 86B. Return to position. The opening / closing machine brake release lever 40 is returned by the return spring (not shown) built in the opening / closing machine 4 to return the brake. By pushing the recovery switch, the manual closing device shifts to the sleep state.

When obstacle detection is performed by the obstacle detection means while the shutter curtain 1 is falling under its own weight, a detection signal is transmitted from the seat plate switch to the manual closing device 9 and from the manual closing device 9 that has received the detection signal. An operation signal (DC24V) as a brake return signal is transmitted to the automatic closing device 8 for a predetermined time, for example, about 0.5 seconds to 1 second. When the motor 80 rotates in the second direction by the brake return signal, the rotation transmission state between the motor shaft and the drive shaft of the one-way clutch 81 is released, and the brake release body 84 and the rack 83 are released by the force of the return spring 86B. Moves in the brake return direction and returns to the original position instantly. The return spring (not shown) built in the opening / closing machine 4 returns the opening / closing machine brake release lever 40 to return the brake, and the shutter curtain 1 that descends its own weight stops.

When the obstacle is removed, the manual closing device 9 detects that the obstacle has been removed via the seat plate switch. After detecting that the obstacle has been removed, an operating signal (DC24V) as a brake release signal is transmitted from the manual closing device 9 to the automatic closing device 8 after a predetermined time, for example, 10 seconds. The automatic closing device 8 receives the operation signal and operates (the motor 80 rotates in the first direction, the rack 83 moves in the brake release direction, and the brake release body 84 swings the brake release lever 40 of the switch 4). Then, the brake of the switch is released again, and the shutter curtain 1 resumes its own weight drop.

The shutter curtain continues to descend until the seat plate 1a is landed to fully close the opening. When the obstacle detection means detects the landing, an operation signal (DC24V) as a brake return signal is transmitted from the manual closing device to the automatic closing device, and the brake lever of the switch is returned. By pushing the recovery switch, the manual closing device shifts to the sleep state.

As described above, after the activation signal (DC24V) is once generated from the disaster prevention panel 6, the control is performed via the manual closing device 9 that has received the activation signal and switched from the sleep mode to the operation mode.

Based on FIG. 9, the control of the weight drop of the shutter curtain 1 by pressing the emergency operation switch 90 of the manual closing device 9 will be described. When the emergency operation switch 90 of the manual closing device 9 is pressed, the manual closing device 9 shifts from the sleep mode to the operating mode, and an operation signal (DC24V) as a brake release signal is supplied from the battery built in the manual closing device 9 as a power source. It is transmitted to the automatic closing device 8. When the automatic closing device 8 receives the operation signal, the motor 80 rotates in the first direction, the rack 83 moves in the brake release direction, and the brake release body 84 swings the brake release lever 40 of the switch 4. Thus, the brake of the opening / closing machine 4 is released, and the shutter curtain 1 starts its own weight drop. When the automatic closing device 8 releases the brake, an operation confirmation signal is transmitted from the automatic closing device 8 to the manual closing device 9, and the manual closing device 9 that has received the operation confirmation signal stops transmitting the operation signal.

If no obstacle is detected by the obstacle detection means while the weight of the shutter curtain 1 is falling, the shutter curtain continues to descend until the seat plate 1a reaches the floor, and the opening is fully closed. When the obstacle detection means detects the landing, an operation signal (DC24V) as a brake return signal is transmitted from the manual closing device to the automatic closing device, and the motor 80 rotates in the second direction by the brake return signal. Thus, the rotation transmission state between the motor shaft and the drive shaft of the one-way clutch 81 is released, and the brake release body 84 and the rack 83 are pushed and moved in the brake return direction by the force of the return spring 86B. Return to position. The opening / closing machine brake release lever 40 is returned by the return spring (not shown) built in the opening / closing machine 4 to return the brake. By pushing the recovery switch, the manual closing device shifts to the sleep state.

When obstacle detection is performed by the obstacle detection means while the shutter curtain 1 is falling under its own weight, a detection signal is transmitted from the seat plate switch to the manual closing device 9 and from the manual closing device 9 that has received the detection signal. An operation signal (DC24V) as a brake return signal is transmitted to the automatic closing device 8 for a predetermined time, for example, about 0.5 seconds to 1 second. When the motor 80 rotates in the second direction by the brake return signal, the rotation transmission state between the motor shaft and the drive shaft of the one-way clutch 81 is released, and the brake release body 84 and the rack 83 are released by the force of the return spring 86B. Moves in the brake return direction and returns to the original position instantly. The return spring (not shown) built in the opening / closing machine 4 returns the opening / closing machine brake release lever 40 to return the brake, and the shutter curtain 1 that descends its own weight stops.

When the obstacle is removed, the manual closing device 9 detects that the obstacle has been removed via the seat plate switch. After detecting that the obstacle has been removed, an operating signal (DC24V) as a brake release signal is transmitted from the manual closing device 9 to the automatic closing device 8 after a predetermined time, for example, 10 seconds. The automatic closing device 8 receives the operation signal and operates (the motor 80 rotates in the first direction, the rack 83 moves in the brake release direction, and the brake release body 84 swings the brake release lever 40 of the switch 4). Then, the brake of the switch is released again, and the shutter curtain 1 resumes its own weight drop.

The shutter curtain continues to descend until the seat plate 1a is landed to fully close the opening. When the obstacle detection means detects the landing, an operation signal (DC24V) as a brake return signal is transmitted from the manual closing device to the automatic closing device, and the brake lever of the switch is returned. By pushing the recovery switch, the manual closing device shifts to the sleep state.

The present invention can be used for fire-proof / smoke-proof shutters, regardless of whether it is electric or manual. Thus, it can be used for a manual fire-proof / smoke-proof shutter (manually winding up the shutter curtain) that closes a predetermined section.

DESCRIPTION OF SYMBOLS 1 Shutter curtain 1a Seat plate 1b Signal line 1c Seat plate switch 4 Switch 8 Automatic closing device 9 Manual closing device 90 Emergency operation switch 10 Code reel

Claims (9)

An automatic closing device that operates to release the brake of the switch by the input of the start signal output from the disaster prevention panel, and lowers the shutter curtain by its own weight,
A manual closing device with an emergency operation switch for manually dropping the shutter curtain by its own weight;
An obstacle detection means for outputting an obstacle detection signal when an obstacle is detected when the shutter curtain is lowered by its own weight;
With
The manual closing device is electrically connected to the automatic closing device so that signals can be transmitted and received,
The manual closing device is electrically connected to the obstacle detection means so as to be able to receive the obstacle detection signal;
The manual closing device includes a battery, and the operation signal can be transmitted to the automatic closing device by using the battery as a power source, and the shutter curtain that stops its own weight after the start signal is output from the disaster prevention panel is stopped. A re-descent control system for a self-weight drop of a fire / smoke-proof shutter, which is performed by an operation signal transmitted from the manual closing device to the automatic closing device. The manual closing device transmits a brake release signal as an operation signal to the automatic closing device by using the battery as a power source by pressing the emergency operation switch,
The automatic closing device that has received the brake release signal operates to release the brake of the switch, and lowers the shutter curtain by its own weight,
2. The fire / smoke-proof shutter according to claim 1, wherein stopping / re-lowering of the shutter curtain that descends due to the pressing operation of the emergency operation switch is performed by an operation signal transmitted from the manual closing device to the automatic closing device. Self-weight drop control system. When the manual closing device receives the obstacle signal, the manual closing device transmits a brake return signal as an operation signal to the automatic closing device,
The automatic closing device that receives the brake return signal operates to return the brake of the switch, and stops the shutter curtain that descends its own weight.
When the manual closing device is in an obstacle non-detection state, it transmits a brake release signal as an operation signal to the automatic closing device,
The fire prevention device according to claim 1, wherein the automatic closing device that receives the brake release signal as the activation signal operates to release the brake of the switch, and lowers the shutter curtain that is stopped again.・ Small proof shutter weight drop control system.   The fire prevention / according to any one of claims 1 to 3, wherein an operation confirmation signal is transmitted from the automatic closing device to the manual closing device when the automatic closing device is operated to release a brake of the switch. Self-weight drop control system for smoke-proof shutter.   5. The manual closing device transmits a brake release signal as an operation signal from the manual closing device to the automatic closing device when an operation confirmation signal is not received from the automatic closing device after the activation signal is output. The self-weight drop control system for the described fire / smoke shutter.   6. The fire prevention according to claim 4, wherein transmission of a brake release signal as an operation signal from the manual closing device to the automatic closing device is stopped when the manual closing device receives the operation confirmation signal.・ Small proof shutter weight drop control system.   The manual closing device is normally in a sleep mode, and enters the operation mode from the sleep mode by receiving the activation signal output from the disaster prevention panel or a signal based on the activation signal. The self-weight drop control system for the fire / smoke-proof shutter described in the section   The self-weight drop control system for a fire / smoke-proof shutter according to claim 7, wherein the activation signal or a signal based on the activation signal is transmitted to the manual closing device via the automatic closing device. An automatic closing device that operates to release the brake of the switch by the input of the start signal output from the disaster prevention panel, and lowers the shutter curtain by its own weight,
An obstacle detection means for outputting an obstacle detection signal when an obstacle is detected when the shutter curtain is lowered by its own weight;
The self-closing device and the obstacle detection means are electrically connected, and a dead weight control unit installed on the wall,
With
The self-weight drop control unit includes a battery, and can use the battery as a power source to transmit an operation signal to the automatic closing device.
The self-weight drop control unit is normally in a sleep mode, receives the start signal or a signal based on the start signal, enters the operation mode from the sleep mode, and performs a self-weight drop after output of the start signal from the disaster prevention panel The stop / re-descent of the curtain is a fire / smoke-proof shutter weight drop control system that is performed by an operation signal transmitted to the automatic closing device from the weight drop control unit that has shifted to the operation mode.

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