JP2020169543A - Shutter modification method - Google Patents

Abstract

To provide a shutter modification method capable of enabling electrically opening of a shutter without affecting a control unit in the event of a power outage, etc. by modifying existing management and fire prevention shutter.SOLUTION: In a shutter which includes: 1' path for supplying the electric power from a commercial power supply to the electrically-driven open/close machine; and a 2' path independent from the 1' path for supplying the electric power from the commercial power supply to the control unit, the shutter modification method includes the steps of: providing a first path in place of the 1' path for supplying the electric power from the commercial power supply to the electrically-driven open/close machine; providing a third path which is electrically connectable to the first path and electrically connectable to a temporary power supply different from the commercial power supply; and providing a power switch S that selects the commercial power supply or the temporary power supply from the third path.SELECTED DRAWING: Figure 11

Description

The present invention relates to a shutter repair method, and more particularly to a so-called management combined fire door repair method.

In a fire shutter with management, the opening is opened and closed by electrically opening and closing the shutter in normal times, while in the event of a fire, an automatic closing device is activated by a signal from the disaster prevention panel to release the brake, and the shutter curtain is its own weight. It descends to close the opening. In addition, the fire shutter can release the brake and lower its own weight by operating from the manual closing device regardless of the fire detection signal. The fire shutter with management is provided with a so-called hazard prevention device in order to prevent the evacuees from being caught in the shutter curtain during descent.

Since the shutter of the fire shutter with management is normally opened and closed electrically, when an obstacle is detected during the electric descent, the motor of the electric switch is electrically stopped by inputting the obstacle detection signal. The shutter curtain during descent is stopped, or the shutter curtain is inverted and raised for a predetermined time and then stopped. For example, two types of hazard prevention devices are known when obstacle detection is performed during self-weight descent.

The first type is a mechanical hazard prevention device that mechanically stops a shutter curtain that descends by its own weight. This is an opening / closing device that mechanically moves the operating part of the automatic closing device via a transmission member such as a wire in response to the seat plate at the lower end of the shutter curtain detecting a person or an obstacle during the descent of its own weight. The structure is such that the shutter is temporarily stopped by releasing the brake of the shutter, and when the obstacle is removed after the shutter is paused, the shutter curtain descends again by its own weight and closes the opening. The first type of hazard prevention mechanism is described, for example, in Patent Document 1.

The second type uses a control device (hazard prevention interlocking repeater). When the hazard prevention interlocking repeater receives a signal from the disaster prevention panel in the event of a fire, it sends a brake release signal to the automatic closing device (equipped with a brake release / return mechanism) to activate the automatic closing device to release the brake. While lowering the shutter curtain by its own weight, when the shutter curtain that lowers its own weight receives an obstacle detection signal generated by contacting an obstacle (for example, an evacuee), the automatic closing device (equipped with a brake release / return mechanism) brakes. It is configured to send a return signal to activate the automatic closing device to release the brake of the opening / closing machine and stop the self-weight descent of the shutter curtain. The hazard prevention interlocking repeater is equipped with a battery to output power and operate the automatic closing device even in the event of a power failure. The second type of hazard prevention mechanism is described, for example, in Patent Document 2.

Here, for example, in a fire shutter for management combined use installed in a truck berth portion in a distribution warehouse, there is a request to open and close the shutter in the event of a power failure. In the event of a power outage, it is possible to supply power using an emergency power supply device for fire fighting in the event of a fire, but the number of shutters that can be wound up on a single charge is limited, and the emergency power supply device is stationary and cannot be moved. Therefore, it is necessary to install a plurality of devices, and since the emergency power supply device itself is expensive, it is not realistic to install a plurality of emergency power supply devices.

Patent Document 3 describes that a generator is used as an emergency power source, and a commercial power source as a normal power source (first power source) and a generator as an emergency power source (second power source). A power switching device for switching between and is disclosed, but the relationship between the control device and the power source is not mentioned.
JP-A-2017-96072 Japanese Patent Application Laid-Open No. 2008-031714 JP-A-2018-178403

An object of the present invention is to modify an existing fire shutter with management, so that the shutter can be electrically opened without affecting the control device in the event of a power failure or the like.

The first technical means adopted by the present invention is
The left and right guide rails installed on the skeleton and
A shutter curtain that opens and closes the opening between the left and right guide rails,
Electric switch and
Operation unit and
Manual closure and
An automatic closing device that lowers the shutter curtain by its own weight by inputting a fire detection signal or operating from the manual closing device.
Obstacle detection means that detects obstacles when the shutter curtain descends,
A mechanical stop means that mechanically stops the shutter curtain that is descending its own weight when an obstacle is detected without using electric power.
A control device that electrically stops the shutter curtain during electric descent when an obstacle is detected,
The 1st road that supplies the power of the commercial power supply to the electric switch and
A second road independent of the first road, which supplies the power of the commercial power source to the control device,
In the shutter equipped with
Instead of the first road, a first road for supplying electric power from a commercial power source to the electric switch is provided.
Provide a third road that can be electrically connected to the first road and can be electrically connected to a temporary power supply different from the commercial power supply.
Providing a power supply switching unit for selecting the commercial power supply and the temporary power supply from the third road.
Including
When the commercial power source is selected, the electric power from the commercial power source is supplied to the electric switch and the control device, and when the temporary power source is selected, the electric power from the temporary power source is supplied only to the electric switch.
How to repair the shutter.

The second technical means adopted by the present invention is
The left and right guide rails installed on the skeleton and
A shutter curtain that opens and closes the opening between the left and right guide rails,
Electric switch and
Operation unit and
Manual closure and
An automatic closing device that lowers the shutter curtain by its own weight by inputting a fire detection signal or operating from the manual closing device.
Obstacle detection means that detects obstacles when the shutter curtain descends and generates an obstacle detection signal,
A control device that generates a brake return signal in response to the input of an obstacle detection signal to stop the shutter curtain during descent,
The 1st road that supplies the power of the commercial power supply to the electric switch and
A second road independent of the first road, which supplies the power of the commercial power source to the control device,
In the shutter equipped with
Instead of the first road, a first road for supplying electric power from a commercial power source to the electric switch is provided.
Provide a third road that can be electrically connected to the first road and can be electrically connected to a temporary power supply different from the commercial power supply.
Providing a power supply switching unit for selecting the commercial power supply and the temporary power supply from the third road.
Including
When the commercial power source is selected, the electric power from the commercial power source is supplied to the electric switch and the control device, and when the temporary power source is selected, the electric power from the temporary power source is supplied only to the electric switch.
How to repair the shutter.
In the present invention, the obstacle detecting means for detecting an obstacle when the shutter curtain descends and generating an obstacle detection signal is either a wired type (for example, a cord reel type) or a wireless type (for example, a method using infrared rays or radio waves). It may be of the type of.
In one embodiment, signals (open signal, close signal, stop signal) from the electric opening / closing operation unit are input to the control device, and the control device that receives these signals includes an electric opening / closing device (shutter control panel). ) Is transmitted to electrically drive the electric switch.
In one embodiment, a fire detection signal, a manual closing signal from the manual closing device, and an obstacle detection signal are input to the control device, and the control device that receives these signals is an automatic closing device (brake release mechanism, A predetermined signal is transmitted to (equipped with a brake return mechanism).
More specifically, in the event of a fire, the control device (harm prevention interlocking repeater) automatically closes the operation signal (brake release signal) based on the signal from the disaster prevention panel (for example, DC24V) based on the detection of the smoke detector. By outputting to, the automatic closing device (brake release mechanism) is activated to release the brake of the manual opening and closing machine, the shutter curtain is lowered by its own weight to prevent the spread of fire, and obstacles are removed while the shutter curtain is descending. When it is detected, the brake return signal is output to the automatic closing device based on the signal from the obstacle detection means, and the automatic closing device (brake return mechanism) is activated to release the brake of the manual switch. To stop the descent of the shutter curtain.
In one aspect, the control device includes a small capacity battery, and can output a signal to the automatic closing device by using the electric power of the battery even in the event of a power failure.

In one embodiment
1st connection port and
A branch portion that branches the input from the first connection port and
The second connection port located on one of the branch roads,
A third connection port located on the other fork,
4th connection port and
A power supply switching unit provided between the branch unit and the third connection port,
Prepare a power switching device equipped with
Removing the 1st road,
Connecting the commercial power supply and the first connection port of the power supply switching device,
Connecting the third path to the fourth connection port of the power switching device,
Connecting the electric switch and the third connection port of the power switching device,
Including
By connecting the first connection port and the third connection port by the power switching unit, the electric power from the commercial power supply is supplied to the electric switch, and by connecting the fourth connection port and the third connection port, the power is supplied. The electric power from the temporary power source is supplied only to the electric switch.

In one embodiment, the third path is an electric wire that connects the connection portion and the power supply switching device, and the electric wire is a lower portion of the skeleton or the guide rail via the skeleton or the guide rail. The electric wire extends to the lower portion, and the electric wire includes the connection portion that can be connected from the outside at the lower portion.

One aspect includes providing an electric opening operation unit that opens the shutter curtain using the temporary power supply.
In one embodiment, a power connection device including the connection unit and the electric opening operation unit is prepared, and the power supply connection device and the power supply switching device are electrically connected by the third path.
In one aspect, the power connection device includes a housing provided with the connection portion and the electric opening operation portion, and is provided at a lower portion of the skeleton or a lower portion of the guide rail.
The power connection device may be provided with an electric closing operation unit in addition to the electric opening operation unit to enable the shutter curtain to be electrically lowered.
In one embodiment, the manual closing device is provided at a lower portion of the skeleton, and the power connection device is provided adjacent to the manual closing device.
Further, as an embodiment that does not include "providing an electric opening operation unit for opening the shutter curtain using the temporary power supply" in the repair method, for example, when an electric opening operation unit is prepared when using the temporary power supply. More specifically, an electric opening operation unit is provided in the cord between the connection unit and the outlet (generator, etc.), and the electric opening operation unit is prepared when a temporary power supply is connected. The power connection device is provided with a connector different from the connection portion, and when a temporary power supply is used, the electric opening operation unit is connected to the connector.

In the shutter obtained by the repair, the temporary power supply is not normally connected to the power supply switching device, and when the opening is opened in the event of a power failure or the like, the temporary power supply is connected to the connection portion to obtain the power supply. When the temporary power source is selected by the switching unit, the shutter curtain is electrically raised by the opening operation from the electric opening operation unit.

In one embodiment, the temporary power source is any one of a generator, a power outlet, and a battery.
Typically, the generator as the temporary power source is a portable generator.
In one aspect, the battery as the temporary power source may be a mobile body including a battery capable of supplying electric power capable of opening and closing a shutter, for example, an electric vehicle or the like.

It will be understood by those skilled in the art that the above description of the repair process according to the present invention does not limit the order of each step, and that the repair of the shutter can be performed in various different orders.

In the present specification, the automatic closing device may include an operating portion as a means for releasing / returning the brake, and the operating portion may be provided adjacent to or integrally with the main body of the automatic closing device, or may be automatically provided. It may be provided separately from the closing device main body and connected by a transmission means such as a wire.

The present invention makes it possible to electrically open the shutter without affecting the control device in the event of a power failure or the like by modifying the existing fire shutter with management.
In particular, when a generator is used as a temporary power source, the power from the generator is more unstable than the power from the commercial power source. Therefore, when the power from the generator is supplied to the control device, the control device Although there is a risk of damaging the microcomputer, in the present invention, the power of the temporary power source is not supplied to the control device.

It is a schematic front view of the fire shutter device (before repair) with management which concerns on 1st Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between the electric switch, the control device (hazard prevention interlocking repeater) and the power source in the management combined use fire shutter device (before repair) which concerns on 1st Embodiment. It is a schematic front view of the fire shutter device (after repair) with management which concerns on 1st Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between an electric switch, a control device (hazard prevention interlocking repeater), and a power source in the management combined use fire shutter device (after repair) which concerns on 1st Embodiment. It is a schematic front view of the fire shutter device (before repair) with management which concerns on 2nd Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between the electric switch, the control device (hazard prevention interlocking repeater) and the power source in the management combined use fire shutter device (before repair) which concerns on 2nd Embodiment. It is a schematic front view of the fire shutter device (after repair) with management which concerns on 2nd Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between the electric switch, the control device (hazard prevention interlocking repeater), and the power source in the management combined use fire shutter device (after repair) which concerns on 2nd Embodiment. It is a schematic front view of the fire shutter device (before repair) with management which concerns on 3rd Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between an electric switch, a control device (hazard prevention interlocking repeater) and a power source in the management combined use fire shutter device (before repair) which concerns on 3rd Embodiment. It is a schematic front view of the fire shutter device (after repair) with management which concerns on 3rd Embodiment. In the figure, the solid line connecting the elements is an electric wire. It is a block diagram which shows the relationship between an electric switch, a control device (hazard prevention interlocking repeater), and a power source in the management combined use fire shutter device (after repair) which concerns on 3rd Embodiment. It is a schematic front view of the fire shutter device (before repair) with management which concerns on 4th Embodiment. In the figure, the solid wire connecting the elements is an electric wire, and the alternate long and short dash line is a wire. It is a schematic front view of the fire shutter device (after repair) with management which concerns on 4th Embodiment. In the figure, the solid wire connecting the elements is an electric wire, and the alternate long and short dash line is a wire. It is a figure which shows the power-source switching device (the first form). It is a figure which shows the power-source switching device (second form). It is a schematic front view of the fire shutter device (first embodiment) combined with management, and shows the state in which the power supply switching device is in the first form, and the commercial power source is selected. It is a schematic front view of the fire shutter device (first embodiment) combined with management, and shows the state in which the power switching device is in the second form, and the temporary power source is selected. It is a schematic plan view of the warehouse where a plurality of shutter devices are installed.

[A] Repair of fire shutter with management (first embodiment)
[A-1] Fire shutter with management (before repair)
The existing fire shutter with a hazard prevention device will be described with reference to FIG. In the figure, the solid line connecting the elements is an electric wire. As shown in FIG. 1, the shutter device includes a shutter curtain 1 that opens and closes an opening formed between the left and right guide rails 2, and a take-up shaft that is provided above the opening and around which the shutter curtain 1 is wound. (Not shown), an electric switch M provided above the opening and closer to one side in the opening width direction and transmitted and connected to the take-up shaft, an electric switch, an electric switch, and a manual closing device (not shown). An operation box 3 equipped with an emergency operation switch 31), a control device (harm prevention interlocking repeater) 4, an automatic closing device 6, a smoke detector 6a, a disaster prevention panel 6b, an electric switch M, and a control device 4. It is equipped with a commercial power supply that supplies power to the curtain.

The shutter curtain 1 is configured by vertically connecting a plurality of long slats extending in the opening width direction, and a seat plate 1A is provided at the lower end. The seat plate 1A has a long upper seat plate (not shown) extending in the width direction of the opening and a long upper seat plate suspended on the lower side of the upper seat plate so as to be vertically movable relative to the upper seat plate. It is composed of a lower seat plate (not shown), and the seat plate 1A includes a seat plate switch which is one component of an obstacle detecting means. The seat plate 1A provided at the lowermost end of the shutter curtain 1 has a seat plate switch, and when an obstacle exists below the shutter curtain 1 that is descending, the seat plate switch detects the obstacle and causes an obstacle. The object detection signal is output to the control device (harm prevention interlocking repeater) 4 by the signal line 1B. The signal line 1B connected to the seat plate switch is wound in a cord reel C located at the upper end of the opening while holding an urging force in the winding direction.

The fire shutter combined with management is normally electrically driven by the electric switch M. Specifically, when the open switch is pressed from the electric open / close operation unit 3A of the operation box 3, an open signal is transmitted to the shutter control panel 5 via the control device 4, and the electric open / close machine M is driven to drive the shutter curtain. When 1 is raised and the close switch is pressed from the electric open / close operation unit 3A, a close signal is transmitted to the shutter control panel 5 via the control device 4, and the electric switch M is driven to lower the shutter curtain 1. When the stop switch is pressed from the electric opening / closing operation unit 3A, a stop signal is transmitted to the shutter control panel 5 via the control device 4, the electric opening / closing machine M is stopped, and the moving shutter curtain 1 is stopped.

In the fire prevention shutter combined with management, when a fire occurs with the opening fully open, the fire is detected by the smoke detector 6a, and the shutter curtain 1 is activated by the operation of the automatic closing device 6 based on the fire detection signal from the disaster prevention panel 6b. Both ends in the width direction are guided by the groove of the guide rail 2 and descend by their own weight, and the seat plate 1A at the lowermost end of the shutter curtain 1 lands on the floor to completely close the opening.

The automatic closing device 6 according to the present embodiment is provided adjacent to the electric switch M, and is input by a fire detection signal from the disaster prevention panel 6b or a manual closing signal from the emergency operation switch 31 (manual closing device). The shutter curtain 1 is lowered by its own weight. In the present embodiment, the fire detection signal and the manual closure signal are input to the control device (harm prevention interlocking repeater) 4, and the control device (harm prevention interlocking repeater) 4 responds to the input of the fire detection signal or the manual closure signal. A brake release signal is output from the automatic closing device 6 to release the brake of the electric opening / closing device M by the operation of the automatic closing device (brake release mechanism) 6, and the shutter curtain 1 is lowered by its own weight.

As shown in FIG. 1, the disaster prevention panel 6b, the automatic closing device 6, and the wired obstacle detection means are electrically connected to, for example, a control device (harm prevention interlocking repeater) 4 arranged behind the ceiling via a cable. Is connected. When the control device (harm prevention interlocking repeater) 4 receives a signal from the disaster prevention panel 6b based on the detection of the smoke detector 6a in the event of a fire, the control device (harm prevention interlocking repeater) 4 transmits a brake release signal to the automatic closing device 6 to automatically close the device (brake release). Mechanism) 6 is operated to release the brake of the electric opening / closing device M to lower the shutter curtain 1 by its own weight. On the other hand, when the control device (harm prevention interlocking repeater) 4 receives the obstacle detection signal generated by the shutter curtain 1 descending by its own weight in contact with an obstacle (for example, an evacuee), the control device (harm prevention interlocking repeater) 4 uses a wired obstacle detection. , A brake return signal is transmitted to the automatic closing device 6 to operate the automatic closing device (brake return mechanism) 6 to release the brake of the electric opening / closing device M to stop the self-weight descent of the shutter curtain 1.

The operation of the automatic closing device 6 will be described. When the control device (harm prevention interlocking repeater) 4 receives the fire signal from the disaster prevention panel 6b, the automatic closing device (brake release mechanism) 6 is activated by the energization from the control device 4, and the brake unit of the electric switch M Is released and the shutter curtain 1 is lowered by its own weight to form a fire prevention section. When an obstacle comes into contact with the seat plate 1A at the lower end of the shutter curtain 1 that descends by its own weight, an obstacle detection signal is transmitted from the seat plate switch to the control device 4, and a command from the control device 4 that receives the obstacle detection signal. Then, the brake of the electric switch M is released.

When the detection signal is transmitted from the seat plate switch to the control device (harm prevention interlocking repeater) 4, the control device 4 that has received the detection signal sends the detection signal to the automatic closing device 6 for a predetermined time, for example, about 0.5 to 1 second. , DC24V is energized (brake return signal), the brake return mechanism is activated, and the brake of the electric switch M is released. When the obstacle is removed, the control device 4 detects that the obstacle has been removed via the seat plate switch. After detecting that the obstacle has been removed, a start signal (DC24) is energized from the control device 4 to the automatic closing device 6 after a predetermined time, for example, 10 to 20 seconds, and the brake of the electric switch M is released. Then, the shutter curtain 1 resumes its own weight descent.

When the control device (harm prevention interlocking repeater) 4 receives an obstacle detection signal generated when the electrically descending shutter curtain 1 comes into contact with an obstacle (for example, an evacuee), the shutter is shuttered by a wired obstacle detection. A signal is transmitted to the control panel 5 to stop the drive of the electric switch M to stop the electric descent of the shutter curtain 1.

The obstacle detecting means according to the present embodiment is a wired type, and the signal line 1B connected to the seat plate switch exerts an urging force in the winding direction in the cord reel C installed at the upper end of the opening. It is held and wound, and the signal line 1B is wound or unwound on the cord reel C as the shutter curtain 1 is driven up and down. As a specific configuration of the seat plate switch, the seat plate is composed of an upper seat plate and a lower seat plate, and is provided between the upper seat plate and the lower seat plate by moving the lower seat plate upward with respect to the upper seat plate. A switch is input, a tape switch is provided on the lower surface of the seat plate, and the seat plate is composed of an upper seat plate and a lower seat plate, and the lower seat plate moves upward with respect to the upper seat plate. An example is one in which a tape switch in the guide rail is input by a link mechanism provided at the end of the guide rail. Further, the obstacle detection may be performed by a wireless method (infrared ray or radio wave).

The operation box 3 is provided on the wall surface near the shutter device at a height that makes it easy to operate. The operation box 3 is provided with a lid, and the front portion 30 exposed by opening the lid has an electric opening / closing operation unit and an emergency operation switch 31 constituting a manual closing device (pushing operation is possible without opening the lid). Is provided. The manual closing device according to the present embodiment is an electric manual closing device. For example, by pressing the emergency operation switch 31, a non-voltage contact signal is generated, and a brake release signal is output from the control device 4. The emergency operation switch 31 is used, for example, when it is desired to immediately lower the shutter curtain 1 by its own weight prior to the control operation by the fire signal input. A recovery button (not shown) is provided on the front surface 30 of the operation box 3, and the control device 4 recovers from the fire mode to the normal mode by pressing the recovery button.

In the control system for the fire shutter with management according to the present embodiment, control is performed via the control device (harm prevention interlocking repeater) 4. The control device (harm prevention interlocking repeater) 4 has a built-in small-capacity battery (not shown) in order to ensure control operation during a power outage, in addition to the normal commercial power supply. Even in an emergency situation where the commercial power supply is cut off, the battery outputs a signal based on the fire detection signal to operate the automatic closing device 6 so that the shutter curtain 1 can be lowered by its own weight. It has become.

In the existing management combined fire shutter that is the target of the repair of the shutter according to the first embodiment, the electric power from the commercial power source is supplied to the shutter control panel 5 of the electric switch M through the 1st road A1. The electric power supplied to the shutter control panel 5 is further supplied to the control device 4 through the second road A2 (see FIGS. 1 and 2).

[A-2] Repair of Fire Doors Combined with Management The repair of the shutter according to the first embodiment includes the first road A1 for supplying the electric power of the commercial power source to the electric switch M and the commercial supply to the electric switch M. This is performed on the existing management combined fire shutter provided with the second'road A2 that supplies the power of the power source to the control device 4.

The method for repairing the shutter according to the present embodiment is a first method of supplying electric power to the electric switch M through a power supply path (electric wire EW3) from a commercial power source instead of the 1st road A1 and the 2nd road A2. Branching into a road and a second road that supplies power to the control device 4; a third road that is electrically connectable to the first road and can be electrically connected to a temporary power source different from the commercial power source. (Electric power EW1) is provided; a power switching unit S for selecting a commercial power source from the power supply path (electric wire EW3) and a temporary power source from the third line (electric wire EW1) is provided; When selected, the power from the commercial power source is supplied to the electric switch M and the control device 4, and when the temporary power source is selected, the power from the temporary power source is supplied only to the electric switch M.

As shown in FIGS. 15 and 16, the power supply switching device 8 has a first connection port P1, a branch portion B that branches the input from the first connection port P1 into the first path and the second path, and the second path. The second connection port P2 located in, the third connection port P3 located in the first road, the fourth connection port P4, and the power switching unit S provided between the branch portion B and the third connection port P3. , Is equipped.

In the repair method using such a power switching device 8, the first road A1 (one end is connected to the circuit breaker Br on the commercial power supply side, and the other end is connected to the shutter control panel 5 of the electric switch M). 2'Road A2 (one end is connected to the shutter control panel 5 of the electric switch M and the other end is connected to the control device 4); the circuit breaker on the commercial power supply side Connecting Br and the first connection port P1 of the power switching device 8 with the electric wire EW3; connecting the electric wire EW1 (third road) and the fourth connection port P4 of the power switching device 8; electric switch M and power switching. The third connection port P3 of the device 8 is connected by the electric wire EW1 ″; the control device 4 and the second connection port P2 of the power switching device 8 are connected by the electric wire EW4; By connecting the first connection port P1 and the third connection port P3, the power from the commercial power source is supplied to the electric switch M through the electric wire EW3, the power switching device 8 and the electric wire EW1 ″, and the fourth connection port By connecting P4 and the third connection port P3, power from the temporary power source can be supplied only to the electric switch M through the electric wire EW1, the power supply switching device 8, and the electric wire EW1 ″.

The electric wire EW1 (third road) is an electric wire that connects the connection portion to which the temporary power supply is connected and the power switching device 8, and the electric wire EW1 is a lower part of the skeleton or the guide rail 2 via the skeleton or the guide rail 2. The electric wire EW1 is provided with a connecting portion (connector C1) to which a temporary power source (generator G) can be connected from the outside in the lower portion.

In the present embodiment, a power supply connection device 9 having a connection unit (connector C1) and an electric open operation unit (open switch 9A) is prepared, and the power supply connection device 9 and the power supply switching device 8 are electrically connected by the electric wire EW1. Connecting. The power connection device 9 includes a housing provided with the connector C1 and the open switch 9A, and is provided at a lower portion of the skeleton or a lower portion of the guide rail 2. The power connection device 9 is typically an operation box provided with a lid, and when the lid is opened, the front portion 90 provided with the connector C1 and the open switch 9A is exposed. The connector C1 and the open switch 9A are provided so as to be vertically adjacent to each other, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

In the existing shutter, an operation box 3 for providing a manual closing device (emergency operation switch 31) and an electric opening / closing operation unit 3A is provided in a lower portion of the skeleton, and the power connection device 9 is adjacent to the operation box 3. Is provided. In the power supply connection device 9, the connection portion (connector C1) and the electric release operation unit (open switch 9A) may be provided in separate housings, and the connection portion (connector C1) and the electric release operation unit may be provided. The portion (open switch 9A) does not necessarily have to be provided in the vicinity.

In the above description, the electric wire EW3 and the electric wire EW1 ″ provided by the modification of the shutter of the present embodiment are the power line for supplying the electric power from the commercial power source to the electric switch M, and the electric wire EW3 and the electric wire EW4 are from the commercial power source. It is a power line for supplying electric power to the control device 4, and the electric wires EW1 and EW1 ″ are power lines for supplying electric power from a temporary power source to the electric switch M.

The repair of the shutter according to the present embodiment further includes providing a signal line. Specifically, the power connection device 9 and the shutter control panel 5 of the electric switch M are connected by the electric wire EW1'which is a signal line, and the signal from the open switch 9A of the power supply connection device 9 is connected by the electric wire EW1'. Is transmitted to the shutter control panel 5. In the present embodiment, the switch S2 is provided in the middle of the electric wire EW1'(the switch S2 will be described later with reference to FIGS. 17 and 18).

In the existing shutter, the signal from the electric opening / closing operation unit 3A is transmitted to the control device 4 through the signal line (shown as the electric wire EW4'in FIG. 3), and further, the shutter control is performed from the control device 4 through the signal line. It is transmitted to the board 5. In the present embodiment, the switch S1 is provided on the signal line connecting the control device 4 and the shutter control panel 5, the signal line after the repair is shown as the electric wire EW4 ″ in FIG. 3, and the switch S1 is shown on the electric wire EW4 ″. (The switch S1 will be described later with reference to FIGS. 17 and 18). In the present embodiment, the switch S1 and the switch S2 are provided in the power supply switching device 8, and therefore, the electric wires EW1 ″ and the electric wire EW4 ″ pass through the power supply switching device 8.

In one embodiment, for example, the electric wire EW1 extends through the side wall of the guide rail 2 to the operation box of the power connection device 9 embedded in the lower portion of the wall, and is the second end of the electric wire EW1. A power connection device 9 is electrically connected to the device. Similarly, the electric wire EW1', which is a signal line, extends through the inside of the wall. The operation box of the power connection device 9 is provided with a lid (not shown), and the open switch 9A and the connector C1 provided on the front surface 90 and the front surface 90 are exposed by opening the lid.

In the above example, the electric wires EW1 for supplying electric power to the electric switch M and the electric wires EW1'for supplying signals are provided so as to pass through the inside of the wall, but the electric wires EW1 and EW1'are provided along the outer surface of the wall body. You may. Further, the electric wires EW1 and EW1'may be guided to the lower part of the opening via the guide rail 2. More specifically, the electric wire extends through the inside of the guide rail 2 or along the outer surface of the guide rail 2 to the lower portion of the guide rail 2, and at the lower portion, the connector C1 is attached to the end of the electric wire EW1. A power connection device 9 is electrically provided. The connector C1 may be provided so as to be exposed on the outer surface of the guide rail 2, or may be provided so as to be exposed to the outside on the front surface of the power connection device when the guide rail 2 is provided with the power connection device. .. Alternatively, the electric wire EW1 passes through the inside of the wall or the guide rail 2, or along the outer surface of the wall or the outer surface of the guide rail 2, and the lower part of the guide rail 2 or the lower part of the wall (floor surface or inside the floor). A connector C1 is provided as a connection part that can be connected from the outside on the wall body, on the floor surface, or in the floor surface independent of the operation box and the guide rail 2 of the power connection device. You may.

[A-3] Fire shutter with management (after repair)
The fireproof shutter for management combined use after the repair includes the left and right guide rails 2 installed on the frame, the shutter curtain 1 that opens and closes the opening between the left and right guide rails, the electric switch M, the electric switch operation unit 3A, and the electric. An opening operation unit (open switch 9A), a manual closing device (emergency operation switch 31), an automatic closing device 6 that lowers the shutter curtain 1 by its own weight by inputting a fire detection signal or an operation from the manual closing device, and a shutter curtain lowering. Obstacle detection means (seat plate 1A, signal line 1B, cord reel C, control device 4) that sometimes detects obstacles and generates an obstacle detection signal, and a brake return signal in response to the input of the obstacle detection signal. It is equipped with a control device 4 that generates and stops the shutter curtain that is descending, and a power switching unit S that switches between a commercial power supply and a temporary power supply. When a commercial power supply is selected, the power from the commercial power supply is supplied to the electric switch M. And when the temporary power supply is selected, the power from the temporary power supply is supplied only to the electric switch M, and the power from the temporary power supply is not supplied to the control device 4. ..

In the fire shutter for management combined use after renovation, the electric switch M and the control device 4 are normally supplied with electric power from a commercial power source, but in the event of a power failure, the shutter can be electrically opened by using a temporary power source. It has become. As shown in FIG. 3, the skeleton has an electric opening / closing operation unit (opening switch 9A) and a temporary power supply adjacent to the operation box 3 that provides the electric opening / closing operation unit 3A and the manual closing device (emergency operation switch 31). A power connection device 9 including an operation box as a housing provided with a connector C1 as a connection portion that can be connected to the generator G is provided. In the present embodiment, the electric open operation unit (open switch 9A) and the connection unit (connector C1) are provided adjacent to each other on the upper and lower sides, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

A generator G as a temporary power source can be connected to the connector C1. More specifically, the connection portion (connector C2) at the tip of the electric wire EW2 can be connected to the connector C1 from the outside, and the generator G as a temporary power source can be connected to the base end of the electric wire EW2. Pre-connected.

A commercial power source is connected to the electric switch M and the control device 4 via a circuit breaker Br, and normally, the electric switch M and the control device 4 are operated by the electric power supplied from the commercial power source. The management combined fire shutter according to the present embodiment is provided with a power switching device 8, and normally selects a commercial power source as the power source of the electric switch M, and uses a temporary power source as the power source of the electric switch M in the event of a power failure or the like. It is configured to select.

As shown in FIGS. 15 and 17, a commercial power source is normally selected as the power source of the electric switch M by the power supply switching device 8, and the input from the commercial power source is branched into the first path and the second path. Electric power is supplied to the electric switch M through the first path, and electric power is supplied to the control device (harm prevention interlocking repeater) 4 through the second path. More specifically, when the power switching unit S (see FIGS. 15 and 16) for switching between the commercial power supply and the temporary power supply is provided on the first road and the commercial power supply is selected as the power supply for the first road, it is commercial. The electric power from the power source is supplied to the electric switch M, the electric power of the commercial power source is supplied to the control device (harm prevention interlocking repeater) 4 through the second path, and the temporary power source is selected as the power source of the first path. At this time, the electric power from the temporary power source is supplied only to the electric switch M through the third path, and is not supplied to the control device (harm prevention interlocking repeater) 4. The configuration of the power switching device 8 will be described later.

When using a temporary power supply, the power supply line electrically connects the electric wire EW1 that electrically connects the power supply connection device 9 and the power supply switching device 8, and the power switching device 8 and the shutter control panel 5 of the electric switch M. It consists of electric wire EW1 ″. The signal line when the temporary power supply is used consists of the electric wire EW1'that electrically connects the power supply connection device 9 and the shutter control panel 5 of the electric switch M.

[B] Repair of fire shutter with management (second embodiment)
[B-1] Fire shutter with management (before repair)
The configuration of the management combined fire shutter according to the second embodiment is the same as the configuration of the management combined fire shutter according to the first embodiment except for the method of supplying power, and the description of [A-1] shall be incorporated. Can be done.

In the existing management combined fire shutter that is the target of the repair of the shutter according to the second embodiment, the electric power from the commercial power source is supplied to the control device 4 through the second road A2 and is supplied to the control device 4. The electric power is further supplied to the shutter control panel 5 of the electric switch M through the 1st road A1 (see FIGS. 5 and 6).

[B-2] Repair of the fire door with management combined The repair of the shutter according to the second embodiment is that the existing fire door with management combined has the second road A2 for supplying the power of the commercial power supply to the control device 4 and the control device. This is executed for the existing management combined fire shutter provided with the first'road A1 that supplies the power of the commercial power supplied to the electric switch M to the electric switch M.

The method for repairing the shutter according to the present embodiment is to provide a first path (electric wire EW5) for supplying power from a commercial power source to the electric switch M via the control device 4 instead of the first path A1; , Provide a third road (electric wire EW1) that can be electrically connected to the first road (electric wire EW5) and can be electrically connected to a temporary power source different from the commercial power supply; from the first road (electric wire EW5). A power switching unit S for selecting between the commercial power supply of the above and the temporary power supply from the third road (electric wire EW1) is provided; when the commercial power supply is selected, the power supplied from the commercial power supply via the control device 4 is supplied. It is supplied to the electric switch M, and when the temporary power source is selected, the power from the temporary power source is supplied only to the electric switch M.

As shown in FIGS. 15 and 16, the power switching device 8 includes a first connection port P1, a branch portion B for branching an input from the first connection port P1, and a second connection port located in one of the branch paths. It includes P2, a third connection port P3 located in the other branch path, a fourth connection port P4, and a power supply switching unit S provided between the branch portion B and the third connection port P3.

In the repair method using such a power switching device 8, the first'road A1 (one end is connected to the control device 4 and the other end is connected to the shutter control panel 5 of the electric switch M). Removing; connecting the control device 4 and the first connection port P1 of the power switching device 8 with the electric wire EW5 (in this embodiment, the circuit breaker Br is provided in the middle of the electric wire EW5); the electric wire EW1 (third). (Road) and the fourth connection port P4 of the power switching device 8; connecting the electric switch M and the third connection port P3 of the power switching device 8 with the electric wire EW1 ″; By connecting the first connection port P1 and the third connection port P3, the electric power from the commercial power source passes through the electric wire EW5, the power supply switching device 8, and the electric wire EW1 ″ via the control device 4, and the electric switch M. By connecting the 4th connection port P4 and the 3rd connection port P3, the power from the temporary power supply is supplied only to the electric switch M through the electric wire EW1, the power switching device 8, and the electric wire EW1 ″. .. Since the power switching device 8 is prepared as a device common to different embodiments, no electric wire is connected to the second connection port P2 in the present embodiment. The electric wire EW5 may be connected to the second connection port P2 instead of the first connection port P1. Although FIGS. 15 to 18 are shown in an embodiment applied to the first embodiment, those skilled in the art will understand that these figures can be referred to as a description of the power supply switching device 8.

The electric wire EW1 (third road) is an electric wire that connects the connection portion to which the temporary power supply is connected and the power switching device 8, and the electric wire EW1 is a lower part of the skeleton or the guide rail 2 via the skeleton or the guide rail 2. The electric wire EW1 is provided with a connecting portion (connector C1) to which a temporary power source (generator G) can be connected from the outside in the lower portion.

In the present embodiment, a power supply connection device 9 having a connection unit (connector C1) and an electric open operation unit (open switch 9A) is prepared, and the power supply connection device 9 and the power supply switching device 8 are electrically connected by the electric wire EW1. Connecting. The power connection device 9 includes a housing provided with the connector C1 and the open switch 9A, and is provided at a lower portion of the skeleton or a lower portion of the guide rail 2. The power connection device 9 is typically an operation box provided with a lid, and when the lid is opened, the front portion 90 provided with the connector C1 and the open switch 9A is exposed. The connector C1 and the open switch 9A are provided so as to be vertically adjacent to each other, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

In the existing shutter, an operation box 3 for providing a manual closing device (emergency operation switch 31) and an electric opening / closing operation unit 3A is provided in a lower portion of the skeleton, and the power connection device 9 is adjacent to the operation box 3. Is provided. In the power supply connection device 9, the connection portion (connector C1) and the electric release operation unit (open switch 9A) may be provided in separate housings, and the connection portion (connector C1) and the electric release operation unit may be provided. The portion (open switch 9A) does not necessarily have to be provided in the vicinity.

In the above description, the electric wires EW5 and EW1 ″ provided by the modification of the shutter of the present embodiment are power lines that supply electric power from a commercial power source to the electric switch M, and the electric wires EW1 and EW1 ″ are from a temporary power source. This is a power supply line that supplies the electric power of the above to the electric switch M.

The repair of the shutter according to the present embodiment further includes providing a signal line. Specifically, the power connection device 9 and the shutter control panel 5 of the electric switch M are connected by the electric wire EW1'which is a signal line, and the signal from the open switch 9A of the power supply connection device 9 is connected by the electric wire EW1'. Is transmitted to the shutter control panel 5. In the present embodiment, the switch S2 is provided in the middle of the electric wire EW1'(the switch S2 will be described later with reference to FIGS. 17 and 18).

In the existing shutter, the signal from the electric opening / closing operation unit 3A is transmitted to the control device 4 through the signal line (shown as the electric wire EW4'in FIG. 7), and further, the shutter control is performed from the control device 4 through the signal line. It is transmitted to the board 5. In the present embodiment, the switch S1 is provided on the signal line connecting the control device 4 and the shutter control panel 5, the signal line after the repair is shown as the electric wire EW4 ″ in FIG. 7, and the switch S1 is shown on the electric wire EW4 ″. (The switch S1 will be described later with reference to FIGS. 17 and 18). In the present embodiment, the switch S1 and the switch S2 are provided in the power supply switching device 8, and therefore, the electric wires EW1 ″ and the electric wire EW4 ″ pass through the power supply switching device 8.

In one embodiment, for example, the electric wire EW1 extends through the side wall of the guide rail 2 to the operation box of the power connection device 9 embedded in the lower portion of the wall, and is the second end of the electric wire EW1. A power connection device 9 is electrically connected to the device. Similarly, the electric wire EW1', which is a signal line, extends through the inside of the wall. The operation box of the power connection device 9 is provided with a lid (not shown), and the open switch 9A and the connector C1 provided on the front surface 90 and the front surface 90 are exposed by opening the lid.

In the above example, the electric wires EW1 for supplying electric power to the electric switch M and the electric wires EW1'for supplying signals are provided so as to pass through the inside of the wall, but the electric wires EW1 and EW1'are provided along the outer surface of the wall body. You may. Further, the electric wires EW1 and EW1'may be guided to the lower part of the opening via the guide rail 2. More specifically, the electric wire extends through the inside of the guide rail 2 or along the outer surface of the guide rail 2 to the lower portion of the guide rail 2, and at the lower portion, the connector C1 is attached to the end of the electric wire EW1. A power connection device 9 is electrically provided. The connector C1 may be provided so as to be exposed on the outer surface of the guide rail 2, or may be provided so as to be exposed to the outside on the front surface of the power connection device when the guide rail 2 is provided with the power connection device. .. Alternatively, the electric wire EW1 passes through the inside of the wall or the guide rail 2, or along the outer surface of the wall or the outer surface of the guide rail 2, and the lower part of the guide rail 2 or the lower part of the wall (floor surface or inside the floor). A connector C1 is provided as a connection part that can be connected from the outside on the wall body, on the floor surface, or in the floor surface independent of the operation box and the guide rail 2 of the power connection device. You may.

[B-3] Fire shutter with management (after repair)
The configuration of the fire shutter with management after the repair according to the second embodiment is a method of supplying power (specifically, when power is supplied from a commercial power source, the electric switch M via the control device 4). The configuration is the same as that of the fire shutter for management combined use after the repair according to the first embodiment, except for the point of being supplied to the above, and the description of [A-3] can be incorporated.

[C] Repair of fire shutter with management (third embodiment)
[C-1] Fire shutter with management (before repair)
The configuration of the management combined fire shutter according to the third embodiment is the same as the configuration of the management combined fire shutter according to the first embodiment except for the method of supplying power, and the description of [A-1] shall be incorporated. Can be done.

In the existing management combined fire shutter which is the target of the repair of the shutter according to the third embodiment, the electric power from the commercial power source is supplied to the control device 4 through the second road A2, and the electric power from the commercial power source is supplied. , It is supplied to the shutter control panel 5 of the electric switch M through the 1st road A1 (see FIGS. 9 and 10). In the existing management combined fire shutter which is the target of the repair of the shutter according to the third embodiment, the first road A1 and the second road A2 are independent.

[C-2] Repair of fire doors combined with management In the repair of the shutter according to the second embodiment, the power of the commercial power supply is supplied to the control device 4 and the first road A1 that supplies the power of the commercial power supply to the electric switch M. It is executed for the existing management combined fire shutter provided with the first road 1A1 and the independent second road A2 to be supplied.

The method of repairing the shutter according to the present embodiment is to the first road A1 (one end is connected to the circuit breaker Br on the commercial power supply side, and the other end is connected to the shutter control panel 5 of the electric switch M). Instead, provide a first path (electric wire EW3, power supply switching device 8, electric wire EW1 ″) that supplies power from a commercial power source to the electric switch M; electrically with the first path (power switching device 8). Provide a third path (electric wire EW1) that can be connected and can be electrically connected to a temporary power source different from the commercial power source; a commercial power source from the electric wire EW3 and a temporary power source from the third path (electric wire EW1). A power switching unit S for selecting, is provided; the power from the commercial power supply is supplied to the electric switch M when the commercial power supply is selected, and the power from the temporary power supply is supplied only to the electric switch M when the temporary power supply is selected. To do.

As shown in FIGS. 15 and 16, the power switching device 8 includes a first connection port P1, a branch portion B for branching an input from the first connection port P1, and a second connection port located in one of the branch paths. It includes P2, a third connection port P3 located in the other branch path, a fourth connection port P4, and a power supply switching unit S provided between the branch portion B and the third connection port P3.

In the repair method using such a power switching device 8, the first'road A1 (one end is connected to the circuit breaker Br on the commercial power supply side, and the other end is connected to the shutter control panel 5 of the electric switch M. Remove); connect the commercial power supply and the first connection port P1 of the power switching device 8 with the electric wire EW3; connect the electric wire EW1 (third path) and the fourth connection port P4 of the power switching device 8; By connecting the electric switch M and the third connection port P3 of the power switching device 8 with the electric wire EW1 ″; by connecting the first connection port P1 and the third connection port P3 by the power switching unit S. Power from the commercial power source is supplied to the electric switch M through the electric wire EW3, the power switching device 8, and the electric wire EW1 ″, and by connecting the fourth connection port P4 and the third connection port P3, the power is supplied from the temporary power source. Electric power is supplied only to the electric switch M through the electric wire EW1, the power switching device 8, and the electric wire EW1 ″. Since the power switching device 8 is prepared as a device common to different embodiments, no electric wire is connected to the second connection port P2 in the present embodiment. The electric wire EW5 may be connected to the second connection port P2 instead of the first connection port P1. Although FIGS. 15 to 18 are shown in an embodiment applied to the first embodiment, those skilled in the art will understand that these figures can be referred to as a description of the power supply switching device 8.

The electric wire EW1 (third road) is an electric wire that connects the connection portion to which the temporary power supply is connected and the power switching device 8, and the electric wire EW1 is a lower part of the skeleton or the guide rail 2 via the skeleton or the guide rail 2. The electric wire EW1 is provided with a connecting portion (connector C1) to which a temporary power source (generator G) can be connected from the outside in the lower portion.

In the present embodiment, a power supply connection device 9 having a connection unit (connector C1) and an electric open operation unit (open switch 9A) is prepared, and the power supply connection device 9 and the power supply switching device 8 are electrically connected by the electric wire EW1. Connecting. The power connection device 9 includes a housing provided with the connector C1 and the open switch 9A, and is provided at a lower portion of the skeleton or a lower portion of the guide rail 2. The power connection device 9 is typically an operation box provided with a lid, and when the lid is opened, the front portion 90 provided with the connector C1 and the open switch 9A is exposed. The connector C1 and the open switch 9A are provided so as to be vertically adjacent to each other, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

In the existing shutter, an operation box 3 for providing a manual closing device (emergency operation switch 31) and an electric opening / closing operation unit 3A is provided in a lower portion of the skeleton, and the power connection device 9 is adjacent to the operation box 3. Is provided. In the power supply connection device, the connection portion (connector C1) and the electric release operation unit (open switch 9A) may be provided in separate housings, and the connection portion (connector C1) and the electric release operation unit may be provided. (Open switch 9A) does not necessarily have to be provided in the vicinity.

In the above description, the electric wires EW3 and EW1 ″ provided by the modification of the shutter of the present embodiment are power lines that supply electric power from the commercial power source to the electric switch M, and the electric wires EW1 and EW1 ″ are from the temporary power source. This is a power supply line that supplies the electric power of the above to the electric switch M.

The repair of the shutter according to the present embodiment further includes providing a signal line. Specifically, the power connection device 9 and the shutter control panel 5 of the electric switch M are connected by the electric wire EW1'which is a signal line, and the signal from the open switch 9A of the power supply connection device 9 is connected by the electric wire EW1'. Is transmitted to the shutter control panel 5. In the present embodiment, the switch S2 is provided in the middle of the electric wire EW1'(the switch S2 will be described later with reference to FIGS. 17 and 18).

In the existing shutter, the signal from the electric opening operation unit 3A is transmitted to the control device 4 through the signal line (shown as the electric wire EW4'in FIG. 11), and further, the shutter control is performed from the control device 4 through the signal line. It is transmitted to the board 5. In the present embodiment, the switch S1 is provided on the signal line connecting the control device 4 and the shutter control panel 5, the signal line after the repair is shown as the electric wire EW4 ″ in FIG. 11, and the switch S1 is shown on the electric wire EW4 ″. (The switch S1 will be described later with reference to FIGS. 17 and 18). In the present embodiment, the switch S1 and the switch S2 are provided in the power supply switching device 8, and therefore, the electric wires EW1 ″ and the electric wire EW4 ″ pass through the power supply switching device 8.

In one embodiment, for example, the electric wire EW1 extends through the side wall of the guide rail 2 to the operation box of the power connection device 9 embedded in the lower portion of the wall, and is the second end of the electric wire EW1. A power connection device 9 is electrically connected to the device. Similarly, the electric wire EW1', which is a signal line, extends through the inside of the wall. The operation box of the power connection device 9 is provided with a lid (not shown), and the open switch 9A and the connector C1 provided on the front surface 90 and the front surface 90 are exposed by opening the lid.

In the above example, the electric wires EW1 for supplying electric power to the electric switch M and the electric wires EW1'for supplying signals are provided so as to pass through the inside of the wall, but the electric wires EW1 and EW1'are provided along the outer surface of the wall body. You may. Further, the electric wires EW1 and EW1'may be guided to the lower part of the opening via the guide rail 2. More specifically, the electric wire extends through the inside of the guide rail 2 or along the outer surface of the guide rail 2 to the lower portion of the guide rail 2, and at the lower portion, the connector C1 is attached to the end of the electric wire EW1. A power connection device 9 is electrically provided. The connector C1 may be provided so as to be exposed on the outer surface of the guide rail 2, or may be provided so as to be exposed to the outside on the front surface of the power connection device when the guide rail 2 is provided with the power connection device. .. Alternatively, the electric wire EW1 passes through the inside of the wall or the guide rail 2, or along the outer surface of the wall or the outer surface of the guide rail 2, and the lower part of the guide rail 2 or the lower part of the wall (floor surface or inside the floor). A connector C1 is provided as a connection part that can be connected from the outside on the wall body, on the floor surface, or in the floor surface independent of the operation box and the guide rail 2 of the power connection device. You may.

[C-3] Fire shutter with management (after repair)
The configuration of the fire shutter for management combined use according to the third embodiment is independent of the power supply method (specifically, when power is supplied from a commercial power source, the control device 4 and the electric switch M). The configuration is the same as that of the fire shutter for management combined use after the repair according to the first embodiment, except that the electric power is supplied), and the description of [A-3] can be incorporated.

[D] Repair of fire shutter with management (4th embodiment)
[D-1] Fire shutter with management (before repair)
A fire shutter with a mechanical hazard prevention device will be described with reference to FIG. In the figure, the solid wire connecting the elements is an electric wire, and the alternate long and short dash line is a wire. The management combined fire shutter according to the fourth embodiment is provided with a mechanical hazard prevention device.

As shown in FIG. 13, the shutter device includes a shutter curtain 1 that opens and closes an opening formed between the left and right guide rails 2, and a take-up shaft that is provided above the opening and around which the shutter curtain 1 is wound. (Not shown), the electric shutter M provided above the opening and closer to one side in the opening width direction and transmitted and connected to the take-up shaft, the electric shutter operation unit 3A, and manual closing. From the device 3B, the control device 4 to which the signal from the electric opening / closing operation unit 3A is input, the shutter control panel 5 to which the signal from the electric opening / closing operation unit 3A is input via the control device 4, and the disaster prevention panel 6b. An automatic closing device 6 that lowers the shutter curtain 1 by its own weight by inputting a fire detection signal or an operation from the manual closing device 3B, and an obstacle detecting means that detects an obstacle when the shutter curtain 1 that lowers its own weight hits an obstacle. , A mechanical hazard prevention device using this obstacle detection means.

The fire shutter combined with management is normally electrically driven by the electric switch M. Specifically, when the open switch is pressed from the electric open / close operation unit 3A, an open signal is transmitted to the shutter control panel 5 via the control device 4, and the electric open / close machine M is driven to raise the shutter curtain 1. When the close switch is pressed from the electric open / close operation unit 3A, a close signal is transmitted to the shutter control panel 5 via the control device 4, the electric open / close machine M is driven to lower the shutter curtain 1, and the electric open / close operation is performed. When the stop switch is pressed from the unit 3A, a stop signal is transmitted to the shutter control panel 5 via the control device 4, the electric switch M is stopped, and the moving shutter curtain 1 is stopped.

The shutter curtain 1 is configured by vertically connecting a plurality of long slats extending in the opening width direction, and a seat plate 1A is provided at the lower end. The seat plate 1A has a long upper seat plate (not shown) extending in the width direction of the opening and a long upper seat plate suspended on the lower side of the upper seat plate so as to be vertically movable relative to the upper seat plate. It is composed of a lower seat plate (not shown), and the seat plate 1A is a component of an obstacle detecting means.

The shutter device includes an automatic closing device 6 and an operating unit 7 (brake release / return device) that lower the shutter curtain 1 by its own weight in the event of a fire. In the present embodiment, the automatic closing device 6 and the operating unit 7 are physically separated from each other and are transmitted and connected by a wire W1, but the automatic closing device 6 may be equipped with the function of the operating unit 7.

The automatic closing device 6 operates by inputting a fire detection signal from the disaster prevention panel 6b, and releases the brake via the wire W1 and the operating unit 7. In the illustrated embodiment, the automatic closing device 6 and the operating unit 7 are separated from each other, the automatic closing device 6 and the operating unit 7 are mechanically connected via the wire W1, and the automatic closing device 6 and the operating unit 7 are automatically closed when a fire signal is input. When the device 6 operates and pulls the wire W1, the operating portion 7 is in the brake release position and the brake of the electric switch M is released. In the present embodiment, the automatic closing device 6 is integrated with the recovery mechanism 6'. Such automatic closing device 6, operating unit 7, and restoration mechanism 6'are known to those skilled in the art, and specific configurations thereof are not limited to the configuration of the present invention, but for example, for example, Japanese Patent Application Laid-Open No. 2017-96073 can be referred to.

When a fire breaks out with the opening fully open, the smoke detector 6a detects the fire, the fire detection signal from the disaster prevention panel 6b activates the automatic closing device 6, and the operating portion 7 is in the brake release position via the wire W1. Then, the brake of the electric switch M is released. When the brake is released, both ends of the shutter curtain 1 descend under its own weight while being guided by the grooves of the guide rail 2, and the seat plate 1A lands on the floor to fully close the opening.

The shutter device is provided with a so-called hazard prevention device, and when the seat plate 1A at the lower end of the shutter curtain 1 during descent hits an obstacle and detects the obstacle, the brake of the electric switch M is released via the return wire. Therefore, the descent of the shutter curtain 1 is stopped. The return wire is composed of a first wire W2 and a second wire W3. A relay device 10 is provided in the portion above the opening toward the side where the electric switch M in the opening width direction is installed, and the seat plate 1A has an opening width so as to be located below the relay device 10. The locking device 11 is provided on one side of the direction.

The first wire W2 and the second wire W3 are connected via the relay device 10. One end of the first wire W2 is connected to the operating portion 7 (brake releasing body) so as to move the brake releasing body (not shown) of the operating portion 7 in the brake return direction, and the other end is connected to the relay device 10. Has been done. One end of the second wire W3 is connected to the relay device 10, and the other end is connected to the lock device 11 provided on the seat plate 1A. The second wire W3 is pulled out so as to extend along the surface portion of the shutter curtain 1 as the shutter curtain 1 descends.

The lock device 11 is provided on the upper seat plate, and the lower seat plate of the shutter curtain 1 during descent hits an obstacle and moves upward relative to the upper seat plate, so that the return wire (second wire W3) is pulled out. Is mechanically regulated, and the brake release body is pulled in the brake return direction by the return wire (second wire W3 + first wire W2) whose pull-out is regulated.

When the lower seat plate of the shutter curtain 1 during its own weight descent hits an obstacle, the brake release body is moved to the brake return position by the return wire (second wire W3 + first wire W2), and the own weight of the shutter curtain 1 Stop the descent.

When the lower seat plate of the shutter curtain 1 during the electric descent hits an obstacle, the obstacle of the operating portion 7 is interlocked with the movement of the brake release body by the return wire (second wire W3 + first wire W2). When the detection micro switch (not shown) changes from the ON state to the OFF state (it may be designed to detect an obstacle by changing from the OFF state to the ON state), the control device 4 has an obstacle. A detection signal is transmitted, and a signal is transmitted from the control device 4 to the shutter control panel to stop the shutter curtain 1 during electric descent.

The shutter device includes a re-lowering means (self-weight re-lowering means) for re-lowering the stopped shutter curtain 1. When the lower seat plate of the shutter curtain 1 during its own weight descent hits an obstacle and the obstacle is removed after the shutter curtain 1 is stopped, the return wire can be pulled out and the brake release body moves in the brake release direction. Then, the shutter curtain 1 descends again by its own weight. Further, after removing the obstacle, the timing at which the shutter curtain 1 re-descends due to its own weight may be delayed.

When the lower seat plate of the shutter curtain 1 during the electric descent hits an obstacle and the obstacle is removed after the shutter curtain 1 is stopped, the pulling force of the return wire is lost, the operating body returns to the steady position, and the operating portion The micro switch of No. 7 is turned from OFF to ON, and the shutter curtain 1 can be electrically opened / closed by an operation from the electric opening / closing operation unit 3A. The specific configuration of such a hazard prevention device (including, for example, an obstacle detection mechanism, a relay device 10, a lock device 11, etc.) is not limited to the present invention, but for example, Japanese Patent Application Laid-Open No. 2017-96073. Can be referred to.

A manual closing device 3B is provided on the wall surface in the vicinity of the shutter device at a height that is easy to operate. The manual closing device 3B is an operation box composed of a vertically long rectangular parallelepiped box body, and is provided with an operation unit for manual closing and an operation unit for restoration of the automatic closing device 6. The operation unit for manual closure is an emergency closure switch (hidden in the lid, not shown) provided on the front surface of the operation box.

The operation unit (emergency closure switch, rotary lever 3a) of the manual closing device is mechanically connected to one end of the wire W4 for manual operation so that the brake release operation and the brake release operation of the operation unit 7 can be performed. .. The other end of the wire W4 is connected to the operating portion 7. The operation unit of the manual closing device operates so as to release the brake by the first operation (pressing operation of the emergency closing switch) from the state before the brake release operation, and the second operation (the second operation after the brake release operation). The brake is released by operating the rotating lever 3a that protrudes by pressing the emergency closing switch). A pulley (not shown) around which the recovery wire W5 of the automatic closing device is wound is provided on the front surface of the operation box, and the recovery lever (not shown) is a recovery mechanism by the recovery wire W5 of the automatic closing device. It is connected to 6'and constitutes a recovery device of the automatic closing device 6 together with the recovery mechanism 6'.

In the existing management combined fire shutter that is the target of the repair of the shutter according to the fourth embodiment, the power from the commercial power source is supplied to the shutter control panel 5 of the electric switch M through the 1st road A1. The electric power supplied to the shutter control panel 5 is further supplied to the control device 4 through the 2nd road A2, and the existing management that is the target of the repair of the shutter according to the first embodiment. It is the same as the combined fire shutter (see FIGS. 13 and 2).

[D-2] Repair of Fire Door with Management Combined Repair of the shutter according to the fourth embodiment includes the first path for supplying the electric power of the commercial power source to the electric switch M and the commercial power supply supplied to the electric switch M. This is executed for the existing management combined fire shutter provided with the second road A2 for supplying the power of the above to the control device 4.

The method for repairing the shutter according to the present embodiment is a first method of supplying electric power to the electric switch M through a power supply path (electric wire EW3) from a commercial power source instead of the 1st road A1 and the 2nd road A2. Branching into a road and a second road that supplies power to the control device 4; a third road that is electrically connectable to the first road and can be electrically connected to a temporary power source different from the commercial power source. (Electric power EW1) is provided; a power switching unit S for selecting a commercial power source from the power supply path (electric wire EW3) and a temporary power source from the third line (electric wire EW1) is provided; When selected, the power from the commercial power source is supplied to the electric switch M and the control device 4, and when the temporary power source is selected, the power from the temporary power source is supplied only to the electric switch M.

As shown in FIGS. 15 and 16, the power supply switching device 8 has a first connection port P1, a branch portion B that branches the input from the first connection port P1 into the first path and the second path, and the second path. The second connection port P2 located in, the third connection port P3 located in the first road, the fourth connection port P4, and the power switching unit S provided between the branch portion B and the third connection port P3. , Is equipped.

In the repair method using such a power switching device 8, the first road A1 (one end is connected to the circuit breaker Br on the commercial power supply side, and the other end is connected to the shutter control panel 5 of the electric switch M). 2'Road A2 (one end is connected to the shutter control panel 5 of the electric switch M and the other end is connected to the control device 4); the circuit breaker on the commercial power supply side Connecting Br and the first connection port P1 of the power switching device 8 with the electric wire EW3; connecting the electric wire EW1 (third road) and the fourth connection port P4 of the power switching device 8; electric switch M and power switching. The third connection port P3 of the device 8 is connected by the electric wire EW1 ″; the control device 4 and the second connection port P2 of the power switching device 8 are connected by the electric wire EW4; By connecting the first connection port P1 and the third connection port P3, the power from the commercial power supply is supplied to the electric switch M, and by connecting the fourth connection port P4 and the third connection port P3, the power from the temporary power supply is supplied. Electric power can be supplied only to the electric switch M through the electric wire EW1.

The electric wire EW1 (third road) is an electric wire that connects the connection portion to which the temporary power supply is connected and the power switching device 8, and the electric wire EW1 is a lower part of the skeleton or the guide rail 2 via the skeleton or the guide rail 2. The electric wire EW1 is provided with a connecting portion (connector C1) to which a temporary power source (generator G) can be connected from the outside in the lower portion.

In the present embodiment, a power supply connection device 9 having a connection unit (connector C1) and an electric open operation unit (open switch 9A) is prepared, and the power supply connection device 9 and the power supply switching device 8 are electrically connected by the electric wire EW1. Connecting. The power connection device 9 includes a housing provided with the connector C1 and the open switch 9A, and is provided at a lower portion of the skeleton or a lower portion of the guide rail 2. The power connection device 9 is typically an operation box provided with a lid, and when the lid is opened, the front portion 90 provided with the connector C1 and the open switch 9A is exposed. The connector C1 and the open switch 9A are provided so as to be vertically adjacent to each other, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

In the existing shutter, an operation box for providing an electric opening / closing operation unit 3A and a manual closing device 3B is provided in a lower portion of the skeleton, and a power connection device 9 is provided adjacent to these operation boxes. In the power supply connection device, the connection portion (connector C1) and the electric release operation unit (open switch 9A) may be provided in separate housings, and the connection portion (connector C1) and the electric release operation unit may be provided. (Open switch 9A) does not necessarily have to be provided in the vicinity.

In the above description, the electric wire EW3 and the electric wire EW1 ″ provided by the modification of the shutter of the present embodiment are the power line for supplying the electric power from the commercial power source to the electric switch M, and the electric wire EW3 and the electric wire EW4 are from the commercial power source. It is a power line for supplying electric power to the control device 4, and the electric wires EW1 and EW1 ″ are power lines for supplying electric power from a temporary power source to the electric switch M.

The repair of the shutter according to the present embodiment further includes providing a signal line. Specifically, the power connection device 9 and the shutter control panel 5 of the electric switch M are connected by the electric wire EW1'which is a signal line, and the signal from the open switch 9A of the power supply connection device 9 is connected by the electric wire EW1'. Is transmitted to the shutter control panel 5. In the present embodiment, the switch S2 is provided in the middle of the electric wire EW1'(the switch S2 will be described later with reference to FIGS. 17 and 18).

In the existing shutter, the signal from the electric opening / closing operation unit 3A is transmitted to the control device 4 through the signal line (shown as the electric wire EW4'in FIG. 14), and further, the shutter control is performed from the control device 4 through the signal line. It is transmitted to the board 5. In the present embodiment, the switch S1 is provided on the signal line connecting the control device 4 and the shutter control panel 5, the signal line after the repair is shown as the electric wire EW4 ″ in FIG. 3, and the switch S1 is shown on the electric wire EW4 ″. (The switch S1 will be described later with reference to FIGS. 17 and 18). In the present embodiment, the switch S1 and the switch S2 are provided in the power supply switching device 8, and therefore, the electric wires EW1 ″ and the electric wire EW4 ″ pass through the power supply switching device 8.

In one embodiment, for example, the electric wire EW1 extends through the side wall of the guide rail 2 to the operation box of the power connection device 9 embedded in the lower portion of the wall, and is the second end of the electric wire EW1. A power connection device 9 is electrically connected to the device. Similarly, the electric wire EW1', which is a signal line, extends through the inside of the wall. The operation box of the power connection device 9 is provided with a lid (not shown), and the open switch 9A and the connector C1 provided on the front surface 90 and the front surface 90 are exposed by opening the lid.

In the above example, the electric wires EW1 for supplying electric power to the electric switch M and the electric wires EW1'for supplying signals are provided so as to pass through the inside of the wall, but the electric wires EW1 and EW1'are provided along the outer surface of the wall body. You may. Further, the electric wires EW1 and EW1'may be guided to the lower part of the opening via the guide rail 2. More specifically, the electric wire extends through the inside of the guide rail 2 or along the outer surface of the guide rail 2 to the lower portion of the guide rail 2, and at the lower portion, the connector C1 is attached to the end of the electric wire EW1. A power connection device 9 is electrically provided. The connector C1 may be provided so as to be exposed on the outer surface of the guide rail 2, or may be provided so as to be exposed to the outside on the front surface of the power connection device when the guide rail 2 is provided with the power connection device. .. Alternatively, the electric wire EW1 passes through the inside of the wall or the guide rail 2, or along the outer surface of the wall or the outer surface of the guide rail 2, and the lower part of the guide rail 2 or the lower part of the wall (floor surface or inside the floor). The connector C1 as a connection part that can be connected from the outside is provided on the wall body, on the floor surface, or in the floor surface independent of the operation box and the guide rail 2 of the power connection device 9). It may be provided.

[D-3] Fire shutter with management (after repair)
As shown in FIG. 14, the repaired combined fire protection shutters include the left and right guide rails 2 installed on the skeleton, the shutter curtain 1 that opens and closes the opening between the left and right guide rails, the electric switch M, and the electric switch. An opening / closing operation unit 3A, an electric opening operation unit (open switch 9A), a manual closing device 3B, an automatic closing device 6 that lowers the shutter curtain 1 by its own weight by inputting a fire detection signal or operating from the manual closing device 3B. Obstacle detection means (seat plate 1A, lock device 11, relay device 10, wires W3, W2) that detects obstacles when the shutter curtain descends, and a machine that uses no power to detect the shutter curtain that is descending its own weight when the obstacle is detected. Control to electrically stop the mechanical stop means (seat plate 1A, lock device 11, relay device 10, wires W3, W2, operating unit 7) and the shutter curtain 1 that is electrically descending when an obstacle is detected. A device 4 and a power switching unit S for switching between a commercial power supply and a temporary power supply are provided. When a commercial power supply is selected, power from the commercial power supply is supplied to the electric switch M and the control device 4, and the temporary power supply is selected. At that time, the power from the temporary power supply is supplied only to the electric switch M, and the power from the temporary power supply is not supplied to the control device 4.

In the management combined fire shutter according to the present embodiment, power is normally supplied to the electric switch M and the control device 4 from a commercial power source, but in the event of a power failure or the like, the shutter is electrically opened by using a temporary power source. Is possible. As shown in FIG. 14, the skeleton has an electric open operation unit (open switch 9A) adjacent to the operation box of the electric open / close operation unit 3A and a connection unit that can be connected to the generator G as a temporary power source. A power connection device 9 including a connector C1 and an operation box as a housing provided with the connector C1 is provided. In the present embodiment, the electric open operation unit (open switch 9A) and the connection unit (connector C1) are provided adjacent to each other on the upper and lower sides, with the open switch 9A located on the upper side and the connector C1 located on the lower side.

A generator G as a temporary power source can be connected to the connector C1. More specifically, the connection portion (connector C2) at the tip of the electric wire EW2 can be connected to the connector C1 from the outside, and the generator G as a temporary power source can be connected to the base end of the electric wire EW2. Pre-connected.

A commercial power source is connected to the electric switch M and the control device 4 via a circuit breaker Br, and normally, the electric switch M and the control device 4 are operated by the electric power supplied from the commercial power source. As shown in FIG. 14, the management combined fire shutter according to the present embodiment includes a power switching device 8, and normally selects a commercial power source as the power source of the electric switch M, and in the event of a power failure, the electric switch It is configured to select a temporary power source as the power source of M.

Normally, a commercial power source is selected as the power source of the electric switch M by the power switching device 8, the input from the commercial power source is branched into the first path and the second path, and the electric switch M passes through the first path. Is supplied with electric power, and electric power is supplied to the control device 4 through the second path. More specifically, when the power switching unit S (see FIGS. 15 and 16) for switching between the commercial power supply and the temporary power supply is provided on the first road and the commercial power supply is selected as the power supply for the first road, it is commercial. The electric power from the power source is supplied to the electric switch M, the electric power of the commercial power source is supplied to the control device 4 through the second path, and when the temporary power source is selected as the power source of the first path, the temporary power source is used. The electric power of the above is supplied only to the electric switch M through the third path, and is not supplied to the control device 4. The specific configuration of the power switching device 8 will be described later.

When using a temporary power supply, the power supply line electrically connects the electric wire EW1 that electrically connects the power supply connection device 9 and the power supply switching device 8, and the power switching device 8 and the shutter control panel 5 of the electric switch M. It consists of electric wire EW1 ″. The signal line when the temporary power supply is used consists of the electric wire EW1'that electrically connects the power supply connection device 9 and the shutter control panel 5 of the electric switch M.

[E] Repair of fire shutters with management (other embodiments)
[E-1] Fire shutter with management (before repair)
The repair method according to the present invention can also be applied to the same mechanical management combined fire shutter as the configuration of the managed combined fire shutter with a mechanical hazard prevention device according to the fourth embodiment, except for the method of supplying power. As the existing management combined fire prevention shutter according to the other embodiment, the electric power from the commercial power source is supplied to the control device 4 through the second road A2, and the electric power supplied to the control device 4 is used. Further, the electric power supplied to the shutter control panel 5 of the electric switch M through the 1st road A1 (see FIG. 6), and the electric power from the commercial power source passes through the 2nd road A2 to the control device 4 The electric power from the commercial power source is supplied to the shutter control panel 5 of the electric switch M through the 1st road A1 (see FIG. 10).

[E-2] Renovation of the management combined fire shutter This is an existing managed combined fire shutter with a mechanical hazard prevention device, and the electric power from the commercial power source is supplied to the control device 4 through the 2nd road A2. The electric power supplied to the control device 4 is further supplied to the shutter control panel 5 of the electric switch M through the 1st road A1 (see FIG. 6), and the repair method is described in [B-2]. The description of can be used.

It is a management combined fire shutter with an existing mechanical hazard prevention device, and the electric power from the commercial power supply is supplied to the control device 4 through the 2nd road A2, and the electric power from the commercial power supply is the 1st road. The description of [C-2] can be referred to as the repair method for the one supplied to the shutter control panel 5 of the electric switch M through A1 (see FIG. 10).

[E-3] Fire shutter with management (after repair)
The configuration of the post-repair fire-retardant shutter according to the other embodiment is the same as the configuration of the post-repair fire-retardant shutter according to the fourth embodiment except for the power supply method. ] Can be incorporated.

[F] Temporary power supply The temporary power supply is a power supply that can be connected to the connection portion (connector C1) provided in the electric wire EW1 that supplies power to the electric switch M, and is connected in the normal usage state of the shutter device. It is a power supply that is not connected to the connection portion (connector C1) and is temporarily connected to the connection portion (connector C1) only when an electric drive of the shutter is required in the event of a power failure or the like. In the present embodiment, a portable generator G is prepared as a temporary power source, an electric wire EW2 having a connector C2 that can be connected to the connector C1 is provided on the output side of the generator G, and the front surface of the operation box of the power supply connection device 9 is provided. The generator G can be connected to the connector C1 exposed to the portion 90. The generator G is, for example, a movable generator G provided with a traveling roller, and is normally stored in a suitable place.

In this way, by providing the connector C1 to which the generator G as a temporary power source can be connected from the outside in the operation box provided with the open switch 9A as the electric opening operation unit, power is generated at the same location as the shutter opening switch 9A. The machine G can be connected, and the generator G can be connected and the operation from the open switch 9A can be smoothly performed.

Instead of the generator G, the power outlet (not shown) exposed on the wall may be used as a temporary power source, and the power outlet and the connector C1 at the end of the electric wire EW1 may be connected by using the electric wire EW2. When the power outlet is used as a temporary power source, a transformer is appropriately provided to convert the voltage as needed (for example, when the switch operates at 200 V).

In the present embodiment, the temporary power supply for supplying the electric power for driving the electric switch M is a portable generator, a power outlet, or a battery that can be connected to the connector C1, but these temporary power supplies are usually connectors. It is not connected to C1, that is, these temporary power sources and the electric switch M are not connected.

The shutter device is normally operated by a commercial power source, and in a normal use state, a portable generator or a power outlet is not connected to the connector C1. When it becomes necessary to open and close the shutter in the event of a power failure, etc., a generator G is prepared, and the connector C2 of the electric wire EW2 extending from the generator G is connected to the connector C1 to use the generator G as a temporary power source. By supplying electricity to the electric switch M, the electric switch M can be driven. For example, pressing the open switch 9A raises the shutter curtain 1.

In one embodiment, the shutter curtain 1 is raised by the push-off operation of the open switch 9A (the shutter curtain 1 is raised only while the push operation of the open switch 9A is continued). Alternatively, the stop operation may be performed by the pressing pattern of the open switch 9A using the self-holding circuit instead of the push-off operation. For example, the shutter curtain 1 starts to rise by the first pressing of the open switch 9A. The rising shutter curtain 1 may be stopped by the second pressing. Alternatively, a stop switch may be provided in addition to the open switch 9A.

[G] Power Switching Device The power switching device 8 includes a first connection port P1 to which power from a commercial power source is input, and a branch portion B to branch the input from the first connection port P1 into a first path and a second path. , The second connection port P2 that outputs from the second road to the control device 4, the third connection port P3 that outputs from the first road to the electric switch M, and the electric power from the temporary power source (generator G) is the third road. It is provided with a fourth connection port P4 for inputting through. There is a power switching unit (power selection switch) S between the branch portion B and the third connection port P3, and by connecting the first connection port P1 and the third connection port P3, the power from the commercial power source can be transferred to the first path. Power from the temporary power supply by connecting the first form, which is supplied to the electric switch M through the second path, and the control device 4 through the second path, and the fourth connection port P4 and the third connection port P3. Is configured to selectively take the second form, which is supplied only to the electric switch M through the first path and is not supplied to the control device 4.

The first form and the second form of the power supply switching device 8 will be described with reference to FIGS. 15 to 18. The commercial power supply and the first connection port P1 of the power supply switching device 8 are connected by the electric wire EW3, and the electric wire EW3 is provided with a circuit breaker Br. In the present embodiment, in the power supply switching device 8, the input from the first connection port P1 is branched into the first path and the second path in the branch portion B. The first road is electrically connected to the electric switch M, and the second road is electrically connected to the control device 4.

The second connection port P2 of the power switching device 8 and the control device 4 are connected by the electric wire EW4, and the output side of the second path is the second connection port P2. The third connection port P3 of the power switching device 8 and the electric switch M are connected by the electric wire EW1 ″, and the output side of the first path is the third connection port P3. The fourth connection port P4 of the power switching device 8 and the connector C1 of the power connecting device 9 are connected by the electric wire EW1 (third path). In the power switching device 8, there is a power switching unit (power selection switch) S between the branch portion B and the third connection port P3.

In FIGS. 15 and 17, the power switching unit (power selection switch) S is in the first position, connects the first connection port P1 and the third connection port P3, and the power from the commercial power source is the first path. It is supplied to the electric switch M through the electric switch. Further, the electric power from the commercial power source is supplied to the control device 4 through the second path.

In FIGS. 16 and 18, the power switching unit (power selection switch) S is in the second position, connects the fourth connection port P4 and the third connection port P3, and is connected to the temporary power source (generator G). Electric power is input to the power switching device 8 through the electric wire EW1 (third path), and is supplied to the electric switch M through the first path. When the power switching unit S is in the second position, the power circuit (second path) of the control device 4 is cut off from the power circuit (third path, first path) of the electric switch M, so that it is temporary. The electric power from the power source (generator G) is not supplied to the control device 4.

There may be several modes for switching the power switching unit (power selection switch) S. In one embodiment, the power switching unit S becomes the second position at the time of power failure or connection of the temporary power supply to select the temporary power supply, and the power from the temporary power supply is supplied only to the electric switch M, and the control device 4 Will not be supplied to. In one embodiment, the power switching unit S becomes a second position in response to the detection of a power failure and automatically selects a temporary power source. In one aspect, the power switching unit S becomes the second position in response to the detection of the connection of the temporary power supply and automatically selects the temporary power supply. In one embodiment, the power switching device 8 includes a detection circuit (see FIGS. 15 and 16), and the detection circuit detects a current passing through the third path so that the power switching unit S is positioned at the second position. The temporary power supply is automatically selected. The power switching unit S may manually switch between the first position and the second position.

[H] The fire prevention shutter combined with the invalidation management of the operation from the electric opening / closing operation unit is normally shuttered by the operation (opening operation, closing operation, stopping operation) from the electric opening / closing operation unit 3A via the control device 4. A predetermined signal is transmitted to the control panel 5, and the electric switch M is driven by using a commercial power source to electrically open and close the shutter. Therefore, when a temporary power source is used, it is typically during a power outage, but a temporary power source may be connected during a normal time when the commercial power source is effective. The power switching device 8 guarantees that either a commercial power source or a temporary power source is selectively used, and even when both power sources are valid, the electric switch 8 is an electric switch from only one of the power sources. Power is supplied to M, and power is not supplied to the control device 4 from the temporary power supply.

Here, even when the commercial power source is effective, the temporary power source may be electrically connected to the electric switch M and the temporary power source may be selected as the power source. At this time, when the commercial power supply is effective, the electric opening / closing operation unit 3A can output a signal using the commercial power supply, and the control device 4 also operates using the commercial power supply. Based on the signal received from 3A, it is possible to output a predetermined signal to the electric switch M (shutter control panel 5). Therefore, while the electric switch M is supplied with electric power from the temporary power supply, the electric open operation unit (open switch 9A) is in a state where it can output an open signal to the electric switch M using the temporary power supply, and the electric switch is electrically opened / closed. It is possible that the operation unit 3A is in a state where it can output an open / close signal to the electric switch M using a commercial power source.

When it is desired to electrically open the shutter by the open signal from the electric open operation unit (open switch 9A), if a stop signal or a close signal is erroneously transmitted from the electric open / close operation unit 3A, a crosstalk of the command system is caused and desired. The opening operation may not be possible, and in some cases, the device (for example, the control device 4) may be damaged. Even in the event of a power failure, the same thing can occur if the electric opening / closing operation unit 3A and the control device 4 can be operated by the battery.

The management combined fire shutter according to the present embodiment includes an invalidation means for invalidating the operation from the electric open / close operation unit 3A at least when the electric open operation unit (open switch 9A) opens. Although the timing of invalidation is not limited, for example, when it is detected that an opening operation has been performed from the electric opening operation unit (open switch 9A) and the operation from the electric opening / closing operation unit 3A is invalidated, the power connector is used. For example, a case where it is detected that a temporary power source (generator G) is connected to the connector C1 of 9 and the operation from the electric opening / closing operation unit 3A is invalidated can be exemplified. Further, this disabling means is a means for giving priority to the opening operation from the electric opening / closing operation unit (open switch 9A) over the operation from the electric opening / closing operation unit 3A when both the temporary power supply and the commercial power supply are effective. I can also say.

(0117)
An embodiment of the invalidation means will be described with reference to FIGS. 17 and 18. In the mode shown in FIG. 17, a commercial power source is selected as the power source by the power switching unit S of the power switching device 8 in the fire shutter combined with management, and in the aspect shown in FIG. 18, the power switching unit of the power switching device 8 A generator G (temporary power source) is selected as the power source by S. Typically, the power switching device 8 is in the state shown in FIG. 17 at normal times, and the power switching device 8 is in the state shown in FIG. 18 during a power failure or the like, but the conditions and timing of power switching are not limited. 17 and 18 show the management combined fire shutter according to the first embodiment, but the invalidation means also includes the management combined fire shutter according to the second embodiment, the third embodiment, and the fourth embodiment. Applies.

In the embodiment shown in FIG. 17, the first connection port P1 and the third connection port P3 of the power switching device 8 are electrically connected by the power switching unit (power selection switch) S (see FIG. 15), and the commercial power supply is used. The electric power from the electric switch M is output to the shutter control panel 5 of the electric switch M. Further, the electric power from the commercial power source is output to the control device 4 through the electric wire EW4. The fourth connection port P4 and the third connection port P3 are open, and the power switching device 8 and the power connection device 9 are not electrically connected. Further, the generator G is not connected to the connector C1 of the power connection device 9.

The operation signal from the electric switch 3A is transmitted to the control device 4 by the signal line EW4', and is output from the control device 4 to the shutter control panel 5 of the electric switch M by the signal line EW4'. In the present embodiment, the switch S1 is provided on the signal line EW4 ″, and when the switch S1 is in the closed state, the operation signal from the electric opening / closing operation unit 3A is transmitted to the signal line EW4 ″ via the control device 4. It is transmitted to the shutter control panel 5 through ′. A switch S2 is provided on the signal line EW1'for transmitting an open signal from the power connection device 9 to the shutter control panel 5 of the electric switch M, and the switch S2 is in the open state.

In the embodiment shown in FIG. 18, the fourth connection port P4 and the third connection port P3 of the power switching device 8 are electrically connected by the power switching unit (power selection switch) S (see FIG. 16), and the power switching device 8 And the power connection device 9 are electrically connected to each other. The connector C2 of the generator G is connected to the connector C1 of the power connection device 9, and the electric power from the generator G is output to the shutter control panel 5 of the electric switch M. The first connection port P1 and the third connection port P3 are open, and the electric power from the commercial power source (when valid) can be output to the control device 4 through the electric wire EW4, but the electric switch. It is not output to M.

The switch S2 on the signal line EW1'for transmitting the open signal from the power connection device 9 to the shutter control panel 5 of the electric switch M is in the closed state, and the open signal from the electric open operation unit (open switch 9A) is , It is output to the shutter control panel 5 of the electric switch M through the signal line EW1'. On the other hand, the switch S1 on the signal line EW4 ″ is in the open state, and the operation signal from the electric opening / closing operation unit 3A is not transmitted to the shutter control panel 5. Therefore, even if the commercial power supply is effective and the control device 4 and the electric opening / closing operation unit 3A can operate using the commercial power supply, the shutter control panel 5 is based on the operation signal from the electric opening / closing operation unit 3A. It does not drive the electric switch M.

In the present embodiment, the power switching unit (power selection switch) S, switch S1, and switch S2 are provided in the power switching device 8, and the signal line EW1'and the signal line EW4' are connected to the power switching device 8. A port (not shown) is provided. The power switching unit (power selection switch) S, switch S1, and switch S2 may be controlled so as to be switched at the same time. In this case, when the power switching unit (power selection switch) S takes the first position, the switch S1 Is closed, the switch S2 is in the open state, and when the power switching unit (power selection switch) S takes the second position, the switch S1 is in the open state and the switch S2 is in the closed state. The power supply switching device 8 according to the present embodiment is provided with a detection means (detection circuit) for detecting the current of the electric wire EW1, and switches S1 and S2 according to the detection of the current passing through the electric wire EW1 from the generator G. Is switched to invalidate the operation from the electric opening / closing operation unit 3A. The timing of switching the power switching unit (power selection switch) S, switch S1, and switch S2 is not only when the current passing through the electric wire EW1 is detected, but also when, for example, the switch is switched by detecting a power failure, and the temporary power supply is set. It can be executed when it is detected that the connection (for example, the generator G is connected to the connector C1 of the power connection device 9).

In the embodiment shown in FIG. 18, the invalidation means operates from the electric switch operation unit 3A by blocking the circuit (signal line EW4 ″) that transmits the signal from the control device 4 to the electric switch M. Although it is invalidated, the invalidation means is not limited to this. For example, the invalidating means may invalidate the operation from the electric opening / closing operation unit 3A by blocking the circuit (signal line EW4') that transmits the signal from the electric opening / closing operation unit 3A to the control device 4. .. Alternatively, the invalidation means may transmit an invalidation signal to the control device 4, and the control device 4 that receives the invalidation signal invalidates the operation from the electric opening / closing operation unit 3A.

[I] Shutter device FIG. 19 installed in the warehouse is a schematic plan view of the warehouse in which a plurality of shutter devices SD1 to SD12 are arranged. The warehouse has a plan-viewing outer wall, and one of the outer walls has three openings (doorways), and shutter devices SD1, SD2, and SD3 are installed so as to open and close each opening. .. The shutter devices SD1, SD2, and SD3 are electric shutters that are used in combination with management, and in the illustrated embodiment, these shutter devices SD1, SD2, and SD3 are in a fully open state. By modifying these shutter devices SD1, SD2, and SD3, it is possible to connect a temporary power supply.

In the warehouse, a stepped portion F for unloading is provided so as to be separated from the opening and opposed to the opening so that a transport vehicle can enter the vicinity of the stepped portion F. Walls extending in the longitudinal direction and the lateral direction are provided in the warehouse, and a plurality of openings are formed in these walls, and shutter devices SD4 to SD12 are installed in each opening. In the illustrated embodiment, the shutter devices SD4, SD5, SD6, SD7, SD11, SD12 are in the fully closed state, and the shutter devices SD8, SD9, SD10 are in the fully open state. That is, the shutter devices SD4, SD5, SD6, SD7, SD11, and SD12 form a partition wall, and the space inside the warehouse is divided into three sections. In this way, by selecting the shutter device and setting it in the open posture or the closed posture as needed, a desired section can be formed in the warehouse.

The electric wire EW1 extending from each electric switch M of each of the shutter devices SD1, SD2, and SD3, which is an electric fire shutter for both management and management, extends to a lower portion via a wall body or a guide rail 2, and the electric wire EW1 A connector C1 is provided at the end of the. The connector C1 can be connected to the connection portion C2 of the generator G from the outside. When it is desired to electrically open the shutter devices SD1, SD2, and SD3 in the event of a power failure or the like, the connection portion C2 of the generator G is connected to the connector C1 of the desired shutter device, and the generator G is selected by the power switch 8. As a result, electric power is supplied to the electric switch M using the generator G as a temporary power source, and the electric switch M can be driven. At this time, the electric power from the generator G is not supplied to the control device 4.

On the other hand, the shutter devices SD4 to SD12 are not connected to any commercial power source and do not have a battery. The electric wire EW1 extending from each electric switch M of each of the shutter devices SD4 to SD12 extends to a lower portion via a wall body or a guide rail 2, and a connector C1 is provided at the end of the electric wire EW1. is there. The connector C1 can be connected to the connection portion C2 of the generator G from the outside.

When it is necessary to open and close the shutter devices SD4 to SD12 for reasons such as maintenance, the connection part C2 of the generator G is connected to the connector C1 of the desired shutter device, and the generator G is used as a temporary power source to be electrically operated. By supplying power to the switch M, the electric switch M can be driven. For the shutter devices SD4, SD5, SD6, SD7, SD11, and SD12, the shutter curtain 1 is raised by pressing the open switch 9A. Regarding the shutter devices SD8, SD9, and SD10, the shutter curtain 1 is lowered by its own weight by operation from the manual closing device 3B or the emergency operation switch (manual closing device) 31 or input of a pseudo fire signal. When the shutter curtain 1 once opened is put into the closed posture again, the shutter curtain 1 is lowered by its own weight by operation from the manual closing device 3B or the emergency operation switch (manual closing device) 31 or input of a pseudo fire signal. When the shutter curtain 1 once closed is put into the open position again, the connection portion C2 of the generator G is connected to the connector C1 of the desired shutter device, and the open switch 9A is pressed to use the generator G as a temporary power source. The shutter curtain 1 is electrically opened. The shutter devices SD4 to SD12 may be composed of electric shutters so that a temporary power supply as disclosed in the present specification can be connected and electrically driven by using the temporary power supply in the event of a power failure or the like.

1 Shutter curtain 2 Guide rail 3A Electric opening / closing operation unit (1st operation unit)
3B Manual closing device 31 Emergency operation switch (manual closing device)
4 Control device 6 Automatic closing device 8 Power switching device S Power switching unit B Branching parts P1 to P4 Power switching device connection port 9 Power connection device 9A Open switch (electric opening operation unit, second operation unit)
M Electric switch G Generator (temporary power supply)
C1 connection (connector)
C2 connection (connector)
EW1 electric wire (power line)
EW1'electric wire (signal line)
EW1 ″ Electric wire (power line)
EW2 electric wire (power line)
EW3 electric wire (power line)
EW4 electric wire (power line)

Claims (10)

The left and right guide rails installed on the skeleton and
A shutter curtain that opens and closes the opening between the left and right guide rails,
Electric switch and
Operation unit and
Manual closure and
An automatic closing device that lowers the shutter curtain by its own weight by inputting a fire detection signal or operating from the manual closing device.
Obstacle detection means that detects obstacles when the shutter curtain descends,
A mechanical stop means that mechanically stops the shutter curtain that is descending its own weight when an obstacle is detected without using electric power.
A control device that electrically stops the shutter curtain during electric descent when an obstacle is detected,
The 1st road that supplies the power of the commercial power supply to the electric switch and
A second road independent of the first road, which supplies the power of the commercial power source to the control device,
In the shutter equipped with
Instead of the first road, a first road for supplying electric power from a commercial power source to the electric switch is provided.
Provide a third road that can be electrically connected to the first road and can be electrically connected to a temporary power supply different from the commercial power supply.
Providing a power supply switching unit for selecting the commercial power supply and the temporary power supply from the third road.
Including
When the commercial power source is selected, the electric power from the commercial power source is supplied to the electric switch and the control device, and when the temporary power source is selected, the electric power from the temporary power source is supplied only to the electric switch.
How to repair the shutter. The left and right guide rails installed on the skeleton and
A shutter curtain that opens and closes the opening between the left and right guide rails,
Electric switch and
Operation unit and
Manual closure and
An automatic closing device that lowers the shutter curtain by its own weight by inputting a fire detection signal or operating from the manual closing device.
Obstacle detection means that detects obstacles when the shutter curtain descends and generates an obstacle detection signal,
A control device that generates a brake return signal in response to the input of an obstacle detection signal to stop the shutter curtain during descent,
The 1st road that supplies the power of the commercial power supply to the electric switch and
A second road independent of the first road, which supplies the power of the commercial power source to the control device,
In the shutter equipped with
Instead of the first road, a first road for supplying electric power from a commercial power source to the electric switch is provided.
Provide a third road that can be electrically connected to the first road and can be electrically connected to a temporary power supply different from the commercial power supply.
Providing a power supply switching unit for selecting the commercial power supply and the temporary power supply from the third road.
Including
When the commercial power source is selected, the electric power from the commercial power source is supplied to the electric switch and the control device, and when the temporary power source is selected, the electric power from the temporary power source is supplied only to the electric switch.
How to repair the shutter. 1st connection port and
A branch portion that branches the input from the first connection port and
The second connection port located on one of the branch roads,
A third connection port located on the other fork,
4th connection port and
A power supply switching unit provided between the branch unit and the third connection port,
Prepare a power switching device equipped with
Removing the 1st road,
Connecting the commercial power supply and the first connection port of the power supply switching device,
Connecting the third path to the fourth connection port of the power switching device,
Connecting the electric switch and the third connection port of the power switching device,
Including
By connecting the first connection port and the third connection port by the power switching unit, the electric power from the commercial power supply is supplied to the electric switch, and by connecting the fourth connection port and the third connection port, the power is supplied. Power from the temporary power supply is supplied only to the electric switch.
The method for repairing a shutter according to any one of claims 1 and 2. The third path is an electric wire that connects the connection portion and the power supply switching device, and the electric wire extends to a lower portion of the skeleton or a lower portion of the guide rail via the skeleton or the guide rail. The electric wire includes the connection portion that can be connected from the outside at the lower portion.
The method for repairing a shutter according to any one of claims 1 to 3. Including providing an electric opening operation unit for opening a shutter curtain using the temporary power supply.
The method for repairing a shutter according to any one of claims 1 to 4. A power supply connection device including the connection unit and the electric opening operation unit is prepared, and the power supply connection device and the power supply switching device are electrically connected by the third path.
The method for repairing a shutter according to claim 5. The power supply connection device includes a housing provided with the connection portion and the electric opening operation portion, and is provided at a lower portion of the skeleton or a lower portion of the guide rail.
The method for repairing a shutter according to claim 6. The manual closing device is provided in a lower portion of the skeleton, and the power connection device is provided adjacent to the manual closing device.
The method for repairing a shutter according to any one of claims 6 and 7. In the shutter obtained by the repair, the temporary power supply is not normally connected to the power supply switching device, and when the opening is opened in the event of a power failure, the temporary power supply is connected to the connection portion and the power supply switching unit is connected. By selecting the temporary power supply, the shutter curtain is electrically raised by the opening operation from the electric opening operation unit.
The method for repairing a shutter according to any one of claims 5 to 8. The temporary power source is any one of a generator, a power outlet, and a battery.
The method for repairing a shutter according to any one of claims 1 to 9.

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