JP7206097B2 - shutter device - Google Patents

Description

The present invention relates to a shutter device.

There is an electric shutter device that electrically opens and closes the shutter curtain while always recognizing the current position by storing the current position of the shutter curtain in a volatile memory as needed (for example, Patent Document 1).

Among the shutter curtain devices, there is a shutter curtain device capable of switching between a manual mode in which the shutter curtain is manually opened and closed in an emergency such as a power failure, and an electric mode in which the shutter curtain is electrically opened and closed. In this manual mode, the current position stored in the memory disappears because the power of the electric shutter is turned off. Therefore, when shifting from the manual mode to the electric mode, it is necessary to reset the position of the fully closed state and the position of the fully open state with the remote control device to recognize the current position, which is a so-called power failure recovery operation.

JP 2016-160622 A

By the way, in the electric shutter device, there is a user's desire to manually operate the electric shutter without turning off the power. However, in manual mode, the current position of the shutter curtain cannot be recognized. Therefore, when opening and closing the shutter curtain in manual mode and then switching to electric mode to open and close the shutter curtain, the actual current position of the shutter curtain and the current position of the shutter curtain recognized by the electric shutter device ( recognition position). Therefore, the electric shutter device cannot accurately open and close the shutter curtain.
Therefore, it is conceivable to forcibly turn off the power of the shutter device to perform a power failure recovery operation, but this imposes a burden on the user.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and an object of the present invention is to provide an accurate shutter curtain without turning off the power and executing a power failure recovery operation even if the shutter curtain is manually operated while the power is on. To provide a shutter device capable of electrically opening and closing a

One aspect of the present invention is a shutter device capable of switching between an electric mode in which opening and closing operations of the shutter curtain are electrically operated and a manual mode in which the shutter curtain can be manually opened and closed while the shutter curtain is energized, wherein a control unit that detects an abnormality in the load acting on the shutter curtain during the opening/closing operation, wherein the control unit detects an abnormality in the load acting on the shutter curtain after the manual mode is switched to the electric mode; When the abnormality is detected, upper limit detection processing for opening the shutter curtain and detecting the fully open state of the shutter curtain, or lower limit detection processing for detecting the fully closed state of the shutter curtain by closing the shutter curtain. The position of the shutter curtain is recognized by executing any one of detection processing, and the control unit stores the position information of the shutter curtain in the electric mode and the shutter received from the operation unit. A drive control unit for controlling the opening/closing operation based on a combination of an operation signal instructing opening or closing operation of the curtain and the position information, and detecting the abnormality by detecting the abnormality after switching from the manual mode to the electric mode. When the opening operation of the shutter curtain is performed as the first opening/closing operation after the detection of is performed, the upper limit detection processing is performed, and when the closing operation of the shutter curtain is performed as the first opening/closing operation. a processing unit that performs the lower limit detection process, wherein the upper limit detection process detects a tightening position at which a motor that drives the shutter curtain is in an overload state, and detects the tightening position and the upper limit position obtained in advance. The upper limit position is obtained using the distance between and obtaining the lower limit position .

An aspect of the present invention is the above-described shutter device, wherein the controller controls the upper limit when the abnormality is first detected in the abnormality detection after switching from the manual mode to the electric mode. The position of the shutter curtain is recognized by executing either the detection process or the lower limit detection process.

An aspect of the present invention is the shutter device described above, wherein the drive control unit controls the operation when the abnormality is detected in the opening operation after switching from the manual mode to the electric mode. 4. The shutter according to claim 3, wherein the closing operation is performed when an operation signal indicating the closing operation transmitted from the shutter is received, and the processing unit performs the lower limit detection processing triggered by the execution of the closing operation. It is a device.

An aspect of the present invention is the shutter device described above, wherein the drive control unit, when detecting the abnormality in the closing operation after switching from the manual mode to the electric mode, The shutter curtain is reversed and raised irrespective of the reception of the operation signal 1, and the processing section executes the upper limit detection process with the execution of the reverse and rise as a trigger.

As described above, according to the present invention, even if the shutter curtain is manually operated while the power is on, the shutter curtain can be electrically opened and closed accurately without turning off the power and executing the power failure recovery operation.

It is a figure showing an example of a schematic structure of shutter system A provided with a shutter device concerning one embodiment of the present invention. 1 is a schematic configuration diagram of a shutter control device 10 according to an embodiment of the present invention; FIG. 4 is a functional block diagram of the control unit 13 for executing recovery processing of the shutter control device 10 according to one embodiment of the present invention; FIG. It is a figure explaining operation|movement of the return process which concerns on one Embodiment of this invention. It is a figure explaining operation|movement of the return process which concerns on one Embodiment of this invention. It is a figure explaining operation|movement of the return process which concerns on one Embodiment of this invention. 3 is a flow diagram of return processing according to an embodiment of the present invention; FIG.

A shutter device according to an embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a diagram showing an example of a schematic configuration of a shutter system A including a shutter device according to one embodiment of the present invention.
A shutter system A shown in FIG. 1 includes a shutter device 1 and an operation unit 2 .

The shutter device 1 is an electric shutter device that opens or closes openings such as windows and doors of a building. The shutter device 1 includes a shutter curtain 3 and can open or close the opening by opening and closing the shutter curtain 3 based on an operation signal from the operation unit 2 . Further, the shutter device 1 has a configuration that allows the shutter curtain 3 to be manually opened and closed while the power is on.

That is, the shutter device 1 has an electric mode in which the shutter curtain 3 is electrically opened and closed, and a manual mode in which the shutter curtain 3 can be manually opened and closed while the shutter device 1 is energized. The shutter device 1 has a configuration capable of switching between the electric mode and the manual mode.

The operation unit 2 is connected by wire or wirelessly to the shutter device 1 to be operated, and can communicate with the shutter device 1 mutually. The operation unit 2 is operable by a user or an operator, and includes means for inputting an operation signal to the shutter device 1. For example, the operation unit 2 is a remote control device.

In this embodiment, the operation unit 2 is provided with an open switch SWo, a close switch SWc, and a stop switch SWt. Therefore, by pressing these switches, the user can instruct the shutter device 1 to open and close the shutter curtain 3 and stop the opening and closing operation.

Specifically, when any switch is pressed by the user, the operation unit 2 outputs an operation signal corresponding to the switch to the shutter device 1 .
For example, when the open switch SWo is operated, the operation unit 2 transmits to the shutter device 1 a first operation signal instructing the opening operation of the shutter curtain 3 . Further, when the close switch SWc is operated, the operation unit 2 transmits a second operation signal instructing the closing operation of the shutter curtain 3 to the shutter device 1 . Furthermore, when the stop switch SWt is operated, the operation unit 2 transmits a stop signal to the shutter device 1 to instruct the shutter curtain 3 to stop opening or closing the shutter curtain 3 .

Next, an example of a schematic configuration of the shutter device 1 according to one embodiment of the present invention will be described.

As shown in FIG. 1, the shutter device 1 includes a shutter curtain 3, guide rails 4a and 4b, and a shutter box 5. As shown in FIG.

The shutter curtain 3 has a plurality of elongated slats 3a connected in the vertical direction and a baseboard portion 3b provided at the lowest end.

The baseboard part 3b is an elongated member having a rectangular cross section connected to the lowermost slat 3a.
The baseboard portion 3b is formed so as to protrude so as to come into contact with the magnet (not shown) or the shutter box 5 when the shutter curtain 3 is in a fully open state (opening of the opening). That is, when the shutter curtain 3 is in the fully open state, the baseboard portion 3b comes into contact with the magnet (not shown) or the shutter box 5. As shown in FIG. On the other hand, when the shutter curtain 3 is in a fully closed state (opening is closed), the baseboard portion 3b contacts the lower frame of the frame of the shutter device 1 and the floor surface.
The above-mentioned magsa is a parting member for the opening of the shutter device 1 formed by raising the shutter curtain 3 , and may be provided below the shutter box 5 .

The guide rail 4a and the guide rail 4b are provided as a pair at both ends of the shutter curtain 3 in the width direction, and stand vertically with respect to the bottom surface. The guide rail 4a and the guide rail 4b regulate lateral displacement of each slat 3a constituting the shutter curtain 3. As shown in FIG.

The shutter box 5 is provided above the shutter device 1 . The shutter box 5 rewinds the shutter curtain 3 (when the shutter curtain 3 is closed) or winds it (when the shutter curtain 3 is opened).

An example of the schematic configuration of the shutter box 5 according to one embodiment of the present invention will be described below. As shown in FIG. 1, the shutter box 5 includes a shaft 6, a motor 7, an output section 8, a switching section 9 and a shutter control device 10. As shown in FIG.

Shaft 6 is connected to the upper end of shutter curtain 3 and motor 7 . The shaft 6 is rotationally driven in forward and reverse directions by a motor 7 . As the shaft 6 rotates, the shutter curtain 3 is rewound or wound. The shutter curtain 3 wound around the shaft 6 is accommodated in the shutter box 5. - 特許庁

The motor 7 is a driving source for opening and closing the shutter curtain 3 by rotationally driving the shaft 6, and is composed of, for example, a DC motor. The motor 7 rotates forward, reverse, or stops rotating based on a drive signal from the shutter control device 10 .

The output unit 8 has a function of outputting the drive status of the motor 7 . The output unit 8 is an encoder built into the motor 7, for example. The output unit 8 outputs position pulses according to the rotation of the motor 7 to the shutter control device 10 . For example, the output unit 8 outputs one position pulse to the shutter control device 10 when the motor 7 rotates once. Note that the output unit 8 is not limited to an encoder, and can be arbitrarily selected as long as it has a configuration capable of grasping the rotation amount of the winding shaft or the motor 7, such as measuring the rotation angle amount of the motor 7, for example.

The switching unit 9 can be operated by the user, and switches the opening/closing operation mode of the shutter curtain 3 between the electric mode and the manual mode by the user's operation.
For example, the switching unit 9 has a clutch mechanism capable of disconnecting the shaft 6 (winding shaft) and the drive shaft of the motor 7 . When the user performs the first operation, the switching unit 9 disconnects the shaft 6 (winding shaft) and the drive shaft of the motor 7 to switch from the electric mode to the manual mode. On the other hand, when the user performs the second operation, the switching unit 9 connects the shaft 6 (winding shaft) and the drive shaft of the motor 7 to switch from the manual mode to the electric mode. However, the switching mechanism of the opening/closing operation mode of the switching unit 9 is not limited to the clutch mechanism described above, and may have any configuration as long as it can switch between the electric mode and the manual mode.

The switching unit 9 notifies the shutter control device 10 of the switching result indicating which of the electric mode and the manual mode has been switched. Accordingly, the shutter control device 10 can detect switching from the electric mode to the manual mode or switching from the manual mode to the electric mode based on the switching result.

FIG. 2 is a schematic configuration diagram of the shutter control device 10 according to one embodiment of the present invention.
As shown in FIG. 2, the shutter control device 10 includes a communication section 11, a drive section 12 and a control section 13. As shown in FIG.

The communication unit 11 transmits and receives information by communicating with the operation unit 2 . The communication method of the communication unit 11 is not particularly limited, but in this embodiment, a wireless communication method such as the short-range wireless communication standard RF4CE (Radio Frequency for Consumer Electronics) or Bluetooth (registered trademark) is used.

The drive unit 12 drives or stops the motor 7 by generating a drive signal according to the command from the control unit 13 and outputting it to the motor 7 .

The control unit 13 includes, for example, a microprocessor such as a CPU or MPU, a microcontroller such as an MCU, a storage device, and the like, and controls the driving of the motor 7 according to the operation of the switch of the operation unit 2 in the electric mode.

In the electric mode, the control unit 13 controls the opening/closing operation of the shutter curtain 3 by controlling the rotation of the motor 7 based on the first operation signal or the second operation signal from the operation unit 2 . Further, in the electric mode, the control section 13 stops the opening/closing operation of the shutter curtain 3 by stopping the rotation of the motor 7 based on the stop signal from the operation section 2 .

Specifically, when the control unit 13 receives a first operation signal corresponding to the open switch SWo from the operation unit 2 via the communication unit 11 in the electric power mode, the control unit 13 winds the shutter curtain 3 around the shaft 6. It outputs to the drive unit 12 a command to open the door (hereinafter referred to as "open command"). As a result, the drive unit 12 rotates the motor 7 forward to open the shutter curtain 3 .

Further, in the electric mode, when the control unit 13 receives a second operation signal corresponding to the close switch SWc from the operation unit 2 via the communication unit 11, the control unit 13 unwinds the shutter curtain 3 from the shaft 6. A command for closing operation (hereinafter referred to as a “close command”) is output to the drive unit 12 . As a result, the drive unit 12 reverses the motor 7 to close the shutter curtain 3 .

Further, when the control unit 13 receives a stop signal corresponding to the stop switch SWt from the operation unit 2 in the electric mode, the control unit 13 issues a command to stop the operation of the shutter curtain 3 (hereinafter referred to as a “stop command”) to the drive unit. 12. As a result, the drive unit 12 stops the rotation of the motor 7 to stop the opening/closing operation of the shutter curtain 3 .

Here, the controller 13 always recognizes the position P of the shutter curtain 3 in the electric mode. Specifically, for example, the control unit 13 constantly recognizes the current position (hereinafter referred to as "recognized position") P of the shutter curtain 3 in the electric mode based on the rotation of the motor 7, and The opening/closing operation of the shutter curtain 3 is controlled while storing in a volatile memory in the device as needed. Note that the recognized position corresponds to "positional information" of the present invention.

For example, when opening the shutter curtain 3 to make it fully open, the control unit 13 determines whether the position P of the shutter curtain 3 reaches the upper limit position Pu while the shutter curtain 3 is being opened. determine whether or not When the control unit 13 determines that the position P of the shutter curtain 3 has reached the upper limit position Pu, the control unit 13 determines that the shutter curtain 3 is fully open, and stops opening the shutter curtain 3 .

Further, when closing the shutter curtain 3 to bring the shutter curtain 3 into the fully closed state, the control unit 13 causes the recognized position P of the shutter curtain 3 to reach the lower limit position Pl while the shutter curtain 3 is being closed. determine whether or not When the control unit 13 determines that the position P of the shutter curtain 3 has reached the lower limit position Pl, the control unit 13 determines that the shutter curtain 3 is in the fully closed state, and stops the closing operation of the shutter curtain 3. .

Here, for example, the recognition position P of the shutter curtain 3 is the position of the lowest end of the shutter curtain 3 (for example, the base board portion 3b). It is the count value N. That is, in this embodiment, the control unit 13 counts the position pulses and recognizes the position P of the shutter curtain 3 from the count value N thereof.

For example, as an initial setting, the control unit 13 presets the count value N when the shutter curtain 3 is in the fully open state as the threshold value Nuth. As an initial setting, the control unit 13 presets the count value N when the fully open shutter curtain 3 is lowered to the fully closed state as the threshold value Nlth, using the upper limit position Pu as a reference position. Then, the control unit 13 controls the shutter curtain to the fully open state or the fully closed state using the threshold value Nuth and the threshold value Nlth obtained by the initial setting. With the upper limit position Pu as the reference position, the count value N when the shutter curtain 3 in the fully open state is lowered to the fully closed state indicates the distance between the upper limit position Pu and the lower limit position Pl.

Specifically, when the shutter curtain 3 is closed, the control unit 13 updates the count value N by adding the number of position pulses (number of pulses) from the current count value N. go. Then, when the count value N reaches the threshold value Nlth, the control unit 13 determines that the position P of the shutter curtain 3 is the lower limit position Pl, that is, the shutter curtain 3 is in the fully closed state. On the other hand, the control unit 13 updates the count value N by subtracting the number of position pulses (number of pulses) from the current count value N during the opening operation of the shutter curtain 3 . Then, when the count value N reaches the threshold value Nuth, the control unit 13 determines that the position P of the shutter curtain 3 is the upper limit position, that is, the shutter curtain 3 is in the fully open state.

However, when the user operates the switching unit 9 to switch the opening/closing operation mode of the shutter curtain 3 from the electric mode to the manual mode, the shaft 6 (winding shaft) and the drive shaft of the motor 7 are disconnected. be Therefore, even if the user manually opens and closes the shutter curtain 3 in the manual mode, the output section 8 does not output the position pulse signal. Therefore, the controller 13 cannot recognize the position of the shutter curtain 3 in the manual mode. As a result, an error occurs between the actual current position of the shutter curtain 3 and the recognized position P recognized by the electric shutter device.

Therefore, the shutter device 1 according to the present embodiment corrects (including rewriting and updating) the recognition position P to a correct value when the opening/closing operation mode of the shutter curtain 3 is switched from the manual mode to the electric mode. process (hereinafter referred to as "return process"). That is, when the opening/closing operation mode of the shutter curtain 3 is switched from the manual mode to the electric mode, the shutter device 1 recognizes the correct recognition position P by executing the return processing.

Functional units of the control unit 13 for executing the restoration process of the shutter control device 10 according to one embodiment of the present invention will be described below with reference to FIG. FIG. 3 is a functional block diagram of the control section 13 for executing recovery processing of the shutter control device 10 according to one embodiment of the present invention.

The control unit 13 includes a storage unit 14 , a drive control unit 15 , a load detection unit 16 and a processing unit 17 .

The recognition position P is stored in the storage unit 14 by the processing unit 17 . For example, storage unit 14 is a volatile memory.

The drive control section 15 controls the opening/closing operation of the shutter curtain 3 based on the operation signal received from the operation section 2 .

When the drive control unit 15 acquires an operation signal from the operation unit 2 via the communication unit 11 when the manual mode is switched to the electric mode and the return process is not completed, the drive control unit 15 receives the operation signal from the storage unit 14 . Read the recognition position P. Based on the combination of the operation signal and the recognized position P, the drive control unit 15 selects which of the shutter curtain 3 opening operation and closing operation is to be executed, and executes the selected operation.

Specifically, after the manual mode is switched to the electric mode, the drive control unit 15 controls the shutter curtain 3 under the condition that the recognition position P is not the upper limit position Pu when the first operation signal is acquired. Execute the opening operation. Here, "the recognition position P is not the upper limit position Pu" means that the recognition position P is the lower limit position Pl, or that the recognition position P is in the middle between the upper limit position Pu and the lower limit position Pl (hereinafter , referred to as “midway position”).
Further, the drive control unit 15 performs the closing operation of the shutter curtain 3 under the condition that the recognition position P is not the lower limit position Pl when the second operation signal is acquired after the manual mode is switched to the electric mode. to run. Here, "the recognized position P is not the lower limit position Pl" indicates that the recognized position P is the upper limit position Pu or that the recognized position P is in the middle.

Furthermore, the drive control unit 15 stops the opening/closing operation of the shutter curtain 3 when an abnormality is detected by an abnormality detection process for detecting an abnormality in the load acting on the shutter curtain 3 during the opening/closing operation of the shutter curtain 3 . do.
Specifically, the drive control unit 15 stops the opening operation of the shutter curtain 3 when an abnormality in the load acting on the shutter curtain 3 is detected during the opening operation of the shutter curtain 3 . On the other hand, when an abnormality in the load acting on the shutter curtain 3 is detected during the closing operation of the shutter curtain 3, the drive control unit 15 stops the closing operation of the shutter curtain 3 and performs the opening operation. In the following, the transition from the closing operation of the shutter curtain 3 to the opening operation is referred to as "reversal rising".

The load detector 16 detects a load applied to the motor 7 (hereinafter referred to as "motor load"). The load detection unit 16 according to this embodiment includes a counter 161 and a load measurement unit 162 .

The counter 161 starts counting the number of position pulses when the return process is executed.

The load measuring section 162 measures the motor load based on the position pulse output from the output section 8 . Specifically, for example, the load measurement unit 162 measures the pulse width of the position pulse output from the output unit 8 as the motor load for each position pulse (for each count value N of the counter 161).

Here, the pulse width of the position pulse increases as the rotation speed of the motor 7 decreases, and decreases as the rotation speed of the motor 7 increases. That is, when the shutter curtain 3 reaches the upper limit position Pu and the baseboard 3b comes into contact with the mulch or the shutter box 5, the motor 7 is overloaded. As a result, the rotation speed of the motor 7 becomes slower and the pulse width of the position pulse becomes larger.
When the shutter curtain 3 reaches the lower limit position Pl and the base board 3b comes into contact with the floor or the lower frame, and the closing operation continues, the base board 3b presses against the floor or the lower frame. be in a state of As a result, a load is applied to the motor 7 and the motor 7 becomes overloaded. As a result, the rotation speed of the motor 7 becomes slower and the pulse width of the position pulse becomes larger.
Therefore, the load measurement unit 162 calculates the pulse width of the motor 7 as the motor load by measuring the pulse width of each position pulse (each count value N). The load measurement unit 162 associates the count value N with the motor load and outputs the result to the processing unit 17 .

The processing unit 17 includes an anomaly detection unit 171 , a selection unit 172 , an upper limit detection unit 173 , a lower limit detection unit 174 and a recognition unit 175 .

The abnormality detection unit 171 executes abnormality detection processing for detecting abnormality of the shutter curtain 3 during the opening/closing operation of the shutter curtain 3 in the electric mode. Here, the abnormality of the shutter curtain 3 is an abnormality of the load acting on the shutter curtain 3 . “Abnormal load” according to the present embodiment means that a load larger than that during a normal opening/closing operation, that is, an overload acts on the shutter curtain 3 . In this embodiment, the load acting on the shutter curtain 3 is the motor load.
Therefore, the abnormality detection unit 171 according to the present embodiment monitors the motor load output from the load detection unit 152 during the opening/closing operation of the shutter curtain 3, and detects the overload state of the motor 7 based on the motor load. determine whether or not For example, the abnormality detection unit 171 determines that the motor 7 is overloaded when the motor load or the rate of change of the motor load exceeds a threshold.

When the abnormality detection unit 171 determines that the motor 7 is in an overload state during the opening/closing operation of the shutter curtain 3, it determines that an abnormality has occurred in the shutter curtain 3, and drives the determination result. Send to the control unit 15 . It should be noted that this abnormality detection processing functions, for example, as obstacle detection for detecting that the shutter curtain 3 has come into contact with an obstacle. That is, the motor load becomes overloaded when the shutter curtain 3 comes into contact with the obstacle. For this reason, when the abnormality detection process detects an overloaded state of the motor load, the abnormality detection unit 171 stops the opening/closing operation of the shutter curtain 3 to prevent an obstacle such as a person or a carried object from being caught by the shutter curtain. prevent accidents caused by In other words, the abnormality detection process has an obstacle detection function for detecting that the shutter curtain 3 has come into contact with an obstacle in order to prevent an accident caused by an obstacle such as a person or an object being carried in by the shutter curtain 3. .

If the abnormality detection unit 171 detects an abnormality after the manual mode is switched to the electric mode, the selection unit 172 performs upper limit detection processing for detecting the fully open state of the shutter curtain 3 or Select one of the lower limit detection processes for detecting the fully closed state. For example, when the selection unit 172 determines that the manual mode has been switched to the electric mode based on the switching result from the switching unit 9, the selection unit 172 selects either the upper limit detection process or the lower limit detection process as the process used for the return process. do.

Specifically, for example, the selection unit 172 first detects an abnormality by the abnormality detection process during the opening operation after switching from the manual mode to the electric mode, and after the abnormality is detected, the close switch SWc is operated. When the second operation signal is obtained by the operation, the lower limit detection process is selected. However, the present invention is not limited to this, and the selection unit 172 selects the lower limit detection process when an abnormality is first detected by the abnormality detection process during the opening operation after switching from the manual mode to the electric mode. You may On the other hand, the selection unit 172 selects the upper limit detection process when an abnormality is first detected by the abnormality detection process during the closing operation after switching from the manual mode to the electric mode.

The upper limit detection unit 173 executes the upper limit detection process based on the motor load output from the load detection unit 16 when the upper limit detection process is selected by the selection unit 172 and the opening operation including the reverse upward movement is performed. . For example, the upper limit detector 173 determines whether the motor 7 is overloaded based on the motor load output from the load detector 16 . For example, in the upper limit detection processing mode, the upper limit detection unit 173 determines that the motor 7 is overloaded when the motor load or the rate of change of the motor load exceeds a threshold. When the upper limit detection unit 173 determines that the motor 7 is in an overloaded state in the upper limit detection process, it determines that the shutter curtain 3 is in a fully open state. For example, the upper limit detector 173 detects the upper limit position Pu by detecting an overloaded state of the motor 7 .

Here, as described above, the upper limit detection unit 173 uses the overload detection for detecting the overload state of the motor 7 based on the motor load for the upper limit detection process. 5 (upper limit position Pu), but at a position where the shutter curtain 3 is further opened from the upper limit position Pu and the shutter curtain 3 is tightened (hereinafter referred to as a "tightening position"). 7 detects overload conditions. However, the distance ΔH1 (for example, the count number of position pulses) between the seaming position and the upper limit position Pu can be obtained in advance by experiments or the like. Therefore, the upper limit detector 173 can obtain the upper limit position Pu from the seaming position using the known distance ΔH1. That is, the upper limit detector 173 can detect the upper limit position Pu by detecting the tightening position.

The lower limit detection unit 174 executes the lower limit detection process based on the motor load output from the load detection unit 16 when the lower limit detection process is selected by the selection unit 172 and the closing operation is performed. For example, the lower limit detector 174 determines whether the motor 7 is overloaded based on the motor load output from the load detector 16 . For example, the lower limit detector 174 determines that the motor 7 is overloaded when the motor load or the rate of change of the motor load exceeds a threshold. The lower limit detector 174 determines that the shutter curtain 3 is fully closed when the motor 7 is overloaded in the lower limit detection process. For example, the lower limit detector 174 detects the lower limit position Pl by detecting an overloaded state of the motor 7 .

Here, as described above, the lower limit detection unit 174 detects the overload state of the motor 7 based on the motor load. At the position where the shutter curtain 3 is further closed from the lower limit position Pl and the shutter curtain 3 pushes the floor surface or the lower frame (hereinafter referred to as the "pushed position"), the motor 7 detects overload conditions. However, the distance ΔH2 (for example, the number of position pulses counted) between the pressing position and the lower limit position Pl can be obtained in advance by experiments or the like. Therefore, the lower limit detection unit 174 can obtain the lower limit position Pl from the depression position using the known distance ΔH2. That is, the lower limit detection unit 174 can detect the lower limit position Pl by detecting the depressed position.

When the shutter curtain 3 reaches the pushed-in position, the shutter curtain 3 may be bent. Therefore, when the lower limit detection unit 174 detects that the motor 7 is overloaded, the drive control unit 15 stops the closing operation of the motor 7 and also closes the shutter curtain 3 to eliminate the deflection. The opening operation may be performed from the pushed position to the lower limit position Pl. For example, the drive control unit 15 obtains in advance the pulse number ΔK2 of the position pulse corresponding to the distance ΔH2 from the depression position to the lower limit position by experiments or the like, and reversely rotates the motor 7 by the pulse number ΔK2 to obtain the shutter. The shutter curtain 3 may be moved from the pushed position to the lower limit position Pl.
In the following description, the process of opening the shutter curtain 3 from the pushed position to the lower limit position Pl in order to eliminate the deflection of the shutter curtain 3 is referred to as "deflection process".

As described above, the processing unit 17 of the present embodiment performs the opening operation of the shutter curtain 3 as the first opening/closing operation after the abnormality of the shutter curtain 3 is first detected by the abnormality detection after switching from the manual mode to the electric mode. If so, the upper limit detection process is performed, and if the shutter curtain 3 is closed as the first opening/closing operation, the lower limit detection process is performed.

The recognition unit 175 recognizes the current position of the shutter curtain based on the count value N, and updates the recognized position P of the storage unit 14 to the recognized current position.
For example, when the count value N reaches the count value Nlth, the recognition unit 175 recognizes that the current position P of the shutter curtain is the lower limit position Pu, and updates the recognized position in the storage unit 14 to the lower limit position Pu. do. Further, when the count value N reaches the count value Nuth, the recognition unit 175 recognizes that the current position P of the shutter curtain is the upper limit position Pl, and updates the recognition position of the storage unit 14 to the upper limit position Pu. do.
When the count value N has not reached either the count value Nlth or the count value Nuth, the recognition unit 175 recognizes that the current position P of the shutter curtain is in the middle position, and recognizes the storage unit 14 . Update the position to the middle position.

When the overload of the motor 7 is detected in the upper limit detection process, the recognition unit 175 recognizes that the current position of the shutter curtain 3 is the tightening position, and tightens the recognition position P of the storage unit 14. Update to position.
When an overload of the motor 7 is detected in the lower limit detection process, the recognition unit 175 recognizes that the current position of the shutter curtain 3 is the pushed position, and shifts the recognition position P of the storage unit 14 to the pushed position. Update.

Next, the operation of the return processing according to this embodiment will be described. 4 to 6 are diagrams for explaining the operation of the restoration process according to this embodiment.

<When the shutter curtain 3 is manually moved from the lower limit position to the upper limit position or to the middle position>
While the shutter device 1 is energized, the user manually moves the shutter curtain 3 from the lower limit position (fully closed state) to the upper limit position (fully open state) or to an intermediate position in the manual mode, and then switches to the electric mode. Assume the case (FIG. 4(a)).
In this case, the controller 13 stores the lower limit position Pl as the recognition position P. Therefore, the control unit 13 does not close the shutter curtain 3 even if the close switch SWc is operated by the user. That is, in this case, only the opening operation of the shutter curtain 3 is effective. Therefore, when the open switch SWo is operated (when the first operation signal is received), the control section 13 activates the abnormality detection process of the motor 7 to open the shutter curtain 3 . Then, when the shutter curtain 3 reaches the tightening position above the upper limit position Pu, the control unit 13 detects an abnormality of the shutter curtain 3 by abnormality detection processing. Therefore, the control unit 13 stops the opening operation of the shutter curtain 3 when an abnormality of the shutter curtain 3 is detected by the abnormality detection process.
After that, when the close switch SWc is operated by the user (when the second operation signal is received), the control unit 13 closes the shutter curtain 3 and executes the lower limit detection process. Then, when the overload state of the motor 7 is detected by the lower limit detection process, the control section 13 recognizes that the current position of the shutter curtain 3 is at the pushed position, and shifts the recognition position P of the storage section 14 to the pushed position. Update. After that, the control unit 13 executes deflection elimination processing to update the recognition position P in the storage unit 14 to the lower limit position Pl. This completes the return processing in the present embodiment.

<When the shutter curtain 3 is manually moved from the upper limit position to the lower limit position or halfway position>
While the shutter device 1 is energized, the user manually moves the shutter curtain 3 from the lower limit position (fully open state) to the lower limit position (fully closed state) or to an intermediate position in the manual mode, and then switches to the electric mode. Assume the case (FIG. 4(b)).
In this case, the controller 13 stores the upper limit position Pl as the recognition position P. Therefore, the control unit 13 does not open the shutter curtain 3 even if the open switch SWo is operated by the user. That is, in this case, only the closing operation of the shutter curtain 3 is effective. Therefore, when the close switch SWc is operated (when the second operation signal is received), the control section 13 activates the abnormality detection process of the motor 7 to close the shutter curtain 3 . Then, when the shutter curtain 3 reaches the depressed position below the lower limit position Pu, the control unit 13 detects an abnormality of the shutter curtain 3 by the abnormality detection process. Therefore, when the abnormality of the shutter curtain 3 is detected by the abnormality detection process, the control unit 13 reverses and raises the shutter curtain 3, and executes the upper limit detection process together with the reverse and upward movement. Then, when the overload state of the motor 7 is detected by the upper limit detection process, the control unit 13 recognizes that the current position of the shutter curtain 3 is the tightening position, and tightens the recognized position P of the storage unit 14. Update to position. After that, the control unit 13 performs a release process of releasing the shutter curtain 3 from the closed position by opening the shutter curtain 3 by a known ΔH1 from the pressed position. After the release process, the control unit 13 updates the recognition position P in the storage unit 14 to the upper limit position Pu. This completes the return processing in the present embodiment.

<When the shutter curtain 3 is manually moved from the middle position to the upper limit position>
It is assumed that the user manually moves the shutter curtain 3 in the manual mode to the upper limit position (fully open state) while the shutter device 1 is energized, and then switches to the electric mode (FIG. 5). .
In this case, the control unit 13 stores the halfway position as the recognition position P. FIG. Therefore, the control unit 13 closes the shutter curtain 3 when the user operates the close switch SWc, and opens the shutter curtain 3 when the user operates the open switch SWo. That is, in this case, both the opening operation and the closing operation of the shutter curtain 3 are effective.

For example, as shown in FIG. 5A, when the open switch SWo is operated (when the first operation signal is received), the control unit 13 operates abnormality detection processing for the motor 7 to open the shutter curtain 3. Operate to open. Then, when the shutter curtain 3 reaches the tightening position, the control unit 13 detects an abnormality of the shutter curtain 3 by abnormality detection processing. Therefore, the control unit 13 stops the opening operation of the shutter curtain 3 when an abnormality of the shutter curtain 3 is detected by the abnormality detection process.
After that, when the close switch SWc is operated by the user (when the second operation signal is received), the control unit 13 closes the shutter curtain 3 and executes the lower limit detection process. Then, when the overload state of the motor 7 is detected by the lower limit detection process, the control section 13 recognizes that the current position of the shutter curtain 3 is at the pushed position, and shifts the recognition position P of the storage section 14 to the pushed position. Update. After that, the control unit 13 executes deflection elimination processing to update the recognition position P in the storage unit 14 to the lower limit position Pl. This completes the return processing in the present embodiment.

On the other hand, as shown in FIG. 5B, when the close switch SWo is operated after switching to the electric mode (when the second operation signal is received), the control unit 13 performs abnormality detection processing for the motor 7. actuated to close the shutter curtain 3. Then, although the shutter curtain 3 has not actually reached the lower limit position Pl, the recognition position P reaches the lower limit position Pl. stop closing. Therefore, the shutter curtain 3 is actually not in a fully closed state but in an open state. In this case, since the recognition position P is the lower limit position Pl, only the opening operation of the shutter curtain 3 is effective.
Therefore, when the open switch SWo is operated by the user, the control unit 13 opens the shutter curtain 3 together with the abnormality detection process. Here, in the opening operation, even if the shutter curtain 3 actually reaches the upper limit position Pu, the recognition position P does not reach the upper limit position Pu. Therefore, the control unit 13 detects an abnormality of the shutter curtain 3 by the abnormality detection process when the shutter curtain 3 exceeds the upper limit position Pu and reaches the tightening position. Therefore, the control unit 13 stops the opening operation of the shutter curtain 3 when an abnormality of the shutter curtain 3 is detected by the abnormality detection process.
After that, when the close switch SWc is operated by the user (when the second operation signal is received), the control unit 13 closes the shutter curtain 3 and executes the lower limit detection process. Then, when the overload state of the motor 7 is detected by the lower limit detection process, the control section 13 recognizes that the current position of the shutter curtain 3 is at the pushed position, and shifts the recognition position P of the storage section 14 to the pushed position. Update. After that, the control unit 13 executes deflection elimination processing to update the recognition position P in the storage unit 14 to the lower limit position Pl. This completes the return processing in the present embodiment.

<When the shutter curtain 3 is manually moved from the middle position to the lower limit position>
In the state where the shutter device 1 is energized, it is assumed that the user manually moves the shutter curtain 3 in the manual mode to the lower limit position (fully closed state) and then switches to the electric mode (FIG. 6). ).
In this case, the control unit 13 stores the halfway position as the recognition position P. FIG. Therefore, the control unit 13 closes the shutter curtain 3 when the user operates the close switch SWc, and opens the shutter curtain 3 when the user operates the open switch SWo. That is, in this case, both the opening operation and the closing operation of the shutter curtain 3 are effective.

For example, as shown in FIG. 6A, when the open switch SWo is operated (when the second operation signal is received), the control unit 13 operates abnormality detection processing of the motor 7 to open the shutter curtain 3. Operate to open. Then, although the shutter curtain 3 has not actually reached the upper limit position Pu, the recognition position P reaches the upper limit position Pu. Stop the opening action. Therefore, the shutter curtain 3 is not actually fully open. In this case, since the recognition position P is the upper limit position Pu, only the closing operation of the shutter curtain 3 is effective.
After that, when the close switch SWc is operated by the user (when the second operation signal is received), the controller 13 activates the abnormality detection process to close the shutter curtain 3 . Here, in the closing operation, even if the shutter curtain 3 actually reaches the lower limit position Pl, the recognition position P does not reach the lower limit position Pl. Therefore, the control unit 13 detects an abnormality of the shutter curtain 3 by the abnormality detection process when the shutter curtain 3 reaches the pushed-in position beyond the lower limit position Pl. Therefore, when the abnormality of the shutter curtain 3 is detected by the abnormality detection process, the controller 13 reverses and raises the shutter curtain 3 and executes the upper limit detection process. Then, when the control unit 13 detects the overload state of the motor 7 by the upper limit detection process, the control unit 13 recognizes that the current position of the shutter curtain 3 is the tightening position, and shifts the recognition position P of the storage unit 14 to the push-in position. update to Thereafter, the control unit 13 executes release processing to update the recognition position P in the storage unit 14 to the upper limit position Pu. This completes the return processing in the present embodiment.

On the other hand, as shown in FIG. 6B, when the close switch SWo is operated after switching to the electric mode (when the second operation signal is received), the control unit 13 performs abnormality detection processing for the motor 7. actuated to close the shutter curtain 3. Then, when the shutter curtain 3 reaches the pushed-in position, the control unit 13 detects an abnormality of the shutter curtain 3 by abnormality detection processing. Therefore, when the abnormality detection process detects an abnormality of the shutter curtain 3 , the controller 13 reverses and raises the shutter curtain 3 and executes the upper limit detection process. Then, when the control unit 13 detects the overload state of the motor 7 by the upper limit detection process, the control unit 13 recognizes that the current position of the shutter curtain 3 is the tightening position, and shifts the recognition position P of the storage unit 14 to the push-in position. update to Thereafter, the control unit 13 executes release processing to update the recognition position P in the storage unit 14 to the upper limit position Pu. This completes the return processing in the present embodiment.

Next, the operation flow of the return processing according to this embodiment will be described with reference to FIG. FIG. 7 is a flow diagram of return processing according to one embodiment of the present invention.

When the control unit 13 detects that the user has performed the second operation on the switching unit 9, that is, when switching from the manual mode to the electric mode, the switch operation of the operation unit 2 is performed. It is determined whether or not (step S101). This switch operation is an operation for opening or closing the shutter curtain 3, and is, for example, pressing an open switch SWo or a close switch SWc.

When receiving an operation signal from the operation unit 2, the control unit 13 determines whether a switch operation has been performed, and determines which of the open switch SWo and the closed switch SWc has been operated (step S102). On the other hand, when no operation signal is received from the operation unit 2, the control unit 13 determines that the switch operation is not performed, and returns to the processing of the switch S101.

In step S102, the control unit 13 determines that the open switch SWo has been operated when the first operation signal is received from the operation unit 2, and determines whether the current recognition position P is the upper limit position Pu ( step S103). When the control unit 13 determines that the current recognition position P is not the upper limit position Pu, the drive control unit 15 performs the opening operation and the abnormality detection unit 171 starts abnormality detection processing (step S104). However, when the control unit 13 determines that the current recognition position P is the upper limit position Pu, the process returns to the switch S101.

On the other hand, in step S102, when the second operation signal is received from the operation unit 2, the control unit 13 determines that the close switch SWc has been operated, and determines whether the current recognition position P is the lower limit position Pl. (step S105). When the control unit 13 determines that the current recognition position P is not the lower limit position Pl, the drive control unit 15 performs the closing operation and the abnormality detection unit 171 starts abnormality detection processing (step S106).

The abnormality detection unit 171 performs abnormality detection processing in the opening operation in step S104, and periodically determines whether or not an abnormality has occurred in the shutter curtain 3 before the recognition position P reaches the upper limit position Pu (step S107).
That is, the processing unit 17 determines whether or not an abnormality of the shutter curtain 3 has been detected, and if the abnormality has not been detected, determines whether or not the current recognition position P has reached the upper limit position Pu. Determine (step S108). If the processing unit 17 determines that the current recognition position P has not reached the upper limit position Pu (for example, if the counter value N has reached the threshold value Nuth), the process returns to step S107.

If the abnormality detection unit 171 detects an abnormality of the shutter curtain 3 before the recognition position P reaches the upper limit position Pu (step S107: YES), the drive control unit 15 stops the opening operation of the shutter curtain 3. (step S109). Then, the control unit 13 waits for the user to operate the close switch SWc (step S110). Then, the control unit 13 does not accept the operation of the open switch SWo in step S110. For example, in step S110, the control unit 13 does not perform the opening operation even if the first operation signal is received. Therefore, when the second operation signal is not received in step S110, the control unit 13 determines that the close switch SWc is not operated by the user, and performs the process of step S110 again.
Upon receiving the second operation signal in step S110, the drive control unit 15 determines that the close switch SWc has been operated by the user, and starts closing the shutter curtain 3 (step S111). The processing unit 17 also selects the lower limit detection process as the process to be used as the return process, and executes the selected lower limit detection process triggered by the closing operation of the shutter curtain 3 in step S111 (step S112).

In the lower limit detection process, when the overload state of the motor 7 is detected, the processing unit 17 stops the closing operation of the shutter curtain 3 and recognizes that the shutter curtain 3 is in the fully closed state (step S113). For example, when the overload state of the motor 7 is detected by the lower limit detection process, the processing unit 17 recognizes that the shutter curtain 3 is in the fully closed state and has reached the push-in position, and pushes the recognition position P. Update to position. After that, the drive control unit 15 executes deflection elimination processing (step S114). Therefore, when the deflection elimination process is completed, the processing unit 17 recognizes that the recognized position P has reached the lower limit position Pl, and updates the recognized position P to the lower limit position Pl.

When the recognition position P reaches the upper limit position Pu without detecting an abnormality of the shutter curtain 3 in the abnormality detection processing by the processing unit 17 (step S108: YES), the drive control unit 15 performs the opening operation of the shutter curtain 3. is stopped (step S115). And the control part 13 returns to the process of step S101.

On the other hand, the abnormality detection unit 171 performs abnormality detection processing in the closing operation in step S106, and periodically determines whether or not an abnormality has occurred in the shutter curtain 3 before the recognition position P reaches the lower limit position Pl. (step S116).
That is, the processing unit 17 determines whether or not an abnormality of the shutter curtain 3 has been detected, and if the abnormality has not been detected, determines whether or not the current recognition position P has reached the lower limit position Pl. Determine (step S117). If the processing unit 17 determines that the current recognition position P has not reached the lower limit position Pl (for example, if the counter value N has reached the threshold value Nlth), the process returns to step S116.

If the abnormality detection unit 171 detects an abnormality of the shutter curtain 3 before the recognition position P reaches the lower limit position Pl (step S116: YES), the drive control unit 15 reverses and raises the shutter curtain 3. (Step S118). Further, the processing unit 17 selects the upper limit detection process as the process to be used as the return process, and executes the selected upper limit detection process triggered by the reversal rise (step S119).

In the upper limit detection process, when the overload state of the motor 7 is detected, the processing unit 17 stops the opening operation of the shutter curtain 3 and recognizes that the shutter curtain 3 is fully open (step S120). For example, when the overload state of the motor 7 is detected by the upper limit detection process, the processing unit 17 recognizes that the shutter curtain 3 is in the fully open state and has reached the tightening position, and winds the recognition position P. Update to tightened position. After that, the drive control unit 15 executes release processing. Therefore, when the release process is completed, the processing unit 17 recognizes that the recognized position P has reached the upper limit position Pu, and updates the recognized position P to the upper limit position Pu.

When the recognition position P reaches the lower limit position Pl without detecting an abnormality of the shutter curtain 3 in the abnormality detection processing by the processing unit 17 (step S117: YES), the drive control unit 15 closes the shutter curtain 3. is stopped (step S121). And the control part 13 returns to the process of step S101.

Although the embodiment of the present invention has been described in detail with reference to the drawings, the specific configuration is not limited to this embodiment, and design and the like are included within the scope of the gist of the present invention.

(Modification 1) In the above-described embodiment, the shutter curtain 3 may be configured with any member or structure. For example, the shutter curtain 3 may be formed of a plurality of slats 3a, may be formed of a sheet, or may be partially formed of a plurality of slats 3a.

(Modification 2) In the above-described embodiment, the load detection unit 16 uses the pulse width of the position pulse as the motor load. However, the present invention is not limited to this. It doesn't have to be. For example, the load detector 16 may detect the motor load by detecting the torque of the motor 7 using a known technique.

(Modification 3) In the above embodiment, the controller 13 uses overload detection of the motor 7 as the upper limit detection process and the lower limit detection process, but the present invention is not limited to this. That is, the control unit 13 may execute the upper limit detection process and the lower limit detection process without using the motor load. For example, the shutter device 1 may include an upper limit position detection mechanism such as a sensor or switch that detects that the lowest end (for example, the baseboard portion 3b) of the shutter curtain 3 has reached the upper limit position Pu.
That is, the control unit 13 may execute the upper limit detection process using the upper limit position detection mechanism. In this case, the control unit 13 detects the upper limit position Pu when the upper limit position detection mechanism detects that the lowest end of the shutter curtain 3 has reached the upper limit position Pu.
Further, the shutter device 1 may include a lower limit position detection mechanism such as a sensor or switch that detects that the lowermost end (for example, the baseboard portion 3b) of the shutter curtain 3 has reached the lower limit position Pl. That is, the control unit 13 may execute the lower limit detection process using the lower limit position detection mechanism. In this case, the control unit 13 detects the lower limit position Pl when the lower limit position detection mechanism detects that the lowest end of the shutter curtain 3 has reached the lower limit position Pl.
Note that the control unit 13 uses overload detection of the motor 7 for one of the upper limit detection process and the lower limit detection process, and uses a position detection mechanism such as a sensor or switch (upper limit position detection mechanism or lower limit position detection mechanism) for the other. ) may be used.

(Modification 4) In the above-described embodiment, the control unit 13 executes the deflection elimination process. may Further, the control unit 13 does not need to execute the deflection elimination process if the overload detection of the motor 7 is not used as the lower limit detection process.

(Modification 5) In the above-described embodiment, during the lower limit detection process, if the moving distance H of the shutter curtain 3 when the shutter curtain 3 is closed is not equal to or greater than the predetermined distance Hth, the control unit 13 3 may be opened by a predetermined distance Hth or more, the shutter curtain 3 may be closed again, and retry processing may be executed to execute the lower limit detection processing. The predetermined distance Hth is a distance at which the load detector 16 can obtain a sufficient amount of position pulses to detect the lower limit position Pl by overload detection.

As described above, the shutter device 1 according to one embodiment of the present invention has an electric mode in which the shutter curtain 3 is electrically opened and closed, a manual mode in which the shutter curtain 3 can be manually opened and closed while the current is being supplied, is switchable.
The shutter device 1 includes a control unit 13 that performs abnormality detection for detecting an abnormality in the load acting on the shutter curtain 3 during the opening/closing operation in the electric mode. Then, when the control unit 13 detects an abnormality by the above-described abnormality detection after switching from the manual mode to the electric mode, the control unit 13 performs an upper limit detection process of opening the shutter curtain 3 and detecting the fully open state of the shutter curtain 3. , or the lower limit detection process of closing the shutter curtain and detecting the fully closed state of the shutter curtain 3, thereby recognizing the position P of the shutter curtain.

According to such a configuration, even if the shutter curtain is manually operated while the power is on, the correct position of the shutter curtain 3 can be recognized without turning off the power and executing the power failure recovery operation. Therefore, even if the shutter curtain is manually operated while the power is on, the shutter curtain 3 can be electrically opened and closed without turning off the power and executing the power failure recovery operation.

Further, according to the above configuration, even if the shutter curtain is manually operated while the power is on, the power failure recovery operation is not forced.
That is, when the user manually operates the shutter curtain 3 in the manual mode while the power is on and then switches to the electric mode, the user does not need to perform a special operation on the operation unit 2, and can perform the following operations in the same manner as during normal use. The close switch SWc or the open switch SWu may be pressed. Therefore, the accurate position of the shutter curtain 3 can be recognized without imposing a burden on the user.

All or part of the control unit 13 in the above-described embodiment may be realized by a computer. In this case, the computer may include a processor such as a CPU or GPU and a computer-readable recording medium. Then, a program for implementing all or part of the functions of the learning device A on a computer is recorded on the computer-readable recording medium, and the program recorded on the recording medium is read by the processor and executed. It may be realized by The term "computer-readable recording medium" as used herein refers to portable media such as flexible disks, magneto-optical disks, ROMs, and CD-ROMs, and storage devices such as hard disks incorporated in computer systems. Furthermore, "computer-readable recording medium" means a medium that dynamically retains a program for a short period of time, like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. It may also include something that holds the program for a certain period of time, such as a volatile memory inside a computer system that serves as a server or client in that case. Further, the program may be for realizing a part of the functions described above, or may be capable of realizing the functions described above in combination with a program already recorded in the computer system, It may be implemented using a programmable logic device such as FPGA.

A Shutter system 1 Shutter device 2 Operation unit 3 Shutter curtain 13 Control unit 14 Storage unit 15 Drive control unit 16 Load detection unit 17 Processing unit

Claims (4)

A shutter device capable of switching between an electric mode in which the shutter curtain is electrically opened and closed and a manual mode in which the shutter curtain is manually opened and closed while the shutter curtain is energized,
a control unit that detects an abnormality in the load acting on the shutter curtain during the opening/closing operation in the electric mode;
When the abnormality is detected by the abnormality detection after the switching from the manual mode to the electric mode, the control unit performs an upper limit detection for opening the shutter curtain and detecting a fully open state of the shutter curtain. recognizing the position of the shutter curtain by executing either a process or a lower limit detection process of closing the shutter curtain and detecting the fully closed state of the shutter curtain ,
The control unit
a storage unit storing position information of the shutter curtain in the electric mode;
a drive control unit that controls the opening/closing operation based on a combination of an operation signal instructing the opening or closing operation of the shutter curtain and the position information received from an operation unit;
When the opening operation of the shutter curtain is performed as the first opening/closing operation after the abnormality is detected by the abnormality detection after switching from the manual mode to the electric mode, the upper limit detection processing is performed, a processing unit that performs the lower limit detection process when the closing operation of the shutter curtain is performed as the first opening/closing operation,
The upper limit detection process detects a tightening position at which a motor that drives the shutter curtain is overloaded, and obtains the upper limit position using a distance between the previously obtained tightening position and the upper limit position. ,
The lower limit detection process detects a depression position at which the motor is overloaded, and obtains the lower limit position using a previously obtained distance between the depression position and the lower limit position. Device. The control unit executes either the upper limit detection process or the lower limit detection process when the abnormality is first detected in the abnormality detection after switching from the manual mode to the electric mode. 2. The shutter device according to claim 1, wherein the position of the shutter curtain is recognized by . The drive control unit receives an operation signal indicative of the closing operation transmitted from the operation unit when the abnormality is detected in the opening operation after switching from the manual mode to the electric mode. perform the closing operation when
3. The shutter device according to claim 2 , wherein the processing unit executes the lower limit detection processing triggered by execution of the closing operation. When the drive control unit detects the abnormality in the closing operation after switching from the manual mode to the electric mode, the drive control unit reverses and raises the shutter curtain without receiving the operation signal,
The shutter device according to claim 2 or 3 , wherein the processing unit executes the upper limit detection process with execution of the reverse rise as a trigger.

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