JP2014088744A - Electric shutter device for building - Google Patents

Abstract

In an electric shutter device for construction, standby power is reduced.
An operation signal input device for inputting an operation signal from a transmitter and a pushbutton switch and outputting the operation signal to a switch, and for an opening and closing device for inputting power from a battery and outputting the power to the switch. A power supply circuit 14 and a power supply control means 17 for controlling opening and closing of the switch power supply circuit 14 are provided, and the switch power supply circuit 14 is provided only for a set time after the operation signal is input to the operation signal input device 9. The power supply to the switch 5 is closed and power is supplied to the switch 5, and the power supply circuit 14 for the switch is opened to cut off the power supply to the switch 5. While the power supply circuit 14 for the machine is open, it is configured to perform intermittent reception that repeats reception operation-pause.
[Selection] Figure 2

Description

  The present invention relates to the technical field of an electric shutter device for building installed in an opening of a building.

In general, an electric shutter device for building is opened or closed based on an open / close stop (open, close, stop) operation signal from a pushbutton switch or based on an open / close remote operation (remote control) signal issued from a transmitter. The shutter curtain is opened and closed by driving the machine. In such an electric shutter device, since the power is always supplied to the switch even when the shutter curtain is stopped (standby), there is a problem that standby power is consumed. In particular, in the case where the shutter curtain is opened / closed by an operation signal from a transmitter, conventionally, the receiver receives the operation signal from the transmitter, and opens / closes the shutter curtain based on the received operation signal. Power is supplied in a relationship of being connected in parallel to the squeezing switch, and therefore standby power is consumed not only in the switch but also in the receiver. And for example, most of the window shutters built on the windows of a building are in a standby state for most of the day and have only a few minutes of opening and closing operation, so that most of the total power consumption is Standby power occupies and this standby power hinders energy saving.
In recent years, the introduction of a solar system using a solar cell and a battery has also been attempted in an electric shutter device for building (see, for example, Patent Document 1), but the capacity is limited as in the solar system. In the case of using a battery as a power source, if the power consumption by standby power is large, both the power generation capacity and the battery capacity must be increased, and there is a problem that the solar system device is enlarged.
Therefore, as a technique for suppressing standby power consumption, when the electric blind is in the energy saving mode, the power supply to the drive motor that drives the blind and the motor control unit that controls the operation of the drive motor is cut off. Such a configuration is known (see Patent Document 2).

JP-A-7-102866 JP 2011-89333 A

  However, in the above-mentioned Patent Document 2, the mode is switched between the normal mode and the energy saving mode based on the command signal output by the operation of the command source (operation switch or central control device), and the drive motor is only in the energy saving mode. And it is comprised so that the power supply to a motor control part may be interrupted | blocked. For this reason, not only is the operation of switching the mode of the command source necessary and troublesome, but if the command source neglects the mode switch operation to the energy saving mode even though the blind is stopped (standby), the drive motor and motor There is a problem that power is supplied to the control unit and consumes standby power, which is a problem to be solved by the present invention.

The present invention was created in view of the above-described circumstances to solve these problems, and the invention of claim 1 provides a shutter curtain that opens and closes an opening, and an operation that opens and closes the shutter curtain. In an architectural electric shutter device comprising: an opening / closing switch; and an operation signal input device that inputs an operation signal transmitted from a transmitter or / and an operation signal output from a pushbutton switch and outputs the operation signal to the switch. The operation signal input device is provided with a power supply circuit for a switch that inputs power from a power source and outputs the power to the switch, and a power control unit that controls opening and closing of the power circuit for the switch, and the power control The means is that the power supply circuit for the switch is normally opened to cut off the power supply to the switch, and during the set time set in advance after the operation signal is input to the operation signal input device Only architectural electric shutter apparatus characterized by closing the power supply circuit for the driving device is a power supply configured to open and close unit.
According to a second aspect of the present invention, in the first aspect, the set time is a time set in advance as a time required for the shutter curtain to open and close between fully closed and fully open. This is an electric shutter device.
According to a third aspect of the present invention, in the first or second aspect, the operation signal input device includes a receiving unit that receives the operation signal from the transmitter, and a receiving unit control unit that controls power supply to the receiving unit. At the same time, the receiving unit control means intermittently supplies power so that the receiving unit repeats the reception operation-pause at a predetermined duty ratio set in advance at least while the power supply circuit for the switch is open. It is the electric shutter device for buildings characterized by these.
According to a fourth aspect of the present invention, when the transmitter is operated to transmit the operation signal in the third aspect, the transmitter transmits the operation signal for a time longer than one cycle of the receiving operation of the receiving unit-pause. It is set so that it may carry out, It is an electric shutter device for construction.
According to a fifth aspect of the invention, in the electric shutter apparatus for building according to the third or fourth aspect, the receiving unit control means always supplies power to the receiving unit while the power supply circuit for the switch is closed. It is.
The invention of claim 6 is the operation signal input device according to any one of claims 1 to 5, during the start-up preparation time from the closing of the switch power supply circuit to the completion of the switch start-up process. An electric shutter device for building, comprising a memory means for holding an operation signal input to the operation signal input device.
According to a seventh aspect of the present invention, in the sixth aspect, when a new operation signal is input to the operation signal input device during the startup preparation time, the memory means performs a new operation on the operation signal already held. An electric shutter device for architecture, which is rewritten into a signal and holds the new operation signal.
According to an eighth aspect of the present invention, in any one of the first to seventh aspects, the power control means is configured such that a new operation signal is input to the operation signal input device during a set time during which the switch power supply circuit is closed. When the new operation signal is input, the switch circuit power supply circuit is closed for the set time, while when the new operation signal is not input within the set time, the switch power supply circuit is turned off. It is an electric shutter device for construction characterized by opening.

By setting it as invention of Claim 1, the standby power consumed by the switch can be greatly reduced, which can greatly contribute to energy saving.
By setting it as invention of Claim 2, the significant reduction of standby electric power can be achieved reliably.
According to the invention of claim 3, standby power consumed by the operation signal input device can be greatly reduced, which can contribute to further energy saving.
By setting it as invention of Claim 4, even if the receiving part is receiving intermittently, the operation signal transmitted from the transmitter can be received reliably.
According to the fifth aspect of the present invention, response delay due to intermittent reception can be eliminated in a state where power is supplied to the switch.
By setting it as invention of Claim 6, generation | occurrence | production of the malfunction resulting from an operation signal being input into a switch without the starting process being completed can be avoided reliably.
According to the seventh aspect of the present invention, even when the transmitter or the push button switch is newly operated during the startup preparation time, the shutter curtain can be opened and closed in response to the new operation.
According to the eighth aspect of the present invention, even when a new operation signal is input within the set time, the shutter curtain opening / closing operation based on the new operation signal can be completed.

It is a front view of the electric shutter device for construction. It is a block diagram which shows the structure of the control part of the electric shutter device for buildings. It is a flowchart figure which shows the control procedure of the operation signal input device.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In the drawings, reference numeral 1 denotes an architectural electric shutter device installed in an opening of a building entrance / exit or a window, and the shutter curtain 2 constituting the electric shutter device for building 1 is disposed above the opening. By being wound around the winding drum 3 and being unwound, it is basically moved up and down while being guided by guide rails 4 standing on both sides of the opening to open and close the opening. All the configurations are the same as in the past.

  Further, reference numeral 5 denotes an opening / closing machine linked to the winding drum 3 to open / close the shutter curtain 2, and the opening / closing machine 5 includes an opening / closing drive of the drive motor 6, the speed reducer 7, and the drive motor 6. The motor control part 8 which performs control is provided. As will be described later, power is supplied to the switch 5 via an operation signal input device (receiver) 9, and an operation signal output from the operation signal input device 9 is sent to the motor control unit 8. By being input, the opening / closing drive control of the drive motor 6 is performed based on the operation signal.

  The operation signal input device 9 includes an antenna 11 that receives an operation signal transmitted from a remote operation transmitter (remote controller) 10, and a sub-control unit 12 that controls reception of the antenna 11. A control unit 13 and a switch power supply circuit 14 are provided. The antenna 11 and the sub control unit 12 constitute a receiving unit of the present invention.

  The transmitter 10 includes an opening operation switch PBU, a closing operation switch PBD, and a stop operation switch PBS. The operation signal transmitted from the transmitter 10 is the operation signal. By being received by the input device 9 and outputted from the operation signal input device 9 to the motor control unit 8 of the switch 5, the opening / closing drive control of the drive motor 6 based on the switch operation of the transmitter 10 is performed. It has become.

  Further, the operation signal input device 9 is electrically connected to a push button switch 23 installed adjacent to the guard rail 4. The push button switch 23 is a conventional one provided with an opening operation switch PBU, a closing operation switch PBD, and a stop operation switch PBS, and the operation signal output from the push button switch 23 is By being input to the operation signal input device 9 and output from the operation signal input device 9 to the motor control unit 8 of the switch 5, the opening / closing drive control of the drive motor 6 based on the switch operation of the pushbutton switch 23 is performed. It is like that.

  On the other hand, the switch power supply circuit 14 provided in the operation signal input device 9 is a circuit that inputs power from the battery 15 provided as a power source to the building electric shutter device 1 and outputs it to the switch 5. The switch power supply circuit 14 is provided with an open / close switch 16. The open / close switch 16 is configured to open and close the switch power supply circuit 14 based on a command signal from a power supply control means 17 provided in the main control unit 13, and the switch power supply circuit 14 In the closed state, power from the battery 15 is supplied to the switch 5 to start the motor control unit 8 and drive the drive motor 6 based on the control of the motor control unit 8. In a state where the switch power supply circuit 14 is open, the power supply from the battery 15 to the switch 5 is cut off and the motor control unit 8 does not start, and the drive motor 6 based on the control of the motor control unit 8 does not start. In addition to being unable to drive, standby power consumed by the switch 5 can be eliminated.

Here, as described above, the power supply of the switch 5 is shut off by opening the power circuit 14 for the switch, but information on the position, stroke, etc. of the shutter curtain 2 even when the power supply is cut off. The motor control unit 8 of the switch 5 is provided with a non-volatile memory (for example, EEPROM, not shown) that stores the above information.
Further, in the present embodiment, the battery 15 is configured to be charged by the electric power generated by the solar cell 18 to save energy, but another power source, for example, a commercial power source is used. Even so, it goes without saying that the present invention can be implemented. Reference numeral 19 denotes a power-on power switch (connector) provided between the battery 15 and the operation signal input device 9.

On the other hand, power from the battery 15 is input to the main control unit 13 of the operation signal input device 9, and the power control unit 17 and the signal control unit 20 are provided.
The signal control means 20 performs control for outputting the operation signal received from the antenna 11 from the transmitter 10 and the operation signal input from the push button switch 23 to the switch 5, and the sub-control unit 12. Sub-control section control means (corresponding to the reception section control means of the present invention) 21 for controlling the power supply to the memory, and memory means 22 for holding operation signals.

  Next, the control performed by each control means provided in the operation signal input device 9 will be described based on the flowchart shown in FIG. Here, when the operation signal input device 9 is turned on with the power switch 19 turned on, the operation signal input device 9 first enters a registerable mode for registering the unique code of the transmitter 10, and a predetermined signal is input during the registerable mode. Is transmitted from the transmitter 10, the registration mode is activated. Then, after the registration enable mode or the registration mode is canceled, the mode shifts to a normal mode in which the opening / closing drive control of the drive motor 6 is performed based on an operation signal from the transmitter 10 or the push button switch 23. Description of the control will be omitted, and control in the normal mode will be described. In the normal mode, the control when the transmitter 10 is operated is the same as the control when the push button switch 23 is operated. First, the control when the transmitter 10 is operated will be described. .

When the normal mode is started, the main control unit 13 of the operation signal input device 9 first executes standby state control (step S1).
In the standby state control, the power control means 17 outputs a command signal to the open / close switch 16 so that the switch power supply circuit 14 is always opened. Thereby, the power supply from the battery 15 to the switch 5 is cut off, so that the switch 5 does not consume standby power.

  Further, in the standby state control, the sub-control unit control means 21 intermittently powers the sub-control unit 12 so that the sub-control unit 12 repeats reception operation-pause at a predetermined duty ratio set in advance. Supply. Thereby, the sub-control unit 12 enters an intermittent reception state (sleep mode state) in which transmission from the transmitter 10 is intermittently received. The duty ratio is set so that the pause time is longer than the reception operation time (for example, the duty ratio is set to 1/10, the reception operation time is 0.05 seconds, and the pause time is 0.45 seconds). To do). Thereby, the standby power consumed by the sub-control unit 12 can be significantly reduced.

  Here, when the transmitter 10 operates a switch of the transmitter 10 to transmit an operation signal, for a predetermined time T1 slightly longer than one cycle of the reception operation-pause of the sub-control unit 12 (for example, When one cycle of the reception operation-pause is 0.5 seconds, the operation signal is set to be transmitted) (approximately 0.7 seconds longer than 0.5 seconds). Thereby, even if the sub-control unit 12 is in the intermittent reception state, the operation signal transmitted from the transmitter 10 can be reliably received. When a switch of the transmitter 10 is operated for a time longer than the predetermined time T1, an operation signal is output from the transmitter 10 while the switch is operated.

  Further, the main control unit 13 always determines whether or not an operation signal has been received from the transmitter 10 during execution of the standby state control (step S2). If the determination in step S2 is “NO”, that is, if it is determined that the operation signal is not received, the standby state control is continued.

  On the other hand, if the determination in step S2 is “YES”, that is, if it is determined that the operation signal has been received, the power control means 17 instructs the open / close switch 16 to close the switch power circuit 14. Is output (step S3). As a result, power is supplied from the battery 15 to the switch 5.

  Further, when it is determined in step S2 that “YES”, that is, it is determined that the operation signal has been received, the sub-control unit control means 21 always releases the sub-control unit 12 to cancel the intermittent reception state. Electric power is supplied (step S4). As a result, the sub-control unit 12 is in a constantly receiving state in which the operation signal from the transmitter 10 is constantly received, and thus the operation signal from the transmitter 10 is input to the signal control unit 20 without being sent as a response.

  After the processing of step S3 and step S4, the main control unit 13 continues to have a startup preparation time T2 that is set in advance after the switch power circuit 14 is closed (after the open / close switch 16 is closed from the open state). It is determined whether the time has elapsed (step S5).

  If it is determined in step S5 that “NO”, that is, it is determined that the startup preparation time T2 (for example, about 1 second) has not elapsed since the switching circuit power supply circuit 14 is closed, the startup preparation control ( Step S6) is executed. Here, the start-up preparation time T2 is set in advance as a time required from when power is supplied to the switch 5 until the start-up process is completed and stabilized.

  In the startup preparation control, the signal control means 20 holds the operation signal transmitted from the transmitter 10 and received in the memory means 22. When a new operation signal is received from the transmitter 10 during the start preparation control, that is, during the start preparation time T2, the operation signal already held is rewritten to the new operation signal. Hold the signal. The start preparation control is continued for the start preparation time T2 after the switch power supply circuit 14 is closed.

  On the other hand, if the determination in step S5 is “YES”, that is, if it is determined that the start-up preparation time T2 has elapsed since the switch circuit power supply circuit 14 was closed, the process proceeds to energization state control (step S7). .

  When shifting to the energization state control, the signal control unit 20 first outputs an operation signal stored in the memory unit 22 to the motor control unit 8 of the switch 5 and then stores the data stored in the memory unit 22. clear. Further, in the energization state control, when receiving the operation signal from the transmitter 10, the signal control unit 20 outputs the operation signal to the motor control unit 8 of the switch 5 without being stored in the memory unit 22. To do. Thereby, the opening / closing drive control of the drive motor 6 is performed based on the operation signal stored in the memory means 22 or the operation signal transmitted from the transmitter 10.

  The energization state control is executed for a preset time T3 after the switch circuit power supply circuit 14 is closed, but when a new operation signal is received from the transmitter 10 during the preset time T3. Is executed during the set time T3 after receiving the new signal, and when no new operation signal is received within the set time T3, the process proceeds to the standby state control.

  That is, the main control unit 13 performs the operation stored in the memory means 22 when the latest operation signal is not received during execution of the energization state control (when a new operation signal is not received during execution of the normal state control). It is determined whether or not the set time T3 has elapsed since the reception of the latest operation signal (step S8). In this determination, “NO”, that is, the set time after receiving the latest operation signal. When it is determined that T3 has not elapsed, the energization state control is continued. On the other hand, if “YES”, that is, if it is determined that the set time T3 has elapsed since the latest operation signal was received, the process proceeds to standby state control.

  Here, the set time T3 is a time set in advance as a time required for the shutter curtain 2 to open and close between fully closed and fully open. In the present embodiment, the opening and closing of the shutter curtain 2 is performed. A time with a slight margin added to the time actually required for the operation is set (for example, if the actual time required for the opening / closing operation is 50 seconds, the set time T3 is set to a longer time, for example, 65 seconds. To do). As a result, even after the set time T3 has elapsed since the latest operation signal was received, the shutter curtain 2 stops in the middle of the opening / closing operation even if the standby state control is entered and the power supply to the switch 5 is cut off. It can be surely avoided.

  Next, control when the pushbutton switch 23 is operated will be described. Since this control is the same as that when the transmitter 10 is operated, the control will be briefly described. First, in the state in which the standby state control in step S1 of FIG. 3 described above (the switch circuit power supply circuit 14 is normally open and the sub control unit 12 is intermittently supplied with power) is being executed, the pushbutton switch 23 When the operation signal is input to the operation signal input device 9, the processes of steps S3 and S4 are performed. In other words, the power supply control means 17 outputs a command signal to the open / close switch 16 so as to close the open / close power supply circuit 14, thereby supplying power to the open / close machine 5. In addition, the sub control unit control means 21 always supplies power to the sub control unit 12 and is always in a receiving state. Subsequently, it is determined in step S5, that is, whether or not the start-up preparation time T2 has elapsed since the switching circuit power supply circuit 14 was closed, and if the start-up preparation time T2 has not elapsed, the step S6 Start preparation control (saving the operation signal in the memory means 22). On the other hand, when the startup preparation time T2 has elapsed since the power supply circuit 14 for the switch was closed, the process proceeds to the energization state control (outputs the operation signal to the switch 5) in step S7. Then, during the energization state control, when the set time T3 has not elapsed since the latest operation signal was input, the energization state control is continued, and the set time T3 is determined after the latest operation signal is input. If it has elapsed, the process proceeds to the standby state control.

  In the present embodiment configured as described, the architectural electric shutter device 1 includes an opening / closing device 5 that opens and closes the shutter curtain 2, an operation signal transmitted from the transmitter 10, and an operation output from the push button switch 23. An operation signal input device 9 that inputs a signal and outputs the signal to the switch 5 is provided. The operation signal input device 9 receives power from a battery (power source) 15 and outputs the power to the switch 5. And a power supply control means 17 for controlling the opening and closing of the switch power supply circuit 14. The power supply control means 17 keeps the switch power supply circuit 14 open at all times. The power supply to the switch 5 is cut off, the switch circuit power supply circuit 14 is closed for a preset time T3 after the operation signal is input to the operation signal input device 9, and the switch 5 is turned on. It will be fed.

  As a result, the switch 5 is supplied with power via the switch power circuit 14 provided in the operation signal input device 9 and is output from the operation signal transmitted from the transmitter 10 or the push button switch 23. The power is shut off until an operation signal is input to the operation signal input device 9, and power is supplied by closing the switch power circuit 14 for a set time T3 after the operation signal is input, When the set time T3 elapses, the power supply circuit 14 for the switch is opened to shut off the power. Accordingly, the switch 5 is automatically turned off except for the set time T3 after the operation signal is input. As a result, the standby power consumed by the switch 5 can be greatly reduced. Can contribute greatly to energy saving. Further, as in the present embodiment, when the battery 15 charged by the power generated by the solar cell 18 is used as a power source, the standby power is reduced, thereby reducing the size of the solar cell 18 or the battery 15. Can contribute to cost reduction and space saving. In addition, since the operation signal input device 9 to which the operation signals from the transmitter 10 and the push button switch 23 are input is provided with the switch power supply circuit 14 and the power supply control means 17, these are other than the operation signal input device 9. Unlike the case where it is intended to be provided at another location, wiring for transmitting a signal from the operation signal input device 9 to another location is not required, and the wiring can be simplified.

  Further, the set time T3 is set to a time required for the shutter curtain 2 to open and close between the fully closed state and the fully opened state. As a result, the power supply can be reliably prevented from being interrupted during the opening / closing operation of the shutter curtain 2, and the power supply time is limited to the time required for the opening / closing operation of the shutter curtain 2. Can be reliably achieved.

  In addition, the power control means 17 for controlling the opening / closing of the switch power circuit 14 receives a new operation signal from the operation signal input device 9 during the set time T3 when the switch power circuit 14 is closed. When input, the switch power supply circuit 14 is closed for the set time T3 after the new operation signal is input. On the other hand, when no new operation signal is input within the set time T3, the switch is opened / closed. Since the machine power supply circuit 14 is configured to open, when a new operation signal is input within the set time T3, for example, the shutter curtain 2 is temporarily stopped during the opening / closing operation of the shutter curtain 2 and then restarted within a short time. In this case, it is possible to complete the opening / closing operation of the shutter curtain 2 based on a new operation signal without shutting off the power supply of the opening / closing device 5 during the temporary stop or re-operation. That.

Furthermore, in this, the operation signal input device 9 includes an antenna 11 that receives an operation signal from the transmitter 10, a sub-control unit 12 (reception unit) that controls reception of the antenna 11, and a sub-control unit 12. A sub-control unit control unit (reception unit control unit) 21 for controlling power supply, and the sub-control unit control unit 21 is set in advance at least while the switch power supply circuit 14 is open. Power is intermittently supplied to the sub-control unit 12 so as to repeat the reception operation-pause at a predetermined duty ratio. As a result, standby power consumed by the sub-control unit 12 of the operation signal input device 9 can be greatly reduced, which can contribute to further energy saving.
Incidentally, in the prototype of the window shutter embodying the present invention, it has been demonstrated that the total power consumption used per day can be reduced to about 1/10 by reducing the standby power of the switch 5 and the sub-control unit 12. Yes.

  On the other hand, the transmitter 10 that transmits the operation signal to the operation signal input device 9 is operated for a predetermined time T1 longer than one cycle of the reception operation-pause of the sub-control unit 12 when the transmitter 10 is operated. It is set to send an operation signal. Thereby, even if the receiving part of the operation signal input device 9 receives intermittently, the operation signal transmitted from the transmitter 10 can be reliably received.

  The sub-control unit control means 21 is configured to constantly supply power to the sub-control unit 12 while the switch power supply circuit 14 is closed, whereby power is supplied to the switch 5. In this state, there is no delay in response due to intermittent reception. For example, when the stop operation switch PBS is operated during the opening / closing operation of the shutter curtain 2, the shutter curtain 2 is quickly stopped without delay in response. Can be made.

  Further, in this case, the operation signal input device 9 is supplied from the transmitter 10 or the push button switch 23 during the start-up preparation time T2 from when the switch power supply circuit 14 is closed until the start-up process of the switch 5 is completed. Memory means 22 for holding operation signals is provided. As a result, the operation signal input device 9 can store the operation signal in the memory means 22 until the start-up process of the switch 5 is completed when the switch 5 is started. It is possible to reliably avoid the occurrence of malfunction due to the operation signal being input to the switch 5 in a state where the processing is not completed.

  In addition, when a new operation signal is input to the operation signal input device 9 during the start preparation time T2, the memory means 22 rewrites the already held operation signal with a new operation signal and performs the new operation signal. Therefore, even if the transmitter 10 or the pushbutton switch 23 is newly operated during the start-up preparation time T2, the shutter curtain 2 corresponding to the new operation is opened and closed. Can do.

  Needless to say, the present invention is not limited to the above-described embodiment. For example, in the above-described embodiment, the power is always supplied to the receiving unit while the power supply circuit for the switch is closed. However, it is also possible to adopt a configuration in which the reception unit performs intermittent reception that repeats the reception operation-pause while the switch power supply circuit is closed. In this case, as compared with the case where the power is always supplied to the receiving unit when the power circuit for the switch is closed, a response delay corresponding to the pause time of the receiving unit occurs at the maximum in the opening / closing operation of the shutter curtain. The standby power of the receiving unit can be further reduced. Further, in a configuration in which the receiving unit is always in a receiving state when the switch power circuit is closed, for example, when the transmitter or the push button switch is operated, the switch power circuit is closed. However, the receiving unit can be immediately switched from the constantly receiving state to the intermittent receiving state.

  Further, in the above embodiment, the shutter curtain is opened / closed between fully closed and fully opened as a set time for closing the switch power circuit after the operation signal from the transmitter or the push button switch is input. However, it is also possible to adopt a configuration in which the set time is changed according to the switch operation of the transmitter or the push button switch. For example, by pressing and holding the switch provided on the transmitter or pushbutton switch, operations different from normal shutter curtain opening, closing, and stopping operations, such as setting the upper and lower limit positions and setting the output, are performed. However, when an operation different from the normal operation is performed as described above, it takes more time than the normal opening / closing operation. Therefore, when the transmitter or pushbutton switch is pressed and held for a long time, the setting time is changed so that the time for closing the power supply circuit for the switch is lengthened. It is also possible to cope with different operations. Also, for example, when the stop switch is operated, the open and close switches are changed so that the set time for closing the switch power circuit is changed according to the type of switch operated by the transmitter or pushbutton switch. The power supply circuit for the switch can be closed immediately after outputting the stop operation signal to the switch 4 so that the set time is shorter than when the switch is operated, or when the stop switch is operated. it can.

  Furthermore, in the above-described embodiment, the operation signal input device is a receiver including a receiving unit that receives an operation signal transmitted from the transmitter, and the operation signal input device that is the receiver is connected to a push button switch. The operation signal is also input, but the operation is not limited to this, and the push button switch is not provided in the electric shutter device, and only the operation signal transmitted from the transmitter is input. The present invention is similarly applied to the signal input device (receiver) or the operation signal input device having a configuration in which the transmission / reception function is not provided in the electric shutter device and only the operation signal from the push button switch is input. Of course, it can be implemented.

  INDUSTRIAL APPLICABILITY The present invention can be used for an electric shutter device for building provided with an operation signal input device that is installed in an opening of a building and inputs an operation signal from a transmitter or / and a push button switch and outputs the operation signal to a switch. it can.

DESCRIPTION OF SYMBOLS 1 Electric shutter device for construction 2 Shutter curtain 5 Switch 9 Operation signal input device 10 Transmitter 11 Antenna 12 Sub control unit 13 Main control unit 14 Power circuit for switch 17 Power control means 20 Signal control means 21 Sub control part control means 22 memory means 23 push button switch

Claims (8)

  A shutter curtain that opens and closes the opening, an opening and closing device that opens and closes the shutter curtain, and an operation signal that is input from the transmitter or / and an operation signal that is output from the pushbutton switch and is output to the switch In the building electric shutter device comprising a signal input device, a power supply circuit for a switch that inputs power from a power source to the operation signal input device and outputs the power to the switch, and a power supply circuit for the switch Power supply control means for controlling opening and closing, and the power supply control means keeps the power supply circuit for the switch open at all times to shut off the power supply to the switch, and in advance after the operation signal is input to the operation signal input device An electric shutter device for construction, characterized in that the power supply circuit for the switch is closed and power is supplied to the switch for a set time.   2. The architectural electric shutter device according to claim 1, wherein the set time is a time set in advance as a time required for the shutter curtain to open and close between fully closed and fully open.   3. The operation signal input device according to claim 1, further comprising: a receiving unit that receives an operation signal from a transmitter; and a receiving unit control unit that controls power supply to the receiving unit; The construction electric motor is characterized in that the power is intermittently supplied so as to repeat the reception operation-pause at a predetermined duty ratio set in advance at least while the power supply circuit for the switch is open. Shutter device.   4. The transmitter according to claim 3, wherein when the transmitter is operated to transmit the operation signal, the transmitter is set to transmit the operation signal for a time longer than one cycle of the receiving operation of the receiving unit-pause. An architectural electric shutter device.   5. The architectural electric shutter device according to claim 3, wherein the receiving unit control means constantly supplies power to the receiving unit while the power supply circuit for the switch is closed.   6. The operation signal input device according to claim 1, wherein the operation signal input device is input to the operation signal input device during a start-up preparation time from when the switch power supply circuit is closed to when the switch start-up process is completed. An electric shutter device for construction, comprising a memory means for holding an operation signal.   In the present invention, when a new operation signal is input to the operation signal input device during the startup preparation time, the memory means rewrites the already held operation signal to a new operation signal and the new operation signal. An architectural electric shutter device characterized by holding an operation signal.   The power control means according to any one of claims 1 to 7, wherein when a new operation signal is input to the operation signal input device during a set time during which the switch circuit power supply circuit is closed, The switch power circuit for the switch is closed for the set time after a correct operation signal is input, and the power circuit for the switch is opened when a new operation signal is not input within the set time. Electric shutter device.

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