JP7260972B2 - Opening/closing control system and opening/closing control method - Google Patents

Description

INDUSTRIAL APPLICABILITY The present invention is installed to partition openings such as windows and doorways of structures including entrances and exits of houses, buildings, factories, warehouses, large rooms, passages, hall spaces, underground malls, multi-story parking facilities, and other buildings. The present invention relates to an opening/closing control system and an opening/closing control method for controlling the opening/closing operation of an opening/closing body such as a sheet-shaped, shutter-shaped, screen-shaped, slat-shaped, panel-shaped, or cloth-shaped shutter. The present invention relates to an opening/closing control system and an opening/closing control method capable of efficiently controlling the opening/closing operation of an opening/closing body using a sensor.

Electric shutters and electric doors are used for opening and closing devices such as shutters and doors that are installed in the openings of structures such as buildings, factories, and warehouses. There are many things. In this way, some of the electric opening/closing operations are provided with a wireless remote control transmitter for controlling the operations by remote control. Various types of radio remote control transmitters, such as a wall switch type and a portable type, are prepared according to their uses.

Recently, there has been proposed a home network system configured by connecting electric shutters for buildings, devices to be operated, mobile communication terminals, etc., as described in Patent Documents 1 to 3, via the Internet.

The home network system described in Patent Document 1 connects operated devices such as home appliances installed or installed in a building via an internal network in the building. In addition to operating the device to be operated from the operating terminal, the device to be operated can also be remotely operated from a remote control terminal such as a mobile communication terminal connected to an external network such as the Internet.

The home network system described in Patent Document 2 remotely controls a device to be operated in a building via the Internet from a remote control terminal such as a mobile communication terminal. In this case, it is possible to transmit a crime prevention notification to a portable communication terminal.

The home network system described in Patent Document 3 includes manual opening detection means for detecting manual opening of the shutter, and a device interlocking section for operating a predetermined operated device in response to the manual opening detection, and the shutter is suspicious. When the door is manually opened by a person, the device to be operated such as a lighting fixture and a radio is automatically operated accordingly.

JP-A-2002-152856 JP-A-2001-309067 JP-A-2004-110559

A conventional opening/closing control system using a home network system as described in Patent Documents 1 to 3 connects a remote control terminal such as a mobile phone to an internal network in a building via the Internet, thereby controlling a device to be operated. It is possible to remotely detect the manual opening of the opening/closing body device, and to remotely operate the opening/closing body device, which is the device to be operated, via the Internet.

In such a switch control system using a home network system, an operation signal (open signal or close signal) is transmitted from the remote control terminal side to each switch device via radio or the like to execute an operation. Then, the opening/closing operation is controlled each time. In this case, if there are many opening/closing devices to be controlled, it becomes necessary to transmit an operation signal to each opening/closing device. .

In addition, a temperature sensor and a voltage sensor are incorporated in the opening/closing mechanism of a normal opening/closing device (shutter device) in order to correct changes in rotational speed due to changes in temperature and voltage. In addition, in order to detect the load of the switch, the current value is taken into the microcomputer in the switch when the switch is operating, and is detected as load detection when the shutter is pinched. However, these sensor data are treated as closed data used only within the opening/closing mechanism of each opening/closing body device, that is, as closed data, and are not used externally at present.

Furthermore, the building itself may be deformed by the occurrence of a large-scale earthquake, and the opening/closing device (shutter) may also be deformed accordingly. In such a case, if the opening/closing operation of the opening/closing body is performed in a deformed state, the left and right edges of the shutter curtain come into contact with the bracket, and the rotation of the shutter curtain wears the bracket, causing the shutter curtain to fall down together with the shaft. It is assumed that there is a possibility that

SUMMARY OF THE INVENTION The present invention has been made in view of the above points, and provides an opening/closing control system and an opening/closing control method capable of efficiently controlling the opening/closing operations of a plurality of opening/closing body devices respectively installed at separate locations. to provide.

A first feature of the opening/closing control system of the present invention is communication means for supplying a group of detection data detected by a group of detection means installed inside and/or around the outside of the opening/closing device to a server means on the Internet. It has been prepared.

The opening/closing devices include window shutter devices, garage shutter devices, shutter devices, blind devices, roll screen devices, banner devices, sliding door devices, moving partition devices, awning devices, waterproof plate devices, and the like. They are installed at multiple locations inside and outside the building, and at multiple locations in separate buildings. In such a case, each opening/closing device has a current detector (current sensor) and a voltage detector (voltage sensor) for detecting the drive current and drive voltage supplied to the motor, and a temperature sensor for detecting the temperature of the motor. A temperature detector (temperature sensor) is provided, and detection data thereof is fed back to the drive circuit for use. In addition, inside or near the opening/closing device, a human sensor that detects whether or not a person is present, a tilt sensor that detects the tilt of a bracket that is an important part of the opening/closing device, and a seismic intensity of an earthquake. In some cases, a vibration sensor, an anemometer, etc., which serves as a seismic intensity meter for measuring the

In the opening/closing control system of the present invention, a group of detection data detected by a group of detection means installed around the inside and/or outside of a plurality of opening/closing body devices installed in a building or the like located at a distance is transmitted via the Internet. and a communication means for supplying to the server means. As a result, the server means can store the drive current, drive voltage, temperature, and the like during the opening and closing operations of a plurality of switchgear devices installed at separate locations, together with information such as the model numbers and types of the switchgear devices and their installation locations. Recorded and databased. A group of detection data from tilt sensors, vibration sensors, anemometers, etc. is also stored in the server means as a database. By accessing the database server means, acquiring necessary information, and variously processing the acquired information, it becomes possible to recognize the necessity of maintenance such as part replacement of the opening/closing device.

In addition, if the tilt sensor value is such that the building itself may be deformed due to a large-scale earthquake, etc., and the opening and closing operation may cause the shutter curtain to fall, the user terminal may By transmitting an operation signal to the corresponding opening/closing body device, the opening/closing body device can be controlled so as not to be electrically operated. In addition, for switchgear devices that must be closed immediately after a fire breaks out immediately after a large-scale earthquake, all switchgear devices in areas where the value of the vibration sensor exceeds a predetermined value An operation signal can be sent to perform a closing operation. On the other hand, for switchgears that need to secure evacuation routes immediately after a large-scale earthquake, the switchgears in areas where the value of the vibration sensor exceeds a predetermined value when an earthquake occurs An operation signal can be sent to perform a closing action. The opening/closing operation of the opening/closing body device can also be controlled according to the strength of the wind speed. As a result, it is possible to efficiently control the opening/closing operations of a plurality of opening/closing body devices respectively installed at separated locations.

A second feature of the opening/closing control system of the present invention is that in the opening/closing control system according to the first feature, the opening/closing body device receives an operation signal from the server means via the Internet, and To execute an operation according to a signal.
When the value of the tilt sensor becomes a value that interferes with the operation of the opening/closing device, the server means transmits an operation signal to invalidate the electric operation to the corresponding opening/closing device. is made possible. In addition, for switchgear devices that must be closed immediately after a large-scale earthquake, it is necessary to close the switchgear devices in areas where the value of the vibration sensor exceeds a predetermined value. The operation signal can be transmitted from the server means side. In addition, for switchgears that need to secure evacuation routes immediately after a large-scale earthquake, the switchgears in areas where the value of the vibration sensor exceeds a predetermined value when the earthquake occurs It enables transmission of an operation signal for performing a closing operation. Further, the opening/closing operation of the opening/closing body device can be controlled by the server means according to the strength of the wind speed. As a result, it is possible to efficiently control the opening/closing operations of a plurality of opening/closing body devices installed at separate locations by the server means.

A third feature of the opening/closing control system of the present invention is a plurality of opening/closing body devices respectively provided in a plurality of openings, and a plurality of detecting means provided inside and/or around the outside of the plurality of opening/closing body devices. a plurality of child device control means provided in the plurality of opening/closing body devices for electrically controlling the operation of the opening/closing body devices; a plurality of operating element means for outputting control signals corresponding to the operation of the opening/closing body device; and master unit control means for transmitting and receiving the detection data group detected by the detection means group and supplying the data to server means on the Internet via communication means.
In this method, a parent device control means is connected to a plurality of child device control means provided for each of a plurality of opening/closing body devices, and each operation such as opening/closing stop, halfway stop, ventilation amount or lighting amount adjustment is controlled by the parent device control means. The present invention relates to an opening/closing control system configured to output a corresponding control signal to slave unit control means to control a plurality of opening/closing body devices individually or as a whole (simultaneously). A plurality of such opening/closing control systems are installed in a building or the like at spaced apart positions, and a plurality of detecting means groups are also installed inside and/or around the outside of the plurality of opening/closing body devices.
In the opening/closing control system of the present invention, a group of detection data detected by a group of detection means installed around the inside and/or outside of a plurality of opening/closing body devices installed in a building or the like located at a distance is sent to the parent device. The machine control means supplies the data to the server means via the Internet. As a result, the server means can store the drive current, drive voltage, temperature, and the like during the opening and closing operations of a plurality of switchgear devices installed at separate locations, together with information such as the model numbers and types of the switchgear devices and their installation locations. Recorded and databased. A group of detection data from tilt sensors, vibration sensors, anemometers, etc. is also stored in the server means as a database. By accessing the database server means, acquiring necessary information, and variously processing the acquired information, it becomes possible to recognize the necessity of maintenance such as part replacement of the opening/closing device.

A fourth feature of the opening/closing control system of the present invention is the opening/closing control system according to the third feature, wherein the parent unit control means receives an operation signal from the server means via the Internet, and The object is to control the operation of the opening/closing device according to the operation signal.
In this system, an operation signal transmitted from the server means to the opening/closing device is received by the parent device control means and transmitted to the slave device control means of the corresponding opening/closing device. As a result, it is possible to efficiently control the opening/closing operations of a plurality of opening/closing body devices installed at separate locations by the server means.

A fifth feature of the opening/closing control system of the present invention is that the opening/closing control system according to the first feature and the opening/closing control system according to the third feature are installed at a plurality of locations separated from each other. and forming a database of detection data groups collected by said server means, and controlling the operations of said opening and closing body devices respectively installed at said plurality of locations based on the databased data.
This is because the opening/closing body device provided with the communication means according to the first feature and the opening/closing control system provided with the parent device control means provided with the communication means according to the third feature are located at separate positions. It is installed in a building or the like, and detection means groups are installed inside and/or around the plurality of opening/closing body devices, respectively. It is configured to be supplied to the server means via. As a result, the server means can store the drive current, drive voltage, temperature, and the like during the opening and closing operations of a plurality of switchgear devices installed at separate locations, together with information such as the model numbers and types of the switchgear devices and their installation locations. Recorded and databased. A group of detection data from tilt sensors, vibration sensors, anemometers, etc. is also stored in the server means as a database. By accessing the database server means, acquiring necessary information, and variously processing the acquired information, it becomes possible to recognize the necessity of maintenance such as part replacement of the opening/closing device.

A sixth feature of the opening/closing control system of the present invention is that, in the opening/closing control system according to any one of the first to fifth features, the plurality of To determine the maintenance timing of the opening/closing device installed at each place, the life of each device, and the like.
This is because the server means records various states such as motor driving current, driving voltage, and temperature during driving together with information such as the model number, type, and installation location of the switchgear device, and stores them in a database. It is possible to recognize the timing of maintenance such as replacement of parts of the switchgear device and the life of each device by accessing the data, acquiring necessary information, etc., and processing the acquired information in various ways. is.

A seventh feature of the opening/closing control system of the present invention is that, in the opening/closing control system according to any one of the first to sixth features, detectors are installed inside and around the opening/closing device. The group of means includes: current detection means for detecting a drive current of a drive motor for the opening/closing device; voltage detection means for detecting a drive voltage for the drive motor; temperature detection means for detecting a temperature of the drive motor; Inclination detecting means for detecting inclination of parts in the opening/closing device, wind speed detecting means for measuring the wind speed at the location where the opening/closing device is installed, and a human sensor provided near the installation of the opening/closing device. The sensor means and seismic intensity detection means for detecting the seismic intensity of an earthquake in the vicinity of the opening/closing body device may be included in whole or in part.
This is a concrete example of a group of detection means installed around the inside and outside of the opening/closing device. It should be noted that the opening/closing device does not necessarily have to include all of the above means, but preferably includes all of the above means or as many detection means as possible.

A first feature of the opening/closing control method of the present invention is that a group of detection data detected by a group of detection means installed inside and/or around the outside of the opening/closing device is supplied to server means on the Internet. be.
This is an invention of an opening/closing control method corresponding to the first feature of the opening/closing control system.

A second feature of the opening/closing control method of the present invention is that in the opening/closing control method according to the second feature, the opening/closing body device receives an operation signal from the server means via the Internet, and receives the operation signal received from the server means. To execute an operation according to a signal.
This is an invention of an opening/closing control method corresponding to the second feature of the opening/closing control system.

A third feature of the opening/closing control method of the present invention is that each operation of a plurality of opening/closing body devices provided in a plurality of openings is controlled by slave unit control means and operator means provided in the plurality of opening/closing body devices. and controlling using parent device control means connected via a communication line to child device control means provided in the plurality of opening and closing body devices, wherein A group of detection data detected by a plurality of groups of detection means provided inside and/or around the outside is received by the parent device control means and supplied to a server means on the Internet.
This is an invention of an opening/closing control method corresponding to the third feature of the opening/closing control system.

A fourth feature of the opening/closing control method of the present invention is that in the opening/closing control method according to the third feature, the parent device control means receives an operation signal from the server means via the Internet, and The object is to control the operation of the opening/closing device according to the operation signal.
This is an invention of an opening/closing control method corresponding to the fourth feature of the opening/closing control system.

A fifth feature of the opening/closing control method of the present invention is that the opening/closing control system according to the first feature and the opening/closing control system according to the third feature are installed at a plurality of locations separated from each other. and forming a database of detection data groups collected by said server means, and controlling the operations of said opening and closing body devices respectively installed at said plurality of locations based on the databased data.
This is an invention of an opening/closing control method corresponding to the fifth feature of the opening/closing control system.

A sixth feature of the opening/closing control method of the present invention is that in the opening/closing control method according to any one of the first to fifth features, the plurality of To determine the maintenance timing of the opening/closing device installed at each place, the life of each device, and the like.
This is an invention of an opening/closing control method corresponding to the sixth feature of the opening/closing control system.

A seventh feature of the opening/closing control method of the present invention is that, in the opening/closing control method according to any one of the first to sixth features, detectors installed around the inside and outside of the opening/closing body device The group of means includes: current detection means for detecting a drive current of a drive motor for the opening/closing device; voltage detection means for detecting a drive voltage for the drive motor; temperature detection means for detecting a temperature of the drive motor; Inclination detecting means for detecting inclination of parts in the opening/closing device, wind speed detecting means for measuring the wind speed at the location where the opening/closing device is installed, and a human sensor provided near the installation of the opening/closing device. The sensor means and seismic intensity detection means for detecting the seismic intensity of an earthquake in the vicinity of the opening/closing body device may be included in whole or in part.
This is an invention of an opening/closing control method corresponding to the seventh feature of the opening/closing control system.

According to the opening/closing control system and the opening/closing control method of the present invention, it is possible to efficiently control the opening/closing operations of a plurality of opening/closing body devices respectively installed at separate locations.

1 is a diagram showing a schematic configuration of a building installed with a plurality of shutter devices to which the opening/closing control system of the present invention is applied; FIG. FIG. 2 is an external view showing a schematic configuration of the transceiver of FIG. 1; FIG. 4 is a diagram schematically showing a state in which a remote control ID is set in a remote control switch transmission/reception slave unit and a transmission/reception master unit; It is a figure which shows an example of the display screen of a mobile communication terminal. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram showing an example of a preferred embodiment of an opening/closing control system that efficiently controls opening/closing operations of opening/closing device groups respectively installed in buildings at separated locations; An example of an opening/closing control system in which opening/closing devices installed at distant locations are individually provided with the function of a transmitter/receiver base unit and can efficiently control their opening/closing operations via a mobile communication network. It is a figure which shows. 6 is a diagram showing an example of remote control processing executed by a remote control operation switch and transmission/reception processing executed by a transmission/reception slave unit between a transmission/reception base unit and a remote control operation switch in the opening/closing control system of FIG. 5; FIG. FIG. 6 is a diagram showing an example of transmission/reception processing executed between a transmission/reception master device, a transmission/reception slave device, a mobile communication terminal, and a cloud server in the opening/closing control system of FIG. 5 ; 6 is a diagram showing an example of transmission/reception processing performed between a mobile communication terminal and a transmission/reception master device and transmission/reception processing performed by a cloud server between a user terminal and a transmission/reception master device in the opening/closing control system of FIG. 5;

DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of an opening/closing device and an opening/closing control system according to the present invention will be described below with reference to the accompanying drawings. In this embodiment, a group of shutter devices controlled to open and close vertically will be described as an example of a plurality of opening and closing device devices. FIG. 1 is a diagram showing a schematic configuration of a building in which a plurality of shutter devices to which the opening/closing control system of the present invention is applied is installed.

The shutter device group in FIG. 1 is composed of a garage shutter device 1 installed in a garage such as a garage, and window shutter devices 2 to 4 installed on windows, which are respective openings of a building. The garage shutter device 1 and the window shutter devices 2 to 4 are basically composed of a shutter case, a shutter curtain, a guide rail, a motor, a shutter drive circuit, an opening/closing control circuit, a transceiver, a remote control switch, and the like. In FIG. 1, illustration of a motor, a shutter driving circuit, and other components such as a winding shaft and a chain are omitted.

A garage shutter device 1 is a vehicle opening and closing device, and window shutter devices 2 to 4 are a plurality of opening and closing device devices provided corresponding to a plurality of openings. In the opening/closing control system according to this embodiment, in addition to the building in which the group of shutter devices as shown in FIG. be described as existing. FIG. 1 shows an example of such a building, and there are cases where opening/closing devices other than those shown in FIG. 1 are installed in the building.

Human sensors 14 and 34 are connected to the garage shutter device 1 and the window shutter device 3 . The human sensor 14 of the garage shutter device 1 is installed behind the garage opening, that is, inside the garage, and detects whether or not a person is present. This is to prevent a person from being trapped in the garage if the garage shutter device 1 automatically closes when there is a person in the garage.

,
The human sensor 34 of the window shutter device 3 is installed behind the opening of the sweep window, that is, outside the building, and detects whether or not a person exists on the veranda 36 . This is to prevent a person from being forced out onto the veranda if the window shutter device 3 is automatically closed while the person is present on the veranda 36.例文帳に追加

Human sensors may also be installed in areas that may be confined and/or kicked out. Also, the human sensor detects the presence of a person using infrared rays, ultrasonic waves, visible light, or the like, and may be detected using a monitoring camera or the like. The human sensors 14, 34 may be composed of one or more sensors. It is different from the obstacle sensor for preventing harm provided in the shutter device, and detects whether or not a person exists in a predetermined area at a certain distance from the opening/closing body device.

A shutter case is provided above each opening. Guide rails are provided at the openings of the garage and both ends of the windows so as to touch both ends of the shutter curtain. It consists of a metal member with a groove. The shutter curtain moves up and down along the guide grooves of the guide rails to open, close, stop, or stop (half-open or half-close) the openings and windows. In this specification, "half-open" means a state in which the opening operation is stopped in the middle, and "half-closed" means a state in which the closing operation is stopped in the middle.

Winding shafts (not shown) are rotatably provided at both ends of the shutter case to wind up and unwind the shutter curtain. A chain (not shown) connects a driving sprocket provided on the rotating shaft of the motor and a driven sprocket provided on the rotating shaft of the winding shaft. Therefore, the rotational driving force of the motor is transmitted to the winding shaft side through the chain, and when the motor rotates, the winding shaft rotates through the chain, and each operation of opening, closing, stopping, or stopping the shutter curtain is controlled. It has become so.

A shutter drive circuit is provided in each shutter case (not shown). The shutter drive circuit has a microcomputer configuration and is supplied with power from the outside through a power supply line. The shutter driving circuit controls the rotation of the motor based on the control signals from the opening/closing control circuits 11, 21, 31, and 41, and controls each operation such as opening/closing/stopping or halfway stopping of the shutter curtain.

An encoder is coupled to the rotary shaft of the motor to detect the rotary position of the motor and output it to the shutter driving circuit. Based on the rotational position of the motor, an HA signal (a signal indicating closed or open state) is output. In FIG. 1, the opening/closing control circuits 11, 21, 31, 41 incorporate antennas for receiving control signals from the remote control switches 12, 22, 32, 42. In FIG. The remote control switches 12, 22, 32, and 42 are wireless operating element means dedicated to the shutter device, each having an open button, a stop button, and a close button.

The motor is provided with a current detector (current sensor) and a voltage detector (voltage sensor) for detecting the drive current and drive voltage supplied to the motor from the shutter drive circuit. is fed back to the shutter driving circuit. Furthermore, the motor is provided with a temperature detector (temperature sensor), and the detected temperature is also fed back to the shutter driving circuit. The shutter drive circuit receives a detection signal indicating the rotational position of the motor (shutter position) output from the encoder, the drive current, drive voltage, and temperature at the time of drive output from the current detector, voltage detector, and temperature detector. The rotation speed of the motor is controlled based on the detection signal indicating . If the drive current is detected by the current detector, the motor is in the driving state, and if the drive current is zero, the motor is in the non-driving state.

In this embodiment, remote control switches 12, 22, 32, and 42 and transmitter/receiver slave units 13, 23, 33, and 43 are provided for the garage shutter device 1 and the window shutter devices 2 to 4, respectively. An access point 60 is installed at a predetermined location in the building, and a user terminal such as a mobile communication terminal 70 and a cloud server, which will be described later, are connected via a network to construct an opening/closing control system capable of centralized control. .

In FIG. 1 , remote control switches 12 , 22 , 32 , 42 and antennas connected to the master transceiver 50 are shown in the slave transceivers 13 , 23 , 33 , 43 . The remote control switches 12, 22, 32, and 42 are wireless operating element means dedicated to the shutter device, each having an open button, a stop button, and a close button. The transmitter/receiver slave unit 13 of the garage shutter device 1 and the remote control switch 12 are connected in a predetermined frequency band (for example, 426 [MHz]) and connected via a predetermined ID.

The window shutter devices 2 to 4 are similarly connected to the remote control switches 22, 32, 42 in a specific frequency band, and are connected one-to-one via a predetermined ID. In this embodiment, as the predetermined ID, the remote control switch 12 has id12, the remote control switch 22 has id22, the remote control switch 32 has id32, and the remote control switch 42 has id42. Since they are assigned as IDs, the transmitter/receiver slave units 13, 23, 33, and 43 are controlled using these remote control IDs.

Although not shown, in the garage shutter device 1 and the window shutter devices 2 to 4, in addition to the remote control switches 12, 22, 32, and 42, wall switches, which are wired operating means, are installed near the respective openings. may be provided for The wall switch is a wired operating element means (dedicated switch) dedicated to the shutter device having an open button, a stop button, and a close button. 21 , 31 , 41 , and transmits control signals corresponding to the operation state of each operation button for opening and closing to the switching control circuits 11 , 21 , 31 , 41 .

Each opening/closing control circuit 11, 21, 31, 41 controls each operation of opening/closing the shutter curtain according to a control signal corresponding to the operating state of the remote control switches 12, 22, 32, 42 and wall switches. . The garage shutter device 1 and the window shutter devices 2 to 4 directly control each opening/closing operation of the garage shutter device 1 and the window shutter devices 2 to 4 in accordance with the operation of the wall switch independently of this opening/closing control system. It is possible to do so. In some cases, the wall switch has a halfway stop button.

The transceiver units 13, 23, 33, 43 are installed so as to be electrically connected to the respective switching control circuits 11, 21, 31, 41 by wires. The transceiver slave units 13, 23, 33, and 43 are wirelessly connected to the transceiver master unit 50 by a specified low-power radio (for example, a frequency of 429 [MHz]). The master transceiver 50 incorporates an antenna for receiving signals from the respective remote control switches 12 , 22 , 32 , 42 . The access point 60 (Wireless LAN access point) is connected to the master transceiver 50 via WiFi. Furthermore, a user terminal such as a mobile communication terminal 70 can be connected to this access point 60 via WiFi. In addition to the mobile communication terminal 70, user terminals such as notebook computers and desktop computers can be connected to the access point 60 via WiFi or various cables such as LAN cables.

A specific frequency band connecting between the slave transceivers 13, 23, 33, 43 and the remote control switches 12, 22, 32, 42, and the frequency band between the slave transceivers 13, 23, 33, 43 and the master transceiver The specific frequency bands connecting between may be the same or different. If the specific frequency band is different, the slave transceivers 13, 23, 33, and 43 receive the received signal by switching the frequency of the received signal.

Regarding the installation (arrangement) positions of the master transceiver 50 and the access point 60, in this embodiment, at least one of them (preferably both) is not housed in any shutter case, and is installed outside the shutter case. It is Furthermore, since the installation (arrangement) positions of the master transceiver 50 and the access point 60 are installed in the vicinity of any shutter case (that is, the shutter device including this shutter case), visual or other For this reason, if the height can be determined, it is preferable to install the shutter case at a lower position than the shutter case in consideration of ease of installation and maintenance. Of course, even within the shutter case, for example, the installation position is arbitrary as long as it is within the range where communication is possible and does not interfere with the movement of the shutter curtain such as opening and closing and winding.

The mobile communication terminal 70 is, for example, a mobile communication terminal such as a mobile phone, PHS, smart phone (multifunctional mobile phone), PDA, or the like. In this embodiment, the mobile communication terminal 70 is configured by a smart phone, and has not only a normal call function but also a touch panel type display screen, and remote control switches 12, 22, 32, 32, 32, 32, 32, 32, 33, 33, 33, 33, 33, 33, 33, 33, 34, 34, 34, 34, 34, 34, 34, 34, 34, . A remote control switch having the same function as each button of 42 is displayed on the display screen, and by operating each of these buttons, it functions as a remote control control switch.

The touch panel display screen of the mobile communication terminal 70 displays various icons for activating a plurality of applications including calling, and is configured so that a desired application can be activated by touching a desired icon. It is FIG. 1 shows a state in which the application of the remote controller for controlling the opening/closing member is activated and the operation buttons of the open button, the stop button, and the close button are displayed. The mobile communication terminal 70 has short-range wireless communication functions such as WiFi, infrared communication, and Bluetooth (registered trademark). It is configured to be connected to the transmitting/receiving base unit 50 or the external Internet. Although one mobile communication terminal 70 is shown in the drawing, there may be a plurality of mobile communication terminals.

FIG. 2 is an external view showing a schematic configuration of the transceiver of FIG. 1. FIG. Each of the transceiver units 13, 23, 33, 43 has a power line, a signal line and a built-in antenna. In some cases, an external antenna connection line is provided. In this embodiment, the transceivers 13, 23, 33, 43 are provided with a DIP switch setting section 81 indicating the type of shutter, in addition to these normal wireless components.

In the drawing, the DIP switch setting portion 81 is shown in an enlarged manner. The DIP switch setting section 81 is composed of three DIP switches SW1 to SW3, as shown in the drawing. Table 82 shows the setting states of the DIP switches SW1 to SW3. That is, in the figure, when the DIP switches SW1 to SW3 are "000", the standard type of the sweep window shutter device, "001" is the standard type of the tall window shutter device, and "010" is the sweep window shutter device. Slit type, "011" is the slit type of the tall window shutter device, "100" is the blind type of the sweep window shutter device, "101" is the blind type of the tall window shutter device, "110" indicate garage shutters respectively.

By assigning the DIP switches SW1 to SW3 to shutter types other than these, eight types can be assigned as shutters. To assign more types, four or more DIP switches may be provided. In addition, the window shutter device 2 in FIG. The slit type of the tall window shutter device and the garage shutter device 1 are set to the "110" garage shutter, respectively.

In the opening/closing control system of FIG. 1, the remote control switches 12, 22, 32, and 42, the transmitter/receiver slave units 13, 23, 33, and 43, and the transmitter/receiver master unit 50 have respective remote controller IDs (id12, id22, id32, id42). is set. The details of this remote controller ID setting process are described in Japanese Patent Application No. 2015-208071 previously filed, so description thereof will be omitted here.

FIG. 3 is a diagram schematically showing a state in which a remote control ID is set in a remote control switch transmitter/receiver slave unit and a transmitter/receiver master unit. Each of the slave transceivers 13, 23, 33, 43 has a corresponding remote controller ID (id12, id22, id32, id42) that is the ID of its own slave transceiver 13, 23, 33, 43 (id13, id23, id33, id33, id42). id43) are registered in association with each other. id12⇔id13, id12⇔110 for remote control operation switch 12, id22⇔id23, id22⇔001 for remote control operation switch 22, id32⇔id33, id32⇔000 for remote control operation switch 32, id42⇔ for remote control operation switch 42 As id43, id42⇔011, IDs and DIP switch state signals are associated with each other and stored.

The same ID groups and DIP switch state signals as those registered in the respective remote control switches 12, 22, 32, and 42 are registered in the transmission/reception base unit 50. FIG. As a result, communication lines 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b, 13b, 23b Two-way communication is established via either one of 33b, 43b. When a two-way communication state is established between the transmission/reception slave units 13, 33 and the transmission/reception master unit 50, detection information from the human sensors 14, 34, current detectors, voltage detectors, temperature detectors, and tilt sensors are received. , a vibration sensor, an anemometer, and the like are transmitted to the master transceiver 50 as status signals in real time. As a result, the master transceiver 50 can recognize the presence of a person in the garage and the veranda 35 based on the detection information from the human sensors 14 and 34 . Further, the master transceiver 50 transmits detection signals from current detectors, voltage detectors, temperature detectors, tilt sensors, vibration sensors, anemometers, and the like to a cloud server, which will be described later, at predetermined timings.

FIG. 4 is a diagram showing an example of a display screen of the mobile communication terminal. In FIG. 4, the mobile communication terminal 701 is an example of a screen showing an initial state in which the opening/closing body control remote controller application is activated. On the initial state screen of the mobile communication terminal 701, selection buttons such as "individual shutter", "all shutters in building", "shutter in building", and "garage shutter" are displayed.

The "individual shutter" selection button is selected to individually control the garage shutter device 1 and the window shutter devices 2 to 4 shown in FIG. The "all shutters in building" selection button is selected when simultaneously controlling the garage shutter device 1 and the window shutter devices 2 to 4 shown in FIG. The selection button of "inside building shutter" is selected when simultaneously controlling the window shutter devices 2 to 4 installed in the building among those shown in FIG.

The "garage shutter" selection button is selected when controlling only the garage shutter device 1 shown in FIG. A person mark indicating that a person exists in the garage is displayed on the "garage shutter" selection button. By visually recognizing this person mark, the presence of a person in the garage can be recognized. A selection button with a person mark may be displayed with shading or the like to indicate that it is not operable, and may be displayed so as to be distinguishable from other operable buttons.

In FIG. 4, the mobile communication terminal 702 shows an example of a screen when the "individual shutter" selection button of the mobile communication terminal 701 displaying the initial state screen is operated. In the mobile communication terminal 702, as the names of devices capable of opening and closing control shown in FIG. ” is displayed.

The "garage shutter" selection button corresponds to the garage shutter device 1 shown in FIG. The selection button of "1st floor tall window shutter ST" corresponds to the standard type of the tall window shutter device shown in FIG. The selection button of the "2nd floor sweep window shutter ST" corresponds to the standard type of the sweep window shutter device 3 shown in FIG. The selection button of the "2nd floor tall window shutter SL" corresponds to the slit type of the tall window shutter device shown in FIG.

On the "garage shutter" selection button on the screen of mobile communication terminal 702, a person mark indicating that a person is present in the garage is displayed in the same manner as on the screen of mobile communication terminal 701, and a network is displayed to indicate that operation is impossible. It has a hanging pattern. On the other hand, no person mark is displayed on the selection button of “second floor sweep window shutter ST” on the screen of mobile communication terminal 702 . This means that people are present in the garage, but no people are present on the veranda 35 . Note that the semi-closed operation may be made operable even when the presence of a person is confirmed. This is because the semi-closed state does not correspond to confinement or expelling.

As shown in FIG. 3, these correspondence relationships can be set in the master transmitter/receiver unit 50 when two-way communication between the slave units 13, 23, 33, and 43 and the master transmitter/receiver unit 50 is established. , and the set contents are displayed on a user terminal such as the mobile communication terminal 70 . Therefore, instead of ``2nd floor sweep window shutter ST'' and ``2nd floor tall window shutter SL'', the names are easily understood, such as ``2nd floor ○○ room window shutter'' and ``2nd floor △△ room window shutter''. You may assign it so that it may be easy. In this way, the name assigned to the master transceiver 50 is transmitted to the user terminal such as the mobile communication terminal 70 via the access point 60 , so that the user terminal such as the mobile communication terminal 70 is separately sent to the master transceiver 50 . There is no need to register, and only by connecting a user terminal such as a mobile communication terminal 70 to the access point 60, the user terminal such as the mobile communication terminal 70 can be used to open/close or stop the garage shutter device 1 and the window shutter devices 2 to 4. Each halfway stop operation can be appropriately controlled.

In FIG. 4, the mobile communication terminal 703 shows an example of a screen when the selection button of the device name "garage shutter" displayed on the mobile communication terminal 702 that can be controlled to open and close is operated. At the top of the display screen of the mobile communication terminal 703, the device name "garage shutter", which is the current control target, is displayed, and below it, operation buttons for opening and closing are displayed. It should be noted that the screen of the portable communication terminal 703 does not display the person mark, indicating that no person is present in the garage.

In FIG. 4, mobile communication terminal 704 shows an example of a screen when the selection button of the device name "2nd floor tall window shutter SL" displayed on mobile communication terminal 702 whose opening and closing can be controlled is operated. At the top of the display screen of the mobile communication terminal 704, the name of the device that is currently being controlled is displayed as "second-floor tall window shutter SL". Buttons and operation buttons for ventilation and lighting for adjusting the amount of ventilation or the amount of lighting are displayed.

As described above, the operation button for ventilation lighting of the mobile communication terminal 704 is a slit type with a DIP switch status signal "011" indicating the type of shutter of the tall window shutter device, so the amount of lighting is adjusted accordingly. It is an operation button unique to the slit-type shutter that is displayed for. Similarly, in the case of a blind type in which the DIP switch state signal indicating the shutter type is "101", the "ventilation lighting" operation button for adjusting the ventilation rate is displayed like the mobile communication terminal 704. will be Therefore, when the DIP switch state signal indicating the type of shutter is the standard type of "000" and "001", the "ventilation lighting" operation button is not displayed, and the opening and closing operation is performed like the portable communication terminal 703. Only each operation button for stop or halfway stop is displayed. In addition, even in the case of the standard type, the operation button of "ventilation lighting" may be similarly displayed.

As described above, the name of the device that can be controlled to open and close displayed on the mobile communication terminal 702 is "garage shutter", "1st floor high window shutter ST", "2nd floor sweep window shutter ST", or "2nd floor high window shutter". SL" selection button is operated, the respective device names are displayed on the upper part of the display screen as shown on the mobile communication terminals 703 and 704, and the display screens of the mobile communication terminals 703 and 704 are used to operate the garage shutter device. 1 and any one of the window shutter devices 2 to 4 can be controlled to open/close, stop halfway, or control the amount of ventilation or the amount of daylight. In FIG. 4, the halfway stop operation button and the ventilation lighting operation button of the garage shutter device 1 are not displayed, but they may be displayed.

When the selection button for "all shutters in building" is operated on the display screen of mobile communication terminal 701, the characters "all shutters in building" are displayed at the top of the display screen of mobile communication terminal 703. can be used to simultaneously (simultaneously) control the opening and closing of all the shutters. In addition, in the case of all the shutters in the building, only the opening and closing operations are performed, and the stop operation button cannot be operated. This is because the time required for the opening/closing operation of the opening/closing device differs between the tall window shutter and the sweeping window shutter, so that it is difficult for the operator to determine at what stage the operation will be stopped when the operation stops. In this embodiment, all the shutters in the building cannot be stopped. Of course, it goes without saying that all the shutters in the building or part of the shutters may be configured to be capable of being stopped. It should be noted that it may be possible to set such that only half or about one-third of the fully opened or fully closed state is in the open state or in the closed state.

When the selection button for "shutter inside the building" is operated on the display screen of the mobile communication terminal 701, "1st floor high window shutter ST", "2 A display screen of a mobile communication terminal 703 or 704 capable of operating "floor sweep window shutter ST" and "second floor high window shutter SL" is displayed. Each action can be controlled. In FIG. 1, the remote control switches 32 and 42 are wireless operating elements dedicated to the shutter device having only open/close buttons. In addition to the operation button, an operation button may be provided that can control each operation such as a midway stop and/or the amount of ventilation or the amount of lighting.

When the selection button for the garage shutter is operated on the display screen of the mobile communication terminal 701, the display screen of the mobile communication terminal 703 is displayed. You will be able to control each operation of

In the opening/closing control system shown in FIG. 1, a user terminal such as a mobile communication terminal 70 other than the remote control switches 12, 22, 32, and 42 dedicated to the opening/closing body device is used to operate the garage shutter device 1 and the window shutter devices 2 to 4. Each operation of opening and closing can be appropriately controlled. A user terminal such as the portable communication terminal 70 functions as a wireless operating device means shared by the garage shutter device 1 and the window shutter devices 2 to 4 . Further, since the master transceiver 50 and the user terminal such as the mobile communication terminal 70 are connected via the access point 60, the user such as the mobile communication terminal 70 authenticated by WEP (WPA or WPA2 is also acceptable) can be used. Since only terminals are connected to the transmission/reception base unit 50, high security can be established.

Further, in this embodiment, an anemometer 36 is provided on the veranda 35 of the building. The anemometer 36 in FIG. 1 is configured by a windmill-type anemometer. In addition, one or a plurality of various devices such as a cup type anemometer, an ultrasonic anemometer, a three-dimensional ultrasonic anemometer, a Dynes anemometer, and a hot wire anemometer may be installed. The anemometer 36 and the transmitter/receiver master unit 50 are connected in advance by a wireless system or a wired system, and wind speed and/or wind direction information from the anemometer 36 is transmitted to the transmitter/receiver master unit 50 in real time. The wind speed and/or wind direction information from the anemometer 36 may be transmitted to the master transmitter/receiver 50 via the slave transmitter/receiver 33 .

In this embodiment, the garage shutter device 1 and the window shutter devices 2 to 4 are automatically closed or stopped halfway according to the wind speed in various weather events. For example, when the wind speed information from the anemometer 36 exceeds a predetermined value (for example, wind speed 15 [m]) occurs n times (for example, 3 times) or more within a predetermined time (for example, within 5 minutes), the transmitter/receiver base unit 50 operates to automatically close garage shutter device 1 and window shutter devices 2-4. Before fully closing, a half-closed operation may be performed when a predetermined wind speed is reached, and a fully open or fully closed operation may be performed according to the strength of the wind speed.

Furthermore, in this embodiment, tilt sensors for detecting the tilt of brackets, which are important parts involved in the operation of the garage shutter device 1 and the window shutter devices 2 to 4, can directly or indirectly detect the tilt of the important parts. placed in position. Then, when the value of the tilt sensor becomes a value that interferes with the shutter operation, control is performed to invalidate the electric operation. In addition, even if the building itself is deformed due to a large-scale earthquake, etc., and the tilt sensor value is such that there is a possibility that the shutter curtain will fall due to the opening and closing operation, the electric Perform control to disable the operation. This makes it possible to detect structural deformation of the shutter device due to the influence of an earthquake or the like, disable its operation, and prevent the shutter curtain itself from falling or the like.

In addition, in this embodiment, a vibration sensor (seismic intensity meter for measuring the seismic intensity of an earthquake) is provided at the same position as the above-described tilt sensor or at a different position (for example, inside the switchgear or a building member around it). . In the case of a shutter device that must be closed immediately when a fire breaks out immediately after a large-scale earthquake, the closing operation is performed when the value of the vibration sensor exceeds a predetermined value. control. On the other hand, for shutter devices that need to secure an evacuation route immediately after a large-scale earthquake, when an earthquake occurs and the value of the vibration sensor exceeds a predetermined value, it is possible to fully open, half open, or half close. control. This will ensure an escape route.

For example, the garage shutter device 1 and the window shutter devices 2 to 4 shown in FIG. 1 are operated as follows. The garage shutter device 1 performs a fully open or half-open operation when fully closed, and a half-closed operation when fully open, in order to prevent confinement in the garage or the like and to secure an escape route. The window shutter device 3 is a standard type sweep-out window shutter, and is equipped with a motion sensor 34. In order to prevent people from being blocked out onto the veranda 35, etc., and to secure an evacuation route, when the door is fully closed, Full open or half open operation is performed, and half closed operation is performed when fully open. The window shutter devices 2 and 4 are standard types of tall window shutter devices and are provided on the windows, so they may be maintained as they are, or they may be fully opened or closed, or partially opened or half closed. I do. Although not shown in Fig. 1, in the case of a fire door or a fire shutter device installed in a building, if an escape passage is secured by a separate hidden door, etc., the fully closed operation may be performed. preferable. In addition, if the evacuation passage is not sufficiently secured, it is preferable to secure an opening that allows a person to pass through (an opening of about 30 to 50 cm through which a person can pass) without completely closing it.

FIG. 5 is a diagram showing an example of a preferred embodiment of an opening/closing control system that efficiently controls opening/closing operations of opening/closing body devices installed in buildings at separate locations. In FIG. 5, only the garage shutter device 1 and the window shutter devices 2 to 4 shown in FIG. 1 are shown for the sake of convenience. exist. The opening/closing control system shown in FIG. 5 includes a garage shutter device 1 and window shutter devices 2 to 4, an anemometer 36, a transmitter/receiver master device 50, an access point 60, ISPs 90 to 92, a network (Internet) 95, a cloud server 100 and a user terminal. (portable communication terminal means 70, tablet terminal 101, notebook PC terminal 102, etc.).

The garage shutter device 1 and the window shutter devices 2 to 4 are the opening and closing device group shown in FIG. 1, and various signals such as control signals and detection signals (current detector, voltage detector, temperature detector, tilt sensor, A signal detected by a sensor, an anemometer, a motion sensor, etc.) is transmitted to the master transceiver 50 . The garage shutter device 1 and the window shutter devices 2 to 4 are connected to the transmitter/receiver base unit 50 by the specified low-power radio as described above. It should be noted that, depending on the structural frame of a building such as a house, a building, a factory, or a warehouse, there may be a case where a wired connection is made, or a mixture of wired and wireless connections. FIG. 5 shows a case where all the opening/closing device groups are wirelessly connected corresponding to FIG.

The transmitter/receiver master unit 50 receives various signals from the garage shutter device 1 and the window shutter devices 2 to 4, converts them into data relating to a predetermined opening/closing device, and records the data, and also access point 60 and external network 95. to the cloud server 100 via. The cloud server 100 is provided with a monitor for live display of the opening/closing device data transmitted from the master transceiver 50 . By visually checking this monitor, it is possible to easily acquire and recognize all kinds of information such as the state of the switchgear in which building in which region, the seismic intensity of the earthquake that occurred in that region, etc., and move away. It is possible to efficiently and centrally control the opening/closing operations of a plurality of opening/closing body devices installed at respective locations.

ISPs (Internet Service Providers) 90, 91, 92 and a network 95 are composed of a mobile communication network (wireless network) and a wired communication network (wired network). A mobile communication network (wireless network) is a communication service network provided by mobile phone service companies such as mobile phones and PHS. It is a communication service network provided. A wired communication network (wired network) includes a network 95 connected via an ISP.

The access point 60 connects the master transceiver 50 to the network 95 via the ISP 90, and has a WiFi function. Cloud server 100 is connected to network 95 via ISP 91 . User terminals (mobile communication terminal 70, tablet terminal 101, notebook PC terminal 102) can be connected to the access point 60 via WiFi.

User terminals (portable communication terminal 70 , tablet terminal 101 , notebook PC terminal 102 ) may also be connected to network 95 via ISP 92 different from ISP 90 . That is, the ISP 90 exists in a place such as a building in which the garage shutter device 1, the window shutter devices 2 to 4, the master transceiver 50 and the access point 60 are installed, and is connected there. On the other hand, the ISPs 91 and 92 are connected from a remote location such as a control center, a user's office, or a place far from where the garage shutter device 1, the window shutter devices 2 to 4, the transmitter/receiver master unit 50, and the access point 60 are installed. It is possible.

Since the user terminal is in a state where it can be connected to the access point 60 via WiFi, it can be connected to the master transceiver 50 via the access point 60 . Also, when the user terminal is connected to the ISP 92 outside the building, it can be connected to the master transceiver 50 via the ISP 92 , the network 95 , the ISP 90 and the access point 60 .

Furthermore, user terminals can connect to cloud server 100 via access point 60, ISP 90, network 95 and ISP 91, or via ISP 92, network 95 and ISP 91, respectively. On the other hand, the master transceiver 50 can be connected to the cloud server 100 via the access point 60, ISP 90, network 95 and ISP 91. FIG.

The master transceiver 50 includes a server information section, a user information section, an ISP information section, an e-mail transmission section, and the like for connecting to the network 95 via the access point 60 and the ISP 90 . The server information section stores various information such as the URL of the cloud server 100 , login ID, and password, and executes connection to the cloud server 100 .

The user information section stores various information such as IDs and passwords related to user terminals (laptop PC terminal 102, tablet terminal 101, mobile communication terminal 70), and connects the user terminal and the master transceiver 50. . The ISP information section stores information necessary for connecting to the network 95 via the ISP 90 and executes connection to the network 95 .

The transmission/reception master unit 50 has an e-mail transmission unit, stores e-mail addresses input from user terminals, remote monitoring centers, etc., and sends various information, image data, etc. to the e-mail addresses via the network 95. can also be sent. The master transceiver 50 can also transmit various data via the network 95 in response to a request from a user terminal (laptop PC terminal 102, tablet terminal 101, portable communication terminal 70). Further, the master transceiver 50 transmits various data to the cloud via the network 95 at a predetermined timing, at a timing when the state of the garage shutter device 1 and the window shutter devices 2 to 4 changes, or at a timing when the detection signal is detected. Send to server 100 .

The master transceiver 50 checks whether the access request received via the access point 60 matches the ID and password set and registered in advance as a user, and extracts the e-mail address corresponding to the ID. As a result of verification, if the ID and password match those set and registered, the transmission/reception master device 50 transmits the information about the global IP address or the URL including this global IP address to the user terminal or the like. Since the tablet terminal 101, the mobile communication terminal 70, etc. have a notification function in the terminal itself, it is possible to instantly notify the user of the received data. It should be noted that an e-mail or the like is used for transmission to a terminal such as the notebook PC terminal 102 that does not have a notification function.

When using a user terminal (notebook PC terminal 102, tablet terminal 101, mobile communication terminal 70) to check the state of the garage shutter device 1 and the window shutter devices 2 to 4, the global IP address assigned by the ISP 90 or the global Based on the URL including the IP address, the user terminal accesses the master transceiver 50 . The transmission/reception base unit 50 uses the user ID, password, etc. stored in the user information section to give connection permission to the user terminal. As a result, the user terminal can access the transmitter/receiver base unit 50 and check the states and detection data of the garage shutter device 1 and the window shutter devices 2-4.

After confirming the states and detection data of the garage shutter device 1 and the window shutter devices 2 to 4, the user terminal transmits a termination request to the master transceiver 50. FIG. Upon receiving this termination request, the master transceiver 50 disconnects from the ISP 90 . The connection with the ISP 90 is also disconnected when there is no access from the communication terminal of the user terminal to the master transceiver 50 for a certain period of time or longer. As a result, the user can acquire and check the state and detection data of the garage shutter device 1 and the window shutter devices 2 to 4 from the transmitter/receiver base unit 50 with a simple operation. In the above-described embodiment, it is possible to simultaneously access the state and detection data of the garage shutter device 1 and the window shutter devices 2 to 4 from a plurality of user terminals using the master transceiver 50 .

In the above-described embodiment, the transmission/reception master device 50 transmits various data to the cloud server 100 via the network 95 at a predetermined timing. , the detection signals of the tilt sensor, the vibration sensor, the anemometer, etc., the detection signals of the tilt sensor, the vibration sensor, and the anemometer are transmitted collectively at long intervals such as daily or weekly. may be transmitted instantaneously upon detection. This is used to determine the maintenance timing of switchgear devices and the service life of each device based on detection signals from current detectors, voltage detectors, temperature detectors, etc., so instantaneous transmission is not necessary. However, since it is highly necessary to transmit the information detected by the tilt sensor, vibration sensor, and anemometer instantaneously, it is transmitted at the time of detection.

In the above-described embodiment, the case where the opening/closing body device system composed of the garage shutter device 1, the window shutter devices 2 to 4, and the transmitter/receiver base unit 50 is provided as a stand-alone type has been described as an example. The shutter device 1 and the window shutter devices 2 to 4 each have the same function as the transmitter/receiver main unit 50, so that various data can be constantly recorded via the Internet using a communication medium such as a mobile communication network. It can also be applied to a cloud-type data recording service. In this case, the master transmitter/receivers provided in the garage shutter device 1 and the window shutter devices 2 to 4 each have a recording medium functioning as a buffer memory, and the master transmitter/receiver records various data on the recording medium. When a transfer request for various data is received from the cloud server 100, the various data may be sequentially transferred to the cloud server 100 via the network 95 according to the request.

In FIG. 6, each opening/closing device installed at a distant place has the same function as the transmitting/receiving base unit, and is configured so that the opening/closing operation can be efficiently controlled via the mobile communication network. 1 is a diagram showing an example of an opening/closing control system; FIG. In the embodiment of FIG. 5, the case where the transmitter/receiver master device 50 controls a plurality of opening/closing devices (garage shutter device 1 and window shutter devices 2 to 4) and further transmits various data thereof has been described, but FIG. Now, a case will be described in which a plurality of opening/closing body devices individually have the same functions as the transmitting/receiving base unit and transmit various data via a mobile communication network.

The opening/closing control system of FIG. 6 can be connected to a network 95 using a mobile communication network 96 for an opening/closing device installed in a remote location where laying an optical cable or the like is difficult and where an ISP does not exist. It is designed to By using the mobile communication network 96, its convenience can be dramatically improved.

The mobile communication network 96 is a communication service network provided by mobile phone service companies such as mobile phones and PHS. The garage shutter device 1 and the window shutter devices 2 to 4 are connected to the mobile communication network 96 by mobile communication network connection means (not shown) respectively provided. A mobile communication network 96 is also connected to a network (Internet) 95 via an ISP 90 .

On the other hand, the user terminals (notebook PC terminal 102, tablet terminal 101, mobile communication terminal 70, etc.) are located in a remote location far from the installation locations of the garage shutter device 1 and the window shutter devices 2 to 4, etc. 1 and the window shutter devices 2 to 4, etc., and can appropriately control the operation of the opening/closing devices such as the garage shutter device 1 and the window shutter devices 2 to 4.

The communication network 97 is a communication service network provided by public telephone service companies such as fixed telephones. User terminals (laptop PC terminal 102, tablet terminal 101, mobile communication terminal 70, etc.) are connected to the communication network 97 via WiFi. Communication network 97 is connected to network (Internet) 95 via ISP 92 . Also, the mobile communication network 96 and the communication network 97 can be connected to each other via a communication line 98 .

Next, the operation of confirming detection signals and the like of the garage shutter device 1 and the window shutter devices 2 to 4 using the user terminal will be described. The detection signals of the garage shutter device 1 and the window shutter devices 2 to 4 stored in the cloud server 100 are transmitted from the user terminal (notebook PC terminal 102, tablet terminal 101, mobile communication terminal 70, etc.) to the communication network 97, ISP 92, network 95, can be verified via ISP 91. According to this embodiment, the user can check the detection signals and the like of the garage shutter device 1 and the window shutter devices 2 to 4, etc., which are installed in places where cables cannot be laid, by a simple operation.

7 shows remote control processing executed by remote control switches 12, 22, 32, and 42 in the opening/closing control system of FIG. , 32 and 42. FIG.
FIG. 8 is a diagram showing an example of transmission/reception processing executed by the master transmission/reception device 50 between the transmission/reception slave devices 13, 23, 33, and 43, the mobile communication terminal 70, and the cloud server 100 in the opening/closing control system of FIG. be.
9 shows transmission/reception processing executed between the mobile communication terminal 70 and the master transmission/reception device 50 and transmission/reception processing executed between the user terminal and the master transmission/reception device 50 by the cloud server 100 in the opening/closing control system of FIG. It is a figure which shows an example.

In FIG. 7, communication lines 1a, 2a, 3a, and 4a indicate transmission from remote control switches 12, 22, 32, and 42 to corresponding transceivers 13, 23, 33, and 43, respectively. 7 and 8, communication lines 3a and 3b indicate transmission from transmission/reception child devices 13, 23, 33, and 43 to transmission/reception master device 50, and communication lines 5b and 5c indicate transmission/reception from transmission/reception master device 50, respectively. Transmission to child devices 13, 23, 33 and 43 is shown.

8 and 9, communication lines 5a1 and 5d1 indicate transmission from the master transceiver 50 to the mobile communication terminal 70, and communication lines 7a1 and 7b1 indicate transmission from the mobile communication terminal 70 to the master transceiver 50. . 8 and 9, communication lines 5a2 and 5d2 indicate transmission from the master transmission/reception device 50 to the cloud server 100, and communication line 7b2 indicates transmission from the cloud server 100 to the master transmission/reception device 50. FIG.

In FIG. 7, remote control switches 12, 22, 32, and 42 are connected to transmitter/receiver slave units 13, 23, 33, and 43 via corresponding communication lines 1a, 2a, 3a, and 4a. Sends an operation signal corresponding to the operation button of . Transmitting/receiving slave units 13, 23, 33, and 43 that have received operation signals via communication lines 1a, 2a, 3a, and 4a confirm IDs (id12, id22, id32, id42) included in the received operation signals. If they match, the process corresponding to the operation signal is executed.

Next, transmission/reception processing executed by the transmission/reception slave units 13, 23, 33, and 43 based on operation signals from the human sensors 14, 24, the transmission/reception master unit 50, and the remote control operation switches 12, 22, 32, and 42 will be described. .
In step S51, the transmitter/receiver slave units 13, 23, 33, and 43 receive various signals such as detection signals detected by various sensors, such as when the state of the opening/closing body to be controlled changes, or by various sensors such as the human sensors 14 and 24. A status signal is transmitted to the master transceiver 50 via the communication line 3a.

For example, when the state of the opening/closing body changes (opening/closing stop or halfway stop and ventilation lighting amount), the position of the opening/closing body that indicates whether it is in the open state, closed state, half-closed or half-open state corresponding to each state send a status signal about When the human sensors 14 and 24 detect a person, they transmit a state signal indicating the detection state.

In addition, when the state of the opening/closing body changes, the current detector, the voltage detector, and the temperature detector output respective status signals relating to the motor drive current, drive voltage, and drive temperature. If a vibration sensor (seismometer) is provided, a state signal regarding the detected seismic intensity is provided. If an inclination sensor is provided, a state signal regarding the detected inclination is provided. If so, they each transmit a status signal relating to the wind speed.

In step S52, it is determined whether or not the IDs included in the operation signals match. If they match (yes), the process proceeds to step S53, and if they do not match (no), the process returns. The operation signals in this step S52 are the operation signals from the remote control switches 12, 22, 32, 42 received by the transmission/reception slave units 13, 23, 33, 43 via the communication lines 1a, 2a, 3a, 4a, and the operation signals transmitted and received. Both of the operation signals from the transmission/reception base unit 50 received by the subunits 13, 23, 33, 43 via the communication lines 5b, 5c are included.

In step S53, the opening/closing control circuits 11, 21, 31, and 41 having the matching ID included in the received operation signal execute processing of opening/closing stop, halfway stop, or ventilation/lighting operation corresponding to the operation signal. The ID includes an individual ID and a common ID. The individual ID is assigned to each opening and closing member to be controlled, and the common ID is included in the operation signal from the master transceiver 50. It is assigned in common to all shutters in the building.

Therefore, when the transmitter/receiver slave units 13, 23, 33, 43 receive an operation signal containing the common ID, all the switching control circuits 11, 21, 31, 41 process each opening/closing operation corresponding to the operation signal. to run. When all the shutters are operated at once (simultaneously) without providing a common ID, operation signals including respective individual IDs may be transmitted from the transmitter/receiver for the number of shutters.

In step S54, it is determined whether or not each operation of opening/closing stop, halfway stop, or ventilation lighting has been completed. If completed (yes), proceed to step S55; The process returns to S53 to continue the processing corresponding to the operation signal.

In step S55, it is determined whether or not the received operation signal is from the remote control switches 12, 22, 32, 42 via the communication lines 1a, 2a, 3a, 4a. , 42 (yes), the user is operating while confirming the state of the opening/closing member, and the operation is immediately returned. In order to notify the user of the fact, the process proceeds to step S56.

In step S56, each switching control circuit 11, 21, 31, 41 sends an operation end signal indicating that the processing corresponding to the operation signal is completed via the transmitter/receiver slave units 13, 23, 33, 43 and the communication line 3b. It is transmitted to the transmission/reception base unit 50 .

In FIG. 8, the master transmitter/receiver 50 receives status signals and operation end signals via the communication line 3a and 3b, which are transmitted from the slave transmitter/receivers 13, 23, 33, and 43, respectively. Further, the master transceiver 50 receives an access signal transmitted from the mobile communication terminal 70 via the communication line 7a1. Further, the master transceiver 50 receives operation signals relating to all/individual shutters transmitted from the mobile communication terminal 70 or the cloud server 100 via the communication line 7b1 or 7b2, respectively.

In step S61, based on various status signals received from the transmitter/receiver slave units 13, 23, 33, and 43 via the communication line 3a, the state of the opening/closing body position of the garage shutter device 1 and the window shutter devices 2 to 4, and The detection states of the motion sensors 14 and 24, motor driving current, driving voltage, driving temperature, seismic intensity, inclination, wind speed, etc. are recorded.

In step S62, in response to the access signal received from the mobile communication terminal 70 via the communication line 7a1, signals relating to various states recorded in step S61 are transmitted to the mobile communication terminal 70 via the communication line 5a1. do. On the other hand, for the cloud server 100, at a predetermined timing, at the timing when the state of the garage shutter device 1 and the window shutter devices 2 to 4 changes, or at the timing when the detection signal is detected, the data recorded in the processing of step S61 Signals relating to various states are transmitted via the communication line 5a2. Here, the predetermined timing can be arbitrarily set, such as every one to several hours, a predetermined time every day, and every several days. In addition, it is preferable to transmit the state regarding the seismic intensity, the state regarding the tilt, and the state regarding the wind speed immediately when these states are detected.

In step S63, it is determined whether an operation signal has been received from the mobile communication terminal 70 via the communication line 7b1 or whether an operation signal has been received from the cloud server 100 via the communication line 7b2. If not (no), immediately return; if received (yes), determine whether the received operation signal relates to all shutters or individual shutters; if it relates to individual shutters, proceed to step S64; In the case of all shutters, the process proceeds to step S65.

In step S64, operation signals relating to the individual shutters are transmitted to the transceiver units 13, 23, 33 and 43 via the communication line 5b. Since the operation signal related to the individual shutters transmitted via the communication line 5b includes the aforementioned individual ID, the transmitter/receiver slave units 13, 23, 33, 43 (garage shutter device 1 and/or The window shutter devices 2 to 4) execute processing corresponding to the operation signal in step S53.

In step S65, operation signals regarding all the shutters are transmitted to the transceiver units 13, 23, 33, and 43 via the communication line 5c. If the above-described common ID is included in the operation signal related to all the shutters transmitted via the communication line 5c, all the transmitter/receiver slave units 13, 23, 33, and 43 that have received the common ID (Garage shutter device 1 and window shutter devices 2 to 4) execute processing corresponding to the operation signal in step S53.

In step S66, it is determined whether or not an operation end signal has been received from the transceivers 13, 23, 33, 43 via the communication line 3b. If (no), this determination process is repeated until an operation end signal is received.

In step S67, the master transceiver 50 transmits an operation end signal indicating that the process corresponding to the operation signal has ended to the mobile communication terminal 70 and the cloud server 100 via the communication lines 5d1 and 5d2.

In FIG. 9, the mobile communication terminal 70 receives various status signals transmitted from the master transceiver 50 via the communication line 5a1, and receives the operation end signal via the communication line 5d1. In addition, mobile communication terminal 70 transmits an access signal to transmission/reception master device 50 via communication line 7a1 in response to activation of application software that functions as a remote control switch for the opening/closing body.

In step S71, based on the status signal received from the transmitter/receiver base unit 50 via the communication line 5a1, the mobile communication terminal 70 controls the controllable garage shutter device 1 and the window shutter devices 2 to 4 to open, stop, or stop during the opening and closing of each of them. The display screen of the mobile communication terminal 70 displays the state of the position of the open/closed body of the stop and ventilation lighting, the detection state of the human sensors 14 and 24, and the like.

In step S72, in response to the operation of the display screen of the mobile communication terminal 70, an operation signal for all the shutters such as the garage shutter device 1 and the window shutter devices 2 to 4 or an operation signal for individual shutters is sent via the communication line 7b1. It is transmitted to the transmission/reception base unit 50 .

In step S73, it is determined whether or not an operation end signal has been received from the transmission/reception base unit 50 via the communication line 5d1. This determination process is repeated until the end signal is received.

In step S74, the state of opening/closing/stopping of the shutter that has been instructed to operate, the state of ventilation lighting, and the detection state of the motion sensors 14 and 24 are displayed on the display screen of the portable communication terminal 70, and the process returns. In addition to the state of the opening/closing body position and the detection state of the motion sensors 14 and 24, the mobile communication terminal 70 also has states of motor drive current, drive voltage, and drive temperature, seismic intensity, tilt, The state related to the wind speed and the like may be displayed respectively.

On the other hand, in FIG. 9, the cloud server 100 receives various status signals transmitted from the master transceiver 50 via the communication line 5a2, and receives the operation end signal via the communication line 5d2. The cloud server 100 also receives access signals transmitted from user terminals (laptop PC terminal 102, tablet terminal 101, mobile communication terminal 70, etc.) via the communication line 10a, and receives operation signals via the communication line 10b. receive.

In step S101, based on the status signal received from the master transceiver 50 via the communication line 5a2, the controllable garage shutter device 1 and the window shutter devices 2 to 4 are opened/stopped, stopped midway, and opened/closed for ventilation and lighting. Various states such as body position, detection state of human sensors 14 and 24, motor drive current, drive voltage and drive temperature, seismic intensity, tilt, wind speed, etc. information such as the model number, type, installation location, etc., and create a database.

A user terminal (notebook PC terminal 102, tablet terminal 101, mobile communication terminal 70, etc.) accesses the cloud server 100, which is a database, via the communication line 10a, acquires necessary information, etc., and uses the acquired information in various ways. By processing, it is possible to recognize the timing of maintenance such as part replacement of the opening/closing device, the life of each device, and the like.

In step S102, according to the operation signal received from the user terminal via the communication line 10b, or according to the judgment result of the AI system built in the cloud server 100 itself, the garage shutter device 1 and the An operation signal to the window shutter devices 2 to 4 etc. is transmitted to the transmitter/receiver base unit 50 via the communication line 7b2. In other words, when the user terminal accesses the cloud server 100, the building itself may be deformed due to a large-scale earthquake, etc., and the opening and closing operation may cause the shutter curtain to fall. When the value of the tilt sensor is detected, by transmitting an operation signal from the user terminal to the corresponding shutter device, the shutter device is controlled so as not to operate electrically.

In addition, by the AI system built into the cloud server 100, when a fire breaks out immediately after a large-scale earthquake, for shutter devices that must be closed immediately, the value of the vibration sensor is more than a predetermined value. An operation signal is transmitted to perform a closing operation to all the shutter devices in the area where the area is closed. On the other hand, for shutter devices that need to secure an evacuation route immediately after a large-scale earthquake, it is necessary to fully open, half open, or half close shutter devices in areas where the value of the vibration sensor exceeds a predetermined value when an earthquake occurs. Send an operation signal to perform an action. Also, the opening/closing operation may be controlled according to the strength of the wind speed.

In step S103, it is determined whether or not an operation end signal has been received from the transmission/reception base unit 50 via the communication line 5d2. This determination process is repeated until the end signal is received.

In step S104, if the transmission processing of the operation signal in step S101 is based on the instruction from the user terminal, the processing corresponding to the operation instruction to the user terminal that has transmitted the operation signal has ended. is transmitted via the communication line 7a2. As a result, the user terminal side can recognize that the processing according to the operation instruction has been reliably executed.

Conventionally, when stopping (half-opening or half-closing) a window shutter device, it is necessary to wirelessly execute the same operation for a plurality of window shutter devices. Output and operate. It takes about 3 seconds for transmission and reception for each window shutter device. There is no problem if the operation signal is an open signal or a close signal for fully opening or fully closing, but in the case of a midway stop control signal for performing a midway stop operation, a stop signal is sent after a predetermined time has passed after the open or close signal is sent. By doing so, it is stopped at a halfway stop (half-open or half-close) position. In this case, if there are a large number of window shutter devices to be operated simultaneously, it is necessary to send a stop signal to the first operated window shutter device while sending the open signal to each window shutter device. As a result, the control becomes very complicated, and the processing is hindered.

Therefore, in this embodiment, the time to start the stop operation together with the open signal or the close signal from the transmitter/receiver master unit 50 to the transmitter/receiver slave units 13, 23, 33, 43 (garage shutter device 1 and window shutter devices 2 to 4) to send a signal indicating That is, after a predetermined time has passed since the start of the opening operation or the closing operation, a midway stop operation signal for stopping (half-opening or half-closing) operation is transmitted. As a result, it is possible to simplify the system for stopping the window shutter device or the like in the middle, and it is possible to simplify the control program. Details of the operation signal response processing corresponding to each operation of opening/closing stop, halfway stop, and ventilation/lighting are described in the previous application (Japanese Patent Application No. 2017-009026), so the details are omitted.

In the case where safety is given priority as in the garage shutter device 1, when a close signal is received during the opening operation of the shutter curtain, the operation instruction due to the reception of the close signal is ignored, the opening operation is continued, and the shutter is opened. The closing operation may be started only when the close button is operated while the curtain is stopped. Furthermore, when a close signal is received after the shutter curtain is fully open, the closing operation may be started immediately, or the close signal is not received until a predetermined time (arbitrarily settable) has elapsed after the shutter curtain is fully open. You can ignore it.

Further, it is also possible to store the fact that the closing signal has been received, and reflect the reception of the closing signal after a predetermined time has elapsed after the completion of the full opening. Further, when such an operation signal is generated by the dedicated remote control operation switch 12, the instruction by the operation signal may be executed as it is. This is because when a signal is received from the dedicated remote control operation switch 12, it is often appropriate to give priority to the operation of the operator because the operator is always there.

When the closing signal is received during the above-mentioned opening operation, the reception of the closing signal is ignored and the opening operation is prioritized. Although the case where the movement in the inside is the movement in the reverse direction has been described, the opposite case is also possible. That is, the movement of the shutter curtain during the closing operation is defined as the forward movement, and the movement during the opening operation is defined as the reverse movement. Priority may be given to the closing operation.

It may be determined in advance whether to ignore the reception of the closing signal and to execute the control giving priority to the opening operation, or to execute the reverse control. , for example, a switch for switching priority control may be provided in the DIP switch setting section 81 of each of the transmission/reception slave units 13, 23, 33, and 43 so that the designation can be changed as appropriate.

In the above-described embodiment, the case where the access point 60 is provided at one location has been described, but the access points may be installed at multiple locations within the building. In this case, an access point may be provided inside the garage shutter device 1 and the window shutter devices 2 to 4, or an access point may be provided at a LAN terminal inside the building.

In the above-described embodiment, the master transceiver 50 and slave transceivers 13, 23, 33, and 43 are connected by a specific low-power wireless system. good too. Further, in the above-described embodiment, the master transceiver 50 and the access point 60 are provided separately, but the master transceiver 50 may incorporate the function of the access point 60 . The portable communication terminal 70 may be used to set timers for the garage shutter device 1 and the window shutter devices 2 to 4 all at once or individually so that timer operations can be executed.

In the above-described embodiment, the case where the master transceiver 50 controls the entire shutter device in the building has been described. When the motion sensor 50 detects, the automatic closing process corresponding to the motion sensors 14 and 34 and the anemometer 36 may not be executed. In addition, by setting the HEMS to a going-out mode indicating that the person is going out and interlocking with this HEMT, the human sensors 14, 34 and meteorological events (for example, anemometer 36, seismometer, etc.) automatically Closure may be enabled.

Although not described in the above embodiment, in the case of automatic closing based on data such as remote control from outside, weather information, timer setting, etc., the opening and closing body device can visually ( Display means, etc.) and/or audio notification means (speaker, etc.) may be used to call attention to the surroundings. Such notification means may be installed together with the human sensor in the opening/closing device, or may be installed in all the opening/closing devices.

If the garage shutter device 1 automatically closes, there is a possibility that a person will be trapped in the garage, so in the case of the garage shutter, a midway stop operation is performed. As a result, when a person is in the garage, it becomes possible to recognize that the closing process has been executed by stopping the shutter in the middle, and it is possible to prevent the person from being confined.

In the above-described embodiment, the remote control switch and the portable communication terminal are provided with one half-open or half-close halfway stop button. , half-open or half-close may be considered to have been operated, and similar processing may be executed.

In the above-described embodiment, the shutter curtain that is drawn out vertically has been described as an example. can be applied to Moreover, as the opening/closing device, for example, it is applicable to a shutter device, a window shutter device, a blind device, a roll screen device, a banner device, a sliding door device, a moving partition device, an awning device, a waterproof board device, and the like.

In the above-described embodiment, an opening/closing device in which the shutter curtain is extended vertically is described as an example. Therefore, the opening dimension of the opening is the height dimension. The width of the opening should be the width. In addition, in the case of an awning or a banner device that does not completely close the entire opening, the extension stroke length may be replaced with the opening dimension of the opening for input.
Application software for mobile communication terminals can be freely obtained from a predetermined URL. By appropriately changing the application software, the design and operation method can be easily changed.

Information such as the extent to which the opening/closing body device is closed may be visually displayed on the display screen of the mobile communication terminal as a moving image such as an animation. Surveillance cameras and motion sensors are installed around the opening/closing device, and based on the images captured by the cameras and information detected by the motion sensors, it is possible to control the possibility of each operation such as opening/closing, stopping in the middle, and ventilation and lighting. can be In addition, the inclination of the parts of the opening/closing device may be detected using an image captured by a camera.

The mobile communication terminal means described as the mobile communication terminal 70 in the above-described embodiment does not necessarily have to be carried around as long as it can perform similar processing and communication using application software, and is usually left stationary. It may be a non-portable type, such as one that can be used in a mobile phone, or a mobile type that is large in size. For example, a device with a communication function, such as a TV in a living room equipped with an information display/operation function or a car navigation system installed in an automobile, may communicate with the transmitter/receiver base unit 50 by application software and function as a remote control operation switch. Also, the mobile communication terminal means and application software may be operated virtually on the cloud. (Specific processing and communication with the transmission/reception base unit 50 are performed by a server device that manages and processes the site).

Reference Signs List 1 Garage shutter devices 2, 3, 4 Window shutter devices 11, 21, 31, 41 Open/close control circuits 12, 22, 32, 42 Remote control switches 13, 23, 33, 43 Transmitters/receivers 11a, 21a Communication lines 12a, 22a, 32a, 42a Communication lines 12b, 22b, 32b, 42b Communication lines 13b, 23b, 33b, 43b Communication lines 13c, 23c, 33c, 43c Communication lines 14, 34 Human sensors 1a, 2a, 3a, 3b, 4a Communication line 35 Veranda 36 Anemometers 5a1, 5a2, 5b, 5c, 5d1, 5d2 Communication line 7a1, 7a2, 7b1, 7b2 Communication line 50 Transmission and reception Base unit 60 Access point 70 Portable communication terminal 81 DIP switch setting unit 90, 91, 92 ISP
95...Network 96...Mobile communication network 97...Communication network 98...Communication line 100...Cloud servers 10a, 10b...Communication line 101...Tablet terminal 102...Laptop PC

Claims (6)

a plurality of opening/closing body devices respectively provided in the plurality of openings;
detection means provided in at least one of the inside and outside periphery of each of the plurality of opening/closing body devices;
a plurality of slave unit control means provided in each of the plurality of opening/closing body devices for electrically controlling the operation of the opening/closing body device;
a plurality of manipulator means for transmitting a control signal corresponding to the operation of the opening/closing device to the slave device control means in accordance with the manipulation of the manipulator;
A server on the Internet connected to the plurality of slave unit control means via a communication line, transmitting a control signal corresponding to the operation of the opening/closing device, and receiving the detection data group detected by the detection means group a main device control means for supplying the opening/closing device to the means via a communication means, receiving an operation signal from the server means via the Internet, and controlling the operation of the opening/closing device according to the received operation signal. in the control system,
As the detection means, a current detection means for detecting a drive current of a drive motor of the opening/closing body device, a voltage detection means for detecting a drive voltage for the drive motor , and a temperature detection means for detecting the temperature of the drive motor. all or a part thereof , tilt detection means for detecting the tilt of parts in the opening and closing device, wind speed detection means for measuring the wind speed at the location where the opening and closing device is installed, and surroundings of the opening and closing device A switching control system including all or a part of seismic intensity detection means for detecting the seismic intensity of an earthquake is installed at a plurality of locations separated from each other , and the current detection means, voltage detection means and temperature detection means The detected data is transmitted to the server means at long intervals of hours, days or weeks, and the data detected by the tilt detection means, the wind speed detection means and the seismic intensity detection means are detected. An opening/closing control system characterized by instantaneously transmitting information to said server means at a point in time. 2. The opening/closing control system according to claim 1, wherein the server means creates a database of the received detection data group, and operates the opening/closing device installed at each of the plurality of locations based on the databased data. An opening/closing control system characterized by controlling the 3. The opening/closing control system according to claim 2, wherein the maintenance period of the opening/closing body devices installed at the plurality of locations or the life of each device is determined based on the database data. control system. A plurality of manipulator means for outputting a control signal corresponding to each operation of a plurality of opening/closing body devices provided in each of a plurality of openings in accordance with the operation of the manipulator, and the opening/closing of the plurality of manipulator means. opening/closing control by using slave unit control means provided in the body device and by using master unit control means connected to the slave device control means provided in the plurality of opening/closing body devices via a communication line; in the method
The base unit control means receives detection data detected by detection means provided in at least one of the inside and outside peripheries of each of the plurality of opening/closing body devices, and transmits the communication means to the server means on the Internet. and receiving an operation signal from the server means via the Internet, controlling the operation of the opening/closing body device according to the received operation signal,
As the detection means, a current detection means for detecting a drive current of a drive motor of the opening/closing body device, a voltage detection means for detecting a drive voltage for the drive motor , and a temperature detection means for detecting the temperature of the drive motor. all or a part thereof , tilt detection means for detecting the tilt of parts in the opening and closing device, wind speed detection means for measuring the wind speed at the location where the opening and closing device is installed, and surroundings of the opening and closing device A switching control system including all or part of a seismic intensity detection means for detecting the seismic intensity of an earthquake is installed at a plurality of locations spaced apart from each other. The detection data detected by the detection means and the temperature detection means are transmitted to the server means at long intervals of hours, days or weeks, and are detected by the inclination detection means, the wind speed detection means and the seismic intensity detection means. The opening/closing control method, wherein the detected data is instantaneously transmitted to the server means at the time of detection. 5. The opening/closing control method according to claim 4, wherein the server means creates a database of the received detection data group, and controls the operation of the opening/closing device installed at each of the plurality of locations based on the databased data. An opening/closing control method characterized by controlling. 6. The opening/closing control method according to claim 5, wherein the maintenance period of said opening/closing body devices respectively installed at said plurality of locations or the life of each device is determined based on said database data. control method.

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