JP5297911B2 - Collective control terminal device and remote monitoring control system - Google Patents

Description

  The present invention relates to a remote monitoring control system that monitors and controls lighting devices, and a collective control terminal device that simultaneously switches lighting states of a plurality of lighting devices in the remote monitoring control system.

  Conventionally, signals are transmitted and received by a time-division multiplex transmission system as a remote monitoring control system that controls load devices such as lighting devices or ventilation fans, and manages contact states such as alarms from alarms and open / close states of electric locks. Things have been proposed. In the remote monitoring and control system employing this time division multiplex transmission system, transmission and reception of transmission signals on the signal line are managed by a transmission control device that supplies a predetermined voltage to the signal line. When the control terminal device that controls the operation of the load device and the operation terminal device that includes the operation switch that specifies the operation of the load device are provided in the remote monitoring control system, each of the control terminal device and the operation terminal device The transmission signal is transmitted and received between the transmission control device and the transmission control device. That is, when a switch of the operation terminal device is operated in the remote monitoring control system, the operation load device communicates with the control terminal device via the transmission control device, so that the target load device is controlled.

  In such a remote monitoring and control system, when the lighting device is a load device, the control terminal device includes a plurality of relay switches that perform power ON / OFF to each of the plurality of lighting devices. Then, a channel that is higher in the address is assigned to the control terminal device, and a load number that is lower in the address is assigned to each relay switch. That is, one address composed of a channel and a load number is assigned to each relay switch. Therefore, in order to turn on or off a specific lighting device, a relay switch that controls power ON / OFF of the lighting device can be specified by an assigned address.

  In the remote monitoring control system using the lighting device as a load device, individual control for individually controlling the lighting state of the lighting device by associating one operation switch in the operation terminal device with one relay switch in the control terminal device; There is batch control in which one operation switch is associated with a plurality of relay switches to collectively control lighting states of a plurality of lighting devices (see Patent Document 1). The collective control includes group control that controls a plurality of lighting devices to the same lighting state, and pattern control that controls a plurality of lighting devices to lighting states set individually in advance. In order to enable execution of group control and pattern control, the transmission control device can control each of a plurality of relay switches to be controlled with respect to the address of an operation switch (pattern switch or group switch) for pattern control or group control. Registration related to the address.

  And in the remote monitoring control system of patent document 1, after operating the pattern switch or group switch used as registration object, by operating the operation switch (individual switch) which performs individual control with respect to the relay switch used as control object In the transmission control device, the addresses of the plurality of relay switches to be controlled are registered in association with the addresses of the pattern switch or group switch. In addition, in order to facilitate the work when registering in the transmission control device by associating the addresses of the plurality of relay switches to be controlled with the addresses of the pattern switch or group switch, An installed selector switch has been proposed (see Patent Document 2).

  In the selector switch of Patent Document 2, when the address of a relay switch registered in association with the address of a pattern switch or group switch is selected, the address of this pattern switch or group switch and the addresses of a plurality of relay switches to be controlled The related data relating to is transferred to the transmission control device. Since the transmission control device stores the related data transferred from the selector switch, when the pattern switch or group switch of the operation terminal device is operated, the transmission control device refers to the related data to control the data. The operation of a plurality of relay switches to be controlled in the terminal device is simultaneously controlled to execute pattern control or group control of the lighting device.

JP 2000-010621 A JP 2002-289376 A

  As described above, in the conventional remote monitoring and control system, in order to realize the group control and the pattern control, the related data in which the addresses of the plurality of relay switches to be controlled are associated with the addresses of the group switch and the pattern switch. Must be transferred to the transmission control device for registration. That is, in order to collectively control a plurality of lighting devices in the remote monitoring and control system, after registering related data having addresses of relay switches to which a plurality of lighting devices to be controlled are connected to the transmission control device, The target lighting device can be controlled collectively only by operating the operation switch registered by the related data.

  Therefore, in the conventional remote monitoring control system, even when a plurality of lighting devices are temporarily controlled collectively, if the related data is not registered in the transmission control device, the lighting devices are collectively controlled. If the control is not only temporary but also temporary control, it is necessary to delete the related data registered in the transmission control device. Therefore, when it is desired to temporarily control a plurality of lighting devices in the remote monitoring control system collectively, the worker has to perform a complicated operation of setting and deleting related data.

  In view of such problems, the present invention provides a collective control terminal device that enables collective control of a plurality of lighting devices without performing registration in the transmission control device, and remote monitoring control including the collective control terminal device. The purpose is to provide a system.

  In order to achieve the above object, a terminal device for collective control according to the present invention transmits a signal based on a time division multiplex transmission system to a transmission control device that monitors and controls a lighting state of a lighting device in a remote monitoring control system. A communication unit that performs transmission / reception, a target designating unit that designates a lighting device that is a target of batch control that collectively controls lighting states of a plurality of lighting devices, an operation unit that receives an operation input of batch control, and the operation unit When there is a collective control operation input, it generates lighting control data that identifies the lighting device that is the target of collective control specified by the target specifying unit and its lighting state, and the lighting control data is A signal generation unit to be provided to the communication unit, and transmitting the lighting control data from the communication unit to the transmission control device, whereby the lighting state of the lighting device to be collectively controlled is transmitted to the transmission control device. Characterized in that it is your.

Here, the lighting control data includes control target information indicating whether a part of the lighting device in the remote monitoring control system is subject to collective control or non-target, and control indicating a lighting state after collective control. It is constituted by the content information. At this time, the lighting device for which the target or non-target of the collective control is specified by the lighting control data is N lighting devices whose addresses are serial numbers, and the control target information is the N lighting devices. It is composed of head address information indicating a head address among device addresses, and N-bit target designation information obtained by continuing 1-bit information assigned to each of the N lighting devices, and the target Even if each 1-bit information constituting the specified information is binary information, one value indicates that it is a target of collective control, and the other value indicates that it is not a target of collective control. Good.

The remote monitoring control system of the present invention includes a control terminal device that controls the lighting state of the lighting device, an operation terminal device that includes an operation switch that receives an input of a lighting state command of the lighting device, the control terminal device, and the operation performing a respective terminal device, the transmission and reception of signals based on time division multiplex transmission method, a transmission control device for monitoring and controlling the lighting state of the lighting device, a remote monitoring and control system comprising, above the batch control terminal device When the terminal device for collective control transmits the lighting control data to the transmission control device, the transmission control device converts the lighting control data into a control signal to be transmitted to the control terminal device. The control signal is transmitted to the control terminal device, and the lighting state of the lighting device to be collectively controlled is set to the specified lighting state.

  According to the present invention, a transmission control device generates a lighting control signal for collectively controlling lighting states of a plurality of lighting devices and transmits the lighting control signal to the transmission control device, so that the transmission control device performs batch control based on the lighting control signal. Since it is possible to control the lighting state of the lighting device that is the target of the transmission, it is not necessary to register the related data for performing batch control in the transmission control device as in the past, and the registered related data is deleted. There is no need. Therefore, when a plurality of lighting devices are temporarily controlled collectively, a desired lighting device can be collectively controlled by a simple operation by using the collective control terminal device of the present invention.

These are block diagrams which show the structure of the remote monitoring control system in embodiment of this invention. These are block diagrams which show the internal structure of the transmission control apparatus in the remote monitoring control system shown in FIG. These are block diagrams which show the internal structure of the terminal device for collective control in the remote monitoring control system shown in FIG. These are timing charts showing the communication operation between the transmission control device and the collective control terminal device in the remote monitoring control system shown in FIG. These are the external views which show the structure of the terminal device for package control of Example 1. FIG. These are the figures which show the display content for operation in the display part of the terminal device for collective control shown in FIG. These are figures which show the structure of the data for lighting control transmitted from the terminal device for collective control shown in FIG. These are the external views which show the structure of the terminal device for package control of Example 2. FIG. These are figures which show the structure which opened the door part of the terminal device for collective control shown in FIG. These are figures which show the structure of the data for lighting control transmitted from the terminal device for collective control shown in FIG.

  A remote monitoring control system according to an embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing the configuration of the remote monitoring control system of this embodiment, and FIG. 2 is a block diagram showing the internal configuration of the transmission control device in the remote monitoring control system shown in FIG. FIG. 3 is a block diagram showing the internal configuration of the collective control terminal device of the present invention.

1. Remote Monitoring and Control System As shown in FIG. 1, the remote monitoring and control system of the present embodiment operates a transmission control device 1 that manages transmission of signals on a two-wire signal line Ls, and an operation of an operation switch 3 using a wall switch or the like. An operation terminal device 2 that performs monitoring, a control terminal device 4 that controls power ON / OFF of the lighting device 5, and a collective control terminal device 6 that inputs collective control of the plurality of lighting devices 5. . In the remote monitoring and control system, a time division multiplex transmission system using a bipolar (± 24V) time division multiplex signal using the two-wire signal line Ls is adopted, and the transmission control apparatus 1 is based on the time division multiplex system. A transmission signal is periodically transmitted to the signal line Ls. A transmission signal transmitted from the transmission control device 1 includes a synchronization pulse, mode data indicating a signal mode, a terminal device (operation terminal device 2, control terminal device 4, and collective control terminal device) which is a transmission partner (accessed). Address data indicating an address (8 bits), control data indicating control contents, checksum data for detecting a transmission error, and a time slot for returning a return signal from the terminal device. Each data is formed by a pulse width modulation.

  In such a remote monitoring control system, a remote monitoring control mode for performing remote monitoring control of the lighting state of the lighting device 5 and a setting mode for performing settings for performing remote monitoring control are executed. In the remote monitoring control mode, the transmission control device 1 communicates with each terminal device based on the logical address set for each terminal device, whereby the lighting device 5 is remotely monitored and controlled. On the other hand, in the setting mode, related data specifying the lighting device 5 whose lighting state is controlled by the operation switch 3 is transferred to the transmission control device 1 from a setting terminal device (not shown) or the like. In this setting mode, in order to identify the terminal device that communicates with the transmission control device 1, the physical address set in the terminal device is referred to, and the signal line Ls is connected between the terminal device and the transmission control device 1. Dedicated to communication. The collective control terminal device 6 is set with the above-described logical address and physical address, stored in the transmission control device 1, and in the setting mode based on the physical address, as will be described later, the illumination subject to collective control. The lighting control data indicating the device 5 is generated and transmitted to the transmission control device 1.

  When the remote monitoring control mode is executed, the transmission control device 1 sends the transmission signal in which the address data is changed cyclically as a dummy mode that operates according to the interrupt from each terminal device at regular time intervals. Yes, always perform polling. At this time, when an interrupt signal is output from the operation terminal device 2 or the collective control terminal device 6 in which the operation switch 3 is operated, the transmission control device 1 that has received the interrupt signal transmits the mode data to the address search mode. A transmission signal is transmitted. Further, the operation terminal device 2 or the collective control terminal device 6 that outputs an interrupt signal sets the interrupt flag at the same time as transmitting the interrupt signal in synchronization with the transmission signal by polling at all times.

  When receiving the transmission signal in the address search mode, the operation terminal device 2 or the collective control terminal device 6 for which the interrupt flag is set returns an address during the signal return period of this transmission signal. As a result, the transmission control device 1 recognizes the address (logical address) of the operation terminal device 2 or the collective control terminal device 6 that transmitted the interrupt signal, and interrupts the transmission signal having the recognized address as address data. This is transmitted to the operation terminal device 2 or the collective control terminal device 6 for which the flag is set. When the operation terminal device 2 for which the interrupt flag is set receives this transmission signal, the operation terminal device 2 returns monitoring data corresponding to the operation of the operation switch 3 during the signal return period of the transmission signal. To do. On the other hand, when the collective control terminal device 6 for which the interrupt flag is set receives this transmission signal, the collective control terminal device 6 sends the transmission control terminal device 1 to the transmission control terminal device 1 during the signal return period of the transmission signal. Request migration to data transfer processing

  Thereafter, the transmission control device 1 generates a transmission signal for instructing resetting of the interrupt flag in order to complete the interruption operation by the operation terminal device 2 or the collective control terminal device 6, and transmits the transmission signal to the operation terminal device 2. Then, the operation terminal device 2 or the collective control terminal device 6 is made to cancel the interrupt flag. Thereby, the operation terminal device 2 or the collective control terminal device 6 for which the interrupt flag is set cancels the setting of the interrupt flag. Then, when the interrupt flag set in the operation terminal device 2 is canceled, the transmission control device 1 determines the control terminal device 4 at the address specified by the monitoring data received from the operation terminal device 2. A transmission signal having address data by address is transmitted. Since the transmission signal to be transmitted to the control terminal device 4 has control data indicating the power ON / OFF of the lighting device 5 specified by the monitoring data, the control terminal device 5 that has received this transmission signal accepts the input. The lighting state of the lighting device 5 corresponding to the operation switch 3 is controlled.

  On the other hand, when the interrupt flag set in the collective control terminal device 6 is canceled, the mode shifts to the setting mode, and a data transfer process is executed from the collective control terminal device 6 described later to the transmission control device 1. . Also, in the above-described remote monitoring control mode, when an interruption by a setting terminal device (not shown) is made, the mode is shifted to the setting mode. In the setting mode, since the transmission control device 1 occupies the signal line Ls, based on the physical addresses of the collective control terminal device 6 and the setting terminal device not shown, the collective control terminal device 6 or not shown. Communicate with any of the setting terminal devices. Then, as will be described later, the collective control terminal device 6 or a setting terminal device (not shown) notifies the transmission control device 1 of the number of bytes of data to be transferred, and the transmission control device 1 sets the notified number of bytes. Until it reaches, the operation of receiving the transferred data is performed.

  When this data transfer process is completed, the transmission control device 1 returns to the remote monitoring control mode in which communication is performed based on the logical address. When a data transfer process is performed by a setting terminal device (not shown), since the amount of data to be transferred is large, the transfer data is divided and transferred. Each time the transfer of the divided transfer data is completed, the transmission control device 1 returns to the remote monitoring control mode and confirms an interrupt from another terminal device such as the operation terminal device 2. At this time, if there is no interrupt from another terminal device, the mode is again shifted to the setting mode, and the data transfer process by the setting terminal device (not shown) is resumed. On the other hand, when there is an interrupt from another terminal device, after executing remote monitoring control based on the interrupt operation, the mode shifts to the setting mode and the data transfer process by the setting terminal device (not shown) is resumed. .

2. Transmission Control Device As shown in FIG. 2, the transmission control device 1 is connected to a two-wire signal line Ls and transmits a transmission signal, and performs signal processing to perform various operations such as transmission processing. A signal processing unit 102 to perform, a program memory 103 including a ROM (Read Only Memory) storing a program for defining each operation executed by the signal processing unit 102, an operation switch 3 and a control terminal device 4 of the operation terminal device 2. And a data memory 104 configured by a nonvolatile memory or the like that stores the relationship with the lighting device 5 connected to the. The transmission control device 1 configured as described above stores in the data memory 104 address data based on the logical address and physical address of each terminal device that performs communication via the signal line Ls.

  When the transmission control device 1 communicates in the remote monitoring control mode, the signal processing unit 102 circulates and changes the address data (address data based on logical addresses) of the transmission signal as the mode data in the dummy mode, and this transmission is performed. A signal is transmitted from the communication unit 101 to the signal line Ls. When continuous polling based on such an operation is performed, when the communication unit 101 receives an interrupt signal from a terminal device, the signal processing unit 102 generates a transmission signal in the address search mode in order to confirm the interrupt. Then, the data is transmitted from the communication unit 101. Since the terminal device that has transmitted the interrupt signal for this transmission signal is notified of an address in the signal return period, the signal processing unit 102 determines the terminal device that requested the interrupt based on the notification of the signal return period. Identify.

  Thereafter, the signal processing unit 102 generates a transmission signal for canceling the interrupt flag, transmits the transmission signal from the communication unit 101, generates a transmission signal having address data based on the address of the identified terminal device, and transmits the transmission signal from the communication unit 101. Send. Therefore, the communication unit 101 receives the monitoring data returned from the terminal device during the signal return period of the transmission signal, and the signal processing unit 102 analyzes the contents of the monitoring data. When the monitoring data is returned from the operation terminal device 2, the signal processing unit 102 generates control data indicating power ON / OFF of the lighting device 5 specified by the monitoring data. And the communication part 101 transmits the transmission signal by the address data and control data corresponding to the target illuminating device 5 with respect to the control terminal device 4 which controls the illuminating device 5. FIG.

  If the monitoring data is returned from the collective control terminal device 6, the signal processing unit 102 generates a transmission signal for canceling the interrupt flag, transmits it from the communication unit 101, and then enters the setting mode. Transition. Then, the signal processing unit 102 generates a transmission signal having address data based on a physical address and transmits the transmission signal to the collective control terminal device 6. The transmission signal transmitted at this time is a signal for instructing the collective control terminal device 6 to start data transfer processing described later. Thereafter, when the lighting control data is transferred from the collective control terminal device 6, the signal processing unit 102 is notified of the amount of data transferred before the transfer from the collective control terminal device 6. It is determined whether or not the data amount of the received lighting control data has reached the notified data amount. Further, the signal processing unit 102 recognizes the lighting device 5 to be controlled based on the received lighting control data, and stores it in the data memory 104 together with the confirmed control content.

  Then, the signal processing unit 102 indicates that the data amount of the lighting control data transferred from the collective control terminal device 6 has reached the notified data amount, and that there is no error in the transferred lighting control data. Then, a transmission signal giving an instruction to end the data transfer process is generated and transmitted from the communication unit 101 to the terminal device 6 for batch control. When the setting mode for executing the data transfer processing by the collective control terminal device 6 is thus completed, the transmission control device 1 shifts to the remote monitoring control mode and executes the lighting control of the lighting device 5. . At this time, the signal processing unit 102 reads the lighting device 5 to be controlled and the control content stored in the data memory 104, and includes address data based on the logical address of each lighting device 5 to be controlled and control data based on the control content. Is transmitted from the communication unit 101.

  Thereby, when the control terminal device 4 that controls the lighting state of the target lighting device 5 receives the transmission signal, the lighting device 5 to be controlled by the lighting control data of the collective control terminal device 6 The lighting state specified by the control content is set. As described above, after the transfer processing of the lighting control data from the collective control terminal device 6 is completed, the transmission control device 1 performs the lighting device 5 as a target in the remote monitoring control system based on the lighting control data. Are controlled so as to be in the specified lighting state. After that, when the transmission control device 1 confirms that the lighting state of the lighting device 5 to be controlled is the designated lighting state from the information returned from the control terminal device 4 in the signal processing unit 102, Based on the lighting control data stored in the data memory 104, the information regarding the lighting device 5 to be controlled and the control content is deleted. As described above, the transmission control device 1 controls the lighting state of the lighting device 5 based on the transferred lighting control data, and then temporarily uses the information related to the lighting control data in the data memory 104. Erase automatically.

3. Collective Control Terminal Device and Data Transfer Processing As shown in FIG. 3, the collective control terminal device 6 is connected to the signal line Ls and receives a transmission signal from the transmission control device 1, and lighting control data. A signal generation unit 602 that generates and gives to the communication unit 601; a target designation unit 603 that designates a lighting device to be collectively controlled based on an operation received from the outside and notifies the signal generation unit 602 of the illumination device; and batch control An operation unit 604 that receives an instruction input operation, and a signal processing unit 605 that processes a signal transmitted and received by the communication unit 601. In the collective control terminal device 6, an input to the target specifying unit 603 may be performed by an operation on the operation unit 604. The signal processing unit 605 may include the signal generation unit 602.

  In the collective control terminal device 6 having such a configuration, the target designating unit 603 is operated to designate and input the lighting device 5 to be collectively controlled in the remote monitoring control system. At this time, the target designating unit 603 stores the lighting device 5 designated as the target of collective control by using an identification code such as a logical address thereof. Then, after the lighting device 5 to be collectively controlled is input by the target designating unit 603, when the operation unit 604 is operated and batch control of the lighting device 5 to be targeted is instructed, the signal generating unit 602 The target lighting device 5 is recognized from the stored contents in the target designating unit 603. At this time, the control unit 604 is operated to input the control content indicating the lighting state to be switched when collectively controlling the target lighting device 5. Then, the signal generation unit 602 generates lighting control data indicating the recognized lighting device 5 and its control content as data to be transferred to the transmission control device 1.

  When the signal generation unit 602 starts transferring the lighting control data, the signal processing unit 605 generates an interrupt signal that is synchronized with the transmission signal from the transmission control device 1 received by the communication unit 601, and is shown in FIG. 4. Thus, the communication unit 601 transmits the transmission control device 1 (STEP 1). Thereby, the signal processing unit 605 sets an interrupt flag indicating that an interrupt operation is being performed in the remote monitoring control mode. Thereafter, when the communication unit 601 receives a transmission signal in the address search mode from the transmission control device 1 (STEP 2), the signal processing unit 605 reads the address data indicating the logical address of the collective control terminal device 6 and outputs the signal. A reply is sent from the communication unit 601 during the return period (STEP 3). When the communication unit 601 receives a transmission signal including control data for canceling the interrupt flag (STEP 4), the signal processing unit 605 cancels the interrupt flag and performs communication according to the setting mode used for the physical address. Transition.

  Further, when the mode is shifted to the setting mode, the communication unit 601 receives a transmission signal including control data for instructing the start of the transfer process from the transmission control device 1 (STEP 5), and the signal processing unit 605 instructs to start the transfer process. When recognizing this, the signal processing unit 605 confirms the data amount (number of bytes) of the lighting control data generated by the signal generation unit 602. Then, the signal processing unit 605 generates a signal for notifying the data amount of the lighting control data, transmits the signal to the transmission control device 1 from the communication unit 601, and notifies the data amount of the lighting control data to be transferred. (STEP 6). Thereby, the transmission control device 1 can recognize the data amount of the lighting control data transferred from the collective control terminal device 6 based on the notification of the data amount of the lighting control data, so that the transfer of the lighting control data is completed. Can be confirmed.

  Thereafter, the lighting control data generated by the signal generation unit 602 is transferred from the communication unit 601 to the transmission control device 1 (STEP 7). When the transmission control device 1 confirms reception of the notified data amount, the transmission control device 1 recognizes the completion of the transfer of the lighting control data and transmits a transmission signal requesting a checksum of the lighting control data (STEP 8). . Therefore, when the communication unit 601 receives a transmission signal requesting a checksum, the communication unit 601 transmits the checksum generated by the signal generation unit 602 to the transmission control device 1 (STEP 9), and notifies the transmission control device 1 of the presence / absence of a transmission error. Let it be detected. At this time, if there is no transmission error, the communication unit 601 receives the transmission signal instructing the end of the transfer process from the transmission control apparatus 1 (STEP 10), and thus ends the transfer process in the setting mode. Thereafter, the remote monitoring control system returns from the communication state in the setting mode to the communication state in the remote monitoring control mode.

  In this way, when the lighting control data transfer process by the collective control terminal device 6 is completed, the communication state in the remote monitoring control mode is restored. Therefore, as described above, in order to control the lighting state of the lighting device 5 to be confirmed from the lighting control data, the transmission control device 1 sends a transmission signal including control data indicating lighting control to a logical address. Is transmitted to the control terminal device 4 specified in. Accordingly, in the remote monitoring control system, each of the lighting devices 5 designated by the collective control terminal device 6 is simultaneously switched to the designated lighting state. In other words, when it is input in the collective control terminal device 6 that the lighting device 5 to be collectively controlled is turned on, after the lighting control data is transferred from the collective control terminal device 6 to the transmission control device 1. In the remote monitoring control system, the lighting device 5 to be collectively controlled is turned on simultaneously.

  In this embodiment, after the collective control terminal device 6 transfers the lighting control data to the transmission control device 1, the transmission control device 1 automatically communicates with the control terminal device 4, thereby performing collective control. The lighting state of the target lighting device 5 is controlled to the designated state. However, after the batch control terminal device 6 completes the transfer of the lighting control data, the interruption is performed in the remote monitoring control mode. The monitoring data may be transmitted to the transmission control device 1 in the same manner as the operation terminal device 2. At this time, the transmission control device 1 in the data memory 104, as in the case of the group control, the logical address of the collective control terminal device 6 and the address (control terminal device 4) that identifies the lighting device 5 that is the target of collective control. And the address of the relay switch) in the link.

  That is, when the collective control terminal device 6 completes the transfer of the lighting control data in the setting mode using the physical address, the remote monitoring control system returns from the setting mode to the remote monitoring control mode. In this remote monitoring control mode, when the transmission control device 1 always performs polling, the collective control terminal device 6 transmits an interrupt signal to the transmission control device 1. Thereafter, communication is performed between the transmission control device 1 and the collective control terminal device 6, and the transmission control device 1 confirms the logical address of the collective control terminal device 6 and receives monitoring data for collective control. .

  The transmission control device 1 that has received the monitoring data reads information based on the lighting control data stored in the data memory 104, recognizes the lighting device 5 that is a target of batch control, and designates the target lighting device 5 as a target. Control data for setting the lighting state is generated and transmitted to the control terminal device 4 that controls the lighting device 5 that is the target. By performing such a communication operation, the transmission control device 1 can have the same configuration as the conventional one. That is, since the collective control terminal device 6 performs the same function as the group switch in the operation terminal device 2 after executing the lighting control data transfer in the setting mode, the transmission control device 1 as in the above-described embodiment. However, it is not necessary to provide a program for automatically generating control data for the control terminal device 5.

  An example of the collective control terminal device 6 in the remote monitoring control system of the present embodiment will be described below.

  The collective control terminal device according to the first embodiment will be described below with reference to the drawings. The collective control terminal device in this embodiment is configured as a setting terminal device. FIG. 5 is an external view showing the configuration of the collective control terminal device according to this embodiment, and FIG. 6 is a diagram showing the display contents on the display unit of the collective control terminal device of FIG. FIG. 7 is a diagram showing the configuration of lighting control data transferred from the collective control terminal device in this embodiment. The collective control terminal device according to the present embodiment can set the target / non-target of the collective control for all the lighting devices installed in the remote monitoring control system.

  As shown in FIG. 5, the collective control terminal device 6a of the present embodiment includes a selector switch unit 611 that constitutes an object designation unit 603 (see FIG. 3) and a setting switch that constitutes an operation unit 604 (see FIG. 3). Part 612. The selector switch unit 611 includes a selector display unit 613 that displays a channel that identifies the control terminal device 4 (see FIG. 1) to which the lighting device 5 (see FIG. 1) is connected, and the lighting device that is controlled by the control terminal device 4. And a selector key 614 for designating 5. When four lighting devices 5 are connected to one control terminal device 4, four selector keys 614 are arranged for one selector display unit 613 as shown in FIG. The selector switch unit 611 further includes a page switching key 615 for switching the channel displayed on the selector display unit 612 for each page. One page is a unit corresponding to 16 channels. The display is switched with the page switching key 615, and the 64 selector keys 614 designate the lighting device 5 in the remote monitoring control system for every 64 units. .

  The setting switch unit 612 includes a main display unit 616 for displaying menus in various operation modes, a switch key 617 for switching menus and operation modes displayed on the main display unit 616, and an execution key for executing various operations such as collective control. 618. The setting switch unit 612 displays a screen as shown in FIG. 6 on the main display unit 616 when the normal mode is selected by the switching key 616. In the screen of FIG. 6, “individual / dimming” for executing individual control or dimming control of the lighting device 5, “group” for executing group control of the lighting device 5, and pattern control of the lighting device 5. "Pattern" for executing the above and "Batch control" for executing the collective control of the lighting device 5 are displayed.

  When the switching key 616 is operated to select “collective control” on the screen of FIG. 6 in the main display unit 616, the selector switch unit 611 selects the illumination device 5 to be subjected to collective control. It becomes possible. At this time, the channel displayed on the selector display unit 613 is switched for each page by the page switching key 615, and the selector key 614 corresponding to the lighting device 5 to be collectively controlled is operated. Thereby, the address which specifies the illuminating device 5 used as the object of collective control in a remote control system will be input into the collective control terminal device 6a. The address that specifies the lighting device 5 is a code that is specified by the channel that specifies the control terminal device 4 and the load number of the relay switch connected thereto. The address of the lighting device connected to the relay switch with the load number “Y” in the control terminal device 4 with the channel “X” is expressed as “[X] − [Y]”. To do.

  Then, for all pages, after selecting the target / non-target of the batch control by the selector key 614, the batch key is executed by operating the execution key 618. At this time, the collective control terminal device 6 indicates whether each of the lighting devices 5 in the remote control system is subject to collective control or not based on the address that is subject to collective control by the selector key 614. Generate lighting control data. As shown in FIG. 7, the lighting control data is composed of a data group of n + 1 bytes in which 1-byte data D0 to Dn are continuous, and for all the lighting devices 5 provided in the remote control system. , Indicates whether it is a target or non-target of collective control. It is assumed that 8n lighting devices 5 are installed in the remote control system.

  Of the data D0 to Dn constituting the lighting control data, the data D0 is control content information indicating the control type indicating the lighting state of the lighting device 5 to be collectively controlled. For example, “01h” is “ “On” may be “00h” indicating “off”. “H” in “01h” and “00h” indicates that “01” and “00” are hexadecimal numbers. The remaining data D1 to Dn are control target information indicating the target / non-target of the collective control. Each bit digit of each of the data D1 to Dn corresponds to each of the lighting devices 5 in the remote control system, and the value indicates the target / non-target of the collective control. That is, in data Dk (k is a natural number of 1 ≦ k ≦ n), the first digit to the fourth digit have a load number “1” in the control terminal device 4 in which the channel is “2 (k−1)”. Corresponding to the lighting device 5 connected to the relay switch of “4”, the fifth to eighth digits of the load numbers “1” to “1” in the control terminal device 4 whose channel is “2k−1”. Corresponds to the lighting device 5 connected to the relay switch "4". At this time, for example, when the value of the bit digit is “1”, it indicates that it is subject to collective control, and when the value of the bit digit is “0”, it indicates that it is not subject to collective control. Show.

  Therefore, when the transmission control device 1 receives the lighting control data shown in FIG. 7, since the data D0 is “01h (00000001)”, each bit digit of the data D1 to Dn having the value “1” is obtained. For the lighting device 5 specified by the corresponding address, control data for lighting is generated, and a transmission signal including this control data is transmitted to the control terminal device 4. That is, in the example of FIG. 7, since the value of the data D0 is “00001111” and the value of the data D1 is “11001100”, the addresses [0]-[1] to [0]-[4], [2 ]-[3], [2]-[4], [3]-[3], each lighting device 5 specified by [3]-[4] is turned on by collective control. Addresses [1]-[1] to [1]-[4], [2]-[1], [2]-[2], [3]-[1], [3]-[2] Each of the lighting devices 5 specified in (1) is not subject to collective control.

  The collective control terminal device according to the first embodiment will be described below with reference to the drawings. The terminal device for collective control in this embodiment has a configuration in which a handle for operating a switch is exposed like the operation terminal device 2. FIG. 8 is an external view showing the configuration of the collective control terminal device according to this embodiment, and FIG. 9 is a diagram showing the internal structure of the handle shown in FIG. FIG. 10 is a diagram showing a configuration of lighting control data transferred from the collective control terminal device according to this embodiment. The collective control terminal device according to the present embodiment can set the target / non-target of the collective control for some of the lighting devices installed in the remote monitoring control system.

  As shown in FIG. 8, the collective control terminal device 6b of the present embodiment includes a door 652 that can be opened and closed with respect to a main body 651 (see FIG. 9), and a handle 653 that is exposed at the center of the door 652. When a handle 653 is operated, a switch 654 described later is interlocked and an input by the switch 654 is made. When the terminal unit 6b for collective control opens the door part 652 provided with the handle 653, as shown in FIG. 9, the switch 654 constituting the operation part 604 (see FIG. 3) is provided on the surface side of the main body part 651. And dip switches 655 and 656 that constitute the target designating unit 603 (see FIG. 3).

  The switch 654 is a switch that is interlocked with the operation on the handle 653. When the operation is input through the handle 653, the collective control terminal device 6b performs the control of lighting control data to be described later in order to execute collective control. Execute the transfer process. The dip switches 655 and 656 are each composed of a switch group of eight switches, and store 8-bit data by switching each switch. At this time, the dip switch 655 is set to the head address among the addresses (8-bit data based on the channel and the load number) for specifying the lighting device 5 that performs the target / non-target setting of the collective control. On the other hand, the dip switch 656 is set to be one of the target / non-target of the collective control for each of the eight lighting devices 5 specified by eight consecutive addresses including the head address.

  In the collective control terminal device 6b having such a configuration, the door 652 having the handle 653 is opened, and the dip switch 655 is operated, whereby the above-described head address Ax is set. As a result, the eight lighting devices 5 identified by each of the eight addresses Ax, Ax + 1,..., Ax + 7 consecutive from the head address Ax set by the DIP switch 655 are set as targets for the collective control / non-targets. Will be selected. When the dip switch 656 is operated, the target / non-target of the collective control is set for each of the eight lighting devices 5 determined by the operation on the dip switch 655. As described above, after setting the lighting device 5 to be collectively controlled by operating the DIP switches 655 and 656, the door 652 is closed and the handle 653 is operated, so that an operation input is input to the switch 654. Done. By the operation input to the switch 654, the collective control terminal device 6b transfers the lighting control data as shown in FIG. 10 to the transmission control device 1, and executes collective control on the target lighting device 5.

  As shown in FIG. 10, the lighting control data is composed of a 4-byte data group in which 1-byte data Dx0 to Dx3 are continuous, and some of the lighting devices 5 provided in the remote control system. Indicates whether it is a target or non-target of collective control. At this time, the data Dx0 becomes transmission method designation information indicating a transmission method of the lighting control data from the collective control terminal device 1b, and the data Dx1 is the control content information similar to the data D0 (see FIG. 7) in the first embodiment. It becomes. The transmission method designation information by the data Dx1, for example, indicates a method in which “00h” is set as symmetric / non-target for all the lighting devices 5 in the remote monitoring control system as in the first embodiment. “01h” indicates a method of data to be transmitted, as described above, which indicates a method in which symmetry / non-target is set for the eight lighting devices 5 having consecutive addresses. Therefore, since the lighting control data of FIG. 10 is transmitted from the collective control terminal device 6b of the present embodiment, the data Dx0 becomes “01h (00000001)”.

  The remaining data Dx2 and Dx3 are control target information indicating the target / non-target of the collective control. Data Dx2 is head address information indicating the head address set by the DIP switch 655. Further, the data Dx3 is target designation information indicating which of the control target / non-target of the collective control is selected for each of the eight lighting devices 5 having consecutive addresses set by the dip switch 656. Each bit digit of the data Dx3 corresponds to each of the eight lighting devices 5 having consecutive addresses, and the value indicates the target / non-target of the collective control. At this time, as in the first embodiment, for example, when the value of the bit digit is “1”, it indicates that it is a target of batch control, and when the value of the bit digit is “0”, Indicates that it is not subject to control.

  Therefore, when the transmission control device 1 receives the lighting control data shown in FIG. 10, since the data Dx0 is “01h (00000001)”, the eight lighting devices in which the target / non-target of the collective control are set. Recognize that 5 is specified. Further, since the data Dx1 is “01h (00000001)”, the transmission control device 1 recognizes that the lighting device 5 to be collectively controlled is turned on. Further, the transmission control device 1 confirms the head address from the value of the data Dx2, and recognizes the eight lighting devices 5 set as the target / non-target of the collective control. That is, in the example of FIG. 10, since the value of the data Dx2 is “01011000”, the transmission control device 1 confirms the head address [22]-[1] and addresses [22]-[1] to [22]. ]-[4], [23]-[1] to [23]-[4] It is recognized that eight lighting devices 5 specified by the setting target.

  Furthermore, in the example of FIG. 10, since the value of the data Dx3 is “11011011”, the transmission control apparatus 1 uses the addresses [22]-[1], [22]-[2], [22]-[4 ], [23]-[1], [23]-[3], [23]-[4], it recognizes that each illuminating device 5 is the object of collective control. As a result, addresses [22]-[1], [22]-[2], [22]-[4], [23]-[1], [23]-[3], [23]-[4 ] Each lighting device 5 specified by] is lighted by collective control.

DESCRIPTION OF SYMBOLS 1 Transmission control apparatus 2 Operation terminal apparatus 3 Operation switch 4 Control terminal apparatus 5 Illumination apparatus 6, 6a, 6b Terminal apparatus for collective control 101 Communication part 102 Signal processing part 103 Program memory 104 Data memory 601 Communication part 602 Signal generation part 603 Object Setting unit 604 Operation unit 605 Signal processing unit

Claims (6)

A communication unit that performs transmission and reception of signals based on a time division multiplex transmission method with a transmission control device that monitors and controls the lighting state of the lighting device in the remote monitoring control system;
A target designating unit for designating a lighting device to be collectively controlled to collectively control lighting states of a plurality of lighting devices;
An operation unit for accepting collective control operation input;
When there is a collective control operation input by the operation unit, lighting control data for specifying a lighting device to be subjected to the collective control specified by the target specifying unit and its lighting state is generated, and the lighting control is performed. A signal generation unit for supplying data to the communication unit;
With
By transmitting the lighting control data from the communication unit to the transmission control device, the transmission control device is caused to control the lighting state of the lighting device to be collectively controlled,
The lighting control data includes control target information indicating whether a part of the lighting device in the remote monitoring control system is subject to batch control or non-target, and control content information indicating a lighting state after batch control. batch control terminal and wherein the Rukoto constituted by the. In claim 1 ,
The lighting device whose target or non-target is to be collectively controlled by the lighting control data is N lighting devices whose addresses are serial numbers,
The control target information includes N bits in which head address information indicating a head address among the addresses of the N lighting devices and 1-bit information assigned to each of the N lighting devices are consecutive. Target specification information,
Each one-bit information constituting the target designation information is binary information, one value indicates that it is a target of collective control, and the other value indicates that it is not a target of collective control. Collective control terminal device. In claim 1 or 2 ,
A collective control terminal device comprising a setting switch for setting a value of the control target information as a part of the target specifying unit. In claim 2 ,
A collective control terminal apparatus comprising: a setting switch for setting a value of the head address information; and a setting switch for setting a value of the target designation information as part of the target designation unit. In claim 3 or claim 4,
While having a door part that exposes the operation part on the surface,
The collective control terminal device, wherein the setting switch is arranged inside the main body with the door opened. A control terminal device for controlling the lighting state of the lighting device;
An operation terminal device having an operation switch for receiving an input of a lighting state command of the lighting device;
A transmission control device that performs transmission and reception of signals based on the time division multiplex transmission method with each of the control terminal device and the operation terminal device, and monitors and controls the lighting state of the lighting device;
A remote monitoring and control system comprising:
The terminal device for collective control according to claim 1 or 2 , further comprising:
When the collective control terminal device transmits the lighting control data to the transmission control device, the transmission control device converts the lighting control data into a control signal to be transmitted to the control terminal device, and the control signal Is transmitted to the control terminal device, and the lighting state of the lighting device to be collectively controlled is set to the specified lighting state.

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