JP5162216B2 - Load control terminal and transmission unit - Google Patents

Description

  The present invention relates to an operation terminal and a transmission unit used in a control system for controlling a load with a predetermined control signal transmitted by a multiplex transmission method.

  Conventionally, an input terminal for changing the state of a load to be controlled and a load control terminal to which the load is connected are each connected to the transmission unit via a signal line and transmitted from the input terminal. A control system is known in which a transmission unit controls a load connected to a load control terminal via a load control terminal corresponding to address information associated with the input terminal based on the transmitted signal. (For example, see Patent Documents 1 and 2).

  In this type of control system, various control modes such as individual control, group control, and pattern control are prepared in consideration of user convenience. Individual control is a method of controlling the control state collectively with a single load as the control target, and group control is a method of collectively controlling multiple loads included in the same group to the same control state. It is a technique to control automatically. On the other hand, the pattern control is a method of collectively controlling a plurality of loads as control targets to a predetermined control state predetermined for each load.

Patent Document 3 discloses a lighting device that can be lit at a dimming output level before the lighting state changes when the lighting state once changes and then returns to the original lighting state again. Yes.
JP 2006-93983 A JP 2006-340110 A JP-A-11-97184

  However, in a scene where individual loads are individually controlled, when the control state for a plurality of loads is collectively controlled, such as in group control or pattern control, the control state of each load is changed to the previous state. There is a problem that it is not possible to easily return to the state.

  The present invention has been made in view of such circumstances, and its purpose is to easily return the control state of each load to the previous state even when collective control is performed. It is to let you.

In order to solve this problem, according to a first aspect of the present invention, an input terminal for changing the state of a load to be controlled and a load control terminal connected to the load are connected to the transmission unit via a signal line. Each transmission unit is connected to the load control terminal via the load control terminal corresponding to the address information associated with the input terminal based on the transmission signal transmitted from the input terminal. Provided is a load control terminal used in a control system for controlling a load. In accordance with a control instruction from the transmission unit, the load control terminal is configured to control a state of a load connected to itself, a storage means for storing return information, and a storage instruction from the transmission unit. And a processing means for storing the current control state relating to the load connected to itself in the storage means as return information. In this case, the control means, when acquiring a return instruction from the transmission unit, corresponding to the return information stored in the storage unit, it controls the state of the load connected to the self-storage instruction, the control target When the transmission unit acquires from the contact input terminal unit an emergency instruction that collectively shifts a plurality of loads to a predetermined control state, for all load control terminals that the transmission unit connects to itself When the storage end instruction is acquired after acquiring the storage instruction and the emergency instruction from the transmission unit, the return information is stored in the storage unit.

Here, in the first invention, the storage instruction is an emergency instruction for collectively transferring to a predetermined control state predetermined for each load with a plurality of loads as control targets from the contact input terminal unit. When acquired, it is preferable that the transmission unit is an instruction to transmit to all the load control terminals connected to itself simultaneously.

  In the first invention, when the transmission unit acquires an emergency instruction, the transmission unit transmits a storage instruction and then shifts the load control terminal corresponding to the emergency instruction to a predetermined control state. It is preferable that the control instruction is transmitted. In this case, after obtaining the storage instruction from the transmission unit, the processing means stores the return information in the storage means on the condition that the control means obtains the control instruction corresponding to the emergency instruction.

  In the second invention, an input terminal for changing the state of a load to be controlled and a load control terminal to which the load is connected are connected to the transmission unit via a signal line, respectively. Based on the transmission signal transmitted from the input terminal, the transmission unit controls the load connected to the load control terminal via the load control terminal corresponding to the address information associated with the input terminal. A transmission unit used in the system is provided. The transmission unit includes a control means for transmitting a control instruction to a load control terminal corresponding to address information associated with the input terminal in response to a load state change instruction from the input terminal; A means for specifying the control state of the load connected to the load control terminal via the terminal, and information on the load to be controlled to a predetermined control state in response to an emergency instruction from the input terminal are stored as pattern information. And when the emergency instruction is acquired from the input terminal, the load information corresponding to the pattern information is selected from the control state of the load specified by the specifying means, and the return information is stored in the storage means. Processing means for storing.

  According to the first invention, since the load control terminal can store the return information in response to the storage instruction from the transmission unit, the control state of each load can be determined by referring to the return information. It is possible to easily return to the previous state.

  Further, according to the first invention, since the storage instruction is transmitted in response to the emergency instruction indicating the transition to the collective control state, even if the collective control is performed, the storage instruction is transmitted individually. It is possible to easily return the control state of the load to the previous state.

  Further, according to the first invention, since the control state is stored only for the load whose control state has been shifted in response to the emergency instruction, the unrelated load state is restored. Inconvenience can be suppressed.

  Further, according to the second invention, when the transmission unit obtains an emergency instruction, the return information can be stored via the load control terminal. The control state of the load can be easily returned to the previous state.

(First embodiment)
FIG. 1 is a block diagram schematically showing an illumination control system according to the first embodiment of the present invention. The illumination control system includes a transmission unit 10, a dimming terminal unit (hereinafter referred to as "dimming T / U") 20, a contact input terminal unit (hereinafter referred to as "contact input T / U") 30, a transformer 40, The operation terminal 50 is mainly configured.

  The dimming T / U 20, the contact input T / U 30, and the operation terminal 50 are connected to the transmission unit 10 via a two-wire signal line, and exchange information with the transmission unit 10 through the signal line. The transmission signal is transmitted through a multiplex transmission method.

  The lighting device 1 existing in the system can be uniquely specified by the load address. Specifically, the dimming T / U 20 has a unique identifier called a load channel (Ch) for identifying a unit and a unique number called a load number (Nm) associated with the lighting device 1 connected to itself. An identifier is assigned. The load address (Ch-Nm) is configured by combining a load channel (Ch) and a load number (Nm).

  In the illumination control system according to the present embodiment, the transmission unit 10 controls the state of the illumination device 1 via the dimming T / U 20 based on the contact input T / U 30 or the transmission signal from the operation terminal 50. be able to. In this illumination control system, various illumination controls such as individual control, group control, and pattern control can be performed. The individual control is a method of controlling the on state, the off state, and the dimming state with a single lighting device 1 as a control target, and the group control is performed with a plurality of lighting devices 1 included in the same group as a control target. In this method, the on state, the off state, and the dimming state are collectively controlled. On the other hand, pattern control is a method of collectively controlling a plurality of lighting devices 1 as a control target to a predetermined control state (hereinafter referred to as “pattern state”) predetermined for each lighting device 1.

  The transmission unit 10 is controlled from address information associated with the contact input T / U 30 or the operation terminal 50 based on a transmission signal from the contact input T / U 30 or the operation terminal 50 under the control of an internal processor. While specifying the target lighting device 1, the control state for the lighting device 1 is specified. And the transmission unit 10 transmits the address information of the illuminating device 1 and its control state as a control instruction to the dimming T / U 20 corresponding to the illuminating device 1 to be controlled.

  This address information includes an individual address, a group address or a pattern address. The individual address is information for specifying the lighting device 1 to be subjected to individual control, and the load address corresponds to this (for example, “0-1”, etc.). The group address is information for specifying a group to be subjected to group control, and corresponds to a number assigned to each preset group (for example, “G1”). The pattern address is information for specifying a pattern to be subjected to pattern control, and corresponds to a number assigned to each preset pattern (for example, “P1”).

  The transmission unit 10 holds group information indicating the load address of the lighting device 1 assigned to each group address for each group address. Therefore, when the transmission unit 10 obtains a group address from the contact input T / U 30 or the operation terminal device 50, a plurality of lighting devices 1 (load addresses) corresponding to the group address are searched by searching for group information. Can be specified.

  Further, the transmission unit 10 corresponds to each pattern address between the load address of the lighting device 1 assigned to the pattern and the pattern state (for example, on state, off state, or dimming state) of the lighting device 1. The pattern information indicating the relationship is held. Therefore, when the transmission unit 10 acquires the pattern address from the contact input T / U 30 or the operation terminal device 50, the transmission unit 10 searches the pattern information, and thereby a plurality of lighting devices 1 (load addresses) corresponding to the pattern address. And the pattern state for each lighting device 1 can be specified.

  FIG. 2 is a block diagram showing a configuration of the dimming T / U 20. The dimming T / U has a function as a load control terminal that controls the state (the dimming state) of the lighting device 1. The dimming T / U 20 includes a transmission control unit (control unit and processing unit) 20a, a dimming control unit (control unit and processing unit) 20b, a transmission signal transmission / reception unit 20c, an optical communication unit 20d, A storage unit (storage unit) 20e, a zero cross detection unit 20f, a power supply unit 20g, a load relay 20h, and a dimming unit 20i are included.

  The transmission control unit 20a has a function of performing integrated control such as communication with the transmission unit 10 and various arithmetic processes, and if necessary, information is transmitted to and from the dimming control unit 20b. Can communicate. The dimming control unit 20 b has a function of controlling the dimming state of the lighting device 1. The transmission signal transmission / reception unit 20c receives the transmission signal transmitted from the transmission unit 10 and outputs it to the transmission control unit 20a, and transmits a transmission signal corresponding to the response from the transmission control unit 20a via the signal line. To the transmission unit 10.

  The optical communication unit 20d transmits and receives information by optical communication with an address setter (not shown) operated by a setter. Information from the address setter received by the optical communication unit 20d is output to the transmission control unit 20a. The load address associated with the dimming T / U 20 can be acquired through communication with the address setting device.

  The storage unit 20e has a function of storing various setting information, and for example, a nonvolatile memory such as an EEPROM can be used. In addition, the storage unit 20e stores return information, which will be described later, under the control of the transmission control unit 20a. The power supply unit 20g has a function of supplying power necessary for the operation of the unit, and the zero cross detection unit 20f detects a zero cross of the AC power supply voltage.

  The load relay 20h is controlled by the transmission control unit 20a to control the lighting device 1 to an on state (lighted state) or an off state (dark state) by turning on or off commercial alternating current from a breaker power source or the like. To do. The dimming unit 20 i is controlled by the dimming control unit 20 b to set the dimming state of the lighting device 1.

  Referring to FIG. 1 again, the contact input T / U 30 and the operation terminal 50 have a function as an input terminal for outputting a control instruction for controlling the lighting device 1 to be controlled.

  The contact input T / U 30 can perform each illumination control described above via the external system 35 by connecting a contact signal from a contact (no-voltage a contact) of the external system 35. The contact input T / U 30 includes a first terminal portion 31 including a pair of terminals to which a power line from a transformer 40 described later is connected and a second terminal including a pair of terminals to which a two-wire signal line is connected. A terminal portion 32 and a third terminal portion (connection portion) 33 including a pair of terminals to which a contact signal from the external system 35 is connected are provided (see FIG. 1). Further, a transformer 40 is connected to the contact input T / U 30, and electric power is supplied from the transformer 40 to a contact input detection circuit.

  In the present embodiment, the contact input T / U 30 outputs an emergency instruction or a return instruction to the transmission unit 10. Here, the emergency instruction is a signal representing a contact signal state corresponding to contact making by the external system 35, and thereby, pattern control for shifting a predetermined lighting device 1 to a fully lit (100% lit) state in advance. Do. Therefore, a pattern address corresponding to this pattern control is set in the contact input T / U 30 (for example, “PE”). On the other hand, the return instruction is a signal indicating a contact signal state corresponding to a contact break by the external system 35, and thereby, the pattern-controlled lighting device 1 is returned to the state before the pattern control. This contact input T / U 30 transmits the address information (PE) set to itself and the contact signal state to the transmission unit 10 as control instructions in accordance with the change of the contact signal corresponding to contact make or contact break. To do.

  The operation terminal device 50 is a terminal device that is installed on an arbitrary wall surface such as a room or a manager's room and can be pushed by a user who uses the lighting device 1. Address information corresponding to the lighting device 1 to be controlled is associated with the operation terminal 50, and the lighting device 1 (group or pattern) corresponding to the address information is turned on, off, or predetermined through an operation switch. The light control state can be controlled. The operation terminal 50 is a transmission unit that uses the address information associated with the operation switch and the operation state of the operation switch as control instructions in response to the operation switch being operated under the control of the internal processor. 10 to send.

  When an individual address or a group address is associated with the operation switch as address information, the lighting device 1 corresponding to the address information is turned on, off, or in a predetermined dimming state according to the push operation of the operation switch. And migrate. On the other hand, when a pattern address is associated with the operation switch as address information, each lighting device 1 corresponding to the address information shifts to a preset pattern state in accordance with the push operation of the operation switch.

  FIG. 3 is an explanatory diagram illustrating an operation procedure of the illumination control system according to the present embodiment. First, when contact making is performed by the external system 35 in step 1 (S1), an emergency instruction is input to the transmission unit 10 from the contact input T / U 30.

  FIG. 4 is an explanatory diagram showing the details of step 1. Specifically, in step 10 (S10), when a change occurs in the contact signal, the contact input T / U 30 transmits an interrupt request to the transmission unit 10.

  Next, in steps 11 (S11) and 12 (S12), the transmission unit 10 issues an interrupt request among the terminals connected to itself (the dimming T / U 20, the contact input T / U 30, and the operation terminal 50). A process of identifying the terminal that has been performed is performed. Specifically, the transmission unit 10 specifies the upper address of the address data for terminal identification from the information included in the transmission signal transmitted as the interrupt request. Then, the transmission unit 10 transmits a terminal search by group access in which a plurality of terminals corresponding to the higher address are collectively accessed as a group. Next, in response to the transmission of the terminal search, the terminal device that made the interrupt request, that is, the contact input T / U 30 returns the remaining lower address to the transmission unit 10. Thereby, the contact input T / U 30 can notify the transmission unit 10 that it has made an interrupt request.

  In step 13 (S13), when the transmission unit 10 obtains the lower address from the contact input T / U30, the transmission unit 10 identifies the terminal unit, that is, the contact input T / U30 based on the lower address. To send a contact monitoring request. In step 14 (S14), the contact input T / U 30 returns a response to the contact monitoring request. At this time, if the contact signal corresponds to an emergency instruction, the contact input T / U 30 needs to have the dimming T / U 20 memorize the control state as described later. A reply is made in an identifiable form.

  In step 15 (S15), the transmission unit 10 transmits a state monitoring request to the contact input T / U 30 that has issued the interrupt request. In step 16 (S16), the contact input T / U 30 returns the state of the contact signal to the transmission unit 10.

  Referring to FIG. 3, in step 2 (S2), the transmission unit 10 recognizes that this is a signal from the contact input T / U 30 corresponding to the emergency instruction through the exchange with the contact input T / U 30. A storage instruction is output to the dimming T / U 20. At this time, the transmission unit 10 outputs a storage instruction to all the dimming T / Us 20 connected to the transmission unit 10.

  In step 3 (S3), the transmission unit 10 refers to the pattern information, and specifies the load address corresponding to the address information (PE) of the contact input T / U 30 and the pattern state related to each lighting device 1. And the transmission unit 10 outputs the control instruction | indication which instruct | indicates transfer to a pattern state with respect to the light control T / U20 of a corresponding load address.

  Next, when a contact break is made by the external system 35 in step 4 (S4), the contact input T / U 30 outputs a return instruction to the transmission unit 10. In Step 5 (S5), the transmission unit 10 outputs a return instruction to the dimming T / U 20. At this time, the transmission unit 10 outputs a storage instruction to all the dimming T / Us 20 connected to the transmission unit 10.

  FIG. 5 is a flowchart showing an operation procedure of the dimming T / U 20. First, in step 20 (S20), the dimming T / U 20 determines whether or not a storage instruction has been received. If an affirmative determination is made in step 20, the process proceeds to step 21 (S21). On the other hand, if a negative determination is made in step 20, the process proceeds to step S22.

  In step 21, the dimming T / U 20 stores the current control state relating to the load connected to the dimming T / U 20 as return information in the storage unit 20e.

  In step 22, the dimming T / U 20 determines whether or not a return instruction has been received. If an affirmative determination is made in step 20, the process proceeds to step 23 (S23). On the other hand, if a negative determination is made in step 22, the routine is exited.

  In step 23, the dimming T / U 20 controls the state of the load connected to itself in correspondence with the return information stored in the storage unit 20e.

  Thus, according to the present embodiment, as shown in FIG. 6, the control state of the lighting device 1 to which the dimming T / U 20 is connected can be stored (the state of FIG. 6A). Therefore, even if the control state of the lighting device 1 is switched at once (the state shown in FIG. 6B), it is possible to return to the previous control state by referring to the storage (FIG. 6 ( c)). Thereby, even if it is a case where collective control is performed, the control state of each load can be easily returned to the former state. Also, various lighting controls such as individual control, group control, and pattern control can be used efficiently.

(Second Embodiment)
FIG. 7 is an explanatory diagram illustrating an operation procedure of the illumination control system according to the second embodiment. First, in step 30 (S30), when contact making is performed by the external system 35, an emergency instruction is input to the transmission unit 10 from the contact input T / U 30.

  In step 31 (S31), when the transmission unit 10 recognizes that this is a signal from the contact input T / U 30 corresponding to the emergency instruction through the exchange with the contact input T / U 30, the dimming T / U 20 Output a storage instruction. At this time, the transmission unit 10 outputs a storage instruction to all the dimming T / Us 20 connected to the transmission unit 10.

  In step 32 (S32), the transmission unit 10 refers to the pattern information, and determines the load address corresponding to the address information (PE) of the contact input T / U 30 and the pattern state (full lighting) for each lighting device 1. Identify. And the transmission unit 10 outputs the control instruction | indication which instruct | indicates transfer to a pattern state (all lighting) with respect to the light control T / U20 of a corresponding load address.

  In step 33 (S33), the transmission unit 10 outputs a storage end instruction to the dimming T / U 20. The storage end instruction is a signal intended to cause the dimming T / U 20 to store the return information in the storage unit 20e for the control instruction corresponding to the emergency instruction after the storage instruction is acquired. is there. That is, the dimming T / U 20 that has acquired the storage instruction but does not acquire the control instruction corresponding to the emergency instruction until the storage end instruction is acquired, temporarily returns the return information in response to the storage instruction. Although it is stored, it is discarded without being finally stored in the storage unit 20e. The transmission unit 10 outputs a storage end instruction to all the dimming T / Us 20 connected to the transmission unit 10.

  Next, when a contact break is performed by the external system 35 in step 34 (S34), the contact input T / U 30 outputs a return instruction to the transmission unit 10. In step 35 (S35), the transmission unit 10 outputs a return instruction to the dimming T / U 20. At this time, the transmission unit 10 outputs a storage instruction to all the dimming T / Us 20 connected to the transmission unit 10.

  Thus, according to this embodiment, even when collective control is performed, the control state of each load can be easily returned to the previous state.

  By the way, since the transmission unit 10 transmits a storage instruction and a return instruction to all the terminals connected to the transmission unit 10, the state of the lighting device 1 that does not correspond to the emergency instruction is intentionally separated between them. Even if the control is performed, the control state is returned to the storage instruction timing in response to the return instruction. However, according to the present embodiment, as shown in FIG. 8, the control state is stored only in the lighting device 1 to which the control state has been shifted in response to the emergency instruction. Can be eliminated.

(Third embodiment)
In the first or second embodiment described above, the control state of the lighting device 1 is stored in the dimming T / U 20, whereas in the present embodiment, this is performed by the transmission unit 10. .

  FIG. 9 is an explanatory diagram illustrating an operation procedure of the illumination control system according to the third embodiment. First, in step 40 (S40), when contact making is performed by the external system 35, an emergency instruction is input to the transmission unit 10 from the contact input T / U 30.

  Here, the transmission unit 10 executes the function as the specifying means, and thereby specifies the control state of the lighting device 1 connected thereto via the dimming T / U 20 to which the transmission unit 10 is connected (FIG. 10A). )). Further, the transmission unit 10 executes a function as a processing unit, thereby referring to the pattern information (FIG. 10B) and corresponds to this address information in the control state of the specified lighting device 1. Information on the lighting device 1 is selected (FIG. 10C) and stored in a storage means (not shown) as return information.

  In step 41 (S41), the transmission unit 10 refers to the pattern information, and determines the load address corresponding to the address information (PE) of the contact input T / U 30 and the pattern state (all lighting) for each lighting device 1. Identify. And the transmission unit 10 outputs the control instruction | indication which instruct | indicates transfer to a pattern state (all lighting) with respect to the light control T / U20 of a corresponding load address.

  Next, when a contact break is made by the external system 35 in step 42 (S42), the contact input T / U 30 outputs a return instruction to the transmission unit 10.

  In step 43 (S43), the transmission unit 10 outputs a return instruction to the dimming T / U 20 based on the stored return information.

  Thus, according to this embodiment, even when collective control is performed, the control state of each load can be easily returned to the previous state. Moreover, the effect similar to 2nd Embodiment mentioned above can be show | played, without requiring the change on a system to the light control T / U20.

  As described above, the lighting control system and the contact input terminal (contact input T / U 40) according to the embodiment of the present invention have been described. However, the present invention is not limited to the above-described embodiment, and various modifications can be made within the scope of the invention. Can be modified. For example, although the lighting device 1 is illustrated as a load in each embodiment, the present invention can be applied to various loads whose operations can be controlled by contact signals.

The block diagram which shows typically the illumination control system concerning 1st Embodiment Block diagram showing the configuration of dimming T / U20 Explanatory drawing which shows the operation | movement procedure of a lighting control system Explanatory drawing which shows the process of step 1 in detail Flow chart showing operation procedure of dimming T / U20 Explanatory drawing which shows control state transition of the illuminating device 1 in 1st Embodiment. Explanatory drawing which shows the operation | movement procedure of the illumination control system concerning 2nd Embodiment. Explanatory drawing which shows control state transition of the illuminating device 1 in 1st Embodiment. Explanatory drawing which shows the operation | movement procedure of the illumination control system concerning 3rd Embodiment. Explanatory drawing explaining the process of the transmission unit 10

Explanation of symbols

1 Illumination Device 10 Transmission Unit 20 Dimming T / U
20a Transmission control unit 20b Dimming control unit 20c Transmission signal transmission / reception unit 20d Optical communication unit 20e Storage unit 20f Zero cross detection unit 20g Power supply unit 20h Relay for load 20i Dimming unit 30 Contact input T / U
31 1st terminal part 32 2nd terminal part 33 3rd terminal part 35 External system 40 Transformer 50 Operation terminal

Claims (2)

In accordance with an operation terminal for changing the state of a plurality of loads to be controlled individually or in groups and a contact signal from an external system, the state of the plurality of loads to be controlled is changed in groups. And a load control terminal connected to a load are connected to the transmission unit via signal lines, respectively, and based on a transmission signal transmitted from the operation terminal or the contact input terminal unit. The transmission unit is used in a control system for controlling a load connected to the load control terminal via the load control terminal corresponding to the address information associated with the operation terminal or the contact input terminal unit. Load control terminal,
In accordance with a control instruction from the transmission unit, control means for controlling the state of the load connected to the transmission unit;
Storage means for storing return information;
In response to a storage instruction from the transmission unit, the storage unit stores a current control state relating to a load connected to the transmission unit as the return information.
When the control means obtains a return instruction from the transmission unit, the control means controls the state of the load connected to itself corresponding to the return information stored in the storage means ,
The storage instruction is connected to the transmission unit when the transmission unit obtains from the contact input terminal unit an emergency instruction for collectively shifting a plurality of loads to be controlled to a predetermined control state. An instruction to transmit all the load control terminals at once,
A load control terminal that stores the return information in the storage means when a storage end instruction is acquired after acquiring the storage instruction and the emergency instruction from the transmission unit . When the transmission unit acquires the emergency instruction, after transmitting the storage instruction, the transmission unit sends a control instruction for shifting to the predetermined control state to the load control terminal corresponding to the emergency instruction. Sending
The processing means stores the return information in the storage means on the condition that, after obtaining the storage instruction from the transmission unit, the control means obtains a control instruction corresponding to the emergency instruction. The load control terminal according to claim 1 , wherein the terminal is a load control terminal.

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