JP2009130692A - Operation terminal and address setter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To simultaneously shift loads within a group to a desired control state without performing a plurality of operations. <P>SOLUTION: When a group address G1 is allocated only to a first switch 41a as setting information relating address information to the first switch 41a and a second switch 41b, the first switch 41a is set as a switch for simultaneously controlling the group G1 into an ON state, and the second switch 41b is set as a switch for simultaneously controlling the group G1 into an OFF state. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an operation terminal used in a control system that controls a load with a predetermined control signal transmitted by a multiplex transmission method, and an address setting device that sets address information in the operation terminal.

  Conventionally, an operation terminal equipped with a switch and a load control terminal are connected to a transmission unit via signal lines, respectively, and transmission is performed based on a transmission signal transmitted from the operation terminal according to the operation of the switch. There is known a control system in which a unit controls a load (for example, a lighting device) connected to a load control terminal via a load control terminal having a load address corresponding to address information associated with a switch ( For example, see Patent Documents 1 and 2).

In this type of control system, not only address information (individual address) corresponding to individual lighting devices is assigned to a switch, but also address information (group address) corresponding to a plurality of lighting devices arranged as a group is assigned. Thus, it is possible to perform group control to turn on or turn off the lighting devices corresponding to the group in accordance with the operation of the switch.
JP 2006-93983 A JP 2006-340110 A

  Group control is advantageous for batch status switching of groups, but when individual lighting devices are individually controlled and are thinned out within a group, group switching is only necessary once. There is a problem that it is not possible to shift to all lighting or all lighting inside. For this reason, unnecessary operations increase such as performing a switch operation again, and the operator may feel annoyed.

  The present invention has been made in view of such circumstances, and an object thereof is to collectively shift loads in a group to a desired control state without performing a plurality of operations.

  In order to solve this problem, according to a first aspect of the present invention, an operation terminal including a switch and a load control terminal are connected to the transmission unit via a signal line, respectively, and the operation terminal is operated according to the operation of the switch. Based on the transmission signal transmitted from the control unit, the transmission unit controls the load connected to the load control terminal via the load control terminal of the load address corresponding to the address information associated with the switch. The operation terminal used is provided. The operation terminal includes an operation unit including a first switch and a second switch, and setting information including address information assigned to the first switch and the second switch from an external device operated by the operator. A setting unit that associates address information with each of the first switch and the second switch based on the setting information acquired by the acquiring unit, and the first switch or the second switch Corresponding to an operation on the switch, a transmission unit for transmitting address information associated with the switch to the transmission unit is provided. Here, the address information includes a group address corresponding to a group control in which a plurality of loads included in the same group are switched and switched alternately between an on state and an off state. In this case, when the group address is assigned only to the first switch as the setting information, the setting unit sets the first switch as a switch that collectively controls the group to the on state, and the second switch Are set as switches that collectively control the group to the OFF state.

  Here, in the first invention, the setting information preferably includes address information to be assigned to the first switch and the second switch, and an input type related to the address information. In this case, if the group address is assigned only to the first switch as the setting information, the setting unit controls the first switch with respect to the group address on the condition that the input type is normal input. Set as a switch for switching, and on condition that the input type is contact input, the first switch is set as a switch that collectively controls the group to the on state, and the second switch is turned off. Set as a switch that collectively controls the state.

  The second invention provides an address setting unit that assigns address information for control to the first switch and the second switch provided in the operation terminal that remotely controls the load. The address setting device includes an input unit operable by an operator, a display unit for displaying input information and processing content information input by the input unit, and address information to be assigned to the first switch and the second switch. And an input type related to the address information, a processing unit that displays a form that can be input via the input unit on the display unit, and setting information that includes the address information and the input type that are input to the form. And a transmitter for transmitting to the device. Here, the input type can be selected between normal input and contact input.

  According to a third aspect of the present invention, an operation terminal including a switch and a load control terminal are connected to the transmission unit via signal lines, respectively, and a transmission signal is transmitted from the operation terminal in accordance with the operation of the switch. Based on the control terminal, the transmission unit is used in a control system for controlling a load connected to the load control terminal via the load control terminal of the load address corresponding to the address information associated with the switch. provide. The operation terminal includes an operation unit including a first switch and a second switch, and setting information including address information assigned to the first switch and the second switch from an external device operated by the operator. A setting unit that associates address information with each of the first switch and the second switch based on the setting information acquired by the acquiring unit, and the first switch or the second switch Corresponding to an operation on the switch, a transmission unit for transmitting address information associated with the switch to the transmission unit is provided. Here, the address information includes a group address corresponding to a group control in which a plurality of loads included in the same group are switched and switched alternately between an on state and an off state. In this case, when the same group address is assigned to each of the first switch and the second switch as the setting information, the setting unit collectively controls the first switch to turn on the group. The second switch is set as a switch that collectively controls the group to the OFF state.

  In the third aspect of the present invention, the setting unit assigns the first switch to one group address when different group addresses are assigned to the first switch and the second switch as setting information. It is preferable to set as a group control switching operation switch and to set the second switch as a group control switching operation switch for the other group address.

  According to the first invention, when only a single group address is associated with one of the first switch or the second switch, the control to turn on the second switch and the second switch Since the switch is automatically assigned control to the OFF state, all the loads in the group address can be turned off or turned on by a single operation by each switch. Thereby, unnecessary operations can be suppressed, and the troublesomeness felt by the operator can be reduced.

  Further, according to the first invention, the operation terminal recognizes the input type related to the address information, and by switching the input type, the association of the address information with the first and second switches is dedicated as described above. Specifications (control of the first switch to turn on the group and control of the second switch to turn off the group), or normal group control specifications (first or Group switching control for the second switch can also be performed. As a result, it is possible to suppress a situation in which the operation terminal must be used only as a dedicated switch.

  According to the second aspect of the invention, the address setter can be configured to set the input type related to the address information. Therefore, the association of the address information with respect to the first and second switches is dedicated as described above by switching the input type. Specification (control of the group to the on state for the first switch and control of the group to the off state of the second switch), or the specification of the normal group control (first Or group switching control for the second switch). As a result, it is possible to suppress a situation in which the operation terminal must be used only as a dedicated switch.

  According to the third invention, when the operation terminal is associated with the same group address for the first and second switches, the address information is associated with the dedicated specification (first Control to the ON state for the first switch and control to the OFF state for the second switch). In this case, the effect can be achieved without changing the address setting device.

  Further, according to the third invention, when the operating terminal is associated with different group addresses for the first and second switches, in addition to the dedicated specification, Specification (group switching control for the first or second switch) can also be used. As a result, it is possible to suppress a situation in which the operation terminal must be used only as a dedicated switch.

  FIG. 1 is a block diagram schematically showing an illumination control system according to the first embodiment of the present invention. The lighting control system mainly includes a transmission unit 10, a relay control terminal unit (hereinafter referred to as "relay control T / U") 20, a relay 25, a remote control transformer 30, and an operation terminal 40. Yes.

  The relay control T / U 20 and the operation terminal 40 are mutually connected to the transmission unit 10 via a two-wire signal line, and exchange of information with the transmission unit 10 is performed on the signal line by a multiplex transmission method. This is done through a transmission signal to be transmitted. In addition, a relay 25 is connected to the relay control T / U 20, and the lighting device 1 that is a load to be controlled is connected to the relay control T / U 20 via the relay 25.

  The lighting device 1 existing in the system (more precisely, the relay 25 to which the lighting device 1 is connected) can be uniquely specified by the load address. Specifically, a unique identifier called a load channel (Ch) is assigned to the relay control T / U 20, and a load number (Nm) is assigned to the relay 25 connected to the relay control T / U 20. A unique identifier called is assigned. A load address (Ch-Nm (see FIG. 1)) is configured by combining the load channel (Ch) and the load number (Nm).

  In the lighting control system according to the present embodiment, the transmission unit 10 controls the state of the lighting device 1 via the relay control T / U 20 and the relay 25 based on a transmission signal transmitted from the operation terminal 40. 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 in which a single lighting device 1 is a control target and the on state and the off state are alternately controlled. Group control is a plurality of lighting devices 1 included in the same group. In this method, the on-state and the off-state are alternately and collectively switched. 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 by address information associated with the operation terminal 40 (specifically, the operation switch 41) based on a transmission signal from the operation terminal 40 under the control of an internal processor. And the control state for the lighting device 1 is specified. Then, the transmission unit 10 transmits the address information of the lighting device 1 and its control state as a control command to the relay control T / U 20 corresponding to the lighting 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 acquires a group address from the operation terminal device 40, the transmission unit 10 can specify a plurality of lighting devices 1 (load addresses) corresponding to the group address by searching the group information. .

  Moreover, the transmission unit 10 showed the correspondence of the load address of the illuminating device 1 allocated to the pattern for every individual pattern address, and the pattern state (for example, an ON state or an OFF state) of the illuminating device 1. Holds pattern information. Therefore, when the transmission unit 10 obtains the pattern address from the operation terminal 40, 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 individual lighting devices. The pattern state for 1 can be specified.

  The T / U 20 for relay control has a function as a load control terminal that controls the state of the lighting device 1 in accordance with the control state of the relay 25. The T / U 20 for relay control is a control target among relays 25 (four relays 25 in the present embodiment) connected to itself based on a transmission signal from the transmission unit 10 under the control of an internal processor. The state of the relay 25 is controlled by sending a control signal to the relay 25 corresponding to the lighting device 1. Each relay 25 is controlled by the relay control T / U 20 to turn on or off commercial alternating current from a breaker power source or the like, thereby turning the lighting device 1 into an on state (lighted state) or an off state (dark state). Control.

  The remote control transformer 30 supplies driving power to the relay control T / U 20 and the relay 25.

  The operation terminal 40 has a function as an input terminal for outputting a control command for controlling the lighting device 1 to be controlled. The operation terminal device 40 is installed on an arbitrary wall surface such as a room or a manager's room, and is a terminal device that can be pushed by a user using the lighting device 1.

  FIG. 2 is an explanatory diagram schematically showing the operation terminal 40. The operation terminal device 40 is transmitted from a plurality of operation switches 41 operated by a user using the lighting device 1, a notification unit 42 that notifies the state of the lighting device 1 corresponding to the operation switch 41, and an address setting device 50 described later. A receiving unit 43 for receiving the set information. In the example shown in the figure, the operation switch 41 includes a pair of operation switches 41a and 41b laid out vertically. Address information is associated with each operation switch 41. When the operation terminal 40 receives the setting information transmitted from the address setting device 50 via infrared communication or the like via the receiving unit 43, the operation terminal 40 and the individual switches 41a and 41b are controlled under the control of the internal processor. The address information is associated and stored in a predetermined storage means such as a memory (not shown). The notification unit 42 is provided corresponding to each of the pair of operation switches 41a and 41b, and each notification unit 42 includes, for example, a pair of LEDs (Light Emitting Diodes) for green lighting and red lighting. Has been.

  FIG. 3 is an explanatory diagram showing an address setting unit 50 for setting address information to be assigned to the operation switches 41a and 41b of the operation terminal 40. The address setting device 50 includes an input unit 51 that can be operated by an operator, a display unit 52 that displays input information and processing content information input by the input unit 51, and address information to be assigned to the operation switches 41a and 41b. A processing unit (internal processor (not shown)) that displays a form that can be input via the input unit 51 on the display unit 52, and setting information including the input address information is received by the receiving unit of the operation terminal 40. And a transmission unit 53 that transmits to 43. In the example shown in FIG. 3 (see FIG. 3B), a group address corresponding to “G1” is assigned to the upper operation switch 41a, and “G2” is assigned to the lower operation switch 41b. Setting information for assigning a group address to be assigned.

  In the operation terminal 40, when an individual address or a group address is associated with the operation switch 41 as address information, the lighting device 1 corresponding to the address information is turned on or off according to the push operation of the operation switch 41. Inverts between states. On the other hand, when a pattern address is associated with the operation switch 41 as address information, each lighting device 1 corresponding to the address information shifts to a preset pattern state according to the push operation of the operation switch 41. .

  When the operation switch 41 associated with the individual address (for example, the load address “0-1”) is operated in the operation terminal 40, the transmission terminal 40 transmits the transmission unit corresponding to the operation of the operation switch 41. A predetermined transmission signal is transmitted to 10. The transmission unit 10 specifies the address information and the operation state (on state or off state) of the operation switch 41 through the transmission signal exchange with the operation terminal 40. The specified information is transmitted from the transmission unit 10 to the relay control T / U 20 of the load channel “0”, and the load number “1” connected to itself is transmitted by the relay control T / U 20 of the load channel “0”. The relay 25 is controlled according to the operation state. Thereby, the illuminating device 1 of load address "0-1" is controlled to an ON state or an OFF state. On the other hand, when the lighting device 1 with the individual address is turned on under the control of the internal processor, the operation terminal 40 turns on the notification unit 42 in red and turns off the lighting device 1 with the individual address. If it is, the notification unit 42 is lit in green.

  Further, in the operation terminal 40, when the operation switch 41 associated with the group address (for example, the group “G1”) among the plurality of operation switches 41 is operated, in response to the operation of the operation switch 41, A predetermined transmission signal is transmitted from the operation terminal 40 to the transmission unit 10. The transmission unit 10 specifies the address information and the operation state (on state or off state) of the operation switch 41 through the transmission signal exchange with the operation terminal 40. When the address information is a group address, the transmission unit 10 refers to the group information and identifies the load address included in the group “G1” (for example, load addresses “0-1”, “1-2”). ). The specified information is transmitted from the transmission unit 10 to the relay control T / U 20 of the load channels “0” and “1”. Then, the relay 25 having the load number “1” connected thereto is controlled by the relay control T / U 20 of the load channel “0” according to the operation state, and the relay control T of the load channel “1”. / U20 controls the relay 25 with the load number “2” connected to itself according to the operation state. Accordingly, the lighting devices 1 corresponding to the group “G1” are collectively controlled to be switched on (or off). On the other hand, the operation terminal device 40 basically performs red lighting of the notification unit 42 when all the lighting devices 1 corresponding to the group address are turned on, and green lighting of the notification unit 42 otherwise. I do.

  Further, in the operation terminal 40, when the operation switch 41 associated with the pattern address (for example, the pattern “P1”) among the plurality of operation switches 41 is operated, in response to the operation of the operation switch 41, A predetermined transmission signal is transmitted from the operation terminal 40 to the transmission unit 10. The transmission unit 10 specifies the address information and the operation state (ON state) of the operation switch 41 through exchange of transmission signals with the operation terminal 40. When the address information is a pattern address, the transmission unit 10 refers to the pattern information, and the load address included in the group “P1” (for example, the load address “0-3”, “1-4”), Identify individual pattern states. The specified information is transmitted from the transmission unit 10 to the relay control T / U 20 of the load channels “0” and “1”. Then, the relay 25 having the load number “3” connected thereto is controlled according to the pattern state by the relay control T / U 20 for the load channel “0”, and the relay control T for the load channel “1”. / U20 controls the relay 25 with the load number "4" connected to itself according to the pattern state. Thereby, the illuminating device 1 corresponding to pattern "P1" is controlled to a pattern state. On the other hand, the operation terminal device 40 basically turns on the notification unit 42 when all the lighting devices 1 corresponding to the pattern address are in the pattern state, and otherwise, Turn on green.

  With reference to FIG. 4, the operation terminal 40 which is one of the characteristics of this embodiment is demonstrated. In the operation terminal 40, when a group address is individually set for each operation switch 41a, 41b, each operation switch 41 corresponds to the push operation, and the lighting device included in the group 1 is inverted. By the way, when the group address (G1) is assigned only to the upper operation switch 41a as the setting information, the operation terminal 40 switches the upper operation switch 41a collectively to turn on the group G1. Set as. In addition, the operation terminal 40 sets the lower operation switch 41b as a switch that collectively controls the group G1 in the off state. In this case, the operation terminal 40 controls the individual notification units 42 corresponding to the upper and lower operation switches 41a and 41b to be in a lighting state corresponding to each other.

  This will be specifically described below. First, as a first case, as shown on the left side of FIG. 5, the lighting device of group G1 (circle in (b)) is partially thinned by an operation switch 41 for individual control (not shown). Assume a scene that is lit. In this case, the notification unit 42 of the operation terminal 40 is lit in green for both the upper and lower operation switches 41a and 41b. Here, when the operator wants to completely turn off the group G1, the user only pushes the lower operation switch 41b once, and as shown in the right side of FIG. 5, the lighting devices 1 corresponding to the group G1 are collectively displayed. Can be turned off completely. In this case, the notification unit 42 of the operation terminal device 40 remains lit in green for both the upper and lower operation switches 41a and 41b.

  Next, as a second case, as shown on the left side of FIG. 6, the lighting device of group G1 (the circle in (b)) is partially thinned out by an individual control operation switch 41 (not shown). Assume a scene that is turned off. In this case, the notification unit 42 of the operation terminal device 40 is lit red for both the upper and lower operation switches 41a and 41b. Here, when the operator wants to completely turn off the group G1, the user only pushes the lower operation switch 41b once, and as shown in the right side of FIG. 6, the lighting devices 1 corresponding to the group G1 are collectively displayed. Can be turned off completely. In this case, the notification unit 42 of the operation terminal 40 is switched to green lighting for both the upper and lower operation switches 41a and 41b.

  Next, as a third case, as shown on the left side of FIG. 7, the lighting device of group G1 (circle in (b)) is partially thinned out by an individual control operation switch 41 not shown. Assume a scene that is lit at. In this case, the notification unit 42 of the operation terminal 40 is lit in green for both the upper and lower operation switches 41a and 41b. Here, when the operator wants to light all the groups G1, the operator only needs to push the upper operation switch 41a once. As shown on the right side of FIG. 7, the lighting devices 1 corresponding to the group G1 are collectively displayed. All can be lit. In this case, the notification unit 42 of the operation terminal 40 is switched to red lighting for both the upper and lower operation switches 41a and 41b.

  Next, as a fourth case, as shown on the left side of FIG. 8, the illumination device of group G1 (the circle in (b)) is partially thinned out by an individual control operation switch 41 (not shown). Assume a scene that is turned off. In this case, the notification unit 42 of the operation terminal device 40 is lit red for both the upper and lower operation switches 41a and 41b. Here, when the operator wants to completely turn off the group G1, it is only necessary to push the upper operation switch 41a once. As shown on the right side of FIG. 8, the lighting devices 1 corresponding to the group G1 are collectively displayed. All can be lit. In this case, the notification unit 42 of the operation terminal device 40 remains lit red for both the upper and lower operation switches 41a and 41b.

  Here, as a comparative example, as shown in FIG. 9, different group addresses G1 and G2 are assigned to the upper operation switch 41a and the lower operation switch 41b, respectively. In this case, the upper operation switch 41a is set as a group control switching operation switch for the group G1, and the lower operation switch 41b is set as a group control switching operation switch for the group G2.

  First, as a first case, as shown on the left side of FIG. 10, the lighting device of group G1 (circle in (b)) is partially thinned out by an operation switch 41 for individual control (not shown). Assume a scene that is lit. In this case, the notification unit 42 of the upper operation switch 41a is lit in green. Here, when the operator wants to completely turn off the group G1, it is necessary to push the upper operation switch 41a once to turn on the load of the group G1 as shown in the center of FIG. Thereby, the notification unit 42 of the upper operation switch 41a is lit red. This is because the current operation switch 41a is set as a switching operation switch for performing the reversal operation of the group G1, and the state is completely turned off. Then, the upper operation switch 41a is pushed again, and the load of the group G1 is completely turned off as shown on the right side of FIG. In this case, the notification unit 42 of the upper operation switch 41a is lit in green.

  Next, as a second case, as shown on the left side of FIG. 11, the illumination device of group G1 (the circle in (b)) is partially thinned out by an individual control operation switch 41 (not shown). Assume a scene that is turned off. In this case, the notification unit 42 of the upper operation switch 41a is lit red. Here, when the operator wants to light all the groups G1, it is necessary to push the upper operation switch 41a once to turn off the loads of the group G1 as shown in the center of FIG. In this case, the notification unit 42 of the upper operation switch 41a is lit in green. This is because the current operation switch 41a is set as a switching operation switch that performs the reversal operation of the group G1, and is in a fully lit state. Then, the upper operation switch 41a is pushed again to light up all the loads of the group G1, as shown on the right side of FIG. In this case, the notification unit 42 of the upper operation switch 41a is lit red.

  As described above, according to the present embodiment, it is possible to turn off or turn on all loads corresponding to the group address without performing unnecessary operations. Thereby, unnecessary operations can be suppressed, and the troublesomeness felt by the operator can be reduced.

(Second Embodiment)
FIG. 12 is an explanatory diagram for explaining an address setting method according to the second embodiment. In the second embodiment, when the group terminal (G1) is assigned only to the upper operation switch 41a as the setting information, the operation terminal 40 has the input type “contact” as one of the setting information. (Input) ”, the upper operation switch 41a is set as a switch for collectively controlling the group G1 to be in an ON state, and the lower operation switch 41b is turned off for the group G1. Set as a switch that collectively controls the state.

  For this reason, the address setting unit 50 receives the address information to be assigned to the upper operation switch 41a and the lower operation switch 41b and the input type related to this address information (particularly, the group address) via the input unit 51. Thus, a form that can be input can be displayed on the display unit 52. In addition to “contact (input)”, “normal (input)” can be selected as the input type. When this “normal (input)” is selected, the operation terminal 40 is located on the upper side. Is set as a group control switching operation switch for the group G1.

  According to the operation terminal 40 shown in the first embodiment described above, it is necessary to use a dedicated switch for executing the above-described operation, but the input type is “contact (input)” and “normal (input)”. By switching between them, it is possible to make a dedicated specification as shown in the first embodiment or a normal group control specification.

(Third embodiment)
FIG. 13 is an explanatory diagram for explaining an address setting method according to the third embodiment. In the third embodiment, the operation terminal 40 has the same group address (G1) assigned to each of the upper operation switch 41a and the lower operation switch 41b in the setting information. The upper operation switch 41a is set as a switch that collectively controls the group G1 to the on state, and the lower operation switch 41b is set as a switch that collectively controls the group G1 to the off state. .

  However, when different group addresses (G1, G2) are assigned to the upper operation switch 41a and the lower operation switch 41b, the upper operation switch 41a is switched for group control with respect to the group G1. The operation switch 41b is set as an operation switch, and the lower operation switch 41b is set as a group control switching operation switch for the group G2.

  According to the operation terminal 40 shown in the first embodiment, it is necessary to use a dedicated switch for executing the above-described operation, but the input type is between “contact (input)” and “normal (input)”. By making it switchable, it is possible to have a dedicated specification as shown in the first embodiment or a normal group control specification. Further, according to the second embodiment, it is necessary to newly provide an input type as the setting information in the address setting device 50. According to this embodiment, the second setting can be made without changing the address setting device 50. The same effects as in the embodiment can be obtained.

  The lighting control system, the operation terminal 40, and the address setting unit 50 according to the embodiment of the present invention have been described above. However, the present invention is not limited to the above-described embodiment, and various modifications are within the scope of the invention. Is possible.

The block diagram which shows typically the illumination control system concerning 1st Embodiment Explanatory drawing which shows the operation terminal device 40 typically Explanatory drawing which shows the address setting device 50 which sets the address information allocated with respect to the operation switches 41a and 41b of the operation terminal device 40 Explanatory drawing of the operation terminal device 40 concerning 1st Embodiment Explanatory drawing of operation terminal 40 and group Explanatory drawing of operation terminal 40 and group Explanatory drawing of operation terminal 40 and group Explanatory drawing of operation terminal 40 and group Another explanatory diagram of the operation terminal 40 Explanatory drawing as a comparative example of operation terminal 40 and group Explanatory drawing as a comparative example of operation terminal 40 and group Explanatory drawing of the operation terminal device 40 concerning 2nd Embodiment. Explanatory drawing of the operation terminal device 40 concerning 3rd Embodiment

Explanation of symbols

1 Lighting device 10 Transmission unit 20 T / U for relay control
25 relay 30 remote control transformer 40 operation terminal 41 operation switch 41a operation switch 41b operation switch 42 notification unit 43 reception unit 50 address setting unit 51 input unit 52 display unit 53 transmission unit

Claims (5)

An operation terminal including a switch and a load control terminal are connected to the transmission unit via signal lines, respectively, and the transmission unit is based on a transmission signal transmitted from the operation terminal according to the operation of the switch. In the operation terminal used in the control system for controlling the load connected to the load control terminal via the load control terminal of the load address corresponding to the address information associated with the switch,
An operation unit including a first switch and a second switch;
An acquisition unit for acquiring setting information including address information to be assigned to the first switch and the second switch from an external device operated by an operator;
A setting unit that associates address information with each of the first switch and the second switch based on the setting information acquired by the acquiring unit;
A transmission unit for transmitting address information associated with the switch to the transmission unit in response to an operation on the first switch or the second switch;
The address information includes a group address corresponding to a group control that collectively and alternately switches a plurality of loads included in the same group between an on state and an off state,
When the group address is assigned only to the first switch as the setting information, the setting unit sets the first switch as a switch that collectively controls the group in an ON state, An operation terminal device, wherein the second switch is set as a switch that collectively controls the group in an off state. The setting information includes address information to be assigned to the first switch and the second switch, and an input type related to the address information,
When a group address is assigned only to the first switch as the setting information, the setting unit sets the first switch to the group address on the condition that the input type is normal input. The switch is set as a group control switching operation switch. On the condition that the input type is a contact input, the first switch is set as a switch for collectively controlling the group in the ON state, and the second switch The operation terminal according to claim 1, wherein the switch is set as a switch that collectively controls the group in an off state. In an address setting unit that assigns address information for control to the first switch and the second switch provided in the operation terminal that remotely controls the load,
An input unit operable by an operator;
A display unit for displaying input information and processing content information input by the input unit;
A processing unit that displays address information to be assigned to the first switch and the second switch and an input type related to the address information on the display unit through a form that can be input via the input unit;
A transmission unit that transmits the setting information including the address information and the input type input to the form to the operation terminal;
The address setting device, wherein the input type can be selected between a normal input and a contact input. An operation terminal including a switch and a load control terminal are connected to the transmission unit via signal lines, respectively, and the transmission unit is based on a transmission signal transmitted from the operation terminal according to the operation of the switch. In the operation terminal used in the control system for controlling the load connected to the load control terminal via the load control terminal of the load address corresponding to the address information associated with the switch,
An operation unit including a first switch and a second switch;
An acquisition unit for acquiring setting information including address information to be assigned to the first switch and the second switch from an external device operated by an operator;
A setting unit that associates address information with each of the first switch and the second switch based on the setting information acquired by the acquiring unit;
A transmission unit for transmitting address information associated with the switch to the transmission unit in response to an operation on the first switch or the second switch;
The address information includes a group address corresponding to a group control that collectively and alternately switches a plurality of loads included in the same group between an on state and an off state,
When the same group address is assigned to each of the first switch and the second switch as the setting information, the setting unit sets the group of the first switch to the on state. The operation terminal is set as a switch to be controlled automatically, and the second switch is set as a switch for collectively controlling the group to an OFF state.   When the group information different from each other is assigned to each of the first switch and the second switch as the setting information, the setting unit uses the first switch for group control with respect to one group address. 5. The operation terminal according to claim 4, wherein the operation terminal is set as a switching operation switch for group control with respect to the other group address.

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