JP4061930B2 - Wireless load control system and distribution board - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a wireless load control system and a distribution board for controlling a load of an electrical facility or the like using radio.
[0002]
[Prior art]
As a conventional wireless load control system, a load controller such as a wireless remote controller using a specific low-power radio is used to remotely control a load to be controlled. In particular, a user sends a control signal that the load is controlled. The thing which can be confirmed with the display means etc. which were provided in the transmitted load operating device can be mentioned.
[0003]
In the above-described wireless load control system, the load operation unit and the receiver-corresponding unit that receives the control signal from the load operation unit each have a signal transmission / reception function using specific low-power radio, and are bidirectional. Communication is possible.
[0004]
[Problems to be solved by the invention]
However, in the wireless load control system as described above, the load operation unit and the receiver equivalent unit that receives the control signal from the load operation unit need to have a signal transmission / reception function. There was a problem that it became large and a problem that the cost was high.
[0005]
The present invention has been made to remedy the above problems, and provides a wireless load control system and a distribution board that can be realized at a small size and at a low cost by reducing the number of locations having a transmission / reception function necessary for the system. It is for the purpose.
[0006]
[Means for Solving the Problems]
The wireless load control system according to claim 1 includes transmitters 1 and 2 that generate and transmit control signals using a specific low-power radio, as shown in FIG. 1 and FIG. 2, a wireless load control system comprising: a receiver 4 that receives the control signal from 2; and a control unit 5 that controls loads L 1 and L 2 according to the content of the control signal from the receiver 4. The transmitters 1 and 2 and the loads L1 and L2 are provided in pairs (in FIG. 1, two pairs of transmitter 1 and load L1 and transmitter 2 and load L2). The receiver 4 has a load (a load L1) in which a control signal received from one transmitter (for example, transmitter 1 in FIG. 1) is paired with the one transmitter (transmitter 1). When the control target is used, the control unit 5 loads the load (load L1). The control signal received from the one transmitter (transmitter 1) is subjected to a load (load L1) paired with the one transmitter (transmitter 1). When the control signal is not to be controlled, the control unit 5 performs the control indicated by the control signal on the load that is the control target of the control signal (for example, the load L2 in FIG. 1), and the control unit 5, the control signal is transmitted to the person who transmitted the control signal by causing the load (load L1) paired with the transmitter (transmitter 1) to perform a predetermined operation. It is characterized by presenting that the load (load L2), which is the control target, is controlled.
[0007]
Further, as shown in FIG. 3, the distribution board according to claim 2 includes the receiver 4 and the control unit 5 according to claim 1 and is controlled by the control unit 5. A plurality (two in FIG. 3) of breakers 71 and 72 that supply electric power to each of the plurality (two in FIG. 3) of loads L1 and L2, and the plurality (two) of breakers 71 and 72 Are provided with current detection circuits 61 and 62 for detecting the current supplied to each.
[0008]
Further, as shown in FIGS. 3 and 4, the wireless load control system according to claim 3 generates transmitters 1 and 2 that generate and transmit control signals using specific low-power radio, and the transmission In the wireless load control system comprising the transceivers 10 and 20 for receiving the control signals from the transmitters 1 and 2 and controlling the loads L1 and L2 according to the contents of the control signals, the transmitters 1 and 2 Loads L1 and L2 and the transceivers 10 and 20 are a plurality of pairs (in FIG. 3, a pair of the transmitter 1, the load L1, and the transceiver 10, the transmitter 2, the load L2, and the transceiver). One transmitter / receiver (for example, transmitter / receiver 20 in FIG. 3) is provided from a transmitter (transmitter 2) paired with the one transmitter / receiver (transmitter / receiver 20). Pair with the one transceiver (transceiver 20). When a control signal for controlling the load (load L2) is received, the control indicated by the control signal is performed on the load (load L2) paired with the one transceiver, and the one transceiver When a control signal for controlling a load (load L1) that does not pair with the one transceiver (transmitter / receiver 20) is received from the transmitter (transmitter 2) paired with (transmitter / receiver 20) Is in a standby state and a load (load L2) paired with the one transceiver (transmitter / receiver 20) from the transmitter (transmitter 1) that does not pair with the one transceiver (transmitter / receiver 20). When the control signal to be controlled is received, the control indicated by the control signal is performed on the load (load L2) that is the control target of the control signal, and the control is performed. The transmitter that transmitted the signal (transmitter 1); By transmitting a predetermined presentation control signal to the transmitter / receiver (transmitter / receiver 10), the transmitter / receiver (transmitter / receiver 10) paired with the transmitter (transmitter 1) that transmitted the control signal A load (load L2) that is a control target of the control signal is sent to a person who transmits a control signal to a load (load L1) that is paired with the transmitter / receiver (transmitter / receiver 10). It is characterized by presenting that it has been controlled.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
In the first embodiment and the second embodiment, for example, when a load L2 provided from another room (room R1) to another room (room R2) is remotely controlled using the transmitter 1 in the room R1. , the user of the transmitter 1 (not shown), by checking the state of the load L1 provided in the room R1 using a transmitter 1, in the without leaving the room R1 to the control state of the load L2 of the room R2 It is an example of the radio | wireless load control system which can be grasped | ascertained.
[0010]
Below, 1st Embodiment of this invention is described based on FIG.1 and FIG.2. FIG. 1 is an explanatory diagram showing a wireless load control system according to the first embodiment of the present invention, and FIG. 2 is a flowchart showing an example of operation in the wireless load control system.
[0011]
Here, as the load to be controlled, two lighting devices (loads L1 and L2) provided in each of the two rooms (room R1 and room R2) that are used sections are used.
[0012]
As shown in FIG. 1, the wireless load control system includes a load L1 provided in the room R1 and paired with the transmitter 1, a load L2 provided in the room R2 and paired with the transmitter 2, and loads L1 and L2. A transmitter 1 that can be operated, a load L1 that is paired with the transmitter 1, a transmitter 2 that can operate the loads L1 and L2, and a distribution board 3 that supplies power to the loads L1 and L2. Has been.
[0013]
1st Embodiment is an example of the radio | wireless load control system in which the receiver 4 provided in the distribution board 3 can receive the control signal from the transmitters 1 and 2 collectively.
[0014]
The transmitters 1 and 2 are, for example, wireless remote controllers having a function of generating and transmitting a control signal, which is a control command, using a specific low-power radio, and to which of the loads L1 and L2 the control signal is transmitted Are provided with selection buttons B1 and B2.
[0015]
In the first embodiment, the load L1 and the transmitter 1 are paired, and the load L2 and the transmitter 2 are paired. Here, “pairing” means a transmitter identification number (ID) unique to the transmitter provided in each room R1, R2, and a load identification number (ID) unique to the load provided in each room R1, R2. For example, it means that the transmitter identification number of the transmitter 1 = the load identification number of the load L1 = “1”.
[0016]
The control signals transmitted from the transmitters 1 and 2 include, for example, a transmitter identification number unique to each of the transmitted transmitters 1 and 2 (respectively numbers “1” and “2”) and a selection button B1. , B2, the load identification numbers (numbers “1” and “2”, respectively) are included in the loads L1 and L2, respectively.
[0017]
Here, the distribution board 3 becomes a control target according to the receiver 4 having a function of receiving the control signal from the transmitters 1 and 2 and the control content indicated by the control signal received by the receiver 4. The control unit 5 that controls the open / close operation of each of the breakers 71 and 72 connected to the loads L1 and L2 based on information from the receiver 4, and the control unit 5 controls the power supply to each of the loads L1 and L2. Current detecting circuits 61 and 62 for detecting the current supplied to the breakers 71 and 72 for supplying the current.
[0018]
In the first embodiment, since the number of loads is two, L1 and L2, both the number of breakers and the number of current detection circuits are provided corresponding to the loads L1 and L2, respectively. Even if there are three or more, the number of breakers and the number of current detection circuits may be provided corresponding to the number of loads, respectively.
[0019]
Here, the receiver 4 has a function of authenticating the transmitter identification number and the load identification number. When a certain control signal is received, the receiver 4 determines the transmitter identification number and the load identification number included therein. By doing so, it is possible to specify the load recognition number of the load to be controlled and the transmitter recognition number of the transmitter that has transmitted the control signal.
[0020]
Next, the control operation of the controlled object in the wireless load control system will be described with reference to FIG. As an example, a case where the user operates the transmitter 1 provided in the room R1 will be described. Initially, it is assumed that the transmitters 1 and 2 and the receiver 4 are in a standby state (step S1).
[0021]
First, a case where the user in the room R1 selects the selection button B2 of the transmitter 1 to operate the load L2 in the room R2 will be described. In this case, the load recognition number included in the control signal from the transmitter 1 is “2”. The user in the room R1 operates the selection button B2 provided on the transmitter 1 to transmit a control signal (step S2).
[0022]
The receiver 4 receives the control signal from the transmitter 1 (step S3), and from the transmitter 1 from the transmitter identification number (here, “1”) included in the received control signal. to decide.
[0023]
Further, the receiver 4 determines that the control target is not L1 (step S4) but the load L2 from the load recognition number (here, “2”) included in the control signal (step S4).
[0024]
When the receiver 4 determines that the control target is the load L2 (step S6), the control unit 5 controls the breaker 72 connected to the load L2 in accordance with the content of the control signal, and performs a desired operation on the load L2. For example, an operation from an off state to an on state or an operation from an on state to an off state is performed (step S7).
[0025]
Next, the current detection circuit 62 detects a change in current due to the operation of the load L2, for example, whether it is from an on state to an off state, or from an off state to an on state (step S8). And the control part 5 blinks the load L1, for example with respect to the breaker 71 connected to the load L1 which makes a pair with the transmitter 1 which is a transmission source of a control signal according to the detection result from the current detection circuit 62. By performing predetermined lighting control such as changing to a pattern for a predetermined time (step S9), the user of the transmitter 1 is notified that the target operation has been performed on the load L2. Thereafter, the control unit 5 and the receiver 4 return to the standby state (step S1).
[0026]
Next, a case where the user in the room R1 selects the selection button B1 of the transmitter 1 will be described. In this case, the load identification number included in the control signal from the transmitter 1 is “1”.
[0027]
The receiver 4 determines that the control signal received from the transmitter 1 is a signal for controlling the load L1 (load recognition number = “1”) (step S4), and the control unit 5 connects to the load L1. The circuit breaker 71 is controlled according to the content of the control signal to cause the load L1 to perform a desired operation, for example, an operation from an off state to an on state (step S5). Thereafter, the control unit 5 and the receiver 4 The process returns to the standby state (step S1).
[0028]
In such a wireless load control system, the receiver 4 that receives the control signal transmitted by the transmitters 1 and 2 has a function of authenticating the transmitter identification number and the load recognition number, so that the transmitters 1 and 2 For example, the user of the transmitter 1 in the room R1 is not able to perform bidirectional communication but only has a function of transmitting a control signal. From the control state, it is possible to grasp the control state in the load L2 of the room R2.
[0029]
Further, in such a wireless load control system, it is possible to reduce the size and cost of the system by reducing the number of parts having a transmission / reception function necessary for the system as compared with the conventional example. Further, in such a distribution board, the above-described wireless load control system can be easily realized.
[0030]
Next, an embodiment including transceivers 10 and 20 having transmission / reception functions respectively corresponding to loads L1 and L2 to be controlled will be described with reference to FIGS. 3 and 4 as a second embodiment of the present invention. .
[0031]
FIG. 3 is an explanatory view showing a wireless load control system according to the second embodiment of the present invention, FIG. 4 is a flowchart showing an example of operation in the wireless load control system, and FIG. FIG. 4B is a flowchart for explaining an example of the operation of the transceiver 20. In addition, the same code | symbol is attached | subjected to the same location as 1st Embodiment, and description of a common part is abbreviate | omitted.
[0032]
Here, in the second embodiment, as in the first embodiment, loads L1 and L2, which are lighting devices provided in the rooms R1 and R2, are used as loads to be controlled.
[0033]
As shown in FIG. 3, the wireless load control system includes a load L1 paired with a transmitter 1 provided in a room R1, a load L2 paired with a transmitter 2 provided in a room R2, and a load L1, A transmitter 1 capable of operating L2, a transceiver 10 having a function of controlling the load L1, a transmitter 2 capable of operating the loads L1 and L2, a load L2 paired with the transmitter 2, and a load And a transceiver 20 having a function of controlling L2.
[0034]
As in the first embodiment, the transmitters 1 and 2 are wireless remote controllers, for example, and include selection buttons B1 and B2 for selecting one of loads L1 and L2 to be controlled, respectively, and a control signal to be transmitted Includes, for example, the transmitted transmitter identification numbers of the transmitters 1 and 2 and the load identification numbers of the loads L1 and L2 to be controlled.
[0035]
In the second embodiment, the load L1, the transceiver 10 and the transmitter 1 are paired, and the load L2, the transceiver 20 and the transmitter 2 are paired.
[0036]
Here, each of the transceivers 10 and 20 has a transceiver identification number unique to each transceiver (numbers “1” and “2”, respectively), and the transmitter identification included in the control signal. Number and load recognition number.
[0037]
Note that the transmitter / receiver 10 has a transmitter recognition number and a load recognition number equal to the transmitter recognition number of the transmitter / receiver 10 (transmitter recognition number = transmitter recognition number = load recognition number = “1”), that is, When the user selects the selection button B1 of the transmitter 1 and controls the load L1 to be paired, the load L1 is controlled according to the control signal. Similarly, the transmitter / receiver 20 has a function of controlling the load L2 according to the control signal when the user selects the selection button B2 of the transmitter 2 and controls the load L2 to be paired. ing.
[0038]
In addition, when the transmitter / receiver identification number of the transmitter / receiver 10 does not match the load identification number included in the control signal (transmitter identification number = “1”, load identification number = “2”), the transmitter / receiver 10 waits. It has a function to become a state. Similarly, when the load recognition number included in the control signal does not match (transmitter recognition number = “2”, load recognition number = “1”), the transceiver 20 has a function of entering a standby state. Yes.
[0039]
In addition, the transmitter / receiver 10 does not match the transmitter / receiver identification number of the transmitter / receiver 10 and the transmitter recognition number included in the control signal, and the transmitter / receiver recognition number of the transmitter / receiver 10 matches the load recognition number (transmitter / receiver). (Recognition number = “1”, transmitter recognition number = “2”, load recognition number = “1”), the load L1 is controlled according to the control signal and the transmitter that has transmitted the control signal 2 has a function of transmitting a predetermined presentation control signal to the transmitter / receiver 20 paired with 2, and the transmitter / receiver 20 that has received the presentation control signal responds to the presentation load control signal to the paired load L2. It has a function to perform control.
[0040]
Similarly, the transmitter / receiver 20 does not match the transmitter / receiver identification number of the transmitter / receiver 20 and the transmitter identification number included in the control signal, and the transmitter / receiver recognition number of the transmitter / receiver 20 matches the load recognition number (transmission / reception). Device recognition number = “2”, transmitter recognition number = “1”, load recognition number = “2”), the load L2 is controlled according to the control signal, and the control signal is transmitted. The transmitter / receiver 10 that is paired with the transmitter / receiver 10 has a function of transmitting a predetermined presentation control signal, and the transmitter / receiver 10 that has received the presentation control signal responds to the presentation load control signal to the paired load L1. It has a function to perform control.
[0041]
Next, the control operation of the controlled object in the wireless load control system will be described based on FIG. As an example, a case where the user operates the transmitter 1 provided in the room R1 as in the first embodiment will be described. Initially, it is assumed that the transmitters 1 and 2 and the transceivers 10 and 20 are in a standby state (step S10).
[0042]
Next, the user in the room R1 operates the selection button B1 or the selection button B2 provided on the transmitter 1 to transmit a control signal (step S11). In this case, the transmitter / receiver identification number = “1”. Next, the transceivers 10 and 20 receive this control signal (step S12 and step S15).
[0043]
First, a case where the user in the room R1 selects the selection button B2 of the transmitter 1 will be described. In this case, the load recognition number included in the control signal from the transmitter 1 is “2”. The transceivers 10 and 20 determine the load recognition number included in the control signal (Step S13 and Step S16).
[0044]
The transceiver 10 returns to the standby state because the load recognition number = “2” and does not correspond to the load L1 (step S14). Since the load recognition number = “2”, the transmitter / receiver 20 causes the load L2 to perform predetermined control according to the content of the control signal (step S17).
[0045]
Then, the transmitter / receiver 20 transmits a predetermined presentation control signal to the transmitter / receiver 10 paired with the transmitter 1 that has transmitted the control signal (step S18). Here, the predetermined presentation control signal is, for example, a signal for changing the control target to a blinking pattern.
[0046]
Therefore, the transmitter / receiver 10 that has received the presentation control signal applies the control content of the presentation control signal to the load L1 for a predetermined time (step S19), so that the user of the transmitter 1 can perform a desired operation on the load L2. Present what was done. Thereafter, the transceiver 10 returns to the standby state (step S10).
[0047]
Next, a case where the user in the room R1 selects the selection button B1 of the transmitter 1 will be described. In this case, the load identification number included in the control signal from the transmitter 1 is “1”.
[0048]
The transceivers 10 and 20 determine the load recognition number included in the control signal (steps S13 and S16), and the transceiver 20 returns to the standby state because the load recognition number = “1” (step S10). ). Further, since the load recognition number = “1”, the transceiver 10 causes the load L1 to perform predetermined control according to the content of the control signal (step S14), and then returns to the standby state (step S10).
[0049]
In such a wireless load control system, the transceivers 10 and 20 that receive the control signals transmitted by the transmitters 1 and 2 have a function of authenticating the transceiver recognition number, the transmitter recognition number, and the load recognition number. Even though the transmitters 1 and 2 are not capable of bidirectional communication and only have a function of transmitting a control signal, for example, a user of the transmitter 1 in the room R1 stays in the room R1 while staying in the room R1. From the predetermined control state with respect to the load L1 of R1, it is possible to grasp the control state of the load L2 of the room R2.
[0050]
Further, in such a wireless load control system, it is possible to reduce the size and cost of the system by reducing the number of parts having a transmission / reception function necessary for the system as compared with the conventional example.
[0051]
Here, in the first embodiment and the second embodiment, the number of rooms is two, that is, the rooms R1 and R2. However, when the number of rooms increases, the load and transmission that are paired corresponding to each room A similar effect can be obtained if a transmitter (also a transceiver in the second embodiment) is provided and selection buttons for selecting the number of loads to be controlled are provided for the transmitter. However, remote control of a plurality of loads by a certain transmitter needs to be performed within a communication range of a specific low power radio.
[0052]
In the first embodiment and the second embodiment, an example in which a user in the room R1 remotely operates the load L2 in the room R2 using the transmitter 1 is shown. Similarly, when a user who uses the transmitter 2 remotely controls the load L1 in the room R1, the user in the room R2 stays in the room R2 using the transmitter 2 and loads the load in the room R1. The control state of L1 can be grasped.
[0053]
Further, in the first embodiment and the second embodiment, the transmitter 1 and the transmitter 2 are operated in the rooms R1 and R2 provided. This is because it is assumed that a control switch using an existing cable such as a wall switch provided in a room is changed to a transmitter 1 or 2 such as a wireless remote controller. However, for example, the transmitter 1 provided in the room R1 may be used in the room R2, or the transmitter 2 provided in the room R2 may be used in the room R1.
[0054]
In the first embodiment and the second embodiment, the load to be controlled is a lighting device. However, if the load is a target for remote operation, such as an electric lock, an air conditioner, or a ventilation fan Of course, it is also possible.
[0055]
【The invention's effect】
As described above, in the wireless load control system according to the first aspect of the present invention, a transmitter identification number that is an identification number unique to the transmitter is received by a receiver that receives a control signal transmitted by a certain transmitter. And by providing a function to authenticate the load identification number that is a unique identification number to the load to be controlled, the transmitter can use a transmitter in a certain room, for example, even though bidirectional communication is not possible When a user transmits a control signal for controlling a load provided in a different room, the user can grasp the state of the load paired with the transmitter while staying in the room where the transmitter is used. Since the control state of the provided load can be understood, it is possible to reduce the number of locations having a transmission / reception function necessary for the system, and to reduce the size and cost of the system.
[0056]
Moreover, in the distribution board of the invention which concerns on Claim 2, while providing the control part which controls several load according to the receiver of Claim 1, and the control content from this receiver, a control part The wireless load of the invention according to claim 1, comprising: a plurality of breakers that are controlled by the power supply to supply power to each of the plurality of loads; and a current detection circuit that detects a current supplied to the plurality of breakers. There is an effect that the control system can be easily realized.
[0057]
In the wireless load control system of the invention according to claim 3, the transmitter / receiver that receives the control signal transmitted by the transmitter has a transmitter / receiver identification number, a transmitter identification number, and a load recognition number unique to the transmitter / receiver. Even if the transmitter is not capable of two-way communication, for example, a user using a transmitter in a room controls a load provided in a different room. Since the user can understand the state of the load that is paired with the transmitter while staying in the room where the transmitter is used, the system can understand the control state of the load provided in a different room. It is possible to reduce the number of locations having the transmission / reception functions necessary for reducing the size and cost of the system.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram showing a wireless load control system according to a first embodiment of the present invention.
FIG. 2 is a flowchart showing an operation in the wireless load control system according to the first embodiment of the present invention.
FIG. 3 is an explanatory diagram showing a wireless load control system according to a second embodiment of the present invention.
FIG. 4 is a flowchart showing an operation in the wireless load control system according to the second embodiment of the present invention.
[Explanation of symbols]
1, 2 Transmitter 3 Distribution board 4 Receiver 5 Control unit 61, 62 Current detection circuit 71, 72 Breaker 10, 20 Transceiver L1, L2 Load R1, R2 Room

Claims (3)

A transmitter that generates and transmits a control signal using a specific low-power radio, a receiver that receives the control signal from the transmitter, and a load that is a lighting fixture according to the content of the control signal from the receiver In a wireless load control system comprising a control unit for controlling
A plurality of sets of the transmitter and the load are provided in pairs,
The receiver is
When a control signal received from a certain transmitter targets a load that forms a pair with the one transmitter, the control unit indicates a control indicated by the control signal for the pair of loads. Let
When the control signal received from the one transmitter does not control the load paired with the one transmitter, the control unit controls the load that is the control target of the control signal. Lighting control different from the lighting state so far as a predetermined operation for the load paired with the transmitter, in order to cause the control indicated by the signal to be performed and to indicate that the control has been performed by the control unit For a predetermined time .   A plurality of breakers that are provided with the receiver and the control unit according to claim 1 and that are controlled by the control unit to supply power to each of a plurality of loads, and currents supplied to the plurality of breakers are detected. A distribution board comprising a current detection circuit for performing the operation. A transmitter that generates and transmits a control signal using a specific low-power radio, and a transmitter / receiver that receives the control signal from the transmitter and controls a load that is a lighting fixture according to the content of the control signal. In the wireless load control system
The transmitter, the load, and the transmitter / receiver are provided in pairs so as to be paired with each other,
One transceiver is
When a control signal for controlling a load paired with the one transceiver is received from a transmitter paired with the one transceiver, the load paired with the one transceiver is Performing the control indicated by the control signal;
When a control signal for controlling a load not paired with the one transmitter / receiver is received from a transmitter paired with the one transmitter / receiver, a standby state is set,
When a control signal for controlling a load paired with the one transceiver is received from a transmitter that does not pair with the one transceiver, the load for the control target of the control signal is In addition to performing the control indicated by the control signal, the control signal is transmitted by transmitting a predetermined presentation control signal to a transmitter / receiver paired with the transmitter that has transmitted the control signal. The transmitter / receiver paired with the transmitted transmitter causes the load paired with the transmitter / receiver to perform lighting control different from the previous lighting state as a predetermined operation for a predetermined time , and transmits the control signal. The wireless load control system is characterized by presenting the person who has performed control of the load that is the control target of the control signal.

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