JP2020009684A - Load control system and load control device - Google Patents

Abstract

To provide a load control system capable of performing various controls such as turning on/off a load and increasing/decreasing power consumption with a small number of operation members.SOLUTION: A load control system includes a light bulb 40a consuming power supplied from a power supply 30, an ON/UP switch 11 that receives a manual operation for controlling the light bulb 40a, and a controller 20 that generates a control signal for controlling the light bulb 40a in response to a manual operation on the ON/UP switch 11. The controller 20 generates a control signal for performing lighting control on the light bulb 40a in response to a single push operation on the ON/UP switch 11, and generates a control signal for performing dimming control on the light bulb 40a in response to a long push operation on the ON/UP switch 11. The light bulb 40a is controlled according to the control signal.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a load control system and a load control device for controlling a load.

  2. Description of the Related Art There is known a dimming system that dims a lighting device on a ceiling according to a manual operation of an operation member of a switch disposed on a wall. The switch has a plurality of operation members. Behind the switch, ie inside the wall, there is a controller connected to the switch. The controller generates a control signal corresponding to a manual operation on the operation member, and the lighting fixture is controlled to turn on / off (ON / OFF) and increase / decrease the amount of light (UP / DOWN) according to the control signal.

  Patent Literature 1 describes a lighting control device including a dimming switch (or an on / off switch) for turning on / off a lighting load and an up switch and a down switch for increasing or decreasing the light output of the lighting load. Have been.

JP 2009-4292A

  However, in the lighting control device of Patent Literature 1, a switch for turning on / off the lighting load and a switch for increasing or decreasing the light output of the lighting load are separately provided. Therefore, at least three switches are required.

  Therefore, an object of the present invention is to provide a load control system and a load control device capable of performing various controls such as turning on / off a load and increasing / decreasing power consumption with a small number of operation members.

  One embodiment of the present invention is to control a load that consumes power supplied from a power supply, an operation member that receives a manual operation for controlling the load, and the load according to a manual operation on the operation member. A controller that generates a first control signal for performing a first control on the load in response to a first type of operation on one operation member. Generating a second control signal for performing a second control on the load according to a second type of operation on the one operating member, wherein the load is controlled according to the first control signal. And a load control system controlled according to the second control signal.

  With this configuration, different controls can be performed according to the type of operation performed on one operation member, so that various loads can be controlled with a small number of operation members.

  The controller may perform, as the first control, different control according to the control state of the load when the first type of operation is performed.

  With this configuration, different controls can be performed according to the control state of the load by one type of operation on one operation member, so that more various control of the load can be performed with a small number of operation members.

  The load may be a lighting device, the first type of operation may be a single push operation of pressing the one operating member, and the controller may be configured such that the lighting device is turned off. When the single-press operation is performed, the lighting device is turned on as the first control, and when the single-press operation is performed when the lighting device is turned on, the lighting device is set to a predetermined value. May be used.

  With this configuration, the lighting fixture can be turned on by performing a single push operation in a state where the lighting fixture is turned off. The amount of light can be changed, and three types of control can be performed by operating one operation member together with the second control.

  The second type of operation may be an operation capable of detecting an operation amount, wherein the controller detects the operation amount and generates the second control signal according to the detected operation amount. Good.

  With this configuration, it is possible to control the load according to the operation amount of the operation member.

  The load may be one whose output is controlled according to the supplied power, and the controller is disposed between the load and the power supply, and controls the power from the power supply according to the control signal. A power adjustment circuit that adjusts and supplies the power to the load may be provided.

  With this configuration, the load can be controlled by adjusting the power supplied to the load by the controller.

  The controller may transmit the control signal, and the load may receive the control signal and perform control according to the received control signal.

  With this configuration, the load can be controlled by the control signal.

  Another aspect of the present invention is a load control device for controlling a load, wherein the operation member receives a manual operation for controlling the load, and the load control device controls the load in accordance with the manual operation on the operation member. A controller that generates a first control signal for performing a first control on the load in response to a first type of operation on one operation member. Generating a second control signal for performing a second control on the load according to a second type of operation on the one operating member, wherein the load is controlled according to the first control signal. And is controlled according to the second control signal.

  Even with this configuration, different controls can be performed according to the type of operation performed on one operation member, so that the load can be controlled with a small number of operation members.

FIG. 1A is a diagram illustrating a configuration of a load control system (in the case of a dimmable light bulb) according to an embodiment of the present invention. FIG. 1B is a diagram illustrating a configuration of a load control system (in the case of a wireless dimming light bulb) according to the embodiment of the present invention. FIG. 2 is an external view of the switch according to the embodiment of the present invention. FIG. 3 is a diagram illustrating a detailed configuration of the load control device according to the embodiment of the present invention. FIG. 4 is a table showing a relationship between an operation on a switch and a control signal according to the embodiment of the present invention.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. The embodiment described below shows an example in which the present invention is implemented, and the present invention is not limited to the specific configuration described below. In carrying out the present invention, a specific configuration according to the embodiment may be appropriately adopted. In the following, a lighting device, more specifically, a light bulb is exemplified as a target (load) controlled by the load control system or the load control device, but the control target is not limited to this. Load control refers to controlling the output of the load.

  1A and 1B are diagrams illustrating a configuration of a load control system according to an embodiment of the present invention. FIG. 1A shows a configuration of a load control system 100 in the case of using a power-adjusting light bulb (hereinafter, referred to as a “light-adjusted light bulb”) 40 a having no function controlled according to a control signal as the light bulb 40. . FIG. 1B shows a case where a wireless control light bulb (hereinafter, referred to as “wireless light control light bulb”) 40 b that includes a wireless communication unit and a control unit, receives a control signal, and is controlled according to the control signal is used as the light bulb 40. 1 shows the configuration of a load control system 100.

  The load control system 100 includes a switch 10, a controller 20, a power supply 30, a light bulb 40, a relay device 50, a wireless router 60, a terminal device 70, and an AI control device 80. The power supply 30 is a commercial power supply that supplies a rated AC voltage. Hereinafter, an outline of the load control system 100 will be described, and then a load control device including the switch 10 and the controller 20 will be described.

  The switch 10 is provided on a wall surface and includes an operation member operated by a user. The controller 20 is connected to the switch 10. The light bulb 40 (the dimmable light bulb 40a or the wireless dimming light bulb 40b) is connected to the neutral line N from the power supply 30 and to the live line L from the power supply 30 via the switch 10 and the controller 20. Thereby, the electric bulb 40 is turned on by the electric power supplied from the power supply 30.

  A dongle 51 is connected to the relay device 50, and communicates with the controller 20 via the dongle 51. Further, the AI control device 80 and the wireless router 60 are connected to the relay device 50. The terminal device 70 performs wireless communication with the relay device 50 via the wireless router 60.

  As a method of wireless communication between the controller 20 and the dongle 51 of the relay device 50, a wireless communication standard such as Z-Wave (registered trademark) or Zigbee (registered trademark) can be adopted. In addition, as a method of wireless communication between the wireless router 60 and the wireless light control bulb 40b, Wi-Fi (registered trademark), Zigbee, or the like, which is a wireless communication standard, can be used. As a method of wireless communication between the wireless router 60 and the terminal device 70, Wi-Fi or the like which is a wireless communication standard can be used.

  As described above, in the load control system 100 of the present embodiment, any one of the light-controlled light bulb 40a and the wireless light-controlled light bulb 40b is used as the light bulb 40. The dimmable light bulb 40a is dimmed by receiving controlled power supply. The power supplied to the dimmable light bulb 40a can be adjusted by a dimmer (which corresponds to a power adjusting circuit 22 described later) that controls the power by a pulse modulation method or a phase control method. Dimmable light bulb 40a may be an LED light bulb or an incandescent light bulb.

  The wireless dimming light bulb 40b includes a wireless communication unit that receives a wirelessly transmitted control signal, and a control unit that controls lighting, turning off, dimming, and the like in accordance with the control signal received by the wireless communication unit. The wireless dimming light bulb 40b may be an LED light bulb. In addition, the wireless dimming light bulb 40b is supplied with a constant voltage, that is, a commercial power supply at the rated AC voltage without any restriction, or a state where the restriction is relaxed, for example, a voltage of 90% or more of the power supply voltage is stable. It is desirable that they be supplied in a specific manner.

  FIG. 2 is an external view of the switch 10. The switch 10 includes a frame 101 in which a first operation switch 11, a communication cutoff switch 12, and a second operation switch 13 are arranged in this order as operation members. The sizes of the first operation switch 11, the communication cutoff switch 12, and the second operation switch 13 are the same. The switch 10 is installed so as to be embedded in a wall, and the first operation switch 11, the communication cutoff switch 12, and the second operation switch 13 are installed such that the respective operators are substantially flush with the wall surface.

  When the light bulb 40a to be adjusted is used as the light bulb 40 (in the case of FIG. 1A), the controller 20 adjusts the power supplied to the light bulb 40a to be adjusted. The power of the light bulb 40a is adjusted by the controller 20, so that the light bulb 40a is turned on / off (ON / OFF) and the light amount is increased or decreased. The controller 20 is controlled according to an instruction from each of the switch 10, the terminal device 70, and the AI control device 80.

  When the user operates the switch 10, the controller 20 controls the power supplied to the light bulb 40 a according to the operation of the switch 10. In addition, when the user performs an operation for controlling the light bulb 40a on the terminal device 70, the terminal device 70 wirelessly transmits a control signal corresponding to the operation. The control signal is transmitted to the controller 20 via the wireless router 60, the relay device 50, and the dongle 51 in this order, and the controller 20 adjusts the power supplied to the light bulb 40a according to the control signal.

  Further, the AI control device 80 determines lighting, extinguishing, and dimming of the dimmable light bulb 40a based on a learning model without outputting a control signal based on the determination, without being directly instructed by the user. This control signal is transmitted to the controller 20 via the relay device 50 and the dongle 51, and the controller 20 adjusts the power supplied to the light bulb 40a according to the control signal.

  As described above, the control of lighting, extinguishing, and dimming of the light bulb 40a is performed in accordance with the user's operation on the switch 10, the user's operation on the terminal device 70, and the determination in the AI control device 80.

  When the wireless light control light bulb 40b is used as the light bulb 40 (in the case of FIG. 1B), the controller 20 controls the power supplied to the wireless light control light bulb 40b to a constant value. When the user operates the switch 10, the controller 20 generates a control signal corresponding to the operation of the switch 10 and wirelessly transmits the control signal. This control signal is transmitted to the wireless dimming light bulb 40b via the dongle 51, the relay device 50, and the wireless router 60. The wireless dimming light bulb 40b performs lighting, extinguishing, and dimming according to a control signal from the controller 20.

  Further, when the user performs an operation to control the wireless dimming light bulb 40b in the terminal device 70, the terminal device 70 wirelessly transmits a control signal corresponding to the operation. This control signal is transmitted to the wireless dimming light bulb 40b via the wireless router 60. The wireless dimming light bulb 40b turns on, off, and dims according to an instruction from the terminal device 70.

  Further, the AI control device 80 determines lighting, extinguishing, and dimming of the wireless dimming light bulb 40b based on a learning model without outputting a user's direct instruction, and outputs an instruction in accordance with the determination. This instruction is transmitted to the wireless light bulb 40b via the relay device 50 and the wireless router 60. The wireless dimming light bulb 40b turns on, off, and dims according to an instruction from the AI control device 80.

  As described above, in the case of FIG. 1B as well, the control of turning on and off the wireless dimming light bulb 40b and the control of dimming are performed by the user operation on the switch 10, the user operation on the terminal device 70, and the determination by the AI control device 80. It is performed according to.

  Next, a load control device including the switch 10 and the controller 20 will be described in detail. FIG. 3 is a diagram illustrating a detailed configuration of the load control device. In the load control device, the switch 10 and the controller 20 may be configured as separate devices, and may be connected to each other by an electric wire, or the switch 10 and the controller 20 may be integrated to form a smart switch. .

  The switch 10 includes a first operation switch 11, a communication cutoff switch 12, and a second operation switch 13 as operation members. The first operation switch 11 and the second operation switch 13 are normally-open (a-contact) embedded pushbutton switches, and the communication cutoff switch 12 is a single-cut embedded switch. The first operation switch 11, the communication cutoff switch 12, and the second operation switch 13 are manually operated independently by the user.

  The first operation switch 11 is used to turn on the light bulb 40 that has been turned off, and is also used to increase the light amount of the light bulb 40. The second operation switch 13 is used to turn off the light bulb 40 that is turned on, and is also used to reduce the light amount of the light bulb 40. Hereinafter, the first operation switch 11 is also referred to as an ON / UP switch 11, and the second operation switch 13 is also referred to as an OFF / DOWN switch 13. A live line L from a power supply 30 is connected to one end of each of the first operation switch 11, the communication cutoff switch 12, and the second operation switch 13.

  The controller 20 includes an N terminal 201, an S1 terminal 202, an S2 terminal 203, a NO1 terminal 204, and an L terminal 205. The N terminal 201 is a neutral input terminal. The N terminal 201 is connected to a neutral line (ground side electric wire) N connected to the power supply 30. The other end of the first operation switch 11 is connected to the S1 terminal 202, and the other end of the second operation switch 13 is connected to the S2 terminal 203.

  The NO1 terminal 204 is a controlled output terminal (live output terminal). The light bulb 40 is connected to the NO1 terminal 204. Light bulb 40 is further connected to neutral line N from power supply 30. That is, the light bulb 40 is directly connected to the neutral line N, but is connected to the live line (power-supply-side electric wire) L from the power supply 30 via the controller 20 and the switch 10. The L terminal 205 is a live input terminal. The communication cutoff switch 12 is connected to the L terminal 205.

  As described above, since the live line L from the power supply 30 is connected to one end of each of the first operation switch 11, the communication cutoff switch 12, and the second operation switch 13, the S1 terminal 202, the L terminal 205, and The S2 terminal 203 is connected to the live line L from the power supply 30 via the first operation switch 11, the communication cutoff switch 12, and the second operation switch 13, respectively. That is, when the first operation switch 11 is pressed (connected), the live line L is connected to the S1 terminal 202, and when the second operation switch 13 is pressed (connected), the live line L is connected to the S2 terminal 203.

  The controller 20 is driven by a voltage applied between the N terminal 201 and the L terminal 205. Therefore, the communication cutoff switch 12 is a switch that cuts off the power supply to the controller 20, and the function including the communication function of the controller 20 can be stopped by disconnecting the communication cutoff switch 12.

  The controller 20 includes a switch interface (I / F) 21, a power adjustment circuit 22, a control module 23, a wireless communication module 24, and a memory 25 in addition to the terminals 201 to 205 described above. .

  The control module 23 is configured by a microcomputer, and executes an operation described below by executing software (a program) stored in the microcomputer itself or the memory 25. When the dimmable light bulb 40 a is used as the light bulb 40, the control module 23 generates a control signal by referring to the memory 25 based on a signal from the switch I / F 21 or the wireless communication module 24, The output to the adjustment circuit 22 controls the power adjustment circuit 22. Further, when the wireless dimming light bulb 40 b is used as the light bulb 40, the control module 23 generates a control signal by referring to the memory 25 based on a signal from the switch I / F 21 and generates a control signal. Output to

  The switch I / F 21 converts a voltage from the power supply 30 applied to the S1 terminal 202 into a first operation signal when the first operation switch 11 is pressed, and outputs the signal to the control module 23. When the second operation switch 13 is pressed, the switch I / F 21 converts a voltage from the power supply 30 applied to the S2 terminal 203 into a second operation signal and outputs the second operation signal to the control module 23.

  The switch I / F 21 continuously outputs an operation signal while the first operation switch 11 and the second operation switch 13 are pressed. When the duration of the first operation signal is equal to or shorter than a predetermined time (for example, 1 second), the control module 23 determines that a single push operation has been performed on the first operation switch 11, and the first operation signal Is longer than a predetermined time, it is determined that a long press operation has been performed on the first operation switch 11, and the duration (operation amount) is measured (detected).

  When the duration of the second operation signal is equal to or shorter than a predetermined time (for example, 1 second), the control module 23 determines that a single push operation has been performed on the second operation switch 13 and performs the second operation switch. If the duration of the signal is equal to or longer than the predetermined time, it is determined that the long press operation has been performed on the second operation switch 13, and the duration (operation amount) is measured (detected).

  As described above, the control module 23 detects a manual operation on the first operation switch 11 and the second operation switch 13 via the switch I / F 21. That is, the controller 20 can be manually operated via the switch 10.

  The memory 25 stores a result of the control of the light bulb 40 by the control module 23, that is, a current dimming parameter of the light bulb 40 (that is, lighting / unlit, light amount). The wireless communication module 24 has a wireless communication function, and performs wireless transmission and reception of various signals.

  The power adjustment circuit 22 adjusts the power input from the live line L to the L terminal 205 based on the control signal according to the control signal received from the control module 23, and outputs the power from the NO1 terminal 204. The power adjustment circuit 22 supplies 100% power to the bulb 40 by outputting the power from the power supply 30 without adjusting the power according to the control signal. In addition, the power adjustment circuit 22 cuts off the power from the power supply 30 according to the control signal, thereby reducing the power supplied to the light bulb 40 to 0%.

  Further, the power adjusting circuit 22 supplies the electric bulb 40 with electric power of an arbitrary magnitude in the range of 0 to 100% by performing pulse modulation or phase control according to the control signal. When using the wireless dimming light bulb 40b as the light bulb 40, the power adjustment circuit 22 continues to supply a constant power of 100% or close to the wireless dimming light bulb 40b without being controlled by the control module 23.

  The control module 23 adjusts the control signal for turning on the light bulb 40, the control signal for turning off the light bulb 40, and the ratio Y (X / W) of the power consumption X of the light bulb 40 to the rated power consumption W to 0 to 100%. Generate control signals.

  When the dimmable light bulb 40a is used as the light bulb 40 (in the case of FIG. 1A), the control module 23 adjusts the ratio Y of the actual power consumption X of the dimmable light bulb 40a to the rated power consumption W. The power control circuit 22 is controlled. The light bulb 40a to be lit is lit with a light amount corresponding to the power ratio Y.

  Specifically, when the control module 23 detects that the ON / UP switch 11 is single-pressed while the light bulb 40a is turned off, the control module 23 turns on the light bulb 40a. Whether the dimmable light bulb 40a is off or on is stored in the memory 25. The control module 23 refers to the memory 25 and determines whether the light bulb 40a is off or on.

  The control module 23 generates a control signal and outputs the control signal to the power adjustment circuit 22 so that the light-adjustable light bulb 40a is turned on at a preset ratio Yp when the light-adjustable light bulb 40a is turned on. . The preset ratio Yp is stored in the memory 25. The control module 23 acquires the preset ratio Yp with reference to the memory 25. At this ratio Yp, the light bulb 40a is lit with a preset light amount.

  When the control module 23 detects that the OFF / DOWN switch 13 has been operated by a single push while the light bulb 40a is lit, the control module 23 reduces the ratio Y to 1% or less and brings the function signal closer to a function stop state. Is generated and output to the power adjustment circuit 22.

  When the control module 23 detects that the ON / UP switch 11 has been long-pressed, the control module 23 sets the ratio Y in the range of 20% to 100% according to the duration (operation amount) of the long-press operation. A control signal is generated and output to the power adjustment circuit 22. Further, when the control module 23 detects that the second operation switch 13 is long-pressed, the control unit 23 sets the ratio Y in the range of 100% to 20% according to the duration (operation amount) of the long-press operation. A control signal is generated and output to the power adjustment circuit 22.

  Further, when the control module 23 detects that the ON / UP switch 11 is single-pressed while the light bulb 40a is lit, the control module 23 generates a control signal for maximizing the ratio Y (100%). Output to the power adjustment circuit 22. Instead of this, when it is detected that the ON / UP switch 11 is pressed only when the light bulb 40a is turned on, it is turned ON / OFF when the light bulb 40a is turned off. A control signal may be generated and output to the power adjustment circuit 22 so that the light bulb 40a to be lit is turned on at the preset ratio Yp, as in the case where the UP switch 11 is operated by a single push.

  When the control module 23 detects that the ON / UP switch 11 has been operated for a long time while the light bulb 40a is turned off, the control module 23 generates a control signal for turning on the lamp with the ratio Y being the minimum (20%). Then, a control signal for gradually increasing the ratio Y in accordance with the duration of the long press operation is generated and output to the power adjustment circuit 22. The power adjusting circuit 22 adjusts the power supplied to the light bulb 40a in accordance with the control signals stopped by the control module 23.

  When the wireless dimming light bulb 40b is used as the light bulb 40 (in the case of FIG. 1B), the control module 23 first sets the control signal to a state in which the restriction on the voltage of the power supply 30 is relaxed (or a state in which no restriction is imposed). Is generated and output to the power adjustment circuit 22. Specifically, the control module 23 controls the power adjusting circuit 22 so as to supply a constant power of about 90% of the power of the power supply 30 to the wireless dimming light bulb 40b, for example.

  On the other hand, the control module 23 generates a control signal for adjusting the ratio Y of the actual power consumption X of the wireless dimming light bulb 40b to the rated power consumption W, and wirelessly transmits the control signal from the wireless communication module 24.

  Specifically, when the control module 23 detects that the ON / UP switch 11 is pressed once while the wireless light control light bulb 40b is turned off, the control module 23 turns on the wireless light control light bulb 40b. At this time, the control module 23 generates a control signal so that the wireless dimming light bulb 40b is turned on at the preset ratio Yp, and outputs the control signal to the wireless communication module 24. At this ratio Yp, the wireless dimming light bulb 40b is lit with a preset light amount.

  When the control module 23 detects that the OFF / DOWN switch 13 is single-pressed while the wireless dimming light bulb 40b is turned on, the control module 23 reduces the ratio Y to 1% or less and brings the function signal closer to a function stop state. Generate

  When the control module 23 detects that the ON / UP switch 11 has been long-pressed, the control module 23 sets the ratio Y in the range of 20% to 100% according to the duration (operation amount) of the long-press operation. A control signal is generated and output to the wireless communication module 24. Further, when the control module 23 detects that the OFF / DOWN switch 13 has been long-pressed, the control module 23 sets the ratio Y in the range of 100% to 20% according to the duration (operation amount) of the long-press operation. A control signal is generated and output to the wireless communication module 24.

  Further, when the control module 23 detects that the ON / UP switch 11 is single-pressed while the wireless dimming light bulb 40b is turned on, the control module 23 generates a control signal for maximizing the ratio Y (100%). . Instead of this, when it is detected that the ON / UP switch 11 is pressed only when the wireless light control light bulb 40b is turned on, the ON / UP switch 11 is turned on when the wireless light control light bulb 40b is turned off. A control signal may be generated such that the wireless light control lamp 40b is turned on at the preset ratio Yp, as in the case where the UP switch 11 is operated by a single push.

  When the control module 23 detects that the ON / UP switch 11 has been pressed for a long time while the wireless light control light bulb 40b is turned off, the control module 23 generates a control signal for turning on the ratio Y as a minimum (20%). At the same time, a control signal for gradually increasing the ratio Y in accordance with the duration of the long press operation is generated. The wireless communication module 24 wirelessly transmits these control signals generated by the control module 23.

  A dongle 51 for receiving a wirelessly transmitted signal is connected to the relay device 50. The relay device 50 receives the control signal wirelessly transmitted from the controller 20 by the dongle 51. Then, the relay device 50 transfers the received control signal to the wireless router 60. Communication between the relay device 50 and the wireless router 60 may be wire communication or wireless communication.

  The wireless router 60 wirelessly transmits the control signal received from the relay device 50. The wireless communication unit of the wireless light control bulb 40b receives the control signal wirelessly transmitted from the wireless router 60. The control unit of the wireless dimming light bulb 40b performs dimming according to the received control signal.

  In the example of FIG. 1B, the control signal wirelessly transmitted from the controller 20 is transmitted to the wireless dimming light bulb 40b via the relay device 50 and the wireless router 60, but without using the relay device 50 or the wireless router 60, The control signal wirelessly transmitted from the controller 20 may be directly received by the wireless dimming light bulb 40b.

  FIG. 4 is a table summarizing the relationship between the operation on the ON / UP switch 11 and the OFF / DOWN switch 13 and the content of the control signal generated by the control module 23. When the ON / UP switch 11 is operated by a single push while the light bulb 40 is lit, the control module 23 sets the light amount to a predetermined amount (in the present embodiment, the maximum of 100 in the present embodiment). %). When the ON / UP switch 11 is long-pressed while the light bulb 40 is lit, the control module 23 changes the light amount from the light amount at that time according to the duration of the long-press operation (operation amount). Generate a control signal to be incremental.

  In addition, when the OFF / DOWN switch 13 is operated by a single push while the light bulb 40 is on, the control module 23 generates a control signal for turning off the light bulb 40. In addition, when the OFF / DOWN switch 13 is long-pressed while the light bulb 40 is lit, the control module 23 determines the light amount according to the duration of the long-press operation (operation amount) based on the light amount at that time. Generate a control signal to taper off.

  When the ON / UP switch 11 is operated by a single push when the light bulb 40 is turned off, the control module 23 generates a control signal for turning on the light bulb 40 at a preset light amount. Further, when the ON / UP switch 11 is pressed and held while the light bulb 40 is turned off, the control module 23 turns on the light bulb 40 at a preset light quantity, and then, based on the preset light quantity, A control signal for gradually increasing the light amount in accordance with the duration (operation amount) of the long press operation is generated.

  When the OFF / DOWN switch 13 is operated by a single push while the light bulb 40 is turned off, the control module 23 does not generate a control signal or keeps the light off in order to maintain the light off state of the light bulb 40. To generate a control signal. Also, when the OFF / DOWN switch 13 is long-pressed while the light bulb 40 is turned off, the control module 23 does not generate a control signal to maintain the light off state of the light bulb 40, or , And generates a control signal for keeping the light off.

  As described above, according to the load control device (the switch 10 and the controller 20) of the present embodiment, it is possible to turn on the light bulb 40 with one operating member such as the ON / UP switch 11, or to increase the light amount. Light is also possible. Further, by operating the ON / UP switch 11 when the light bulb 40 is on, the light amount can be maximized.

  In the load control device according to the present embodiment, since the control module 23 detects two types of operations of one operation member, a single-press operation and a long-press operation, the control module 23 performs two types of control according to the operation. In addition, since the duration (operation amount) of the long press operation is also detected, quantitative control can be performed.

  As described above, the load control device according to the present embodiment performs a plurality of types of control in accordance with a plurality of types of operations on one operation member, so that various controls can be performed with a small number of switches. In particular, since the controller 20 according to the present embodiment has a wireless function, such a product may be hacked by a malicious third party, so that the user can easily disable the wireless function. Desirable. For this reason, also in the load control device of the present embodiment, one of the three operation members is a wireless cutoff switch.

  As described above, when a controller having a wireless function is used, an operation member for hacking countermeasures is required, and a general switch has one to three operation members. Tend to reduce the number of operation members that perform operations for controlling the operation. Therefore, it is extremely advantageous to be able to perform a plurality of types of control corresponding to a plurality of types of operations on one operation member as in the present embodiment.

  Furthermore, in the present embodiment, when the ON / UP switch 11 is pressed by a single operation while the light bulb 40 is turned off, the light is turned on at a preset light amount, and the light is turned on when the light bulb 40 is turned on. When the single operation of the / UP switch 11 is performed, the light amount of the lighted bulb 40 is maximized. Different controls can be performed accordingly. The preset light amount at the time of lighting may be set to 100%, that is, the maximum value, whereby the light amount at the time of switching from off to lighting and the light amount at the time of a single push operation of the ON / UP switch 11 at the time of lighting. It may be the same.

  The following embodiment may be used instead of the above embodiment. That is, when the ON / UP switch 11 is long-pressed while the light bulb 40 is turned off, the control module 23 increases the preset light amount according to the duration (operation amount) of the long-press operation. You may. In addition, when the OFF / DOWN switch 13 is long-pressed while the light bulb 40 is turned off, the control module 23 reduces the preset light amount according to the duration (operation amount) of the long-press operation. You may.

  Further, following the change of the preset light amount, the control module 23 may generate a control signal for lighting the light bulb 40 at the preset light amount. Thereby, it is possible to confirm the light amount of the changed preset. When the preset light amount is changed, the control module 23 stores the changed light amount in the memory 25.

  In the above-described embodiment, when the ON / UP switch 11 is operated by a single push while the bulb 40 is lit, the control module 23 generates a control signal that maximizes the light amount. Alternatively, when the ON / UP switch 11 is operated by a single push while the light bulb 40 is on, the control module 23 may generate a control signal for setting a preset light amount. Thus, the user can obtain the same amount of light as when turning on from the unlit state by operating the ON / UP switch 11 with a single push during lighting.

  Further, in the above embodiment, when the light bulb 40 is turned on from the unlit state, the control module 23 generates a control signal for turning on the light with a preset light amount. When turning on the light bulb 40 from the light-off state, a control signal for turning on the light at the light quantity at the time of the previous light-off may be generated. In this case, when the light bulb 40 is turned off, the memory 25 stores the light amount at that time, and the control module 23 refers to the memory 25 at the time of lighting to determine the light amount at the time of lighting.

  Further, in the above-described embodiment, the control module 23 separately detects a plurality of types of operations, that is, a single-press operation and a long-press operation for the same switch, and detects a single-press operation and a long-press operation. Although a different control is performed in the case where the control is performed, a plurality of types of operations on the same switch are not limited to the single-press operation and the long-press operation. For example, the control module 23 may detect a single push operation and a continuous push operation separately. The continuous pushing operation is a single pushing operation continuously performed at an interval of a predetermined time (for example, 0.5 second) or less. In this case, the control module 23 may detect the number of times of continuous pressing as the operation amount of the continuous pressing operation, and determine the amount of increase or decrease of the light amount according to the number of times (operation amount).

  Also, in the above embodiment, the load control device increases or decreases the light amount as dimming. However, the light source 40 emits light of a plurality of colors, and the light amount of each color is adjusted, so that the light The color may be adjusted.

  Further, in the above-described embodiment, an example has been described in which the load is a lighting fixture, but the load is not limited to the lighting fixture. The load may be, for example, a curtain or blind drive. In this case, the above-described embodiment can be applied by setting the lighting / extinguishing in the case of the lighting fixture to fully open / close the curtain or the blind and the light amount of the lighting fixture to the opening degree of the curtain or the blind. Further, the load may be an air conditioner. In this case, the above-described embodiment can be applied to the case where the lighting / extinguishing of the lighting fixture is set to drive / stop the curtain or the air conditioner, and the light amount of the lighting fixture is set to the intensity (set temperature) of the air conditioner.

10 switch 11 1st operation switch (ON / UP switch)
12 Communication cut-off switch 13 Second operation switch (OFF / DOWN switch)
DESCRIPTION OF SYMBOLS 20 Controller 21 Switch interface 22 Power adjustment circuit 23 Control module 24 Wireless communication module 25 Memory 30 Power supply 40 Light bulb 40a Dimmable light bulb 40b Wireless dimming light bulb 50 Relay device 60 Wireless router 70 Terminal device 80 AI control device 100 Load control system L Live line N Neutral line

Claims (7)

A load that consumes power supplied from the power supply;
An operation member that receives a manual operation for controlling the load,
A controller that generates a control signal for controlling the load in response to a manual operation on the operation member,
The controller generates a first control signal for performing a first control on the load in accordance with a first type of operation on one operation member, and generates a second control signal on the one operation member. Generating a second control signal for performing a second control on the load according to the operation of
A load control system, wherein the load is controlled according to the first control signal and controlled according to the second control signal.   2. The load control system according to claim 1, wherein when the first type of operation is performed, the controller performs, as the first control, different control in accordance with a control state of the load. The load is a lighting fixture,
The first type of operation is a single-press operation of single-pressing the one operation member,
The controller, as the first control, turns on the lighting fixture when the single pressing operation is performed when the lighting fixture is turned off, and when the lighting fixture is turned on, The load control system according to claim 2, wherein when the push operation is performed, the lighting fixture is set to a predetermined light amount. The second type of operation is an operation capable of detecting an operation amount,
The load control system according to claim 1, wherein the controller detects the operation amount and generates the second control signal according to the detected operation amount. The load, the output of which is controlled according to the supplied power,
The controller according to any one of claims 1 to 4, wherein the controller is provided between the load and the power supply, and includes a power adjustment circuit that adjusts power from the power supply in accordance with the control signal and supplies the power to the load. The load control system according to claim 1. The controller transmits the control signal,
The load control system according to any one of claims 1 to 4, wherein the load receives the control signal and performs control according to the received control signal. A load control device for controlling a load,
An operation member that receives a manual operation for controlling the load,
A controller that generates a control signal for controlling the load in response to a manual operation on the operation member,
The controller generates a first control signal for performing a first control on the load in accordance with a first type of operation on one operation member, and generates a second control signal on the one operation member. Generating a second control signal for performing a second control on the load according to the operation of
A load control device, wherein the load is controlled according to the first control signal, and is controlled according to the second control signal.

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