TW201830347A - Lighting system - Google Patents

Abstract

A lighting system (100) is provided with: an electromagnetic wave communication unit (21a) that acquires a registration request for registering an information terminal (10) as an apparatus for controlling a lighting apparatus (20); a detection unit (22a) that detects a predetermined operation performed to a wall switch (30) to be operated by a user for the purpose of controlling the lighting apparatus (20) by the user; and a registration unit (22b) that registers the information terminal (10) in the cases where it is determined that the registration request is acquired and the predetermined operation to the wall switch (30) is detected.

Description

Lighting system

The present invention is a lighting system capable of controlling lighting equipment by an information terminal such as a smart phone.

A technique for remotely operating an electronic machine by a remote controller is known. Patent Document 1 discloses a remote operating system capable of reliably pairing and setting a remote controller and an electronic device. [Prior Art Document] [Patent Document] [Patent Document 1] Japanese Patent Laid-Open No. 2008-263308

[Problems to be Solved by the Invention] For example, in order to use an information terminal such as a smart phone as a remote controller for lighting equipment, it is necessary to perform registration processing for pairing (associating) the information terminal with the lighting equipment in advance. The subject of such a registration process is to prevent users' unintended information terminals (for example, information terminals of other users) from being accidentally registered. The invention provides a lighting system capable of preventing information terminals of other users from being misregistered. [Technical means to solve the problem] An illumination system according to one aspect of the present invention includes an acquisition unit that acquires a registration request for registering an information terminal as a device that controls a lighting fixture, and a detection unit that detects a user's control for The operation device operated by the user by the aforementioned lighting fixture, which is a specific operation different from the operation device of the aforementioned information terminal; and the registration unit, which determines that the aforementioned registration request has been obtained, and detects For the above specific operations, log in to the aforementioned information terminal. [Effects of the Invention] The lighting system of the present invention can suppress information terminals of other users from being misregistered.

the following, The embodiment will be described with reference to the drawings. also, Any of the embodiments described below is an example showing generality or specificity. The numerical values shown in the following embodiments, shape, material, Constituent elements, Arrangement position and connection form of constituent elements, step, The sequence of steps is an example. It is not intended to limit the gist of the invention. also, Concerning the constituent elements of the following embodiments, which are not described in the independent claim indicating the highest-level concept, The description will be made with arbitrary constituent elements.  In addition, Each picture is a schematic diagram, It is not necessarily strictly illustrated. In addition, In the figures, The same symbols are assigned to substantially the same components, Where repeated descriptions are omitted or simplified.  (Embodiment) [Overall Structure of Lighting System] First, The overall configuration of the lighting system according to the embodiment will be described. FIG. 1 is an external view of a device constituting the lighting system of the embodiment. FIG. 2 is a block diagram showing a functional configuration of the lighting system of the embodiment.  As shown in Figures 1 and 2, The lighting system 100 according to the embodiment includes: Information terminal 10, Lighting equipment 20, Wall switch 30, And remote control 40. The lighting system 100 may include two or more lighting fixtures 20. also, In Figure 2, A power system 50 is also shown.  In the lighting system 100, By registering the information terminal 10 in the lighting fixture 20, The user can control the lighting fixture 20 through the information terminal 10. Here, In the lighting system 100, The operation of the operating device disposed in the room illuminated by the lighting fixture 20 is set as a registration requirement to prevent information terminals of other users than the user of the lighting system 100 from being registered in the lighting fixture 20 by mistake. The operating device is specifically a wall switch 30, Or a remote control 40 dedicated to the lighting fixture 20. the following, Each device will be described in detail with reference to FIG. 2.  [Information Terminal] The information terminal 10 is a device to be registered in the lighting system 100 as the lighting device 20. The information terminal 10 is specifically a smartphone, It can also be other information terminals such as tablet terminals. The information terminal 10 has: Operation Acceptance Department11, Control section 12, Radio communication section 13, And memory 14.  The operation accepting unit 11 is a user interface that accepts an operation of a user for registering the information terminal 10. The operation receiving unit 11 is specifically a GUI (Graphical User Interface) including a touch panel and a display unit. Graphical user interface). May also include hardware keys (buttons).  The control unit 12 is a device that performs various controls of the information terminal 10. The control unit 12 causes the display unit to display an image used by the GUI, for example. also, When the control unit 12 accepts the operation of the user for registering the information terminal 10 through the operation acceptance unit 11, Then, the radio wave communication unit 13 is caused to send a registration request. The registration request is information (signal) for registering the information terminal 10 as a device for controlling the lighting fixture 20. The control unit 12 specifically uses a processor, Microcomputer, Or a dedicated circuit. The control unit 12 may also be controlled by a processor, Microcomputer, And a combination of two or more of the dedicated circuits.  The radio wave communication unit 13 is a communication module (communication circuit) that performs radio communication using radio waves with the radio wave communication unit 21 a of the lighting fixture 20. The radio wave communication unit 13 wirelessly transmits a registration request to the radio wave communication unit 21a based on the control of the control unit 12, for example. also, Wireless communication using radio waves is different from wireless communication using light such as visible light and infrared rays.  As a standard (agreement) of wireless communication using the radio wave communication section 13, ZigBee (registered trademark), Bluetooth (registered trademark), Or wireless LAN (Local Area Network, LAN) etc. However, the specifications of wireless communication are not particularly limited. also, The frequency band of radio waves used for wireless communication is not particularly limited.  The memory unit 14 stores a program executed by the control unit 12, And ID information (second ID information) of the information terminal 10 itself. The ID information is, for example, SSID (Service Set Identifier, Service set identifier). The memory unit 14 is specifically implemented by a semiconductor memory or the like. The memory unit 14 may be included in the control unit 12.  also, As described later, The storage unit 14 includes two areas: a temporary storage area for storing ID information (first ID information) of the lighting fixture 20 and a specified storage area. These 2 regions can be both logically separated regions, It can also be a region that is physically separated. When the two regions are physically separated, The temporary memory area is, for example, a volatile memory area, The determined memory area is, for example, a non-volatile memory area.  [Lighting equipment] Secondly, The lighting fixture 20 will be described. The luminaire 20 is, for example, a ceiling lamp for indoor lighting that emits white light. also, The specific configuration of the lighting fixture 20 is not particularly limited. The lighting fixture 20 may be a long ceiling lamp. It can also be a downlight or a spotlight. The lighting fixture 20 includes: Radio wave communication unit 21a, Optical communication unit 21b, Control section 22, Memory section 23, Timing section 24, Power conversion unit 25, Power storage unit 26, Dimming circuit 27, 和 emitting section 28.  The radio wave communication unit 21a is a communication module (communication circuit) that performs radio communication using radio waves with the radio wave communication unit 13 of the information terminal 10. The radio wave communication unit 21 a obtains a registration request from the information terminal 10, for example. that is, The radio wave communication unit 21a is an example of an acquisition unit. The specifications of the wireless communication performed by the radio wave communication section 21 a are the same as those of the radio wave communication section 13 and are not particularly limited.  The optical communication unit 21b is a light receiving device that receives a control signal (infrared) transmitted from the remote controller 40 through infrared communication.  The control unit 22 is a device that performs various controls of the lighting fixture 20. The control unit 22 specifically uses a processor, Microcomputer, Or a dedicated circuit. The control unit 22 may also be controlled by a processor, Microcomputer, And a combination of two or more of the dedicated circuits. The control unit 22 has: Detection section 22a, Registration section 22b, And light emission control unit 22c. Detection section 22a, Registration section 22b, And the light emission control unit 22c may be individually configured by a processor, Microcomputer, And dedicated circuits.  The detection section 22a detects a specific operation on the operation device. The operation device is a device operated by a user in order to control the lighting fixture 20, It is a device different from the information terminal 10. As mentioned above, The operation device is, for example, a wall switch 30 or a remote controller 40.  The registration unit 22b performs processing related to registration of the information terminal 10. When the registration unit 22b determines, for example, that a registration request has been obtained, When a specific operation on the operating device is detected, Log into the information terminal 10. So so By setting specific operations on the operating device as a requirement for registration, It can prevent the information terminals held by other users from being misregistered.  The light emission control section 22c is based on a control signal received by the optical communication section 21b, A dimming control signal is output to the dimming circuit 27. With this, The light emitting unit 28 emits light (or goes out) in a state corresponding to the operation of the remote controller 40 by the user. The dimming control signal is, for example, PWM (Pulse Width Modulation, Pulse width modulation) signal, But it can also be PFM (Pulse Frequency Modulation, Pulse frequency modulation) signal.  The memory unit 23 stores a program executed by the control unit 22, A memory device such as ID information (first ID information) of the lighting fixture 20 itself. The ID information is, for example, SSID. The memory unit 23 is specifically implemented by a semiconductor memory or the like. The memory unit 23 may be included in the control unit 22.  also, As described later, The storage unit 23 includes two areas: a temporary storage area for storing ID information (second ID information) of the information terminal 10 and a specified storage area. These 2 regions can be both logically separated regions, It can also be a region that is physically separated. When the two regions are physically separated, The temporary memory area is, for example, a volatile memory area, The determined memory area is, for example, a non-volatile memory area.  The timing unit 24 is a timing device for measuring time. The control unit 22 (the registration unit 22b) is notified of the measured time. The timing unit 24 is used for measurement in a specific period. The timer section 24 is specifically a timer circuit or a real-time clock IC, etc. No matter what it looks like. The timing unit 24 may be included in the control unit 22.  The power conversion unit 25 converts AC power supplied from the power system 50 into DC power and outputs the DC power to the control unit 22 and the dimming circuit 27. The power conversion unit 25 is specifically a power conversion circuit including, for example, a bridge-type full-wave rectifier circuit. The power conversion unit 25 may be implemented by an integrated circuit or the like. Can also be any aspect.  When the power supply from the power system 50 is interrupted, A backup power source that supplies power to the control unit 22. The power storage unit 26 is implemented by, for example, a capacitor, However, it can also be realized by a battery.  The dimming circuit 27 is a circuit that supplies electric power to the light emitting section 28 based on a dimming control signal output from the light emitting control section 22c. The dimming circuit 27 is, for example, a circuit including a switching element that is turned on and off by a dimming control signal.  The light emitting section 28 functions as a light source of the lighting fixture 20, Light is emitted by the power supplied from the self-dimming circuit 27. Specifically, the light emitting section 28 has a LED (Light Emitting Diode, Light-emitting diode) element is used as the light-emitting module of the light-emitting element. The light emitting section 28 may be a COB (Chip On Board, Chip Direct Package) type light emitting module, It can also be SMD (Surface Mount Device, Surface mount component) type light emitting module. Surface-mounted LED elements are LED chips mounted in a resin-molded cavity, and a package-type LED element containing a fluorescent resin is sealed in the cavity.  also, The lighting fixture 20 may be provided with two kinds of light emitting sections 28 having different light emission colors. And corresponding to color control. In this case, The luminaire 20 can be switched to a night light mode in which only the light emitting section 28 having a low color temperature emits light dimly.  [Wall switch] Second, The wall surface switch 30 will be described. The wall switch 30 is installed on the wall surface of the building, The power supply from the power system 50 to the lighting fixture 20 is turned on or off according to a user's operation. that is, The wall surface switch 30 is a switch for a user to switch on or off of the lighting fixture 20. The wall switch 30 is an example of an operation device.  The operation receiving unit 31 included in the wall switch 30 is specifically a button portion of the wall switch 30, It accepts user operations. For the wall surface switch 30, any general-purpose switch can be used.  [Remote control] Secondly, The remote controller 40 will be described. The remote controller 40 is a dedicated device operated by a user to control the lighting fixture 20. The remote controller 40 transmits a control signal to the lighting fixture 20 through infrared communication according to a user's operation. The remote controller 40 is an example of an operation device. The remote control 40 has: Operation Acceptance Department 41, Control section 42, Optical communication section 43, And memory 44.  The operation reception unit 41 receives the lighting operation of the lighting fixture 20, Extinction operation of lighting fixture 20, And the user interface of the dimming operation of the lighting fixture 20. The operation reception unit 41 is specifically implemented by a hardware key (button), However, it can also be realized by a GUI including a touch panel and a display portion.  The control section 42 is a device that performs various controls of the remote controller 40. When the control unit 42 accepts an operation for controlling a user of the lighting fixture 20 through the operation receiving unit 41, Then, the optical communication section 43 is caused to send a control signal corresponding to the operation. The control unit 42 is specifically a processor, Microcomputer, Or a dedicated circuit. The control unit 42 may also be controlled by a processor, Microcomputer, And a combination of two or more of the dedicated circuits.  The optical communication section 43 performs wireless communication using light with the optical communication section 21 b of the lighting fixture 20. The optical communication unit 43 wirelessly transmits a control signal to the optical communication unit 21 b based on the control of the control unit 42. also, Wireless communication using light is different from wireless communication using electric waves. The wireless communication performed by the optical communication section 43 is specifically infrared communication according to a specific communication standard.  The memory unit 44 is a memory device that stores programs and the like executed by the control unit 42. The memory unit 44 is specifically implemented by a semiconductor memory or the like. The memory unit 44 may be included in the control unit 42.  [Operation example 1] Next, An operation example 1 of the lighting system 100 will be described. In the lighting system 100, The light emitting section 28 has the following functions, which is: When the user performs a specific operation on the operation receiving section 31 of the wall surface switch 30, The light emitting state changed from the first state to the second state. Here, The first aspect is, for example, a state in which the light emitting section 28 emits light at a brightness of 100%, The second aspect is, for example, a state in which the light emitting section 28 emits light at a brightness of 70%. Alternatively, the light emitting section 28 emits light in a night light mode.  The specific operation in this case is a 1-switch operation of quickly closing and opening the wall switch 30 in the open state. According to 1-switch operation, For example, the power supply to the power conversion unit 25 is turned off for a short time (a specific time of 1 second or less). Operation Example 1 is an operation example in which such a 1-switch operation is a requirement for registration of the information terminal 10. FIG. 3 is a flowchart of operation example 1 of the lighting system 100. Each step shown in the program diagram shown in FIG. 3 is performed in a state where the information terminal 10 and the lighting fixture 20 are turned on.  First of all, The light emission control section 22c of the lighting fixture 20 outputs the light control signal to the light adjustment circuit 27 to cause the light emitting section 28 to emit light in the first state (S11).  on the other hand, The user performs a login operation on the operation receiving section 11 of the information terminal 10, On the other hand, the operation accepting unit 11 accepts a login operation (S12). The control unit 12 causes the radio wave communication unit 13 to multicast the registration request in accordance with the registration operation (S13). The login request is sent without specifying the destination.  The radio wave communication unit 21a of the lighting fixture 20 obtains a registration request from the radio wave communication unit 13 (S14). The registration unit 22b generates the first information including the first ID information of the lighting fixture 20 stored in the storage unit 23, The radio wave communication unit 21a is caused to transmit the generated first information (S15). The first message is a response to a login request.  If the first information is received by the radio wave communication section 13 of the information terminal 10 (S16), The control unit 12 temporarily stores the first ID information of the lighting fixture 20 included in the received first information in the storage unit 14 (S17). The control unit 12 stores, for example, the first ID information in a temporary storage area in the storage unit 14. Secondly, The control section 12 generates second information including the second ID information of the information terminal 10 stored in the storage section 14, The radio wave communication unit 13 is caused to transmit the generated second information (S18). The second information is transmitted to the lighting fixture 20 based on the first ID information stored in the storage unit 14.  When the second information is received by the radio communication unit 21a of the lighting fixture 20 (S19), The registration unit 22b temporarily stores the second ID information of the information terminal 10 included in the received second information in the storage unit 23 (S20). The registration unit 22 b stores, for example, the second ID information in a temporary storage area in the storage unit 23. In other words, this state is a fake login state. then, The registration unit 22b starts the measurement of a specific period using the timer unit 24. The specific period is, for example, a period of about 1 minute, It is not particularly limited. also, When the same ID information as the second ID information has been stored in the storage section 23, The registration unit 22b disables (discards) the second information.  Here, If the user performs a specific operation (1-2-switch operation) on the operation receiving section 31 of the wall switch 30 before the expiration of a specific period, The operation acceptance unit 31 accepts a specific operation (S21). If a specific operation is performed on the wall switch 30, Then, the power supply to the power conversion section 25 of the lighting fixture 20 is turned off for a short time (specific time). The detection section 22a detects the shutdown of the power supply for such a short time. that is, The detection section 22a detects a specific operation (S22). also, at this time, The detection unit 22 a performs detection using the power stored in the power storage unit 26.  When the light emission control unit 22c determines that a specific operation on the wall switch 30 is detected, The light emitting unit 28 (lighting fixture 20) that emits light in the first aspect is caused to emit light in a second aspect different from the first aspect (S23). that is, The light emission control unit 22c changes the light emission state. The light emission control unit 22 c specifically changes the light emission control signal output to the dimming circuit 27.  on the other hand, When the registration unit 22b determines that a specific operation on the wall switch 30 is detected within a specific period after the registration request is obtained, The registration process is performed (S24). The registration unit 22b determines the memory of the second ID information by, for example, memorizing the second ID information in a specific memory area in the storage unit 23. With this, The information terminal 10 is registered in the lighting fixture 20. also, When the registration unit 22b determines that the above specific period has elapsed without detecting a specific operation on the wall switch 30, No login processing is performed. In this case, The registration unit 22b does not store the second ID information in the specified memory area, In addition, the second ID information that has been temporarily stored is invalidated (obsolete).  Secondly, The registration unit 22b causes the radio wave communication unit 21a to send a registration completion notice (S25). The registration completion notification is sent to the information terminal 10 based on the second ID information stored in the storage unit 23.  When the radio communication unit 13 of the information terminal 10 receives the registration completion notification (S26), Then, the control unit 12 determines the memory area in the memory unit 14 by memorizing the first ID information, Then, the memory of the first ID information is determined (S27). also, When a notification of login completion is not received within a certain period of time, The control unit 12 does not store the first ID information in the specified storage area, In addition, the first ID information that has been temporarily stored is disabled (disabled).  If you do the above, Then, the information terminal 10 and the lighting fixture 20 are paired (associated). then, The user may use the information terminal 10 to control the lighting fixture 20 in addition to the remote controller 40.  In the operation example 1 described above, When the registration unit 22b determines that a specific operation on the wall switch 30 is detected within a specific period after the registration request is obtained, Log into the information terminal 10. With this, Since the specific operation of the wall switch 30 becomes a registration requirement for the information terminal 10, Therefore, it is possible to prevent the information terminals of other users located outside the building where the lighting fixture 20 is installed from being accidentally registered.  also, The specific operation is not limited to 1-switch operation. E.g, It is also possible to set a 1-switch operation a plurality of times in succession as a registration requirement. also, It is also possible to set operations different from 1-switch to specific operations. In addition, The specific operation of the wall switch 30 within a specific period is not a necessary registration requirement. that is, There are no restrictions on the time associated with a particular operation.  [Switching operation] In operation example 1, By the user performing specific operations on the wall switch 30, In addition, the lighting state of the lighting fixture 20 is changed. therefore, It does not matter whether the user intends to change the light-emitting state or intends to log in to the information terminal 10, If a specific operation is performed on the wall switch 30, Then, the lighting state of the lighting fixture 20 will change. that is, There may be cases where the lighting state is changed against the user's intention.  therefore, The light emission control unit 22c may perform the specific operation on the wall switch 30 in association with the registration of the information terminal 10, And it is switched whether to change the light emission state of the light emitting part 28 (lighting fixture 20). in particular, The light emission control section 22c may detect a specific operation of the wall switch 30 within the specific period described above, And it is switched whether to change the light emission state of the light emitting part 28 (lighting fixture 20). FIG. 4 is a flowchart of such a switching operation.  As shown in Figure 4, If a specific operation is detected by the detection section 22a (S31), Then, the light emission control unit 22c determines whether it is within a specific period (S32). in particular, The light emission control unit 22c determines that the registration unit 22b has started the measurement for a specific period using the timer unit 24, And whether a specific period expires.  When the light emission control unit 22c determines that a specific operation on the wall surface switch 30 is detected outside a specific period (No in S32), The light emitting state of the light emitting section 28 is changed (S33). in particular, The light emission control unit 22c causes the light emitting unit 28 (lighting fixture 20) to emit light in the first aspect to emit light in a second aspect different from the first aspect.  on the other hand, When the light emission control unit 22c determines that a specific operation on the wall switch 30 is detected within a specific period (YES in S32), The light emitting state of the light emitting section 28 is maintained (S34). in particular, The light emission control unit 22c causes the light emitting unit 28 (lighting fixture 20) to emit light in the first aspect to emit light in the first aspect.  According to the above switching action, It is possible to suppress the situation of changing the light-emitting state against the user's intention.  In addition, The lighting system 100 may not have a function of changing the light emitting state of the lighting fixture 20 by a user performing a specific operation on the wall switch 30. Under such circumstances, In order for users to realize that specific operations have been performed appropriately, Instead, the lighting state of the light emitting unit 28 may be changed only when a specific operation has been performed in association with the registration. FIG. 5 is a flowchart of a switching operation in such a case.  As shown in Figure 5, If a specific operation is detected by the detection section 22a (S31), Then, the light emission control unit 22c determines whether it is within a specific period (S32). in particular, The light emission control unit 22c determines that the registration unit 22b has started the measurement for a specific period using the timer unit 24, And whether a specific period expires.  When the light emission control unit 22c determines that a specific operation on the wall switch 30 is detected within a specific period (YES in S32), The light emitting state of the light emitting section 28 is changed (S33). in particular, The light emission control unit 22c causes the light emitting unit 28 (lighting fixture 20) to emit light in the first aspect to emit light in a second aspect different from the first aspect.  on the other hand, When the light emission control unit 22c determines that a specific operation on the wall surface switch 30 is detected outside a specific period (No in S32), The light emitting state of the light emitting section 28 is maintained (S34). in particular, The light emission control unit 22c causes the light emitting unit 28 (lighting fixture 20) to emit light in the first aspect to emit light in the first aspect.  According to the above switching action, The lighting system 100 can make the user recognize that the specific connection with the registration of the information terminal 10 has been performed appropriately by changing the light emitting state of the light emitting unit 28. also, In this switching action, The function of the detection section 22a may be valid only for a specific period. that is, The detection unit 22a does not need to perform specific operation detection frequently.  also, The switching operation shown in Figs. 4 and 5 can also be combined with the following operation example 2.  [Operation Example 2] In Operation Example 1 and the switching operation, The specific operation of the wall switch 30 is a registration requirement. However, a specific operation on the remote control 40 may be set as a registration requirement instead of the wall switch 30. the following, This operation example 2 will be described. FIG. 6 is a flowchart of operation example 2 of the lighting system 100. In addition, In the following description of operation example 2, Explaining the differences from Operation Example 1 as the center, Regarding the matters already described in Operation Example 1, the description will be appropriately omitted.  As shown in Figure 6, The processing from step S11 to step S20 in operation example 2 is the same as that in operation example 1.  In step S20, If the second ID information of the information terminal 10 is temporarily stored in the storage unit 23, Then, the registration unit 22b starts the measurement of a specific period using the timer unit 24.  Here, If the user performs a specific operation on the operation accepting section 41 of the remote control 40 before the expiration of a specific period, The operation acceptance unit 41 accepts a specific operation (S41).  The specific operation is, for example, an operation for reducing the brightness to below 50%, It is not particularly limited. The specific operation may be an operation for changing the light emitting state of the light emitting section 28. In doing so, Including dimming operation and color adjustment operation. also, The dimming operation includes dimming operations that include lighting and extinction. And dimming operation to change the brightness in the lighting state.  In addition, The specific operation may be an operation (a timer setting operation or the like) that does not change the light emitting state of the light emitting section 28. also, The specific operation may be an operation in which two or more buttons in the operation receiving section 41 must be pressed.  If a specific operation is accepted by the operation acceptance unit 41, Then, the control section 42 causes the optical communication section 43 to send a control signal corresponding to a specific operation (S42). The control signal is transmitted through infrared communication.  If the optical communication unit 21b of the lighting fixture 20 receives the control signal (S43), Then, the light emission control section 22c outputs a dimming control signal corresponding to the received control signal to the dimming circuit 27. With this, The light emitting unit 28 emits light in accordance with a specific operation (S44). also, When the specific operation is an operation that does not change the light emitting state of the light emitting portion 28, Then step S44 is omitted.  on the other hand, The detecting section 22a detects whether or not a control signal corresponding to a specific operation is received. that is, The detection section 22a detects a specific operation (S45). then, The registration unit 22b performs registration processing (S24). Hereinafter, it is the same as Operation Example 1.  also, In step S45, The detecting section 22a can detect the light emitting state of the light emitting section 28, And indirectly detect specific operations. in particular, The detection section 22a can detect the dimming control signal output from the light emission control section 22c by replacing the received control signal, The light emitting state of the light emitting portion 28 is detected.  If you do the above, Then, the information terminal 10 and the lighting fixture 20 are paired (associated). then, The user may use the information terminal 10 to control the lighting fixture 20 in addition to the remote controller 40.  In the operation example 2 described above, When the registration unit 22b determines that a specific operation on the remote controller 40 is detected within a specific period after the registration request is obtained, Log into the information terminal 10. With this, Since the specific operation of the remote control 40 becomes a registration requirement for the information terminal 10, Therefore, it is possible to prevent the information terminals of other users located outside the building where the lighting fixture 20 is installed from being accidentally registered.  especially, When the remote control 40 sends a control signal using infrared communication, Since infrared rays are difficult to pass through walls, etc., Therefore, it is difficult for the control signal from the remote control 40 located outside the building to reach the lighting fixture 20. therefore, It is difficult for other users located outside the building provided with the lighting fixture 20 to log in to the information terminal held by the other user, The effect of suppressing the misregistration of the information terminal of other users is high.  [Operation Example 3] In Operation Example 1 and Operation Example 2, When the registration unit 22b determines that a specific operation on the operation device (the wall switch 30 or the remote control 40) is detected after the registration request is obtained, Log into the information terminal 10. however, The registration unit 22b may also determine that it has obtained a registration request after detecting a specific operation on the operation device, Log into the information terminal 10. the following, This operation example 3 will be described. FIG. 7 is a flowchart of operation example 3 of the lighting system 100. In addition, In the description of Operation Example 3 below, The differences from Operation Examples 1 and 2 will be mainly described. The matters already described in the operation examples 1 and 2 will be appropriately omitted.  As shown in Figure 7, In Operation Example 3, The user first performs a specific operation on the remote controller 40. If a specific operation is received by the operation receiving unit 41 (S51), Then, the control section 42 causes the optical communication section 43 to send a control signal corresponding to a specific operation (S52). The control signal is transmitted through infrared communication. also, In Operation Example 3, Instead of the remote control 40, a specific operation can be performed on the wall switch 30.  If the optical communication unit 21b of the lighting fixture 20 receives the control signal (S53), Then, the light emission control section 22c outputs a dimming control signal corresponding to the received control signal to the dimming circuit 27. With this, The light emitting section 28 emits light in accordance with a specific operation (S54). on the other hand, The detection section 22a detects that a control signal corresponding to a specific operation has been received. that is, The detection section 22a detects a specific operation (S55).  So so In Operation Example 3, The user first changes the light emitting state of the lighting fixture 20 by performing a specific operation. In other words, In Operation Example 3, The lighting device 20 emits light in a specific state as a registration requirement (a requirement for accepting a registration request). The specific state may be, for example, a full light state, It can also be off. It can also be a specific state where the dimming level is greater than 0% (off state) and less than 100% (full light on state). The specific aspect is not particularly limited.  also, The specific operation is, for example, an operation for changing the light emitting state of the light emitting section 28, However, it may also be an operation for keeping the light-emitting state of the light-emitting part 28 unchanged. In this case, Step S54 is omitted. In a specific operation, It may include operations for turning on and off the power of the lighting fixture 20 (simple on and off), This operation may not be included.  also, In step S55, The detecting section 22a can detect the light emitting state of the light emitting section 28, And indirectly detect specific operations. in particular, The detection section 22a can detect the dimming control signal output from the light emission control section 22c by replacing the received control signal, The light emitting state of the light emitting portion 28 is detected.  After step S55, The user performs a login operation on the operation receiving section 11 of the information terminal 10, The operation accepting unit 11 accepts a login operation (S12). The control unit 12 causes the radio wave communication unit 13 to multicast the registration request in accordance with the registration operation (S13). The login request is sent without specifying the destination.  The radio wave communication unit 21a of the lighting fixture 20 obtains a registration request from the radio wave communication unit 13 (S14). The registration unit 22b generates the first information including the first ID information (for example, the SSID) of the lighting device 20 stored in the storage unit 23, The radio wave communication unit 21a is caused to transmit the generated first information (S15). The first message is a response to a login request.  also, When the light-emitting section 28 obtains a registration request when the light-emitting section 28 does not emit light in a state corresponding to a specific operation, The registration unit 22b does not cause the radio wave communication unit 21a to transmit the first information. that is, The lighting fixture 20 does not respond to the registration request. at this time, The registration unit 22b may cause the radio wave communication unit 21a to send an error notification instead of the first information. In the error notification to the information terminal 10, For example, it may include indicating that after a specific operation is performed on the remote controller 40, Message that the login operation must be performed again.  If the first information is received by the radio wave communication section 13 of the information terminal 10 (S16), The control unit 12 stores the first ID information of the lighting fixture 20 included in the received first information in the storage unit 14 (S56). Secondly, The control section 12 generates second information including the second ID information of the information terminal 10 stored in the storage section 14, The radio wave communication unit 13 is caused to transmit the generated second information (S18). The second information is transmitted to the lighting fixture 20 based on the first ID information stored in the storage unit 14.  If the second information is received by the radio wave communication section 21a of the lighting fixture 20 (S19), Then, the registration unit 22b performs a registration process (S24). The registration unit 22 b stores, for example, the second ID information in the storage unit 23. With this, The information terminal 10 is registered in the lighting fixture 20. At last, The registration unit 22b causes the radio wave communication unit 21a to send a registration completion notice (S25). The registration completion notification is sent to the information terminal 10 based on the second ID information stored in the storage unit 23, And it is received by the radio wave communication part 13 of the information terminal 10 (S26).  After performing the above actions, The user can use the information terminal 10 to control the lighting fixture 20 in addition to the remote control 40.  In the operation example 3 described above, When the registration unit 22b determines that a registration request has been obtained after detecting a specific operation on the remote controller 40, Log into the information terminal 10. With this, Since the specific operation of the remote control 40 becomes a registration requirement for the information terminal 10, Therefore, an information terminal located outside the building where the lighting fixture 20 is installed can be suppressed from being registered by mistake.  also, It works, After a specific operation is detected in step S55 of Operation Example 3, The registration unit 22b starts the measurement of a specific period using the timer unit 24, When the registration request is obtained within the specific period, the information terminal 10 is registered. that is, There may also be time restrictions related to the acquisition of the registration request.  In this case, When a login request is obtained after a certain period of time has elapsed, The registration unit 22b does not cause the radio wave communication unit 21a to transmit the first information. In other words, When a login request is obtained after a certain period of time has elapsed, The registration unit 22b does not register the information terminal 10.  at this time, The registration unit 22b may cause the radio wave communication unit 21a to send an error notification instead of the first information. An error notification is sent to the information terminal 10. The error notification may include, for example, a message indicating that a specific operation on the remote controller 40 must be performed again.  [Effects, etc.] As explained above, The lighting system 100 includes: Radio wave communication unit 21a, It obtains a registration request for registering the information terminal 10 as a device controlling the lighting fixture 20; Detection section 22a, The detection detects an operation device operated by a user to control the lighting fixture 20, And a specific operation different from the operation device of the detection information terminal 10; And registration section 22b, It is determined that a login request has been obtained, When a specific operation on the operating device is detected, Log into the information terminal 10. The radio wave communication unit 21a is an example of an acquisition unit.  therefore, Since the operation of the operating device becomes a registration requirement, Therefore, information terminals of other users who cannot operate the operating device can be suppressed from being accidentally registered.  also, The registration unit 22b may determine that a registration request has been obtained, When a specific operation on the operating device is detected, Log into the information terminal 10.  With this, Since the operating device becomes a registration requirement after the registration request is obtained, Therefore, it is possible to suppress the accidental registration of information terminals of other users who cannot operate the operating device.  also, When the registration unit 22b determines that a specific operation on the operating device is detected within a specific period after determining that the registration request has been obtained, Log into the information terminal 10.  With this, Due to the time restrictions set for specific operations, Therefore, information terminals of other users can be prevented from being accidentally registered.  also, The lighting system 100 may further include a light emission control unit 22c, When it is determined that a specific operation on the operating device is detected, The lighting fixture 20 emitting light in the first aspect is caused to emit light in a second aspect which is different from the first aspect.  With this, The user can change the light emitting state of the lighting fixture 20 (light emitting section 28) by a specific operation.  also, The lighting system 100 may further include a light emission control unit 22c, It switches whether to change the light emitting state of the lighting fixture 20 according to whether a specific operation on the operating device is detected within a specific period.  With this, The lighting system 100 may be associated with a login according to a specific operation, Whether to change the light emission state of the lighting fixture 20 is switched.  also, When the light emission control unit 22c determines that a specific operation on the operation device is detected outside a specific period, The lighting device emitting light in the first aspect is caused to emit light in a second aspect which is different from the first aspect. When the light emission control unit 22c determines that a specific operation on the operation device is detected within a specific period, The lighting fixture 20 emitting light in the first aspect is caused to emit light in the first aspect.  With this, Due to the specific operations performed in connection with the login, Without changing the lighting state of the lighting fixture 20 (light emitting section 28), Therefore, it is possible to suppress the situation that the light-emitting state is changed against the user's intention.  also, When the light emission control unit 22c determines that a specific operation on the operation device is detected within a specific period, The lighting device emitting light in the first aspect is caused to emit light in a second aspect which is different from the first aspect. When the light emission control unit 22c determines that a specific operation on the operation device is detected outside a specific period, The lighting fixture 20 emitting light in the first aspect described above is caused to emit light in the first aspect as it is.  With this, The lighting system 100 may allow the user to recognize that the specific operation has been appropriately performed in association with the registration of the information terminal 10 according to the change of the light emitting state of the light emitting unit 28.  also, When the registration unit 22b determines that a registration request is obtained after detecting a specific operation on the operation device, Log into the information terminal 10.  With this, Obtaining a registration request after operating the operating device becomes a registration requirement, Therefore, information terminals of other users who cannot operate the operating device can be suppressed from being accidentally registered.  also, The operating device may be a wall switch 30 that turns on or off the power supply to the lighting fixture 20 according to a user's operation.  With this, Since the operation of the wall switch 30 becomes a registration requirement, Therefore, information terminals of other users who cannot operate the wall switch 30 can be suppressed from being accidentally registered.  also, The operation device may be a remote controller that transmits a control signal to the lighting fixture 20 through infrared communication according to a user's operation.  With this, Since the operation of the remote control 40 becomes a registration requirement, Therefore, information terminals of other users who cannot operate the remote control 40 can be suppressed from being accidentally registered.  <Other Embodiments> The lighting system of the embodiment has been described above. However, the present invention is not limited to the above embodiments.  In the above embodiment, Lighting equipment includes acquisition section, Detection department, And registration department, However, some or all of these constituent elements may be provided by other devices. E.g, When the lighting system includes a lighting control device (relay device) between the information terminal and lighting equipment, The lighting control device may have: Acquisition department, Detection department, And part of the registration department.  also, In the above embodiment, The description is that the operating device is a wall switch or a remote control. However, the operation device may be other devices. E.g, The operating device may also be a registered information terminal different from the information terminal to be registered in the next step.  also, Registration of a plurality of lighting fixtures in one information terminal can be performed in parallel. E.g, By using a plurality of lighting fixtures to receive a login request sent from an information terminal multicast, And the plurality of lighting appliances respectively respond to the received login request, In addition, registration of a plurality of lighting fixtures by one information terminal can be performed in parallel.  E.g, In the above embodiment, In the light emitting section, an LED element (LED) is used as the light emitting element. however, In the light emitting section, As the light emitting element, for example, a semiconductor light emitting element such as a semiconductor laser, Organic EL (Electro Luminescence, Electroluminescence), solid-state light-emitting elements such as inorganic EL, You can also use fluorescent lights.  also, In the above embodiment, The control unit can be composed of dedicated hardware, Or it can be realized by executing software programs suitable for each component. Each component can be realized by a program execution unit such as a CPU or a processor reading out and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.  also, Each constituent element may be a circuit (or an integrated circuit). These circuits can constitute a whole circuit, Can also be different circuits. also, These circuits can be both general-purpose circuits, It can also be a dedicated circuit.  also, The whole or specific aspects of the present invention can be systematic, Device, method, Integrated circuit, It can be realized by a computer program or a computer-readable recording medium such as a CD-ROM. also, You can also system, Device, method, Integrated circuit, It can be realized by any combination of computer programs and recording media. E.g, The present invention can be implemented in a lighting appliance. also, The present invention can also be implemented by a login method of an information terminal.  also, The sequence of the plurality of processes in the flowchart and the flowchart described in the above embodiment is an example. The order of multiple processing can be changed, The plurality of processes may be performed in parallel.  In addition, For each embodiment, a form obtained by applying various changes familiar to those skilled in the art, Or a form realized by arbitrarily combining the constituent elements and functions of each embodiment without departing from the spirit of the present invention, Also included in the present invention.

10‧‧‧ Information Terminal

11‧‧‧Operation Acceptance Department

12‧‧‧Control Department

13‧‧‧ Radio Communication Department

14‧‧‧Memory Department

20‧‧‧Lighting appliances

21a‧‧‧ Radio communication department (acquisition department)

21b‧‧‧Optical Communications Department

22‧‧‧Control Department

22a‧‧‧Testing Department

22b‧‧‧Registration Department

22c‧‧‧Lighting Control Department

23‧‧‧Memory Department

24‧‧‧ Timing Department

25‧‧‧Power Conversion Department

26‧‧‧Power Storage Department

27‧‧‧ Dimming circuit

28‧‧‧Lighting Department

30‧‧‧Wall switch (operating device)

31‧‧‧Operation Acceptance Department

40‧‧‧Remote control (operation device)

41‧‧‧Operation Acceptance Department

42‧‧‧Control Department

43‧‧‧Optical Communications Department

44‧‧‧Memory Department

50‧‧‧ Power System

100‧‧‧lighting system

S11 ~ S27‧‧‧ steps

S31 ~ S34‧‧‧ steps

S41‧‧‧step

S42‧‧‧step

S51 ~ S55‧‧‧step

S56‧‧‧step

FIG. 1 is an external view of a device constituting the lighting system of the embodiment. FIG. 2 is a block diagram showing a functional configuration of the lighting system of the embodiment. FIG. 3 is a flowchart of operation example 1 of the lighting system according to the embodiment. FIG. 4 is a flowchart of the first switching operation. Fig. 5 is a flowchart of the second switching operation. FIG. 6 is a flowchart of operation example 2 of the lighting system according to the embodiment. Fig. 7 is a flowchart of operation example 3 of the lighting system according to the embodiment.

Claims (10)

A lighting system comprising: an acquisition unit that acquires a registration request for registering an information terminal as a device that controls a lighting fixture; and a detection unit that detects an operation performed by a user to control the lighting fixture by the user A specific operation of the device and an operation device different from the aforementioned information terminal; and a registration unit that logs in to the aforementioned information terminal when it determines that the aforementioned registration request has been obtained and detects the aforementioned specific operation on the aforementioned operating device. For example, the lighting system of claim 1, wherein the registration unit logs in the information terminal when it is determined that the specific operation on the operation device is detected after the registration request is obtained. For example, the lighting system of claim 1, wherein the registration unit logs in the information terminal when it is determined that the specific operation on the operation device is detected within a specific period after the registration request is obtained. For example, the lighting system of claim 1 further includes a light emission control unit that, when it is determined that the specific operation on the operation device has been detected, causes the lighting fixture that emits light in the first aspect to communicate with the first The second aspect, which is different in the first aspect, emits light. For example, the lighting system of claim 3 further includes a light emission control unit that switches whether or not to change the light emission state of the lighting fixture according to whether the specific operation of the operation device is detected within the specific period. The lighting system according to claim 5, wherein when the light-emitting control unit determines that the specific operation on the operation device is detected outside the specific period, the lighting device emitting light in the first state is caused to be in accordance with the first condition. When the second aspect in which the aspect is different emits light, when it is determined that the specific operation on the operation device is detected within the specific period, the lighting fixture that emits light in the first aspect is maintained in the first state as it is. Kind of glow. The lighting system according to claim 5, wherein when the light-emitting control unit determines that the specific operation on the operation device is detected within the specific period, the lighting device emitting light in the first state is caused to match the first lighting device. When the second aspect with a different aspect emits light, when it is determined that the specific operation on the operation device is detected outside the specific period, the lighting fixture that emits light in the first aspect is maintained in the first state as it is. Kind of glow. For example, the lighting system of claim 1, wherein the registration unit logs in the information terminal when it is determined that the registration request is obtained after detecting the specific operation on the operation device. The lighting system according to any one of claims 1 to 8, wherein the aforementioned operating device is a wall switch that turns on or off the power supply to the aforementioned lighting appliance in accordance with an operation by the aforementioned user. The lighting system according to any one of claims 1 to 8, wherein the operation device is a remote controller that sends a control signal to the lighting fixture through infrared communication according to an operation of the user.