JP2023170788A - Lighting apparatus, lighting system and control method - Google Patents

Abstract

To provide a lighting apparatus, and the like capable of performing various lighting control.SOLUTION: A lighting apparatus 1 is a lighting apparatus that is operated by an operation device. The lighting apparatus 1 includes: a first communication unit 11 and a second communication unit 21 each receives operation information from the operation device; a light source unit 30 capable of changing at least one of brightness and a light color; a storage unit 23 that stores multiple basic patterns for changing at least one of the brightness and the light color; and a second control unit 22 that is configured so as to control the light source unit 30 to perform lighting operation using a combination pattern that combines two or more basic patterns among the multiple basic patterns on the basis of the operation information.SELECTED DRAWING: Figure 1

Description

The present invention relates to a lighting fixture, a lighting system, and a control method.

Patent Document 1 discloses a lighting control device that can easily set and change the lighting mode of light emitted by a lighting device.

JP 2019-129116 Publication

The present invention provides a lighting fixture, a lighting system, and a control method that can perform various lighting controls.

A lighting device according to one aspect of the present invention is a lighting device that is operated by an operating device, and includes a receiving unit that receives operation information from the operating device, and a light source that can change at least one of brightness and light color. a storage unit that stores a plurality of basic patterns for changing at least one of the brightness and the light color; and a storage unit that stores two or more basic patterns among the plurality of basic patterns based on the operation information. A control unit that controls the light source unit to perform illumination operations in a combination pattern.

A lighting system according to one aspect of the present invention includes the lighting fixture described above and an operating device that controls the operation of the lighting fixture.

A control method according to one aspect of the present invention is a control method for controlling a lighting fixture using an operating device, the method receiving operating information from the operating device, and storing the operating information in a storage unit of the lighting device based on the operating information. The light source section of the lighting fixture is controlled to perform lighting operation using a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns.

According to one aspect of the present invention, it is possible to realize a lighting fixture or the like that can perform various lighting controls.

FIG. 1 is a block diagram showing the overall configuration of a lighting system including a lighting fixture according to an embodiment. FIG. 2A is a diagram showing a first example of the basic pattern. FIG. 2B is a diagram showing a second example of the basic pattern. FIG. 2C is a diagram showing a third example of the basic pattern. FIG. 3 is a flowchart illustrating an example of the operation of the lighting fixture according to the embodiment. FIG. 4 is a diagram illustrating an example of operation information according to the embodiment. FIG. 5 is a diagram showing an example of a combination pattern according to the embodiment. FIG. 6A is a flowchart illustrating a first example of a restart operation after the lighting operation of the lighting fixture according to the embodiment has stopped. FIG. 6B is a flowchart illustrating a second example of a restart operation after the lighting operation of the lighting fixture according to the embodiment has stopped. FIG. 6C is a flowchart illustrating a third example of a restart operation after the lighting operation of the lighting fixture according to the embodiment has stopped.

Hereinafter, embodiments will be specifically described with reference to the drawings.

Note that the embodiments described below are all inclusive or specific examples. The numerical values, shapes, components, arrangement positions and connection forms of the components, steps, order of steps, etc. shown in the following embodiments are merely examples, and do not limit the present invention. Further, among the constituent elements in the following embodiments, constituent elements that are not described in the independent claims will be described as arbitrary constituent elements.

Furthermore, each figure is a schematic diagram and is not necessarily strictly illustrated. Therefore, for example, the scales and the like in each figure do not necessarily match. Further, in each figure, substantially the same configurations are denoted by the same reference numerals, and overlapping explanations will be omitted or simplified.

In addition, in this specification, terms indicating relationships between elements such as coincidence, and numerical values and numerical ranges are not expressions that express only strict meanings, but are used to indicate substantially equivalent ranges, such as several percentage points (e.g. , about 10%).

(Embodiment)
[1. Lighting system configuration]
First, the configuration of the lighting system according to the present embodiment will be described with reference to FIG. 1. FIG. 1 is a block diagram showing the overall configuration of a lighting system 100 including a lighting fixture 1 according to the present embodiment.

As shown in FIG. 1, the lighting system 100 includes a lighting fixture 1, a remote controller (hereinafter also referred to as "remote control") 2, and an information terminal 4. The lighting fixture 1 is configured to perform wireless communication with a server device 3 and an information terminal 4 via a network N1 such as the Internet, for example. Furthermore, the lighting fixture 1 is configured to perform short-range wireless communication with the remote controller 2. The remote control 2 and the information terminal 4 correspond to operating devices. The operating device is a device that performs wireless communication with the lighting device 1 and controls the operation of the lighting device 1 (that is, operates the lighting device 1).

Note that the operating devices included in the lighting system 100 may include both the remote control 2 and the information terminal 4, or may include only one of them. Further, in this embodiment, the server device 3 is not included in the components of the lighting system 100, but may be included in the components of the lighting system 100.

The remote control 2 can remotely control the lighting equipment 1 when the distance between the lighting equipment 1 and the lighting equipment 1 is relatively short, for example, when the remote controller 2 is located inside the space where the lighting equipment 1 is installed. If the distance from the lighting fixture 1 is relatively long, such as when the lighting fixture 1 is located outside the space, the lighting fixture 1 cannot be remotely controlled. The remote control 2 is a device that performs wireless communication with the lighting fixture 1 by, for example, infrared communication, which is an example of short-range wireless communication. Note that the remote control 2 may include a device that performs wireless communication (short-range wireless communication) with the lighting fixture 1 according to a short-range wireless communication standard such as Bluetooth (registered trademark). Further, the remote control 2 is, for example, a dedicated controller corresponding to the lighting fixture 1, and may be a device that can be obtained as an accessory when the lighting fixture 1 is purchased.

The remote controller 2 receives operations related to controlling the lighting device 1 from the user using buttons or the like, but may also have a configuration that receives operations related to controlling the lighting device 1 from the user using voice, gestures, or the like.

The information terminal 4 is a device that can communicate with the lighting fixture 1 via the network N1 and can remotely control the lighting fixture 1 regardless of whether it is inside or outside the space where the lighting fixture 1 is installed. . The information terminal 4 is a device that performs wireless communication with the lighting fixture 1 via the network N1 and the server device 3, for example, in accordance with a wireless communication standard such as Wi-Fi (registered trademark). The information terminal 4 is a portable terminal such as a smartphone or a tablet terminal, and functions as an operating device by executing an installed application for remote control of the lighting fixture 1. Note that the information terminal 4 may be, for example, a dedicated controller corresponding to the lighting fixture 1, or may be a control device for inspecting the lighting fixture 1 during manufacturing.

By inputting an operation to the operating device, the user can perform remote operations such as starting and ending the operation of the lighting fixture 1 and switching the operation mode. The user can turn on, dim, or turn off the lighting fixture 1, switch the lighting mode of the lighting fixture, etc. by inputting an operation to the operating device. Further, the user can control at least one of the sound output section 40 and the status display section 50 included in the lighting fixture 1 by performing an operation input on the operation device.

The server device 3 is a computer that provides the target lighting fixture 1 with control data (control commands) in accordance with operation inputs input using an operation device. Specifically, when the server device 3 receives operation information (operation signal) from an operation device (here, the information terminal 4) via the network N1, the server device 3 transmits control data according to a command included in the received operation information. is transmitted via the network N1 to the lighting fixture 1 specified by the address included in the operation information. The server device 3 may be realized, for example, by an edge server installed in the facility where the lighting fixture 1 is installed, or by a cloud server installed outside the facility. In addition, below, the control data which the server apparatus 3 transmits to the lighting fixture 1 via the network N1 is also described as operation information.

The lighting fixture 1 is a device controlled by an operating device. The lighting fixture 1 includes an IoT (Internet of Things) module 10, a lighting control section 20, a light source section 30, a sound output section 40, and a status display section 50. Note that the lighting fixture 1 does not need to include at least one of the sound output section 40 and the status display section 50.

The IoT module 10 is a communication device (communication module) that allows the lighting fixture 1 to wirelessly communicate with the server device 3 and the information terminal 4 via the network N1. The IoT module 10 includes a first communication section 11 and a first control section 12. The IoT module 10 is composed of a microcontroller (that is, an IC (Integrated Circuit) equipped with a processor and a memory), and each function of the IoT module 10 is realized by the processor executing a computer program stored in the memory. be done.

The first communication unit 11 is a communication interface for performing wireless communication with the information terminal 4 (for example, the server device 3 and the information terminal 4), which is one of the operating devices, via the network N1. The first communication unit 11 is configured to be able to communicate with an operating device (information terminal 4) located outside the space where the lighting fixture 1 is installed. The first communication unit 11 is an example of a receiving unit.

The first communication unit 11 receives operation information from the information terminal 4. The operation information includes designation information that designates two or more basic patterns and frequency information that indicates the number of times each of the two or more basic patterns is repeated, which will be described later. Further, the operation information may include control information for controlling at least one of the sound output section 40 and the status display section 50. The control information for controlling the sound output unit 40 includes information indicating at least one of a notification sound pattern, volume, presence or absence of notification sound, and the number of repetitions of the notification sound. The control information for controlling includes information indicating at least one of the status display pattern, the brightness of the status display lamp, the display color, the presence or absence of status display, and the number of repetitions of the status display pattern.

The first control unit 12 controls communication between the operating device (information terminal 4) and the lighting fixture 1. Further, the first control unit 12 is communicably connected to the lighting control unit 20 via a UART (Universal Asynchronous Receiver/Transmitter) (not shown). The first control unit 12 outputs the operation information from the information terminal 4 acquired via the network N1 to the lighting control unit 20. Further, the first control unit 12 may have a timer function.

The lighting control unit 20 is a control device for controlling the light source unit 30 included in the lighting fixture 1 based on operation information. In this embodiment, the illumination control section 20 controls the sound output section 40 and the status display section 50 in addition to the light source section 30. The lighting control section 20 includes a second communication section 21, a second control section 22, and a storage section 23. The lighting control section 20 is composed of a microcontroller (that is, an IC equipped with a processor and a memory), and each function of the lighting control section 20 is realized by the processor executing a computer program stored in the memory. .

The second communication unit 21 is a communication interface for performing short-range wireless communication (for example, infrared communication) with the remote control 2, which is one of the operating devices. The second communication unit 21 is configured to be able to communicate with an operating device (remote controller 2) located inside the space in which the lighting fixture 1 is installed. The second communication unit 21 acquires operation information from the remote controller 2 without going through the IoT module 10. The second communication unit 21 is an example of a receiving unit.

When the first communication unit 11 or the second communication unit 21 receives operation information (control command) corresponding to the operation input inputted by the operation device, the second control unit 22 controls the light source unit 30 according to the operation information. . The second control unit 22 controls the light source unit 30 to perform an illumination operation based on the operation information, for example, in a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns. For example, the second control unit 22 controls the light source unit 30 to perform the lighting operation in a combination pattern based on the designation information and the number of times information included in the operation information. The second control unit 22 is an example of a control unit.

The storage unit 23 stores various information for the lighting fixture 1 to operate. The storage unit 23 stores information for controlling the light source unit 30, the sound output unit 40, and the status display unit 50. The storage unit 23 stores a plurality of basic patterns that change (change over time) at least one of the brightness and light color of the light source unit 30. For example, the storage unit 23 may store, as a plurality of basic patterns, a plurality of fluctuation patterns in which at least one of brightness and light color changes continuously within a predetermined time, or a plurality of fluctuation patterns in which at least one of brightness and light color changes continuously within a predetermined time. At least one pattern may be stored that changes discretely within a predetermined period of time. Below, an example in which the storage unit 23 stores at least a plurality of fluctuation patterns will be mainly described.

A plurality of basic patterns stored in the storage unit 23 will be explained with reference to FIGS. 2A to 2C. FIG. 2A is a diagram showing a first example of the basic pattern. FIG. 2B is a diagram showing a second example of the basic pattern. FIG. 2C is a diagram showing a third example of the basic pattern. 2A to 2C are diagrams showing examples of brightness fluctuation patterns that are examples of basic patterns.

As shown in FIGS. 2A to 2C, the storage unit 23 stores a plurality of different basic fluctuation patterns A to C. The number of fluctuation basic patterns stored in the storage unit 23 is not particularly limited, and may be two or more. One of the fluctuation basic patterns A to C is an example of the first basic pattern, and the other one is an example of the second basic pattern.

Referring again to FIG. 1, the light source section 30 is realized by, for example, an LED (Light Emitting Diode) element, but it can also be realized by other light emitting elements such as a semiconductor laser, an organic EL (Electro-Luminescence) element, or an inorganic EL element. may be done. The light source section 30 can change at least one of brightness and light color. The light source section 30 is controlled by the illumination control section 20, so that the light emission mode is controlled.

The sound output unit 40 is realized by, for example, a speaker, and outputs a sound in response to operations from the remote controller 2 and the information terminal 4, a notification sound to notify of an abnormality, and the like. The sound output section 40 is controlled by the illumination control section 20 to control the sound output mode.

The status display unit 50 is realized by, for example, an LED element (an example of a status indicator light). The LED element may be, for example, an RGB type LED element having a blue LED element, a red LED element, and a green LED element. Further, the status display section 50 may be configured to be able to display, for example, numbers, characters, graphics, and the like. The status display unit 50 may be realized by, for example, a 7-segment LED. The status display unit 50, unlike the light source unit 30, displays (presents) various statuses of the lighting fixture 1 using light emission modes. The display mode of the status display section 50 is controlled by being controlled by the illumination control section 20.

[2. Operation of lighting equipment]
Next, the operation of the lighting fixture 1 configured as described above will be explained with reference to FIGS. 3 to 6C. FIG. 3 is a flowchart showing an example of the operation (control method) of the lighting fixture 1 according to the present embodiment. Note that a flowchart for acquiring operation information from the information terminal 4 will be described below.

As shown in FIG. 3, the first control unit 12 determines whether operation information has been acquired from the information terminal 4 via the first communication unit 11 (S10). In the case of Yes in step S10, the first control unit 12 proceeds to step S20, and in the case of No in step S10, the process returns to step S10.

FIG. 4 is a diagram showing an example of operation information according to this embodiment.

As shown in FIG. 4, the operation information includes the order, designation information, and the number of repetitions. The order indicates the control order (execution order) of the basic fluctuation pattern, the specified information indicates identification information indicating the basic fluctuation pattern to be executed, and the number of repetitions indicates how to repeatedly execute the basic fluctuation pattern specified by the specified information. Indicates the number of times. FIG. 4 shows that after the basic fluctuation pattern A is repeated twice, the basic fluctuation pattern B is repeated twice, and then the basic fluctuation pattern C is repeated twice.

FIG. 5 is a diagram showing an example of a combination pattern according to this embodiment. FIG. 5 shows a combination pattern generated by the operation information shown in FIG. 4. When the second control unit 22 acquires the operation information shown in FIG. 4, it controls the light source unit 30 so that the brightness is as shown in FIG.

As shown in FIG. 5, the combination pattern is determined based on the designation information and the number of times information, and the basic fluctuation pattern A is repeated twice from time t1 to t2, and the basic fluctuation pattern B is repeated twice from time t2 to t3. The basic fluctuation pattern C is repeated twice after time t3. For example, the second control unit 22 combines the basic fluctuation patterns A and B so that the brightness (or at least one of brightness and light color) of the basic fluctuation patterns A and B is continuous, and Basic fluctuation patterns B and C are combined so that the brightness (or at least one of brightness and light color) of C is continuous.

Note that at least one of the brightness and light color of fluctuation basic patterns A and B is continuous here, and at least one of the brightness and light color at the end of fluctuation basic pattern A and at the start of fluctuation basic pattern B. This means that at least one of the brightness and light color of the light matches or is within a predetermined value.

Note that the following two methods are exemplified as methods of combining basic patterns.

For example, as a first method, the second control unit 22 cuts a part of at least one of the first basic pattern and the second basic pattern so that at least one of brightness and light color is continuous; The first basic pattern and the second basic pattern may be combined using at least one of the cut first basic pattern and second basic pattern. For example, the second control unit 22 cuts a part of the latter half (for example, around time t2) of the fluctuation basic pattern A and connects it to the beginning (head) of the fluctuation basic pattern B. The two basic patterns may be combined. In addition, the second control unit 22 can, for example, cut a part of the first half (for example, around time t2) of the basic fluctuation pattern B and connect it to the end (rear end) of the basic fluctuation pattern A, so that the first basic pattern and the second basic pattern may be combined. Further, the second control unit 22 may perform both of these operations, for example.

Further, for example, as a second method, the second control unit 22 generates a connecting pattern that connects the first basic pattern and the second basic pattern, and connects the first basic pattern and the second basic pattern via the generated connecting pattern. You can also combine basic patterns. When combining the second basic pattern after the first basic pattern, the second control unit 22 controls the initial brightness and light color of the second basic pattern from at least one of the final brightness and light color of the first basic pattern. Generating a connecting pattern that gradually or stepwise changes to the at least one color, connecting the end of the first basic pattern to the beginning of the connecting pattern, and connecting the end of the connecting pattern to the beginning of the second basic pattern. Therefore, the first basic pattern and the second basic pattern may be combined. Further, the connection pattern may include the brightness once becoming darker (for example, turning off).

In addition, the end of the first basic pattern means the end of the first basic pattern that is repeated at the end when the first basic pattern is repeated multiple times, and the beginning of the second basic pattern means the end of the first basic pattern that is repeated multiple times. When repeated multiple times, it means the beginning of the first second basic pattern.

Note that the second control unit 22 may combine the first basic pattern and the second basic pattern by performing both the first method and the second method.

The following steps will be described assuming that the operation information shown in FIG. 4 is acquired in step S10.

Referring again to FIG. 3, the first control unit 12 outputs the type and number of repetitions of the first basic fluctuation pattern to the second control unit 22 (S20). The first control unit 12 outputs “fluctuation basic pattern A” whose order is “1” as the first type of fluctuation basic pattern to the second control unit 22, and as the number of repetitions of the fluctuation basic pattern. “2”, which is the number of repetitions corresponding to “fluctuation basic pattern A”, is output to the second control unit 22. The first control unit 12 also outputs information indicating the start timing of lighting control based on the first basic fluctuation pattern to the second control unit 22. The information indicating the start timing may be information indicating how many seconds later to start, or may be information indicating the start time. Information indicating the start timing may be included in the operation information or may be set in advance.

The second control unit 22 starts illumination control based on the type of fluctuation basic pattern and the number of repetitions acquired from the first control unit 12, based on information indicating the start timing. In the present embodiment, the second control unit 22 starts illumination control based on the "fluctuation basic pattern A" from time t1 shown in FIG. 5, for example.

Next, the first control unit 12 determines whether or not the fluctuation basic pattern ends (S30). The first control unit 12 may make the determination in step S30 depending on whether the current time is close to the time t2 at which the "fluctuation basic pattern A" ends. In the case of Yes in step S30, the first control unit 12 proceeds to step S40, and in the case of No in step S30, the process returns to step S30.

Next, the first control unit 12 determines whether there is the next basic fluctuation pattern based on the operation information (S40). The first control unit 12 makes a determination in step S40 depending on whether or not there is a fluctuation basic pattern that has not been implemented in the operation information. Here, since fluctuation basic patterns B and C have not been implemented, the first control unit 12 determines Yes in step S40. In the case of Yes in step S40, the first control unit 12 proceeds to step S50, and in the case of No in step S40, the process ends.

Next, the first control unit 12 outputs the type and number of repetitions of the next basic fluctuation pattern to the second control unit 22 (S50). In the example of FIG. 4, the first control unit 12 outputs “fluctuation basic pattern B” whose order is “2” as the next type of fluctuation basic pattern to the second control unit 22, and As the number of repetitions, "2", which is the number of repetitions corresponding to "fluctuation basic pattern B", is output to the second control unit 22. The first control unit 12 outputs the type of basic pattern “Fluctuation basic pattern B” and the number of repetitions “2” to the second control unit 22 before time t2.

After repeating the basic fluctuation pattern A twice, the second control unit 22 subsequently starts control using the basic fluctuation pattern B. Note that the second control unit 22 is not limited to switching the type of fluctuation basic pattern at time t2. When switching from the basic fluctuation pattern A to the basic fluctuation pattern B, the second control unit 22 may switch from the basic fluctuation pattern A to the basic fluctuation pattern B before time t2. For example, the second control unit 22 controls the second control unit 22 so that at the second repetition of the fluctuation basic pattern A, at least one of the brightness and the light color matches at least one of the brightness and the light color at the start of the fluctuation basic pattern B or a predetermined value. The type of fluctuation basic pattern may be switched when the value is within the value. Further, when switching from the basic fluctuation pattern A to the basic fluctuation pattern B before time t2, the second control unit 22 may output information indicating the switching time to the first control unit 12.

Then, the first control unit 12 returns to step S30 and continues the processing of steps S30 to S50 until all illumination controls of the fluctuation basic pattern included in the operation information are executed.

Note that the first control unit 12 is not limited to outputting the control information to the second control unit 22 for each fluctuation basic pattern, but outputs control information for two or more or all fluctuation basic patterns among the plurality of fluctuation basic patterns included in the operation information. Information regarding the pattern may be output to the second control section 22. The first control unit 12 may transfer the operation information to the second control unit 22, for example.

Next, control at the time of restarting the lighting operation after the lighting operation is stopped during execution of the lighting operation based on the combination pattern will be described with reference to FIGS. 6A to 6C. FIG. 6A is a flowchart showing a first example of a restart operation (control method) after the lighting operation of the lighting fixture 1 according to the present embodiment is stopped. FIG. 6A shows a restart operation when the lighting fixture 1 does not store a combination pattern. Note that, as a factor for stopping the lighting operation, for example, a power outage or the like is exemplified.

As shown in FIG. 6A, the second control unit 22 determines whether the lighting operation has stopped while the lighting operation based on the combination pattern is being executed. If it is determined that the lighting operation has stopped while the lighting operation based on the combination pattern is being executed (Yes in S110), the second control unit 22 executes a lighting operation different from the combination pattern when restarting the lighting operation (S120). For example, the second control unit 22 controls the light source unit 30 with normal lighting. The normal lighting is exemplified by full lighting in which the brightness of the light source section 30 is MAX (the dimming rate is 100%), but is not limited thereto.

In this case, the second control unit 22 may cause the sound output unit 40 to output a notification sound indicating that the lighting operation according to the combination pattern cannot be continued, or may cause the sound output unit 40 to output a notification sound indicating that the lighting operation according to the combination pattern cannot be continued. The status display unit 50 may be made to display a status indicating that there is no such status.

FIG. 6B is a flowchart showing a second example of a restart operation (control method) after the lighting operation of the lighting fixture 1 according to the present embodiment has stopped. FIG. 6B shows a restart operation when the lighting fixture 1 stores the combination pattern but does not store the extent to which the combination pattern has been executed. Note that in this case, the second control unit 22 may store a combination pattern based on the operation information in the storage unit 23, for example.

As shown in FIG. 6B, if the illumination operation is stopped while the illumination operation based on the combination pattern is being executed (Yes in S110), the second control unit 22 performs the illumination operation from the beginning of the combination pattern when restarting the illumination operation. (S130). For example, even if the lighting operation stops at any time between time t1 and t3 in the combination pattern shown in FIG. Resume lighting operation.

In this case, the second control unit 22 may cause the sound output unit 40 to output a notification sound indicating that the lighting operation is restarted from the beginning of the combination pattern, or restart the lighting operation from the beginning of the combination pattern. The status display section 50 may be made to display a status indicating that the current status is being changed.

FIG. 6C is a flowchart showing a third example of the restart operation (control method) after the lighting operation of the lighting fixture 1 according to the present embodiment has stopped. FIG. 6C shows a restart operation when the lighting fixture 1 remembers the combination pattern and the extent to which the combination pattern has been executed. The second control unit 22 may, for example, store in the storage unit 23 a combination pattern based on the operation information and information indicating to what extent the operation has been executed.

As shown in FIG. 6C, when the illumination operation is stopped while the illumination operation based on the combination pattern is being executed (Yes at S110), the second control unit 22 stores the position at which the illumination operation in the combination pattern is stopped in the storage unit 23. Then, when restarting the illumination operation, the relevant position is read out, and the illumination operation in the combination pattern is restarted from the position where the illumination operation in the combination pattern stopped (S140).

In this case, the second control unit 22 may cause the sound emitting unit 40 to output a sound indicating that the lighting operation is restarting from the continuation of the combination pattern, or may restart the lighting operation from the continuation of the combination pattern. The status display unit 50 may be made to display a status indicating that the status is being changed.

Note that, as shown in FIGS. 6A to 6C, if the second control unit 22 determines that the illumination operation has not stopped (No in S110), the process returns to step S110 and the illumination operation is continued.

[3. Effects, etc.]
As described above, the lighting fixture 1 according to the present embodiment is a lighting fixture that is operated by an operating device, and includes a first communication unit 11 and a second communication unit 21 (receiving unit) that receive operation information from the operating device. an example), a light source section 30 that can change at least one of brightness and light color, a storage section 23 that stores a plurality of basic patterns that change at least one of brightness and light color, and a light source section 30 that can change at least one of brightness and light color; and a second control unit 22 (an example of a control unit) that controls the light source unit 30 to perform an illumination operation in a combination pattern that is a combination of two or more basic patterns among a plurality of basic patterns.

Thereby, even if the lighting fixture 1 stores only a simple basic pattern, it can illuminate with a complex lighting pattern based on operation information from the operating device. Therefore, the lighting fixture 1 can perform various lighting controls. For example, the lighting fixture 1 can perform various lighting controls without increasing the storage capacity of the storage unit 23 included in the lighting fixture 1.

Further, the plurality of basic patterns include a fluctuation pattern in which at least one of brightness and light color changes within a predetermined time.

Thereby, even if the lighting fixture 1 stores only a simple basic fluctuation pattern, it can illuminate with a complex fluctuation pattern based on operation information from the operating device. Therefore, the lighting fixture 1 can perform even more diverse lighting control.

The two or more basic patterns include a first basic pattern and a second basic pattern, and the second control unit 22 controls the first basic pattern and the second basic pattern so that at least one of brightness and light color is continuous. The first basic pattern and the second basic pattern are combined as follows. For example, the second control unit 22 cuts a part of at least one of the first basic pattern and the second basic pattern so that at least one of brightness and light color is continuous, and The first basic pattern and the second basic pattern may be combined using at least one of the pattern and the second basic pattern. For example, when combining the second basic pattern after the first basic pattern, the second control unit 22 generates a connecting pattern that connects the end of the first basic pattern and the beginning of the second basic pattern, and The first basic pattern and the second basic pattern may be combined via a connecting pattern.

Thereby, the lighting fixture 1 can suppress the user from feeling uncomfortable when transitioning from one of the first basic pattern and the second basic pattern to the other.

Further, the operation information includes designation information that designates two or more basic patterns, and number information that indicates the number of times each of the two or more basic patterns is repeated, and the combination pattern is determined based on the designation information and the number of times information. be done.

Thereby, the lighting fixture 1 can illuminate with a complicated lighting pattern just by acquiring the designation information and the number of times information.

Further, the second control unit 22 may perform a lighting operation different from the combination pattern when restarting the lighting operation after the lighting operation is stopped while performing the lighting operation based on the combination pattern.

Thereby, the lighting fixture 1 performs lighting different from the combination pattern (for example, normal lighting) when restarting the lighting operation, so that it is possible to notify the user that the lighting operation in the combination pattern has been interrupted.

Further, the second control unit 22 may perform the illumination operation from the beginning of the combination pattern when restarting the illumination operation after the illumination operation is stopped while performing the illumination operation based on the combination pattern.

Thereby, the lighting fixture 1 restarts the lighting operation from the beginning of the combination pattern when restarting the lighting operation, so that the lighting operation according to the combination pattern can be continued.

In addition, when the lighting operation is stopped while executing the lighting operation based on the combination pattern, the second control unit 22 stores the position where the lighting operation stopped in the combination pattern, and stores the position where the lighting operation stopped when the lighting operation is resumed. The illumination operation in the combination pattern may be restarted from.

As a result, when the lighting fixture 1 restarts the lighting operation, it restarts the lighting operation from the position where the lighting operation of the combination pattern stopped. Lighting operation can continue.

Further, as described above, the lighting system 100 according to the present embodiment includes the lighting fixture 1 described above and an operating device that controls the operation of the lighting fixture 1. Further, as described above, the lighting method according to the present embodiment is a control method for controlling the lighting fixture 1 using an operating device, in which operating information is received from the operating device (Yes in S10), and based on the operating information. Then, the light source unit 30 of the lighting fixture 1 is controlled to perform a lighting operation using a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns stored in the storage unit 23 of the lighting fixture 1 (S20 to S50).

Thereby, the same effects as the lighting fixture 1 described above are achieved.

(Other embodiments)
Although the lighting fixtures and the like according to one or more aspects have been described above based on the embodiments, the present invention is not limited to these embodiments. Unless departing from the spirit of the present invention, the present invention may include various modifications that can be thought of by those skilled in the art to this embodiment, and embodiments constructed by combining components of different embodiments. .

For example, the aspect of the lighting fixture in the above embodiment is not particularly limited, and may be any one of a ceiling light, a downlight, a base light, a spotlight, etc., for example.

Further, in the embodiment described above, an example has been described in which lighting control in a combination pattern is performed using operation information from an information terminal, but lighting control in a combination pattern may be performed using operation information from a remote controller.

Further, in the above embodiment, an example was explained in which the operation information includes designation information and number of times information, but the operation information is not limited to this, and designation information and lighting operation time (control time) for each of two or more basic patterns are described. may also be included. Further, the operation information may include other information that can specify two or more basic patterns instead of the designation information.

Furthermore, in the above embodiments, each component may be configured with dedicated hardware, or may be realized by executing a software program suitable for each component. Each component may be realized by a program execution unit such as a CPU or a processor reading and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.

Further, the order in which the steps in the flowchart are executed is for illustrative purposes to specifically explain the present invention, and may be in an order other than the above. Furthermore, some of the above steps may be executed simultaneously (in parallel) with other steps, or some of the above steps may not be executed.

Furthermore, the division of functional blocks in the block diagram is just an example; multiple functional blocks can be realized as one functional block, one functional block can be divided into multiple functional blocks, or some functions can be moved to other functional blocks. You can. Further, functions of a plurality of functional blocks having similar functions may be processed in parallel or in a time-sharing manner by a single piece of hardware or software.

Further, these general or specific aspects may be realized in a system, a method, an integrated circuit, a computer program, or a non-transitory storage medium such as a computer-readable CD-ROM, and the system, method, integrated circuit , a computer program, or a recording medium. The program may be stored in advance on a recording medium, or may be supplied to the recording medium via a wide area communication network including the Internet.

Furthermore, each of the components described in the above embodiments may be realized as software, or typically, as an LSI, which is an integrated circuit. These may be integrated into one chip individually, or may be integrated into one chip including some or all of them. Although it is referred to as an LSI here, it may also be called an IC, system LSI, super LSI, or ultra LSI depending on the degree of integration. Moreover, the method of circuit integration is not limited to LSI, and may be implemented using a dedicated circuit (a general-purpose circuit that executes a dedicated program) or a general-purpose processor. An FPGA (Field Programmable Gate Array) that can be programmed or a reconfigurable processor that can reconfigure the connections or settings of circuit cells inside the LSI may be used after the LSI is manufactured. Furthermore, if an integrated circuit technology that replaces LSI emerges due to advances in semiconductor technology or other derived technology, that technology may of course be used to integrate the components.

A system LSI is an ultra-multifunctional LSI manufactured by integrating multiple processing units on a single chip, and specifically includes a microprocessor, ROM (Read Only Memory), RAM (Random Access Memory), etc. A computer system that includes: A computer program is stored in the ROM. The system LSI achieves its functions by the microprocessor operating according to a computer program.

Further, one aspect of the present invention may be a computer program that causes a computer to execute each characteristic step included in the lighting equipment control method shown in any one of FIGS. 3 and 6A to 6C.

Further, for example, the program may be a program to be executed by a computer. Further, one aspect of the present invention may be a computer-readable non-transitory recording medium in which such a program is recorded. For example, such a program may be recorded on a recording medium and distributed or distributed. For example, by installing a distributed program on a device having another processor and having that processor execute the program, it becomes possible to cause that device to perform each of the above processes.

Below, features of the lighting equipment, lighting system, and control method described based on the above embodiments will be shown.

<1>
A lighting fixture that is operated by an operating device,
a receiving unit that receives operation information from the operation device;
a light source unit that can change at least one of brightness and light color;
a storage unit that stores a plurality of basic patterns that change at least one of the brightness and the light color;
A lighting fixture, comprising: a control unit that controls the light source unit to perform a lighting operation based on the operation information in a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns.

<2>
The lighting fixture according to <1>, wherein the plurality of basic patterns include a fluctuation pattern in which at least one of the brightness and the light color changes within a predetermined time.

<3>
The two or more basic patterns include a first basic pattern and a second basic pattern,
The lighting device according to <1> or <2>, wherein the control unit combines the first basic pattern and the second basic pattern so that the at least one of the first basic pattern and the second basic pattern is continuous. .

<4>
The control unit cuts a part of at least one of the first basic pattern and the second basic pattern so that the at least one of the brightness and the light color is continuous, and The lighting fixture according to <3>, wherein the first basic pattern and the second basic pattern are combined using the at least one of the first basic pattern and the second basic pattern.

<5>
The control unit generates a connecting pattern that connects the first basic pattern and the second basic pattern, and combines the first basic pattern and the second basic pattern via the generated connecting pattern. <3> Lighting equipment described in.

<6>
The operation information includes designation information specifying the two or more basic patterns, and frequency information indicating the number of times each of the two or more basic patterns is repeated,
The lighting fixture according to any one of <1> to <5>, wherein the combination pattern is determined based on the designation information and the number of times information.

<7>
The control unit performs a lighting operation different from the combination pattern when restarting the lighting operation after the lighting operation is stopped while performing the lighting operation according to the combination pattern. lighting equipment.

<8>
The control unit performs the illumination operation from the beginning of the combination pattern when restarting the illumination operation after the illumination operation is stopped while executing the illumination operation according to the combination pattern. lighting equipment.

<9>
When the lighting operation is stopped while executing the lighting operation based on the combination pattern, the control unit stores the position where the lighting operation in the combination pattern stopped, and when restarting the lighting operation, the control unit stores the position where the lighting operation stops when the lighting operation is restarted. The lighting device according to any one of <1> to <6>, wherein the lighting device restarts the lighting operation in the combination pattern.

<10>
The lighting fixture according to any one of <1> to <9>,
A lighting system comprising: an operating device that controls operation of the lighting fixture.

<11>
A control method for controlling a lighting device using an operating device, the control method comprising:
receiving operation information from the operation device;
Based on the operation information, the light source section of the lighting device is controlled to perform a lighting operation in a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns stored in the storage section of the lighting device. Control method.

1 Lighting equipment 2 Remote controller (operation device)
4 Information terminal (operation device)
11 First communication section (receiving section)
21 Second communication section (receiving section)
22 Second control section (control section)
23 Storage section 30 Light source section 100 Lighting system

Claims (11)

A lighting fixture that is operated by an operating device,
a receiving unit that receives operation information from the operation device;
a light source unit that can change at least one of brightness and light color;
a storage unit that stores a plurality of basic patterns that change at least one of the brightness and the light color;
A lighting fixture, comprising: a control unit that controls the light source unit to perform a lighting operation based on the operation information in a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns. The lighting fixture according to claim 1, wherein the plurality of basic patterns include a fluctuation pattern in which at least one of the brightness and the light color changes within a predetermined time. The two or more basic patterns include a first basic pattern and a second basic pattern,
The lighting fixture according to claim 1 or 2, wherein the control unit combines the first basic pattern and the second basic pattern so that the at least one of the first basic pattern and the second basic pattern is continuous. The control unit cuts a part of at least one of the first basic pattern and the second basic pattern so that the at least one of the brightness and the light color is continuous, and The lighting fixture according to claim 3, wherein the first basic pattern and the second basic pattern are combined using the at least one of the first basic pattern and the second basic pattern. The control unit generates a connecting pattern that connects the first basic pattern and the second basic pattern, and combines the first basic pattern and the second basic pattern via the generated connecting pattern. Lighting equipment described in. The operation information includes designation information specifying the two or more basic patterns, and frequency information indicating the number of times each of the two or more basic patterns is repeated,
The lighting fixture according to claim 1 or 2, wherein the combination pattern is determined based on the designation information and the number of times information. The lighting fixture according to claim 1 or 2, wherein the control unit performs a lighting operation different from the combination pattern when restarting the lighting operation after the lighting operation is stopped while performing the lighting operation according to the combination pattern. The lighting device according to claim 1 , wherein the control unit performs the lighting operation from the beginning of the combination pattern when restarting the lighting operation after the lighting operation is stopped while performing the lighting operation based on the combination pattern. When the lighting operation is stopped while executing the lighting operation based on the combination pattern, the control unit stores the position where the lighting operation in the combination pattern stopped, and when restarting the lighting operation, the control unit stores the position where the lighting operation stops when the lighting operation is restarted. The lighting fixture according to claim 1 or 2, wherein the lighting operation in the combination pattern is restarted. The lighting fixture according to claim 1 or 2,
A lighting system comprising: an operating device that controls operation of the lighting fixture. A control method for controlling a lighting device using an operating device, the control method comprising:
receiving operation information from the operation device;
Based on the operation information, the light source section of the lighting device is controlled to perform a lighting operation in a combination pattern that is a combination of two or more basic patterns among the plurality of basic patterns stored in the storage section of the lighting device. Control method.

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