CN110719676B - Illumination control method and illumination control equipment - Google Patents

Abstract

The application is applicable to the technical field of illumination, and provides an illumination method, an illumination control system and terminal equipment. According to the embodiment of the application, the at least one control device and the at least one lighting device are added into the same preset network, each control device is associated with the at least one lighting device in the same area, so that the terminal device or the control device can carry out on-off and brightness control on the lighting devices through the lighting state control instruction sent by the preset network to the associated at least one lighting device, manual control is not needed, and the management efficiency of the lighting devices is effectively improved.

Description

Illumination control method and illumination control equipment

Technical Field

The application belongs to the technical field of lighting, and particularly relates to a lighting control method and lighting control equipment.

Background

With the continuous development of lighting technology, various types of lighting devices are developed to meet various lighting requirements. Important public places such as colleges and universities classroom, parking area, shopping mall generally adopt open illumination management mode, and every lighting apparatus all carries out independent on-off control through artifical manual, wastes time and energy, and when lighting apparatus quantity was more, the management efficiency was low.

Disclosure of Invention

Content of application

In view of this, an embodiment of the present application provides an illumination control method and an illumination control device, so as to solve the problems that in the prior art, an open illumination management manner is generally adopted in public places, each illumination device is manually and independently turned on and off, time and labor are wasted, and when the number of illumination devices is large, the management efficiency is low.

A first aspect of the embodiments of the present application provides an illumination method, applied to an illumination device, the illumination method including:

establishing a communication connection relation with a user terminal;

when receiving a network access request sent by a user terminal, responding to the network access request and joining a preset network;

when receiving an association request sent by the user terminal, establishing an association relation with a control device which has joined the preset network; wherein one control device is associated with a lighting device located in at least one area;

when an illumination state control instruction sent by the user terminal or the control equipment is received, changing an illumination state according to the illumination state control instruction; the illumination state control instruction comprises a turn-on instruction for controlling the illumination device to be turned on, a turn-off instruction for controlling the illumination device to be turned off or a brightness adjusting instruction for adjusting the brightness of the illumination device.

A second aspect of the embodiments of the present application provides an illumination control method, applied to a user terminal, where the illumination control method includes:

when the communication connection operation of a user is detected, establishing a communication connection relation with the lighting equipment and the control equipment;

when the network access operation of adding lighting equipment of a user is detected, sending a network access request to the lighting equipment;

when the network access operation of adding control equipment of a user is detected, sending a network access request to the control equipment; the control equipment is used for responding to the network access request and joining a preset network when receiving the network access request;

when the lighting state control operation of the user is detected, sending a lighting state control instruction to at least one lighting device selected by the user;

when the association operation of the user is detected, sending an association request to at least one lighting device; the control device is used for sending an illumination state control instruction to at least one associated illumination device, and the illumination device is used for changing an illumination state according to the illumination state control instruction when receiving the illumination state control instruction.

A third aspect of the embodiments of the present application provides a lighting control system, including a user terminal, and at least one lighting device and at least one control device joined to the same preset network, where the control device is associated with the lighting device located in at least one area, and the control device includes at least one of a remote controller, an ambient light sensing device, and a human body sensing device;

the lighting device is used for realizing the lighting method according to the first aspect of the embodiment of the application;

the user terminal is used for implementing the lighting control method according to the second aspect of the embodiment of the application;

the remote controller is used for sending an illumination state control instruction to the illumination equipment;

the ambient light sensing apparatus is configured to:

detecting the brightness of the environment light;

when the ambient light brightness is less than or equal to a first brightness threshold value, sending a first brightness adjusting instruction to the lighting equipment;

when the ambient light brightness is greater than or equal to a second brightness threshold value, sending a second brightness adjusting instruction to the lighting equipment;

when the ambient light brightness is greater than the first brightness threshold and less than the second brightness threshold, sending a third brightness adjusting instruction to the lighting equipment;

the human body sensing device is for:

detecting whether a person is present;

sending a fourth brightness adjusting instruction to the lighting equipment when no one is in use;

and sending a fifth brightness adjusting instruction to the lighting equipment when a person exists.

A fourth aspect of an embodiment of the present application provides a terminal device, including a communication module, a memory, a processor, and a computer program stored in the memory and executable on the processor;

the terminal device is an illumination device, the terminal device further comprises a light emitting component, and the processor implements the steps of the illumination method according to the first aspect of the embodiment of the present application when executing the computer program;

alternatively, the terminal device is a user terminal, and the processor implements the steps of the lighting control method according to the second aspect of the embodiment of the present application when executing the computer program.

A fifth aspect of embodiments of the present application provides a computer-readable storage medium, having stored thereon a computer program, which, when being executed by a processor, carries out the steps of the lighting method according to the first aspect of embodiments of the present application or the steps of the lighting control method according to the second aspect of embodiments of the present application.

In a first aspect of embodiments of the present application, a lighting method applied to a lighting device is provided, where after a communication connection relationship is established with a user terminal, when a network access request sent by the user terminal is received, the network access request is responded and a preset network is added; when a control equipment association request sent by a user terminal is received, establishing an association relation with one control equipment which has joined a preset network, so that one control equipment can be associated with lighting equipment in at least one area; the user terminal or the control device can carry out on-off and brightness control on the lighting device through the lighting state control instruction sent by the preset network to the associated lighting device located in at least one area, manual control is not needed, and management efficiency of the lighting device is effectively improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic architecture diagram of a lighting control system according to an embodiment of the present application;

fig. 2 is a schematic flowchart of a lighting method provided in the second embodiment of the present application;

fig. 3 is a schematic diagram of a luminance curve provided in the second embodiment of the present application;

fig. 4 is a schematic flowchart of a lighting control method provided in the third embodiment of the present application;

fig. 5 is a schematic structural diagram of a terminal device according to a fourth embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "comprises" and "comprising," and any variations thereof, in the description and claims of this application and the drawings described above, are intended to cover non-exclusive inclusions. For example, a process, method, or system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus. Furthermore, the terms "first," "second," and "third," etc. are used to distinguish between different objects and are not used to describe a particular order.

Example one

As shown in fig. 1, an embodiment of the present application provides a lighting control system 100, which includes a user terminal 1, and at least one lighting device 2 and at least one control device that join the same preset network.

In application, the number of the lighting devices and the control devices joining the same preset network can be set according to actual needs.

In application, the preset network may be a low power consumption bluetooth wireless Mesh network (BLE Mesh), a wireless Mesh network (WiFi Mesh), a ZigBee network, a low power consumption long-range wireless communication network (lora) (long range), a narrowband Internet of Things (Narrow Band Internet of Things, NB-IoT), and the like.

In application, the control device may include an ambient light sensing device, a human body sensing device, a remote controller, and the like. The ambient Light sensing device is used for detecting ambient Light brightness, and may be specifically an ambient Light Sensor (Day Light Sensor). The human body sensing equipment is used for detecting whether a person is in a preset angle or position in a designated area, specifically, the human body sensing equipment can be a pyroelectric infrared Sensor (PIR Sensor), and the remote controller can be a universal key type remote controller or a touch type remote controller with a touch screen. The user terminal and the control device can control the lighting states of any number of lighting devices, and particularly can control the lighting states of all the lighting devices in the same area individually or in batches. The same area may be any area selected according to actual needs, for example, the same floor, the same building, the same room, and the like.

Fig. 1 exemplarily shows an architecture diagram of the lighting control system 100 when the preset network is a bluetooth low energy wireless mesh network, the number of user terminals is 1, the number of lighting devices is 7, the number of control devices is 3, and the control devices include the ambient light sensing device 3, the human body sensing device 4 and the remote controller 5.

In application, the user terminal, the lighting device and the control device all have communication functions, and communication modules, such as a low-power-consumption bluetooth module, which support corresponding preset networks are arranged in the user terminal, the lighting device and the control device according to different types of the preset networks which can be added.

In one embodiment, the preset network is a bluetooth low energy wireless mesh network, at least one lighting device and at least one control device are nodes in the preset network, any two nodes in the preset network are in communication connection in a direct communication mode or a relay communication mode, and the user terminal is in communication connection with one node in the preset network in the direct communication mode and in communication connection with other nodes in the preset network in the relay communication mode.

In application, any two nodes added into the same preset network can communicate with each other, a direct communication mode refers to that a communication connection relationship is directly established between two nodes needing to communicate and the two nodes directly communicate with each other, a relay communication mode refers to that a communication connection relationship is indirectly established between the two nodes needing to communicate through a relay node in the preset network and the two nodes indirectly communicate with each other, and data sent by one node is sequentially forwarded through the relay node between the two nodes and finally received by the other node. When two nodes communicate with each other in a relay communication mode, the data transmission path may include multiple paths, and the data transmission path with the best network signal or the shortest path may be preferentially selected for communication. Each node in the pre-provisioned network may send or receive data.

In application, the user terminal may include a mobile phone, a tablet computer, a personal digital assistant, a notebook computer, a desktop computer, a palm computer, a cloud server, and other computing devices, and the user may configure a display, a mouse, a keyboard, a microphone, a sound box, and other human-computer interaction devices for the user terminal without display and human-computer interaction functions according to actual needs.

In applications, the lighting device may comprise any type of lighting device located in a college classroom, parking lot, shopping mall, office building, or other important public or non-public location.

In the embodiment, at least one lighting device and at least one control device are added to the same preset network as nodes in the preset network to form a lighting control system, communication connection between any two nodes in the preset network is realized in a direct communication mode or a relay communication mode, working states of the other nodes can be monitored mutually, a user terminal is in communication connection with one node in the preset network in the direct communication mode and is in communication connection with other nodes in the preset network in the relay communication mode, the user can control the lighting state of at least one lighting device through the control device, the working states of all the lighting devices and the control device are controlled through the user terminal, and the management efficiency of the lighting devices is improved.

Example two

As shown in fig. 2, the present embodiment provides a lighting method performed by the lighting apparatus 2 on the basis of the lighting control system 100 provided in the first embodiment, and the method includes:

and step S20, establishing a communication connection relation with the user terminal.

In application, when the lighting equipment and the user terminal are mutually positioned in the wireless network sensing range of the other side, the lighting equipment establishes a communication connection relation with the user terminal when receiving a communication connection request sent by the user terminal. The wireless network can be a Bluetooth network, a WiFi network, a ZigBee network, a LoRa network or a narrow-band Internet of things.

And step S21, when receiving the network access request sent by the user terminal, responding to the network access request and joining the preset network.

In one embodiment, step S20 is preceded by:

and step S201, powering on when the power supply network is accessed.

In an application, the power supply network may be a utility network.

In one embodiment, after step S201 and before step S21, the method includes:

step S202, after power-on, if the power-on is in a factory setting state, flickering for a first time at a first time interval;

step S203, after power-on, if the power-on is not in a factory setting state, feeding back prompt information which is not in the factory setting state to the user terminal;

step S204, when a first factory reset operation of a user is detected, the factory reset is reset and flickers for a second time at a second time interval; the first factory reset operation is that a power button of the lighting equipment is pressed for a first time length in the power-on state of the lighting equipment;

step S205, when a factory reset instruction sent by the user terminal is received, resetting the factory reset and flashing for a third time at a third time interval after the user terminal is normally on for a second time; and the factory resetting instruction is used for controlling the lighting equipment to be powered off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, wherein the fourth time interval is less than the fifth time interval.

In application, the first to fifth time intervals and the first to fifth times can be set according to actual needs, for example, the first to third time intervals can be 0.5S to 1S, and the first to fourth times can be 2 to 5, specifically 3 times; the first time length can be 2S-6S, specifically 5S; the second duration may be 3S to 5S; the fourth time interval may be 1S to 3S; the fifth time interval may be 5S to 30S, and the fifth time interval may be 1 to 4 times, and specifically may be 2 times. The prompt message which is not in the factory setting state can be displayed as any type of message on the user terminal, such as a text prompt message, a voice message, an image message, and the like.

Step S22, when receiving the association request sent by the user terminal, establishing an association relation with a control device which has joined the preset network; wherein one control device is associated with a lighting device located in at least one area;

step S23, when receiving the illumination state control instruction sent by the user terminal or the control device, changing the illumination state according to the illumination state control instruction; the illumination state control instruction comprises a turn-on instruction for controlling the illumination device to be turned on, a turn-off instruction for controlling the illumination device to be turned off or a brightness adjusting instruction for adjusting the brightness of the illumination device.

In an application, the user terminal may transmit the lighting state control instruction to any lighting device in communication connection therewith, and the control device may transmit the lighting state control instruction to the lighting device located in at least one area associated therewith.

In one embodiment, the control device includes an ambient light sensing device and a human body sensing device;

step S23, including:

step S231, when receiving a first brightness adjustment instruction sent by the ambient light sensing device, adjusting the brightness to a first brightness value; the ambient light sensing device is used for sending the first brightness adjusting instruction to the lighting device when detecting that the ambient light brightness is smaller than or equal to a first brightness threshold value;

step S232, when receiving a second brightness adjustment instruction sent by the ambient light sensing device, adjusting the brightness to a second brightness value; the ambient light sensing device is used for sending a second brightness adjusting instruction to the lighting device when detecting that the ambient light brightness is greater than or equal to a second brightness threshold value, wherein the first brightness threshold value is less than the second brightness threshold value, and the first brightness value is greater than the second brightness value;

step S233, when receiving a third brightness adjustment instruction sent by the ambient light sensing device and a fourth brightness adjustment instruction sent by the human body sensing device, adjusting the brightness to a third brightness value; the human body sensing device is used for sending a fourth brightness adjusting instruction to the lighting device when no human body is detected;

step S234, when receiving a third brightness adjustment instruction sent by the ambient light sensing device and a fifth brightness adjustment instruction sent by the human body sensing device, adjusting the brightness to a fourth brightness value; the human body induction equipment is used for sending the fifth brightness adjusting instruction to the lighting equipment when a person is detected, and the third brightness threshold value is smaller than the fourth brightness threshold value.

In application, the first brightness threshold, the second brightness threshold, and the first to fourth brightness values may be set according to actual needs, for example, the first brightness threshold may be 50lux to 100lux, the second brightness threshold may be 500lux to 3000lux, and the first to fourth brightness values may be 100%, 10%, and Y% of the maximum brightness of the lighting apparatus, respectively; and the Y value is calculated according to the ambient light brightness detected by the ambient light sensing equipment. The human body sensing equipment is used for detecting whether people exist in the area where the lighting equipment associated with the human body sensing equipment is located, and the specific detection range and the detection angle can be set according to actual needs.

As shown in fig. 3, exemplary plots of ambient light level detected by an ambient light sensing device and the percentage of brightness of a lighting device as a function of ambient light level are shown.

In one embodiment, step S21 includes:

and step S211, when receiving a network access request sent by the user terminal, flashing for a sixth time at a sixth time interval to respond to the network access request and join the preset network.

In application, the sixth time interval and the sixth number may be set according to actual needs, for example, the sixth time interval may be 0.5S to 1S, and the sixth number may be 2 to 5.

In an embodiment, the sixth time is three times, and the sixth time is flashed at a sixth time interval to respectively represent that the network access request is received, the network access request is connected to the preset network, and the network access request is joined to the preset network. The embodiment provides an illumination method applied to an illumination device, which responds to a network access request and joins a preset network when receiving the network access request sent by a user terminal after establishing a communication connection relationship with the user terminal; when a control equipment association request sent by a user terminal is received, establishing an association relation with one control equipment which has joined a preset network, so that one control equipment can be associated with lighting equipment in at least one area; the control equipment can carry out on-off and brightness control on the lighting equipment through the lighting state control instruction sent by the preset network to the associated lighting equipment in at least one area, manual control is not needed, and the management efficiency of the lighting equipment is effectively improved; whether someone is detected through environment light sensing equipment detection ambient light brightness, through human response equipment detection, can be according to the luminance of environment light brightness size and whether someone's testing result automatically regulated lighting apparatus's luminance, save the electric energy.

EXAMPLE III

As shown in fig. 4, the present embodiment provides a lighting control method performed by a user terminal 1 on the basis of the lighting control system 100 provided in the first embodiment, and the method includes:

step S40, upon detecting a communication connection operation by the user, establishing a communication connection relationship with the lighting device and the control device.

In application, when the user terminal and the lighting equipment or the control equipment are mutually positioned in the wireless network sensing range of the other side, the communication connection request sent to the lighting equipment or the control equipment establishes a communication connection relation with the lighting equipment or the control equipment.

And step S41, when the network access operation of the lighting device adding of the user is detected, sending a network access request to the lighting device.

In the application, a user can execute an add lighting device networking operation on an add lighting device interface of a user terminal to trigger the user terminal to send a networking request to the lighting device. The lighting device networking operation may specifically be clicking a corresponding function button in the lighting device interface. The add lighting device interface may be entered by clicking a corresponding function button in the edit area interface. The lighting device may respond to the network access request in any human-computer interaction manner.

Step S42, when detecting the network access operation of the adding control device of the user, sending a network access request to the control device; and the control equipment is used for responding to the network access request and joining a preset network when receiving the network access request.

In application, a user can execute an add control device network access operation on an add control device interface to trigger a user terminal to send a network access request to the control device. The network access operation of the control device may specifically be clicking a corresponding function button in an interface of the add control device. The control device may respond to the network access request in any human-computer interaction manner.

Step S43, when the lighting state control operation of the user is detected, sending a lighting state control instruction to at least one lighting device selected by the user.

In an application, a user may perform a lighting state control operation at a lighting device control interface of a lighting control application.

Step S44, when detecting the association operation of the user, sending an association request to at least one lighting device; wherein the control device is configured to send a lighting state control instruction to the associated at least one lighting device.

In the application, a user can execute an associated lighting device operation on a control device editing interface to trigger the user terminal to send an association request to at least one lighting device selected by the user and needing to be associated with a certain control device. The associated lighting device operation may specifically be clicking a corresponding function button in the control device editing interface. The lighting device may respond to the association request by any man-machine interaction.

In one embodiment, step S41 is preceded by:

step S401, when receiving the prompt information that is not in the factory setting state and is fed back by the lighting device, sending a factory setting restoration instruction to the lighting device.

Step S402, when prompt information which is fed back by the control equipment and is not in a factory setting state is received, a factory setting restoration instruction is sent to the control equipment; the control device is configured to, after being powered on, if the control device is not in a factory setting state, feed back the prompt information that the control device is not in the factory setting state, and further be configured to restore the factory setting when receiving the factory setting restoration instruction.

In application, a user can perform a power-on operation of controlling the lighting device on an interface of the added lighting device of the user terminal to trigger the user terminal to send a power-on control instruction to the lighting device. Specifically, the controlling of the power-on operation of the lighting device may be clicking a corresponding function button in the interface of the lighting device. The user can execute the power-on operation of the control equipment in the control equipment adding interface so as to trigger the user terminal to send a power-on control instruction to the control equipment. Specifically, the controlling of the power-on operation of the control device may be clicking a corresponding function button in an interface of the add control device. The add control device interface may be entered by clicking a corresponding function button in the edit area interface.

In the application, the prompt message which is not in the factory setting state can be displayed as any type of information on the user terminal, for example, a text prompt message, a voice message, an image message, and the like.

In one embodiment, the control device comprises an ambient light sensing device, a human body sensing device or a remote control;

the ambient light sensing device is used for restoring factory settings and controlling an indicator lamp to flash for a second time at a second time interval when detecting a first factory setting restoring operation of a user, wherein the first factory setting restoring operation is that a power button of the ambient light sensing device is pressed for a first duration in a power-on state of the ambient light sensing device;

the ambient light sensing equipment is further used for restoring factory settings when receiving a factory setting restoration instruction sent by the user terminal; the factory resetting instruction is used for controlling the human body induction equipment to be powered off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, and the fourth time interval is smaller than the fifth time interval;

the human body induction equipment is used for restoring factory settings and controlling the indicator lamp to flicker for a second time at a second time interval when detecting a first factory setting restoring operation of a user, wherein the first factory setting restoring operation is to press a power button of the human body induction equipment for a first duration in a power-on state of the human body induction equipment;

the human body induction equipment is also used for restoring factory settings when receiving a factory setting restoration instruction sent by the user terminal; the factory resetting instruction is used for controlling the human body induction equipment to be powered off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, and the fourth time interval is smaller than the fifth time interval;

when the remote controller is a key-type remote controller, the remote controller is used for restoring the factory settings when detecting a second factory-resetting operation of a user, wherein the second factory-resetting operation is to press an on button, an up button and a down button of the remote controller for a second time at the same time length and stop long pressing after an indicator lamp of the remote controller flickers for a seventh time at a seventh time interval and is normally on;

when the remote controller is a touch remote controller, the remote controller is used for restoring factory settings when detecting a third factory setting restoring operation of a user, and the third factory setting restoring operation is long-time pressing of a main interface key of the remote controller for a third time and long-time pressing of an indicator lamp of the remote controller after the indicator lamp of the remote controller is normally on.

In application, the first to fifth time intervals and the first to fifth times can be set according to actual needs, for example, the first to third time intervals and the seventh time interval can be 0.5S to 1S, and the first to fourth times and the seventh time can be 2 to 5, specifically 3 times; the first time length can be 2S-6S, specifically 5S; the second duration may be 3S to 5S; the fourth time interval may be 1S to 3S; the fifth time interval may be 5S to 30S, the fifth time interval may be 1 to 4 times, and specifically may be 2 times; the third time period may be 4S to 10S, and specifically may be 6S.

In one embodiment, the control device includes an ambient light sensing device and a human body sensing device;

the lighting control method further includes:

step S45, when detecting the first brightness threshold value setting operation of the user, setting a first brightness threshold value of the ambient light brightness;

step S46, when detecting the second brightness threshold value setting operation of the user, setting a second brightness threshold value of the ambient light brightness;

step S47, setting a third luminance threshold value when no person is present in the area when a third luminance value setting operation by the user is detected;

step S48, upon detecting a fourth luminance value setting operation by the user, sets a fourth luminance threshold value when the area has a person.

In application, a user can perform an operation of setting the brightness threshold and the brightness value of the lighting device in the editing sensing device interface so as to trigger the user terminal to send a brightness threshold and brightness value setting instruction to at least one lighting device selected by the user and needing to be associated with a certain control device. The operation of setting the brightness threshold and the brightness value of the lighting device may specifically be clicking a corresponding function button in the interface of the editing sensing device or dragging a progress bar icon. The editing sensing device interface may be entered by clicking a corresponding function button in the editing control device interface. The lighting device may respond to the brightness threshold and brightness value setting instructions in any human-computer interaction manner. The human body sensing equipment is used for detecting whether people exist in the area where the lighting equipment associated with the human body sensing equipment is located, and the specific detection range and the detection angle can be set according to actual needs. The user can execute the operation of setting the human body detection range and the detection angle on the editing induction equipment interface of the user terminal so as to trigger the user terminal to send the human body detection range and detection angle setting instruction to the human body induction equipment selected by the user. The operation of setting the human body detection range and the detection angle may specifically be clicking a corresponding function button in an interface of the editing induction device or dragging a progress bar icon.

In application, the first brightness threshold, the second brightness threshold, and the first to fourth brightness values may be set according to actual needs, for example, the first brightness threshold may be 50lux to 100lux, the second brightness threshold may be 500lux to 3000lux, and the first to fourth brightness values may be 100%, 10%, and Y% of the maximum brightness of the lighting apparatus, respectively; and the Y value is calculated according to the ambient light brightness detected by the ambient light sensing equipment.

In one embodiment, before step S41, the method further includes:

s403, when the operation of starting the lighting control application by the user is detected, starting the lighting control application;

s404, when the operation of newly building a floor by a user is detected, newly building a floor;

s405, naming the newly built floor when the floor naming operation of the user is detected;

s406, when the operation of a new area of a user is detected, newly building an area in the selected floor; wherein a floor comprises at least one zone;

s407, naming the newly-built region when the region naming operation of the user is detected;

s408, when detecting the operation of a new block of the user, newly building a block in the selected area; wherein one area comprises at least one block;

s409, when the block naming operation of the user is detected, naming the newly-built block.

In the application, all the lighting control method steps executed by the user terminal are realized by the lighting control application running on the user terminal. One floor comprises at least one area, one area comprises at least one block, and the space size relationship among the three is that the floor is larger than the area and larger than the block. The user can sequentially execute a new floor operation on a setting interface of the lighting control application, a new area operation on an editing area interface and a new block operation on the editing area interface according to actual needs, and the new floor, the new area and the new block are named according to the new floor, the new area and the new block. The edit area interface can be entered by clicking a corresponding function button in the setup interface.

In one embodiment, before step S41, the method further includes:

s411, adding the lighting equipment to the selected block; wherein one block comprises at least one lighting device;

s412, automatically listing the lighting equipment which is not added to the preset network in the selected block;

step S41 includes:

when the lighting equipment adding and networking operation of the user is detected, a networking request is sent to the lighting equipment which is not added into the preset network in the selected block, so that the lighting equipment which is not added into the preset network in the selected block is added into the preset network.

In an application, a user may perform an add lighting device operation at a region editing interface of a lighting control application to add a selected lighting device to a selected tile. The lighting equipment which is not added to the preset network in the selected block can be displayed in a graphic or list mode on the lighting equipment adding interface.

In one embodiment, before step S42, the method includes:

s413, adding the control equipment to the selected block; wherein one control device can be added to at least one block of the same area;

s414, automatically listing control equipment which is not added with the preset network in the selected area;

step S42 includes:

when the network access operation of the added control equipment of the user is detected, a network access request is sent to the control equipment which is not added into the preset network in the selected area, so that the control equipment which is not added into the preset network in the selected area is added into the preset network.

In an application, a user may perform an add control device operation at a zone editing interface of a lighting control application to add a selected control device to a selected zone. The control devices which are not added to the preset network in the selected block can be displayed in a graphic or list form on the control device adding interface.

In one embodiment, step S43 includes:

when the association operation of the user is detected, an association request is sent to the lighting devices in the preset number of blocks in the selected area, so that the association relation between the lighting devices in the preset number of blocks in the selected area and one control device is established.

In one embodiment, the lighting control method further comprises:

step S49, when detecting the data synchronization operation of the user, synchronizing the configuration information to other user terminals; the configuration information comprises floor information, area information, block information, lighting equipment network access information, control equipment network access information and association information between the lighting equipment and the control equipment;

step S50, when detecting the data uploading operation of the user, uploading the configuration information to the server through the user account;

and step S51, when the data downloading operation of the user is detected, downloading the configuration information from the server through the user account.

In the application, a user may perform a configuration information synchronization operation, an upload data to server operation, a download data from a server operation, an input user account address operation, and the like, at a setting interface of the lighting control application. The user account can be a mailbox account of the user, or can be a user account formed by a user name and a user password.

In one embodiment, the lighting control method further comprises:

step S52, when the floor renaming operation of the user is detected, renaming the selected floor;

step S53, when the region renaming operation of the user is detected, renaming the selected region;

in step S54, when a tile editing operation by the user is detected, the editing operation is performed on the selected tile.

In the application, a user can perform a floor renaming operation on a setting interface of the lighting control application, and perform a zone renaming operation and a block editing operation on an editing zone interface.

In one embodiment, step S54 includes:

step S540, when a block renaming instruction input by a user is received, renaming is carried out on the selected block;

step S541, editing the selected block when receiving a block editing instruction input by a user;

step S542, when a block deleting instruction input by a user is received, deleting the selected block;

step S543, when an illumination device editing instruction input by a user is received, editing the illumination devices in the selected block;

step S535, when receiving the lighting device deleting instruction input by the user, deleting the lighting devices in the selected block.

In one embodiment, the lighting control method further comprises:

step S55, when starting the lighting control application, automatically selecting and connecting to a network connection point;

step S56, when the user' S proxy node selection operation is detected, connects to the proxy node selected by the user.

In application, after the user terminal is started, the surrounding agent nodes can be automatically detected and automatically connected to an agent node with better network signals or preset, or all detected agent nodes can be automatically displayed on a network connection interface and the user selects the agent node to which the agent node is specifically connected, wherein the agent node is any node in a preset network.

In one embodiment, the control device comprises a remote control;

when the remote controller is a universal remote controller, the remote controller is used for responding to the network access request and joining a preset network if receiving the network access request sent by the user terminal within a fourth time after detecting the network access operation of the first remote controller of the user; the first remote controller network access operation comprises long pressing of an on button of the remote controller, stopping of long pressing after an indicator lamp of the remote controller is normally on, and short pressing of a down button of the remote controller;

when the remote controller is a universal remote controller, the remote controller is used for responding to the network access request and joining a preset network if receiving the network access request sent by the user terminal within a fourth time after detecting the network access operation of a second remote controller of the user; and the second remote controller network access operation is to press the on button or the off button of the remote controller for a fifth time length, and stop long pressing after the indicator lamp of the remote controller is normally on.

In application, the fourth time length and the fifth time length may be set according to actual needs, for example, the fourth time length may be 20S to 60S, and specifically may be 30S; the fifth time period may be 4S to 10S, and specifically may be 6S.

In this embodiment, after establishing a communication connection relationship with an illumination device and a control device, when detecting that a user adds an illumination device to a network, the illumination device sends a network access request to the illumination device, so that the illumination device joins a preset network; when the network access operation of adding control equipment of a user is detected, sending a network access request to the control equipment to enable the control equipment to be added into a preset network; when detecting the association operation of a user, sending an association request to at least one lighting device, so that the lighting device in at least one area and one control device which is added into a preset network establish an association relationship, and the control device can carry out on-off and brightness control on the lighting device through a lighting state control instruction sent by the preset network to the associated lighting device in at least one area, manual control is not needed, and the management efficiency of the lighting device is effectively improved; the configuration information of the control equipment and the lighting equipment is synchronized to other user terminals through the user terminal, so that other users or the user can check the configuration information through other user terminals, know the working states of the control equipment and the lighting equipment in real time and control the working states of the control equipment and the lighting equipment through other user terminals; the configuration information of the control equipment and the lighting equipment is uploaded to the server through the user terminal, data backup can be achieved, and the user can download the backup configuration information in the server to any user terminal according to actual needs.

It should be understood that, the sequence numbers of the steps in the foregoing embodiments do not imply an execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiments of the present application.

Example four

As shown in fig. 5, the present embodiment provides a terminal device 500 including: a communication module 501, a processor 502, a memory 503, and a computer program 504, such as a lighting program or a lighting control program, stored in the memory 503 and executable on the processor 502. When the terminal device 500 is the lighting device 2, the terminal device 2 further includes a light-emitting component (not shown in the figure), and the processor 502 executes the computer program 504 to implement the method steps in the second embodiment, such as steps S20 to S23 shown in fig. 2; when the terminal device 500 is the user terminal 1, the processor 502 executes the computer program 504 to implement the method steps of the third embodiment, for example, steps S40 to S44 shown in fig. 4.

The communication module 501 may be a bluetooth low energy module, a WiFi module, a ZigBee module, a LoRa module, an NB-IoT module, or the like. Terminal device 500 may include, but is not limited to, a communication module 501, a processor 502, and a memory 503. Those skilled in the art will appreciate that fig. 5 is merely an example of a terminal device 500 and is not intended to limit the terminal device 500 and may include more or fewer components than those shown, or some components may be combined, or different components, e.g., the terminal device may also include input output devices, network access devices, buses, etc.

The Processor 502 may be a Central Processing Unit (CPU), other general purpose Processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), a Field Programmable Gate Array (FPGA) or other Programmable logic device, discrete Gate or transistor logic, discrete hardware components, etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The storage 503 may be an internal storage unit of the terminal device 500, such as a hard disk or a memory of the terminal device 500. The memory 503 may also be an external storage device of the terminal device 500, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like provided on the terminal device 500. Further, the memory 503 may also include both an internal storage unit of the terminal device 500 and an external storage device. The memory 503 is used to store computer programs and other programs and data required by the terminal device. The memory 503 may also be used to temporarily store data that has been output or is to be output.

In the above embodiments, the descriptions of the respective embodiments have respective emphasis, and reference may be made to the related descriptions of other embodiments for parts that are not described or illustrated in a certain embodiment.

The above-mentioned embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the spirit and scope of the embodiments of the present application and are intended to be included within the scope of the present application.

Claims (7)

1. An illumination method, applied to an illumination device, the illumination method comprising:

establishing a communication connection relation with a user terminal;

when receiving a network access request sent by a user terminal, responding to the network access request and joining a preset network, wherein the preset network is a low-power-consumption Bluetooth wireless mesh network;

when receiving an association request sent by the user terminal, establishing an association relation with a control device which has joined the preset network; the terminal, the lighting equipment and the control equipment have communication functions, and the user terminal, the lighting equipment and the control equipment are provided with low-power Bluetooth modules supporting corresponding communication with a preset network;

when an illumination state control instruction sent by the user terminal or the control equipment is received, changing an illumination state according to the illumination state control instruction; the lighting state control instruction comprises a switching-on instruction for controlling the lighting device to be switched on, a switching-off instruction for controlling the lighting device to be switched off or a brightness adjusting instruction for adjusting the brightness of the lighting device, and the control device comprises an ambient light sensing device and a human body sensing device;

when receiving an illumination state control instruction sent by the user terminal or the control device, the method for changing the illumination state according to the illumination state control instruction includes:

when a third brightness adjusting instruction sent by the ambient light sensing equipment and a fourth brightness adjusting instruction sent by the human body sensing equipment are received, adjusting the brightness to a third brightness value; the human body sensing device is used for sending a fourth brightness adjusting instruction to the lighting device when no human body is detected;

when a third brightness adjusting instruction sent by the ambient light sensing equipment and a fifth brightness adjusting instruction sent by the human body sensing equipment are received, adjusting the brightness to a fourth brightness value; the human body induction equipment is used for sending a fifth brightness adjusting instruction to the lighting equipment when a person is detected, and the third brightness value is smaller than the fourth brightness value;

when receiving a network access request sent by a user terminal, before responding to the network access request and joining a preset network, the method comprises the following steps:

after power-on, if the power-on device is in a factory setting state, flickering for a first time at a first time interval;

after the power is on, if the power is not in a factory setting state, feeding back prompt information which is not in the factory setting state to the user terminal;

when a first factory reset operation of a user is detected, the factory settings are reset and flash is carried out for a second time at a second time interval; the first factory reset operation is that a power button of the lighting equipment is pressed for a first time length in the power-on state of the lighting equipment;

when a factory resetting instruction sent by the user terminal is received, factory resetting is restored, and after the user terminal is normally on for a second time, the user terminal flickers for a third time at a third time interval; and the factory resetting instruction is used for controlling the lighting equipment to be powered off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, wherein the fourth time interval is less than the fifth time interval.

2. The illumination method of claim 1,

when a first brightness adjusting instruction sent by the ambient light sensing equipment is received, adjusting the brightness to a first brightness value; the ambient light sensing device is used for sending the first brightness adjusting instruction to the lighting device when detecting that the ambient light brightness is smaller than or equal to a first brightness threshold value;

when a second brightness adjusting instruction sent by the ambient light sensing equipment is received, adjusting the brightness to a second brightness value; the ambient light sensing device is configured to send the second brightness adjustment instruction to the lighting device when detecting that ambient light brightness is greater than or equal to a second brightness threshold, where the first brightness threshold is less than the second brightness threshold, and the first brightness value is greater than the second brightness value.

3. The lighting method according to claim 1 or 2, wherein at least one of the lighting devices and at least one of the control devices are nodes in the predetermined network, any two nodes in the predetermined network are in communication connection through a direct communication manner or a relay communication manner, and the user terminal is in communication connection with one node in the predetermined network through the direct communication manner and in communication connection with other nodes in the predetermined network through the relay communication manner.

4. A lighting control method applied to a user terminal, the lighting control method comprising:

when the communication connection operation of a user is detected, establishing a communication connection relation with the lighting equipment and the control equipment;

when the network access operation of adding lighting equipment of a user is detected, sending a network access request to the lighting equipment;

when the network access operation of adding control equipment of a user is detected, sending a network access request to the control equipment; the control equipment is used for responding to the network access request and joining a preset network when receiving the network access request, the preset network is a low-power-consumption Bluetooth wireless grid network, the terminal, the lighting equipment and the control equipment have communication functions, and the user terminal, the lighting equipment and the control equipment are provided with low-power-consumption Bluetooth modules supporting the corresponding preset network;

when the lighting state control operation of the user is detected, sending a lighting state control instruction to at least one lighting device selected by the user;

when the association operation of the user is detected, sending an association request to at least one lighting device; the control device is used for sending an illumination state control instruction to at least one associated illumination device, and the illumination device is used for changing an illumination state according to the illumination state control instruction when receiving the illumination state control instruction;

synchronizing the configuration information to other user terminals when detecting the data synchronization operation of the user; the configuration information comprises floor information, area information, block information, lighting equipment network access information, control equipment network access information and association information between the lighting equipment and the control equipment;

when the network access operation of the added lighting equipment of the user is detected, before a network access request is sent to the lighting equipment, the method comprises the following steps:

when prompt information which is fed back by the lighting equipment and is not in a factory setting state is received, a factory setting restoration instruction is sent to the lighting equipment;

when detecting a first factory reset operation of a user, the lighting equipment resets the factory settings and flashes for a second time at a second time interval; the first factory reset operation is that a power button of the lighting equipment is pressed for a first time length in the power-on state of the lighting equipment; when a factory resetting instruction sent by the user terminal is received, factory resetting is restored, and after the user terminal is normally on for a second time, the user terminal flickers for a third time at a third time interval; the factory resetting instruction is used for controlling the lighting equipment to be powered off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, and the fourth time interval is less than the fifth time interval; when the network access operation of adding a control device of a user is detected, before a network access request is sent to the control device, the method comprises the following steps:

when prompt information which is fed back by the control equipment and is not in a factory setting state is received, a factory setting restoration instruction is sent to the control equipment;

the control equipment is used for restoring the factory setting and controlling the indicator lamp to flicker for a second time at a second time interval when detecting a first factory setting restoring operation of a user, and restoring the factory setting when receiving a factory setting restoring instruction sent by the user terminal, wherein the factory setting restoring instruction is used for controlling the control equipment to power off for a fifth time at a fifth time interval after being powered off for a fourth time at a fourth time interval, and the fourth time interval is less than the fifth time interval;

when the network access operation of the added lighting equipment of the user is detected, before a network access request is sent to the lighting equipment, the method comprises the following steps:

starting the lighting control application when detecting a lighting control application starting operation of a user;

when detecting the operation of a newly built floor of a user, newly building a floor;

when the floor naming operation of a user is detected, naming the newly established floor;

when detecting the operation of a newly-built area of a user, newly building an area in a selected floor; wherein a floor comprises at least one zone;

when the region naming operation of the user is detected, naming the newly-built region;

when detecting the operation of a new block of a user, newly building a block in a selected area; wherein one area comprises at least one block;

and when the block naming operation of the user is detected, naming the newly-built block.

5. The lighting control method according to claim 4, wherein, when the lighting device adding networking operation of the user is detected, before sending a networking request to the lighting device, the method comprises:

adding the lighting device to a selected tile; wherein one block comprises at least one lighting device;

automatically listing the lighting equipment which is not added to the preset network in the selected block;

when the network access operation of the added lighting equipment of the user is detected, sending a network access request to the lighting equipment, wherein the network access request comprises the following steps:

when the lighting equipment adding and networking operation of a user is detected, sending a networking request to the lighting equipment which is not added into the preset network in the selected block, so as to add the lighting equipment which is not added into the preset network in the selected block into the preset network;

when the network access operation of adding a control device of a user is detected, before a network access request is sent to the control device, the method comprises the following steps:

adding the control device to the selected block; wherein one control device can be added to at least one block of the same area;

automatically listing the control equipment which is not added to the preset network in the selected area;

when the network access operation of adding a control device of a user is detected, a network access request is sent to the control device, and the method comprises the following steps:

when the network access operation of the added control equipment of the user is detected, a network access request is sent to the control equipment which is not added into the preset network in the selected area, so that the control equipment which is not added into the preset network in the selected area is added into the preset network.

6. A lighting control system is characterized by comprising a user terminal, at least one lighting device and at least one control device, wherein the at least one lighting device and the at least one control device are connected to the same preset network, the control device is associated with the lighting device located in at least one area, and the control device comprises at least one of a remote controller, an ambient light sensing device and a human body sensing device;

the lighting device is used for realizing the lighting method as claimed in any one of claims 1 to 3;

the user terminal is used for realizing the lighting control method according to claim 4 or 5;

the remote controller is used for sending an illumination state control instruction to the illumination equipment;

the ambient light sensing apparatus is configured to:

detecting the brightness of the environment light;

when the ambient light brightness is less than or equal to a first brightness threshold value, sending a first brightness adjusting instruction to the lighting equipment;

when the ambient light brightness is greater than or equal to a second brightness threshold value, sending a second brightness adjusting instruction to the lighting equipment;

when the ambient light brightness is greater than the first brightness threshold and less than the second brightness threshold, sending a third brightness adjusting instruction to the lighting equipment;

the human body sensing device is for:

detecting whether a person is present;

sending a fourth brightness adjusting instruction to the lighting equipment when no one is in use;

and sending a fifth brightness adjusting instruction to the lighting equipment when a person exists.

7. A terminal device comprising a communication module, a memory, a processor and a computer program stored in the memory and executable on the processor;

the terminal device is a lighting device, the terminal device further comprises a light emitting component, and the processor implements the steps of the lighting method according to any one of claims 1 to 3 when executing the computer program;

alternatively, the terminal device is a user terminal, and the processor implements the steps of the lighting control method according to claim 4 or 5 when executing the computer program.

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