CN115568066A - Intelligent lamp control pairing system and method - Google Patents

Abstract

The invention provides an intelligent lamp control pairing system and method, wherein wiring of each intelligent lamp and each switch is simple and convenient, the positions of the switches and the lamps can be set according to use habits, pairing between various switches and the intelligent lamps can be carried out according to user requirements, and the system and method are flexible to use and meet personalized requirements of users.

Description

Intelligent lamp control pairing system and method

Technical Field

The invention relates to the technical field of electronics, in particular to an intelligent lamp control pairing system and method.

Background

Light control accounts for the greatest proportion in smart homes, and the use frequency is much higher than that of other applications. However, the respective pain points of the lamp control products which are put on the market at present generally exist. Although the adopted solution covers almost all internet of things technologies, such as bluetooth, wiFi, loRa, ioT, zigBee, 4G/5G, and the like, in terms of deployment and configuration of the lamp control system, the deployment and configuration scheme is too complex, the learning curve is too steep, and these pain points directly hinder the popularization and use of the intelligent lamp control system.

Many lamp control systems based on "cloud" and cell phone App now need each controlled lamp to be connected to the "cloud" end through a certain channel, and then can be configured. Before configuration, user registration is finished, and related configuration operation is not visual and is too technical. The traditional lamp control based on the switch loop needs to be replaced in a large range, and the convenience is not enough. In the existing lamp control, the pairing process of the ' switch ' and the ' lamp ' is complex, the unique serial numbers of the ' lamp ' and (or) the ' switch ' need to be recorded in advance in the pairing process based on the ' cloud ' or the local network, the corresponding relation between the ' lamp ' and the ' switch ' needs to be recorded in advance, and once the unique serial numbers are determined, the lamp ' and the ' switch ' need to be adjusted later, the pairing process is not simple. Or the "pairing button" of the "lamp" and the "switch" needs to be pressed simultaneously during pairing, which is very inconvenient in practical application environment and installation scene.

Therefore, it is an urgent need to solve the above-mentioned problems by designing a low-cost, highly reliable and hands-free solution.

Disclosure of Invention

The present invention is directed to solving the above problems.

The invention mainly aims to provide an intelligent lamp control pairing system;

the invention also aims to provide an intelligent lamp control pairing method.

In order to achieve the purpose, the technical scheme of the invention is realized as follows:

one aspect of the present invention provides an intelligent lamp control pairing system, including: the intelligent lamp comprises at least one intelligent lamp, at least one switch, a main control unit and a signal transmitter; each intelligent lamp is provided with a signal receiving module, each intelligent lamp, each switch and the main control unit are electrically connected to form a loop, the signal transmitter comprises a visible light emitting module and a signal transmitting module, and the light spot range of visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal transmitting module are configured to be the same size in the same area; in the pairing process: the main control unit is used for identifying the unique identifier of each switch and the unique identifier of each intelligent lamp in a loop; sending a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state; the to-be-paired switch is used for receiving a pairing instruction, sending the unique identifier of the to-be-paired switch to the main control unit and entering a pairing state; the signal transmitter is used for receiving a visible light emission instruction, emitting visible light and enabling the visible light to irradiate the area to be paired; receiving a signal transmitting instruction, and transmitting a preset pulse signal to the area to be paired; the intelligent lamps are positioned in the area to be paired and used for receiving the pulse signals and sending respective unique identifiers to the main control unit; the main control unit is further used for matching the unique identification sent by the intelligent lamp of the area to be matched with the unique identification sent by the switch to be matched, and storing matching information.

The to-be-paired switch receives a pairing instruction in the following way, sends the unique identifier of the to-be-paired switch to the main control unit, and enters a pairing state: the to-be-paired switch is specifically used for receiving a pairing instruction and sending the unique identifier of the to-be-paired switch to the main control unit; receiving a pairing state entering instruction sent by the main control unit, and entering a pairing state; or the to-be-paired switch is specifically configured to receive a pairing instruction, enter a pairing state, and send the unique identifier of the to-be-paired switch to the main control unit at the same time.

The switch to be paired is further configured to receive a pairing state ending instruction and end the pairing state.

The to-be-paired switches comprise one or more switches.

The intelligent lamps of each to-be-paired area comprise one or more intelligent lamps, and the intelligent lamps of each to-be-paired area comprise different intelligent lamps or partially same intelligent lamps or all same intelligent lamps.

The invention provides an intelligent lamp control pairing method on the other hand, which comprises the following steps: the main control unit identifies the unique identifier of each switch and the unique identifier of each intelligent lamp in a loop, wherein at least one intelligent lamp, at least one switch and the main control unit are electrically connected to form a loop, and each intelligent lamp is provided with a signal receiving module; the main control unit sends a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state; the to-be-paired switch receives the pairing instruction, sends the unique identifier of the to-be-paired switch to the main control unit and enters a pairing state; the signal emitter receives a visible light emitting instruction, emits visible light and enables the visible light to irradiate to a to-be-paired area, wherein the signal emitter comprises a visible light emitting module and a signal emitting module, and the light spot range of the visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal emitting module are configured to be the same size of the same area; the signal transmitter receives a signal transmitting instruction and sends a preset pulse signal to the area to be paired; the intelligent lamps positioned in the area to be paired receive the pulse signals and send respective unique identifiers to the main control unit; and the main control unit pairs the unique identifier sent by the intelligent lamp of the area to be paired and the unique identifier sent by the switch to be paired and stores pairing information.

The method for pairing the switch to be paired comprises the following steps of receiving a pairing instruction, sending a unique identifier of the switch to be paired to the main control unit, and entering a pairing state, wherein the pairing instruction comprises the following steps: the to-be-paired switch receives a pairing instruction and sends the unique identifier of the to-be-paired switch to the main control unit; the master control unit sends a pairing state entering instruction to the switch to be paired; the to-be-paired switch receives the pairing state entering instruction and enters a pairing state; or the to-be-paired switch receives the pairing instruction, enters a pairing state, and simultaneously sends the unique identifier of the to-be-paired switch to the main control unit.

Wherein, the method further comprises: and the switch to be paired receives the pairing state ending instruction and ends the pairing state.

The to-be-paired switches comprise one or more switches.

The intelligent lamps of each to-be-paired area comprise one or more intelligent lamps, and the intelligent lamps of each to-be-paired area comprise different intelligent lamps or partially same intelligent lamps or all same intelligent lamps.

According to the technical scheme provided by the invention, the intelligent lamp control pairing system and the intelligent lamp control pairing method are provided, wiring of each intelligent lamp and each switch is simple and convenient, the positions of the switches and the lamps can be set according to use habits, pairing between various switches and the intelligent lamps can be carried out according to user requirements, and the use is flexible, so that the individual requirements of users can be met.

Drawings

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

Fig. 1 is a schematic structural diagram of an intelligent lamp control pairing system according to an embodiment of the present invention;

fig. 2 is a flowchart of an intelligent lamp control pairing method according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention.

Fig. 1 shows an intelligent lamp control pairing system provided in an embodiment of the present invention, and referring to fig. 1, the intelligent lamp control pairing system provided in the embodiment of the present invention includes: the intelligent lamp comprises at least one intelligent lamp, at least one switch, a main control unit and a signal transmitter; the intelligent lamp comprises a signal transmitter, a signal receiver module, a signal transmitter module, a signal processing module and a signal processing module, wherein the signal receiver module is arranged on each intelligent lamp, each switch and the main control unit are electrically connected to form a loop, the signal transmitter comprises a visible light emitting module and a signal transmitting module, and the light spot range of visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal transmitting module are configured to be the same size in the same area;

in the pairing process:

the main control unit is used for identifying the unique identifier of each switch and the unique identifier of each intelligent lamp in the loop; sending a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state;

the to-be-paired switch is used for receiving the pairing instruction, sending the unique identifier of the to-be-paired switch to the main control unit and entering a pairing state;

the signal emitter is used for receiving a visible light emitting instruction, emitting visible light and irradiating the visible light to an area to be paired; receiving a signal transmitting instruction, and transmitting a preset pulse signal to an area to be paired;

the intelligent lamps are positioned in the area to be paired and used for receiving the pulse signals and sending respective unique identifiers to the main control unit;

the main control unit is also used for matching the unique identification sent by the intelligent lamp in the area to be matched and the unique identification sent by the switch to be matched, and storing matching information.

Specifically, the intelligent lamp is installed at a predetermined position, the switch is also installed at a predetermined position, and the switch is connected to the main control unit through a line, so that the main control unit can find the unique identification of the switch and the intelligent lamp in a loop, wherein the unique identification can be a number and/or an address for identifying each switch and the intelligent lamp.

In the invention, in a lamp control loop with one or more main control units, each main control unit can receive the management of a host; the host may be based on a linux platform or an android platform; the main control unit and the host can communicate through a high-speed SPI or other interfaces; the host is responsible for completing the conversion of each unit address under each loop; the host can also access the Internet through WiFi or network cables; can join in certain thing networking ecology with whole intelligent lamp accuse pairing system through the host computer.

The invention can be provided with relay nodes for connecting loops, wherein each loop can be connected with 4 relay nodes at most; 20-30 switches or intelligent lamps can be connected between the main control unit and the relay nodes and between the relay nodes. The whole loop can be connected with 100-150 switches or intelligent lamps. The longest line distance between the main control unit and the relay node and between the relay nodes can be 200 meters. The relay node can be provided with a working state indicator lamp which is lighted when working normally.

Each intelligent lamp is provided with a signal receiving module, and the signal receiving module is an electromagnetic wave receiving module, such as an infrared receiving module, and is used for receiving the pulse signals sent by the signal transmitter. Specifically, the intelligent lamp can be provided with 1 infrared receiving tube. When the main control unit enters the pairing mode, all the lamps on the loop enter the pairing state, and the infrared receiving tube is turned on. The lamp in the pairing state sends the unique identification of the lamp to the main control unit each time the lamp receives the infrared pulse signal sent by the signal transmitter. So that the master control unit binds the received unique identifier of the lamp with the previously received unique identifier of the switch, and the pairing of the switch and the lamp is realized. And when the main control unit enters a normal operation mode, all the intelligent lamps on the loop enter an operation state, and the respective infrared receiving tubes are closed.

The master control unit may receive a discovery command before identifying the unique identifier of each switch and the unique identifier of each smart lamp in the loop, and enter a discovery state, for example: the main control unit can be provided with a discovery button and a discovery state indicator light, and after the discovery button is pressed down, the main control unit can enter a discovery state and the discovery state indicator light flickers; or the main control unit is connected with a matched host, such as a mobile phone APP, in a wired or wireless mode, and enters a discovery state and the like under the control of the mobile phone APP. When the main control unit enters a discovery state, the unique identifier of each switch and the unique identifier of each intelligent lamp in the loop can be identified.

The main control unit may receive a pairing instruction before sending a pairing state instruction to each smart lamp to instruct each smart lamp to enter a pairing state, for example: the main control unit can be provided with a pairing button and a pairing state indicator lamp, the main control unit can enter a pairing state after the pairing button is pressed down, and the pairing state indicator lamp flickers; or the main control unit is connected with a matched host, such as a mobile phone APP, in a wired or wireless mode, and enters a pairing state and the like under the control of the mobile phone APP. After the main control unit enters the pairing state, a pairing state instruction can be sent to each intelligent lamp to indicate that each intelligent lamp enters the pairing state.

And if a certain switch needs to be paired and bound with the intelligent lamp which needs to be controlled by the switch, the switch to be paired receives the pairing instruction, sends the unique identifier of the switch to be paired to the main control unit, and enters a pairing state. Specifically, 1 reboundable switch button and 1 double-color status indicator lamp (for example, green indicates that a controlled lamp is turned off, and red indicates that the controlled lamp is turned on) can be arranged on the switch to be paired, and after the switch node to be paired is connected to the loop, the double-color status indicator lamp is turned off; after the address is found and allocated by the main control unit and is not matched, the red light flickers, after the button on the switch to be matched is continuously pressed for 3 seconds, the switch to be matched enters a matching state, the green indicator light flickers, the red indicator light is turned off, and meanwhile the address of the switch to be matched is sent to the main control unit.

As an optional implementation manner of the embodiment of the present invention, the to-be-paired switch receives the instruction to end the pairing state, and ends the pairing state. Specifically, after all the pairing of the to-be-paired switches is completed, the buttons on the switches can be pressed for a short time again, the to-be-paired switches exit the pairing state, the green indicator light stops flashing and is normally on, and then the switches enter the normal operation state; of course, the pairing end state instruction may also be sent to the to-be-paired switch by the main control unit, so that the to-be-paired switch ends the pairing state.

As an optional implementation manner of the embodiment of the present invention, the to-be-paired switch receives the pairing instruction in the following manner, sends the unique identifier of the to-be-paired switch to the main control unit, and enters the pairing state: the to-be-paired switch is specifically used for receiving the pairing instruction and sending the unique identifier of the to-be-paired switch to the main control unit; receiving a pairing state entering instruction sent by a main control unit, and entering a pairing state; or the to-be-paired switch is specifically used for receiving the pairing instruction, entering a pairing state and simultaneously sending the unique identifier of the to-be-paired switch to the main control unit. The main control unit is controlled to enter the pairing state, so that the main control unit can be ensured to acquire the unique identifier of the switch to be paired and directly enter the pairing state, the pairing time is saved, and the processing efficiency is improved; of course, the present invention is not limited to any manner of entering the pairing state, and as long as the main control unit can obtain the unique identifier of the switch to be paired, the scheme that the switch to be paired can enter the pairing state all belongs to the protection scope of the present invention.

As an optional implementation of the embodiment of the present invention, the switch to be paired includes one or more switches. Specifically, in one pairing, one or more switches may be paired simultaneously; in addition, one or more reboundable switch buttons can be arranged on one to-be-matched switch. For example: the switch is provided with 1-10 reboundable switch buttons which respectively correspond to 1-10 double-color LED indicating lamps, and each switch button can independently control one or a group of lamps. Each switch button can be independently paired with an intelligent lamp.

The invention particularly designs a signal transmitter which can emit visible light for setting personnel to identify an area to be paired and can also emit a pulse signal for sending a pairing instruction to an intelligent lamp in the area to be paired. Specifically, 1 (group) of visible light LEDs and 1 (group) of infrared LED generation tubes, 1 selection button, may be provided on the signal transmitter. The beams of the visible LED and the infrared LED have the same projected spot boundary. When the switch and the intelligent lamp are paired, the covered intelligent lamp can become the lamp which is required to be paired by the appointed switch only by irradiating visible light spots of the signal emitter onto the intelligent lamp to be paired and then pressing the selection button to send out a string of infrared pulses.

As an optional implementation manner of the embodiment of the present invention, the smart lamp of each to-be-paired area includes one or more smart lamps, and the smart lamps of each to-be-paired area include different smart lamps or partially or completely different smart lamps. Therefore, the same group of lamps can be controlled by any switches, or multiple groups of lamps can be controlled by one switch, so that any pairing can be realized, and diversified configuration can be carried out according to actual requirements.

Therefore, by using the intelligent lamp control pairing system provided by the embodiment of the invention, the wiring of each intelligent lamp and each switch is simple and convenient, the positions of the switches and the lamps can be set according to the use habit, the pairing between various switches and the intelligent lamps can be carried out according to the user requirements, and the use is flexible, so that the individualized requirements of the user are met.

Fig. 2 is a flowchart illustrating an intelligent lamp control pairing method according to an embodiment of the present invention, where the intelligent lamp control pairing method is applied to the intelligent lamp control pairing system, and only a flow of the intelligent lamp control pairing method is briefly described below, and please refer to a related description of the intelligent lamp control pairing system for other matters, referring to fig. 2, the intelligent lamp control pairing method according to the embodiment of the present invention includes:

s1, a main control unit identifies a unique identifier of each switch and a unique identifier of each intelligent lamp in a loop, wherein at least one intelligent lamp, at least one switch and the main control unit are electrically connected to form the loop, and each intelligent lamp is provided with a signal receiving module;

s2, the main control unit sends a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state;

s3, the to-be-paired switch receives the pairing instruction, sends the unique identifier of the to-be-paired switch to the main control unit, and enters a pairing state;

s4, the signal transmitter receives a visible light emitting instruction, emits visible light and enables the visible light to irradiate the to-be-paired area, wherein the signal transmitter comprises a visible light emitting module and a signal emitting module, and the light spot range of the visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal emitting module are configured to be the same size of the same area;

s5, the signal emitter receives a signal emission instruction and sends a preset pulse signal to an area to be paired;

s6, receiving the pulse signals by the intelligent lamps positioned in the area to be paired, and sending respective unique identifiers to the main control unit;

and S7, the main control unit pairs the unique identification sent by the intelligent lamp in the area to be paired and the unique identification sent by the switch to be paired, and stores pairing information.

As an optional implementation manner of the embodiment of the present invention, the receiving, by the to-be-paired switch, the pairing instruction, sending, to the master control unit, the unique identifier of the to-be-paired switch, and entering the pairing state includes: the to-be-paired switch receives the pairing instruction and sends the unique identifier of the to-be-paired switch to the main control unit; the master control unit sends a pairing state entering instruction to the switch to be paired; the to-be-paired switch receives a pairing state entering instruction and enters a pairing state; or the to-be-paired switch receives the pairing instruction, enters a pairing state, and simultaneously sends the unique identifier of the to-be-paired switch to the main control unit.

As an optional implementation manner of the embodiment of the present invention, the intelligent lamp control pairing method provided in the embodiment of the present invention further includes:

and the pairing switch receives the pairing state finishing instruction and finishes the pairing state.

As an optional implementation of the embodiment of the present invention, the switch to be paired includes one or more switches.

As an optional implementation manner of the embodiment of the present invention, the smart lamp of each to-be-paired area includes one or more smart lamps, and the smart lamps of each to-be-paired area include different smart lamps or partially or completely different smart lamps.

Therefore, by using the intelligent lamp control pairing method provided by the embodiment of the invention, the wiring of each intelligent lamp and each switch is simple and convenient, the positions of the switches and the lamps can be set according to the use habit, the pairing between various switches and the intelligent lamps can be carried out according to the user requirements, and the use is flexible, so that the individual requirements of the user can be met.

Although embodiments of the present invention have been shown and described above, it will be understood that the above embodiments are exemplary and not to be construed as limiting the present invention, and that those skilled in the art may make variations, modifications, substitutions and alterations within the scope of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. An intelligent lamp control pairing system, comprising: the intelligent lamp comprises at least one intelligent lamp, at least one switch, a main control unit and a signal transmitter; each intelligent lamp is provided with a signal receiving module, each intelligent lamp, each switch and the main control unit are electrically connected to form a loop, the signal transmitter comprises a visible light emitting module and a signal transmitting module, and the light spot range of visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal transmitting module are configured to be the same size in the same area;

in the pairing process:

the main control unit is used for identifying the unique identifier of each switch and the unique identifier of each intelligent lamp in a loop; sending a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state;

the to-be-paired switch is used for receiving a pairing instruction, sending the unique identifier of the to-be-paired switch to the main control unit and entering a pairing state;

the signal transmitter is used for receiving a visible light emitting instruction, emitting visible light and enabling the visible light to irradiate an area to be paired; receiving a signal transmitting instruction, and transmitting a preset pulse signal to the area to be paired;

the intelligent lamps are positioned in the area to be paired and used for receiving the pulse signals and sending respective unique identifiers to the main control unit;

the main control unit is further used for matching the unique identification sent by the intelligent lamp of the area to be matched with the unique identification sent by the switch to be matched, and storing matching information.

2. The system of claim 1, wherein the to-be-paired switch receives the pairing instruction, sends the unique identifier of the to-be-paired switch to the master control unit, and enters the pairing state:

the to-be-paired switch is specifically used for receiving a pairing instruction and sending the unique identifier of the to-be-paired switch to the main control unit; receiving a pairing state entering instruction sent by the main control unit, and entering a pairing state;

or

The to-be-paired switch is specifically configured to receive a pairing instruction, enter a pairing state, and simultaneously send a unique identifier of the to-be-paired switch to the main control unit.

3. The system according to claim 1 or 2,

the switch to be paired is also used for receiving a pairing state finishing instruction and finishing the pairing state.

4. The system of claim 1, wherein the switch to be paired comprises one or more switches.

5. The system according to claim 1 or 4, wherein each of the intelligent lamps of the to-be-paired areas comprises one or more intelligent lamps, and each of the intelligent lamps of the to-be-paired areas comprises different intelligent lamps or partially or completely different intelligent lamps.

6. An intelligent lamp control pairing method is characterized by comprising the following steps:

the main control unit identifies the unique identifier of each switch and the unique identifier of each intelligent lamp in a loop, wherein at least one intelligent lamp, at least one switch and the main control unit are electrically connected to form a loop, and each intelligent lamp is provided with a signal receiving module;

the main control unit sends a pairing state instruction to each intelligent lamp to indicate each intelligent lamp to enter a pairing state;

the to-be-paired switch receives the pairing instruction, sends the unique identifier of the to-be-paired switch to the main control unit and enters a pairing state;

the signal emitter receives a visible light emitting instruction, emits visible light and enables the visible light to irradiate to a to-be-paired area, wherein the signal emitter comprises a visible light emitting module and a signal emitting module, and the light spot range of the visible light emitted by the visible light emitting module and the signal coverage range emitted by the signal emitting module are configured to be the same size in the same area;

the signal transmitter receives a signal transmitting instruction and sends a preset pulse signal to the area to be paired;

the intelligent lamps positioned in the area to be paired receive the pulse signals and send respective unique identifiers to the main control unit;

and the main control unit pairs the unique identifier sent by the intelligent lamp of the area to be paired and the unique identifier sent by the switch to be paired and stores pairing information.

7. The method according to claim 6, wherein the receiving of the pairing instruction by the switch to be paired, the sending of the unique identifier of the switch to be paired to the master control unit, and the entering of the pairing state comprise:

the to-be-paired switch receives a pairing instruction and sends the unique identifier of the to-be-paired switch to the main control unit;

the main control unit sends a pairing state entering instruction to the switch to be paired;

the to-be-paired switch receives the pairing state entering instruction and enters a pairing state;

or

And the to-be-paired switch receives the pairing instruction, enters a pairing state and simultaneously sends the unique identifier of the to-be-paired switch to the main control unit.

8. The method of claim 6 or 7, further comprising:

and the to-be-paired switch receives the pairing state finishing instruction and finishes the pairing state.

9. The method of claim 6, wherein the switch to be paired comprises one or more switches.

10. The method according to claim 6 or 9, wherein the smart lamps of each to-be-paired area comprise one or more smart lamps, and the smart lamps of each to-be-paired area comprise different smart lamps or partially or completely different smart lamps.

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