CN113543415A - Integral opening method and system of spliced lamp - Google Patents

Abstract

The invention discloses an integral starting method and system of a spliced lamp, wherein the method comprises the following steps: when the light module is powered on for the first time, the light module is determined to be a master control light module or a slave control light module, wherein one light module is the master control light module, and the other light modules are slave control light modules; the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links; after the slave light control module acquires an integral starting triggering instruction input by a user, feeding back a signal to the master light control module through a corresponding communication link; the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own light; and after the light control optical module acquires the light starting instruction, starting the light of the slave controller. The system comprises at least two light modules. The invention is mainly used in the technical field of lamp control.

Description

Integral opening method and system of spliced lamp

Technical Field

The invention relates to the technical field of lamp control, in particular to an integral opening method and system of a spliced lamp.

Background

A spliced lamp is available, namely, lamp forms with different shapes are spliced by a plurality of independent light modules. Wherein each light module has individual light turn-on and turn-off functionality. The spliced lamp has the characteristics that different light models can be constructed, and the spliced lamp has a good decorative effect. However, when the existing spliced lamp needs to be integrally lighted, each independent light module generally needs to be independently turned on, and when the number of the independent light modules is large, the lamp is very troublesome.

Disclosure of Invention

The present invention is directed to a method and system for integrally starting a tiled lighting device, so as to solve one or more technical problems in the prior art, and to provide at least one of the advantages.

The solution of the invention for solving the technical problem is as follows: the integral starting method of the spliced lamp comprises the following steps:

step 1, when a light module is powered on for the first time, determining that the light module is a master control light module or a slave control light module, wherein one light module is the master control light module, and the other light modules are slave control light modules;

step 2, the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links;

step 3, after acquiring an integral starting triggering instruction input by a user from the light control module, feeding back a signal to the main control light module through a corresponding communication link;

step 4, the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own lights;

and 5, after the light control optical module acquires the light starting instruction, starting the light of the light control optical module.

Further, each light module is provided with a dial switch, the dial switches output signal codes, wherein the signal codes respectively have 1 state or 0 state, when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave light control module;

each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code;

each light module broadcasts the sending code and receives the sending codes broadcast by other light modules;

the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation;

and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

Further, the master control light module synchronizes the broadcast sending pace with the broadcast receiving pace of all the slave light control modules, and the master control light module synchronizes the broadcast receiving pace with the broadcast sending pace of all the slave light control modules.

Further, the slave light control module acquires a trigger signal of a user through a touch key integrated with the slave light control module, the trigger signal is used as an integral starting trigger instruction, and after the slave light control module acquires the integral starting trigger instruction, the slave light control module sends the instruction to broadcast so as to feed the integral starting trigger instruction back to the master light control module.

Further, the master control light module receives the feedback signal, sends an integral starting triggering instruction to all the slave control light modules through the sending broadcast of the feedback signal, and after the sending of the integral starting triggering instruction is finished, the master control light module starts the light of the master control light module.

Further, after the integral starting triggering instruction is obtained through the receiving and broadcasting of the light control optical module, the light of the light control optical module is started.

In another aspect, an integral opening system for a tiled lighting fixture is provided, including: the lighting system comprises at least two lighting modules, wherein when the lighting modules are powered on for the first time, the lighting modules determine that the lighting modules are master control lighting modules or slave control lighting modules, one lighting module is a master control lighting module, and the other lighting modules are slave control lighting modules; the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links; after the slave light control module acquires an integral starting triggering instruction input by a user, feeding back a signal to the master light control module through a corresponding communication link; the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own light; and after the light control optical module acquires the light starting instruction, starting the light of the slave controller.

Further, each light module is provided with a dial switch, the dial switches output signal codes, wherein the signal codes respectively have 1 state or 0 state, when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave light control module;

each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code;

each light module broadcasts the sending code and receives the sending codes broadcast by other light modules;

the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation;

and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

The invention has at least the following beneficial effects: in one aspect, a method for integrally starting a spliced lamp is provided, which includes: step 1, when a light module is powered on for the first time, determining that the light module is a master control light module or a slave control light module, wherein one light module is the master control light module, and the other light modules are slave control light modules; step 2, the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links; step 3, after acquiring an integral starting triggering instruction input by a user from the light control module, feeding back a signal to the main control light module through a corresponding communication link; step 4, the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own lights; and 5, after the light control optical module acquires the light starting instruction, starting the light of the light control optical module. So as to realize the integral starting of all the light modules. The spliced lamp obtained by the light module can be integrally opened. Meanwhile, on the other hand, a system for executing the method is also provided. Since the system performs the above-described method, which has the advantageous effects of the above-described method, the description thereof will not be repeated here.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below.

Fig. 1 is a flowchart illustrating steps of an overall starting method of a tiled lighting device.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and those skilled in the art can obtain other embodiments without inventive effort based on the embodiments of the present invention, and all embodiments are within the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions. All technical characteristics in the invention can be interactively combined on the premise of not conflicting with each other.

Embodiment 1, referring to fig. 1, provides an overall startup method of a tiled lighting fixture, including:

step 1, when a light module is powered on for the first time, determining that the light module is a master control light module or a slave control light module, wherein one light module is the master control light module, and the other light modules are slave control light modules;

step 2, the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links;

step 3, after acquiring an integral starting triggering instruction input by a user from the light control module, feeding back a signal to the main control light module through a corresponding communication link;

step 4, the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own lights;

and 5, after the light control optical module acquires the light starting instruction, starting the light of the light control optical module.

The designation of the master control light module and the slave control light module can be manually designated. In some embodiments, the light module is provided with a human-computer interaction component, and information that a user needs to specify is notified to the light module through the human-computer interaction component, so that which light module is the master control light module and which light modules are the slave control light modules are determined. The master control light module is only one, and the other slave control light modules are arranged.

And confirming the master control light module and the slave control light module. In some preferred embodiments, each light module is provided with a dial switch, and the dial switch outputs a signal code, wherein the signal code has 1 state or 0 state respectively, when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave control light module; each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code; each light module broadcasts the sending code and receives the sending codes broadcast by other light modules; the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation; and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

The ID code of the light module is distributed through a prestored rule, and the rule can be freely customized by a manufacturer. Of course, for convenience, the applicability of the light module is wider, and the described identification code of the light module, which is set by the industry association, can also be used as the ID code. The purpose of setting the ID code is to enable the light module to have relative uniqueness in a certain field, and the light module is convenient to identify.

In the process of confirming the master control light module and the slave control light module, the invention conception is carried out in a mode of mutually broadcasting and mutually confirming the light modules. Firstly, a user determines whether the light module is a master control light module or a slave control light module through a dial switch on the light module. Then all the light modules are electrified, the light modules obtain signal codes through the toggle switch, and the signal codes are loaded on the ID codes of the light modules to obtain sending codes. The light module broadcasts the sending code in a broadcasting mode. The light module acquires the broadcast, and therefore, the transmission codes of other light modules can be obtained. The light module can know which light modules are the master control light module (different light modules can be distinguished according to the ID code) and which light modules are the slave control light modules (different light modules can be distinguished according to the ID code) according to the sending code and the received sending code of the light module. Of course, in order to maintain the uniqueness of the master control light module, before confirming the master control light module and the slave control light module, the uniqueness of the master control light module needs to be ensured. When the light module finds that two or more main control light modules exist, the main control light module and the slave light control module are considered to be unable to be confirmed, and the light module outputs a signal reflecting the unable confirmation; when the light module finds that only one master control light module exists, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module. Wherein, the light module can reflect the signal that can't confirm through the form of scintillation. Of course, the manufacturer can freely set the feedback by which form. The purpose of reflecting the unconfirmable signal is to prompt the user and to modify the allocation of master and slave light control modules to the light modules in time.

After the light module confirms the master control light module and the slave control light modules, the master control light module actively establishes a communication link with each slave control light module so as to facilitate signal communication between the master control light module and the slave control light modules. In order to ensure smooth signal communication, the established communication link needs to be maintained.

In some preferred embodiments, the method for the master light module to establish the communication link with the slave light module and maintaining the existence of the communication link includes: the master control light module synchronizes the broadcast sending pace with the broadcast receiving paces of all the slave light control modules, and the master control light module synchronizes the broadcast receiving pace with the broadcast sending paces of all the slave light control modules.

The master control light module and the slave light modules share the broadcast pace in order to ensure the maintenance of the communication link, so that the master control light module and the slave light modules have the same pace. Also, the form of unidirectional broadcasting is adopted, i.e., transmission broadcasting and reception broadcasting are separated. Therefore, in order to enable the information of the master control light module to be well transmitted to the slave control light module, the broadcast sending pace of the master control light module and the broadcast receiving pace of the slave control light module are synchronized. In order to enable the information of the slave light control module to be well transmitted to the master light control module, the broadcast sending pace of the slave light control module is synchronized with the broadcast receiving pace of the master light control module.

When all the light modules need to be started, a user can trigger the slave light control modules, the slave light control modules convert the trigger of the user into an integral starting trigger instruction, and signals are fed back to the master light control module through corresponding communication links. In some preferred embodiments, the slave light control module acquires a trigger signal of a user through a touch key integrated with the slave light control module, and uses the trigger signal as an overall starting trigger instruction, and after acquiring the overall starting trigger instruction from the slave light control module, the slave light control module sends a broadcast of the instruction to feed back the overall starting trigger instruction to the master light control module. In these embodiments, the slave light control module and the master light module are synchronized, so that the slave light control module can well feed back the overall start trigger instruction to the master light module by sending broadcast. The main control light module can receive the integral starting triggering instruction well through receiving broadcast.

After the master control light module receives the feedback signal (the integral starting triggering instruction), the integral starting triggering instruction is sent to all the slave control light modules through the sending broadcast of the master control light module, and after the sending of the integral starting triggering instruction is finished, the master control light module starts the light of the master control light module. After receiving the overall starting triggering instruction sent by the slave light control modules, the master control light module determines that the light needs to be started for all the slave light control modules. And the slave light control module receives the broadcast through the slave light control module to obtain an integral starting triggering instruction, and the slave light control module starts light.

The embodiment also provides an overall starting system of the spliced lamp, which is used for executing the overall starting method of the spliced lamp in any embodiment. The integral opening system of the spliced lamp comprises: the lighting system comprises at least two lighting modules, wherein when the lighting modules are powered on for the first time, the lighting modules determine that the lighting modules are master control lighting modules or slave control lighting modules, one lighting module is a master control lighting module, and the other lighting modules are slave control lighting modules; the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links; after the slave light control module acquires an integral starting triggering instruction input by a user, feeding back a signal to the master light control module through a corresponding communication link; the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own light; and after the light control optical module acquires the light starting instruction, starting the light of the slave controller.

Each light module is provided with a dial switch, the dial switches output signal codes, the signal codes respectively have 1 state or 0 state, when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave control light module; each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code; each light module broadcasts the sending code and receives the sending codes broadcast by other light modules; the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation; and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

The master control light module synchronizes the broadcast sending pace with the broadcast receiving paces of all the slave light control modules, and the master control light module synchronizes the broadcast receiving pace with the broadcast sending paces of all the slave light control modules.

In some preferred embodiments, the slave light control module acquires a trigger signal of a user through a touch key integrated with the slave light control module, and uses the trigger signal as an overall starting trigger instruction, and after acquiring the overall starting trigger instruction from the slave light control module, the slave light control module sends a broadcast of the instruction to feed back the overall starting trigger instruction to the master light control module.

In some preferred embodiments, the master control light module receives the feedback signal, and sends an overall starting triggering instruction to all the slave light control modules through the sending broadcast of the feedback signal, and after the sending of the overall starting triggering instruction is finished, the master control light module starts the light of the master control light module.

In some preferred embodiments, after the overall starting triggering instruction is obtained from the receiving broadcast of the light control light module, the light of the light control light module is started.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that the present invention is not limited to the details of the embodiments shown and described, but is capable of numerous equivalents and substitutions without departing from the spirit of the invention and its scope is defined by the claims appended hereto.

Claims (8)

1. An integral opening method of a spliced lamp is characterized by comprising the following steps:

step 1, when a light module is powered on for the first time, determining that the light module is a master control light module or a slave control light module, wherein one light module is the master control light module, and the other light modules are slave control light modules;

step 2, the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links;

step 3, after acquiring an integral starting triggering instruction input by a user from the light control module, feeding back a signal to the main control light module through a corresponding communication link;

step 4, the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own lights;

and 5, after the light control optical module acquires the light starting instruction, starting the light of the light control optical module.

2. The method for integrally starting a spliced lamp according to claim 1, wherein each light module is provided with a dial switch, the dial switch outputs a signal code, wherein the signal code has 1 state or 0 state respectively, when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave control light module;

each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code;

each light module broadcasts the sending code and receives the sending codes broadcast by other light modules;

the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation;

and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

3. The method as claimed in claim 2, wherein the master control light module synchronizes its broadcast transmission pace with the broadcast reception pace of all the slave light control modules, and the master control light module synchronizes its broadcast reception pace with the broadcast transmission pace of all the slave light control modules.

4. The integral starting method of the spliced lamp as claimed in claim 3, wherein the slave lamp control module obtains a trigger signal of a user through a touch key integrated with the slave lamp control module, and uses the trigger signal as an integral starting trigger instruction, and after the slave lamp control module obtains the integral starting trigger instruction, the slave lamp control module sends the instruction to broadcast so as to feed the integral starting trigger instruction back to the master lamp control module.

5. The integral starting method of the spliced lamp according to claim 4, wherein the master control lamp module receives the feedback signal, sends an integral starting triggering instruction to all the slave lamp control modules through the sending broadcast of the feedback signal, and after the sending of the integral starting triggering instruction is finished, the master control lamp module starts the lamp of the master control lamp module.

6. The integral starting method of the spliced lamp as claimed in claim 5, wherein the lamp light of the lamp control light module is started after the integral starting triggering instruction is obtained from the receiving and broadcasting of the lamp control light module.

7. An integral opening system of a tiled lighting fixture, comprising: the lighting system comprises at least two lighting modules, wherein when the lighting modules are powered on for the first time, the lighting modules determine that the lighting modules are master control lighting modules or slave control lighting modules, one lighting module is a master control lighting module, and the other lighting modules are slave control lighting modules; the master control light module actively establishes a communication link with each slave control light module and maintains the connection state of the communication links; after the slave light control module acquires an integral starting triggering instruction input by a user, feeding back a signal to the master light control module through a corresponding communication link; the master control light module receives the feedback signal, sends a light starting instruction to all slave control lights through the communication link, and starts own light; and after the light control optical module acquires the light starting instruction, starting the light of the slave controller.

8. The system according to claim 7, wherein each light module is provided with a dial switch, and the dial switch outputs a signal code, wherein the signal code has 1 or 0 state, and when the signal code is 1, the light module is considered as a master control light module, and when the signal code is 0, the light module is considered as a slave control light module;

each light module is allocated with a unique ID code, and the light module detects a signal code output by a dial switch of the light module when being powered on for the first time and loads the signal to the ID code to obtain a sending code;

each light module broadcasts the sending code and receives the sending codes broadcast by other light modules;

the light module checks the self sending code and the received sending code, when two or more main control light modules exist according to the sending codes, the main control light modules and the slave light control modules are considered to be unable to be confirmed, and the light modules output signals reflecting the unable confirmation;

and when only one master control light module exists according to the sending code, the master control light module and the slave light control module are determined to be confirmed, and the slave light control module sends a confirmation signal to the master control light module.

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