CN220475965U - Intelligent lighting unit and lighting system - Google Patents

Abstract

The utility model provides an intelligent lighting unit and a lighting system. The intelligent lighting unit comprises a first light source, a second light source, a voice control module, a first wireless communication module and a second wireless communication module; the voice control module is respectively and electrically connected with the first light source and the first wireless communication module, the second light source is connected with the second wireless communication module, and the first wireless communication module can be connected with the second wireless communication module to form a Mesh network; the voice control module is used for regulating and controlling the working states of the first light source and the first wireless communication module and regulating and controlling the working state of the second light source through the Mesh network. Compared with the prior art, the intelligent lighting unit and the lighting system using the same provided by the utility model provide a simpler intelligent scheme for users, have low use difficulty and low cost, and can give better use experience to the users.

Description

Intelligent lighting unit and lighting system

Technical Field

The utility model particularly relates to an intelligent lighting unit and an intelligent lighting system, and belongs to the technical field of intelligent home.

Background

At present, the mainstream system of smart home market mainstream is the serious intelligent system of APP and high in the clouds, voice sound box and terminal equipment cooperation, and unable direct unpacking just uses after the user purchases equipment, generally need through downloading APP, register account, for every equipment join in marriage the net one by one just can use, although can control through voice sound box, the audio amplifier needs networking and internet just can realize the function, and responds slowly. The whole process requires professional service team support or the user himself to know the product very much and spend little time researching the product using method, etc. For example, CN206833230U provides an intelligent home voice control system capable of realizing man-machine interaction, which belongs to a system, and the intelligent home voice control system is characterized in that a voice command is issued to an intelligent voice robot and is transmitted to a robot background server through a router, the robot background server automatically analyzes the voice command through an artificial intelligent voice recognition technology to convert the voice command into a text command, the conversion of the command can be compatible with various systems, the text command is transmitted to a central control host, the central control host controls an execution terminal according to each recognized functional scene to realize home intelligent control, the execution terminal feeds back an execution result to the central control host, and then sequentially transmits the execution result to the robot background server through a switch and the router, the robot background server converts the execution result into voice, and transmits the voice command to the intelligent voice robot through the router, and finally feeds back the execution condition of the execution terminal in a voice form closed loop control. While such systems may give users very much freedom and playability, they also set high application thresholds that are not conducive to mass use.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide an intelligent lighting unit and a lighting system.

In order to achieve the purpose of the utility model, the technical scheme adopted by the utility model comprises the following steps:

one aspect of the present utility model provides an intelligent lighting unit including a first light source, a second light source, a voice control module, a first wireless communication module, and a second wireless communication module; the voice control module is respectively and electrically connected with the first light source and the first wireless communication module, the second light source is connected with the second wireless communication module, and the first wireless communication module can be connected with the second wireless communication module to form a Mesh network; the voice control module is used for regulating and controlling the working states of the first light source and the first wireless communication module and regulating and controlling the working state of the second light source through the Mesh network.

In one embodiment, the voice control module, the first light source and the first wireless communication module are integrally provided.

In one embodiment, the second light source is integrally provided with the second wireless communication module.

In one embodiment, the voice control module comprises an offline voice recognition control module.

In one embodiment, the second light source and the second wireless communication module are multiple, and each second light source is connected with a corresponding second wireless communication module.

In one embodiment, the first wireless communication module and the second wireless communication module comprise bluetooth modules.

In one embodiment, the first light source and the second light source comprise a ceiling lamp, a pendant lamp, a desk lamp, a wall lamp, a down lamp, a spotlight or a strip lamp.

Another aspect of the utility model provides a lighting system comprising more than two intelligent lighting units as described, each of said intelligent lighting units being distributed in a different physical space.

The different physical spaces may be a plurality of small spaces formed by separating a continuous large space by walls, baffles, etc., such as a plurality of rooms in a residence, or a plurality of independent spaces which are not shielded from each other but are spaced apart from each other, such as a plurality of residences in a cell.

In one embodiment, the Mesh network formed within one of the intelligent lighting units is independent of the Mesh network formed within another of the intelligent lighting units.

In one embodiment, each of the physical spaces is a room within an office or residential site.

Compared with the prior art, the intelligent lighting unit and the lighting system using the same provided by the utility model provide a simpler intelligent scheme for users, have low use difficulty and low cost, and can give better use experience to the users.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent lighting unit according to an embodiment of the present utility model;

fig. 2 is a schematic diagram of a lighting system for a residence in accordance with one embodiment of the present utility model.

Detailed Description

In view of the shortcomings in the prior art, the inventor of the present utility model has long studied and practiced in a large number of ways to propose the technical scheme of the present utility model. The technical scheme, implementation process, principle and the like are further explained in the following with reference to examples.

The embodiment provides an intelligent lighting unit, which comprises a first light source, a plurality of second light sources, a voice control module, a first wireless communication module and a plurality of second wireless communication modules.

The voice control module 12 is electrically connected to the first light source 11 and the first wireless communication module 13, and the three are integrated into the main lamp 10. The voice control module is electrically connected with the first light source and the first wireless communication module respectively. Each of the second light sources 21 is electrically connected to a corresponding one of the second wireless communication modules 22 and integrally provided as a slave lamp 20, that is, the slave lamp may be plural.

The first wireless communication module and the second wireless communication module are both bluetooth modules and can be connected to form a bluetooth Mesh network 30. Unlike Wi-Fi and Zigbee, the Bluetooth Mesh network does not depend on a gateway and a router, and the master lamp and the slave lamp are networked only through the Bluetooth Mesh, so that the cost is greatly reduced. The bluetooth chip used for forming the bluetooth module may be a chip with repeatedly erasable or OTP (i.e. a chip only supporting one-time writing, and the chip program after writing cannot be changed or updated), but is not limited thereto.

The voice control module is used for regulating and controlling the working states of the first light source and the first wireless communication module. For example, the voice control module may control the driving module of the first light source to turn on, turn off or present the breathing state of the first light source, and/or adjust the brightness, color temperature, etc. of the first light source, and is not limited thereto. Meanwhile, the voice control module can enable the first wireless communication module to be started according to a voice instruction (such as a network allocation instruction) and is connected with each second wireless communication module to form a Bluetooth Mesh network. And the voice control module can enable the first wireless communication module to be closed according to another voice instruction (such as a network-exiting instruction) and disconnect the connection with each second wireless communication module.

Furthermore, in the case of forming the bluetooth Mesh network, the voice control module may intensively or independently regulate the working states of the respective second light sources, for example, on, off, brightness, color temperature, etc., of the respective second light sources through the bluetooth Mesh network, and is not limited thereto.

The speech control module preferably employs an off-line speech recognition control module, particularly a far-field speech recognition control module that supports "remote" (e.g., 5 meters or more) pick-up and recognition, which is commercially available. For example, the voice control module in this embodiment may be a QLIFE-ASR21BM offline voice recognition control module (available from Shenzhen light active technology Co., ltd.), a WTK6900F-B03 voice recognition control module (available from Shenzhen Wei Zhi Ding Ying Co., ltd.), or the like. The user can pre-store a plurality of standard voice instructions (for example, turning on a main lamp, turning off the main lamp, reducing the brightness of the main lamp by 10%, networking, off-line, increasing the brightness of a certain slave lamp by 10%, enabling a guest receiving mode, enabling a rest mode, and the like, and is not limited thereto) in the offline voice recognition control module to form an instruction set, and when the voice instructions sent by the user belong to the instruction set, the offline voice recognition control module can correspondingly regulate the working states of the main lamp and the slave lamp after receiving and recognizing the voice instructions of the user. These operations of setting the voice instruction set and the like may be performed according to an operation manual provided by the manufacturer of the off-line voice recognition control module. Especially in the case that the number of slave lamps of one intelligent lighting unit is large, the instructions of the 'mode' type are preferably preset in the voice instruction set, so that the use difficulty of a user is further reduced. For example, a voice command of a "meeting mode" may be pre-stored, and the brightness of the master lamp corresponding to the quality is set to 80% and the brightness of the slave lamp is set to 80%, when the network distribution is completed, only the user needs to send the voice command of the "meeting mode", the master lamp and the slave lamp are all responded to the preset "meeting mode", and the brightness is adjusted to 80%.

Because the Bluetooth Mesh network is adopted, after the master lamp sends a network distribution request to the slave lamps, the slave lamps start network distribution at the same time instead of network distribution one by one, so that the network distribution can be completed rapidly. Accordingly, when the master lamp and the slave lamps are powered on, the master lamp and all the slave lamps can be simultaneously disconnected only by sending out a disconnection request, and the process is very rapid. In some cases, the off-grid may be accomplished in some other way, such as by repeatedly switching on and off the switching circuit of the master and/or slave lamps.

The first light source and the second light source comprise a ceiling lamp, a pendant lamp, a desk lamp, a wall lamp, a down lamp, a spotlight or a strip lamp, and the like, and are not limited to the above. In some cases, the first light source and the second light source both adopt breathing lamps, and then the breathing lamps can be set to be in a breathing state under some conditions, such as successful networking or successful net withdrawal according to the instruction manual of the manufacturer. In this embodiment, the first light source and the second light source are preferably LED lamps, especially LED lamps with bluetooth modules and driving modules (such as bluetooth g-M2-BLE (V5.2) SoC, HVLED 001B-high voltage LED driver or similar commercial products provided by an artificial semiconductor), when in use, the driving module of the first light source is only required to be connected with the voice control module in a conventional manner to realize rapid assembly of the main lamp, and some LED lamps and the bluetooth modules and the driving modules thereof can directly form the auxiliary lamp without additional assembly.

Compared with the existing intelligent home system, the intelligent home system can realize the intellectualization of the lighting unit with lower cost by adopting the arrangement, has lower operation difficulty, and can provide users with better use experience for user groups such as children, old people and the like.

The embodiment also provides a lighting system which can be applied to various offices and living places and comprises a plurality of intelligent lighting units. Referring to fig. 2, taking an example of the application of the lighting system in a house, some rooms in the house, such as bedrooms, living rooms, kitchens, toilets, etc., may be regarded as physical spaces independent of each other. One of the foregoing intelligent lighting units may be provided in each of the rooms, with the Mesh network formed in each intelligent lighting unit being independent of the Mesh networks formed in the other intelligent lighting units. Thus, independent control of the lamps in each room can be realized. In general, lamps used in the same room of a conventional household are almost the same type of lamps, such as down lamps or lamp strips, which are both of the same type of lamps, and in the same lighting circuit, even if a conventional control mode is adopted, the lamps are almost simultaneously controlled, and because the lamps (such as LED lamps with driving modules and bluetooth modules and the like) are well-defined at the time of delivery, the lamps can be naturally allocated to the same group of the same Mesh network during allocation, and no additional grouping operation is needed. And furthermore, after the lamps in each room are successfully distributed with the network, the off-line voice recognition module can be directly utilized to regulate and control the working states of the master lamp and the slave lamp. Wherein slave lamps may be grouped by lamp type.

It should be understood that the above embodiments are merely for illustrating the technical concept and features of the present utility model, and are intended to enable those skilled in the art to understand the present utility model and implement the same according to the present utility model without limiting the scope of the present utility model. All equivalent changes or modifications made in accordance with the spirit of the present utility model should be construed to be included in the scope of the present utility model.

Claims (10)

1. An intelligent lighting unit is characterized by comprising a first light source, a second light source, a voice control module, a first wireless communication module and a second wireless communication module; the voice control module is respectively and electrically connected with the first light source and the first wireless communication module, the second light source is connected with the second wireless communication module, and the first wireless communication module can be connected with the second wireless communication module to form a Mesh network; the voice control module is used for regulating and controlling the working states of the first light source and the first wireless communication module and regulating and controlling the working state of the second light source through the Mesh network.

2. The intelligent lighting unit of claim 1, wherein: the voice control module, the first light source and the first wireless communication module are integrally arranged.

3. The intelligent lighting unit of claim 1, wherein: the second light source is integrated with the second wireless communication module.

4. The intelligent lighting unit of claim 1, wherein: the voice control module comprises an offline voice recognition control module.

5. The intelligent lighting unit of claim 1, wherein: the second light sources and the second wireless communication modules are multiple, and each second light source is connected with a corresponding second wireless communication module.

6. The intelligent lighting unit of claim 1, wherein: the first wireless communication module and the second wireless communication module comprise Bluetooth modules.

7. The intelligent lighting unit of claim 1, wherein: the first light source and the second light source comprise a ceiling lamp, a pendant lamp, a desk lamp, a wall lamp, a down lamp, a spotlight or a strip lamp.

8. A lighting system comprising more than two intelligent lighting units as claimed in any one of claims 1-7, each of said intelligent lighting units being distributed in a different physical space.

9. A lighting system as recited in claim 8, wherein a Mesh network formed within one of said intelligent lighting units is independent of a Mesh network formed within another of said intelligent lighting units.

10. A lighting system as recited in claim 8, wherein each of said physical spaces is a room in an office space or a residential space.