CN114945236A - Wireless transmission intelligent lighting system based on KNX bus - Google Patents

Abstract

The invention discloses a wireless transmission intelligent lighting system based on a KNX bus, belonging to the technical field of intelligent buildings; the intelligent lighting system is connected with the plurality of lighting devices, the sensors and the analysis control device through the KNX bus, and well solves the problem of interoperation of products from different manufacturers by utilizing the openness advantage of the KNX bus and the standard of communication conversion; compared with the existing intelligent lighting system, the intelligent lighting system performs data analysis in multiple automatic control modes through mutual cooperation of multiple sensors, is suitable for various scenes, and can intelligently adjust the light of corresponding lighting equipment according to external environment information; in addition, the intelligent lighting control system also comprises three control modes of switch on-off control, light adjustment control and lighting equipment angle adjustment, so that the flexibility and the convenience are realized, and the intelligent, functional, personalized and energy-saving requirements of the existing office building and the like can be met.

Description

Wireless transmission intelligent lighting system based on KNX bus

Technical Field

The invention relates to the technical field of intelligent buildings, in particular to a wireless transmission intelligent lighting system based on a KNX bus.

Background

In recent years, with the continuous development of the technology of the internet of things and the vigorous development of technologies such as intelligent buildings, more and more internet of things devices are applied to some intelligent buildings such as office buildings and teaching buildings, and the intelligent lighting devices are the most common; however, due to the inconsistency of communication protocols of various intelligent lighting equipment manufacturers, the further development of the intelligent lighting equipment is restricted; the existing intelligent lighting system only can be provided with a simple intelligent voice-operated switch, is single in control mode, cannot intelligently adjust the light of the corresponding lighting equipment according to external environment information, and is difficult to realize the flexibility and convenience of lighting control; therefore, how to efficiently control various intelligent lighting devices to meet the requirements of intellectualization, functionalization, individualization and energy conservation of buildings in the prior office and the like becomes the key point of research;

currently, existing intelligent lighting systems mainly achieve low-intelligence control of lighting devices through simple intelligent switches, for example: chinese patent No. CN108347813B discloses a building lighting control system in the field of intelligent buildings; although the invention is simple and effective, easy to use, but the control mode is single, and only simple voice control on-off of simple lighting equipment can be realized; the light of the corresponding lighting equipment cannot be intelligently adjusted according to the external environment information; various intelligent lighting devices cannot be efficiently controlled, so that the requirements of intellectualization, functionalization, individuation and energy conservation of buildings in the prior office and the like are met; for this reason, we propose a wireless transmission intelligent lighting system based on a KNX bus.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a wireless transmission intelligent lighting system based on a KNX bus.

In order to achieve the purpose, the invention adopts the following technical scheme:

wireless transmission intelligence lighting system based on KNX bus includes a plurality of lighting apparatus, sensing module, KNX bus, KNX power, database module, automated control analysis module, control processing module and control module:

the plurality of lighting devices are arranged in the intelligent building and used for providing illumination for each part of the intelligent building, the plurality of lighting devices comprise warm-tone light and cold-tone light, and the plurality of lighting devices can be adjusted in angle;

the sensing module is arranged at the plurality of lighting devices and used for collecting various sensing information;

the KNX bus is connected with a sensing module, a KNX power supply, a database module, an automatic control analysis module, a control processing module and a control module and is used for carrying out instant communication transmission on all the modules;

the KNX power supply is used for supplying power to the KNX bus;

the database module is used for storing corresponding positions of a plurality of lighting devices;

the automatic control analysis module is used for acquiring various sensing information of each lighting device at a corresponding position through a KNX bus, preprocessing the sensing information and analyzing the preprocessed sensing information to generate an analysis control result;

the control processing module is used for processing the analysis control result to form a control command corresponding to the lighting equipment;

the control module is used for receiving the control command of the corresponding lighting equipment and controlling and adjusting the corresponding lighting equipment according to the control command.

Furthermore, the sensing module is matched with the plurality of lighting devices, and comprises a sound sensor, an illumination sensor, an angle sensor, a body temperature sensor, a temperature sensor, an infrared sensor and an image collector; the illumination sensor comprises a first illumination sensor and a second illumination sensor;

the first illumination sensor is used for collecting indoor illumination information;

the second illumination sensor is used for acquiring adjusted light information;

the sound sensor is arranged on the corridor and used for collecting the voice information of the corridor;

the angle sensor is used for acquiring angle information of the lighting equipment;

the body temperature sensor is used for collecting indoor body temperature information of a human body;

the temperature sensor is used for acquiring indoor temperature information;

the infrared sensor is used for sensing personnel entering and exiting information;

the image collector is used for obtaining indoor human body posture information.

Further, the automatic control analysis module comprises five analysis modes, namely a sound control analysis mode, an in-out lamp control analysis mode, a human body sensing analysis mode, a rest regulation analysis mode and an energy-saving regulation analysis mode;

the voice control analysis mode is applied to corridor lighting scenes and is used for carrying out voice control analysis according to illumination information, voice information and personnel entering and exiting information so as to form an analysis control result corresponding to a corridor;

the in-out lamp control analysis mode is applied to indoor in-out scenes and is used for carrying out light on-off analysis according to the illumination information and the personnel in-out information so as to form an analysis control result corresponding to a room;

the human body sensing control analysis mode is applied to a temperature difference change scene and is used for carrying out light color tone analysis according to the human body temperature information and the temperature information so as to form an analysis control result corresponding to the personnel environment;

the rest adjusting and analyzing mode is applied to a person rest scene and is used for carrying out light on-off analysis according to the human body posture information so as to form an analysis control result corresponding to the person rest scene;

the energy-saving adjusting and analyzing mode is applied to various energy-saving scenes, and energy-saving adjusting and analyzing are carried out according to the illumination information and the angle information of the lighting equipment so as to form an analysis control result of the energy-saving scenes.

Further, the automatic control analysis module comprises a control judgment unit, and the control judgment unit is used for analyzing and judging the control regulation effect of the control module according to the regulated light information collected by the second illumination sensor so as to realize control correction.

Further, the database module is further configured to store an interoperability specification of the KNX technology, which defines communication conversion specifications of different lighting devices.

Furthermore, the control module comprises a switch on-off control unit, a light adjusting control unit and an illumination equipment angle adjusting unit;

the switch on-off control unit is used for controlling the corresponding lighting equipment to be turned on or off according to the control command;

the light adjusting and controlling unit is used for adjusting and controlling the light illumination intensity and the color tone of the corresponding lighting equipment according to the control command;

and the lighting equipment angle adjusting unit is used for carrying out angle adjustment control on the corresponding lighting equipment according to the control command.

Compared with the prior art, the invention has the beneficial effects that:

the wireless transmission intelligent lighting system based on the KNX bus is connected with a plurality of lighting devices, sensors and analysis control devices through the KNX bus, and well solves the problem of interoperation of products from different manufacturers by utilizing the openness advantage and the communication conversion standard of the KNX bus; compared with the existing intelligent lighting system, the intelligent lighting system performs data analysis in multiple automatic control modes through mutual cooperation of multiple sensors, is suitable for various scenes, and can intelligently adjust the light of corresponding lighting equipment according to external environment information; in addition, the intelligent lighting control system also comprises three control modes of switch on-off control, light adjustment control and lighting equipment angle adjustment, so that the flexibility and the convenience are realized, and the intelligent, functional, personalized and energy-saving requirements of the existing office building and the like can be met.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic overall structure diagram of a wireless transmission intelligent lighting system based on a KNX bus according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be 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 of the embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

In one embodiment, referring to fig. 1, a wireless transmission intelligent lighting system based on a KNX bus is provided, including a plurality of lighting devices, a sensing module, a KNX bus, a KNX power supply, a database module, an automation control analysis module, a control processing module and a control module:

the plurality of lighting devices are arranged in the intelligent building and used for providing illumination for each part of the intelligent building, the plurality of lighting devices comprise warm-tone light and cold-tone light, and the plurality of lighting devices can be subjected to angle adjustment;

the sensing module is arranged at the plurality of lighting devices and used for collecting various sensing information;

specifically, the sensing module is matched with a plurality of lighting devices and comprises a sound sensor, an illumination sensor, an angle sensor, a body temperature sensor, a temperature sensor, an infrared sensor and an image collector; the illumination sensor comprises a first illumination sensor and a second illumination sensor;

the first illumination sensor is used for collecting indoor illumination information;

the second illumination sensor is used for acquiring adjusted light information;

the sound sensor is arranged in the corridor and used for collecting the voice information of the corridor;

the angle sensor is used for acquiring angle information of the lighting equipment;

the body temperature sensor is used for collecting indoor body temperature information;

the temperature sensor is used for acquiring indoor temperature information;

the infrared sensor is used for sensing the information of people entering and exiting;

the image collector is used for obtaining indoor human body posture information.

The KNX bus is connected with a sensing module, a KNX power supply, a database module, an automatic control analysis module, a control processing module and a control module and is used for carrying out instant communication transmission on the modules;

the KNX power supply is used for supplying power to the KNX bus;

the database module is used for storing corresponding positions of a plurality of lighting devices;

specifically, the database module is further configured to store an interoperability specification of the KNX technology, which defines communication conversion specifications of different lighting devices.

The automatic control analysis module is used for acquiring various sensing information of each lighting device at the corresponding position through the KNX bus, preprocessing the sensing information and analyzing the preprocessed sensing information to generate an analysis control result;

specifically, the automatic control analysis module comprises five analysis modes, namely a sound control analysis mode, an in-out lamp control analysis mode, a human body sensing control analysis mode, a rest regulation analysis mode and an energy-saving regulation analysis mode;

in one embodiment, the voice control analysis mode is applied to the corridor lighting scene and is used for carrying out voice control analysis according to the illumination information, the voice information and the personnel entering and exiting information so as to form an analysis control result corresponding to a corridor;

specifically, the specific operation process of the voice control analysis mode is as follows:

firstly, acquiring voice information and personnel entering and exiting information through an infrared sensor and a real-time sound sensor which are arranged at an inlet and an outlet in a corridor;

if the data is not collected, judging that no one passes through the data, and keeping the lighting equipment in a closed state;

if the data are collected, the data are transmitted to an automatic control analysis module through a KNX bus, and analysis is carried out:

if the voice information is acquired firstly and then the personnel entering and exiting information is acquired, secondary acquisition is carried out through the sound sensor and the infrared sensor;

if the personnel access information is firstly obtained and then the voice information is obtained, a command for starting the corridor lighting equipment is generated;

and acquiring personnel entry and exit information acquired by the outlet infrared sensor, and generating a command for closing the corridor lighting equipment.

In one embodiment, the in-out lamp control analysis mode is applied to indoor in-out scenes and is used for carrying out light on-off analysis according to illumination information and personnel in-out information so as to form an analysis control result of a corresponding room;

specifically, the specific operation process of the in-out lamp control analysis mode is as follows:

firstly, acquiring indoor illumination information through a first illumination sensor, and sensing personnel entering and exiting information through an infrared sensor at a room door;

and transmitting the data to an automatic control analysis module through a KNX bus, and analyzing:

if the illumination intensity is lower than a preset threshold value and personnel access information is acquired, judging that the corresponding lighting equipment needs to be started, and generating a corresponding lighting equipment starting control command;

if the illumination intensity is lower than a preset threshold value and the personnel entrance and exit information is not acquired, the corresponding lighting equipment does not need to be started;

if the illumination intensity is higher than the preset threshold value, personnel entering and exiting information does not need to be acquired, and the corresponding lighting equipment is in a closed state.

In one embodiment, the human body sensing control analysis mode is applied to a temperature difference change scene and is used for carrying out light color tone analysis according to human body temperature information and temperature information so as to form an analysis control result corresponding to the personnel environment;

specifically, the human body sensing control analysis mode comprises the following specific processes:

firstly, collecting indoor human body temperature information through a body temperature sensor arranged indoors, and collecting indoor temperature information through a temperature sensor;

and transmitting the data to an automatic control analysis module through a KNX bus, and analyzing:

if the body temperature and the indoor temperature of the human body are lower than the artificial preset interval, judging that the air temperature is too low, and generating a warm tone adjusting command;

and if the body temperature and the indoor temperature of the human body are higher than the artificial preset interval, judging that the air temperature is too high, and generating a cool tone adjusting command.

In one embodiment, the rest adjustment analysis mode is applied to a person rest scene and is used for carrying out light on-off analysis according to human body posture information so as to form an analysis control result corresponding to the person rest scene;

specifically, the specific process of the rest adjustment analysis mode is as follows:

firstly, acquiring indoor human body posture information through an indoor image collector;

and transmitting the data to an automatic control analysis module through a KNX bus, and analyzing:

according to a built-in artificial intelligence recognition program and preset time length, judging whether the human body posture is in a sleeping state, and if so, generating a closing command corresponding to the lighting equipment;

otherwise, no change operation is performed.

In one embodiment, the energy-saving regulation analysis mode is applied to various energy-saving scenes, and energy-saving regulation analysis is performed according to the illumination information and the angle information of the lighting equipment to form an analysis control result of the energy-saving scenes;

specifically, the specific process of the energy-saving adjustment analysis mode is as follows:

first, indoor illumination information is collected by a first illumination sensor provided indoors. The angle sensor is used for acquiring angle information of the lighting equipment;

and transmitting the data to an automatic control analysis module through a KNX bus, and analyzing:

generating a control command corresponding to the light intensity of the lighting equipment according to the intensity of the illumination information;

and meanwhile, a reasonable corresponding lighting equipment adjusting angle is calculated according to the layout interval and the illumination range of the corresponding lighting equipment, so that the illumination capability of each lighting equipment is utilized to the maximum extent, and an angle adjusting command of the corresponding lighting equipment is generated.

In one embodiment, the automatic control analysis module comprises a control judgment unit, and the control judgment unit is used for analyzing and judging the control regulation effect of the control module according to the regulated light information collected by the second illumination sensor so as to realize control correction.

The control processing module is used for processing the analysis control result to form a control command corresponding to the lighting equipment;

the control module is used for receiving the control command of the corresponding lighting equipment and controlling and adjusting the corresponding lighting equipment according to the control command;

specifically, the control module comprises a switch on-off control unit, a light adjusting control unit and an illumination equipment angle adjusting unit;

the switch on-off control unit is used for controlling the on-off of the corresponding lighting equipment according to the control command;

the light adjusting control unit is used for adjusting and controlling the light illumination intensity and the color tone of the corresponding lighting equipment according to the control command;

and the lighting equipment angle adjusting unit is used for carrying out angle adjustment control on the corresponding lighting equipment according to the control command.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. Wireless transmission intelligence lighting system based on KNX bus, its characterized in that includes a plurality of lighting apparatus, sensing module, KNX bus, KNX power, database module, automated control analysis module, control processing module and control module:

the plurality of lighting devices are arranged in the intelligent building and used for providing illumination for each part of the intelligent building, the plurality of lighting devices comprise warm-tone light and cold-tone light, and the plurality of lighting devices can be adjusted in angle;

the sensing module is arranged at the plurality of lighting devices and used for collecting various sensing information;

the KNX bus is connected with a sensing module, a KNX power supply, a database module, an automatic control analysis module, a control processing module and a control module and is used for carrying out instant communication transmission on the modules;

the KNX power supply is used for supplying power to the KNX bus;

the database module is used for storing corresponding positions of a plurality of lighting devices;

the automatic control analysis module is used for acquiring various sensing information of each lighting device at the corresponding position through a KNX bus, preprocessing the sensing information and analyzing the preprocessed sensing information to generate an analysis control result;

the control processing module is used for processing the analysis control result to form a control command corresponding to the lighting equipment;

the control module is used for receiving the control command of the corresponding lighting equipment and controlling and adjusting the corresponding lighting equipment according to the control command.

2. The KNX bus-based wireless transmission intelligent lighting system according to claim 1, wherein the sensing module is installed in cooperation with the plurality of lighting devices, and comprises a sound sensor, an illumination sensor, an angle sensor, a body temperature sensor, a temperature sensor, an infrared sensor and an image collector; the illumination sensor comprises a first illumination sensor and a second illumination sensor;

the first illumination sensor is used for collecting indoor illumination information;

the second illumination sensor is used for acquiring adjusted light information;

the sound sensor is arranged on the corridor and used for collecting the voice information of the corridor;

the angle sensor is used for acquiring angle information of the lighting equipment;

the body temperature sensor is used for collecting indoor body temperature information of a human body;

the temperature sensor is used for acquiring indoor temperature information;

the infrared sensor is used for sensing personnel entering and exiting information;

the image collector is used for obtaining indoor human body posture information.

3. The KNX bus-based wireless transmission intelligent lighting system according to claim 1, wherein the automation control analysis module includes five analysis modes, which are a voice control analysis mode, an in-out light control analysis mode, a human body sensing analysis mode, a rest adjustment analysis mode and an energy-saving adjustment analysis mode;

the voice control analysis mode is applied to corridor lighting scenes and is used for carrying out voice control analysis according to illumination information, voice information and personnel entering and exiting information so as to form an analysis control result corresponding to a corridor;

the in-out lamp control analysis mode is applied to indoor in-out scenes and is used for carrying out light on-off analysis according to the illumination information and the personnel in-out information so as to form an analysis control result corresponding to a room;

the human body sensing control analysis mode is applied to a temperature difference change scene and is used for carrying out light color tone analysis according to the human body temperature information and the temperature information so as to form an analysis control result corresponding to the personnel environment;

the rest adjusting and analyzing mode is applied to a person rest scene and is used for carrying out light on-off analysis according to the human body posture information so as to form an analysis control result corresponding to the person rest scene;

the energy-saving adjusting and analyzing mode is applied to various energy-saving scenes, and energy-saving adjusting and analyzing are carried out according to the illumination information and the angle information of the lighting equipment so as to form an analysis control result of the energy-saving scenes.

4. The KNX bus-based wireless transmission intelligent lighting system according to claim 1, wherein the automated control and analysis module includes a control and judgment unit, and the control and judgment unit is configured to analyze and judge the control and regulation effect of the control module according to the regulated lighting information collected by the second lighting sensor, so as to realize control and correction.

5. The KNX bus-based wireless transmission intelligent lighting system according to claim 1, wherein the database module is further configured to store a KNX technology interoperability specification that defines communication conversion specifications of different lighting devices.

6. The KNX bus-based wireless transmission intelligent lighting system according to claim 1, wherein the control module includes a switch on-off control unit, a light adjustment control unit and a lighting device angle adjustment unit;

the switch on-off control unit is used for controlling the corresponding lighting equipment to be turned on or off according to the control command;

the light adjusting and controlling unit is used for adjusting and controlling the light illumination intensity and the color tone of the corresponding lighting equipment according to the control command;

and the lighting equipment angle adjusting unit is used for carrying out angle adjustment control on the corresponding lighting equipment according to the control command.

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