CN104791690A - Building lighting control system based on Internet of things and control method thereof - Google Patents

Abstract

Translated fromChinese

本发明公开了一种基于物联网的楼宇照明控制系统及其控制方法，包括：照明灯；蓄电池组，其与照明灯连接；感应器，包括光感应器、人体感应器和声感应器，其输出端与控制器连接；发电装置，其输出端与控制器的输入端连接；控制器，其输入端与感应器、以及发电装置的输出端连接，其输出端与蓄电池组、照明灯的开关控制器的输入端连接。本发明中发电装置发电并存储于蓄电池组中，控制器接收光感应器、人体感应器和声感应器感应的信号并进行处理，若光线强度低于设定值、以及人体感应器感应有人或声音分贝强度高于设定值，控制器发出开灯信号给照明灯的开关，多种感应器结合，避免误动作开灯，提高照明控制的精确度，更加方便。

The invention discloses a building lighting control system based on the Internet of Things and a control method thereof, comprising: a lighting lamp; a battery pack connected to the lighting lamp; The output terminal is connected to the controller; the output terminal of the power generation device is connected to the input terminal of the controller; the input terminal of the controller is connected to the sensor and the output terminal of the power generation device, and the output terminal is connected to the battery pack and the switch of the lighting lamp Controller input connection. In the present invention, the power generation device generates electricity and stores it in the storage battery pack. The controller receives and processes the signals induced by the light sensor, human body sensor and acoustic sensor. The decibel intensity of the sound is higher than the set value, and the controller sends a signal to turn on the light to the switch of the light. The combination of various sensors avoids false action to turn on the light, improves the accuracy of lighting control, and is more convenient.

Description

Translated fromChinese

基于物联网的楼宇照明控制系统及其控制方法Building lighting control system and control method based on Internet of Things

技术领域technical field

本发明属于楼宇照明领域，具体涉及一种基于物联网的楼宇照明控制系统及其控制方法。The invention belongs to the field of building lighting, and in particular relates to a building lighting control system based on the Internet of Things and a control method thereof.

背景技术Background technique

目前，大多数建筑物的楼道照明系统普遍采用的是具有声控的普通电力照明。由于节能灯的启动次数影响其寿命，限制了其在需要频繁启动的楼道照明系统的应用，因此只能采用白炽灯，并且传统的声控系统抗干扰能力差，如雷雨声、住户的开关门、鞭炮声常常会引起整栋楼楼道灯的误动作。At present, the corridor lighting system of most buildings generally adopts ordinary electric lighting with sound control. Since the number of starts of energy-saving lamps affects its life, it limits its application in corridor lighting systems that require frequent starts, so only incandescent lamps can be used, and the traditional voice control system has poor anti-interference ability, such as thunderstorms, residents' opening and closing doors, The sound of firecrackers often causes the malfunction of the corridor lights of the whole building.

因此，亟需一种误动作低的基于物联网的楼宇照明控制系统及其控制方法。Therefore, there is an urgent need for an IoT-based building lighting control system and a control method thereof with low malfunctions.

发明内容Contents of the invention

为了解决上述技术问题，本发明提供了一种基于物联网的楼宇照明控制系统及其控制方法。In order to solve the above technical problems, the present invention provides a building lighting control system based on the Internet of Things and a control method thereof.

为了达到上述目的，本发明的技术方案如下：In order to achieve the above object, technical scheme of the present invention is as follows:

本发明提供一种基于物联网的楼宇照明控制系统，包括：The present invention provides a building lighting control system based on the Internet of Things, including:

照明灯，其分布设置于楼宇的每层；lighting, which is distributed on each floor of the building;

蓄电池组，其与照明灯连接，为照明灯提供电源；The storage battery pack is connected with the lighting lamp to provide power for the lighting lamp;

感应器，包括光感应器、人体感应器和声感应器，其输出端通过网络与控制器的输入端连接，用于感应光线强度、人体和声音并将感应信号发送给控制器；Sensors, including light sensors, human body sensors and sound sensors, the output terminals of which are connected to the input terminals of the controller through the network to sense light intensity, human body and sound and send the sensing signals to the controller;

发电装置，其输出端与控制器的输入端连接；a power generating device, the output end of which is connected to the input end of the controller;

控制器，其输入端与光感应器、人体感应器、声感应器、以及发电装置的输出端连接，其输出端与蓄电池组的输入端、照明灯的开关控制器连接，用于将发电装置发出的电进行整流并存储在所述蓄电池组中、以及将接收的感应信号进行处理后反馈至照明灯的开关控制器。The controller, whose input end is connected with the light sensor, human body sensor, sound sensor, and the output end of the power generation device, and whose output end is connected with the input end of the battery pack and the switch controller of the lighting lamp, is used to connect the power generation device The generated electricity is rectified and stored in the storage battery pack, and the received induction signal is processed and then fed back to the switch controller of the lighting lamp.

本发明中发电装置发电并存储于蓄电池组中，光感应器、人体感应器和声感应器感应并将感应信号发送给控制器，控制器接收信号并进行处理，若光线强度低于设定值、以及人体感应器感应有人或声音分贝强度高于设定值，控制器发出开灯信号给照明灯的开关，相较于现有技术，多种感应器结合，避免误动作开灯，提高照明控制的精确度，更加方便。In the present invention, the power generation device generates electricity and stores it in the battery pack. The light sensor, human body sensor and acoustic sensor sense and send the sensing signal to the controller. The controller receives the signal and processes it. If the light intensity is lower than the set value , and the human body sensor senses that there are people or the decibel intensity of the sound is higher than the set value, and the controller sends a signal to turn on the light to the switch of the light. Compared with the existing technology, a variety of sensors are combined to avoid false actions to turn on the light and improve lighting The precision of control is more convenient.

本发明中上述的发电装置包括风力发电装置和太阳能发电装置。风力发电装置、太阳能发电装置进行发电，提供清洁的电力能源，更加环保。The power generating device mentioned above in the present invention includes a wind power generating device and a solar power generating device. The wind power generation device and the solar power generation device generate electricity, provide clean electric energy, and are more environmentally friendly.

在上述技术方案的基础上，还可做如下改进：On the basis of the above-mentioned technical scheme, the following improvements can also be made:

作为优选的方案，上述的还设置有移动终端，移动终端的输出端与控制器的输入端连接。其中，移动终端为手机、平板电脑或电脑中的至少一种。As a preferred solution, the above-mentioned device is also provided with a mobile terminal, and the output end of the mobile terminal is connected to the input end of the controller. Wherein, the mobile terminal is at least one of a mobile phone, a tablet computer or a computer.

采用上述优选的方案，移动终端可远程控制照明灯的开启和关闭，适用于人们的生活需要，更加人性化。By adopting the above preferred solution, the mobile terminal can remotely control the turning on and off of the lighting lamp, which is suitable for people's living needs and is more humanized.

作为优选的方案，本发明还提供一种基于物联网的楼宇照明控制方法，包括以下步骤：As a preferred solution, the present invention also provides a building lighting control method based on the Internet of Things, including the following steps:

S1、发电装置发电并传送给控制器，控制器将接收的电进行整流并存储在蓄电池组中，为照明灯提供电源；S1. The power generation device generates electricity and transmits it to the controller. The controller rectifies the received electricity and stores it in the battery pack to provide power for the lighting;

S2、光感应器感应光线强度、人体感应器感应是否有人、以及声感应器感应声音分贝强度，并将感应信号分别发送给控制器；S2. The light sensor senses the light intensity, the human body sensor senses whether there are people, and the sound sensor senses the sound decibel intensity, and sends the sensing signals to the controller respectively;

S3、控制器接收上述的感应信号，若光线强度低于设定值、以及人体感应器感应有人或声音分贝强度高于设定值，则发送开灯信号给照明灯的开关控制器，打开照明灯。S3. The controller receives the above sensing signal, if the light intensity is lower than the set value, and the human body sensor detects someone or the decibel intensity of the sound is higher than the set value, then send a signal to turn on the light to the switch controller of the light to turn on the light lamp.

作为优选的方案，上述的步骤S2还包括移动终端发出开灯请求信号给控制器，步骤S3还包括控制器接收开灯请求信号后发送开灯信号给照明灯的开关控制器，打开照明灯。As a preferred solution, the above step S2 further includes the mobile terminal sending a light-on request signal to the controller, and step S3 further includes the controller receiving the light-on request signal and sending a light-on signal to the switch controller of the lighting lamp to turn on the lighting lamp.

附图说明Description of drawings

图1为本发明一种实施方式的结构示意图。Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

其中，1.发电装置，2.控制器，3.感应器，4.照明灯，5.蓄电池组。Among them, 1. Power generation device, 2. Controller, 3. Sensor, 4. Lighting lamp, 5. Battery pack.

具体实施方式Detailed ways

下面结合附图详细说明本发明的优选实施方式。Preferred embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings.

为了达到本发明的目的，如图1所示，在本发明的其中一种实施方式中提供一种基于物联网的楼宇照明控制系统，包括：In order to achieve the purpose of the present invention, as shown in Figure 1, in one embodiment of the present invention, a building lighting control system based on the Internet of Things is provided, including:

照明灯4，其分布设置于楼宇的每层；Lighting lamp 4, which is distributed and arranged on each floor of the building;

蓄电池组5，其与照明灯4连接，为照明灯4提供电源；The battery pack 5 is connected to the lighting lamp 4 to provide power for the lighting lamp 4;

感应器3，包括光感应器、人体感应器和声感应器，其输出端通过网络与控制器的输入端连接，用于感应光线强度、人体和声音并将感应信号发送给控制器；The sensor 3 includes a light sensor, a human body sensor and an acoustic sensor, the output end of which is connected to the input end of the controller through the network for sensing light intensity, human body and sound and sending the sensing signal to the controller;

发电装置1，其输出端与控制器3的输入端连接；The power generating device 1, its output terminal is connected with the input terminal of the controller 3;

控制器2，其输入端与光感应器、人体感应器、声感应器、以及发电装置1的输出端连接，其输出端与蓄电池组5的输入端、照明灯4的开关控制器连接，用于将发电装置1发出的电进行整流并存储在蓄电池组5中、以及将接收的感应信号处理反馈至照明灯4的开关。Controller 2, its input end is connected with light sensor, human body sensor, acoustic sensor, and the output end of power generation device 1, and its output end is connected with the input end of accumulator pack 5, the switch controller of illuminating lamp 4, uses It is used to rectify the electricity generated by the power generation device 1 and store it in the storage battery pack 5 , and process and feed back the received induction signal to the switch of the lighting lamp 4 .

本实施方式中发电装置1发电并存储于蓄电池组5中，光感应器、人体感应器和声感应器感应并将感应信号发送给控制器2，控制器2接收信号并进行处理，若光线强度低于设定值、以及人体感应器感应有人或声音分贝强度高于设定值，控制器2发出开灯信号给照明灯4的开关，相较于现有技术，多种感应器3结合，避免误动作开灯，提高照明控制的精确度，更加方便。In this embodiment, the power generation device 1 generates electricity and stores it in the battery pack 5. The light sensor, the human body sensor and the acoustic sensor sense and send the induction signal to the controller 2. The controller 2 receives the signal and processes it. If the light intensity If it is lower than the set value, and the human body sensor senses someone or the decibel intensity of the sound is higher than the set value, the controller 2 sends a signal to turn on the light to the switch of the light 4. Compared with the prior art, multiple sensors 3 are combined, Avoid false action to turn on the light, improve the accuracy of lighting control, and make it more convenient.

本实施方式中上述的发电装置包括风力发电装置和太阳能发电装置。风力发电装置、太阳能发电装置进行发电，提供清洁的电力能源，更加环保。The above-mentioned power generating devices in this embodiment include wind power generating devices and solar power generating devices. The wind power generation device and the solar power generation device generate electricity, provide clean electric energy, and are more environmentally friendly.

为了进一步地优化本发明的实施效果，在本发明的另一种实施方式中，在前述内容的基础上，还设置有移动终端，移动终端的输出端与控制器2的输入端连接。其中，移动终端为手机、平板电脑或电脑中的至少一种。In order to further optimize the implementation effect of the present invention, in another embodiment of the present invention, on the basis of the foregoing, a mobile terminal is also provided, and the output end of the mobile terminal is connected to the input end of the controller 2 . Wherein, the mobile terminal is at least one of a mobile phone, a tablet computer or a computer.

采用上述优选的方案，移动终端可远程控制照明灯的开启和关闭，适用于人们的生活需要，更加人性化。By adopting the above preferred solution, the mobile terminal can remotely control the turning on and off of the lighting lamp, which is suitable for people's living needs and is more humanized.

为了进一步地优化本发明的实施效果，在本发明的另一种实施方式中，在前述内容的基础上，本发明还提供一种基于物联网的楼宇照明控制方法，包括以下步骤：In order to further optimize the implementation effect of the present invention, in another embodiment of the present invention, on the basis of the foregoing, the present invention also provides a building lighting control method based on the Internet of Things, including the following steps:

S1、发电装置1发电并传送给控制器2，控制器2将接收的电进行整流并存储在蓄电池组5中，为照明灯提供电源；S1. The power generation device 1 generates electricity and transmits it to the controller 2, and the controller 2 rectifies the received electricity and stores it in the battery pack 5 to provide power for the lighting lamps;

S2、光感应器感应光线强度、人体感应器感应是否有人、以及声感应器感应声音分贝强度，并将感应信号分别发送给控制器2；S2. The light sensor senses light intensity, the human body sensor senses whether there are people, and the sound sensor senses the sound decibel intensity, and sends the sensing signals to the controller 2 respectively;

S3、控制器2接收上述的感应信号，若光线强度低于设定值、以及人体感应器感应有人或声音分贝强度高于设定值，则发送开灯信号给照明灯4的开关控制器，打开照明灯4。S3, the controller 2 receives the above-mentioned induction signal, if the light intensity is lower than the set value, and the human body sensor detects someone or the sound decibel intensity is higher than the set value, then send the light-on signal to the switch controller of the lighting lamp 4, Turn on the light 4.

为了进一步地优化本发明的实施效果，在本发明的另一种实施方式中，在前述内容的基础上，上述的步骤S2还包括移动终端发出开灯请求信号给控制器2，步骤S3还包括控制器2接收开灯请求信号后发送开灯信号给照明灯4的开关控制器，打开照明灯。In order to further optimize the implementation effect of the present invention, in another embodiment of the present invention, on the basis of the foregoing, the above-mentioned step S2 also includes the mobile terminal sending a light-on request signal to the controller 2, and step S3 also includes After receiving the light-on request signal, the controller 2 sends a light-on signal to the switch controller of the lighting lamp 4 to turn on the lighting lamp.

以上所述的仅是本发明的优选实施方式，应当指出，对于本领域的普通技术人员来说，在不脱离本发明创造构思的前提下，还可以做出若干变形和改进，这些都属于本发明的保护范围。The above is only the preferred embodiment of the present invention, it should be pointed out that for those skilled in the art, without departing from the inventive concept of the present invention, some modifications and improvements can also be made, and these all belong to the present invention. protection scope of the invention.

Claims (6)

1. based on the building lighting control system of Internet of Things, it is characterized in that, comprising:

Illuminating lamp, its distribution is arranged at every layer of building;

Batteries, it is connected with described illuminating lamp, for illuminating lamp provides power supply;

Inductor, comprise optical inductor, human inductor harmony inductor, its output is connected by the input of network with following controller, for induction light line strength, human body and sound, induced signal is sent to controller;

TRT, its output is connected with the input of following controller;

Controller, its input is connected with the output of described optical inductor, human inductor, sound inductor and TRT, its output is connected with the input of described batteries, the on-off controller of illuminating lamp, and the electricity for being sent by TRT carries out rectification and is stored in described batteries and feeds back to the on-off controller of illuminating lamp after being processed by the induced signal of reception.

2. the building lighting control system based on Internet of Things according to claim 1, is characterized in that, described TRT comprises wind power generation plant and device of solar generating.

3. the building lighting control system based on Internet of Things according to claim 1, is characterized in that, be also provided with mobile terminal, and the output of described mobile terminal is connected by the input of network with described controller.

4. the building lighting control system based on Internet of Things according to claim 3, is characterized in that, described mobile terminal is at least one in mobile phone, panel computer or computer.

5. the building lighting control method based on Internet of Things as described in as arbitrary in claim 1-4, is characterized in that, comprise the following steps:

S1, TRT generate electricity and send controller to, and the electricity of reception is carried out rectification and is stored in batteries, for illuminating lamp provides power supply by controller;

Whether the induction of S2, optical inductor induction light line strength, human inductor has people and sound inductor induction sound decibel intensity, and induced signal is sent to controller respectively;

S3, controller receive above-mentioned induced signal, if light intensity has people or sound decibel intensity higher than setting value lower than setting value and human inductor induction, then send and turn on light signal to the on-off controller of illuminating lamp, open illuminating lamp.

6. the building lighting control method based on Internet of Things according to claim 5, it is characterized in that, described step S2 also comprises mobile terminal and sends request signal of turning on light to controller, described step S3 also comprises controller and receives to turn on light to send after request signal and turn on light signal to the on-off controller of illuminating lamp, opens illuminating lamp.