CN105611703B - A kind of energy saving building lighting control system and control method - Google Patents

Abstract

The invention discloses an energy-saving building lighting control system, which comprises a lighting management central controller, a wireless signal module and a wired signal module arranged on the lighting management central controller, and the wired signal module includes a lighting management central controller connected respectively The USB interface and Ethernet interface also include the lighting branch system arranged in the floor. The lighting branch system is respectively equipped with a power supply system. The lighting branch system includes a wireless communication module and a controller connected to the corresponding wireless communication module. An illuminating lamp is provided, a relay for driving the illuminating lamp to turn on and off is arranged on the controller, an infrared detection switch and a proximity switch are respectively arranged on the controller, and brightness detection sensors are respectively arranged on the controller. In the present invention, by adopting an infrared detection method, the illuminating lamp can be turned on only when pedestrians pass by, and at the same time, the electric energy quality connection management of the lighting branch system can be performed, and the electric energy quality of the power supply system can be improved.

Description

An energy-saving building lighting control system and control method

technical field

The invention relates to an energy-saving building lighting system control system and a control method.

Background technique

Existing building lighting usually uses voice-activated switches to control the lighting through voice-activated methods. The electric energy between different lighting systems cannot be adjusted and balanced, resulting in waste of resources. At the same time, voice-activated switches operate during the day and night, resulting in When the sound reaches the set range, the lights can also be turned on, and the turn-on time of the lights cannot be controlled according to the passing distance of pedestrians.

Contents of the invention

The purpose of the present invention is to provide an energy-saving building lighting control system and control method, which can improve the problems existing in the prior art. By adopting infrared detection, the lighting can only be turned on when pedestrians pass by, and at the same time, the lighting branch can be controlled. The system conducts power quality connection management to improve the power quality of the power supply system.

The present invention is realized through the following technical solutions:

An energy-saving building lighting control system, including a lighting management central controller, a wireless signal module and a wired signal module arranged on the lighting management central controller, and the wired signal module includes USB ports respectively connected to the lighting management central controller. Interface and Ethernet interface, also includes the lighting branch system arranged in the floor, the lighting branch system is respectively equipped with a power supply system, the lighting branch system includes a wireless communication module and a control unit connected to the corresponding wireless communication module device, the controller is provided with a lighting lamp, the controller is provided with a relay for driving the lighting lamp on and off, and the controller is respectively provided with an infrared detection switch and a proximity switch. The controllers are respectively equipped with brightness detection sensors, and the lighting branch systems are respectively equipped with power quality analysis devices, and the power quality analysis devices are respectively connected to the lighting management central controller through lines, A three-phase voltage adjustment device is set on the lighting management central controller, and the three-phase voltage adjustment device is connected to the power supply system through a line, and a timing circuit and leakage protection are set on the controller circuit.

Furthermore, in order to better realize the present invention, a voice-activated switch is provided on the controller, and the voice-activated switch is connected to the controller through a line.

Further, in order to better realize the present invention, the wireless signal module includes a WIFI module and a ZigBee module.

Further, in order to better realize the present invention, a wireless control switch is provided on the controller, the wireless control switch is wirelessly connected to the controller, and the wireless control switch is connected to the lighting Lights connect wirelessly.

The invention also discloses an energy-saving building lighting control method, which includes the following steps:

S1: Set the reference value: set the daytime and nighttime brightness value range of the lighting branch system;

S2: Detection of brightness: the brightness detection sensor detects the brightness of the surrounding environment. When the brightness reaches the daytime brightness state, the power supply system does not supply power to the lighting branch system, and the lighting is turned off; when the brightness is in the nighttime brightness state, the power supply system supplies power to the lighting branch system;

S3: In step S2, in the night state, the infrared detection switch detects whether there is a person passing by, and when a person passes by, the controller drives the relay to close and turn on the power supply of the lighting lamp;

S4: In step S3, the timer calculates the starting time of the lighting lamp, the proximity switch detects the distance of the person, and when the distance reaches the minimum value, gradually reduces the power supply voltage of the lighting lamp and reduces the brightness of the lighting lamp;

S5: When the infrared detection switch detects that the person exceeds the detection range, the controller drives the relay to disconnect, so that the power of the lighting lamp is turned off, and the power supply of the lighting lamp is disconnected to enter the energy-saving mode.

Further, in order to better realize the present invention, in step S4, the power quality analysis device detects the power quality data of the power supply system, and wirelessly sends the data to the lighting management central controller, and the lighting management central controller drives the three-phase voltage adjustment device Adjust the power supply system voltage.

Compared with the prior art, the present invention has the following beneficial effects:

(1) The present invention centrally controls each lighting branch system by setting a lighting management central controller, and at the same time can send the operating status of the lighting branch system to the control terminal in a wired or wireless manner, which is convenient for monitoring. Control and adjustment of power quality;

(2) The present invention can facilitate the management of each lighting system by setting power supply systems for each lighting branch system separately, and at the same time, when a single lighting system is powered off, the whole system will not fail to operate;

(3) By adopting the infrared detection switch, the present invention can conveniently detect whether there is a pedestrian passing through, and when there is a pedestrian through hole, the corresponding relay is correspondingly driven to close, so that the lighting lamp is energized and started, and automatic monitoring can be realized;

(4) The present invention can detect the pedestrian distance by setting the proximity switch, so that the brightness of the lighting lamp can be adjusted by adjusting the power supply voltage of the lighting lamp. When the pedestrian distance is far away, the brightness can be gradually reduced to achieve energy-saving effect;

(5) By using the brightness detection sensor, the present invention can realize different power supply during the day or night, so that when the daytime brightness reaches the set range, the lighting lamp can be turned on to avoid wasting electric energy;

(6) By adopting a wired signal module on the lighting management central controller, the present invention can realize data transmission by means of wired transmission signal when needed, which is convenient for the staff to carry out on-site inspection and helps to improve the efficiency of inspection and maintenance;

(7) The present invention can analyze the power quality of each lighting branch system by installing a power quality analysis device on the power supply system of the lighting branch system, so as to avoid power supply safety hazards caused by unbalanced power quality;

(8) The present invention can adjust the three-phase voltage of each power supply system by adopting the three-phase voltage adjustment device, so as to make the three-phase voltage more balanced and help to improve the safety of the system power supply;

(9) The present invention can realize data transmission with the lighting management central controller by setting a wireless communication module in the lighting branch system. At the same time, it helps to simplify equipment, improve operating efficiency, and facilitate the laying of lines;

(10) The method of the present invention can control the lighting branch system to enter the energy-saving mode when necessary by recording the lighting time and using the proximity switch to detect the distance of personnel, so as to improve the energy-saving effect of the overall system and equipment operation.

Description of drawings

In order to illustrate the technical solutions of the embodiments of the present invention more clearly, the accompanying drawings used in the embodiments will be briefly introduced below. It should be understood that the following drawings only show some embodiments of the present invention, and thus It should be regarded as a limitation on the scope, and those skilled in the art can also obtain other related drawings based on these drawings without creative work.

Figure 1 is a schematic diagram of the overall structure of the present invention.

Detailed ways

The present invention will be further described in detail below in conjunction with specific examples, but the implementation of the present invention is not limited thereto.

Example 1:

As shown in Figure 1, an energy-saving building lighting control system includes a lighting management central controller and a wireless signal module and a wired signal module arranged on the lighting management central controller. The USB interface and Ethernet interface connected to the controller also include the lighting branch system arranged in the floor. The lighting branch system is respectively equipped with a power supply system. The lighting branch system includes a wireless communication module and a distribution corresponding wireless The controller connected to the communication module, the controller is provided with a lighting lamp, the controller is provided with a relay for driving the lighting lamp on and off, and the controller is respectively provided with an infrared detection switch and proximity switch, the controller is respectively equipped with a brightness detection sensor, the lighting branch system is respectively equipped with a power quality analysis device, and the power quality analysis device communicates with the lighting management through the line The central controller is connected, and a three-phase voltage adjustment device is installed on the lighting management central controller. The three-phase voltage adjustment device is connected to the power supply system through a line, and the controller is provided with There are timing circuits and leakage protection circuits.

The present invention centrally controls each lighting branch system by setting a lighting management central controller, and at the same time can send the operating status of the lighting branch system to the control terminal through a wired or wireless manner, which is convenient for monitoring, and at the same time, can realize monitoring of the power quality of the branch system Control and adjustment; the present invention can facilitate the management of each lighting system by setting power supply systems for each lighting branch system respectively, and at the same time, when a single lighting system is powered off, the situation that the entire system cannot operate will not occur; the present invention By adopting an infrared detection switch, it is convenient to detect whether there is a pedestrian passing through, and when there is a pedestrian through hole, the corresponding relay is correspondingly driven to close, so that the lighting lamp is energized and started, and automatic monitoring can be realized; the present invention can detect Pedestrian distance, so that the brightness of the lighting lamp can be adjusted by adjusting the power supply voltage of the lighting lamp. When the pedestrian distance is far away, the brightness can be gradually reduced to achieve energy-saving effects; the invention can realize different power supply during the day or night by using a brightness detection sensor. , so that when the daytime brightness reaches the set range, it can avoid the waste of electric energy when the lighting lamp is turned on; the present invention can realize data transmission by means of wired signal transmission when needed by setting a wired signal module on the lighting management central controller, which is convenient On-site detection by staff helps to improve the efficiency of detection and maintenance; the present invention can analyze the power quality of each lighting branch system by installing a power quality analysis device on the power supply system of the lighting branch system, so as to avoid the unbalanced power quality from causing Potential safety hazard of power supply; the present invention can adjust the three-phase voltage of each power supply system by adopting a three-phase voltage adjustment device, so that the three-phase voltage is more balanced, which helps to improve the safety of power supply of the system; The communication module can realize data transmission with the lighting management central controller, and at the same time, it helps to simplify equipment, improve operating efficiency, and facilitate the laying of lines.

Example 2:

In this embodiment, on the basis of Embodiment 1, preferably, a voice-activated switch is provided on the controller, and the voice-activated switch is connected to the controller through a line. When the infrared detection switch fails, it can control the opening and closing of the lighting lamp, which helps to improve the reliability of the structure.

Preferably, in this embodiment, the wireless signal module includes a WIFI module and a ZigBee module.

In order to realize control conveniently, in this embodiment, preferably, a wireless control switch is set on the controller, the wireless control switch is wirelessly connected to the controller, and the wireless control switch is connected to the wireless connection of lights.

Example 3:

On the basis of Embodiment 1, this embodiment also discloses an energy-saving building lighting control method, including the following steps:

S1: Set the reference value: set the daytime and nighttime brightness value range of the lighting branch system;

S2: Detection of brightness: the brightness detection sensor detects the brightness of the surrounding environment. When the brightness reaches the daytime brightness state, the power supply system does not supply power to the lighting branch system, and the lighting is turned off; when the brightness is in the nighttime brightness state, the power supply system supplies power to the lighting branch system;

S3: In step S2, in the night state, the infrared detection switch detects whether there is a person passing by, and when a person passes by, the controller drives the relay to close and turn on the power supply of the lighting lamp;

S4: In step S3, the timer calculates the starting time of the lighting lamp, the proximity switch detects the distance of the person, and when the distance reaches the minimum value, gradually reduces the power supply voltage of the lighting lamp and reduces the brightness of the lighting lamp;

S5: When the infrared detection switch detects that the person exceeds the detection range, the controller drives the relay to disconnect, so that the power of the lighting lamp is turned off, and the power supply of the lighting lamp is disconnected to enter the energy-saving mode.

The method of the invention records the lighting time and uses the proximity switch to detect the distance of personnel, and can control the lighting branch system to enter the energy-saving mode when needed, thereby improving the energy-saving effect of the overall system and equipment operation.

Further, preferably, in step S4, the power quality analysis device detects the power quality data of the power supply system, and wirelessly sends the data to the lighting management central controller, and the lighting management central controller drives the three-phase voltage adjustment device to adjust the power supply system voltage.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. For those skilled in the art, the present invention may have various modifications and changes. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included within the protection scope of the present invention.

Claims (6)

1. a kind of energy saving building lighting control system, it is characterised in that：It is being illuminated including illumination supervision central controller and setting Manage central controller on wireless signal module and wire signal module, the wire signal module include respectively with illumination The USB interface and Ethernet interface that management central controller is connected, further include the illuminating branch system being arranged in floor, institute The illuminating branch system stated is respectively arranged with power supply system, the illuminating branch system include wireless communication module and respectively with The controller that respective wireless communication module is connected is provided with headlamp on the controller, is arranged on the controller It is useful for the relay for driving the headlamp to open and close, infrared acquisition switch is respectively arranged on the controller and is approached Switch, brightness detection sensor is respectively arranged on the controller, is respectively arranged in the illuminating branch system Power quality analysis device, the power quality analysis device pass through circuit and the illumination supervision central controller respectively It is connected, three-phase voltage regulating device, three-phase voltage adjustment is provided on the illumination supervision central controller Device is connected by circuit with the power supply system, and timing circuit and earth leakage protective electricity are provided on the controller Road.

2. a kind of energy saving building lighting control system according to claim 1, it is characterised in that：On the controller It is provided with audio-switch, the audio-switch is connected by circuit with the controller.

3. a kind of energy saving building lighting control system according to claim 1, it is characterised in that：The wireless signal mould Block includes WIFI module and ZigBee module.

4. a kind of energy saving building lighting control system according to claim 1, it is characterised in that：On the controller It is provided with wireless control switch, the wireless control switch is wirelessly connected with the controller, and the wireless control is opened It closes and is wirelessly connected with the headlamp.

5. a kind of energy saving building lighting control method, it is characterised in that：Include the following steps：

S1：A reference value is set：Illuminating branch system daytime and night range of luminance values are set；

S2：Detect brightness：Brightness detection sensor detects ambient brightness, when brightness reaches daytime luminance state, power supply System not to illuminating branch system power supply, close by headlamp；When brightness is in night luminance state, power supply system is to illuminating branch System power supply；

S3：In step s 2, when night status, infrared acquisition switch detected whether personnel's process, have personnel by when, control Device driving relay processed, which is closed, connects lighting lamp power；

S4：In step S3, timer calculates headlamp and starts the time, close to switch testing staff's distance, reaches minimum in distance When value, it is gradually reduced the supply voltage of headlamp, reduces lighting brightness；

S5：When infrared acquisition switchs testing staff beyond detection range, controller drives relay to disconnect, and lighting lamp power is made to close It closes, lighting lamp power is disconnected, into energy saver mode.

6. a kind of energy saving building lighting control method according to claim 5, it is characterised in that：In step s 4, electric energy Quality analysis apparatus detects power supply system power quality data, and data are wirelessly transmitted to illumination supervision central controller, shines Bright management central controller driving three-phase voltage regulating device adjusts power supply system voltage.