CN201709002U - Power line carrier illumination electricity-saving management system - Google Patents

Abstract

A power line carrier lighting energy-saving management system, which is composed of a background management terminal and a lamp terminal respectively connected to the power transmission line; wherein, the background management terminal is composed of a background management server, a background display, a first encoding circuit and a carrier modulation sending unit; The lamp end is composed of a light sensor, an acoustic sensor, an infrared sensor, a second encoding circuit, a second carrier modulation sending unit and a power-saving control unit. The system uses power line carrier for communication, which greatly reduces the cost of setting up separate communication lines; the system collects the environmental information of the lamps in real time through optical sensors, acoustic sensors and infrared sensors, and adjusts the working voltage, current, power factor of the lamps, etc. parameters, to control the power supply of lamps and lanterns to achieve the purpose of power supply on demand, thereby greatly saving power.

Description

Power Line Carrier Lighting Energy Saving Management System

technical field

The utility model relates to a lighting system power-saving control technology, in particular to a power line carrier lighting power-saving management system.

Background technique

With the rapid development of the national economy and the gradual improvement of people's living standards, public places such as street lamps, tunnels, bridges, factories, and communities have adopted mature lighting control systems for lighting control. However, the existing lighting control systems are all composed of independent lighting control equipment, which has the disadvantages of large investment and high cost. In addition, the existing lighting control system only has the control function of power on and off, which makes it difficult to realize the intelligent management of the lighting system and fail to achieve the goal of energy saving and emission reduction, which undoubtedly causes a great waste of the already tight power resources. Therefore, if the lamps can be intelligently controlled in real time and at any time and on demand according to the environmental information of the lamps, it will greatly shorten the fault discovery time and maintenance cycle, save power, ensure the quality of lighting, and change passive management into active management. Thereby greatly improving the intelligent management level of urban lighting.

In addition, most of the existing lighting control systems need to set up separate communication lines, and the existing communication lines are often unable to be used due to the need to consider the communication margin. This will inevitably greatly increase the cost of the lighting control system.

Utility model content

The purpose of the utility model is to provide a power line carrier lighting power saving management system which saves electric energy and can greatly reduce the cost of setting up a separate communication line.

The purpose of this new model is achieved as follows: a power line carrier lighting power saving management system, which is composed of a background management terminal and a lamp terminal respectively connected to the power transmission line;

The background management end is composed as follows: the background display is connected to the background management server, the background management server is respectively connected to the input end of the first encoding circuit and the output end of the first decoding circuit through a two-way data channel, and the output end of the first encoding circuit is connected to the carrier modulation The input end of the sending unit is connected, the output end of the carrier modulation sending unit is connected to the power transmission line, the input end of the first decoding circuit is connected to the output end of the carrier demodulation sending unit, the input end of the carrier demodulation sending unit is connected to the power transmission line connect;

The composition of the lamp end is as follows: the light sensor, the acoustic sensor and the infrared sensor are correspondingly arranged on or near each lamp, and the output terminals of the light sensor, the acoustic sensor and the infrared sensor are all connected to the input terminal of the second encoding circuit, and the second The output end of the encoding circuit is connected to the input end of the second carrier modulation sending unit, the output end of the second carrier modulation sending unit is connected to the power transmission line, the input end of the second carrier demodulation sending unit is connected to the power transmission line, and the second carrier demodulation The sending unit is sequentially cascaded with the second decoding circuit and the power saving control unit, and the output end of the power saving control unit is connected to the power supply circuit of the corresponding lamp.

The power line carrier lighting energy-saving management system of the utility model adopts the power line carrier for communication, which greatly reduces the cost of setting up a separate communication line; The identification rate and intelligence of the control; at the same time, the operating voltage, current, power factor and other parameters of the lamp are adjusted through the intelligent control terminal and the lamp energy-saving control unit, and the power supply of the lamp is controlled to realize the purpose of power supply on demand, thereby greatly Save electricity.

The utility model is composed of a background management terminal and a lamp terminal respectively connected to the power transmission line. The background management end includes a background management server module, a data processing module, a carrier demodulation sending unit, a first encoding circuit (module) and a first decoding circuit (module); the lamp end includes a light sensor (module), an acoustic sensor (module) , infrared sensor (module), power-saving control unit (including intelligent terminal control module), (lamp) power-saving control unit (module), second decoding circuit (module), second encoding circuit (module), second carrier modulation The sending unit and the second carrier demodulation sending unit.

One end of the light sensor module, acoustic sensor and infrared sensor is connected to the lamp, and the other end is connected to the second encoding circuit; the other end of the second encoding circuit is connected to the second carrier modulation sending unit, and the second carrier modulation sending unit is connected to the power The power transmission line is connected; the input end of the power saving control unit is connected with the second decoding circuit and the second carrier demodulation sending unit which are sequentially cascaded, the second carrier demodulation sending unit is connected with the power transmission line, and the power saving control unit The output end of the lamp is connected to the power supply circuit of the lamp.

The data processing module is connected to the background management server through a two-way data channel, and is connected to the first decoding circuit and the first encoding circuit respectively; the decoding circuit is connected to the power transmission line through the carrier demodulation sending unit; The modulation sending unit is connected with the power transmission line.

The background management terminal is also provided with a background display and a background operation module, and the background display and the background operation module are respectively connected to the background management server.

The beneficial effects of the new model are: the power line carrier lighting energy-saving management system provided by the new model uses the power line carrier for communication, which greatly reduces the cost of setting up a separate communication line; the system uses optical sensors, acoustic sensors and infrared sensors to collect data in real time The environmental information of the lamps and lanterns improves the recognition rate and intelligence of lamps and lanterns control; at the same time, through the energy-saving control unit to adjust the working voltage, current, power factor and other parameters of lamps and lanterns, the power supply control of lamps and lanterns is realized to realize the power supply on demand. purpose, thus greatly saving power.

Description of drawings

Fig. 1 is a system schematic diagram of the electric power line carrier lighting energy-saving management system provided by the present invention.

Detailed ways

Figure 1 shows that the new model is composed of a background management terminal and a lamp terminal respectively connected to the power transmission line;

The background management end is composed as follows: the background display is connected to the background management server, the background management server is respectively connected to the input end of the first encoding circuit and the output end of the first decoding circuit through a two-way data channel, and the output end of the first encoding circuit is connected to the carrier modulation The input end of the sending unit is connected, the output end of the carrier modulation sending unit is connected to the power transmission line, the input end of the first decoding circuit is connected to the output end of the carrier demodulation sending unit, the input end of the carrier demodulation sending unit is connected to the power transmission line connect;

The composition of the lamp end is as follows: the light sensor, the acoustic sensor and the infrared sensor are correspondingly arranged on or near each lamp, and the output terminals of the light sensor, the acoustic sensor and the infrared sensor are all connected to the input terminal of the second encoding circuit, and the second The output end of the encoding circuit is connected to the input end of the second carrier modulation sending unit, the output end of the second carrier modulation sending unit is connected to the power transmission line, the input end of the second carrier demodulation sending unit is connected to the power transmission line, and the second carrier demodulation The sending unit is sequentially cascaded with the second decoding circuit and the power saving control unit, and the output end of the power saving control unit is connected to the power supply circuit of the corresponding lamp.

As in Fig. 1 (hereinafter, the background management server module refers to the background management server, the decoding circuit module refers to the decoding circuit, the encoding circuit module refers to the encoding circuit, the carrier demodulation sending module refers to the carrier demodulation sending unit, and the carrier modulation sending module refers to the carrier modulation Sending unit, optical sensor module, acoustic sensor module and infrared sensor module respectively refer to optical sensor, acoustic sensor and infrared sensor), the power line carrier lighting power saving management system is composed of background management terminal and lamp terminal respectively connected to the power transmission line, The background management end includes a background management server module, a data processing module, a carrier modulation circuit module, a carrier demodulation circuit module, an encoding circuit module and a decoding circuit module; the lamp end includes a light sensor module, an acoustic sensor module, and an infrared sensor module , an intelligent terminal control module, a lamp power-saving module, a decoding circuit module, an encoding circuit module, a carrier modulation circuit module, and a carrier demodulation circuit module; one end of the optical sensor module, the acoustic sensor module, and the infrared sensor module are connected to the lamp, and the other One end is connected with the encoding circuit module; the other end of the encoding circuit module is connected with the carrier modulation circuit module, and the carrier modulation circuit module is connected with the power transmission line; the input end of the intelligent terminal control module is serially connected together The decoding circuit module is connected to the carrier demodulation circuit module, the carrier demodulation circuit module is connected to the power transmission line, the output terminal of the intelligent terminal control module is connected to the lamp power-saving module, and the lamp power-saving module is connected to the lamp; One end of the data processing module is connected to the background management server module through a two-way data channel, and the other end is connected to the decoding circuit module and the encoding circuit module respectively; the decoding circuit module is connected to the power transmission line through the carrier demodulation circuit module; The encoding circuit module is connected with the power transmission line through the carrier modulation circuit module. The background management terminal is also provided with a background display screen and a background operation module, and the background display screen and the background operation module are respectively connected to the background management server module.

When the system is in use, an optical sensor module, an acoustic sensor module, and an infrared sensor module are installed at the lamp end, and a background management server module and a data processing module are installed at the background management end; and a decoding circuit module, Encoding circuit module, carrier demodulation circuit module, and carrier modulation circuit module; in this way, the light sensor module, acoustic sensor module and infrared sensor module at the lamp end collect the environmental information of the lamp in real time, and then send it through the encoding circuit module and carrier modulation circuit module to the power transmission line. At the other end of the power transmission line, the carrier demodulation circuit module and the decoding circuit module receive the data from the power transmission line and send it to the data processing module, and then send it to the background management server module. The background management server module sorts out the control instructions according to the real-time data and sends them to the power transmission line through the data processing module, encoding circuit module and carrier modulation circuit module. The control data is sent to the smart terminal control module, which adjusts the working voltage, current, power factor and other parameters of the lamp through the lamp energy-saving module, and controls the power supply of the lamp to realize on-demand power supply.

Although the specific implementation of the utility model has been described in conjunction with the accompanying drawings, within the scope defined by the claims of this patent, various modifications or deformations that can be made by those skilled in the art without creative work are still subject to the scope of this patent. Protect.

Claims (1)

1. a power line carrier wave illuminating energy-saving management system is characterized in that: be made up of back-stage management end that is connected with electric power transmission line respectively and light fixture end;

The back-stage management end is composed as follows: the backstage display is connected with back-stage management server, back-stage management server is connected with the input of first coding circuit and the output of first decoding circuit respectively by bidirectional data path, the output of first coding circuit is connected with the input of carrier wave modulation sending unit, the output of carrier wave modulation sending unit is connected with electric power transmission line, the input of first decoding circuit is connected with the output of carrier wave demodulation transmitting element, and the input of carrier wave demodulation transmitting element is connected with electric power transmission line;

The light fixture end is composed as follows: optical sensor, the equal correspondence of sonic transducer and infrared sensor is arranged on each light fixture or near the light fixture, optical sensor, sonic transducer and infrared sensor three's output all connects the input of second coding circuit, the output of second coding circuit connects the input of second carrier wave modulation sending unit, the output of second carrier wave modulation sending unit connects electric power transmission line, the input of the second carrier wave demodulation transmitting element connects electric power transmission line, the second carrier wave demodulation transmitting element is cascade second decoding circuit and economize on electricity control unit in turn, and the output of economize on electricity control unit is connected in the current supply circuit of corresponding light fixture.