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

Abstract

A power line carrier illumination electricity-saving management system consists of a back-stage management terminal and a lamp terminal which are respectively connected with an electric power transmission line. The back-stage management terminal consists of a back-stage management server, a back-stage display, a first coding circuit and a carrier modulation transmitting unit, and the lamp terminal consists of a light sensor, a sound sensor, an infrared sensor, a second coding circuit, a second carrier modulation transmitting unit and an electricity-saving control unit. The power line carrier illumination electricity-saving management system realizes communication by adopting power line carriers, greatly reduces cost of independently erecting a communication circuit, acquires environmental information of lamps through the light sensor, the sound sensor and the infrared sensor, adjusts parameters of the lamps, such as working voltage, current, power factors and the like, realizes power supply control to the lamps, and achieves the purpose of supplying power according to needs, thereby saving electric energy greatly.

Description

Power line carrier wave illuminating energy-saving management system

Technical field

The utility model relates to the illuminator electricity-saving control technology, is specifically related to a kind of power line carrier wave illuminating energy-saving management system.

Background technology

Along with fast development of national economy, the progressively raising of people's living standard, public places such as street lamp, tunnel, bridge, plant area, community have all adopted the control of throwing light on of ripe Lighting Control Assembly.Yet existing Lighting Control Assembly is formed by lighting control equipment independently, has the shortcoming that investment is many, cost is high.In addition, existing Lighting Control Assembly only has the controlled function of power on/off, is difficult to realize the intelligent management of illuminator, can't reach the purpose of energy-saving and emission-reduction, and this causes this just significant wastage of nervous electric power resource undoubtedly.Therefore, if can be according to the residing environmental information of light fixture, light fixture is carried out intelligence in real time, control with need ground at any time, the discovery time and the maintenance period of fault will greatly be shortened, saves energy, ensure lighting quality, the change passive management is active management, thereby promotes the intelligent management level of city illumination significantly.

In addition, existing Lighting Control Assembly mostly needs independent building communication lines, and existing communication line often can't adopt owing to must consider the communication surplus.This will certainly significantly increase the cost of Lighting Control Assembly.

The utility model content

The purpose of this utility model provides a kind of power line carrier wave illuminating energy-saving management system of saving electric energy, greatly reducing independent building communication lines cost.

This novel purpose is achieved in that a kind of power line carrier wave illuminating energy-saving management system, is 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 respectively at the input of first coding circuit and the output of first decoding circuit 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.

The utility model power line carrier wave illuminating energy-saving management system adopts power line carrier to carry out communication, has greatly reduced independent cost of building communication lines; The residing environmental information of light fixture is gathered in real time by optical sensor, sonic transducer and infrared sensor by this system, improves the discrimination and the intelligent degree of light fixture control; Simultaneously, adjust the parameters such as operating voltage, electric current, power factor of light fixture by control of intelligent terminal and light fixture economize on electricity control unit,, realize the purpose of powering as required, thereby significantly save electric energy the light fixture control of powering.

Basis is novel to be made up of the back-stage management end and the light fixture end that are connected on the electric power transmission line.The back-stage management end comprises back-stage management server module, data processing module, carrier wave demodulation transmitting element, first coding circuit (module) and first decoding circuit (module); The light fixture end includes optical sensor (module), sonic transducer (module), infrared sensor (module), economize on electricity control unit (containing the intelligent terminal control module), (light fixture) economize on electricity control unit (module), second decoding circuit (module), second coding circuit (module), second carrier wave modulation sending unit and the second carrier wave demodulation transmitting element.

Optical sensor module, sonic transducer and infrared sensor one end are connected with light fixture, and the other end is connected with second coding circuit; The other end of second coding circuit is connected with second carrier wave modulation sending unit, and second carrier wave modulation sending unit is connected with electric power transmission line; The input of economize on electricity control unit is connected with the second carrier wave demodulation transmitting element with second decoding circuit of cascade successively, and the second carrier wave demodulation transmitting element is connected with electric power transmission line, and the output of economize on electricity control unit and the current supply circuit of light fixture are connected.

Data processing module is connected by bidirectional data path with back-stage management server, and is connected with first coding circuit with first decoding circuit respectively; Decoding circuit is connected with electric power transmission line by the carrier wave demodulation transmitting element; First coding circuit is connected with electric power transmission line by carrier wave modulation sending unit.

The back-stage management end also is provided with backstage display and consistency operation module, and backstage display and consistency operation module are connected on the back-stage management server.

This novel beneficial effect is: this novel power line carrier wave illuminating energy-saving management system that provides adopts power line carrier to communicate, and has greatly reduced independent cost of building communication lines; The residing environmental information of light fixture is gathered in real time by optical sensor, sonic transducer and infrared sensor by this system, improves the discrimination and the intelligent degree of light fixture control; Simultaneously, adjust the parameters such as operating voltage, electric current, power factor of light fixture,, realize the purpose of powering as required, thereby significantly save electric energy the light fixture control of powering by the economize on electricity control unit.

Description of drawings

Fig. 1 is the systematic schematic diagram of this novel power line carrier wave illuminating energy-saving management system that provides.

Embodiment

Fig. 1 illustrates, and basis is novel to 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 respectively at the input of first coding circuit and the output of first decoding circuit 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.

As among Fig. 1 (hereinafter, the back-stage management server module refers to back-stage management server, the decoding circuit module refers to decoding circuit, the coding circuit module refers to coding circuit, the carrier wave demodulation sending module refers to the carrier wave demodulation transmitting element, the carrier modulation sending module refers to carrier wave modulation sending unit, optical sensor module, sonic transducer module and infrared sensor module refer to optical sensor respectively, sonic transducer and infrared sensor), power line carrier wave illuminating energy-saving management system by respectively with electric power transmission line on the back-stage management end and the light fixture end that are connected form, this back-stage management end comprises the back-stage management server module, data processing module, the carrier modulation circuit module, the carrier wave demodulation circuit module, coding circuit module and decoding circuit module; Described light fixture end includes optical sensor module, sonic transducer module, infrared sensor module, intelligent terminal control module, light fixture power-saving module, decoding circuit module, coding circuit module, carrier modulation circuit module and carrier wave demodulation circuit module; Described optical sensor module, sonic transducer module and infrared sensor module one end are connected with light fixture, and the other end is connected with the coding circuit module; The other end of described coding circuit module is connected with the carrier modulation circuit module, and the carrier modulation circuit module is connected with electric power transmission line; The input of described intelligent terminal control module is connected with the carrier wave demodulation circuit module with the decoding circuit module that is serially connected successively, the carrier wave demodulation circuit module is connected with electric power transmission line, the output of intelligent terminal control module is connected with the light fixture power-saving module, and the light fixture power-saving module is connected with light fixture; Described data processing module one end is connected by bidirectional data path with the back-stage management server module, and the other end is connected with the coding circuit module with the decoding circuit module respectively; Described decoding circuit module is connected with electric power transmission line by the carrier wave demodulation circuit module; Described coding circuit module is connected with electric power transmission line by the carrier modulation circuit module.Described back-stage management end also is provided with backstage display screen and consistency operation module, and described backstage display screen and consistency operation module are connected on the back-stage management server module.

When this system uses, optical sensor module, sonic transducer module and infrared sensor module are set, at the back-stage management end back-stage management server module, data processing module are set simultaneously at the light fixture end; And decoding circuit module, coding circuit module and carrier wave demodulation circuit module, carrier modulation circuit module are set respectively at the two ends of electric power transmission line; Like this, the optical sensor module of light fixture end, sonic transducer module and infrared sensor module are gathered the residing environmental information of light fixture in real time, and encoded afterwards circuit module and carrier modulation circuit module are sent on the electric power transmission line.At the other end of electric power transmission line, accept from the data on the electric power transmission line and be sent to data processing module through carrier wave demodulation circuit module and decoding circuit module, be sent to the back-stage management server module afterwards.The back-stage management server module goes out control command according to real-time data reduction and is sent on the electric power transmission line via data processing module, coding circuit module and carrier modulation circuit module, accept from the control data on the electric power transmission line by carrier wave demodulation circuit module and decoding circuit module at the light fixture end, and be sent to the intelligent terminal control module, adjust the parameter such as operating voltage, electric current, power factor of light fixture by the light fixture power-saving module by the intelligent terminal control module, to the light fixture control of powering, realize power supply as required.

Though in conjunction with the accompanying drawings embodiment of the present utility model is described, in the claim institute restricted portion of this patent, the protection that those skilled in the art do not need various modifications that creative work can make or distortion still to be subjected to this patent.

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.