CN202679752U - Intelligent lighting system controlling light through power line - Google Patents

Abstract

The utility model provides an intelligent lighting system controlling light through a power line, which comprises an upper-end controller, a light controller and a light device. The upper-end controller is applied for sending a control instruction to the light controller. The light controller which is connected with the upper-end controller through a communication interface and further connected with the light device through the power line is applied for sending a corresponding control instruction to the light device through the power line after the control instruction from the upper-end controller is received. The light device is applied for receiving the control instruction sent from the light controller and setting the state of a light assembly inside the light device according to the received control instruction. By sending the control instruction through the power line, the intelligent lighting system provided in the utility model can easily perform remote control and state queries on the light device. The wiring difficulties are lowered. Furthermore, the system facilitates the intelligent control on light.

Description

The intelligent illuminating system of power line control light

Technical field

The utility model relates to a kind of intelligent lighting control field, more specifically, relates to a kind of intelligent illuminating system of power line control light.

At present, Long-distance Control light generally adopts Ethernet to control, and like this just need to add an ethernet line at each light units, and wiring and installation workload are very large, and fail safe is also poor, and can't realize centralized remote control; Also have some small-sized dedicated illumination control system in the prior art, be connected with wireless mode by bus between each control switch, but this type of system works is limited in scope, system does not have extensibility, digital coding is all adopted in the equipment room information exchange, there be technical sophistication, poor anti jamming capability, the problem of poor reliability of realizing; In addition, also have the Lighting Control Assembly of some attached building automation systems, adopt specific agreement, although this type systematic feature richness is in large scale, Installation and Debugging are complicated, must be by professional and technical personnel's construction and expensive.

The utility model content

In view of this, main purpose of the present utility model is to provide a kind of intelligent illuminating system of power line control light, can solve the problem of the high and poor stability of the wiring difficulty that exists in the prior art.

For achieving the above object, the technical solution of the utility model is achieved in that

The utility model provides a kind of intelligent illuminating system of power line control light, comprising: upper end controller, lamp dimmer and light units, and wherein, described upper end controller is used for sending controling instruction to described lamp dimmer; Described lamp dimmer, link to each other with described upper end controller by communication interface, be connected with described light units by power line, be used for after receiving the control command that described upper end controller sends, sending corresponding control command to described light units by power line; Described light units is used for receiving the control command that described lamp dimmer sends and the state that the lamplight component of described light units is set according to the control command that receives.

Preferably, described lamp dimmer comprises: switch power module, communication interface, processing module and the first power line communication module, wherein,

Described switch power module is used for providing voltage and current to described lamp dimmer;

Described communication interface, the control command that is used for the upper end controller is sent is transferred to described processing module;

Described processing module links to each other with described the first power line communication module, is used for after receiving the control command that described communication interface transmits corresponding control command being forwarded to described the first power line communication module;

Described the first power line communication module, link to each other with live wire, the zero line of described processing module, power line respectively, be used for the control command that receives is modulated at a carrier wave, and with its live wire and zero line that is coupled to power line, by power line control command be transferred to described light units.

Preferably, described light units comprises: switch power module, the second power line communication module, control module and lamplight component, wherein,

Described switch power module is used for providing voltage and current to described light units;

Described the second power line communication module links to each other with live wire, the zero line of described control module, power line respectively, be used for to receive that power line transmits through the control signal of ovennodulation and demodulate control command, the control command that demodulates is forwarded to described control module;

Described control module links to each other with described the second power line communication module, described lamplight component respectively, the state that is used for receiving control command and controls described lamplight component according to control command;

Described lamplight component links to each other with described control module.

Preferably, described lamp dimmer also is used for receiving the state that described light units feeds back the described lamplight component that comes.

Preferably, described the first power line communication module also comprises the first receiving element, is used for receiving the status data of the next described lamplight component of described light units feedback, and demodulates the status data of lamplight component, and it is forwarded to described processing module.

Preferably, described the second power line communication module also comprises the second transmitting element, be used for behind the status data that receives the lamplight component that described control module sends, be modulated to the status data of lamplight component on the carrier wave and with its live wire and zero line that is coupled to power line, be transferred to described lamp dimmer by power line.

Technique effect of the present utility model: live wire and the zero line of power line modulated, is coupled to the control command that this system has utilized the power line communication module that the upper end controller is sent, transmit control command by power line, the power line communication module is taken out the control command through ovennodulation from power line, and demodulate control command, carry out accordingly operation.Simultaneously, the control command that the upper end controller sends includes inquiry light status command, and light units can also be with the state feedback of light to lamp dimmer.Control command is transmitted by power line, can carry out Long-distance Control and status poll to light units at an easy rate, reduced the difficulty of wiring, for the Based Intelligent Control that realizes light provides convenience, particularly for some existing buildings of not arranging in advance netting twine, the intellectualized reconstruction that carries out light units provides possibility.Simultaneously, the light units that some no man's lands and forgetting are closed is carried out the long-range processing of closing, reached energy-conservation effect.

Description of drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, consists of the application's a part, and illustrative examples of the present utility model and explanation thereof are used for explaining the utility model, do not consist of improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows the intelligent illuminating system schematic diagram according to the power line control light of the utility model embodiment;

Fig. 2 shows the lamp dimmer structural representation according to the utility model embodiment;

Fig. 3 shows the light units structural representation according to the utility model embodiment;

Fig. 4 shows the intelligent illuminating system structural representation according to the power line control light of another embodiment of the present utility model;

Fig. 5 shows the intelligent illuminating system structural representation according to the power line control light of another embodiment of the present utility model;

Fig. 6 shows the flow chart according to the control method of the intelligent illuminating system of the power line control light of embodiment of the present utility model;

Fig. 7 shows the flow chart according to the control method of the intelligent illuminating system of the power line control light of another embodiment of the present utility model;

Fig. 8 shows the concrete process chart according to the control method of the intelligent illuminating system of the power line control light of embodiment of the present utility model.

Embodiment

Below with reference to the accompanying drawings and in conjunction with the embodiments, describe the utility model in detail.

Fig. 1 shows the intelligent illuminating system schematic diagram according to the power line control light of embodiment of the present utility model.As shown in Figure 1, this system comprises: upper end controller 10, lamp dimmer 20 and light units 30, wherein,

Upper end controller 10 is used for sending controling instruction to lamp dimmer 20; Can be PC, server or control appliance etc. such as upper end controller 10, the utility model embodiment does not do restriction to this.

Lamp dimmer 20 links to each other with upper end controller 10 by communication interface, is connected with light units 30 by power line, after the control command that controller 10 is sent on receiving, sends corresponding control command to light units 30 by power line;

Light units 30 is used for the control command that receiving light optical controller 20 sends and the state that the lamplight component of light units is set according to the control command that receives.

Fig. 2 shows the structural representation according to the lamp dimmer of embodiment of the present utility model.As shown in Figure 2, lamp dimmer 20 comprises, Switching Power Supply mould 202, communication interface 204, processing module 206 and the first power line communication module 208, wherein,

Switch power module 202 is used for providing voltage and current to lamp dimmer 20;

Communication interface 204, the control command that is used for upper end controller 10 is sent is transferred to processing module 206; For example, communication interface 204 can be wherein a kind of of Ethernet, serial ports, USB interface or controller local area network (Canbus), and embodiment of the present utility model does not do restriction to this.

Processing module 206 links to each other with the first power line communication module 208, is used for after receiving the control command that communication interface 204 transmits corresponding control command being forwarded to the first power line communication module 208;

The first power line communication module 208, link to each other with live wire, the zero line of processing module 206, power line respectively, be used for the control command that receives is modulated at a carrier wave, and with its live wire and zero line that is coupled to power line, by power line control command be transferred to light units 30.

Fig. 3 shows the structural representation according to the light units of embodiment of the present utility model.As shown in Figure 3, light units 30 comprises: the Switching Power Supply mould, and the 302, second power line communication module 304, control module 306 and lamplight component 308, wherein,

Switch power module 302 is used for providing voltage and current to light units 30;

The second power line communication module 304 links to each other with live wire, the zero line of control module 306, power line respectively, be used for to receive that power line transmits through the control signal of ovennodulation and demodulate control command, the control command that demodulates is forwarded to control module 306;

Control module 306 links to each other with the second power line communication module 304, lamplight component 308 respectively, the state that is used for receiving control command and controls lamplight component 308 according to control command;

Lamplight component 308 links to each other with control module 306, can be the fluorescent lamp be familiar with in our daily life, incandescent lamp etc. such as described lamplight component.

Fig. 4 shows the intelligent illuminating system structural representation according to the power line control light of another embodiment of the present utility model, as shown in Figure 4, this system comprises, upper end controller 10, lamp dimmer 20 and light units 30, especially, the first power line communication module 208 also comprises the first receiving element 2082; The second power line communication module 304 also comprises the second transmitting element 2042; Upper end controller 10 sends control command, by communication interface 204 control command is sent to processing module 206, processing module 206 is forwarded to the first power line communication module 208 with control command, the first power line communication module 208 is modulated to the control command that receives on the carrier wave, and it is coupled to live wire and the zero line of power line, by power line control command is transferred to the second power line communication module 304, the second power line communication module 304 receive that power lines transmit through the control signal of ovennodulation and demodulate control command, the control command that demodulates is forwarded to control module 306, control module 306 is controlled the state of lamplight component 308 according to control command, for example, control command is for adjusting the brightness of lamplight component 308, colour temperature or open, close, control module 306 is controlled the brightness of lamplight component 308 according to control command, colour temperature or open, off status.

The control command of sending when upper end controller 10 is when inquiring about the state of lamplight component 308, control module 306 is with lamplight component 308 corresponding state (brightness, colour temperature or open, the pass) sends to the second transmitting element 2042 in the second power line communication module 204, the second transmitting element 2042 is modulated to the light status data that receives on the carrier wave, and it is coupled to live wire and the zero line of power line, by power line the light status data is transferred to the first receiving element 2082 in the first power line communication module 208, the first receiving element 2082 with the demodulation of light status data out and be transmitted to processing module 206, processing module 206 is transferred to upper end controller 10 by communication interface 204 with the status data of lamplight component 308.

In embodiment of the present utility model, live wire and the zero line of power line modulated, is coupled to the control command of having utilized the power line communication module that the upper end controller is sent, transmit control command by power line, the power line communication module is taken out the control command through ovennodulation from power line, and demodulate control command, carry out accordingly operation.Simultaneously, the control command that the upper end controller sends includes inquiry light status command, and light units can also be with the state feedback of light to lamp dimmer.Control command is transmitted by power line, can carry out Long-distance Control and status poll to light units at an easy rate, reduced the difficulty of wiring, for the Based Intelligent Control that realizes light provides convenience, particularly for some existing buildings of not arranging in advance netting twine, the intellectualized reconstruction that carries out light units provides possibility.Simultaneously, the light units that some no man's lands and forgetting are closed is carried out the long-range processing of closing, reached energy-conservation effect.

Fig. 5 shows the intelligent illuminating system structural representation according to the power line control light of another embodiment of the present utility model, as shown in Figure 5, native system can also be controlled a plurality of light unitses 30 with a lamp dimmer 20, during implementation, can be one of each light units 30 configuration ID number, ID number of only receiving of each light units 30 just carried out corresponding operation according to the control command of sending with the ID number coupling of this light units 30, and namely control module 306 is controlled the states such as brightness, colour temperature and switch of lamplight component 308 according to control command; If control command is the instruction of inquiry lamplight component 308 states, control module 306 sends to the second power line communication module 304 with brightness, colour temperature and the on off state of lamplight component 308, be coupled to live wire and the zero line of power line after by the second power line communication module 304 it being modulated again, be transferred to lamp dimmer 20 by power line, last by PORT COM 204 status data of light be transferred to upper end controller 10 again.

Especially, in the present embodiment, can also be a broadcasting of each light units 20 configuration ID, when light units 20 receives that the control command of upper end controller 10 transmissions comprises broadcasting ID, also will carry out corresponding operation, can realize fast like this integral body control of all light unitses 30.

In embodiment of the present utility model, utilized a lamp dimmer to control a plurality of light unitses, live wire and the zero line of power line modulated, is coupled to the control command that the power line communication module is sent the upper end controller, transmit control command by power line, the power line communication module is taken out the control command through ovennodulation from power line, and demodulate control command, carry out accordingly operation.Simultaneously, the control command that the upper end controller sends includes inquiry light status command, and light units can also be with the state feedback of light to lamp dimmer.Realize unit control and the whole control of light units, improved operating efficiency.Simultaneously, the light units that some no man's lands and forgetting are closed is carried out the long-range processing of closing, reached energy-conservation effect.

Fig. 6 shows the flow chart according to the control method of the intelligent illuminating system of the power line control light of embodiment of the present utility model; As shown in Figure 6, the method comprises:

Step S601, upper end controller sending controling instruction is to lamp dimmer; For example, control command is brightness, colour temperature and the open and close of control lamplight component or the status command of inquiry lamplight component.

Step S602, lamp dimmer are transferred to light units by power line with control command after receiving control command by communication interface;

Step S603, light units receive the state (brightness, colourity and open and close) that the lamplight component in the described light units is set according to control command after the control command.

Particularly, described lamp dimmer comprises the concrete steps that control command is transferred to light units by power line after receiving control command:

Step S602-1, processing module is forwarded to the first power line communication module with control command;

Step S602-2, the first power line communication module is modulated to control command on the carrier wave and with it and is coupled to live wire and the zero line of power line;

Step S602-3 is transferred to the second power line communication module in the light units with the control signal after the modulation by power line.

Particularly, described light units receives after the control command concrete steps that the state of the lamplight component in the described light units are set according to control command and comprises:

Step S603-1, the second power line communication module reception control signal also demodulates control command;

Step S603-2 is forwarded to control module with the control command that demodulates;

Step S603-3, control module arranges the state (brightness, colourity and open and close) of described lamplight component according to control command.

Fig. 7 shows the flow chart according to the control method of the intelligent illuminating system of the power line control light of another embodiment of the present utility model; As shown in Figure 7, the step S601 in Fig. 6, when the control command that the upper end controller sends was the status command of inquiry lamplight component, the method comprised:

Step S701 is with step S601;

Step S702-step S704 is with step S602-1-step S602-3;

Step S705-step S706 is with step S603-1-step S603-2;

Above step does not repeat them here;

Step S707, control module sends to the second power line communication module with the status data (brightness, colourity and open and close) of lamplight component;

Step S708, the second power line communication module is coupled to live wire and the zero line of power line after with the modulation of the status data of lamplight component;

Step S709 is transferred to the first power line communication module with the status data of lamplight component after the modulation by power line;

Step S710 carries out the status data of the lamplight component that receives demodulation and it is forwarded to processing module;

Step S711, processing module is transferred to the upper end controller by communication interface with the status data of lamplight component.

Fig. 8 shows the concrete process chart according to the control method of the intelligent illuminating system of the power line control light of embodiment of the present utility model, as shown in Figure 8, may further comprise the steps:

Step S801, does communication interface receive control command? if execution in step S802 if not, returns beginning;

Step S802, processing module receives control command;

Step S803 is forwarded to the first power line communication module with control command;

Step S804, the second power line communication module receives control command; If control command is for arranging the light status command, execution in step S805 is if control command is inquiry light status command, then execution in step S806;

Step S805 arranges the state of the lamplight component in the light units;

Step S806 sends to the second power line communication module with the light status data;

Step S807, the first power line communication module receives the light status data;

Step S808 is forwarded to processing module with the light status data;

Step S809 is transferred to the upper end controller with the light status data.

As can be seen from the above description, the utility model the above embodiments have realized following technique effect:

(1) live wire and the zero line of power line modulated, is coupled to the control command of having utilized the power line communication module that the upper end controller is sent, transmit control command by power line, the power line communication module is taken out the control command through ovennodulation from power line, and demodulate control command, carry out accordingly operation.Control command is transmitted by power line, can carry out Long-distance Control to light units at an easy rate, reduced the difficulty of wiring, for the Based Intelligent Control that realizes light provides convenience, particularly for some existing buildings of not arranging in advance netting twine, the intellectualized reconstruction that carries out light units provides possibility.

(2) because the controller control command sent in upper end includes inquiry light status command, light units can also be with the state feedback of light to lamp dimmer.Can inquire about easily the state of light units, the light units that some no man's lands and forgetting are closed is carried out remote inquiry, closed processing, reach energy-conservation effect.

(3) the utility model can also utilize a lamp dimmer to control a plurality of light unitses, has realized unit control and the whole control of light units, has improved operating efficiency.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection range of the present utility model.

Claims (6)

1. the intelligent illuminating system of a power line control light is characterized in that, comprising: upper end controller, lamp dimmer and light units, wherein,

Described upper end controller is used for sending controling instruction to described lamp dimmer;

Described lamp dimmer links to each other with described upper end controller by communication interface,

Be connected with described light units by power line, be used for after receiving the control command that described upper end controller sends, sending corresponding control command to described light units by power line;

Described light units is used for receiving the control command that described lamp dimmer sends and the state that the lamplight component of described light units is set according to the control command that receives.

2. a kind of power line according to claim 1 is controlled the intelligent illuminating system of light,

It is characterized in that described lamp dimmer comprises: switch power module, communication interface, processing module and the first power line communication module, wherein,

Described switch power module is used for providing voltage and current to described lamp dimmer;

Described communication interface, the control command that is used for the upper end controller is sent is transferred to described processing module;

Described processing module links to each other with described the first power line communication module, is used for after receiving the control command that described communication interface transmits corresponding control command being forwarded to described the first power line communication module;

Described the first power line communication module, link to each other with live wire, the zero line of described processing module, power line respectively, be used for the control command that receives is modulated at a carrier wave, and with its live wire and zero line that is coupled to power line, by power line control command be transferred to described light units.

3. a kind of power line according to claim 1 is controlled the intelligent illuminating system of light, it is characterized in that described light units comprises: switch power module, the second power line communication module, control module and lamplight component, wherein,

Described switch power module is used for providing voltage and current to described light units;

Described the second power line communication module links to each other with live wire, the zero line of described control module, power line respectively, be used for to receive that power line transmits through the control signal of ovennodulation and demodulate control command, the control command that demodulates is forwarded to described control module;

Described control module links to each other with described the second power line communication module, described lamplight component respectively, the state that is used for receiving control command and controls described lamplight component according to control command;

Described lamplight component links to each other with described control module.

4. the intelligent illuminating system of each described a kind of power line control light is characterized in that according to claim 1-3, and described lamp dimmer also is used for receiving the state that described light units feeds back the described lamplight component that comes.

5. according to claim 2 or the intelligent illuminating system of 4 described a kind of power lines control light, it is characterized in that, described the first power line communication module also comprises, the first receiving element, be used for receiving the status data of the next described lamplight component of described light units feedback, and demodulate the status data of lamplight component, and it is forwarded to described processing module.

6. according to claim 3 or the intelligent illuminating system of 4 described a kind of power lines control light, it is characterized in that, described the second power line communication module also comprises, the second transmitting element, be used for behind the status data that receives the lamplight component that described control module sends, be modulated to the status data of lamplight component on the carrier wave and with its live wire and zero line that is coupled to power line, be transferred to described lamp dimmer by power line.

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