CN203722859U - Intelligent illuminating system - Google Patents

Abstract

The utility model provides an intelligent illuminating system. The characteristic of the system is that the system includes a control server, a gateway and at least one illuminating subsystem. The control server is provided with a database for storing parameters of the illuminating subsystem. The control server is used for receiving state signals sent by the illuminating subsystem, invoking the corresponding parameters in the database, generating dimming signals, and sending the dimming signals. The gateway is used for receiving and sending the signals between the control server and the illuminating subsystem so as to achieve networking protocol translation. The illuminating subsystem includes a lamp. The illuminating subsystem is used for setting illuminating states, and controls the illuminating states of the lamp according to the received dimming signals. The system has a dimming function, is energy-saving and environment-friendly, and is convenient to be operated and to be controlled. The system employs a modular, distributed system structure. A modular building can be proceeded according to the needs of application projects, and a large-scale intelligent illuminating system can be built.

Description

Intelligent lighting system

Technical Field

The utility model relates to the field of lighting technology, more specifically say, relate to an intelligent lighting system.

Background

The traditional illuminating lamp can be singly switched on and off, and can illuminate at the same brightness in different environment brightness and different application occasions, so that energy is wasted, and the requirement of a user on the illuminating effect of part of application occasions cannot be met. In recent years, enterprises begin to develop dimmable lamps and dimmable lighting systems, but due to the limitation of factors such as system communication capacity and load capacity, the number of lamps which can be arranged in the system is limited, and the arrangement range of the lamps is also greatly limited. Therefore, there is an urgent need to develop a lighting system with adjustable light, energy saving, environmental protection and strong load capacity.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming and not enough among the prior art, provide an intelligent lighting system who has dimming function, energy-concerving and environment-protective, the operation control of being convenient for. The system adopts a modularized and distributed system structure, can be constructed in a modular mode according to the application engineering requirements, and can be built into a large intelligent lighting system.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an intelligent lighting system, characterized in that: comprising a control server, a gateway and at least one lighting subsystem; wherein,

the control server is provided with a database for storing parameters of the lighting subsystem, and is used for receiving the state signals sent from the lighting subsystem, calling the corresponding parameters in the database, generating dimming signals and sending the dimming signals;

the gateway is used for controlling the signal receiving and sending between the server and the lighting subsystem to realize network protocol conversion;

the lighting subsystem comprises a lamp and is used for setting a lighting state and controlling the lighting state of the lamp according to the received dimming signal.

The system of the utility model can realize the dimming function, comprises a plurality of lighting subsystems, can carry out modular construction according to the application engineering requirements, and can be built into a large-scale intelligent lighting system; meanwhile, parameter information of the system is centralized on the control server, so that control and data safety management of each lighting subsystem are facilitated, and the system cost is reduced; the gateway is adopted to receive and send signals between the control server and the lighting subsystem, and can be connected with equipment adopting different network protocols, so that the hardware development workload is reduced.

The further scheme is as follows: the lighting subsystem further comprises a control panel and a dimming control module; the control panel is used for setting an illumination mode and generating and sending an illumination mode state signal to the control server; the dimming control module is used for receiving the dimming signal and controlling the output current according to the dimming signal; the output end of the dimming control module is electrically connected with the lamp; the control panel is in signal connection with the gateway, and the input end of the dimming control module is in signal connection with the gateway. The utility model discloses the system adopts control server to unify and carries out parameter management and storage, is equipped with control panel simultaneously and controls the control operation of being convenient for to each illumination subsystem's illumination state.

The control server is provided with a human-computer interaction interface for changing parameters of the lighting subsystem in the database. A user can change parameters of the lighting subsystem in the database through a human-computer interaction interface, and the requirements of the user on different lighting schemes are met.

And the dimming control module sends a dimming control module state signal to the control server. The dimming control module sends a dimming control module state signal to the control server, and the control server can detect the state of the dimming control module, so that the accuracy, stability and safety of the system are improved.

The dimming control module consists of a plurality of dimming control sub-modules; each dimming control sub-module is in signal connection with the gateway. The number of lamps of the lighting subsystem can be increased by adopting a plurality of dimming control sub-modules; meanwhile, the positions of the dimming control submodules are installed according to the distribution requirements of the lamp, so that the line arrangement between the dimming control submodules and the lamp is optimized conveniently.

The preferred scheme is as follows: the control server comprises a first control server and a second control server which are mutually in hot backup, and the first control server and the second control server are respectively in signal connection with the gateway. In the system requiring that the control cannot be temporarily lost, the control server comprises a first control server and a second control server which are mutually hot-backed up, so that the control reliability of the system can be ensured.

The gateway is in signal connection with the control panel in a wireless communication mode.

The gateway is in signal connection with the dimming control submodule in a wireless communication mode.

The gateway is in signal connection with the first control server in a signal cable mode; and the gateway is in signal connection with the second control server in a signal cable mode.

The illumination subsystem further comprises a brightness induction module and a human body induction module; the brightness sensing module is used for detecting the ambient brightness; the human body sensing module is used for sensing human body activity information in a monitoring range; the human body induction module sends a human body induction state signal to the control server; the brightness induction module and the human body induction module are respectively connected with the gateway through signals.

The system further comprises a router, the router is in signal connection with the gateway, and the router is provided with an internet interface module and a WIFI interface module.

Compared with the prior art, the utility model has the advantages of as follows and beneficial effect:

1. the system of the utility model can realize the dimming function, comprises a plurality of lighting subsystems, can carry out modular construction according to the application engineering requirements, and can be built into a large-scale intelligent lighting system;

2. the parameter information of the system of the utility model is centralized on the control server, which is convenient for the control and data safety management of each lighting subsystem and reduces the system cost;

3. the utility model discloses the system adopts the gateway to receive and send the signal between control server and the illumination subsystem, can connect the equipment that adopts different network protocols, reduces hardware development work load;

4. the utility model discloses the system is equipped with human-computer interaction interface, and the user can change the parameter of illumination subsystem in the database through human-computer interaction interface, satisfies the demand of user's different illumination schemes;

5. the system is provided with the control panel to control the illumination state of each illumination subsystem, thereby being convenient for control operation;

6. the lighting subsystem of the system of the utility model adopts a plurality of dimming control sub-modules, which can increase the number of lamps of the lighting subsystem; meanwhile, the positions of the dimming control submodules are installed according to the distribution requirements of the lamp, so that the line arrangement between the dimming control submodules and the lamp is optimized conveniently.

Drawings

Fig. 1 is a block diagram of the intelligent lighting system of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

An intelligent lighting system can be applied to occasions such as home, office buildings, shopping malls and the like, and a system block diagram of the system is shown in figure 1 and comprises a control server, a gateway and at least one lighting subsystem; wherein,

the control server is provided with a database for storing parameters of the lighting subsystem, and is used for receiving the state signals sent from the lighting subsystem, calling the corresponding parameters in the database, generating dimming signals and sending the dimming signals;

the gateway is used for controlling the signal receiving and sending between the server and the lighting subsystem to realize network protocol conversion;

and the lighting subsystem comprises a lamp, wherein the lamp can adopt an LED lamp and is used for setting a lighting state and controlling the lighting state of the lamp according to the received dimming signal. Specifically, the lighting subsystem generates and transmits a state signal to the control server, receives a dimming signal transmitted from the control server, and controls the lighting state of the lamp according to the dimming signal, including the on-off state and the brightness state of the lamp. The system of the utility model can realize the dimming function, comprises a plurality of lighting subsystems, can carry out modular construction according to the application engineering requirements, and can be built into a large-scale intelligent lighting system; meanwhile, parameter information of the system is centralized on the control server, so that control and data safety management of each lighting subsystem are facilitated, and the system cost is reduced; the gateway is adopted to receive and send signals between the control server and the lighting subsystem, and can be connected with equipment adopting different network protocols, so that the hardware development workload is reduced.

Specifically, the lighting subsystem further comprises a control panel and a dimming control module; the control panel is used for setting an illumination mode and generating and sending an illumination mode state signal to the control server; the dimming control module is used for receiving the dimming signal and controlling the output current according to the dimming signal; the output end of the dimming control module is electrically connected with the lamp; the control panel is in signal connection with the gateway, and the gateway is in signal connection with the control panel in a wireless communication mode. The input end of the dimming control module is in signal connection with the gateway. The utility model discloses the system adopts control server to unify and carries out parameter management and storage, is equipped with control panel simultaneously and controls the control operation of being convenient for to each illumination subsystem's illumination state.

In order to meet different requirements of users on the lighting scheme, the control server is preferably provided with a human-computer interaction interface for changing parameters of the lighting subsystem in the database.

And the dimming control module sends a dimming control module state signal to the control server. The dimming control module sends a dimming control module state signal to the control server, and the control server can detect the state of the dimming control module, so that the accuracy, stability and safety of the system are improved.

The dimming control module consists of a plurality of dimming control sub-modules; each dimming control sub-module is in signal connection with the gateway. The output end of each dimming control submodule can be electrically connected with one or more lamps. The gateway is in signal connection with the dimming control submodule in a wireless communication mode. By adopting a plurality of dimming control sub-modules, the number of lamps of the lighting sub-system can be increased, and the load capacity of the system is enhanced; meanwhile, the positions of the dimming control submodules are installed according to the distribution requirements of the lamp, so that the line arrangement between the dimming control submodules and the lamp is optimized conveniently.

In order to increase the reliability of the system, the control server comprises a first control server and a second control server which are mutually hot-backed up, and the first control server and the second control server are respectively in signal connection with the gateway. In the system requiring that the control cannot be temporarily lost, the control server comprises a first control server and a second control server which are mutually hot-backed up, so that the control reliability of the system can be ensured. The gateway is in signal connection with the first control server in a signal cable mode; and the gateway is in signal connection with the second control server in a signal cable mode.

In order to save energy consumption, the illumination subsystem further comprises a brightness induction module and a human body induction module; the brightness sensing module is used for detecting the ambient brightness; the human body sensing module is used for sensing human body activity information in a monitoring range; the human body induction module sends a human body induction state signal to the control server; the brightness induction module and the human body induction module are respectively connected with the gateway through signals. The control server controls the on-off and the brightness of the lamp according to the brightness state signal and the human body induction state signal, and when the ambient brightness is bright or no person is in a monitoring range, the brightness of the lamp is reduced or the lamp is turned off, so that the power consumption can be greatly saved.

The system further comprises a router, the router is in signal connection with the gateway, and the router is provided with an internet interface module and a WIFI interface module.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. An intelligent lighting system, characterized in that: comprising a control server, a gateway and at least one lighting subsystem; the control server is in bidirectional signal connection with the gateway, and the gateway is in bidirectional signal connection with the lighting subsystem; wherein,

the control server is provided with a database for storing parameters of the lighting subsystem, and is used for receiving the state signals sent from the lighting subsystem, calling the corresponding parameters in the database, generating dimming signals and sending the dimming signals;

the gateway is used for controlling the signal receiving and sending between the server and the lighting subsystem to realize network protocol conversion;

the lighting subsystem comprises a lamp and is used for setting a lighting state and controlling the lighting state of the lamp according to the received dimming signal.

2. The intelligent lighting system according to claim 1, wherein: the lighting subsystem further comprises a control panel and a dimming control module; the control panel is used for setting an illumination mode and generating and sending an illumination mode state signal to the control server; the dimming control module is used for receiving the dimming signal and controlling the output current according to the dimming signal; the output end of the dimming control module is electrically connected with the lamp; the control panel is in signal connection with the gateway, and the input end of the dimming control module is in signal connection with the gateway.

3. The intelligent lighting system according to claim 1, wherein: the control server is provided with a human-computer interaction interface for changing parameters of the lighting subsystem in the database.

4. The intelligent lighting system according to claim 2, wherein: and the dimming control module sends a dimming control module state signal to the control server.

5. The intelligent lighting system according to claim 2, wherein: the dimming control module consists of a plurality of dimming control sub-modules; each dimming control sub-module is in signal connection with the gateway.

6. The intelligent lighting system according to claim 1, wherein: the control server comprises a first control server and a second control server which are mutually in hot backup, and the first control server and the second control server are respectively in signal connection with the gateway.

7. The intelligent lighting system according to claim 5, wherein: the gateway is in signal connection with the control panel in a wireless communication mode; the gateway is in signal connection with the dimming control submodule in a wireless communication mode.

8. The intelligent lighting system according to claim 6, wherein: the gateway is in signal connection with the first control server in a signal cable mode; and the gateway is in signal connection with the second control server in a signal cable mode.

9. The intelligent lighting system according to claim 2, wherein: the illumination subsystem further comprises a brightness induction module and a human body induction module; the brightness sensing module is used for detecting the ambient brightness; the human body sensing module is used for sensing human body activity information in a monitoring range; the human body induction module sends a human body induction state signal to the control server; the brightness induction module and the human body induction module are respectively connected with the gateway through signals.

10. The intelligent lighting system according to claim 1, wherein: still include the router, router and gateway signal connection, the router is equipped with internet interface module and WIFI interface module.