CN205596415U - Adopt distributed generator's indoor lighting detection and control system - Google Patents

Abstract

The utility model provides an adopt distributed generator's indoor lighting detection and control system, control system stores up power module, intelligent lighting module, detecting light intensity module and lighting control module including the scene, intelligence lighting module and detecting light intensity module are all passed through the lighting control module is connected the scene stores up power module, the utility model discloses a scene complementary power generation system power supply, by storage battery and electric wire netting commercial power jointly for the control system power supply, the dual power supply has improved the reliability and the interference killing feature of system, makes to adjust the quality and improve, when bringing more comfortable illumination to experience for the user, the electric energy of effectively saving has environmental protection profit.

Description

A kind of room lighting measurement and control system using distributed power source

Technical field

This utility model belongs to architecture indoor lighting control technique field, is specifically related to a kind of room lighting measurement and control system using distributed power source.

Background technology

Lighting control is one of vital task of heavy construction indoor environment management.By Lighting control, the on the one hand user the to be met comfortableness requirement to indoor light intensity, on the other hand also to reduce the energy resource consumption brought by illumination as far as possible.

The most indoor control system many employings on-off control mode, common form has two classes: one is the subjective feeling according to people and lighting requirements, Non-follow control lamp switch；Two is the induction installations such as employing sound, light, infrared ray, at night and automatically control light fixture switch in the case of having people's activity, it is provided that necessary illumination.

Along with the development of China's green intelligent Building technology, above two control mode can not meet the requirement that room lighting carries out Precise control, needs exploitation to have a new control system of following feature:

1. can be controlled illuminating to luminaire according to illumination detection；

2. energy resource consumption can be reduced while meeting lighting demand.

Utility model content

In order to solve the problems referred to above, this utility model provides a kind of room lighting measurement and control system using distributed power source, described control system includes that wind-light storage power module, intelligent lighting module, light-intensity test module and lighting control module, described intelligent lighting module and light-intensity test module all connect described wind-light storage power module by described lighting control module.

Further, described lighting control module includes automatic control unit, manual control unit, digital switch circuit and lighting controller, described manual control unit one end connects described intelligent lighting module by described digital switch circuit, the other end connects lighting controller, described manual control unit one end connects intelligent lighting module by described digital switch circuit, and the other end connects described light-intensity test module.

Further, described light-intensity test module includes cross detector unit, and described cross detector unit, by light intensity region to be measured cross-graduation, forms four end points and a central point；Described four end points and central point are respectively the first measuring point, the second measuring point, the 3rd measuring point, the 4th measuring point, the 5th measuring point, and described light-intensity test module connects described lighting control module.

Further, described intelligent lighting module includes multiple LED lamp and multiple lighting control unit, and described lighting control unit one end connects the plurality of LED lamp, and the other end connects described lighting control module.

Further, described wind-light storage power module includes wind electricity generating system, light power generating device, apparatus for storing electrical energy, photovoltaic power detection device and power control, and described wind electricity generating system and light power generating device all connect power control by described apparatus for storing electrical energy.

Further, described wind electricity generating system is a small-size vertical axis wind turbine, described light power generating device is one group of polysilicon photovoltaic solar cell plate, described apparatus for storing electrical energy is a group storage battery, described power control is power-supply controller of electric, one end is simultaneously connected with described apparatus for storing electrical energy and civil power, and the other end connects described lighting control module.

Further, described photovoltaic power detection device one end connects described power-supply controller of electric, and the other end connects described lighting controller.

1, this utility model uses wind and solar hybrid generating system to power, accumulator battery and electrical network civil power jointly power for control system, and dual power supply improves reliability and the capacity of resisting disturbance of system, makes regulation quality improve；

2, automatic control unit completes regulation by the light intensity short time, makes system reach stable as early as possible；

3, the intelligence control system that the utility model proposes, while bring more comfortable illumination to experience for user, effectively save electric energy；

4, this utility model takes full advantage of regenerative resource, has environmental benefit.

Accompanying drawing explanation

Fig. 1 is this utility model control system function structure chart；

Fig. 2 is the structure chart of this utility model control system cross detector unit；

Fig. 3 is that the switch of this utility model control system control group model arranges figure；

Fig. 4 is this utility model control system digital switch circuit logic chart.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, this utility model is explained in further detail.Should be appreciated that specific embodiment described herein is used only for explaining this utility model, be not used to limit this utility model.On the contrary, this utility model contains any replacement made in spirit and scope of the present utility model, amendment, equivalent method and scheme being defined by the claims.Further, in order to make the public that this utility model to be had a better understanding, in below details of the present utility model being described, detailed describe some specific detail sections.The description not having these detail sections for a person skilled in the art can also understand this utility model completely.

The utility model is described in further detail with specific embodiment below in conjunction with the accompanying drawings, but not as to restriction of the present utility model.Below for most preferred embodiment of enumerating of the present utility model:

As Figure 1-Figure 4, a kind of room lighting measurement and control system using distributed power source of this utility model includes that wind-light storage power module 1, intelligent lighting module 2, light-intensity test module 3 and lighting control module 4, described intelligent lighting module 2 and light-intensity test module 3 all connect described wind-light storage power module 1 by described lighting control module 4.

Described light-intensity test module 3 includes cross detector unit 31, described cross detector unit 31 is by light intensity region to be measured cross-graduation, form four end points and a central point, it is respectively the first measuring point, the second measuring point, the 3rd measuring point, the 4th measuring point and the 5th measuring point, the first measuring point, the second measuring point, the 3rd measuring point, the 4th measuring point and the light intensity of the 5th measuring point that described light-intensity test module 3 is detected by each light intensity detector, described light-intensity test module 3 connects described lighting control module 4.

Described intelligent lighting module 2 includes that multiple LED lamp 23 and lighting control unit 24, the plurality of LED lamp 23 have different compound modes, and described lighting control unit 24 one end connects the plurality of LED lamp 23, and the other end connects described lighting control module 4.

Described lighting control module 4 includes automatic control unit 41, manual control unit 42, digital switch circuit 43 and lighting controller 44, described manual control unit 42 one end connects described intelligent lighting module 2, the other end connects lighting controller 44, described manual control unit 42 priority is higher than described automatic control unit 41, and described manual control unit 42 is directly selected the on off state of described LED lamp 23 or described control group model 24 on lighting controller 44 by user；Described automatic control unit 41 one end connects described control group model 24 by described digital switch circuit 43, and the other end connects described light-intensity test module 3.Described wind-light storage power module 1 includes wind electricity generating system 11, light power generating device 12, apparatus for storing electrical energy 13, photovoltaic power detection device 14 and power control 15, described wind electricity generating system 11 and light power generating device 12 all connect power control 15 by described apparatus for storing electrical energy 13, described wind electricity generating system 11 is a small-size vertical axis wind turbine, described light power generating device 12 is one group of polysilicon photovoltaic solar cell plate, described apparatus for storing electrical energy 13 is a group storage battery, described power control 15 is power-supply controller of electric, one end is simultaneously connected with described apparatus for storing electrical energy 13 and civil power, switch between civil power and apparatus for storing electrical energy 13 while the discharge and recharge of management of battery group, the other end connects described lighting control module 4.Described photovoltaic power detection device 14 one end connects described power-supply controller of electric, the other end connects described lighting controller 44, described extraneous intensity of illumination is very notable on the impact of room lighting, and the testing result of described photovoltaic power detection device 14 is in order to characterize the intensity of illumination in the external world.

Fig. 1 is light fixture and the measuring point distribution schematic diagram of this utility model indoor control system.In figure, 16 round dots represent 16 LED, and the power of every LED is 9W, and 5 triangles represent 5 intensity monitor points, line up " ten " font.Experimental site is the room of 9m × 9m, and window is towards the north.

Embodiment described above, the simply one of this utility model more preferably detailed description of the invention, the usual variations and alternatives that those skilled in the art is carried out in the range of technical solutions of the utility model all should be included in protection domain of the present utility model.

Claims (7)

1. the room lighting measurement and control system using distributed power source, it is characterized in that, described control system includes that wind-light storage power module (1), intelligent lighting module (2), light-intensity test module (3) and lighting control module (4), described intelligent lighting module (2) and light-intensity test module (3) all connect described wind-light storage power module (1) by described lighting control module (4).

Control system the most according to claim 1, it is characterized in that, described lighting control module (4) includes automatic control unit (41), manual control unit (42), digital switch circuit (43) and lighting controller (44), described manual control unit (42) one end connects described intelligent lighting module (2) by described digital switch circuit (43), the other end connects lighting controller (44), described manual control unit (42) one end connects intelligent lighting module (2) by described digital switch circuit (43), the other end connects described light-intensity test module (3).

Control system the most according to claim 1, it is characterized in that, described light-intensity test module (3) includes cross detector unit (31), and described cross detector unit (31), by light intensity region to be measured cross-graduation, forms four end points and a central point；Described four end points and central point are respectively the first measuring point, the second measuring point, the 3rd measuring point, the 4th measuring point, the 5th measuring point, and described light-intensity test module (3) connects described lighting control module (4).

Control system the most according to claim 2, it is characterized in that, described intelligent lighting module (2) includes multiple LED lamp (23) and multiple lighting control unit (24), described lighting control unit (24) one end connects the plurality of LED lamp (23), and the other end connects described lighting control module (4).

Control system the most according to claim 2, it is characterized in that, described wind-light storage power module (1) includes that wind electricity generating system (11), light power generating device (12), apparatus for storing electrical energy (13), photovoltaic power detection device (14) and power control (15), described wind electricity generating system (11) and light power generating device (12) all connect power control (15) by described apparatus for storing electrical energy (13).

Control system the most according to claim 5, it is characterized in that, described wind electricity generating system (11) is a small-size vertical axis wind turbine, described light power generating device (12) is one group of polysilicon photovoltaic solar cell plate, described apparatus for storing electrical energy (13) is a group storage battery, described power control (15) is power-supply controller of electric, one end is simultaneously connected with described apparatus for storing electrical energy (13) and civil power, and the other end connects described lighting control module (4).

Control system the most according to claim 6, it is characterised in that described photovoltaic power detection device (14) one end connects described power-supply controller of electric, and the other end connects described lighting controller (44).