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

An Indoor Lighting Detection and Control System Using Distributed Power

technical field

The utility model belongs to the technical field of architectural indoor lighting control, in particular to an indoor lighting detection and control system using a distributed power supply.

Background technique

Lighting control is one of the important tasks in the indoor environment management of large buildings. Through lighting control, on the one hand, it is necessary to meet the user's comfort requirements for indoor illuminance, and on the other hand, it is necessary to reduce the energy consumption caused by lighting as much as possible.

At present, indoor control systems mostly use switch control methods, and there are two common forms: one is to manually control the switch of lamps and lanterns according to people's subjective feelings and lighting needs; Under the circumstances, the lamp switch is automatically controlled to provide the necessary lighting.

With the development of my country's green intelligent building technology, the above two control methods can no longer meet the requirements for fine control of indoor lighting, and it is necessary to develop a new control system with the following characteristics:

①Able to control the lighting of the lighting equipment according to the light detection;

② It can reduce energy consumption while meeting lighting needs.

Utility model content

In order to solve the above problems, the utility model provides an indoor lighting detection and control system using a distributed power supply. The control system includes a wind power storage power module, an intelligent lighting module, a light intensity detection module and a lighting control module. Both the module and the light intensity detection module are connected to the wind-solar-storage power supply module through the lighting control module.

Further, the lighting control module includes an automatic control unit, a manual control unit, a digital switch circuit and a lighting controller, one end of the manual control unit is connected to the intelligent lighting module through the digital switch circuit, and the other end is connected to the lighting controller One end of the manual control unit is connected to the intelligent lighting module through the digital switch circuit, and the other end is connected to the light intensity detection module.

Further, the light intensity detection module includes a cross detection unit, and the cross detection unit divides the area of the light intensity to be measured into a cross to form four end points and a center point; the four end points and the center point are respectively the first Measuring point, second measuring point, third measuring point, fourth measuring point, fifth measuring point, the light intensity detection module is connected to the lighting control module.

Further, the intelligent lighting module includes a plurality of LED lamps and a plurality of lighting control units, one end of the lighting control unit is connected to the plurality of LED lamps, and the other end is connected to the lighting control module.

Further, the wind-solar-storage power supply module includes a wind power generation device, a photovoltaic power generation device, an electric energy storage device, a photovoltaic power detection device, and a power control device, and the wind power generation device and the photovoltaic power generation device are connected to a power supply through the electric energy storage device control device.

Further, the wind power generation device is a small vertical axis wind power generator, the photovoltaic power generation device is a set of polycrystalline silicon photovoltaic solar panels, the electric energy storage device is a set of storage batteries, and the power control device is a power supply The controller is connected to the electric energy storage device and the mains at one end, and connected to the lighting control module at the other end.

Further, one end of the photovoltaic power detection device is connected to the power controller, and the other end is connected to the lighting controller.

1. The utility model adopts wind-solar hybrid power generation system for power supply, and the control system is powered by the battery pack and the power grid. The dual power supply improves the reliability and anti-interference ability of the system, and improves the adjustment quality;

2. The automatic control unit completes the adjustment through the light intensity in a short time, so that the system can reach stability as soon as possible;

3. The intelligent control system proposed by the utility model can effectively save electric energy while bringing users a more comfortable lighting experience;

4. The utility model makes full use of renewable energy and has environmental benefits.

Description of drawings

Fig. 1 is a structural diagram of the utility model control system module;

Fig. 2 is the structural diagram of the cross detection unit of the control system of the present invention;

Fig. 3 is the switch setting diagram of the control system control group model of the utility model;

Fig. 4 is a logic diagram of the digital switch circuit of the control system of the present invention.

detailed description

In order to make the purpose, technical solutions and advantages of the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and embodiments. It should be understood that the specific embodiments described here are only used to explain the utility model, and are not intended to limit the utility model. On the contrary, the utility model covers any alternatives, modifications, equivalent methods and schemes made on the spirit and scope of the utility model defined by the claims. Further, in order to make the public have a better understanding of the utility model, some specific details are described in detail in the detailed description of the utility model below. Those skilled in the art can fully understand the present invention without the description of these detailed parts.

Below in conjunction with accompanying drawing and specific embodiment the utility model is described further, but not as the limitation of the utility model. List the best embodiment for the utility model below:

As shown in Fig. 1-Fig. 4, an indoor lighting detection and control system using a distributed power supply of the present invention includes a wind power storage power module 1, an intelligent lighting module 2, a light intensity detection module 3 and a lighting control module 4. Both the intelligent lighting module 2 and the light intensity detection module 3 are connected to the wind-solar-storage power module 1 through the lighting control module 4 .

The light intensity detection module 3 includes a cross detection unit 31, and the cross detection unit 31 divides the light intensity area to be measured by a cross to form four end points and a center point, which are respectively the first measuring point, the second measuring point, The third measuring point, the fourth measuring point and the fifth measuring point, the first measuring point, the second measuring point, the third measuring point and the fourth measuring point detected by the light intensity detection module 3 through each light intensity detector and the light intensity of the fifth measuring point, the light intensity detection module 3 is connected to the lighting control module 4 .

The intelligent lighting module 2 includes a plurality of LED lamps 23 and a lighting control unit 24, the plurality of LED lamps 23 have different combinations, one end of the lighting control unit 24 is connected to the plurality of LED lamps 23, and the other end is connected to The lighting control module 4 .

The lighting control module 4 includes an automatic control unit 41, a manual control unit 42, a digital switch circuit 43 and a lighting controller 44. One end of the manual control unit 42 is connected to the intelligent lighting module 2, and the other end is connected to the lighting controller 44. The manual control unit 42 has a higher priority than the automatic control unit 41, and the manual control unit 42 allows the user to directly select the switch state of the LED lamp 23 or the control group model 24 on the lighting controller 44; One end of the automatic control unit 41 is connected to the control group model 24 through the digital switch circuit 43 , and the other end is connected to the light intensity detection module 3 . The wind-solar-storage power supply module 1 includes a wind power generation device 11, a photovoltaic power generation device 12, an electric energy storage device 13, a photovoltaic power detection device 14, and a power control device 15, and the wind power generation device 11 and the photovoltaic power generation device 12 are all passed through the The electric energy storage device 13 is connected to the power control device 15, the wind energy generating device 11 is a small vertical axis wind power generator, the light energy generating device 12 is a group of polysilicon photovoltaic solar panels, and the electric energy storage device 13 is a The battery pack, the power control device 15 is a power controller, one end is connected to the electric energy storage device 13 and the mains at the same time, while managing the charging and discharging of the battery pack, it switches between the mains and the electric energy storage device 13, and the other end Connect the lighting control module 4 . One end of the photovoltaic power detection device 14 is connected to the power controller, and the other end is connected to the lighting controller 44. The impact of the external light intensity on indoor lighting is very significant, and the detection results of the photovoltaic power detection device 14 are used for Represents the light intensity of the outside world.

Fig. 1 is a schematic diagram of the distribution of lamps and measuring points of the indoor control system of the present invention. The 16 dots in the picture represent 16 LED lamps, and the power of each LED lamp is 9W, and the 5 triangles represent 5 light intensity monitoring points, arranged in a "ten" shape. The experimental site is a 9m×9m room with the window facing north.

The above-mentioned embodiment is only a kind of preferred embodiment of the utility model, and the usual changes and replacements carried out by those skilled in the art within the scope of the technical solutions of the utility model should be included in the protection scope of the utility model Inside.

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).