Space Lighting System Based on Energy-Saving Target

Abstract

A space lighting system based on energy-saving target has a control device and an execution device. The execution device is one or more luminaires arranged inside the space; the control device configures the dimming parameters of the execution device according to the passenger density in the space based on the energy-saving target of the space lighting system. The space lighting system optimizes the dimming effect according to the passenger flow density under the constraint of setting conditions based on the energy-saving target so as to improve the customer experience.

Claims

1. A space lighting system based on energy-saving target, comprising a control device (100) and an execution device (200), wherein, the execution device (200) is one or more luminaires, arranged inside the space; the control device (100) configures the dimming parameters of the execution device (200) according to the passenger density in the space based on the energy-saving target of the space lighting system (1000).

2. The space lighting system based on energy-saving target as claimed in claim 1, further comprising a collector (300) that collects the number of people in the space; and the collector (300) is connected with the control device (100) or embedded in the control device (100).

3. The space lighting system based on energy-saving target according to claim 2, wherein, the control device (100) obtains and records the number of people collected by the collector (300) at regular intervals in accordance with a collection period, records the actual energy-saving results of the system, stores historical data in n rolling periods each time, in which n?1, and automatically overwrites the historical data of the 1st rolling period with the historical data of the n+1th rolling period, and so on iteratively updates the historical data stored by the control device (100).

4. The space lighting system based on energy-saving target as claimed in claim 3, wherein, the control device (100) performs AI learning according to historical data stored by the system to set current dimming parameters.

5. The space lighting system based on energy-saving target as claimed in claim 3, wherein, the control device (100) determines an energy-saving dimming scheme for the next period based on the difference between the cumulative energy saving of the system and the target energy saving with reference to the flow of people in n rolling periods.

6. The space lighting system based on energy-saving target as claimed in claim 1, further comprising a human-computer interaction terminal (500); the human-computer interaction terminal (500) is connected with the control device (100) or embedded in the control device (100).

7. The space lighting system based on energy-saving target as claimed in claim 1, wherein, the control device (100) is connected with an external network (400), and the external network (400) can connect to a plurality of the control devices (100); the external network (400) can send energy-saving target to the control device (100), or the control device (100) matches and obtains the energy-saving target by means of the system parameters entered through the matching relationship between the system parameters and the energy-saving target preset in the external network (400).

8. The space lighting system based on energy-saving target as claimed in claim 6, wherein, the energy-saving target is sent to the control device (100) after being entered into the human-computer interaction terminal (500).

9. The space lighting system based on energy-saving target as claimed in claim 2, wherein, the collector (300) is arranged at the entrance of the space to record the number of people entering the space during each collection period; or the collector (300) is arranged at both the entrance of the space and at the exit of the space to record the number of people entering and exiting the space during each collection period, respectively.

10. The space lighting system based on energy-saving target as claimed in claim 6, wherein, the human-computer interaction terminal (500) is configured with a touch display or buttons for data and information entry.

11. The space lighting system based on energy-saving target as claimed in claim 1, wherein, the dimming parameter includes dimming brightness and/or dimming ratio, and the energy-saving target includes energy-saving ratio and/or an energy-saving value.

12. The space lighting system based on energy-saving target as claimed in claim 1, wherein, the space is a supermarket, a shopping mall, a store or a museum.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0016] Embodiments of the present invention will be described below with reference to the drawings, in which:

[0017] FIG. 1 is a schematic structural diagram of an embodiment of a space lighting system involved in the present invention.

DETAILED DESCRIPTION OF THE INVENTION

[0018] Specific embodiments of the present invention will be described in further detail below based on the drawings. It should be understood that the description of the embodiments of the present invention herein is not intended to limit the protection scope of the present invention.

[0019] The present invention relates to the application of a space lighting system, hereinafter referred to as the system 1000, based on the energy-saving target, wherein the space refers to an indoor space that can carry a certain amount of passenger flow, such as a viewing arena, a supermarket, a shopping mall, a store, a museum of literature, and the like. It is understandable that the behavioral activities of people in such specific spaces have certain regularity and repeatability. More specifically, for example, a large supermarket has its own pattern of passenger flow in various time period every day of week. And it is very likely that after work the passenger flow is significantly higher than that during working hours, and the passenger flow on the weekend is significantly higher than that on the weekday. The space lighting system provided by the present invention is based on the premise of the objective existence of such sociological regularity.

[0020] FIG. 1 is an embodiment of the space lighting system provided by the present invention applied in a supermarket. In such supermarket we can understand that the area of the specific supermarket is actually relatively fixed. Based on the specific geographic location of the supermarket and the like, combined with hot spot analysis of big data, it can be preliminarily considered that the consumption habits of the crowd under such model, or their stay time, are also relatively fixed. In this embodiment, the system 1000 comprises a control device 100 and an execution device 200, wherein the execution device 200 refers to one or more luminaires, and the control device 100 can be a device for control use such as a PLC, a CPU, and a microcontroller, and specifically in this embodiment, the control device is a central processing unit CPU as an example. In such system 1000, as the energy-saving target has been defined, the control device 100 can configures the dimming parameters of the execution device 200 according to the passenger density in the space, where the dimming parameter can include but not limited to dimming brightness and dimming ratio, etc., and the energy-saving target can include but not limited to an energy-saving ratio and an energy-saving value, etc. And the energy-saving target paraphrase is equivalent to the target energy-saving.

[0021] The system 1000 further comprises a collector 300. The collector 300 is connected to or embedded in the control device 100. And the control device 100 can read to the collector 300 the number of people in the space that the collector 300 has collected. The collector 300 herein can be set either at the entrance of the space to record the number of people entering the space during each collection period; or it can be set at the entrance and exit of the space respectively to record the number of people entering and exiting the space during each collection period. With this setting, the number of people in the space, especially the number of people staying in the space, is more accurately captured. The collection period here can be as short as possible, depending mainly on the response time of the collector 300.

[0022] The collector 300 can be selected as a sensor, specifically a microwave sensor, an ultrasonic sensor, etc., and in this embodiment, an ultrasonic sensor is preferred in consideration of the accuracy and safety of the collected data.

[0023] The system 1000 also includes a human-computer interaction terminal 500 that is connected with, or embedded in, the control device 100. In addition, the human-computer interaction terminal 500 has a touch display or buttons for data and information entry. Specifically, the human-computer interaction terminal 500 herein can be a mobile phone, a tablet, or other interactive devices. The administrator can enter the energy-saving target via the human-computer interaction terminal 500 and communicated it to the control device 100.

[0024] The system 1000 further includes an external network 400. The external network 400 can connect a plurality of the control devices 100. Through the external network 400 energy-saving targets can be sent to all the control devices, realizing unified management and control by administrators. In another way, the control device 100 matches and obtains the energy-saving target by means of the system parameters entered through the matching relationship between the system parameters and the energy-saving target preset in the external network 400.

[0025] Briefly, the system 1000 of this embodiment comprises a control device 100, an external network 400, a human-computer interaction terminal 500 and a plurality of luminaires 200 arranged in a space and at least one collector 300 provided at the entrance of the space. In this embodiment, the plurality of luminaires are ceiling lamps dispersedly arranged within a shopping area within a supermarket.

[0026] The collector 300 collects the number of people entering the space, and then accumulates and records it. The control device 100 reads the number of people entering the space from the collector 300, and after each reading, the collector 300 automatically resets and begins counting again. The data read from the collector 300 according to the period and the actual energy-saving results of the system 1000, is stored by the control device 100 as historical data according to n rolling periods each time, in which n?1, and automatically overwrites the historical data of the 1st rolling period with the historical data of the n+1th rolling period, and so on iteratively updates the historical data stored by the control device 100.

[0027] The data on the number of people in the space collected by the collector 300 is recorded periodically, and by setting the rolling period, it is ensured that the historical data is strongly correlated with the latest data. With such historical data basis, the control device performs AI learning to set the current dimming parameters according to the historical data stored by the system. In this way, without additional manual input, the system can self-learn to set the latest dimming parameters by matching a compatible AI learning model with the historical data stored by the system.

[0028] The control device can also determine an energy saving dimming scheme for the next period based on the difference between the cumulative energy saving of the system and the target energy saving with reference to the flow of people in n rolling periods. Similarly, without additional manual input, the system performs automated deduction with reference to the periodical historical data and continuously self-corrects to determine the energy-saving dimming scheme for the next period

[0029] In addition, the target energy-saving ratio can be set on the display screen of human-computer interaction terminal 500. And the number of people currently staying in the space as well as the dimming brightness value will be displayed in real time and plotted.

[0030] The above are only preferred embodiments of the present invention, and are not used to limit the protection scope of the present invention. Any modification, equivalent replacement or improvement within the spirit of the present invention is covered by the scope of the claims of the present invention.