CN110933820B

CN110933820B - Environment self-adaptive illumination control system

Info

Publication number: CN110933820B
Application number: CN201911223134.9A
Authority: CN
Inventors: 陈雪萍; 赵桥; 王华民; 蔡剑峰
Original assignee: Wuhan Hongxin Technology Service Co Ltd
Current assignee: Wuhan Hongxin Technology Service Co Ltd
Priority date: 2019-12-03
Filing date: 2019-12-03
Publication date: 2022-04-29
Anticipated expiration: 2039-12-03
Also published as: CN110933820A

Abstract

The invention discloses an environment self-adaptive illumination control system, which comprises a server module, an illumination control module, a data storage module, an environment acquisition module, an illumination adapter and a dimming configuration module, wherein the dimming configuration module is used for importing configured dimming rules into the data storage module; the environment acquisition module is used for acquiring the illumination intensity of the external environment and feeding the illumination intensity back to the server module; the illumination control module is used for issuing automatic dimming control information to the server module; the server module calls the dimming rule stored in the data storage module based on the automatic dimming control information and the illumination intensity acquired by the environment acquisition module, and issues an automatic dimming instruction to the illumination adapter within set time; the lighting adapter is used for controlling lighting of a lighting lamp of factory equipment according to the automatic dimming instruction. The invention adopts a flexible and configurable dimming strategy, meets the comfortable illumination of users in a self-adaptive environment and has the effect of energy conservation.

Description

Environment self-adaptive illumination control system

Technical Field

The invention belongs to the field of intelligent buildings, and particularly relates to an environment self-adaptive illumination control system.

Background

Along with the rise in wisdom city, people's life is gradually walked into to wisdom street lamp, wisdom hotel, wisdom hospital, wisdom house, wisdom market etc. to these wisdom projects, wherein intelligent lighting system is indispensable, and most intelligent lighting system can automatic light modulation through adopting various intelligent switch, reaches energy-conserving effect.

The intelligent lighting system can switch on/off/adjust light of any single light source at any time, and comprises: the alarm system has the functions of anti-theft alarm, energy-saving management, fault prompt, leakage fault alarm, error lighting, lamp-out alarm, power abnormity alarm, power factor fault alarm and the like. The system adopts a centralized control monitoring mode to improve the real-time performance of street lamp control, can control the on-off of any street lamp in the universe at any time according to the requirements of seasons, climates, illuminance and special holidays, improves the consistency of lighting, can avoid electric energy waste caused by inaccurate running time or out of control of a clock controller, and achieves timely and appropriate illumination. By adopting the electric leakage protection technology, when the leakage current is higher than the safety value, the monitoring platform can give out electric leakage alarm information, and monitoring personnel can notify street lamp maintenance personnel in real time to maintain the street lamp, so that the illumination safety is guaranteed. Meanwhile, the system is internally provided with an asset management function, so that the management of the street lamps in the jurisdiction is more accurate for users. And moreover, the LED light source is adopted, so that the energy is saved by more than 50% compared with the traditional high-pressure sodium lamp, and the effective energy saving is realized.

However, the problems with intelligent lighting systems are: the full-automatic dimming strategy can not be flexibly configured, the existing environment acquisition module can not be utilized to acquire changeable illumination intensity in real time, and the environment monitoring module of a third-party system can not be accepted, so that the deployment is troublesome.

Disclosure of Invention

In view of the above drawbacks or needs for improvement in the prior art, the present invention provides an environment adaptive lighting control system, which solves and implements a mechanism for automatically controlling dimming of a lighting system in different indoor and outdoor environments, different weather environments, and different seasons and time environments.

To achieve the above object, according to one aspect of the present invention, there is provided an environment adaptive lighting control system for controlling lighting of a lighting fixture of a factory device, comprising a server module, a lighting control module, a data storage module, an environment acquisition module, a lighting adapter, and a dimming configuration module, wherein the server module is connected to the lighting control module, the data storage module, the environment acquisition module, and the lighting adapter respectively, and the data storage module is connected to the dimming configuration module, wherein,

the dimming configuration module is used for importing the configured dimming rule into the data storage module;

the environment acquisition module is used for acquiring the illumination intensity of the external environment and feeding the illumination intensity back to the server module;

the illumination control module is used for issuing automatic dimming control information to the server module;

the server module calls the dimming rule stored in the data storage module based on the automatic dimming control information and the illumination intensity acquired by the environment acquisition module, and issues an automatic dimming instruction to the illumination adapter within set time;

the illumination adapter is used for controlling illumination of an illumination lamp of factory equipment according to the automatic dimming instruction.

Preferably, the dimming rule includes an attribute association rule, and the attribute association rule includes a rule serial number, a trigger rule name, a trigger source device type, a trigger source attribute type name, a trigger time, a trigger weather, a trigger season, a trigger source area, that is, an illumination intensity area range, a target device type name, a target attribute type name, and/or a target attribute setting value.

Preferably, the dimming rule comprises a device attribute association rule comprising a trigger source subsystem name, a trigger source module name, a trigger source device name, a trigger rule name, a target device subsystem name, a target device module name and/or a target device name.

Preferably, the server module polls the illumination intensity attribute value of the environment acquisition module by using a polling mechanism, and when the illumination intensity attribute value changes, the server module controls the illumination of the illumination lamp of the factory equipment through the illumination adapter, so as to update the illumination state of the illumination lamp, and the illumination adapter feeds back the updated illumination state of the factory equipment to the server module.

Preferably, the lighting control module updates the display interface in real time after receiving the updated lighting state of the lighting fixture from the server module.

Preferably, the energy consumption monitoring system further comprises an energy consumption acquisition module connected with the server module, and the energy consumption acquisition module is used for acquiring the energy consumption of the illumination of the factory equipment and sending the energy consumption to the server module.

Preferably, the energy consumption analysis module is connected with the server module and used for analyzing and processing the energy consumption statistics and the trend curve of the factory equipment illumination and presenting the energy consumption use condition and the energy consumption trend graph of the illumination.

Preferably, the server module correspondingly outputs the illumination state attribute value of the illumination lamp of the factory equipment according to the configured dimming rule and the interval where the illumination intensity value acquired by the environment acquisition module is located, so that the illumination lamp is turned on or off and the brightness of the illumination lamp is adjusted through the illumination adapter.

Preferably, the dimming rule configured by the dimming configuration module is adjustable, and the adjustment is based on the illumination intensity information fed back to the server module by the environment acquisition module and the illumination state of the illumination lamp of the factory equipment fed back to the server module by the illumination adapter.

In general, compared with the prior art, the above technical solution contemplated by the present invention can achieve the following beneficial effects:

1) the server module can call the dimming rule according to the illumination intensity of the external environment change acquired by the environment acquisition module, so that a flexible and configurable dimming strategy can be adopted, the illumination of the illumination lamp of factory equipment can be adjusted in a self-adaptive manner, the comfortable illumination of users under different external environments is met, and the energy-saving effect is achieved;

2) the invention can realize linkage of a plurality of modules, fully utilizes the environment acquisition module to acquire data, and links the server module and the illumination adapter, thereby responding to the change of the external environment in real time;

3) the invention uses an energy consumption monitoring strategy, and uses, analyzes and processes the energy consumption of the lighting lamp of the factory equipment through the energy consumption acquisition module, thereby optimizing the dimming rule.

Drawings

FIG. 1 is a block diagram of a lighting control system according to an embodiment of the present invention;

FIG. 2 is a flow chart of an automatic dimming control for illumination according to an embodiment of the present invention;

fig. 3 is a flowchart of an environment collection module linkage illumination adapter according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Referring to fig. 1, an environment adaptive lighting control system for controlling lighting of a lighting fixture of a factory device, the factory device mainly being a lighting device, the lighting device including a switch panel, a controller, a lighting fixture, etc., the lighting control system including a server module, a lighting control module, a data storage module, an environment acquisition module, a lighting adapter and a dimming configuration module, the server module being respectively connected with the lighting control module, the data storage module, the environment acquisition module and the lighting adapter, the data storage module being connected with the dimming configuration module, wherein,

the illumination control module is used for issuing automatic dimming control information to the server module; the illumination control module interacts with the server module, directly interacts with a user, presents illumination intensity in an interface mode, and can realize functions of manual illumination switching, dimming, mode configuration, automatic brightness regulation rule configuration and the like.

The server module calls the dimming rule stored in the data storage module based on the automatic dimming control information and the illumination intensity acquired by the environment acquisition module, and issues an automatic dimming instruction to the illumination adapter within set time; the server module invokes the lighting control module to update the device state, switch control state, and brightness control state presented to the user, as well as present the hand, auto mode information, switch status, device information, and brightness autotune configuration information (presented in the form of an interface).

Further, the dimming rule includes an attribute association rule and a device attribute association rule, the attribute association rule includes a rule serial number, a trigger rule name, a trigger source device type, a trigger source attribute type name, a trigger time, trigger weather, a trigger season, a trigger source region, that is, an illumination intensity interval range, a target device type name, a target attribute type name and/or a target attribute setting value, and the device attribute association rule includes a trigger source subsystem name, a trigger source module name, a trigger source device name, a trigger rule name, a target device subsystem name, a target device module name and/or a target device name. The invention adopts the dimming configuration module, sets dimming rules of various self-adaptive environments according to illumination parameters under different environments acquired by the environment acquisition module and attribute information (including attribute information of a switch control state and a brightness control state) of factory equipment acquired by the illumination adapter, and meets the flexible configurable requirements of dimming strategies; the server module realizes an attribute linkage strategy by linkage with other modules, and when the attribute of the environment acquisition module is changed, the server module updates the attribute value of the illumination adapter in time, so that the on-off control state and the brightness control state of the illumination equipment can be updated, the requirement of brightness control on the illumination equipment in a self-adaptive environment is met, and the effect of effective energy conservation is achieved.

The dimming configuration module combines the manually configured attribute association rule and the equipment attribute association rule to configure the dimming rule into the data storage module. The attribute association rule and the equipment attribute association rule can be respectively configured in the excel table, so that an attribute association rule table and an equipment attribute association rule table are formed, and then the configured excel table is imported into the data storage module. The dimming rule can be adjusted (only parameters in the excel table are modified) based on the illumination intensity information of the environment acquisition module and the illumination state information of the illumination lamp of the factory equipment.

Wherein the attribute association rule table is shown in table 1.

Table 1 attribute association rule table

The device attribute association rule table is shown in table 2.

Table 2 device attribute association rule table

In table 1, according to the interval range values of the illumination intensity in different environments collected by the environment monitoring sensor, the illumination adapter may change the on-off control state and the brightness control state value of the factory equipment, for example, three ranges of the trigger source attribute interval value (illumination intensity value) respectively correspond to three values of the target attribute setting value. For example, in rule a, "(0 to 30), [30 to 60," (60 to 100) "corresponds to" 1, 1, 0 "of the target attribute setting value, respectively, and" 1 "and" 0 "of the target attribute setting value are on/off controls for the lighting fixture, respectively indicating turning on/off of the lighting fixture. Rule a controls the lighting fixtures on, off, and rule B, C controls the brightness of the lighting fixtures. In rule A, if the illumination intensity is higher than a certain value (for example, higher than 60, in the interval (60-100)), the lamp is turned off; when the brightness is lower than a certain value (for example, lower than 60, in the interval (0-30) and [ 30-60 ]), the lamp is turned on, and the on-off control state of the lighting lamp is changed. The rule B and the rule C both perform dimming in different illumination intensity intervals, change the brightness control state of the lighting device, the range of the brightness interval is [ 0-100 ], and all of "100, 50, 0", "100, 70, 0" in the rule B, C represent brightness. The electrodeless dimming loop is a circuit used for adjusting the on/off and brightness of the lighting lamp in factory equipment. The environment monitoring sensor may be used in conjunction with other sub-modules, such as a time module, to adjust the brightness of the lighting fixture.

On one hand, the server module analyzes the dimming rule configured by the data storage module so as to acquire the linkage relation between the trigger source attribute interval value and the target attribute set value, namely, the server module correspondingly outputs the illumination state attribute value of the illumination lamp of the factory equipment according to the interval where the illumination intensity value acquired by the environment acquisition module is based on the configured dimming rule, so that the illumination lamp is turned on and off and the brightness of the illumination lamp is adjusted through the illumination adapter. On the other hand, an independent thread is independently started, a polling mechanism is adopted to poll the illumination intensity (trigger source attribute interval value) of the environment acquisition module, when the illumination intensity changes, the server module is linked with the illumination adapter to control the illumination of the illumination lamp of the factory equipment, so that the illumination state of the illumination lamp is updated, and the illumination adapter feeds the updated illumination state of the factory equipment back to the server module. And after the illumination control module receives the on-off control state and brightness control state updating notification of the illumination equipment from the server module, updating the state presented by the interface to the user in real time.

The energy consumption analysis module is connected with the server module, presents illumination energy consumption statistics and energy consumption trend graphs in different environments, analyzes and processes the illumination energy consumption statistics and energy consumption trend graphs according to the use condition of energy consumption, and provides a certain reference value for engineering personnel to configure dimming rules.

Referring to fig. 2, the lighting automatic dimming control specifically includes the following steps:

s201: the lighting control module firstly selects a manual mode and an automatic mode, selects the automatic mode to configure a brightness regulation rule to be automatic, and feeds back the configuration information to the server module;

s202: the server module calls a data storage module interface and stores the configuration information to the data storage module;

s203: the server module starts a thread, acquires brightness adjustment configuration information and a dimming rule of an automatic mode of the data storage module, analyzes the dimming rule, and issues an automatic dimming instruction to the lighting adapter at set time;

s204: after receiving the automatic dimming instruction, the lighting adapter controls the factory equipment and dynamically updates the brightness control state attribute value (100, 50,0 in table 1) of the lighting lamp of the factory equipment, so that the brightness of the lighting lamp is adjusted;

s205: the illumination adapter reports the updated brightness control state information of the factory equipment to the server module;

s206: after receiving the reported illumination attribute value information, the server module stores the information into a data storage module and calls an illumination control module;

s207: and the illumination control module updates the current presented state (the illumination equipment and the corresponding state information are displayed in a GIS form on the interface) for the user according to the attribute change instruction of the server module and the attribute value of the data storage module.

Referring to fig. 3, the environment collection module linkage lighting adapter specifically includes the following steps:

s301: the method comprises the following steps that an engineer configures attribute association rules and equipment attribute association rules in an excel table according to illumination intensity requirements under different environments, and the configured dimming rules are led into a data storage module through a dimming configuration module;

s302: the server module starts an independent thread, and polls the illumination intensity (trigger source attribute interval value) of the environment acquisition module once every one minute by adopting a polling mechanism;

s303: when the illumination intensity of the external environment changes, the illumination intensity acquired by the environment acquisition module also changes, and at the moment, the server module calls the data storage module when finding the change;

s304: the server module acquires the configured dimming rules (attribute association rules and equipment attribute association rules) from the data storage module, analyzes the dimming rules, and links the attribute values (target attribute set values) of the lighting adapter by using the attribute values (trigger source attribute interval values) of the environment acquisition module according to the analyzed result;

s305: the lighting adapter updates the on-off control state or brightness control state attribute of the factory device.

It will be understood by those skilled in the art that the foregoing is only a preferred embodiment of the present invention, and is not intended to limit the invention, and that any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims

1. An environment self-adaptive illumination control system is used for controlling illumination of an illumination lamp of factory equipment, and is characterized by comprising a server module, an illumination control module, a data storage module, an environment acquisition module, an illumination adapter and a dimming configuration module, wherein the server module is respectively connected with the illumination control module, the data storage module, the environment acquisition module and the illumination adapter, the data storage module is connected with the dimming configuration module,

the dimming configuration module is used for importing configured dimming rules into the data storage module, the dimming rules comprise attribute association rules and equipment attribute association rules, the attribute association rules and the equipment attribute association rules are respectively configured in an excel table so as to form an attribute association rule table and an equipment attribute association rule table, and then the configured excel table is imported into the data storage module;

the dimming rule configured by the dimming configuration module is adjustable, and the adjustment is based on illumination intensity information fed back to the server module by the environment acquisition module and the illumination state of the illumination lamp of the factory equipment fed back to the server module by the illumination adapter;

the attribute association rule comprises a rule serial number, a trigger rule name, a trigger source equipment type, a trigger source attribute type name, trigger time, trigger weather, a trigger season, a trigger source region, namely an illumination intensity region range, a target equipment type name, a target attribute type name and/or a target attribute set value;

the device attribute association rule comprises a trigger source subsystem name, a trigger source module name, a trigger source device name, a trigger rule name, a target device subsystem name, a target device module name and/or a target device name;

the illumination adapter is used for controlling illumination of an illumination lamp of factory equipment according to the automatic dimming instruction;

the server module is linked with other modules to realize an attribute linkage strategy, and when the attribute of the environment acquisition module is changed, the server module updates the attribute value of the illumination adapter in time so as to update the on-off control state and the brightness control state of the illumination lamp and meet the requirement of brightness control on the illumination lamp in a self-adaptive environment.

2. The environment adaptive lighting control system according to claim 1, wherein the server module polls the light intensity attribute value of the environment acquisition module by using a polling mechanism, when the light intensity attribute value changes, the server module controls lighting of the lighting fixture of the factory device through the lighting adapter, so as to update the lighting status of the lighting fixture, and the lighting adapter feeds back the updated lighting status of the factory device to the server module.

3. The environment-adaptive lighting control system according to claim 2, wherein the lighting control module updates the display interface in real time after receiving the updated lighting status of the lighting fixture from the server module.

4. The environment-adaptive lighting control system according to claim 1, further comprising an energy consumption acquisition module connected to the server module for acquiring energy consumption of the factory equipment lighting and sending the energy consumption to the server module.

5. The environment adaptive lighting control system according to claim 4, further comprising an energy consumption analysis module connected to the server module for analyzing and processing energy consumption statistics and trend curves of the factory equipment lighting, and presenting energy consumption usage and energy consumption trend maps of the lighting.

6. The environment-adaptive lighting control system according to claim 1, wherein the server module outputs the lighting state attribute value of the lighting fixture of the factory device according to the interval where the illumination intensity value acquired by the environment acquisition module is based on the configured dimming rule, so that the lighting fixture is turned on or off and the brightness of the lighting fixture is adjusted through the lighting adapter.