CN111343776B - Intelligent illumination control management system and method - Google Patents

Abstract

The utility model relates to an intelligent illumination control management system and method, relates to the technical field of illumination control, and solves the problem that when meeting application scenes that the brightness of illumination equipment in the same area needs to be kept consistent, workers need to adjust the light brightness of the illumination equipment in the same area one by one. The utility model can realize the synchronous intelligent brightness control of all the lighting devices in the same area, and reduces the trouble of manually adjusting the brightness of the lighting devices one by one.

Description

Intelligent illumination control management system and method

Technical Field

The utility model relates to the technical field of lighting control, in particular to an intelligent lighting control management system and method.

Background

The intelligent street lamp is called as an intelligent street lamp, or an intelligent street lamp and intelligent illumination, and the technology of Internet of things and cloud computing is adopted to comprehensively upgrade the urban public illumination management system, so that the centralized management and control, operation and maintenance informatization and illumination intellectualization of the street lamp are realized.

The patent with the publication number of CN204180341U and the name of the patent is an intelligent street lamp energy-saving control system based on the Internet of things. According to the utility model, by the technology of the Internet of things, street lamp data acquisition, electric quantity metering, power saving regulation and control are integrated, so that independent control of each street lamp and remote energy-saving monitoring of all street lamps are realized, and the intellectualization of energy-saving control, energy consumption management, analysis and statistics, maintenance and routing inspection is realized, thereby having important significance for improving the energy utilization efficiency and relieving the energy shortage condition. The utility model can be widely applied to various street lamp energy-saving monitoring systems.

The above prior art solutions have the following drawbacks: when the lighting devices are controlled, only individual control of each lighting device can be realized, and in the practical application process, the brightness of the lighting devices in the areas of the lighting devices is required to be kept consistent in many application scenes, for example, when a large number of plants planted in the same area need to be supplemented with light at night, the brightness of the lighting devices in the same area is required to be continuously in the same brightness intensity, so that when the application scenes needing to keep the brightness of the lighting devices in the same area consistent are met, a worker is required to adjust the brightness of the lighting devices in the same area one by one, and the operation is troublesome.

Disclosure of Invention

The utility model aims to provide an intelligent lighting control management system which can realize synchronous intelligent brightness control of all lighting devices in the same area and reduce the trouble of manually adjusting the brightness of the lighting devices one by one.

The above object of the present invention is achieved by the following technical solutions:

an intelligent lighting control management system, comprising:

the first database stores areas and preset lamplight brightness of lighting equipment in the corresponding areas at different time periods;

the control terminal is used for information interaction acquisition, information analysis and judgment and control of the equipment device;

the power supply module is arranged on each lighting device to supply power to the corresponding lighting device;

the node dimmer is controlled by the control terminal to control the current intensity output to the lighting equipment by the power supply module so as to realize the brightness adjustment of the lighting equipment;

the control terminal calls the first database to obtain the preset light brightness of the areas and the lighting devices located in the corresponding areas in different time periods, and controls the light brightness of the lighting devices in the corresponding areas to be switched to the corresponding preset light brightness by starting the node light modulator in the corresponding areas based on the areas and the current time periods of the corresponding areas.

Through adopting above-mentioned technical scheme, the setting that combines first database, control terminal has effectively realized the regional interior lighting apparatus and has predetermine the transfer of scheme, and control terminal, power module, node light modulator set up the actual application that has effectively realized predetermineeing the scheme based on lighting apparatus, make things convenient for the intelligent management and control of lighting apparatus in the region, and it is extravagant to reduce the energy under the prerequisite of guaranteeing actual effective use.

The utility model is further configured to: the intelligent lighting control management system also comprises a lighting adjusting module for the user to adjust and set the regional lighting brightness and the duration time of the corresponding lighting brightness, and the lighting adjusting module sets the priority of the lighting brightness to be higher than the priority of the lighting brightness stored in the first database for calling and applying;

the control terminal controls the light brightness of the lighting equipment in the corresponding area to be switched to the light brightness set by the light adjusting module and to last the duration set by the light adjusting module by starting the node dimmer in the corresponding area based on the area set by the light adjusting module, the light brightness in the corresponding area and the duration set by the corresponding light brightness.

Through adopting above-mentioned technical scheme, the setting that combines control terminal, light adjusting module has made things convenient for the staff can be because the light that the regional interior lighting apparatus of needs was directly made is adjusted to needs when emergent scene needs, does not receive the scheme influence that first database predetermine moreover, has further improved the convenience that the staff adjusted lighting apparatus is bright based on actual need.

The utility model is further configured to:

the intelligent lighting control management system comprises:

the second database stores the lighting intensity of the lighting equipment which is adjusted by the lighting adjusting module and the times of adjusting the lighting intensity of the corresponding lighting equipment by the user history;

the control terminal calls a second database to obtain the brightness intensity of the lighting equipment and the adjustment times of the brightness intensity of the corresponding lighting equipment, screens out the brightness intensity of the lighting equipment exceeding the preset adjustment times, and selects three brightness intensities of the lighting equipment closest to the brightness of the current lighting equipment based on the current brightness intensity of the area selected by the user on the basis of the screened brightness intensity of the lighting equipment;

and the control terminal performs at least top-to-bottom sequencing on the adjustment times of the brightness intensities of the three lighting devices, and uses the sequenced brightness of the lighting devices as the recommended brightness of the lighting devices displayed at the user end before the user determines the brightness of the specific lighting devices through the light adjustment module.

By adopting the technical scheme, the most probably adjusted illumination equipment brightness of the user is analyzed by comprehensively considering the historical adjusted brightness condition of the user and the light brightness intensity of the currently selected area in combination with the setting of the control terminal and the second database, and the user can make a better choice when adjusting through the light adjusting module in a recommended mode.

The utility model is further configured to:

the intelligent lighting control management system comprises:

the brightness intensity detection device is arranged in each lighting device and used for detecting the brightness of the lighting device in real time;

the lighting equipment position detection device is arranged in the lighting equipment and used for detecting the position of the lighting equipment;

the information sending device is used for sending the mobile phone information of the operation and maintenance personnel;

the third database stores the positions of the lighting equipment and the mobile phone numbers of the operation and maintenance personnel in charge of the lighting equipment at the corresponding positions;

the control terminal compares the brightness of the lighting equipment which needs to be maintained currently by the lighting equipment with the brightness of the lighting equipment detected by the brightness intensity detection device, detects the position of the corresponding lighting equipment by the lighting equipment position detection device under the condition of inconsistent comparison, and defines the lighting equipment with inconsistent brightness as the lighting equipment with substandard brightness;

the control terminal takes the position of the lighting equipment as a query object to query the mobile phone number of the operation and maintenance personnel responsible for the lighting equipment at the corresponding position in the third database, and sends the position of the lighting equipment which does not reach the standard to the mobile phone of the operation and maintenance personnel through the information sending device.

By adopting the technical scheme, whether the lighting equipment reaches the standard or not is effectively detected through the combination of the brightness intensity detection device, the lighting equipment detection device and the control terminal, and when the lighting equipment does not reach the standard, operation and maintenance personnel of the specific lighting equipment are determined in time through the main control terminal and the third database, and the operation and maintenance personnel are notified in time through the information sending device.

The utility model is further configured to:

the intelligent lighting control management system comprises:

the fourth database stores lighting equipment faults, lighting equipment fault types, lighting equipment fault diagnosis modes and corresponding lighting equipment fault processing schemes, and the lighting equipment fault processing schemes are divided into automatic repair scheme types and notification artificial participation repair scheme types;

if the comparison between the lighting equipment brightness intensity detected by the lighting equipment position detection device and the set lighting equipment brightness intensity is inconsistent, the control terminal calls a fourth database to acquire the lighting equipment faults, the lighting equipment fault types and the processing schemes of the corresponding lighting equipment faults;

preferentially, the control terminal selects the processing schemes one by one, diagnoses the faults corresponding to the automatic repair schemes in an adaptive lighting equipment fault diagnosis mode, processes the faults by adopting the processing schemes of the corresponding faults after diagnosis is confirmed, and loads the processing results of the final faults to the information sent by the information sending device;

and then, the control terminal selects the rest faults one by one and diagnoses the faults by adopting an adaptive lighting equipment fault diagnosis mode, loads the processing scheme of the corresponding lighting equipment fault into the information sent by the information sending device after the diagnosis is confirmed, and loads the information which is not diagnosed into the information sent by the information sending device if the diagnosis is not confirmed yet.

By adopting the technical scheme, the combination setting of the control terminal and the fourth database is based on the fault consideration of the lighting equipment, the repairable fault is preferentially diagnosed and correspondingly repaired, the diagnosis is carried out when the self-repair cannot be carried out, and the operation and maintenance personnel are timely notified to participate in the processing through the information sending device, so that the processing and repairing efficiency of the lighting equipment under the fault is integrally improved, and the influence on the operation and maintenance personnel is reduced on the premise of self-repair.

The utility model is further configured to:

the intelligent lighting control management system comprises:

the fifth database stores lighting equipment at different positions, faults of the lighting equipment at corresponding positions, maintenance times of the corresponding faults and occurrence time of historical faults;

and the control terminal takes the position of the lighting equipment with the light not reaching the standard as an inquiry object, inquires the maintenance times of the lighting faults at the corresponding position in a fifth database, sorts the lighting equipment faults of the same type of processing scheme at least from top to bottom according to the maintenance times of the faults, and finally automatically diagnoses the faults according to the sequence from top to bottom.

By adopting the technical scheme, the faults of the lighting equipment which does not reach the standard are considered to be diversified by combining the control terminal and the fifth database, the faults are diagnosed one by one in the process of maintenance, the fault sequence is arranged by integrating the maintenance frequency conditions of the individual lighting equipment, and the repair efficiency of the faults of the lighting equipment is further improved.

The utility model is further configured to:

the intelligent lighting control management system comprises:

the sixth database stores the positions of the lighting devices and the models of the lighting devices at the corresponding positions;

weight calculating means for calculating a weight value of a certain fault;

if the faults which adopt the same type of repair scheme and are in consistent sequence exist, the control terminal queries the corresponding lighting equipment model in a sixth database by taking the lighting equipment position with the light which does not reach the standard as a query object;

the control terminal takes the model of the lighting equipment as an inquiry object, acquires all positions of the lighting equipment with the corresponding model from the sixth database, inquires all faults of the corresponding lighting equipment and the maintenance times of the corresponding faults by taking all the positions of the lighting equipment with the corresponding model from the fifth database, and finally calculates the maintenance average number of a certain fault of a single lighting equipment with the same model by taking the total maintenance times of a certain fault of the same lighting equipment model as a dividend and the total number of the lighting equipment with the same model as a divisor;

meanwhile, the control terminal acquires the faults which occur in the proximity of three times of the lighting equipment with the unqualified brightness by calling the fourth database, and screens out the times of certain fault in the faults occurring in the proximity of three times;

meanwhile, the control terminal takes the area where the lighting equipment with the light intensity which does not reach the standard is located as an inquiry object, inquires all lighting equipment faults and the maintenance times of the corresponding faults in the area in the fourth database, and finally, the total maintenance times of a certain fault of the lighting equipment in the same area is taken as a dividend, the total number of the lighting equipment in the same area is taken as a divisor, and the average maintenance number of a certain fault of a single lighting equipment in the same area is calculated;

the weight calculation formula applied by the specific weight calculation device is as follows:

z = A + B + B + C, Z is a weight value of a certain fault, A is a maintenance average number of a certain fault of a single lighting device of the same model, a is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same model in a weight formula, B is a maintenance average number of the certain fault of the single lighting device of the same area, B is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same area in the weight formula, C is the number of times of the certain fault existing in the faults which occur near three times of the lighting device with the current light intensity not reaching the standard, and C is a weight coefficient of the number of times of the certain fault existing in the faults which occur near three times of the lighting device with the current light intensity not reaching the standard in the weight formula;

and the control terminal sorts the faults which adopt the same type of repair scheme and are in consistent sorting from top to bottom at least based on the weight numerical values calculated by the weight calculation device, and diagnoses and processes the faults one by one according to the sequence from top to bottom.

By adopting the technical scheme, the fault conditions of the lighting equipment of the same model, the lighting equipment conditions of the same area and the fault conditions of the lighting equipment in the first several times are comprehensively considered through the combined setting of the sixth database, the weight calculation device, the control terminal, the fifth database and the fourth database, so that the faults which adopt the same type of repair scheme and are in consistent sequence are further sequenced when the faults occur, and the fault processing efficiency is further improved.

The utility model is further configured to:

an intelligent lighting control management system comprising:

the seventh database stores operation and maintenance personnel and labeling colors inclined by the corresponding operation and maintenance personnel;

the marking module is used for marking the information sent by the information sending device;

when the control terminal confirms that the fault which is manually repaired needs to be notified, the control terminal takes the operation and maintenance personnel sent by the information sending device as an inquiry object to inquire the expression color which the corresponding operation and maintenance personnel tend to in the seventh database, and starts a labeling module for labeling the fault which is confirmed that the personnel manually completes the maintenance and the related fault processing scheme with the corresponding color.

By adopting the technical scheme, the representing colors which are inclined by corresponding operation and maintenance personnel are effectively analyzed and obtained through the setting of the control terminal and the seventh database, and the information sent by the information sending device is marked through the marking module, so that the attention of a user can be better attracted.

The utility model is further configured to: an intelligent lighting control management system comprising:

the voice prompt module is used for prompting the operation and maintenance personnel through voice dialing;

when the control terminal starts the information sending device to send a fault needing to be notified to be repaired by a person, the control terminal starts the voice prompt module to synchronously carry out voice prompt on the operation and maintenance personnel.

By adopting the technical scheme, the voice prompt module and the control terminal are used for timely carrying out voice prompt on the operation and maintenance personnel through the voice prompt module when the fault which is artificially participated in repair occurs, so that the operation and maintenance personnel can repair the fault conveniently and timely.

The utility model also aims to provide an intelligent illumination control management method, which can realize synchronous intelligent brightness control of all illumination devices in the same area and reduce the trouble of manually adjusting the brightness of the illumination devices one by one.

The utility model is further configured to:

an intelligent lighting control management method is characterized by comprising the following steps:

step S100: the method comprises the steps that a control terminal obtains areas and preset lamplight brightness of lighting equipment located in the corresponding areas at different time periods;

step S200: the control terminal starts the node dimmer to control the light brightness of the corresponding area lighting equipment to be switched to the corresponding preset light brightness.

By adopting the technical scheme, the step S100 and the step S200 are combined to set the synchronous intelligent brightness control of the lighting equipment in the same area based on the actually preset lamplight brightness adjusting scheme, so that the trouble of manually adjusting the brightness of the lighting equipment one by one is reduced.

In conclusion, the beneficial technical effects of the utility model are as follows: the first database, the control terminal, the power supply module and the node dimmer are combined, so that the corresponding brightness adjustment of the lighting equipment in the area is facilitated according to a preset scheme, and the trouble of manually adjusting the brightness of the lighting equipment one by one is reduced.

Drawings

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

Fig. 2 is a system block diagram ii of the intelligent lighting control management system of the present invention.

Fig. 3 is a system block diagram three of the intelligent lighting control management system of the present invention.

Fig. 4 is a schematic diagram of the overall steps of the intelligent lighting control management method of the present invention.

In the figure, 1, a first database; 2. a control terminal; 3. a power supply module; 4. a node dimmer; 5. a light adjusting module; 6. a second database; 7. a brightness intensity detection device; 8. lighting device position detection means; 9. an information transmitting device; 10. a third database; 11. a fourth database; 12. a fifth database; 13. a sixth database; 14. a weight calculation means; 15. a seventh database; 16. a labeling module; 17. and a voice prompt module.

Detailed Description

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

Referring to fig. 1, an intelligent lighting control management system disclosed by the present invention includes a first database 1 storing areas and preset lighting luminances of lighting devices in the corresponding areas at different time periods, a power module 3 disposed in each lighting device for supplying power to the corresponding lighting device, a node dimmer 4 controlled by a control terminal 2 for controlling the current intensity output from the power module 3 to the lighting device, thereby implementing the brightness adjustment of the lighting device, and a control terminal 2 for information interaction acquisition, information analysis and judgment, and device management and control, where the control terminal 2 is preferably a combination of an operation and maintenance node controller, an operation and maintenance host, and a centralized detection host, wherein the combination of the operation and maintenance host and the centralized detection host is mainly used for implementing information interaction acquisition, information analysis and judgment, and the setting of the operation and maintenance node controller is mainly used for implementing the control of the node dimmer 4, the lighting device is preferably an illumination lamp.

The process applying the technical characteristics is as follows: the control terminal 2 calls the first database 1 to obtain the preset light brightness of the areas and the lighting devices in the corresponding areas in different time periods, and controls the light brightness of the lighting devices in the corresponding areas to be switched to the corresponding preset light brightness by starting the node light modulator 4 in the corresponding area based on the current time period of the areas and the corresponding areas.

Further considering that the workers can adjust the light brightness of the area lighting equipment based on the actual scene and are not influenced by the scheme preset in the first database 1, the intelligent lighting control management system further comprises a light adjusting module 5 for the users to adjust and set the light brightness of the area and the duration time of the corresponding light brightness, and the light adjusting module 5 sets the light brightness higher than the light brightness stored in the first database 1.

The control terminal 2 controls the light brightness of the lighting equipment in the corresponding area to be switched to the light brightness set by the light adjusting module 5 and to last for the duration set by the light adjusting module 5 by starting the node dimmer 4 in the corresponding area based on the area set by the light adjusting module 5, the light brightness of the corresponding area, and the duration set by the light brightness of the corresponding area.

And considering that the user may be at a light source brightness that is not determined to be specifically adjusted when the user needs to adjust the area light source based on the scene, the intelligent lighting control management system includes a second database 6 that stores the user's history of the lighting device brightness intensity adjusted by the light adjustment module 5 and the number of times of adjusting to the corresponding lighting device brightness intensity.

The application process based on the technical characteristics is as follows:

the control terminal 2 calls the second database 6 to obtain the brightness intensity of the lighting device and the adjustment times of the corresponding brightness intensity of the lighting device, screens out the brightness intensity of the lighting device exceeding the preset adjustment times, and selects the brightness intensity of the three lighting devices closest to the current brightness of the lighting device based on the screened brightness intensity of the lighting device and the current brightness intensity of the lighting device in the area selected by the user.

The control terminal 2 sorts the brightness of the three lighting devices from top to bottom according to the adjusting times of the brightness intensities of the three lighting devices, and uses the sorted brightness of the lighting devices as the recommended brightness of the lighting devices displayed on the user side before the user determines the brightness of the specific lighting devices through the lighting adjusting module 5, where the user side can be a mobile phone, a computer, and other communicable and storable devices

The above is based on the adjustment of the brightness of the lighting device, and the adjusted brightness of the lighting device does not conform to the actually required brightness, which often occurs in the practical application process, and there are the following settings based on this:

as shown in fig. 2, the intelligent lighting control management system includes a light intensity detection device 7 disposed inside each lighting device for detecting the brightness of the lighting device in real time, a lighting device position detection device 8 disposed inside the lighting device for detecting the position of the lighting device, an information transmission device 9 for transmitting the mobile phone information of the operation and maintenance personnel, and a third database 10 storing the position of the lighting device and the mobile phone number of the operation and maintenance personnel responsible for the lighting device at the corresponding position, where the information transmission device 9 may be a micro-messaging device, a short-messaging device, and other communicable devices, and is preferably a short-messaging device, the light intensity detection device 7 is preferably a light sensor, and the lighting device position detection device 8 is preferably a GPS positioning module.

The application process based on the technical characteristics is as follows: the control terminal 2 compares the brightness of the lighting equipment which is required to be maintained by the lighting equipment at present with the brightness of the lighting equipment detected by the brightness intensity detection device 7, detects the position of the corresponding lighting equipment by the lighting equipment position detection device 8 under the condition of inconsistent comparison, and defines the lighting equipment with inconsistent brightness as the lighting equipment with substandard brightness.

The control terminal 2 takes the position of the lighting device as an inquiry object to inquire the mobile phone number of the operation and maintenance personnel responsible for the lighting device at the corresponding position in the third database 10, and sends the position of the lighting device which does not reach the standard to the mobile phone of the operation and maintenance personnel through the information sending device 9.

In a further consideration, in the practical application process, timely and effective diagnosis and treatment can be carried out based on the faults of the lighting equipment, the intelligent lighting control management system comprises a fourth database 11 which stores the faults of the lighting equipment, the types of the faults of the lighting equipment, the fault diagnosis modes of the lighting equipment and the treatment schemes of the corresponding faults of the lighting equipment, the treatment schemes are divided in type, the treatment schemes of the faults of the lighting equipment are divided into an automatic repair scheme type and a scheme type which informs people to participate in repair, and in order to avoid the faults detected synchronously, the judgment of the faults is inaccurate, and the fault diagnosis is one-by-one.

The application process of the control terminal 2 based on the fourth database 11 is as follows:

if the comparison between the lighting device brightness intensity detected by the lighting device position detection device 8 and the set lighting device brightness intensity is inconsistent, the control terminal 2 calls the fourth database 11 to acquire the lighting device fault, the lighting device fault type and the processing scheme of the corresponding lighting device fault.

Preferentially, the control terminal 2 selects one-by-one processing scheme as the fault corresponding to the automatic repair scheme, diagnoses the fault by adopting an adaptive lighting equipment fault diagnosis mode, processes the fault by adopting the corresponding fault processing scheme after the diagnosis is confirmed, and loads the processing result of the final fault to the information sent by the information sending device 9.

The types of automated repair protocols and associated diagnostics referred to herein are two:

first, power-off diagnosis: the control terminal 2 starts the commercial power detector to detect the commercial power; a power-off processing scheme: if no commercial power is detected, the power failure information is sent to the user side of the operation and maintenance personnel through the information sending device 9.

Secondly, trip diagnosis: the control terminal 2 controls the air switch to automatically push the brake for tripping detection; and a trip processing scheme: and if the brake is successfully pushed and the lighting equipment recovers the preset light, finishing the treatment.

Then, the control terminal 2 selects the remaining faults one by one and diagnoses the faults by adopting an adaptive lighting equipment fault diagnosis method, loads the processing scheme of the corresponding lighting equipment fault into the information sent by the information sending device 9 after the diagnosis is confirmed, and loads the information which is not diagnosed into the information sent by the information sending device 9 if the diagnosis is not confirmed yet.

The above-mentioned specific diagnosis methods for the remaining faults include the following:

first, lamp damage diagnosis: the control terminal 2 starts a current detecting means provided in the bulb for bulb current detection,

secondly, line disconnection diagnosis: the control terminal 2 starts a first voltage detection device connected in parallel to the two ends of the line to detect the line voltage.

Thirdly, power supply damage diagnosis: the control terminal 2 starts a second voltage detection device connected in parallel with the anode and the cathode of the power supply to perform power supply detection.

Further considering how to reasonably sort faults of the same processing scheme type in the actual application process, so as to improve the overall fault processing efficiency, the intelligent lighting control management system comprises a fifth database 12 which stores lighting devices at different positions, faults of the lighting devices at corresponding positions, maintenance times of the corresponding faults and occurrence time of historical faults.

The application process based on the fifth database 12 and the combined setting of the control terminal 2 is as follows: the control terminal 2 takes the lighting equipment position with the light not up to the standard as an inquiry object, inquires the maintenance times of the lighting fault at the corresponding position in the fifth database 12, and at least sorts the lighting equipment faults of the same type of processing scheme from top to bottom according to the maintenance times of the faults, and finally automatically diagnoses the faults according to the sequence from top to bottom.

Further, considering that there are faults which adopt the same type of repair scheme and are in consistent sequence in the actual application process, there are the following settings based on further reasonable sequencing of the faults.

The intelligent lighting control management system comprises a sixth database 13 storing the positions of the lighting devices and the models of the lighting devices at the corresponding positions, and a weight calculation device 14 for calculating the weight value of a certain fault.

The whole application process is as follows:

if the faults which adopt the same type of repair scheme and are in consistent sequence exist, the control terminal 2 takes the position of the lighting equipment with the light not reaching the standard as an inquiry object to inquire the corresponding model of the lighting equipment in the sixth database 13.

The control terminal 2 takes the model of the lighting device as an inquiry object, acquires all positions of the lighting devices with corresponding models from the sixth database 13, inquires all faults of the corresponding lighting devices and maintenance times of the corresponding faults by placing all the positions of the lighting devices with corresponding models in the fifth database 12, and finally calculates the maintenance average number of a certain fault of a single lighting device with the same model by taking the total maintenance times of a certain fault of the same lighting device model as a dividend and the total number of the lighting devices with the same model as a divisor.

Meanwhile, the control terminal 2 acquires the faults occurring when the lighting device with the light intensity not meeting the standard approaches three times by calling the fourth database 11, and screens out the times of certain faults existing in the faults occurring when the lighting device approaches three times.

Meanwhile, the control terminal 2 uses the area where the lighting device position with the light not reaching the standard is located as an inquiry object, inquires all the lighting device faults and the maintenance times of the corresponding faults in the area in the fourth database 11, and finally calculates the maintenance average number of a certain fault of a single lighting device in the same area by using the total maintenance times of a certain fault of the lighting device in the same area as a dividend and the total number of the lighting devices in the same area as a divisor.

The weight calculation formula applied by the specific weight calculation device 14 is as follows: z = A + B + C, Z is a weight value of a certain fault, A is a maintenance average number of a certain fault of a single lighting device of the same model, a is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same model in a weight formula, B is a maintenance average number of the certain fault of the single lighting device of the same area, B is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same area in the weight formula, C is the number of times of the certain fault existing in the faults which occur next to three times of the lighting device with the current light intensity not reaching the standard, and C is a weight coefficient of the number of times of the certain fault existing in the faults which occur next to three times of the lighting device with the current light intensity not reaching the standard in the weight formula.

The control terminal 2 sorts the faults which adopt the same type of repair scheme and are in consistent sorting according to the weight values calculated by the weight calculation device 14 from top to bottom, and diagnoses and processes the faults one by one according to the sequence from top to bottom.

As shown in fig. 3, in addition, in view of better informing the operation and maintenance staff when the operation and maintenance staff is needed to participate in the solution, the intelligent lighting control management system includes a seventh database 15 storing the operation and maintenance staff and the labeling colors that the corresponding operation and maintenance staff tend to, and a labeling module 16 labeling the information sent by the information sending device 9.

When the control terminal 2 confirms that the fault which is to be repaired and needs to be notified by a person is diagnosed, the control terminal 2 queries the representation color which is inclined by the corresponding operation and maintenance person in the seventh database 15 by using the operation and maintenance person sent by the information sending device 9 as a query object, and starts the labeling module 16 for labeling the diagnosed fault which is to be repaired and the related fault processing scheme with the corresponding color.

In addition, in consideration of the omission of the information checking of the operation and maintenance personnel, the intelligent illumination control management system comprises a voice prompt module 17 for prompting the operation and maintenance personnel through voice dialing, and when the control terminal 2 starts the information sending device 9 to send a fault needing to be notified that the personnel participates in repairing, the control terminal 2 starts the voice prompt module 17 to synchronously carry out voice prompt on the operation and maintenance personnel.

The whole process is as follows:

the first database 1, the control terminal 2, the power module 3 and the node dimmer 4 are combined to facilitate the corresponding brightness adjustment of the regional lighting equipment according to a preset scheme, when a worker needs to adjust the light different from the preset scheme based on the scene light brightness requirement, the region can be selected by the light adjusting module 5 to adjust the light brightness, and when the worker does not know the specific adjustment amount, the adaptive light brightness recommendation can be given based on the operation habits of the user and the current light brightness condition of the dimming region required by the user by combining the control terminal 2 and the second database 6, so that the user can conveniently select the dimming.

In addition, in consideration of the phenomenon that the brightness of the adjusted lighting equipment does not reach the standard in the practical application process, on one hand, the position of the lighting equipment which does not reach the standard can be obtained through the setting of the brightness detection device, the lighting equipment position detection device 8, the control terminal 2 and the third database 10, and the information of the position of the lighting equipment which does not reach the standard is sent to operation and maintenance personnel through the information sending device 9, on the other hand, the self-repairing is preferred when the fault of the lighting equipment is judged by combining the setting of the control terminal 2, the fourth database 11, the fifth database 12 and the sixth database 13, and the operation and maintenance personnel are timely notified when the operation and maintenance personnel are required to participate.

And based on timely informing of the operation and maintenance personnel, the timely and effective reminding of the operation and maintenance personnel is realized by combining the seventh database 15, the labeling module 16, the voice prompt module 17 and the control terminal 2.

As shown in fig. 4, the above is an introduction of the intelligent lighting control management system, and based on the same inventive concept, an introduction of the intelligent lighting control management method is as follows, and the intelligent lighting control management method includes the following steps: step S100: the control terminal 2 acquires the preset light brightness of the areas and the lighting devices in the corresponding areas at different time periods; step S200: the control terminal 2 starts the node dimmer 4 to control the light brightness of the corresponding area lighting device to be switched to the corresponding preset light brightness.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered by the protection scope of the utility model.

Claims (3)

1. An intelligent lighting control management system, comprising:

the first database (1) stores areas and preset light brightness of lighting equipment in the corresponding areas at different time periods;

the control terminal (2) is used for information interaction acquisition, information analysis and judgment and control of the equipment device;

a power supply module (3) provided to each lighting device to supply power to the corresponding lighting device;

the node dimmer (4) is controlled by the control terminal (2) to control the current intensity output to the lighting equipment by the power supply module (3) so as to adjust the brightness of the lighting equipment;

the control terminal (2) calls the first database (1) to obtain areas and preset lamplight brightness of lighting equipment in the corresponding areas in different time periods, and controls the lamplight brightness of the lighting equipment in the corresponding areas to be switched to the corresponding preset lamplight brightness by starting the node light modulator (4) in the corresponding areas based on the areas and the current time periods of the corresponding areas;

the intelligent lighting control management system also comprises a light adjusting module (5) for a user to adjust and set the regional light brightness and the duration time of the corresponding light brightness, wherein the light adjusting module (5) sets the priority of the light brightness to be higher than the priority of the light brightness stored in the first database (1) for calling and applying;

the control terminal (2) controls the lighting brightness of the lighting equipment in the corresponding area to be switched to the lighting brightness set by the lighting adjusting module (5) and to continue for the duration set by the lighting adjusting module (5) by starting the node dimmer (4) in the corresponding area based on the area set by the lighting adjusting module (5), the lighting brightness of the corresponding area and the duration set by the corresponding lighting brightness;

the intelligent lighting control management system comprises:

the second database (6) stores the lighting intensity of the lighting equipment adjusted by the lighting adjusting module (5) and the times of adjusting the lighting intensity of the corresponding lighting equipment in user history;

the control terminal (2) calls the second database (6) to obtain the brightness intensity of the lighting equipment and the adjustment times of the brightness intensity of the corresponding lighting equipment, screens out the brightness intensity of the lighting equipment exceeding the preset adjustment times, and selects three brightness intensities of the lighting equipment closest to the brightness of the current lighting equipment based on the current brightness intensity of the light in the area selected by the user on the basis of the screened brightness intensity of the lighting equipment;

the control terminal (2) performs at least top-to-bottom sequencing on the adjustment times of the brightness intensities of the three lighting devices, and uses the sequenced brightness of the lighting devices as the recommended brightness of the lighting devices displayed at the user end before the user determines the brightness of the specific lighting devices through the light adjustment module (5);

the intelligent lighting control management system comprises:

the brightness intensity detection device (7) is arranged inside each lighting device and used for detecting the brightness of the lighting device in real time;

the lighting equipment position detection device (8) is arranged in the lighting equipment and used for detecting the position of the lighting equipment;

the information sending device (9) is used for sending mobile phone information of the operation and maintenance personnel;

the third database (10) stores the positions of the lighting devices and the mobile phone numbers of the operation and maintenance personnel in charge of the lighting devices at the corresponding positions;

the control terminal (2) compares the brightness of the lighting equipment which needs to be kept by the lighting equipment at present with the brightness of the lighting equipment detected by the brightness intensity detection device (7), detects the position of the corresponding lighting equipment by the lighting equipment position detection device (8) under the condition of inconsistent comparison, and defines the lighting equipment with inconsistent brightness as the lighting equipment with substandard brightness;

the control terminal (2) takes the position of the lighting equipment as a query object to query the mobile phone number of the operation and maintenance personnel responsible for the lighting equipment at the corresponding position in the third database (10), and sends the position of the lighting equipment which does not reach the standard to the mobile phone of the operation and maintenance personnel through the information sending device (9);

the intelligent lighting control management system comprises:

the fourth database (11) stores lighting equipment faults, lighting equipment fault types, lighting equipment fault diagnosis modes and corresponding lighting equipment fault processing schemes, and the lighting equipment fault processing schemes are divided into automatic repair scheme types and notification human participation repair scheme types;

if the comparison between the lighting equipment brightness intensity detected by the lighting equipment position detection device (8) and the set lighting equipment brightness intensity is inconsistent, the control terminal (2) calls a fourth database (11) to acquire the lighting equipment fault, the lighting equipment fault type and the processing scheme of the corresponding lighting equipment fault;

preferentially, the control terminal (2) selects the processing schemes one by one to diagnose the corresponding faults of the automatic repair scheme by adopting an adaptive lighting equipment fault diagnosis mode, processes the faults by adopting the processing schemes of the corresponding faults after diagnosis is confirmed, and loads the processing result of the final fault to the information sent by the information sending device (9);

then, the control terminal (2) selects the remaining faults one by one and diagnoses the faults by adopting an adaptive lighting equipment fault diagnosis mode, and loads a processing scheme of the corresponding lighting equipment fault into the information sent by the information sending device (9) after the diagnosis is confirmed, and if the diagnosis is not confirmed, loads the information which is not diagnosed into the information sent by the information sending device (9);

the intelligent lighting control management system comprises:

a fifth database (15) for storing lighting devices at different positions, faults of the lighting devices at corresponding positions, maintenance times of the corresponding faults and occurrence time of historical faults;

the control terminal (2) takes the position of the lighting equipment with the light not reaching the standard as an inquiry object, inquires the maintenance times of the lighting faults at the corresponding position in a fifth database (15), and sorts the lighting equipment faults of at least the same type of processing scheme from top to bottom according to the maintenance times of the faults, and finally automatically diagnoses the faults according to the sequence from top to bottom;

the intelligent lighting control management system comprises:

a sixth database (16) for storing the positions of the lighting devices and the models of the lighting devices at the corresponding positions;

weight calculation means (17) for calculating a weight value for a certain fault;

if faults which adopt the same type of repair scheme and are in consistent sequence exist, the control terminal (2) takes the position of the lighting equipment with substandard brightness as an inquiry object to inquire the corresponding model of the lighting equipment in a sixth database (16);

the control terminal (2) takes the model of the lighting equipment as an inquiry object, acquires all positions of the lighting equipment with corresponding model from the sixth database (16), inquires all faults of the corresponding lighting equipment and maintenance times of the corresponding faults by taking all the positions of the lighting equipment with corresponding model in the fifth database (15), and finally calculates the maintenance average number of a certain fault of a single lighting equipment with the same model by taking the total maintenance times of a certain fault of the same lighting equipment model as a dividend and the total number of the lighting equipment with the same model as a divisor;

meanwhile, the control terminal (2) acquires the faults which occur when the lighting equipment with the light intensity not reaching the standard approaches three times by calling the fourth database (11), and screens out the times of certain faults in the faults which occur when the lighting equipment approaches three times;

meanwhile, the control terminal (2) takes the area where the lighting equipment position with the light not reaching the standard as an inquiry object, inquires all the lighting equipment faults and the maintenance times of the corresponding faults in the area in the fourth database (11), and finally calculates the maintenance average number of a certain fault of a single lighting equipment in the same area by taking the total maintenance times of a certain fault of the lighting equipment in the same area as a dividend and the total number of the lighting equipment in the same area as a divisor;

the weight calculation formula applied by the specific weight calculation means (17) is as follows:

z = A + B + B + C, Z is a weight value of a certain fault, A is a maintenance average number of a certain fault of a single lighting device of the same model, a is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same model in a weight formula, B is a maintenance average number of the certain fault of the single lighting device of the same area, B is a weight coefficient of the maintenance average number of the certain fault of the single lighting device of the same area in the weight formula, C is the number of times of the certain fault existing in the faults which occur near three times of the lighting device with the current light intensity not reaching the standard, and C is a weight coefficient of the number of times of the certain fault existing in the weight formula in the faults which occur near three times of the lighting device with the current light intensity not reaching the standard;

the control terminal (2) sorts the faults which adopt the same type of repair scheme and are in consistent sorting at least from top to bottom based on the weight numerical values calculated by the weight calculation device (17), and diagnoses and processes the faults one by one according to the sequence from top to bottom.

2. The intelligent lighting control management system of claim 1, comprising:

the seventh database (18) is used for storing operation and maintenance personnel and labeling colors which the corresponding operation and maintenance personnel tend to;

a labeling module (19) for labeling the information transmitted by the information transmitting device (9);

when the control terminal (2) confirms that the fault which is manually repaired needs to be informed, the control terminal (2) takes the operation and maintenance personnel sent by the information sending device (9) as an inquiry object to inquire the expression color which is inclined by the corresponding operation and maintenance personnel in the seventh database (18), and marks the confirmed fault which is manually repaired and a corresponding fault processing scheme starting marking module (19) with the corresponding color.

3. The intelligent lighting control management system of claim 2, comprising:

the voice prompt module (20) is used for prompting the operation and maintenance personnel through voice dialing;

when the control terminal (2) starts the information sending device (9) to send a fault needing to be notified to be repaired, the control terminal (2) starts the voice prompt module (20) to synchronously carry out voice prompt on operation and maintenance personnel.

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