CN110906237A - Intelligent lighting equipment capable of being rapidly configured and working method thereof - Google Patents

Abstract

The invention discloses a rapid configuration intelligent lighting device and a working method thereof, wherein the rapid configuration intelligent lighting device comprises a lamp holder, a first lamp shade and a second lamp shade, the lamp holder comprises a main frame body, a fixed frame, a first mounting frame and a second mounting frame, the fixed frame is welded in the middle of the outer surface of the upper end of the main frame body, the first mounting frame is welded in the position, close to one side, of the outer surface of the lower end of the main frame body, and the second mounting frame is welded in the position, close to the other side, of the outer surface; a first lampshade is arranged below the first mounting frame, a first mounting seat is welded on the outer surface of the upper end of the first lampshade, and the lower end of the first mounting frame is in threaded connection with the inside of the first mounting seat; a second lampshade is arranged below the second mounting rack; the invention has the beneficial effects that: the brightness of the lighting equipment can be adjusted according to the outside illuminance, so that the service life of the lighting equipment can be effectively prolonged while the lighting equipment is more energy-saving and environment-friendly.

Description

Intelligent lighting equipment capable of being rapidly configured and working method thereof

Technical Field

The invention relates to lighting equipment, in particular to intelligent lighting equipment capable of being rapidly configured and a working method thereof.

Background

The lighting equipment refers to street lamp distribution rooms, transformers, distribution boxes, lamp posts, underground pipelines, lamps, working wells, lighting auxiliary equipment and the like which are used in urban roads, ticket-free parks, green lands and the like.

Chinese patent publication No. CN108990223A discloses a control circuit of an intelligent lighting lamp, which includes: the Bluetooth module is used for connecting with other Bluetooth equipment through a Bluetooth mesh networking technology to form a network, receiving a Bluetooth signal output by the terminal controller and generating a Bluetooth digital dimming signal according to the Bluetooth signal; the intelligent lighting lamp comprises a dimmer control circuit, a control circuit and a control circuit, wherein the dimmer control circuit is used for monitoring a voltage signal generated by a dimmer of an intelligent lighting lamp and generating a dimmer dimming signal according to the voltage signal; the main control circuit is used for generating a dimming control signal according to the Bluetooth digital dimming signal or the dimmer dimming signal; and the driving circuit is used for adjusting the current output to the intelligent illuminating lamp according to the dimming control signal. The control circuit of the intelligent illuminating lamp enables a user to adjust the intelligent illuminating lamp through a terminal controller such as intelligent electronic equipment or a remote controller and the like, and also can adjust light through a light adjuster, so that the operability is strong; but it is not intelligent enough.

The existing lighting equipment cannot realize brightness adjustment according to external illumination intensity in the using process, the lighting equipment operates at full power for a long time, resource waste is easily caused, meanwhile, the existing lighting equipment easily generates a large amount of heat in the using process, the service life of the lighting equipment can be shortened, and certain influence is brought to the use of the lighting equipment.

Disclosure of Invention

The invention aims to solve the problems that the brightness of the existing lighting equipment cannot be adjusted according to the external illumination intensity in the use process, the lighting equipment runs at full power for a long time, and resources are easily wasted, and meanwhile, the existing lighting equipment easily generates a large amount of heat in the use process, the service life of the lighting equipment is shortened, and certain influence is brought to the use of the lighting equipment, and the intelligent lighting equipment capable of being rapidly configured and the working method thereof are provided.

The purpose of the invention can be realized by the following technical scheme: a rapid configuration intelligent lighting device comprises a lamp holder, a first lamp shade and a second lamp shade, wherein the lamp holder comprises a main frame body, a fixing frame, a first mounting frame and a second mounting frame;

a first lampshade is arranged below the first mounting frame, a first mounting seat is welded on the outer surface of the upper end of the first lampshade, and the lower end of the first mounting frame is in threaded connection with the inside of the first mounting seat;

a second lampshade is arranged below the second mounting frame, a second mounting seat is welded on the outer surface of the upper end of the second lampshade, and the lower end of the second mounting frame is in threaded connection with the inside of the second mounting seat;

a main control tube is welded in the middle of the outer surface of the lower end of the main frame body, and an auxiliary lamp is connected to the lower end of the main control tube in a threaded manner;

a first illuminance sensor is fixedly mounted on the outer surface of the upper end of the main frame body at a position close to one side, and a second illuminance sensor is fixedly mounted on the outer surface of the upper end of the main frame body at a position close to the other side;

the top end of the fixed frame is welded with a fixed seat, and the outer surface of the fixed seat is welded with a fixed sleeve;

the fan box is fixedly mounted at the top ends of the first lampshade and the second lampshade, the lamp panels are fixedly mounted at the middle positions of the first lampshade and the second lampshade, the LED lamp holder is fixedly mounted on the outer surface of the lower end of each lamp panel, the protective bottom covers are in threaded connection with the bottom ends of the first lampshade and the second lampshade, and the temperature sensor is fixedly mounted on the outer surface of the upper end of each lamp panel;

a data receiving module, a data processing module, a master control module and an information sending module are arranged in the master control pipe;

the data receiving module is used for acquiring temperature information acquired by the temperature sensor, illumination time information of the LED lamp holder, first illumination information acquired by the first illumination sensor and second illumination information acquired by the second illumination sensor, and sending the temperature information, the illumination time information, the first illumination information and the second illumination information to the data processing module;

the data processing module is used for processing the temperature information and the illumination duration information into heat dissipation information, the heat dissipation information comprises first heat dissipation information and second heat dissipation information, the first illuminance information and the second illuminance information are processed into illumination regulation and control information, the illumination regulation and control information comprises first illumination regulation and control information, second illumination regulation and control information and third illumination regulation and control information, the master control module is used for converting the first heat dissipation information and the second heat dissipation information into a first heat dissipation instruction and a second heat dissipation instruction, converting the first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information into a first illumination regulation and control instruction, a second illumination regulation and control instruction and a third illumination regulation and control instruction, the first heat dissipation instruction and the second heat dissipation instruction are sent by the information sending module, and the first illumination regulation and control instruction, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent by the information sending module.

Further, the method comprises the following steps: the number of the LED lamp caps is five, and the number of each group of the LED lamp caps is two.

Further, the method comprises the following steps: the exhaust vent has all been seted up to the internal surface of first lamp shade and second lamp shade, the inside packing of exhaust vent has the filter screen.

Further, the method comprises the following steps: the fan box comprises a box body and a heat dissipation fan, the heat dissipation fan is arranged inside the box body, an air inlet hole is formed in the bottom end of the box body, and a filter plate is embedded in the top end of the box body.

Further, the method comprises the following steps: the protective bottom cover is transparent disc-shaped, a disassembly handle is fixedly installed on the outer surface of the lower end of the protective bottom cover, and the disassembly handle is T-shaped transparent.

Further, the method comprises the following steps: the outer surface welding of fixing base has fixed cover, the internal surface of fixed cover has seted up the connecting hole, the inside of connecting hole runs through there is the fixed pin.

A working method for rapidly configuring intelligent lighting equipment specifically comprises the following steps;

the method comprises the following steps: the position of the lighting equipment is determined, and the fixing pin is screwed into the connecting hole in the fixing sleeve, so that the fixing seat is stably fixed;

step two: after the illumination is stably fixed, the illumination equipment is powered on to start to be used, and the first illuminance sensor and the second illuminance sensor start to acquire first illuminance information and second illuminance information;

step three: the data processing receiving module receives the first illuminance information and the second illuminance information and sends the first illuminance information and the second illuminance information to the data processing module for processing, the first illuminance information and the second illuminance information are processed into first illumination regulation and control information, second illumination regulation and control information and third illumination regulation and control information, and the specific processing process is as follows:

s1: marking the first illuminance information acquired in real time as T, marking the second illuminance information acquired in real time as P, and marking preset illuminance thresholds as K1, K2 and K3;

s2: calculating a difference value between the first illuminance information T and K1 to obtain a first difference value TK1, calculating a difference value between the first illuminance information T and K2 to obtain a second difference value TK2, and calculating a difference value between the first illuminance information T and K3 to obtain a third difference value TK 3;

s3: calculating a difference value between the second illuminance information P and K1 to obtain a fourth difference value PK1, calculating a difference value between the second illuminance information P and K2 to obtain a fifth difference value PK2, and calculating a difference value between the second illuminance information P and K3 to obtain a sixth difference value PK 3;

s4: calculating the sum of the first difference TK1 and the third difference PK1 to obtain TP1_Andmixing TP1_Anddivide by two to obtain a first reference value TP1_{Are all made of}When the first reference value TP1_{Are all made of}When the value is larger than K1 and smaller than K2, first lighting regulation and control information is generated;

s5, calculating the sum of the second difference TK2 and the fourth difference PK2 to obtain TP2_Andmixing TP2_Anddivide by two to obtain a second reference value TP2_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K2 but smaller than K3, second lighting regulation information is generated;

s6, calculating the sum of the third difference TK3 and the sixth difference PK3 to obtain TP3_Andmixing TP3_Anddivide by two to obtain a second reference value TP3_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K3, third lighting regulation and control information is generated;

step four: the data receiving module receives the temperature information and the illumination duration information at the same time and sends the temperature information and the illumination duration information to the data processing module for processing, the data processing module processes the temperature information and the illumination duration information into a first heat dissipation instruction and a second heat dissipation instruction, and the specific processing process is as follows:

s1: marking the temperature information acquired in real time as Wt, and marking the illumination duration information acquired in real time as Qt;

s2: marking a preset time threshold as Ct, and marking a temperature threshold as Dt;

s3: calculating the difference between the temperature information Wt and the temperature threshold Dt to obtain a temperature difference Wd_{Difference (D)}Then, the difference Cq between the illumination time length information Qt and the preset time length threshold Ct is calculated_{Difference (D)}；

S4: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}When the value is larger than the preset value, first heat dissipation information is generated;

s5: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}And when the temperature is within the preset range, generating a second heat dissipation instruction.

Further, the method comprises the following steps: the first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information are converted into a first illumination regulation and control instruction, a second illumination regulation and control instruction and a third illumination regulation and control instruction by the master control module, the first illumination regulation and control instruction, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent to the LED lamp caps by the information sending module, when the first illumination regulation and control instruction is received by the LED lamp caps, the two groups of LED lamp caps emit light simultaneously, when the second illumination regulation and control instruction is received by the LED lamp caps, the three groups of LED lamp caps emit light simultaneously, and when the third illumination regulation and control instruction is received by the LED lamp caps, the five groups of LED lamp caps and the auxiliary lamp emit light.

Further, the method comprises the following steps: the first heat dissipation information and the second heat dissipation information are converted into a first heat dissipation instruction and a second heat dissipation instruction by the master control module, the first heat dissipation instruction and the second heat dissipation instruction are sent to the heat dissipation fan through the information sending module, the preset A duration is operated when the heat dissipation fan receives the first heat dissipation instruction, the preset B duration is operated when the heat dissipation fan receives the second heat dissipation instruction, and A is greater than B.

Compared with the prior art, the invention has the beneficial effects that:

1. the method comprises the steps of acquiring first illumination information by a first illumination sensor and acquiring second illumination information by a second illumination sensor, processing the first illumination information and the second illumination information by a data processing module after receiving the first illumination information and the second illumination information, marking the first illumination information acquired in real time as T, marking the second illumination information acquired in real time as P, marking preset illumination threshold values as K1, K2 and K3, calculating a difference value between the first illumination information T and K1 to obtain a first TK difference value 1, calculating a difference value between the first illumination information T and K2 to obtain a second difference value TK2, calculating a difference value between the first illumination information T and K3 to obtain a third TK3, calculating a difference value between the second illumination information P and K1 to obtain a fourth difference value PK1, calculating a difference value between the second illumination information P and K2 to obtain a fifth difference value PK2, and calculating a difference value between the second illumination information P and K3 to obtain a sixth difference value PK3, calculating the sum of the first difference TK1 and the third difference PK1 to obtain a TP1 sum, dividing TP1 sum by two to obtain a first reference value TP1, when the first reference value TP1 is greater than K1 but less than K2, generating first illumination regulation and control information, calculating the sum of the second difference TK2 and the fourth difference PK2 to obtain a TP2 sum, dividing TP2 sum by two to obtain a second reference value TP2, when the second reference value TP is greater than K2 but less than K3, generating second illumination regulation and control information, calculating the sum of the third difference TK3 and the sixth difference PK 6329 to obtain TP3 sum, dividing TP 6342 sum by two to obtain a second reference value TP3, when the second reference value TP is greater than K3, generating third illumination regulation and control information, the first illumination regulation and control information, the second illumination regulation and the third illumination regulation and control information are converted into a first illumination regulation and control instruction, and the second illumination instruction is sent to the LED module through the LED module, when the LED lamp caps receive a first illumination regulation and control instruction, two groups of LED lamp caps emit light simultaneously, when the LED lamp caps receive a second illumination regulation and control instruction, three groups of LED lamp caps emit light simultaneously, and when the LED lamp caps receive a third illumination regulation and control instruction, five groups of LED lamp caps and auxiliary lamps emit light simultaneously, so that the intelligent illumination adjustment is realized, the brightness of the illumination equipment is adjusted according to the environment brightness condition acquired by the fact, the illumination is more intelligent, more energy and electricity are saved, and the power waste caused by the high-power operation of the illumination equipment in a bright environment is avoided;

2. meanwhile, the data processing module can process the temperature information acquired by the temperature sensor and the running time length information of the lighting equipment, calculate the difference value between the temperature information Wt and the temperature threshold Dt to obtain a temperature difference value Wd difference, and then calculate the difference value Cq difference between the lighting time length information Qt and a preset time length threshold Ct: when the Cq difference is larger than a preset value and the temperature difference Wd difference is larger than the preset value, first heat dissipation information is generated, when the Cq difference is larger than the preset value and the temperature difference Wd difference is within a preset range, a second heat dissipation instruction is generated, the first heat dissipation information and the second heat dissipation information are converted into a first heat dissipation instruction and a second heat dissipation instruction by a master control module and are sent to a heat dissipation fan through an information sending module, the preset A time length is operated when the heat dissipation fan receives the first heat dissipation instruction, the preset B time length is operated when the heat dissipation fan receives the second heat dissipation instruction, the arrangement can effectively dissipate heat of the lighting equipment, the condition that the lighting equipment is damaged due to overhigh temperature is avoided, meanwhile, the operation time length and the temperature of the lighting equipment are monitored in real time, and the effect of reducing energy consumption is achieved by performing heat dissipation for different time lengths according to the operation time length and the temperature of the lighting.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic overall perspective view of the present invention;

FIG. 2 is an interior view of a first lamp housing of the present invention;

FIG. 3 is an inside view of the fan box of the present invention;

FIG. 4 is a block diagram of the overall control structure of the present invention.

In the figure: 1. a main frame body; 2. a fixed mount; 3. a first mounting bracket; 4. a second mounting bracket; 5. a first lamp shade; 501. an air outlet; 502. filtering with a screen; 6. a second lamp shade; 7. a first mounting seat; 8. a second mounting seat; 9. a master control pipe; 10. an auxiliary light; 11. a first illuminance sensor; 12. a second illuminance sensor; 13. a fixed seat; 14. fixing a sleeve; 141. connecting holes; 142. a fixing pin; 15. a fan box; 151. a box body; 152. a heat radiation fan; 153. an air inlet hole; 154. filtering the plate; 16. a lamp panel; 17. an LED lamp cap; 18. a protective undercover; 181. disassembling the handle; 19. a temperature sensor; .

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a fast configuration intelligent lighting device includes a lamp holder, a first lamp shade 5 and a second lamp shade 6, where the lamp holder includes a main frame body 1, a fixing frame 2, a first mounting frame 3 and a second mounting frame 4, the fixing frame 2 is welded at the middle position of the outer surface of the upper end of the main frame body 1, the first mounting frame 3 is welded at the position near one side of the outer surface of the lower end of the main frame body 1, and the second mounting frame 4 is welded at the position near the other side of the outer surface of the lower end of the main frame body 1;

a first lampshade 5 is arranged below the first mounting frame 3, a first mounting seat 7 is welded on the outer surface of the upper end of the first lampshade 5, and the lower end of the first mounting frame 3 is in threaded connection with the inside of the first mounting seat 7;

a second lampshade 6 is arranged below the second mounting frame 4, a second mounting seat 8 is welded on the outer surface of the upper end of the second lampshade 6, and the lower end of the second mounting frame 4 is in threaded connection with the inside of the second mounting seat 8;

a main control pipe 9 is welded in the middle of the outer surface of the lower end of the main frame body 1, and an auxiliary lamp 10 is connected to the lower end of the main control pipe 9 through threads;

a first illuminance sensor 11 is fixedly arranged at the position, close to one side, of the outer surface of the upper end of the main frame body 1, and a second illuminance sensor 12 is fixedly arranged at the position, close to the other side, of the outer surface of the upper end of the main frame body 1;

the top end of the fixed frame 2 is welded with a fixed seat 13, the outer surface of the fixed seat 13 is welded with a fixed sleeve 14, the outer surface of the fixed seat 13 is welded with the fixed sleeve 14, the inner surface of the fixed sleeve 14 is provided with a connecting hole 141, a fixing pin 142 penetrates through the connecting hole 141, and the fixing pin 142 plays a fixing role;

the fan box 15 is fixedly mounted at the top ends of the interiors of the first lampshade 5 and the second lampshade 6, the lamp panel 16 is fixedly mounted at the middle position of the interiors of the first lampshade 5 and the second lampshade 6, the LED lamp cap 17 is fixedly mounted on the outer surface of the lower end of the lamp panel 16, the bottom ends of the interiors of the first lampshade 5 and the second lampshade 6 are respectively in threaded connection with the protective bottom cover 18, the protective bottom cover 18 plays a protective role and is used for protecting the LED lamp cap 17, and the temperature sensor 19 is fixedly mounted on the outer surface of the upper end of the lamp panel 16;

a data receiving module, a data processing module, a master control module and an information sending module are arranged in the master control pipe 9;

the data receiving module is used for acquiring temperature information acquired by the temperature sensor 19, illumination time information of the LED lamp head 17, first illumination information acquired by the first illumination sensor 11 and second illumination information acquired by the second illumination sensor 12, and sending the temperature information, the illumination time information, the first illumination information and the second illumination information to the data processing module, and the master control module starts to record the illumination time of the LED lamp head 17 when the illumination equipment starts to illuminate;

the data processing module is used for processing the temperature information and the illumination duration information into heat dissipation information, the heat dissipation information comprises first heat dissipation information and second heat dissipation information, the first illumination intensity information and the second illumination intensity information are processed into illumination regulation and control information, the illumination regulation and control information comprises first illumination regulation and control information, the total control module is used for converting the first heat dissipation information and the second heat dissipation information into a first heat dissipation instruction and a second heat dissipation instruction, and converting the first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information into a first illumination regulation and control instruction, the first illumination regulation and control instruction, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent by the information sending module.

The number of the LED lamp bases 17 is five, and the number of each group of the LED lamp bases 17 is two.

Exhaust vent 501 has all been seted up to first lamp shade 5 and second lamp shade 6's internal surface, and the inside packing of exhaust vent 501 has filter screen 502, and exhaust vent 501 is used for the air-out, and filter screen 502 has played the effect of straining the ash.

The fan box 15 comprises a box body 151 and a heat dissipation fan 152, the heat dissipation fan 152 is arranged inside the box body 151, an air inlet 153 is formed in the bottom end of the box body 151, the air inlet 153 is used for air inlet, a filter plate 154 is embedded in the top end of the box body 151, and the filter plate 154 has a dust filtering effect.

The protective bottom cover 18 is in a transparent disc shape, a dismounting handle 181 is fixedly mounted on the outer surface of the lower end of the protective bottom cover 18, the dismounting handle 181 is arranged to facilitate a user to dismount the protective bottom cover 8, and the dismounting handle 181 is in a T-shaped transparent shape.

A working method for rapidly configuring intelligent lighting equipment specifically comprises the following steps;

the method comprises the following steps: the lighting device is positioned, and the fixing pin 142 is screwed into the connecting hole 141 on the fixing sleeve 14, so that the fixing seat 13 is stably fixed;

step two: after the illumination is stably fixed, the illumination device is powered on to start to use, and the first illuminance sensor 11 and the second illuminance sensor 12 start to acquire first illuminance information and second illuminance information;

step three: the data processing receiving module receives the first illuminance information and the second illuminance information and sends the first illuminance information and the second illuminance information to the data processing module for processing, the first illuminance information and the second illuminance information are processed into first illumination regulation and control information, second illumination regulation and control information and third illumination regulation and control information, and the specific processing process is as follows:

s1: marking the first illuminance information acquired in real time as T, marking the second illuminance information acquired in real time as P, and marking preset illuminance thresholds as K1, K2 and K3;

s2: calculating a difference value between the first illuminance information T and K1 to obtain a first difference value TK1, calculating a difference value between the first illuminance information T and K2 to obtain a second difference value TK2, and calculating a difference value between the first illuminance information T and K3 to obtain a third difference value TK 3;

s3: calculating a difference value between the second illuminance information P and K1 to obtain a fourth difference value PK1, calculating a difference value between the second illuminance information P and K2 to obtain a fifth difference value PK2, and calculating a difference value between the second illuminance information P and K3 to obtain a sixth difference value PK 3;

s4: calculating the sum of the first difference TK1 and the third difference PK1 to obtain TP1_Andmixing TP1_Anddivide by two to obtain a first reference value TP1_{Are all made of}When the first reference value TP1_{Are all made of}When the value is larger than K1 and smaller than K2, first lighting regulation and control information is generated;

s5, calculating the sum of the second difference TK2 and the fourth difference PK2 to obtain TP2_Andmixing TP2_Anddivide by two to obtain a second reference value TP2_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K2 but smaller than K3, second lighting regulation information is generated;

s6, calculating the sum of the third difference TK3 and the sixth difference PK3 to obtain TP3_Andmixing TP3_Anddivide by two to obtain a second reference value TP3_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K3, third lighting regulation and control information is generated;

step four: the data receiving module receives the temperature information and the illumination duration information at the same time and sends the temperature information and the illumination duration information to the data processing module for processing, the data processing module processes the temperature information and the illumination duration information into a first heat dissipation instruction and a second heat dissipation instruction, and the specific processing process is as follows:

s1: marking the temperature information acquired in real time as Wt, and marking the illumination duration information acquired in real time as Qt;

s2: marking a preset time threshold as Ct, and marking a temperature threshold as Dt;

s3: calculating the difference between the temperature information Wt and the temperature threshold Dt to obtain a temperature difference Wd_{Difference (D)}Then, the difference Cq between the illumination time length information Qt and the preset time length threshold Ct is calculated_{Difference (D)}；

S4: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}When the value is larger than the preset value, first heat dissipation information is generated;

s5: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}And when the temperature is within the preset range, generating a second heat dissipation instruction.

The first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information are converted into a first illumination regulation and control instruction, a second illumination regulation and control instruction and a third illumination regulation and control instruction by the master control module, the first illumination regulation and control instruction, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent to the LED lamp heads 17 through the information sending module, when the LED lamp heads 17 receive the first illumination regulation and control instruction, the two groups of LED lamp heads 17 emit light simultaneously, when the LED lamp heads 17 receive the second illumination regulation and control instruction, the three groups of LED lamp heads 17 emit light simultaneously, and when the LED lamp heads 17 receive the third illumination regulation and control instruction, the five groups of LED lamp heads 17 and the auxiliary lamp 10 emit light simultaneously.

The first heat dissipation information and the second heat dissipation information are converted into a first heat dissipation instruction and a second heat dissipation instruction by the master control module, the first heat dissipation instruction and the second heat dissipation instruction are sent to the heat dissipation fan 152 through the information sending module, the preset A duration is operated when the heat dissipation fan 152 receives the first heat dissipation instruction, the preset B duration is operated when the heat dissipation fan 152 receives the second heat dissipation instruction, and A is greater than B.

When the invention is used, the position of the lighting equipment is determined firstly, then the fixing pin 142 is screwed into the connecting hole 141 on the fixing sleeve 14, thereby the fixing seat 13 is fixed stably, after the lighting is fixed stably, the lighting equipment is electrified and starts to be used, the first illumination sensor 11 and the second illumination sensor 12 start to collect the first illumination information and the second illumination information, the data processing module receives the first illumination information and the second illumination information to process the first illumination information and the second illumination information, the first illumination information collected in real time is marked as T, the second illumination information collected in real time is marked as P, the preset illumination threshold values are marked as K1, K2 and K3, the difference value of the first illumination information T and K1 is calculated to obtain a first difference value TK1, the difference value of the first illumination information T and K2 is calculated to obtain a second difference value TK2, the difference value of the first illumination information T and K3 is calculated to obtain a third difference value TK3, calculating a difference between the second illuminance information P and K1 to obtain a fourth difference PK1, calculating a difference between the second illuminance information P and K2 to obtain a fifth difference PK2, calculating a difference between the second illuminance information P and K3 to obtain a sixth difference PK3, calculating a sum of the first difference TK1 and the third difference PK1 to obtain TP1 sum, dividing TP1 sum by two to obtain a first reference TP1, generating first illumination control information when the first reference TP1 is greater than K1 but less than K2, calculating a sum of the second difference TK 63 2 and the fourth difference TK2 to obtain TP2 sum, dividing TP2 sum by two to obtain a second reference TP2, generating second illumination control information when the second reference TP and the second reference TP2 are greater than K2 but less than K2, calculating the second illumination control information, calculating a difference TP2 and a sixth difference TP2 and dividing TP2 by K2 to obtain a second reference TP2, generating second illumination control information when the third reference TP2 and K2 are greater than K2, the first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information are converted into a first illumination regulation and control instruction by the master control module, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent to the LED lamp holders 17 through the information sending module, when the LED lamp holders 17 receive the first illumination regulation and control instruction, the two groups of LED lamp holders 17 emit light simultaneously, when the LED lamp holders 17 receive the second illumination regulation and control instruction, the three groups of LED lamp holders 17 emit light simultaneously, when the LED lamp holders 17 receive the third illumination regulation and control instruction, the five groups of LED lamp holders 17 and the auxiliary lamp 10 emit light simultaneously, the intelligent illumination regulation is realized by the arrangement, the illumination is more intelligent by regulating the brightness of the illumination equipment according to the environment brightness condition collected by the fact, more energy and power are saved, the power waste caused by the fact that the illumination equipment still operates in a high power environment is avoided, and meanwhile, the data processing module can further carry out the temperature information collected by the temperature sensor And (3) processing, namely calculating a difference value between the temperature information Wt and the temperature threshold Dt to obtain a temperature difference value Wd difference, and then calculating a difference value Cq difference between the illumination time length information Qt and a preset time length threshold Ct: when the Cq difference is larger than a preset value and the temperature difference Wd difference is larger than the preset value, first heat dissipation information is generated, when the Cq difference is larger than a preset value and the temperature difference Wd difference is within a preset range, a second heat dissipation instruction is generated, the first heat dissipation information and the second heat dissipation information are converted into a first heat dissipation instruction and a second heat dissipation instruction by the master control module and are sent to the heat dissipation fan 152 through the information sending module, the heat dissipation fan 152 runs for a preset A time length when receiving the first heat dissipation instruction, the heat dissipation fan 152 runs for a preset B time length when receiving the second heat dissipation instruction, the arrangement can effectively dissipate heat of the lighting equipment, avoids the condition of equipment damage caused by overhigh temperature of the lighting equipment, meanwhile, the operation time and the temperature of the lighting equipment are monitored in real time, and the energy consumption is reduced by scattering the lighting equipment for different time lengths according to the operation time and the temperature of the lighting equipment.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. The quick-configuration intelligent lighting equipment comprises a lamp holder, a first lamp shade (5) and a second lamp shade (6), and is characterized in that the lamp holder comprises a main frame body (1), a fixing frame (2), a first mounting frame (3) and a second mounting frame (4), the fixing frame (2) is welded in the middle of the outer surface of the upper end of the main frame body (1), the first mounting frame (3) is welded in the position, close to one side, of the outer surface of the lower end of the main frame body (1), and the second mounting frame (4) is welded in the position, close to the other side, of the outer surface of the lower end of the main frame body (1);

a first lampshade (5) is arranged below the first mounting frame (3), a first mounting seat (7) is welded on the outer surface of the upper end of the first lampshade (5), and the lower end of the first mounting frame (3) is in threaded connection with the inside of the first mounting seat (7);

a second lampshade (6) is arranged below the second mounting frame (4), a second mounting seat (8) is welded on the outer surface of the upper end of the second lampshade (6), and the lower end of the second mounting frame (4) is in threaded connection with the inside of the second mounting seat (8);

a master control tube (9) is welded in the middle of the outer surface of the lower end of the main frame body (1), and an auxiliary lamp (10) is connected to the lower end of the master control tube (9) in a threaded manner;

a first illuminance sensor (11) is fixedly mounted at a position, close to one side, of the outer surface of the upper end of the main frame body (1), and a second illuminance sensor (12) is fixedly mounted at a position, close to the other side, of the outer surface of the upper end of the main frame body (1);

a fixed seat (13) is welded at the top end of the fixed frame (2), and a fixed sleeve (14) is welded on the outer surface of the fixed seat (13);

the fan box (15) is fixedly mounted at the top ends of the first lampshade (5) and the second lampshade (6), the lamp panels (16) are fixedly mounted at the middle positions of the first lampshade (5) and the second lampshade (6), the LED lamp holder (17) is fixedly mounted on the outer surface of the lower end of each lamp panel (16), the protective bottom covers (18) are in threaded connection with the bottom ends of the first lampshade (5) and the second lampshade (6), and the temperature sensor (19) is fixedly mounted on the outer surface of the upper end of each lamp panel (16);

a data receiving module, a data processing module, a master control module and an information sending module are arranged in the master control pipe (9);

the data receiving module is used for acquiring temperature information acquired by a temperature sensor (19), illumination time length information of an LED lamp holder (17), first illumination information acquired by a first illumination sensor (11) and second illumination information acquired by a second illumination sensor (12), and sending the temperature information, the illumination time length information, the first illumination information and the second illumination information to the data processing module;

the data processing module is used for processing the temperature information and the illumination duration information into heat dissipation information, the heat dissipation information comprises first heat dissipation information and second heat dissipation information, the first illuminance information and the second illuminance information are processed into illumination regulation and control information, the illumination regulation and control information comprises first illumination regulation and control information, second illumination regulation and control information and third illumination regulation and control information, the master control module is used for converting the first heat dissipation information and the second heat dissipation information into a first heat dissipation instruction and a second heat dissipation instruction, converting the first illumination regulation and control information, the second illumination regulation and control information and the third illumination regulation and control information into a first illumination regulation and control instruction, a second illumination regulation and control instruction and a third illumination regulation and control instruction, the first heat dissipation instruction and the second heat dissipation instruction are sent by the information sending module, and the first illumination regulation and control instruction, the second illumination regulation and control instruction and the third illumination regulation and control instruction are sent by the information sending module.

2. A fast configuring intelligent lighting device according to claim 1, characterized in that the number of LED lamp heads (17) is five groups and the number of LED lamp heads (17) per group is two.

3. The intelligent lighting device capable of being configured rapidly as claimed in claim 1, wherein air outlet holes (501) are formed in the inner surfaces of the first lampshade (5) and the second lampshade (6), and a filter screen (502) is filled in the air outlet holes (501).

4. The intelligent lighting device capable of being configured rapidly as claimed in claim 1, wherein the fan box (15) comprises a box body (151) and a heat dissipation fan (152), the heat dissipation fan (152) is arranged inside the box body (151), an air inlet hole (153) is formed in the bottom end of the box body (151), and a filter plate (154) is embedded in the top end of the box body (151).

5. A quick-configurable intelligent lighting device as claimed in claim 1, wherein the protective bottom cover (18) is in the shape of a transparent disc, a detachable handle (181) is fixedly mounted on the outer surface of the lower end of the protective bottom cover (18), and the detachable handle (181) is in the shape of a T-shaped transparent body.

6. The intelligent lighting device capable of being configured rapidly as claimed in claim 1, wherein a fixing sleeve (14) is welded on the outer surface of the fixing seat (13), a connecting hole (141) is formed on the inner surface of the fixing sleeve (14), and a fixing pin (142) penetrates through the connecting hole (141).

7. A working method for rapidly configuring intelligent lighting equipment is characterized by comprising the following steps;

the method comprises the following steps: the position of the lighting equipment is determined, and the fixing pin (142) is screwed into the connecting hole (141) on the fixing sleeve (14), so that the fixing seat (13) is stably fixed;

step two: after the illumination is stably fixed, the illumination equipment is powered on to start to use, and the first illumination sensor (11) and the second illumination sensor (12) start to acquire first illumination information and second illumination information;

step three: the data processing receiving module receives the first illuminance information and the second illuminance information and sends the first illuminance information and the second illuminance information to the data processing module for processing, the first illuminance information and the second illuminance information are processed into first illumination regulation and control information, second illumination regulation and control information and third illumination regulation and control information, and the specific processing process is as follows:

s1: marking the first illuminance information acquired in real time as T, marking the second illuminance information acquired in real time as P, and marking preset illuminance thresholds as K1, K2 and K3;

s2: calculating a difference value between the first illuminance information T and K1 to obtain a first difference value TK1, calculating a difference value between the first illuminance information T and K2 to obtain a second difference value TK2, and calculating a difference value between the first illuminance information T and K3 to obtain a third difference value TK 3;

s3: calculating a difference value between the second illuminance information P and K1 to obtain a fourth difference value PK1, calculating a difference value between the second illuminance information P and K2 to obtain a fifth difference value PK2, and calculating a difference value between the second illuminance information P and K3 to obtain a sixth difference value PK 3;

s4: calculating the sum of the first difference TK1 and the third difference PK1 to obtain TP1_Andmixing TP1_Anddivide by two to obtain a first reference value TP1_{Are all made of}When the first reference value TP1_{Are all made of}When the value is larger than K1 and smaller than K2, first lighting regulation and control information is generated;

s5, calculating the sum of the second difference TK2 and the fourth difference PK2 to obtain TP2_Andmixing TP2_Anddivide by two to obtain a second reference value TP2_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K2 but smaller than K3, second lighting regulation information is generated;

s6, calculating the sum of the third difference TK3 and the sixth difference PK3 to obtain TP3_Andmixing TP3_Anddivide by two to obtain a second reference value TP3_{Are all made of}When the second reference value TP_{Are all made of}When the value is larger than K3, third lighting regulation and control information is generated;

step four: the data receiving module receives the temperature information and the illumination duration information at the same time and sends the temperature information and the illumination duration information to the data processing module for processing, the data processing module processes the temperature information and the illumination duration information into a first heat dissipation instruction and a second heat dissipation instruction, and the specific processing process is as follows:

s1: marking the temperature information acquired in real time as Wt, and marking the illumination duration information acquired in real time as Qt;

s2: marking a preset time threshold as Ct, and marking a temperature threshold as Dt;

s3: calculating the difference between the temperature information Wt and the temperature threshold Dt to obtain a temperature difference Wd_{Difference (D)}Then, the difference between the illumination time length information Qt and the preset time length threshold Ct is calculatedCq_{Difference (D)}；

S4: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}When the value is larger than the preset value, first heat dissipation information is generated;

s5: when Cq is_{Difference (D)}Greater than a predetermined value and a temperature difference value Wd_{Difference (D)}And when the temperature is within the preset range, generating a second heat dissipation instruction.

8. The working method for rapidly configuring the intelligent lighting equipment according to claim 7, wherein the first lighting regulation and control information, the second lighting regulation and control information and the third lighting regulation and control information are converted into a first lighting regulation and control instruction, a second lighting regulation and control instruction and a third lighting regulation and control instruction by the master control module, the first lighting regulation and control instruction, the second lighting regulation and control instruction and the third lighting regulation and control instruction are sent to the LED lamp holders (17) through the information sending module, when the LED lamp holders (17) receive the first lighting regulation and control instruction, the two groups of LED lamp holders (17) emit light simultaneously, when the LED lamp holders (17) receive the second lighting regulation and control instruction, the three groups of LED lamp holders (17) emit light simultaneously, and when the LED lamp holders (17) receive the third lighting regulation and control instruction, the five groups of LED lamp holders (17) and the auxiliary lamp (10) emit light simultaneously.

9. The working method for rapidly configuring the intelligent lighting equipment according to claim 7, wherein the first heat dissipation information and the second heat dissipation information are converted into a first heat dissipation instruction and a second heat dissipation instruction by the master control module, the first heat dissipation instruction and the second heat dissipation instruction are sent to the heat dissipation fan (152) through the information sending module, the heat dissipation fan (152) runs for a preset A duration when receiving the first heat dissipation instruction, the heat dissipation fan (152) runs for a preset B duration when receiving the second heat dissipation instruction, and A is greater than B.

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