CN112963771A - Ground-inserted intelligent multifunctional lawn lamp - Google Patents

Abstract

The invention discloses a ground-inserted intelligent multifunctional lawn lamp which comprises a first embedded pipe and a second embedded pipe, wherein a lighting assembly is arranged inside the first embedded pipe, a braking assembly is arranged inside the second embedded pipe, and the lighting assembly is connected with the braking assembly through a mandril; the lighting assembly comprises a bottom support and a support column fixedly arranged on the bottom support, a lamp holder is arranged at the upper end of the support column, and a plurality of lighting lamps are arranged outside the lamp holder; the brake assembly comprises two motors which are symmetrically arranged, a driving wheel is arranged at the end part of a brake shaft of each motor, transmission teeth are arranged on the outer part of each driving wheel and the outer part of each ejector rod, and the driving wheels are meshed with the ejector rods; the top both sides of first embedding pipe all are provided with the installation pole, the outside of installation pole is provided with illuminance sensor and temperature sensor. The invention has more functions and longer service life.

Description

Ground-inserted intelligent multifunctional lawn lamp

Technical Field

The invention relates to the field of lawn lamps, in particular to a ground-inserted intelligent multifunctional lawn lamp.

Background

The lawn lamp is widely applied to the road single side or two sides of public places such as city slow lanes, narrow lanes, residential districts, tourist attractions, parks, squares, private gardens, courtyard corridors, lawns and the like for road illumination, improves the safety of people going out at night, and is used for increasing the time of outdoor activities of people and improving the safety of lives and properties. It can also change the mood of people, improve the mood of people, change the concept of people and create a color palette at night. The lawn lamp can decorate urban landscapes in the daytime, decorate the lawn lamp at night, provide necessary illumination and living convenience, increase the sense of safety of residents, highlight urban bright spots and perform a bright style, so that the lawn lamp is continuously developed into a mature industrial chain.

Current lawn lamp is mostly driven light mode, and the user demand of user can not be satisfied in the function singleness to install on the earth's surface, receive the damage easily, brought certain influence for the use of lawn lamp, consequently, provide one kind and insert intelligent multi-functional lawn lamp.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: how to solve current lawn lamp, mostly be driven light mode, the user's user demand can not be satisfied to the function singleness to install on the earth's surface, receive the damage easily, brought the problem of certain influence for the use of lawn lamp, provided one kind and inserted intelligent multi-functional lawn lamp.

The invention solves the technical problems through the following technical scheme that the LED lamp comprises a first embedded pipe and a second embedded pipe, wherein a lighting assembly is arranged inside the first embedded pipe, a braking assembly is arranged inside the second embedded pipe, and the lighting assembly is connected with the braking assembly through a mandril;

the lighting assembly comprises a bottom support and a support column fixedly arranged on the bottom support, a lamp holder is arranged at the upper end of the support column, and a plurality of lighting lamps are arranged outside the lamp holder;

the brake assembly comprises two motors which are symmetrically arranged, a driving wheel is arranged at the end part of a brake shaft of each motor, transmission teeth are arranged on the outer part of each driving wheel and the outer part of each ejector rod, and the driving wheels are meshed with the ejector rods;

mounting rods are arranged on two sides of the top end of the first embedding tube, and a light intensity sensor and a temperature sensor are arranged outside the mounting rods;

a water level touch sensor is arranged at the bottom end of the interior of the second embedded pipe, a master control box is arranged at a position close to one side of the interior of the second embedded pipe, and the bottom end of the second embedded pipe is in threaded connection with a drainage bottom;

the master control box comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time illuminance information acquired by the illuminance sensor, real-time temperature information acquired by the temperature sensor, real-time water level height information acquired by the water level sensor and time information acquired from the Internet;

real-time illuminance information acquired by the illuminance sensor, real-time temperature information acquired by the temperature sensor, real-time water level height information acquired by the water level sensor and real-time information acquired from the internet are all sent to the data receiving module and sent to the data processing module;

the data processing module processes the received real-time illuminance information, real-time temperature information, real-time water level height information and real-time information into light opening information, light regulation and control information, light closing information and maintenance and repair information;

information, light regulation and control information, light are closed information and are overhauld the maintenance information and all are sent total control module, total control module is opened information, light regulation and control information, light and is closed information and overhauls the maintenance information and all is sent total control module and turns into light and open instruction, light regulation and control instruction, light and close instruction and overhaul the maintenance instruction with total control module, light is opened instruction, light regulation and control instruction and light and is closed the instruction and is sent motor and light by information transmission module, overhaul the maintenance instruction and is sent maintainer's intelligent receiving terminal by information transmission module.

Preferably, the inner wall of the first embedded pipe is provided with a plurality of drainage holes which are obliquely downwards arranged.

Preferably, the drainage bottom is conical, and a plurality of water permeable holes are formed in the drainage bottom.

Preferably, the specific processing procedure of the light turn-on information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by an illuminance sensor, marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula (G1 + G2 … … + Gx)/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: acquiring real-time information from the Internet, and marking the real-time information with a time point 1T;

step four: mean value of brightness G_{Are all made of}If the time is greater than the preset time and the time point T1 is not within the preset time period, the light starting information is not generated;

step five: mean value of brightness G_{Are all made of}Generating light starting information when the time point T1 is within a preset time period within a preset range;

step six: when brightness mean value G_{Are all made of}When the time point T is less than the preset time, the lamplight starting information is generated no matter whether the time point T is within the preset time period or not;

the lamp light opening information is converted into a lamp light opening instruction and then is synchronously sent to the motor and the illuminating lamp, the motor receives the lamp light opening instruction and runs to drive the ejector rod to jack up through the driving wheel, the bottom support is lifted up, the lamp holder is ejected out of the first embedding tube, and then the illuminating lamp on the lamp holder starts to illuminate in a power-on running mode.

Preferably, the specific processing procedure of the light turning-off information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by an illuminance sensor, marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula (G1 + G2 … … + Gx)/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: the real-time information at this time is obtained from the internet and is marked as T2, and the brightness mean value G at this time_{Are all made of}When the current value is greater than the preset value, light closing information is generated;

the lamp light closing information is converted into a lamp light closing instruction and then is synchronously sent to the motor and the illuminating lamp, the motor receives the lamp light management instruction to operate and drives the ejector rod to retract downwards through the driving wheel, the bottom support retracts to the original position, the lamp holder retracts to the first embedded pipe, and then the illuminating lamp on the lamp holder judges that the illumination is closed.

Preferably, the light regulation and control information includes first regulation and control information, second regulation and control information, and the specific processing process of the light regulation and control information is as follows:

the method comprises the following steps: extracting real-time temperature information acquired by the two temperature sensors, and marking the real-time temperature information as W1 and W2;

step two: by the formula (W1 + W2)/2 = W_{Are all made of}Calculating the temperature mean value W_{Are all made of}；

Step three: mean value of temperature W_{Are all made of}When the value is less than the preset value A1, first regulation and control information is generated, and when W is less than the preset value A1_{Are all made of}Generating second regulation and control information when W is within the preset value range_{Are all made of}Generating third regulation and control information when the third regulation and control information is greater than a preset value A2;

when the first control information is transmitted to the illumination lamp, the illumination emits light of a preset color C1, when the second control information is transmitted to the illumination lamp, the illumination emits light of a preset color C2, when the third control information is transmitted to the illumination lamp, the illumination emits light of a preset color C3, and the color C1, the color C2 and the color C1 are different.

Preferably, the specific processing procedure of the overhaul and maintenance information is as follows:

s1: extracting real-time accumulated water height information collected by a water level sensor, and marking the information as P;

s2: when the acquired real-time accumulated water height information P is larger than a preset value, acquiring the real-time accumulated water height information once again after a preset time length B1, and marking the real-time accumulated water height information as Pp;

s3: when the Pp personnel are larger than the preset value, after a preset time length B2 is separated, the real-time technical height information is collected once again and marked as Pz, and when the Pz is still larger than the preset value, the maintenance information is generated.

Compared with the prior art, the invention has the following advantages: the floor-inserted intelligent multifunctional lawn lamp is provided with an illuminance sensor for sensing the illuminance of outside light, the operation and the closing of the illuminating lamp are controlled by collecting the external illumination in real time and matching with the real-time state, the arrangement can effectively avoid the waste of electric energy caused by the fact that the lawn lamp still operates when the external illumination is sufficient, and by monitoring the external temperature in real time, the arrangement that the illuminating lamp is controlled to emit light with different colors under different temperature states to display the current temperature state enables the lawn lamp to have more functions, meets different use requirements of users, enables the lawn lamp to be more intelligent, and this lawn lamp imbeds the underground mounting structure setting, can effectively reduce striking and damage that the lawn lamp received, the effectual life who prolongs the lawn lamp lets this lawn lamp be worth using widely more.

Drawings

FIG. 1 is an overall block diagram of the present invention;

FIG. 2 is a block diagram of the master control box system of the present invention.

In the figure: 1. a first insert tube; 2. a second insert tube; 3. a bottom support; 4. a support pillar; 5. a lamp socket; 6. an illuminating lamp; 7. a motor; 8. a driving wheel; 9. a top rod; 10. a master control box; 11. mounting a rod; 12. a light intensity sensor; 13. a temperature sensor; 14. a drain hole; 15. a water level sensor: 16. draining the water.

Detailed Description

The following examples are given for the detailed implementation and specific operation of the present invention, but the scope of the present invention is not limited to the following examples.

As shown in fig. 1 to 2, the present embodiment provides a technical solution: a ground-inserted intelligent multifunctional lawn lamp comprises a first embedded pipe 1 and a second embedded pipe 2, wherein an illuminating component is arranged inside the first embedded pipe 1, a braking component is arranged inside the second embedded pipe 2, and the illuminating component is connected with the braking component through a mandril 9;

the illuminating assembly comprises a bottom support 3 and a supporting column 4 fixedly arranged on the bottom support 3, a lamp holder 5 is arranged at the upper end of the supporting column 4, and a plurality of illuminating lamps 6 are arranged outside the lamp holder 5;

the brake assembly comprises two motors 7 which are symmetrically arranged, a driving wheel 8 is arranged at the end part of a brake shaft of each motor 7, driving teeth are arranged on the outer part of each driving wheel 8 and the outer part of each ejector rod 9, and the driving wheels 8 are meshed with the ejector rods 9;

mounting rods 11 are arranged on two sides of the top end of the first embedded pipe 1, and a light intensity sensor 12 and a temperature sensor 13 are arranged outside the mounting rods 11;

a water level sensor 15 is arranged at the bottom end of the interior of the second embedded pipe 2, a main control box 10 is arranged at a position close to one side of the interior of the second embedded pipe 2, and a drainage bottom 16 is connected to the bottom end of the second embedded pipe 2 in a threaded manner;

the master control box 10 comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time illuminance information acquired by the illuminance sensor 12, real-time temperature information acquired by the temperature sensor 13, real-time water level height information acquired by the water level sensor 15 and time information acquired from the internet;

the real-time illuminance information collected by the illuminance sensor 12, the real-time temperature information collected by the temperature sensor 13, the real-time water level height information collected by the water level sensor 15 and the real-time information acquired from the internet are all sent to the data receiving module and sent to the data processing module;

the data processing module processes the received real-time illuminance information, real-time temperature information, real-time water level height information and real-time information into light opening information, light regulation and control information, light closing information and maintenance and repair information;

information, light regulation and control information, light are closed information and are overhauld the maintenance information and all are sent total control module, total control module is opened information, light regulation and control information, light and is closed information and overhauls the maintenance information and all is sent total control module and turns into light and open instruction, light regulation and control instruction, light and close instruction and overhaul the maintenance instruction, light is opened instruction, light regulation and control instruction and light and is closed the instruction and is sent motor 7 and light 6 by information transmission module, overhaul the maintenance instruction and is sent maintainer's intelligent receiving terminal by information transmission module.

The inner wall of the first embedded pipe 1 is provided with a plurality of drainage holes 14 which are arranged in a downward inclination manner.

The drainage bottom 16 is conical, a plurality of water permeable holes are formed in the drainage bottom 16 and used for draining water, and the bottom is overhead and convenient to drain water due to the conical arrangement.

The specific processing process of the light starting information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by the illuminance sensor 13, marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula G1+ G2 … … + Gx/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: acquiring real-time information from the Internet, and marking the real-time information with a time point 1T;

step four: mean value of brightness G_{Are all made of}If the time is greater than the preset time and the time point T1 is not within the preset time period, the light starting information is not generated;

step five: mean value of brightness G_{Are all made of}Generating light starting information when the time point T1 is within a preset time period within a preset range;

step six: when brightness mean value G_{Are all made of}When the time point T is less than the preset time, the lamplight starting information is generated no matter whether the time point T is within the preset time period or not;

the lighting starting information is converted into a lighting starting instruction and then synchronously transmitted to the motor 7 and the illuminating lamp 6, the motor 7 receives the lighting starting instruction to operate and drives the ejector rod 9 to jack upwards through the driving wheel 8, the bottom support 3 is lifted, the lamp holder 5 is ejected out of the first embedded pipe 1, and then the illuminating lamp 6 on the lamp holder 5 starts to illuminate after being electrified and operated.

The specific processing process of the light closing information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by the illuminance sensor 13, marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula (G1 + G2 … … + Gx)/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: the real-time information at this time is obtained from the internet and is marked as T2, and the brightness mean value G at this time_{Are all made of}When the current value is greater than the preset value, light closing information is generated;

the light closing information is converted into a light closing instruction and then synchronously sent to the motor 7 and the illuminating lamp 6, the motor 7 receives the light management instruction and operates to drive the ejector rod 9 to retract downwards through the driving wheel 8, the bottom support 3 retracts to the original position, the lamp holder 5 retracts into the first embedded pipe 1, and then the illuminating lamp 6 on the lamp holder 5 judges that the illumination is closed.

The light regulation and control information comprises first regulation and control information, second regulation and control information and third regulation and control information, and the specific processing process of the light regulation and control information is as follows:

the method comprises the following steps: extracting real-time temperature information collected by the two temperature sensors 13, and marking the real-time temperature information as W1 and W2;

step two: by the formula (W1 + W2)/2 = W_{Are all made of}Calculating the temperature mean value W_{Are all made of}；

Step three: mean value of temperature W_{Are all made of}When the value is less than the preset value A1, first regulation and control information is generated, and when W is less than the preset value A1_{Are all made of}Generating second regulation and control information when W is within the preset value range_{Are all made of}Generating third regulation and control information when the third regulation and control information is greater than a preset value A2;

the illumination emits light of a preset color C1 when the first regulation information is transmitted to the illumination lamp 6, the illumination emits light of a preset color C2 when the second regulation information is transmitted to the illumination lamp 6, and the illumination emits light of a preset color C3 when the third regulation information is transmitted to the illumination lamp 6, the color C1, the color C2 and the color C1 being different.

The specific processing process of the overhaul and maintenance information is as follows:

s1: extracting real-time accumulated water height information collected by the water level sensor 15, and marking the information as P;

s2: when the acquired real-time accumulated water height information P is larger than a preset value, acquiring the real-time accumulated water height information once again after a preset time length B1, and marking the real-time accumulated water height information as Pp;

s3: when Pp personnel are larger than a preset value, after a preset time length B2 is separated, acquiring real-time technical height information once again to mark the real-time technical height information as Pz, and generating maintenance information when the Pz is still larger than the preset value;

the timely sending of the maintenance information can accelerate the maintenance speed and prolong the service life of the lawn lamp.

In summary, when the present invention is used, the data receiving module receives the real-time illuminance information collected by the illuminance sensor 12, the real-time temperature information collected by the temperature sensor 13, the real-time water level height information collected by the water level sensor 15 and the time information acquired from the internet, the real-time illuminance information collected by the illuminance sensor 12, the real-time temperature information collected by the temperature sensor 13, the real-time water level height information collected by the water level sensor 15 and the real-time information acquired from the internet are all sent to the data receiving module and sent to the data processing module, and the data processing module processes the received real-time illuminance information, real-time temperature information, real-time water level height information and real-time information into the light on information, light regulation and control information, light off information and maintenance information, light on information, light regulation and control information, The light closing information and the maintenance information are all sent to the master control module, the master control module sends the light opening information, the light regulation information, the light closing information and the maintenance information to the master control module to be converted into a light opening instruction, a light regulation instruction, a light closing instruction and a maintenance instruction, the light opening instruction, the light regulation instruction and the light closing instruction are sent to the motor 7 and the illuminating lamp 6 by the information sending module, the maintenance instruction is sent to an intelligent receiving terminal of a maintenance worker by the information sending module, the light opening information is converted into a light opening instruction and then synchronously sent to the motor 7 and the illuminating lamp 6, the motor 7 receives the light opening instruction to operate and drives the ejector rod 9 to jack upwards through the driving wheel 8, the collet 3 is lifted, namely the lamp holder 5 is ejected out of the first embedding tube 1, and then the illuminating lamp 6 on the lamp holder 5 starts to illuminate when being electrified, the light is closed information and is turned into the light and close after the instruction and sent to motor 7 and light 6 synchronously, motor 7 receives the operation of light management instruction and drives ejector pin 9 through drive wheel 8 and withdraws downwards, retract collet 3 to the primary importance, retract first embedding pipe 1 with lamp stand 5 promptly, later light 6 on the lamp stand 5 judges to close the illumination, first regulation and control information is sent light 6, the illumination sends the light of predetermineeing colour C1, when second regulation and control information is sent light 6, the illumination sends the light of predetermineeing colour C2, when third regulation and control information is sent light 6, the illumination sends the light of predetermineeing colour C3, colour C1, colour C2 is all inequality with colour C1.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above are not necessarily intended to refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples and features of different embodiments or examples described in this specification can be combined and combined by one skilled in the art without contradiction.

Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.

Claims (7)

1. The ground-inserted intelligent multifunctional lawn lamp is characterized by comprising a first embedded pipe (1) and a second embedded pipe (2), wherein a lighting assembly is arranged inside the first embedded pipe (1), a braking assembly is arranged inside the second embedded pipe (2), and the lighting assembly is connected with the braking assembly through a push rod (9);

the lighting assembly comprises a bottom support (3) and a support column (4) fixedly arranged on the bottom support (3), a lamp holder (5) is arranged at the upper end of the support column (4), and a plurality of lighting lamps (6) are arranged outside the lamp holder (5);

the brake assembly comprises two motors (7) which are symmetrically arranged, a driving wheel (8) is arranged at the end part of a brake shaft of each motor (7), driving teeth are arranged on the outer part of each driving wheel (8) and the outer part of each ejector rod (9), and the driving wheels (8) are meshed with the ejector rods (9);

mounting rods (11) are arranged on two sides of the top end of the first embedded pipe (1), and a light intensity sensor (12) and a temperature sensor (13) are arranged outside the mounting rods (11);

a water level sensor (15) is arranged at the bottom end of the interior of the second embedded pipe (2), a master control box (10) is arranged at a position, close to one side, of the interior of the second embedded pipe (2), and a drainage bottom (16) is in threaded connection with the bottom end of the second embedded pipe (2);

the master control box (10) comprises a data receiving module, a data processing module, a master control module and an information sending module;

the data receiving module is used for receiving real-time illuminance information acquired by the illuminance sensor (12), real-time temperature information acquired by the temperature sensor (13), real-time water level height information acquired by the water level sensor (15) and time information acquired from the Internet;

real-time illuminance information acquired by the illuminance sensor (12), real-time temperature information acquired by the temperature sensor (13), real-time water level height information acquired by the water level sensor (15) and real-time information acquired from the internet are all sent to the data receiving module and sent to the data processing module;

the data processing module processes the received real-time illuminance information, real-time temperature information, real-time water level height information and real-time information into light opening information, light regulation and control information, light closing information and maintenance and repair information;

information, light regulation and control information, light are closed information and are overhauld the maintenance information and all are sent total control module, total control module is opened information, light regulation and control information, light and is closed information and overhauls the maintenance information and all is sent total control module and turns into light and open instruction, light regulation and control instruction, light and close instruction and overhauls the maintenance instruction, light is opened instruction, light regulation and control instruction and light and is closed the instruction and is sent motor (7) and light (6) by information transmission module, it is sent maintainer's intelligent receiving terminal to overhaul the maintenance instruction by information transmission module.

2. The intelligent multi-functional lawn lamp of claim 1, wherein: the inner wall of the first embedded pipe (1) is provided with a plurality of drainage holes (14) which are arranged in a downward inclining mode.

3. The intelligent multi-functional lawn lamp of claim 1, wherein: the drainage bottom (16) is conical, and a plurality of water permeable holes are formed in the drainage bottom (16).

4. The intelligent multi-functional lawn lamp of claim 1, wherein: the specific processing process of the light starting information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by an illuminance sensor (13), marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula (G1 + G2 … … + Gx)/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: acquiring real-time information from the Internet, and marking the real-time information with a time point 1T;

step four: mean value of brightness G_{Are all made of}If the time is greater than the preset time and the time point T1 is not within the preset time period, the light starting information is not generated;

step five: mean value of brightness G_{Are all made of}Generating light starting information when the time point T1 is within a preset time period within a preset range;

step six: when brightness mean value G_{Are all made of}When the time point T is less than the preset time, the lamplight starting information is generated no matter whether the time point T is within the preset time period or not;

light opening information is turned into after the light opening instruction by synchronous sending to motor (7) and light (6), motor (7) receive light opening instruction operation and drive ejector pin (9) jack-up that makes progress through drive wheel (8), lift up collet (3), are about to lamp stand (5) ejecting first embedding pipe (1), and light (6) circular telegram operation on later lamp stand (5) begins to throw light on.

5. The intelligent multi-functional lawn lamp of claim 1, wherein: the specific processing process of the light closing information is as follows:

the method comprises the following steps: extracting real-time illuminance information collected by an illuminance sensor (13), marking the real-time illuminance information as G, and continuously collecting the real-time illuminance information G for x times within a preset time length, wherein x is more than or equal to 5;

step two: by the formula (G1 + G2 … … + Gx)/x = G_{Are all made of}To obtain a brightness average G_{Are all made of}；

Step three: obtain the time from the internetIs marked as T2, when the mean value G of the luminance is present_{Are all made of}When the current value is greater than the preset value, light closing information is generated;

light closes information and is converted into light and close after the instruction by synchronous transmission to motor (7) and light (6), motor (7) receive light management instruction operation and drive ejector pin (9) through drive wheel (8) and withdraw downwards, retract collet (3) to primary importance, be about to lamp stand (5) retract first embedding pipe (1), light (6) on later lamp stand (5) conclude and close the illumination.

6. The intelligent multi-functional lawn lamp of claim 1, wherein: the light regulation and control information comprises first regulation and control information, second regulation and control information and third regulation and control information, and the specific processing process of the light regulation and control information is as follows:

the method comprises the following steps: extracting real-time temperature information collected by two temperature sensors (13), and marking the real-time temperature information as W1 and W2;

step two: by the formula (W1 + W2)/2 = W_{Are all made of}Calculating the temperature mean value W_{Are all made of}；

Step three: mean value of temperature W_{Are all made of}When the value is less than the preset value A1, first regulation and control information is generated, and when W is less than the preset value A1_{Are all made of}Generating second regulation and control information when W is within the preset value range_{Are all made of}Generating third regulation and control information when the third regulation and control information is greater than a preset value A2;

when the first control information is transmitted to the illumination lamp (6), the illumination emits light of a preset color C1, when the second control information is transmitted to the illumination lamp (6), the illumination emits light of a preset color C2, and when the third control information is transmitted to the illumination lamp (6), the illumination emits light of a preset color C3, wherein the color C1, the color C2 and the color C1 are different.

7. The intelligent multi-functional lawn lamp of claim 1, wherein: the specific processing process of the overhaul and maintenance information is as follows:

s1: extracting real-time accumulated water height information collected by a water level sensor (15), and marking the information as P;

s2: when the acquired real-time accumulated water height information P is larger than a preset value, acquiring the real-time accumulated water height information once again after a preset time length B1, and marking the real-time accumulated water height information as Pp;

s3: when the Pp personnel are larger than the preset value, after a preset time length B2 is separated, the real-time technical height information is collected once again and marked as Pz, and when the Pz is still larger than the preset value, the maintenance information is generated.

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