CN111043559A - Multifunctional solar lighting system - Google Patents

Abstract

The invention relates to the technical field of lighting equipment, in particular to a multifunctional solar lighting system, which comprises an installation module, a solar panel, a power supply module, a light source module and a detection module, wherein the installation module is used for installing a solar panel; the light source module is fixedly arranged on the installation module, and can be rotationally adjusted according to the installation angle of the solar panel, so that the product can meet the installation requirements of different areas; the detection module is fixedly arranged on the light source module, so that the detection module can accurately detect whether a person or a vehicle passes under the light source module, when the person or the vehicle is detected to pass, the light source module starts to provide illumination or improve illumination brightness, and when the person or the vehicle is detected to not pass, the light source module reduces the illumination brightness or stops illumination; direct voltage is directly supplied to the light source module through the power supply module, so that a power supply does not need to be additionally arranged in the light source module, and the complexity of the light source module is reduced.

Description

Multifunctional solar lighting system

Technical Field

The invention relates to the technical field of lighting equipment, in particular to a multifunctional solar lighting system.

Background

China is a big energy consumption country, the energy consumption is mainly coal, petroleum and natural gas, the reserves of the raw materials are limited and can not be regenerated, and the energy consumption simultaneously discharges carbon dioxide and sulfur oxides, thereby causing global greenhouse effect and acid rain and damaging the environment. Therefore, the development and utilization of renewable energy sources have important significance for guaranteeing energy source safety, protecting ecological environment and realizing sustainable development. Solar lighting is rapidly developing and its devices cover almost the entire field of lighting. The market demand for solar lighting products is increasing, and the requirements on product performance and quality are higher and higher. The solar lighting system takes solar energy as an energy source, realizes photoelectric conversion through the energy storage battery II, accumulates and stores electric energy by the energy storage battery in the daytime, and supplies power to the electric light source through the controller at night to realize required functional lighting.

Solar lighting system mainly comprises solar panel, light and battery etc. and current solar lighting system exists:

1. the illuminating lamp and the solar panel are separately and independently installed, so that the complexity is increased for the installation of the solar illuminating system, the installation angles of the solar panels in different areas are different, the adjustment is required according to the actual condition of each area, but the illuminating lamp cannot be adjusted in real time along with the angle adjustment of the solar panels, and most of the existing illuminating lamps need power supplies, so that the complexity of the illuminating lamp is increased;

2. most of existing solar lighting systems are not provided with a mobile sensor for detecting whether a vehicle or a person passes through in real time, when no person or vehicle passes through, a lighting lamp still works at rated power, so that resource waste is caused, at present, although the mobile sensor is also installed in the solar lighting system, most of the mobile sensor is installed in the middle of a solar panel, along with adjustment of installation angles of the solar panel, the detection positions of the mobile sensors can deviate, and whether a person or a vehicle passes through under the solar lighting system can not be detected.

Therefore, it is desirable to provide a multifunctional solar lighting system to solve the deficiencies of the prior art.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides a multifunctional solar lighting system.

The technical scheme of the invention is as follows:

a multifunctional solar lighting system comprises an installation module, a solar panel, a power supply module, a light source module and a detection module, wherein the solar panel is connected with the input end of the power supply module, the output end of the power supply module is connected with the input end of the light source module, and the input end of the detection module is connected with the output end of the power supply module; the solar panel is used for converting light energy into electric energy to supply power to the power supply module, and is fixedly arranged on the installation module; the power supply module is fixedly arranged on the mounting module; the light source module is used for providing illumination, the light source module is fixedly arranged on the mounting module, and the light source module can be rotationally adjusted according to the mounting angle of the solar panel; the detection module is used for detecting whether a person or a vehicle exists, and the detection module is fixedly arranged on the light source module.

Preferably, the power supply module comprises a lightning protection device, a charge and discharge controller, an energy storage battery and a battery equalization protection circuit, the lightning protection device is connected with the input end of the charge and discharge controller in parallel, the input end of the charge and discharge controller is connected with the solar panel, the output end of the charge and discharge controller is connected with the input end of the battery equalization protection circuit, the output end of the energy storage battery is connected with the output end of the battery equalization protection circuit, and the output end of the charge and discharge controller is respectively connected with the input ends of the light source module and the detection module.

Preferably, the light source module includes a heat sink and a plurality of lighting assemblies, the heat sink is fixedly disposed on the cross beam, and the lighting assemblies are fixedly disposed below the heat sink.

Preferably, be provided with vertical heat dissipation stripe on the radiator side, lighting assembly includes light source board and lens, the light source board fixed set up in the lens upper surface, lens fixed set up in the lower surface of radiator, be provided with a plurality of fifteenth screw holes, transient state diode and a plurality of LED light source on the light source board, fifteenth screw hole is located the middle part of light source board, transient state diode fixed set up in the one end of light source board, the one end of light source board with charge-discharge controller's output is connected, transient state diode's both ends connect in parallel in the input of LED light source.

Preferably, the lens comprises a lens body and a mounting assembly:

the lens body is provided with a mounting cavity matched with the fifteenth screw hole in a downward protruding mode, and the radiator is provided with a sixteenth screw hole matched with the fifteenth screw hole;

the lens body is also provided with at least two convex hulls which protrude downwards, and the convex hulls are positioned at two ends of the lens body.

The installation component includes a plurality of long layering and a plurality of with long layering assorted short layering, long layering with all be provided with on the short layering with fourteenth screw hole assorted thirteenth screw hole, the medial surface and the both ends of long layering all protruding stretch have with the protruding piece of first protruding piece assorted second, protruding stretch on the short layering have with the protruding piece of second protruding piece assorted third.

Preferably, the detection module comprises a mobile monitoring sensor, a first display LED, a second display LED, a third display LED and a first wireless transceiver circuit, and the input ends of the mobile detection sensor, the first display LED, the second display LED, the third display LED and the first wireless transceiver circuit are connected with the output end of the power supply module.

Preferably, the light source module further comprises a waterproof fixing block and a waterproof fixing head, the waterproof fixing block is located at the joint of the two lighting assemblies, and the waterproof fixing head is fixedly arranged on the radiator;

the waterproof fixing block comprises a waterproof pressing block and a silica gel ring, a wire through hole is formed in the middle of the waterproof pressing block, a mounting groove is formed in the upper surface of the waterproof pressing block, and the silica gel ring is fixedly arranged on the mounting groove.

Preferably, the multifunctional solar lighting system further comprises a data transmission system, the data transmission module comprises a remote controller, a second wireless transceiver circuit and a processor are arranged in the remote controller, and an output end of the second wireless transceiver circuit is connected with an input end of the processor.

Preferably, the installation module comprises an installation component, at least two cross beams and at least two longitudinal beams, the installation component is fixedly installed on the lower surface of the longitudinal beam, and the longitudinal beams are fixedly arranged between the two cross beams:

the two beams are provided with first mounting blocks which protrude inwards, and the first mounting blocks are provided with a first screw hole, a plurality of second screw holes, a third screw hole and a fourth screw hole;

the longeron include with third screw hole assorted fifth screw hole, with fourth screw hole assorted sixth screw hole and a plurality of seventh screw hole, the seventh screw hole is located the bottom of longeron.

Preferably, both ends of radiator are all fixed and are provided with first connection piece and second connection piece, still be provided with on the radiator lower surface with thirteenth screw hole assorted fourteenth screw hole, be provided with the tenth screw hole on the first connection piece, be provided with on the second connection piece with eleventh screw hole of tenth screw hole assorted and with first screw hole assorted twelfth screw hole.

The invention has the beneficial effects that: compared with the prior art, the multifunctional solar lighting system consists of the mounting module, the solar panel, the power supply module, the light source module and the detection module, wherein the modules are detachably connected, and the light source module is fixedly mounted on the mounting module and can be rotationally adjusted according to the mounting angle of the solar panel, so that the product can adapt to the mounting requirements of different areas; the detection module is fixedly arranged on the light source module, so that the detection module can accurately detect whether a person or a vehicle passes under the light source module, when the person passes through the detection module, the light source module starts to provide illumination or improve illumination brightness, and when no person passes through the detection module, the light source module reduces the illumination brightness or stops illumination; direct voltage is directly supplied to the light source module through the power supply module, so that a power supply does not need to be additionally arranged in the light source module, and the complexity of the light source module is reduced.

Description of the drawings:

FIG. 1 is a schematic structural diagram of a multifunctional solar lighting system according to the present invention;

FIG. 2 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 3 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 4 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 5 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 6 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 7 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 8 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

FIG. 9 is a schematic structural diagram of the multifunctional solar lighting system according to the present invention;

fig. 10 is a schematic diagram of a multifunctional solar lighting system according to the present invention.

The mounting module 1, the solar panel 2, the power supply module 3, the light source module 4, the detection module 5, the mounting assembly 11, the beam 12, the longitudinal beam 13, the first mounting block 121, the first screw hole 122, the plurality of second screw holes 123, the third screw hole 124, the fourth screw hole 125, the seventh screw hole 133, the ninth screw hole 21, the heat sink 41, the lighting assembly 42, the first connecting piece 411, the second connecting piece 412, the eleventh screw hole 414, the twelfth screw hole 415, the light source plate 421, the lens 422, the waterproof ring 423, the fifteenth screw hole 424, the lens body 425, the mounting component 426, the long pressing strip 4261, the short pressing strip 4262, the mounting cavity 427, the thirteenth screw hole 428, the first bulge 429, the second bulge 420, the waterproof fixing block 43, the optical lens 430, the waterproof pressing block 431, the silicone ring 432, the wire through hole 433, the mounting groove 434, the bulge 435, the waterproof fixing head 44 and the movement monitoring sensor 51.

Detailed Description

In order to make the object, technical solution and technical effect of the present invention more apparent, the present invention will be further described with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 10, a multifunctional solar lighting system includes an installation module 1, a solar panel 2, a power supply module 3, a light source module 4, a detection module 5 and a data transmission module, wherein the solar panel 2 is fixedly installed on the installation module 1, the power supply module 3 is fixedly installed in the middle of the installation module 1, the power supply module 3 is located below the solar panel 2, the light source module 4 is fixedly installed at the left end of the installation module 1, the light source module 4 is rotatably adjusted when being installed on the installation module 1, and the detection module 5 is fixedly installed on the light source module 4; this multi-functional solar lighting system comprises installation module 1, solar panel 2, power module 3, light source module 4, detection module 5 and data transmission module 6, and removable assecmbly realizes the design of product modularization between each part for the detection maintenance and the change accessory of product are more convenient. In other embodiments, the light source module 4 may also be installed at the right end of the installation module 1 and at the upper and lower ends of the middle part of the installation module 1.

The solar panel 2 is connected with the input end of the power supply module 3, the output end of the power supply module 3 is connected with the input end of the light source module 4, and the input end of the detection module 5 is connected with the output end of the power supply module 3; the solar panel 2 is used for charging the power supply module 3, the power supply module 3 is used for outputting corresponding voltage to drive the light source module 4 and the detection module 5 to work, and the data transmission module is used for transmitting data to the power supply module 3 and the detection module 5 and receiving data from the power supply module 3 and the detection module 5.

Referring to fig. 2, the installation module 1 is used for installing and fixing the solar panel 2, the power supply module 3, the light source module 4 and the detection module 5; the installation module 1 comprises an installation component 11, at least two cross beams 12 and at least two longitudinal beams 13, wherein the installation component 11 is fixedly installed on the lower surface of the longitudinal beam 13, and the longitudinal beam 13 is fixedly arranged between the two cross beams 12; the mounting assembly 11 is used to mount the solar lighting system.

Two crossbeam 12 is all inwards protruding to be stretched and is had first installation piece 121, be provided with first screw hole 122, a plurality of second screw hole 123, third screw hole 124 and fourth screw hole 125 on the first installation piece 121, first screw hole 122 is used for the installation light source module 4, second screw hole 123 is used for the installation fixed solar panel 2, third screw hole 124 with fourth screw hole 125 is used for the installation fixed longeron 13.

The longitudinal beam 13 is in a zigzag shape, the longitudinal beam 13 includes a fifth screw hole matched with the third screw hole 124 and a sixth screw hole matched with the fourth screw hole 125, the fifth screw hole and the sixth screw hole are located on the upper surface of the longitudinal beam 13, a plurality of seventh screw holes 133 and a plurality of eighth screw holes are also arranged on the two longitudinal beams 13, the seventh screw holes 133 and the eighth screw holes are located at the bottom end of the longitudinal beam 13, and the seventh screw holes 133 are located between the eighth screw holes; a fastener passes through the third screw hole 124 and is inserted into the fifth screw hole to fix one of the longitudinal beams 13 on the cross beam 12, another fastener passes through the fourth screw hole 125 and is inserted into the sixth screw hole to fix the other longitudinal beam 13 on the cross beam 12, the seventh screw hole 133 is used for fixing the power supply module 3, and the eighth screw hole is used for fixing the mounting assembly 11.

Referring to fig. 3 and 4, the solar panel 2 is configured to convert light energy into electric energy and supply the electric energy to the power supply module 3; the solar panel 2 comprises a plurality of ninth screw holes 21 matched with the second screw holes 123, and a fastener passes through the second screw holes 123 and then is inserted into the ninth screw holes 21 to fixedly mount the solar panel 2 on the beam 12.

The power supply module 3 comprises a lightning protection device, a charge and discharge controller, an energy storage battery and a battery equalization protection circuit, wherein the lightning protection device is connected with the input end of the charge and discharge controller in parallel, the input end of the charge and discharge controller is connected with the solar panel 2, the output end of the charge and discharge controller is connected with the input end of the battery equalization protection circuit, the output end of the energy storage battery is connected with the output end of the battery equalization protection circuit, and the output ends of the charge and discharge controller are respectively connected with the input ends of the light source module 4 and the detection module 5; the lightning protection device is used for protecting the power supply module 3 and preventing the power supply module 3 from being damaged by lightning, and the lightning protection device is connected with the charge and discharge controller in parallel so that the power supply module 3 can work normally after the lightning protection device is damaged; the battery equalization protection circuit is used for preventing the battery from being overcharged and overdischarged, equalizing electric energy of each battery, prolonging service life of the battery, monitoring states of the batteries, recording working data of the power supply module 3 by the charge-discharge controller, and driving the light source module 4 to work by outputting direct-current voltage by the charge-discharge controller.

Referring to fig. 5, 6, 7, 8 and 9, the light source module 4 is fixed with the solar panel 2, the product can be directly used without an additional lamp, and the light source module 4 is connected with the power supply module 3 through a wire; the light source module 4 includes a heat sink 41, a plurality of lighting assemblies 42, a waterproof fixing block 43 and a waterproof fixing head 44, the heat sink 41 is fixedly disposed on the beam 12, the lighting assemblies 42 are fixedly disposed below the heat sink 41, the waterproof fixing block 43 is located at a connection interface between the two lighting assemblies 42, and the waterproof fixing head 44 is fixedly disposed on the heat sink 41; the waterproof fixing head 44 is used for connecting a power supply cable.

A first connecting sheet 411 and a second connecting sheet 412 are fixedly arranged at both ends of the heat sink 41, a plurality of fourteenth screw holes are further arranged on the lower surface of the heat sink, a tenth screw hole is arranged on the first connecting sheet 411, and an eleventh screw hole 414 matched with the tenth screw hole and a twelfth screw hole 415 matched with the first screw hole 122 are arranged on the second connecting sheet 412; a fastener is inserted into the eleventh screw hole 414 after passing through the tenth screw hole to fixedly connect the first connecting piece 411 with the second connecting piece 412, and another fastener is inserted into the twelfth screw hole 415 after passing through the first screw hole 122 to fixedly arrange the second connecting piece 412 on the cross beam 12; by adjusting the fastening member between the tenth screw hole and the eleventh screw hole 414, the first connecting piece 411 and the second connecting piece 412 are loosened, and then an external force is applied to the heat sink 41, so that the heat sink 41 rotates, and the lighting assembly 42 rotates along with the rotation of the heat sink 41, thereby realizing that the light source module 4 can adapt to the adjustment of the installation angle of the solar panel 2 in real time.

Wherein, the side of the radiator 41 is also provided with longitudinal radiating stripes; the longitudinal radiating stripes are used for increasing the radiating area and enhancing the radiating effect.

The lighting assembly 42 comprises a light source board 421, a lens 422 and a waterproof ring 423, wherein the light source board 421 is fixedly arranged on the lower surface of the heat sink 41, the lens 422 is fixedly arranged on the lower surface of the heat sink 41, and the waterproof ring 423 is fixedly arranged on the upper surface of the lens 422; the waterproof ring 423 is used for preventing the light source board 421 from water inflow.

The light source board 421 is used to provide illumination; the light source board 421 is provided with a plurality of fifteenth screw holes 424, a transient diode and a plurality of LED light sources, the fifteenth screw holes 424 are located in the middle of the light source board 421, the transient diode is fixedly disposed at one end of the light source board 421, one end of the light source board 421 is connected to the output end of the charge and discharge controller, and two ends of the transient diode are connected to the input end of the LED light sources in parallel; the transient diode is used for protecting the LED light source. In this embodiment, the transient diode is preferably a bipolar transient diode.

The lens 422 includes a lens body 425 and a mounting assembly 426, the mounting assembly 426 fixedly mounting the lens body 425 to the heat sink 41.

The lens body 425 protrudes downwards to form a mounting cavity 427 matching with the fifteenth screw hole 424, the heat sink 41 is provided with a sixteenth screw hole matching with the fifteenth screw hole 424, and a fastener passes through the fifteenth screw hole 424 and then is inserted into the sixteenth screw hole to fixedly mount the light source board 421 on the heat sink 41; the mounting mode is simple, the processes are few, and the production cost is reduced.

The lens body 425 further has a first protrusion block 429 protruding outwards.

The lens body 425 further protrudes downwards to form an optical lens 430 matched with the LED light source; the light shape lens 430 is used for changing the light emitting shape of the LED light source.

Wherein, the lens body 425 is further provided with at least two convex hulls 435 protruding downwards, and the convex hulls 435 are positioned at two ends of the lens body 425; the convex hulls 435 correspond to the light source boards 421.

The mounting component 426 comprises a plurality of long pressing strips 4261 and a plurality of short pressing strips 4262 matched with the long pressing strips 4261, wherein thirteenth screw holes 428 matched with the fourteenth screw holes are formed in the long pressing strips 4261 and the short pressing strips 4262, second protruding blocks 420 matched with the first protruding blocks 429 are protruded from the inner side surfaces and two ends of the long pressing strips 4261, third protruding blocks matched with the second protruding blocks 420 are protruded from the short pressing strips 4262, the second protruding blocks 420 are abutted to the lower surfaces of the first protruding blocks 429, and the third protruding blocks are abutted to the lower surfaces of the second protruding blocks 429 located at two ends of the long pressing strips 4261; a fastening member is inserted into the fourteenth screw hole after passing through the thirteenth screw hole 428 to fixedly mount the lens 422 on the heat sink 41, and the mounting assembly 426 is uniformly pressed on the lens body 425, thereby avoiding forming a hole on the lens body 425, so that no screw is directly fixed on the lens body 425, and the lens body 425 is not easy to crack, and the lens body 425 is not brittle and cracked even if used in a saline-alkali environment.

The waterproof fixing block 43 is used for preventing water from entering the joint of the two lighting assemblies 42; the waterproof fixing block 43 comprises a waterproof pressing block 431 and a silica gel ring 432, and the silica gel ring 432 is fixedly arranged on the waterproof pressing block 431.

The middle of waterproof briquetting 431 is provided with wire through-hole 433, waterproof briquetting 431 be that the upper surface is provided with mounting groove 434, silica gel circle 432 fix set up in on the mounting groove 434.

The detection module 5 is fixedly arranged on the first connecting sheet 411, the detection module 5 comprises a mobile monitoring sensor 51, a first display LED, a second display LED, a third display LED and a first wireless transceiver circuit, the input ends of the mobile monitoring sensor, the first display LED, the second display LED, the third display LED and the first wireless transceiver circuit are all connected with the output end of the power supply module, and the first display LED, the second display LED and the third display LED are respectively used for displaying the working states of the solar panel 2, the energy storage battery and the light source module 4; in this embodiment, the motion detection sensor is preferably a microwave radar sensor or a PIR human infrared sensor.

The data transmission module comprises a remote controller, a second wireless transceiver circuit and a processor are arranged in the remote controller, and the output end of the second wireless transceiver circuit is connected with the input end of the processor; the remote controller is used for sending signals to the charge and discharge controller, enabling the charge and discharge controller to send working parameters of the charge and discharge controller to the remote controller, and the remote controller is used for sending signals to the detection module 5 and receiving signals from the detection module 5.

When the multifunctional solar lighting system is used, the solar panel 2 is installed according to the actual situation of the location, then the light source module 4 is rotationally adjusted according to the installation angle of the solar panel 2, so that the light source module 4 can always accurately provide lighting for a target area, the detection module 5 is installed and fixed on the light source module 4, so that the detection module 5 can always detect the area below the light source module 4, and the situation that one area is used for lighting by the light source module 4 and the other area is used for detecting by the detection module 5 is avoided;

when the multifunctional solar lighting system works, the solar panel 2 converts light energy into electric energy to charge the energy storage battery, when no light energy exists at night, the energy storage battery discharges, and the charge-discharge controller outputs direct-current voltage to supply power to the light source module 4, so that the light source module 4 can work without being additionally provided with a power supply;

the detection module 5 detects whether a person or a vehicle passes below the light source module 4 in real time, when the person or the vehicle is detected to pass, the light source module 4 is turned on or the brightness of the light source module is increased to provide illumination, and when the person or the vehicle is detected to pass, the light source module 4 is turned off in a delayed mode or the illumination brightness of the light source module is reduced to achieve the purposes of providing illumination for the person or the vehicle and saving resources;

the charge and discharge controller sends corresponding signals to the detection module, and the detection module controls the on and off of the first display LED, the second display LED and the third display LED so as to display the working states of the solar panel 2, the energy storage battery and the light source module 4;

when the detection module 5 receives information sent by the remote controller, the detection module 5 and the power supply module 3 transmit the information to the charge and discharge controller in the power supply module 3 through a connecting wire, the charge and discharge controller transmits the information to the detection module 5 according to an original line after receiving the information, the detection module 5 transmits the information to the remote controller, and a user can know the working state condition of the multifunctional solar lighting system in detail through the information read by the remote controller.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the present invention pertains, the architecture form can be flexible and varied without departing from the concept of the present invention, and a series of products can be derived. But rather a number of simple derivations or substitutions are made which are to be considered as falling within the scope of the invention as defined by the appended claims.

Claims (10)

1. A multifunctional solar lighting system is characterized in that: the solar panel is connected with the input end of the power supply module, the output end of the power supply module is connected with the input end of the light source module, and the input end of the detection module is connected with the output end of the power supply module;

the solar panel is used for converting light energy into electric energy to supply power to the power supply module, and is fixedly arranged on the installation module;

the power supply module is fixedly arranged on the mounting module;

the light source module is used for providing illumination, the light source module is fixedly arranged on the mounting module, and the light source module can be rotationally adjusted according to the mounting angle of the solar panel;

the detection module is used for detecting whether a person or a vehicle passes through, and the detection module is fixedly arranged on the light source module.

2. The multifunctional solar lighting system according to claim 1, wherein the power supply module comprises a lightning arrester, a charge and discharge controller, an energy storage battery, and a battery equalization protection circuit, the lightning arrester is connected in parallel with an input end of the charge and discharge controller, an input end of the charge and discharge controller is connected with the solar panel, an output end of the charge and discharge controller is connected with an input end of the battery equalization protection circuit, an output end of the energy storage battery is connected with an output end of the battery equalization protection circuit, and output ends of the charge and discharge controller are respectively connected with input ends of the light source module and the detection module.

3. The multifunctional solar lighting system according to claim 1, wherein the light source module comprises a heat sink fixedly disposed on the mounting module and a plurality of lighting assemblies fixedly disposed below the heat sink.

4. A multifunctional solar lighting system as claimed in claim 3, wherein:

longitudinal radiating stripes are arranged on the side surface of the radiator;

the lighting assembly includes light source board and lens, the light source board fixed set up in the lens upper surface, lens fixed set up in the lower surface of radiator, be provided with a plurality of fifteenth screw holes, transient state diode and a plurality of LED light source on the light source board, fifteenth screw hole is located the middle part of light source board, transient state diode fixed set up in the one end of light source board, the one end of light source board with charge-discharge controller's output is connected, transient state diode's both ends connect in parallel in the input of LED light source.

5. The multifunctional solar lighting system of claim 4, wherein the lens comprises a lens body and a mounting assembly:

the lens body is provided with a mounting cavity matched with the fifteenth screw hole in a downward protruding mode, and the radiator is provided with a sixteenth screw hole matched with the fifteenth screw hole;

the lens body is also provided with at least two convex hulls which protrude downwards, and the convex hulls are positioned at two ends of the lens body;

the installation component includes a plurality of long layering and a plurality of with long layering assorted short layering, long layering with all be provided with on the short layering with fourteenth screw hole assorted thirteenth screw hole, the medial surface and the both ends of long layering all protruding stretch have with the protruding piece of first protruding piece assorted second, protruding stretch on the short layering have with the protruding piece of second protruding piece assorted third.

6. The multifunctional solar lighting system according to any one of claims 1-5, wherein the detection module comprises a movement detection sensor, a first display LED, a second display LED, a third display LED and a first wireless transceiver circuit, and the input terminals of the movement detection sensor, the first display LED, the second display LED, the third display LED and the first wireless transceiver circuit are all connected to the output terminal of the power supply module.

7. The multifunctional solar lighting system as claimed in any one of claims 1 to 5, wherein the light source module further comprises a waterproof fixing block and a waterproof fixing head, the waterproof fixing block is located at the interface of the connection of the two lighting assemblies, and the waterproof fixing head is fixedly arranged on the heat sink;

the waterproof fixing block comprises a waterproof pressing block and a silica gel ring, a wire through hole is formed in the middle of the waterproof pressing block, a mounting groove is formed in the upper surface of the waterproof pressing block, and the silica gel ring is fixedly arranged on the mounting groove.

8. A multifunctional solar lighting system as recited in any one of claims 1-5, further comprising a data transmission system, wherein said data transmission module comprises a remote controller, and a second wireless transceiver circuit and a processor are disposed in said remote controller, and an output terminal of said second wireless transceiver circuit is connected to an input terminal of said processor.

9. A multifunctional solar lighting system according to any one of claims 1-5, wherein the mounting module comprises a mounting assembly, at least two cross members and at least two longitudinal members, the mounting assembly is fixedly mounted on the lower surface of the longitudinal members, and the longitudinal members are fixedly arranged between the two cross members:

the two beams are provided with first mounting blocks which protrude inwards, and the first mounting blocks are provided with a first screw hole, a plurality of second screw holes, a third screw hole and a fourth screw hole;

the longeron include with third screw hole assorted fifth screw hole, with fourth screw hole assorted sixth screw hole and a plurality of seventh screw hole, the seventh screw hole is located the bottom of longeron.

10. The multifunctional solar lighting system as recited in claim 9, wherein a first connecting plate and a second connecting plate are fixedly disposed at both ends of the heat sink, a fourteenth screw hole matching with the thirteenth screw hole is further disposed on the lower surface of the heat sink, a tenth screw hole is disposed on the first connecting plate, and an eleventh screw hole matching with the tenth screw hole and a twelfth screw hole matching with the first screw hole are disposed on the second connecting plate.

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