CN114576590A

CN114576590A - Full-angle adjustable solar integrated module street lamp

Info

Publication number: CN114576590A
Application number: CN202210191230.5A
Authority: CN
Inventors: 李志斌; 闵荣峰; 伍铁军
Original assignee: Jiangmen Sikamp Technology Co ltd
Current assignee: Jiangmen Sikamp Technology Co ltd
Priority date: 2022-02-28
Filing date: 2022-02-28
Publication date: 2022-06-03

Abstract

The invention is suitable for the technical improvement field of pavement lighting, and provides a full-angle adjustable solar all-in-one module street lamp which comprises a lamp body module, a power supply module, a control module, an induction module, a light-emitting module and a support module, wherein the power supply module, the control module, the induction module and the light-emitting module are respectively arranged on the lamp body module, the support module is arranged on the control module, the power supply module is respectively and electrically connected with the control module, the induction module and the light-emitting module, the output end of the control module is connected with the control end of the light-emitting module, and the output end of the induction module is connected with the input end of a controller. The advantages of two kinds of current products on the adjustable comprehensive market of full angle solve the defect that puzzles the market, follow material cost, construction cost, the all-round solution problem of the actual road conditions demand of illumination, let the product have the place of sun irradiation can both maximize to utilize this high-quality clean energy of good sunshine all over the world.

Description

Full-angle adjustable solar integrated module street lamp

Technical Field

The invention belongs to the technical field of pavement lighting, and particularly relates to a full-angle adjustable solar integrated module street lamp.

Background

The concepts of energy conservation, emission reduction and environmental protection are development directions which must be considered in the current market technical fields; the appearance of the LED light source enables the lamp to save energy and reduce emission in the field of illumination and protect the environment; the LED and solar energy are more prominent developments of illumination in energy conservation and emission reduction.

Solar street lamps in the market at present are roughly divided into two types: one is split type and the other is integrated type. The method comprises the following steps: the energy storage battery is buried, and the lamp holder and the photovoltaic panel are separately installed at the top of the lamp post. Integral type: and the energy storage battery and the photovoltaic panel are all assembled on the lamp cap in a centralized way. When the southern hemisphere is installed due to geographical and climate reasons, the photovoltaic panel faces north; when the northern hemisphere is installed, the photovoltaic panel faces south, so that the high-efficiency power generation capacity of the photovoltaic panel can be ensured. The street lamp of two kinds of above, a photovoltaic board and lamp holder separation installation, the generating efficiency is high, and the road surface shines the angle and can both compromise with the function according to actual road conditions adjustment, and application, but the product volume is heavy, needs the installation of separation wiring, and construction and cost of transportation are high. The second is because photovoltaic board and lamp holder and energy storage battery are integrative, and the transportation is convenient, and the construction is also high-efficient, nevertheless meets shining under the road conditions and the different condition of north-south direction, can only install the lamp holder according to shining the demand, and the generating efficiency of photovoltaic board receives the unsatisfactory reason of illumination and greatly reduced. Therefore, how to bring the two into play is the key point of the invention.

Disclosure of Invention

The invention aims to provide a full-angle adjustable solar integrated module street lamp and aims to solve the technical problem.

The invention is realized in such a way that the full-angle adjustable solar all-in-one module street lamp comprises a lamp body module, a power supply module, a control module, an induction module, a light-emitting module and a support module, wherein the power supply module, the control module, the induction module and the light-emitting module are respectively arranged on the lamp body module, the support module is arranged on the control module, the power supply module is respectively and electrically connected with the control module, the induction module and the light-emitting module, the output end of the control module is connected with the control end of the light-emitting module, and the output end of the induction module is connected with the input end of a controller.

The further technical scheme of the invention is as follows: the control module group comprises a controller, a controller base and a connecting wire, wherein the controller is arranged in the controller base, and the connecting wire is connected with the connecting end of the controller.

The further technical scheme of the invention is as follows: the power supply module comprises an energy storage battery module and a battery module support, and the energy storage battery module is arranged on the battery module support through a screw.

The further technical scheme of the invention is as follows: the induction module comprises an inductor nut and an inductor, and the inductor is arranged on the lamp body module through the inductor nut.

The invention further adopts the technical scheme that: the support module comprises 60 rods of fixing bases, screws, nuts and 60 rods of mounting supports, and the 60 rods of mounting supports are arranged on the 60 rods of fixing bases through the screws and the nuts.

The further technical scheme of the invention is as follows: the light-emitting module comprises a light-emitting module, a heat dissipation support and a waterproof joint line, the light-emitting module is arranged on the heat dissipation module, the heat dissipation support is arranged on the heat dissipation module, and one end of the waterproof joint line penetrates through the heat dissipation support and the heat dissipation module to be connected with the light-emitting module.

The further technical scheme of the invention is as follows: the light-emitting module comprises a lens, a silica gel ring and a light-emitting lamp panel, and the light-emitting lamp panel is arranged on the lens through the silica gel ring; the radiating module comprises a radiating fin and two linking supports, and the two linking supports are respectively arranged at two ends of the radiating fin.

The further technical scheme of the invention is as follows: the heat dissipation support comprises a hand-screwed screw, a threading nut, an elastic pad, a rotating support, a flat pad, a fixing support and the hand-screwed screw, one end of the threading nut penetrates through the elastic pad, the rotating support, the flat pad and the fixing support respectively and is in fastening connection with the nut, and the hand-screwed screw is arranged on the fixing support.

The further technical scheme of the invention is as follows: the energy storage battery module comprises a waterproof street line, a metal waterproof street, a hollow end cover, an energy storage battery, a battery box, a non-porous end cover and screws, wherein the energy storage battery is arranged in the battery box, the non-porous end is arranged at one end of the battery box through the screws, the hollow end cover is arranged at the other end of the battery box through the screws, a metal waterproof joint is arranged on an opening of the hollow end cover, and one end of the waterproof joint line penetrates through the metal waterproof street to be connected with the energy storage battery.

The further technical scheme of the invention is as follows: the lamp body module includes corner, short strake, long strake, photovoltaic board and inductor mounting panel, connect one through the corner respectively at the both ends of short strake the one end of long strake, the other end of long strake passes through the corner is connected the both ends of short strake, two are located to the photovoltaic board the long strake river two in the framework that the short strake constitutes, inductor mounting panel detain hang in on the long strake.

The invention has the beneficial effects that: the advantages of two existing products in the market are synthesized in a full-angle adjustable mode, the defect that the market is puzzled is overcome, the problems are solved in an all-round mode according to material cost, construction cost and lighting actual road condition requirements, and the product can utilize the high-quality and clean energy of sunlight to the maximum degree in a global place as long as the sun irradiates. The design of the light-emitting module greatly improves the flexibility of products from production, construction maintenance and application, and is convenient for clients to stock. The photovoltaic panel and the lamp body are integrated, so that the material cost is effectively saved, and the product reliability is improved. The characteristic that the energy storage can be switched over fast is mainly to facilitate the maintenance of later maintenance, because the energy storage battery is the block in the solar lamp before the lowest service life. The intelligent module design enables the energy-saving and emission-reducing characteristics of the product to be brought into full play, and the full use of energy is ensured to the greatest extent.

Drawings

Fig. 1 is an exploded schematic view of a full-angle adjustable solar integrated module street lamp provided in an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an energy storage battery module according to an embodiment of the invention.

Fig. 3 is a schematic structural diagram of a lamp body module according to an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a light emitting module according to an embodiment of the invention.

Fig. 5 is a first overall schematic view of the full-angle adjustable solar all-in-one module street lamp according to the embodiment of the present invention.

Fig. 6 is a second overall schematic view of the full-angle adjustable solar all-in-one module street lamp according to the embodiment of the invention.

Fig. 7 is an enlarged cross-sectional view of a corner R provided by an embodiment of the present invention.

Detailed Description

Reference numerals: 1-01-M4 screw 1-02-energy storage battery module 1-03-60 rod fixing base 1-04-M5 screw 1-05-battery module support 1-06-lamp body module 1-0-7 controller 1-08-connecting wire 1-09-inductor nut 1-10-inductor 1-11-controller base 1-12-light emitting module 1-13-M16 screw 1-14-M10 screw 1-15-M8 screw 1-16-60 rod mounting support 1-17-M16 nut 1-0201-waterproof connector wire 1-0202-metal waterproof connector 1-0203-holed end cap 1-0204-energy storage battery 1-0205-electric Pool box 1-0206-imperforate end cap 1-0207-M3X 12 screw 1-0601-corner R1-0602-short edge 1-0603-long edge 1-0604-photovoltaic plate 1-0605-M6X12 screw 1-060 sensor support plate 1-1201-waterproof joint line 1-1202-M14 nut 1-1203-M4 hand-screwed screw 1-1204-module fixing support 1-1205-flat cushion 1-1206-module rotating support 1-1207-metal waterproof joint 1-1208-module 1-1209-M3 hand-screwed screw 1-1210-M4 screw component 1-1211-M3X 5 screw 1-1212-silica gel ring 1-1213-M3 lens screw 1-1214-lens 1-1215 Light module 1-1216-link bracket 1-1217-M5 screw assembly 1-1218-threaded nut 1-1219-spring washer

As shown in fig. 1-7, the full-angle adjustable solar all-in-one module street lamp provided by the invention comprises a lamp body module, a power supply module, a control module, an induction module, a light-emitting module and a bracket module, wherein the power supply module, the control module, the induction module and the light-emitting module are respectively arranged on the lamp body module, the bracket module is arranged on the control module, the power supply module is respectively and electrically connected with the control module, the induction module and the light-emitting module, the output end of the control module is connected with the control end of the light-emitting module, and the output end of the induction module is connected with the input end of the controller.

The control module group comprises a controller, a controller base and a connecting wire, wherein the controller is arranged in the controller base, and the connecting wire is connected with the connecting end of the controller.

The power supply module comprises an energy storage battery module and a battery module support, and the energy storage battery module is arranged on the battery module support through a screw.

The induction module comprises an inductor nut and an inductor, and the inductor is arranged on the lamp body module through the inductor nut.

The support module comprises a 60-rod fixing base, screws, nuts and a 60-rod mounting support, wherein the 60-rod mounting support is arranged on the 60-rod fixing base through the screws and the nuts.

An all-angle adjustable solar integrated module street lamp comprises 1-01 parts of M4 screws, 1-02 parts of energy storage battery modules, 1-03 parts of 60-rod fixing bases, 1-04 parts of M5 screws, 1-05 parts of battery module supports, 1-06 parts of lamp body modules, 1-07 parts of controllers, 1-08 parts of connecting wires, 1-09 parts of inductor nuts, 1-10 parts of inductors, 1-11 parts of controller bases, 1-12 parts of light emitting modules, 1-13 parts of M16 screws, 1-14 parts of M10 screws, 1-15 parts of M8 screws and 1-16 parts of 60-rod mounting supports; m16 nuts 1-17.

The screws 1-01 fix the energy storage battery module 1-02 to the battery module support 1-05, and the M5 screws 1-04 fasten the battery module support 1-05 to the lamp body module 1-06, completing the fixation of the energy storage system.

M8 screw 1-15 is locked to the side of 60 pole mounting bracket 1-16, M16 screw 1-13 passes through 60 pole mounting bracket 1-16 and the hole on 60 pole fixed base 1-03 to engage with M16 nut 1-17 and fasten; m10 screw 1-14 passes through the screw hole on the 60 fixed base 1-03 to fix the 60 fixed base 1-03 to the controller base 1-11, the controller 1-07 is fixed to the controller base 1-11 by glue adhesion, and M5 screw 1-04 fastens the controller base 1-11 to the lamp body module 1-06 to complete the control and fixing of the installation system;

the M5 screw 1-04 fixes the light emitting module 1-12 to the lamp body module 1-06 to complete the fixing of the light emitting module; the inductor nut 1-09 fixes the inductor 1-10 to the lamp body module 1-06, and the controller 1-07, the light emitting module 1-12 and the inductor 1-10 are linked together by the link line 1-08 to form an intelligent light emitting system.

The energy storage battery module comprises a waterproof street line, a metal waterproof street, a hollow end cover, an energy storage battery, a battery box, a non-porous end cover and screws, wherein the energy storage battery is arranged in the battery box, the non-porous end is arranged at one end of the battery box through the screws, the hollow end cover is arranged at the other end of the battery box through the screws, a metal waterproof joint is arranged on an opening of the hollow end cover, and one end of the waterproof joint line penetrates through the metal waterproof street to be connected with the energy storage battery.

As shown in FIG. 2, the energy storage battery module 1-02 comprises a waterproof joint wire 1-0201, a metal waterproof joint 1-0202, a perforated end cover 1-0203, an energy storage battery 1-0204, a battery box 1-0205, a non-perforated end cover 1-0206 and an M3X12 screw 1-0207. The energy storage battery 1-0204 is arranged in the battery box 1-0205, and the waterproof joint line 1-0201 penetrates through the metal waterproof joint 1-0202 and the end cover 1-0203 with holes and then is connected with the energy storage battery 1-0204 to form an external input/output port of the battery. M3x12 screws 1-0207 fix the porous end caps 1-0203 and the non-porous end caps 1-0206 to the two ends of the battery boxes 1-0205 to form the energy storage battery module.

The lamp body module includes corner, short strake, long strake, photovoltaic board and inductor mounting panel, connect one through the corner respectively at the both ends of short strake the one end of long strake, the other end of long strake passes through the corner is connected the both ends of short strake, two are located to the photovoltaic board the long strake river two in the framework that the short strake constitutes, inductor mounting panel detain hang in on the long strake.

As shown in fig. 3, the lamp body module 1-06 includes a corner R1-0601, a short edge 1-0602, a long edge 1-0603, a photovoltaic panel 1-0604, an M6X12 screw 1-0605, and an inductor support plate 1-0606. The photovoltaic panel 1-0604 is clamped on the groove structures of the two side edge strips 1-0603 and the short edge strips 1-0602; M6X12 screws 1-0605 pass through corners R1-0601 to fasten 4 strips together to form a closed lamp body bracket and fix the photovoltaic panel 1-0604. The inductor support plate 1-0606 is hung and buckled on the inner groove of the long side strip 1-0603 to form the lamp body module 1-06.

As shown in fig. 4, the light-emitting module includes a light-emitting module, a heat dissipation bracket, and a waterproof joint line, the light-emitting module is disposed on the heat dissipation module, the heat dissipation bracket is disposed on the heat dissipation module, and one end of the waterproof joint line passes through the heat dissipation bracket and the heat dissipation module to connect with the light-emitting module.

The light-emitting module comprises a lens, a silica gel ring and a light-emitting lamp panel, and the light-emitting lamp panel is arranged on the lens through the silica gel ring; the radiating module comprises a radiating fin and two linking supports, and the two linking supports are respectively arranged at two ends of the radiating fin.

The heat dissipation support comprises a hand-screwed screw, a threading nut, an elastic pad, a rotating support, a flat pad, a fixing support and the hand-screwed screw, one end of the threading nut penetrates through the elastic pad, the rotating support, the flat pad and the fixing support respectively and is fixedly connected with the nut, and the hand-screwed screw is arranged on the fixing support.

The light emitting module 1-12 comprises waterproof joint lines 1-1201, M14 nuts 1-1202, M4 hand screws 1-1203, a module fixing support 1-1204, flat cushions 1-1205, a module rotating support 1-1206, metal waterproof joints 1-1207, modules 1-1208, M3 hand screws 1-1209, M4 screw assemblies 1-1210, M3X5 screws 1-1211, silicone rings 1-1212, M3 lens screws 1-1213, lenses 1-1214, light emitting modules 1-1215, link supports 1-1216, M5 screw assemblies 1-1217, threading nuts 1-1218 and elastic cushions 1-1219. The threading nut 1-1218 penetrates through the elastic cushion 1-1219 flat cushion 1-1205 module, the rotating bracket 1-1206 module and the fixed bracket 1-1204 and then is fastened with the M14 nut 1-1202; m4 hand screw 1-1203 is fixed on the module fixing support 1-1204 on the tooth hole, the metal waterproof joint 1-1207 is fixed on the back of the module 1-1208; M3X5 screws 1-1211 are fixed to the front face of the module 1-1208 through the light emitting module 1-1215, and after the waterproof joint line 1-1201 passes through the threading nut 1-1218 and the metal waterproof joint 1-1207, the wire is welded on the light emitting module 1-1215; the silica gel ring 1-1212 is arranged on the module 1-1208, and the M3 lens screw 1-1213 passes through the lens 1-1214 and is fastened on the front surface of the module 1-1208; the M4 screw assemblies 1-1210 secure the link bracket 1-1216 to the module 1-1208 at both ends and the module 1-1208 and the module rotating bracket 1-1206 are secured together by the M5 screw assemblies 1-1217, and the M3 hand screws 1-1209 are also locked to the module rotating bracket 1-1206 through the side of the link bracket 1-1216, and the whole light emitting module is formed.

The realization of full-angle adjustment comprises the adjustment of the sun irradiation direction and the adjustment of the road surface irradiation direction. The sun irradiation direction is adjustable, namely the front direction of a photovoltaic panel 1-0604 in a lamp body module 1-06 is enabled to be south or north by rotating a lamp pole section direction by 360 degrees after a 60-pole mounting bracket 1-16 is mounted on the lamp pole, and then a lamp is fastened on the lamp pole by penetrating through a pole mounting bracket 1-1660 through M8 screws 1-15; in addition, after the screws 1-13 of the M16 and the nuts 1-17 of the M16 are loosened, the angle between the front surface of the photovoltaic panel 1-0604 in the lamp body module 1-06 and the sunlight can be adjusted by rotating the 60-rod fixing base 1-03 to realize the optimal irradiation effect so as to achieve the purpose of optimal power generation efficiency, as shown in FIG. 5. The road surface irradiation direction is adjustable mainly on the light emitting modules 1-12; as shown in fig. 6, after the light emitting modules 1 to 12 are fixed to the lamp body modules 1 to 06 by the M5 screws 1 to 04, the light emitting modules 1 to 12 are perpendicular to the north-south direction of the earth, and when a road condition parallel to the north-south direction of the earth occurs, the light emitting modules 1 to 12 need to be loosened, as shown in fig. 4, the M4 hand-screwing screws 1 to 1203 rotate the module rotating supports 1 to 1206 and other structures fixed to the module rotating supports 1 to 1206 leftward or rightward along the threading nuts 1 to 1218, and the hand-screwing screws 1 to 1203 are screwed after adjusting the angle parallel to the required road condition; according to the number of lanes and the light distribution angle of the lenses 1-1214, M3 hand screws 1-1209 on two sides of the light emitting modules 1-12 are unscrewed, and the angle of the light emitting surfaces of the light emitting modules 1-12 and the vertical direction of the road surface can be adjusted to adjust the best irradiation effect of the adjusting lamp on the actual road condition, so that the function of adjusting the full angle is realized.

The light-emitting module is modularized, and the light-emitting part of the product is structurally independent through the module. As shown in fig. 1 and 4, the light emitting module 1-12 is fixed to the lamp body module 1-06 by M5 screws 1-04 passing through two screw holes on the module fixing bracket 1-1204 of the light emitting module 1-12, and the waterproof joint line 1-1204 is connected to the link line 1-08 for conduction. If the light-emitting test is poor in the production process, when the light-emitting module needs to be replaced and the product power needs to be upgraded and stacked in the construction later maintenance, the light-emitting module can be quickly and easily realized only by disassembling and assembling the waterproof joint lines 1-1204 and the M5 screws 1-04.

The photovoltaic panel and the lamp body are integrally designed, as shown in fig. 3, the photovoltaic panel 1-0604 is directly installed in the clamping grooves of the long edge 1-0603 and the short edge 1-0602 without extra edge frames, as shown in fig. 7, and the split type tedious process and installation materials are omitted. Meanwhile, as shown in fig. 1, the lamp body module 1-06 forms a protective umbrella to play a certain waterproof role in protecting the light emitting module 1-12, the controller 1-07 and the energy storage battery module 1-02; structure design of lamp body module 1-06 integrating multiple requirements

As shown in FIG. 2, the structure for rapidly switching the stored energy mainly comprises the steps that the stored energy batteries 1-0204 are arranged in the battery boxes 1-0205, the battery end covers 1-0203 with holes and the end covers 1-0206 with no holes are used for forming sealing on the battery end covers 1-0205, and the waterproof joint lines 1-0201 are input and output interfaces of the whole stored energy battery module 1-02. The energy storage battery module 1-02 is fixed to the battery module support 1-05 through the M5 screws 1-04, the battery module support 1-05 is fixed to the lower portion of the lamp body module 1-06 through the other M5 screws 1-04, and the waterproof joint line 1-0201 is in butt joint with the waterproof joint line on the controller 1-07. If the battery is in failure or the service life of the battery is over, the energy storage battery module 1-02 is detached from the battery module bracket 1-05 and replaced by a new module.

The intelligent module design is mainly realized by two parts; one is an inductor nut 1-09, after an inductor 1-10 is fixed on an inductor support plate 1-0606 of a lamp body module 1-06, the inductor 1-10 has a light control and microwave control function, and the on and off of the lamp are realized through intelligent induction; the other is that the controller 1-07 is programmed to control the power consumption of the lamp at different time stages according to the traffic flow and time setting of the road so as to achieve the purpose of reasonably utilizing energy.

The 60-rod fixing base 1-03 is provided with a through hole for passing a screw, and a sawtooth structure is arranged on the side surface for angle adjustment and is provided with scales;

the middle of each battery module support 1-05 is provided with a through hole at the edge, and the through holes are used for assembling screws and energy storage battery module counter bores;

the controller 1-07 is provided with a waterproof joint line and can be butted with other waterproof joint lines of the lamp;

the controller base 1-11 is provided with through holes at the edge for passing screws and a nut column structure in the middle;

the side walls of the 60 mounting brackets 1-16 are provided with screw holes with teeth, the middle part is provided with a mounting hole with the diameter of 60mm, the assembly part of the mounting brackets and the fixed rod is provided with a structure with teeth, and the structure is indicated by an arrow;

the metal waterproof connector 1-0202 is provided with a nut;

the perforated end covers 1-0203 are provided with screw through holes and metal waterproof joint through hole structures, and a layer of silica gel sheet is adhered to the inner side surfaces of the perforated end covers;

the holeless end cover 1-0206 is provided with a screw through hole and a layer of silica gel sheet is pasted on the inner side surface;

the short edge strips 1-0602 are provided with clamping groove structures for clamping the photovoltaic panel;

the long edge strips 1-0603 are provided with clamping groove structures for clamping the photovoltaic panel, and threaded screw holes are formed in the front faces of the clamping groove structures;

the photovoltaic panel 1-0604 is provided with a wiring groove and an output waterproof joint line, and the waterproof joint line can be butted with the controller;

the inductor support plates 1-0606 are provided with bayonet structures and can be fixed with edge strips;

the front surface of the module fixing support 1-1204 is provided with a through hole structure, the middle part of the module fixing support is provided with a scale structure, and the through hole on the scale edge is provided with a tapping tooth;

the front surfaces of the module rotary brackets 1-1206 are provided with round through hole structures, the middle parts of the module rotary brackets are provided with semi-circular arc waist-shaped through holes and arrow gap structures,

the side surfaces of the two ends are provided with semi-circular arc waist-shaped hole through holes and circular hole through hole structures, and the side surfaces are provided with scale structures;

two through holes on the side surfaces of the link supports 1-1216 are used as tooth extraction structures;

the advantages of two existing products in the market are synthesized in a full-angle adjustable mode, the defect that the market is puzzled is overcome, the problems are solved in an all-round mode according to material cost, construction cost and lighting actual road condition requirements, and the product can utilize the high-quality and clean energy of sunlight to the maximum degree in a global place as long as the sun irradiates.

The design of the light-emitting module greatly improves the flexibility of products from production, construction maintenance and application, and is convenient for clients to stock.

The photovoltaic panel and the lamp body are integrated, so that the material cost is effectively saved, and the product reliability is improved.

The characteristic that the energy storage can be switched over fast is mainly to facilitate the maintenance of later maintenance, because the energy storage battery is the block in the solar lamp before the lowest service life.

The intelligent module design enables the energy-saving and emission-reducing characteristics of the product to be brought into full play, and the full use of energy is ensured to the greatest extent.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides an integrative module street lamp of adjustable solar energy of full angle, its characterized in that, integrative module street lamp of adjustable solar energy of full angle includes lamp body module, power module, control module, response module, luminous module and support module, power module, control module, response module and luminous module are located respectively on the lamp body module, the support module is located on the control module, power module electric connection respectively control module, response module and luminous module, the control end of luminous module of telling is connected to the output of control module, the output of response module is connected the input of controller.

2. The all-angle adjustable solar all-in-one module street lamp as claimed in claim 1, wherein the control module comprises a controller, a controller base and a connecting wire, the controller is arranged in the controller base, and the connecting wire is connected with the connecting end of the controller.

3. The all-angle adjustable solar integrated module street lamp according to claim 2, wherein the power supply module comprises an energy storage battery module and a battery module bracket, and the energy storage battery module is arranged on the battery module bracket through screws.

4. The all-angle adjustable solar integrated module street lamp as claimed in claim 3, wherein the induction module comprises an inductor nut and an inductor, and the inductor is arranged on the lamp body module through the inductor nut.

5. The all-angle adjustable solar integrated module street lamp according to claim 4, wherein the bracket module comprises a 60-bar fixing base, a screw, a nut and a 60-bar mounting bracket, and the 60-bar mounting bracket is arranged on the 60-bar fixing base through the screw and the nut.

6. The full-angle adjustable solar integrated module street lamp according to claim 5, wherein the light emitting module comprises a light emitting module, a heat dissipation bracket and a waterproof connector line, the light emitting module is disposed on the heat dissipation module, the heat dissipation bracket is disposed on the heat dissipation module, and one end of the waterproof connector line penetrates through the heat dissipation bracket and the heat dissipation module to connect with the light emitting module.

7. The all-angle adjustable solar integrated module street lamp according to claim 6, wherein the light-emitting module comprises a lens, a silica gel ring and a light-emitting lamp panel, and the light-emitting lamp panel is arranged on the lens through the silica gel ring; the radiating module comprises a radiating fin and two linking supports, and the two linking supports are respectively arranged at two ends of the radiating fin.

8. The all-angle adjustable solar integrated module street lamp as claimed in claim 7, wherein the heat dissipation bracket comprises a hand screw, a threading nut, an elastic pad, a rotating bracket, a flat pad, a fixing bracket and a hand screw, one end of the threading nut passes through the elastic pad, the rotating bracket, the flat pad and the fixing bracket respectively to be fastened and connected with the nut, and the hand screw is arranged on the fixing bracket.

9. The all-angle adjustable solar integrated module street lamp according to claim 8, wherein the energy storage battery module comprises a waterproof street line, a metal waterproof street, an empty end cap, an energy storage battery, a battery box, a non-porous end cap and screws, the energy storage battery is arranged in the battery box, the non-porous end is arranged at one end of the battery box through the screws, the porous end cap is arranged at the other end of the battery box through the screws, the metal waterproof joint is arranged on an opening of the porous end cap, and one end of the waterproof joint line penetrates through the metal waterproof street to be connected with the energy storage battery.

10. The all-angle adjustable solar integrated module street lamp according to claim 9, wherein the lamp body module comprises a corner, a short edge strip, a long edge strip, a photovoltaic panel and an inductor support panel, two ends of the short edge strip are respectively connected with one end of the long edge strip through the corner, the other end of the long edge strip is connected with two ends of the short edge strip through the corner, the photovoltaic panel is arranged in a frame body formed by the two short edge strips of the two long edge strips, and the inductor support panel is buckled and hung on the long edge strip.