CN115143415A

CN115143415A - Complementary wisdom street lamp of wind-solar energy power generation

Info

Publication number: CN115143415A
Application number: CN202211076344.1A
Authority: CN
Inventors: 李炜锋; 刘佳子
Original assignee: Yangzhou Titan Information Technology Co ltd
Current assignee: Yangzhou Titan Information Technology Co ltd
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-10-04

Abstract

The invention discloses a wind-solar power generation complementary intelligent street lamp, which belongs to the technical field of intelligent street lamp design and comprises a lamp pole fixing main body, a working processing box body, a lamp tube height adjusting mechanism, a wind power transmission mechanism and a light energy transmission mechanism. The intelligent street lamp solves the problems that the existing intelligent street lamp is single in function, low in utilization efficiency, inconvenient in adjusting the angle of the solar charging panel in time, damaged by the solar charging panel, inconvenient in adjusting the irradiation angle and height of the lamp tube and the like.

Description

Complementary wisdom street lamp of wind-solar energy power generation

Technical Field

The invention belongs to the technical field of intelligent street lamp design, and particularly relates to a wind-solar power generation complementary intelligent street lamp.

Background

The wisdom street lamp is through applying advanced, high-efficient, reliable power line carrier communication technique and wireless GPRS CDMA communication technique etc. realize the street lamp to the long-range centralized control and the management of street lamp, wisdom street lamp is according to traffic flow automatically regulated luminance, remote lighting control, the trouble is initiatively reported to the police, lamps and lanterns cable theftproof, functions such as remote meter reading, can save electric power resource by a wide margin, promote public lighting management level, save the maintenance cost, wisdom street lamp is the indispensable part on the traffic road, in order driving safety, need set up a large amount of wisdom street lamps in the both sides of road, consequently, need consume a large amount of electric energy, the development utilizes renewable energy for the street lamp illumination use to become urgent problem to be solved, but the wisdom street lamp that exists now has following problem:

A. at present, the intelligent street lamp capable of generating power by utilizing solar energy is seen everywhere in life, but the intelligent street lamp capable of generating power by utilizing solar energy has certain limitation, relatively single function and relatively low utilization efficiency;

B. most of intelligent street lamps cannot adjust the angle of the solar charging panel through wind power, and when the wind power is too large, if the angle of the solar charging panel is not adjusted in time, the solar charging panel is often damaged, so that the maintenance cost is increased;

C. most wisdom street lamp, the highly fixed inconvenience of its fluorescent tube and lamp shade is inconvenient to be adjusted according to the result of use, and the angle regulation that shines of fluorescent tube is also comparatively difficult simultaneously to can reduce the result of use of wisdom street lamp.

Disclosure of Invention

Aiming at the situation and overcoming the defects of the prior art, the invention provides the intelligent street lamp with wind-solar power generation complementation, aiming at solving the problems that the prior intelligent street lamp has single function, low utilization efficiency, and inconvenience in adjusting the angle of the solar charging panel, damage of the solar charging panel, inconvenience in adjusting the irradiation angle and height of the lamp tube and the like.

The technical scheme adopted by the invention is as follows: the invention provides a wind-solar power generation complementary intelligent street lamp, which comprises a lamp post fixing main body and a work processing box body, wherein the work processing box body is arranged at the top end of the lamp post fixing main body, and is characterized in that: the solar lamp post comprises a lamp tube height adjusting mechanism, a wind power conducting mechanism and a light energy conducting mechanism, wherein an internal through groove I is formed in a lamp post fixing main body, the lamp tube height adjusting mechanism is arranged in the internal through groove I, the wind power conducting mechanism is arranged in a work processing box body, the light energy conducting mechanism is arranged at the top of the work processing box body, a first lifting auxiliary groove is formed in one side of the outer wall of the lamp post fixing main body, a limiting fixing triangular plate is arranged at the joint of the lamp post fixing main body and the work processing box body, external wind power drives an auxiliary fan blade to rotate, mechanical energy is rotated into electric energy through a wind power auxiliary generator, the voltage generated by the wind power auxiliary generator is increased along with the increase of the wind power, the current of a conducting and power transmitting ring connected with the outer wall of the fixing block is increased, the fixing block and the conducting and power transmitting ring integrally form an electromagnet, the magnetism of the electromagnet is increased, the internal attraction of the fixing and adjusting plate is increased, the lifting plate is guided and adjusted to be reduced, so that the two solar energy conducting plates of the light energy conducting mechanism are overlapped, the two solar energy charging plates convert the electric energy into electric energy, the electric energy of the solar energy conducting mechanism to control a light energy sensor, and the light intensity of the solar energy sensor, so as to control the solar energy sensor, the solar energy charging mechanism, the solar energy charging device can be supplied to the light intensity of the solar energy sensor, and light intensity control motor, and the solar energy sensor, the light intensity control motor, and the light intensity control motor can be stably controlled by the light intensity of the solar energy sensor, utilize fluorescent tube height adjusting mechanism when adjusting the lamp shade, rotate the adjusting screw pole, arouse a series of linkage actions to also can adjust the contained angle of lamp shade, and then change the angle that shines of fluorescent tube, be convenient for change according to shining the demand in a flexible way.

Preferably, the lamp tube height adjusting mechanism comprises a driving motor, a fixed connecting rod, a vertical fixing plate, an adjusting threaded rod, an L-shaped connecting adjusting plate, a concave auxiliary fixing plate, a connecting rotary plate and a street lamp protective shell, the driving motor is arranged at the top of the inner wall of the inner through groove I, the output end of the driving motor is provided with the rotating threaded rod, the outer wall of the rotating threaded rod is provided with a connecting threaded sleeve, the fixed connecting rod is arranged on one side of the connecting threaded sleeve, one end of the fixed connecting rod extends to the outside of the lifting auxiliary groove I, the vertical fixing plate is arranged at one end of the fixed connecting rod, the adjusting threaded rod is arranged in the vertical fixing plate, the L-shaped connecting adjusting plate is arranged at the bottom end of the adjusting threaded rod, the concave auxiliary fixing plate is arranged on the outer wall of the bottom of the vertical fixing plate, the connecting rotary plate is arranged in the concave auxiliary fixing plate, the street lamp protective shell is arranged on one side of the concave auxiliary fixing plate, a bar-shaped sliding groove is formed in the top surface of the street lamp protective shell, the other end of the L-shaped connecting adjusting plate is arranged in the bar-shaped sliding groove, the output end of the driving motor can guide the rotating connecting adjusting threaded rod, the rotating connecting threaded sleeve can drive the connecting threaded sleeve to move the connecting adjusting threaded rod to move the connecting adjusting threaded sleeve to move the connecting threaded sleeve, the connecting threaded rod, the L-adjusting threaded sleeve, the L-adjusting threaded rod to drive the L-shaped connecting adjusting threaded rod to move the adjusting threaded sleeve to move the L-shaped connecting adjusting threaded sleeve to control the L-adjusting threaded rod to move the L-shaped adjusting plate to move the adjusting plate to control the adjusting plate to move the adjusting threaded sleeve to move the L-shaped adjusting plate to move the street lamp to move the street lamp to move the adjusting plate to move the street lamp.

As a further preferred aspect of the present invention, the wind power conducting mechanism includes a connecting fixing block, a conducting power transmission ring, a wind power auxiliary generator and an auxiliary blade, the connecting fixing block is disposed inside the working processing box, the conducting power transmission ring is wound around an outer wall of the connecting fixing block, the wind power auxiliary generator is disposed on one side of the connecting fixing block, a wind power generation rotating shaft is disposed at an output end of the wind power auxiliary generator, another end of the wind power generation rotating shaft extends to an outside of the working processing box and is connected to the auxiliary blade, the auxiliary blade is driven to rotate under an external normal wind force, the auxiliary blade conducts a current generated by a rotation operation to an inside of the wind power auxiliary generator for storage, when the external wind force is strong, the auxiliary blade accelerates rotation, converts generated mechanical energy into electric energy to be stored in the inside of the wind power auxiliary generator, and a voltage generated by the wind power auxiliary generator increases accordingly, so that the current of the conducting power transmission ring connected to the outer wall of the fixing block increases, which leads to integrally form an electromagnet, and reduces a manufacturing cost, thereby assisting the work of the light power conducting mechanism.

Preferably, the light energy conduction mechanism comprises a fixed adjusting plate, an adjusting lifting plate, a fixed lifting rod, an auxiliary limiting block, an auxiliary limiting column, an adjusting connecting rod, a solar charging panel and a light sensor, the fixed adjusting plate is arranged in the work processing box body and located above the connecting fixing block, the adjusting lifting plate is arranged in the fixed adjusting plate, the fixed lifting rod is arranged on the top end of the adjusting lifting plate, the auxiliary limiting block is arranged on the top end of the fixed lifting rod, the auxiliary limiting column is arranged at the top of the work processing box body, the adjusting connecting rod is arranged between the auxiliary limiting block and the auxiliary limiting column, the solar charging panel is arranged on the top end of the auxiliary limiting block, the light sensor is arranged on the surface of the solar charging panel, when external wind power is strong, the light energy conduction mechanism is connected with the fixing block and the conduction power transmission ring integrally to form an electromagnet, the internal attraction force of the fixed adjusting plate is increased, the adjusting lifting plate is guided to descend, the two solar charging panels of the light energy conduction mechanism are overlapped, the resistance of the solar charging panel to the air flow is reduced, the solar charging panel is protected, after the external wind power weakening effect is reduced, the internal attraction of the fixed adjusting plate is reduced, the adjusting plate, the solar charging plate is reduced, and the solar charging plate is driven by the solar charging plate to ascend and descend, and the solar charging plate to ascend and descend.

As a further preferred aspect of the invention, a bearing connection seat is arranged at the bottom of the inner wall of the first internal through groove, the bottom end of the rotary threaded rod is arranged inside the bearing connection seat, a second internal through groove is formed inside the vertical fixing plate, a second lifting auxiliary groove is formed on one side of the outer wall of the vertical fixing plate, one end of the adjusting threaded rod penetrates through the top of the second internal through groove and extends into the vertical fixing plate, a first auxiliary rotating shaft is arranged on the inner wall of the concave auxiliary fixing plate, one side of the connecting rotary plate is welded on the outer wall of the first auxiliary rotating shaft, an auxiliary fixing slide rod is arranged inside the strip-shaped sliding groove, an auxiliary connecting block is arranged on the outer wall of the auxiliary fixing slide rod, the other end of the L-shaped connecting adjusting plate is welded on the top of the auxiliary connecting block, when the L-shaped connecting adjusting plate rises, the auxiliary connecting block is driven to move towards one side close to the vertical fixing plate on the outer wall of the auxiliary fixing slide rod, the connecting rotary plate drives the street lamp protection shell to move upwards under the action of the first auxiliary rotating shaft, thereby expanding the irradiation angle of the lamp tube, and when the L-shaped connecting adjusting plate falls, the auxiliary connecting adjusting block drives the auxiliary connecting block to move towards one side far away from the outer wall of the vertical fixing slide rod, thereby reducing the irradiation angle of the lamp tube, and adjusting the street lamp tube.

Furthermore, four supporting fixing columns are respectively arranged at four corners of the bottom surface of the wind-driven auxiliary generator, the tops of the four supporting fixing columns are respectively welded to the bottom of the wind-driven auxiliary generator, the wind-driven auxiliary generator is electrically connected with the conduction power transmission ring, the supporting fixing columns can provide stability for the whole wind-driven auxiliary generator, and current generated by the wind-driven auxiliary generator can be transmitted to the surface of the conduction power transmission ring, so that the connecting fixing block and the conduction power transmission ring form an electromagnet, the light energy conduction mechanism is subjected to auxiliary work, and the whole device is automatically operated.

As a further preferable mode of the invention, the top and the bottom of the inner wall of the lamp post fixing main body are respectively provided with a first buffer rod, the outer wall of the first buffer rod is wound with a first buffer spring, the inner cavity of the lamp post fixing main body is provided with an auxiliary fixing rod, the top end and the bottom end of the auxiliary fixing rod are respectively arranged on the first buffer rod, the inner part of the fixing connecting rod is sleeved on the outer wall of the auxiliary fixing rod, and the pressure applied to the auxiliary fixing rod is buffered by utilizing the self-telescopic properties of the first buffer rod and the first buffer spring, so that the fixing effect is provided for the fixing connecting rod, and the influence on the use effect of illumination caused by the movement of the fixing connecting rod is avoided.

Furthermore, an adjusting control cavity is arranged inside the fixed adjusting plate, auxiliary vertical sliding grooves are respectively arranged on two sides of the inner wall of the adjusting control cavity, two ends of the adjusting lifting plate are respectively arranged inside the two auxiliary vertical sliding grooves, two ends of the top of each auxiliary vertical sliding groove are respectively provided with a second buffer rod, a second buffer spring is wound on the outer wall of each second buffer rod, the top end of each second buffer rod is arranged at the top inside the fixed adjusting plate, an auxiliary rotating shaft two is arranged at the joint of the top end of the fixed lifting rod and the bottom end of the auxiliary limiting block, an auxiliary rotating shaft three is arranged at the joint of the auxiliary limiting column and the adjusting connecting rod, and the other end of the adjusting connecting rod is welded on the outer wall of the auxiliary limiting block, adjust the both ends of lifter plate and slide in the inside of supplementary vertical spout, thereby reciprocate in the inside of fixed regulating plate, at the in-process that adjusts the lifter plate and reciprocate, buffer rod two and buffer spring two can cushion rocking of production, avoid adjusting the lifter plate and reciprocate and cause the damage of fixed regulating plate, fixed lifter fixed mounting is in the top of adjusting the lifter plate, through adjusting the removal of lifter plate in fixed regulating plate inside, thereby can drive the lift of fixed lifter, at fixed lifter lift in-process, supplementary spacing post drives the rotation of adjusting the connecting rod through supplementary axis of rotation three, fixed lifter can drive the rotation of supplementary stopper through supplementary axis of rotation two, and then the angle change that the adjusting the connecting rod can drive solar charging panel.

As preferred, one side of job processing box inner wall bottom is equipped with the battery, the opposite side of job processing box inner wall bottom is equipped with the illumination controller, be equipped with the power transmission line between battery and the illumination controller, electric connection between illumination sensor and the illumination controller, battery, illumination controller and illumination sensor in this application all adopt ripe prior art, and the theory of operation of battery, illumination controller and illumination sensor is that this technical field staff is familiar, and its theory of operation is not too much stated here, and the battery also turns into the electric energy that produces and conducts the line behind the stable voltage and supply with illumination sensor and use, thereby illumination sensor can accept illumination intensity and give illumination controller signal transmission to thereby accomplish subsequent fluorescent tube height control mechanism's work, need not artifically to adjust.

As a further preferable mode of the invention, four corners of the bottom of the outer wall of the lamp post fixing main body are respectively provided with fixing support rods with the same size, one ends of the four fixing support rods are respectively welded on the outer wall of the lamp post fixing main body, the bottoms of the four fixing support rods are respectively provided with bottom anti-skidding fixing pads which are matched with each other, the bottoms of the four bottom anti-skidding fixing pads are respectively provided with anti-skidding patterns, the lamp post fixing main body is fixed through the four fixing support rods with the same size, and the friction between the bottom anti-skidding fixing pads and the ground is increased by the anti-skidding patterns, so that the stability effect on the ground is improved.

The invention with the structure has the following beneficial effects:

(1) The external wind power drives the auxiliary fan blades to rotate, the mechanical energy is rotated into electric energy through the wind power auxiliary generator, along with the increase of wind power, the voltage generated by the wind power auxiliary generator is increased, the current of a conduction power transmission ring connected with the outer wall of the fixed block is increased, the fixed block and the conduction power transmission ring are integrally connected to form an electromagnet, the magnetism of the electromagnet is increased, the internal attraction of the fixed adjusting plate is enhanced, the guide adjusting lifting plate is lowered, two solar charging plates of the light energy conduction mechanism are overlapped, the resistance of the solar charging plates to air flow is reduced, the solar energy is converted into the electric energy by the two solar charging plates, the converted electric energy is transmitted to the inside of the storage battery, the storage battery converts the generated electric energy into stable voltage and then supplies the stable voltage to the lamp tube, the storage battery also converts the generated electric energy into the stable voltage and then supplies the stable voltage to the light sensor, the light sensor can receive the light intensity and then transmits a signal to the light controller, the light controller can control the storage battery to supply power to the driving motor and enable the driving motor to work, the driving motor to rotate the rotating motor, the light tube, the rotating of the light tube height adjusting mechanism can be adjusted while the lamp shade is adjusted, and the lamp shade is adjusted.

(2) External wind-force is stronger, under the effect of connecting the whole constitution electro-magnet of fixed block and conduction power transmission circle, magnetism along with the electro-magnet increases, make the inside appeal reinforcing of fixed regulating plate, the lifter plate descends is adjusted in the guide, make two solar charging panel coincidence of light energy conduction mechanism, reduce solar charging panel itself to the resistance of air current, itself to two solar charging panel provides the guard action, external wind-force weakens the back, the magnetism of electro-magnet reduces, make the inside appeal of fixed regulating plate reduce, on the lifter plate is adjusted in the guide, in-process rising and decline adjusting the lifter plate, can drive fixed lifter and rise simultaneously and descend, supplementary spacing post can restrict solar charging panel through adjusting the connecting rod.

(3) The supporting and fixing column can provide stability for the whole wind-driven auxiliary generator, and current generated by the wind-driven auxiliary generator can be transmitted to the surface of the conduction power transmission ring, so that the fixing block and the conduction power transmission ring are connected to form an electromagnet, auxiliary work is carried out on the light energy conduction mechanism, and the whole device can automatically work.

(4) Driving motor's output can guide rotatory threaded rod to rotate, and rotatory threaded rod rotates and to drive connecting thread cover rotatory movement about its outer wall, and fixed link rod can drive the street lamp protective housing and carry out the altitude mixture control under the connecting thread cover removes the effect, twists and moves adjusting threaded rod, and adjusting threaded rod drives the L shape of its bottom and connects the regulating plate and transfer from top to bottom, connects the angle modulation of the street lamp protective housing on next step of the up-down transfer control of regulating plate through L shape.

(5) Utilize the flexible nature of buffer beam one and buffer spring one itself, cushion the pressure that supplementary dead lever received to provide the fixed action to fixed link, avoid causing fixed link's removal, influence the result of use of illumination.

(6) Under the effect of external normal wind power, can drive auxiliary fan blade and rotate, auxiliary fan blade can be stored the inside of the electric current conduction to the supplementary generator of wind-force that rotatory work produced, when external wind-force is stronger, auxiliary fan blade can accelerate the rotation, the mechanical energy who will produce is the electric energy and stores in the inside of the supplementary generator of wind-force, the voltage that the supplementary generator of wind-force produced can increase thereupon, make the electric current increase of the conduction power transmission circle of connecting the fixed block outer wall, lead to connecting the whole electro-magnet that constitutes of fixed block and conduction power transmission circle, and the manufacturing cost is reduced, thereby can carry out the auxiliary action to the work of light energy conduction mechanism.

(7) The battery in this application, illumination controller and illumination sensor all adopt ripe prior art, the battery, illumination controller and illumination sensor's theory of operation is that this technical field staff is familiar with, its theory of operation does not describe much here, the battery also turns into the electric energy that produces and supplies with illumination sensor to use by the stable back conducting wire of voltage, thereby illumination sensor can receive illumination intensity and give illumination controller signal transmission, thereby accomplish subsequent fluorescent tube height control mechanism's work, need not the manual work and adjust.

(8) When the regulating plate ascended in L shape connection, it moved to one side that is close to vertical fixed plate to drive the auxiliary connection piece at the outer wall of auxiliary fixed slide bar, connect the rotor plate under the effect of auxiliary axis of rotation one, drive street lamp protective housing rebound, thereby enlarge the angle of shining of fluorescent tube, when the regulating plate descends is connected in L shape, drive the auxiliary connection piece and remove to one side of keeping away from vertical fixed plate at the outer wall of auxiliary fixed slide bar, connect the rotor plate under the effect of auxiliary axis of rotation one, drive the downward movement of street lamp protective housing, thereby reduce the angle of shining of fluorescent tube, through the angle of adjusting the street lamp protective housing, accomplish the regulation to fluorescent tube irradiation range.

(9) The fixed main part of lamp pole is fixed through four fixed stay poles of the same size to bottom antiskid fixed bolster utilizes the friction of anti-skidding line increase and ground, improves subaerial stable effect.

(10) Adjust the both ends of lifter plate and slide in the inside of supplementary vertical spout, thereby reciprocate in the inside of fixed regulating plate, at the in-process that adjusts the lifter plate and reciprocate, buffer rod two and buffer spring two can cushion rocking of production, avoid adjusting the lifter plate and reciprocate and cause the damage of fixed regulating plate, fixed lifter fixed mounting is in the top of adjusting the lifter plate, through adjusting the removal of lifter plate in fixed regulating plate inside, thereby can drive the lift of fixed lifter, at fixed lifter lift in-process, supplementary spacing post drives the rotation of adjusting the connecting rod through supplementary axis of rotation three, fixed lifter can drive the rotation of supplementary stopper through supplementary axis of rotation two, and then the angle change that the adjusting the connecting rod can drive solar charging panel.

Drawings

FIG. 1 is a front view of a wind-solar hybrid intelligent street lamp according to the present invention;

FIG. 2 is a side view of a wind-solar hybrid intelligent street lamp according to the present invention;

FIG. 3 is a top view of a wind-solar hybrid intelligent street lamp according to the present invention;

FIG. 4 is a perspective view of a wind-solar hybrid intelligent street lamp according to the present invention;

FIG. 5 isbase:Sub>A cross-sectional view taken along section line A-A of FIG. 1;

FIG. 6 is a cross-sectional view taken along section line B-B of FIG. 1;

FIG. 7 is a cross-sectional view taken along section line C-C of FIG. 2;

FIG. 8 is an enlarged view of a portion of FIG. 5 at I;

FIG. 9 is an enlarged view of a portion of FIG. 7 at II;

fig. 10 is an exploded schematic view of a wind-solar hybrid intelligent street lamp according to the present invention.

Wherein, 1, the lamp post fixes the main body; 2. fixing the support rod; 3. a bottom anti-slip fixing pad; 4. an inner through groove I; 5. a drive motor; 6. rotating the threaded rod; 7. a bearing connecting seat; 8. connecting a threaded sleeve; 9. a fixed connecting rod; 10. a first lifting auxiliary groove; 11. a vertical fixing plate; 12. an inner through groove II; 13. adjusting the threaded rod; 14. a second lifting auxiliary groove; 15. an L-shaped connecting adjusting plate; 16. a concave auxiliary fixing plate; 17. a first auxiliary rotating shaft; 18. connecting the rotating plate; 19. a street lamp protective housing; 20. a strip-shaped chute; 21. auxiliary fixing of the sliding rod; 22. an auxiliary connecting block; 23. limiting and fixing the set square; 24. a work processing box body; 25. connecting a fixed block; 26. a conductive power transmission coil; 27. supporting and fixing columns; 28. a wind-assisted generator; 29. a wind power generation rotating shaft; 30. auxiliary fan blades; 31. a storage battery; 32. a power conducting wire; 33. an illumination controller; 34. fixing the adjusting plate; 35. adjusting the control cavity; 36. an auxiliary vertical chute; 37. adjusting the lifting plate; 38. a first buffer spring; 39. a first buffer rod; 40. fixing the lifting rod; 41. a second auxiliary rotating shaft; 42. an auxiliary limiting block; 43. an auxiliary limit post; 44. adjusting the connecting rod; 45. a third auxiliary rotating shaft; 46. a solar charging panel; 47. an illumination sensor; 48. a lamp tube height adjusting mechanism; 49. a wind conducting mechanism; 50. a light energy conducting mechanism; 51. an auxiliary fixing rod; 52. a second buffer spring; 53. and a second buffer rod.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

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

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention.

As shown in fig. 1-10, the invention provides a wind-solar hybrid intelligent street lamp, which comprises a lamp post fixing main body 1 and a working processing box body 24, wherein the working processing box body 24 is arranged at the top end of the lamp post fixing main body 1, and is characterized in that: the lamp post fixing device further comprises a lamp tube height adjusting mechanism 48, a wind power conducting mechanism 49 and a light energy conducting mechanism 50, wherein an internal through groove I4 is formed in the lamp post fixing main body 1, the lamp tube height adjusting mechanism 48 is arranged in the internal through groove I4, the wind power conducting mechanism 49 is arranged in the work processing box body 24, the light energy conducting mechanism 50 is arranged at the top of the work processing box body 24, a lifting auxiliary groove I10 is arranged at one side of the outer wall of the lamp post fixing main body 1, a limiting fixing triangular plate 23 is arranged at the joint of the lamp post fixing main body 1 and the work processing box body 24, external wind power drives the auxiliary fan blades 30 to rotate, mechanical energy is converted into electric energy through the wind power auxiliary generator 28, along with the increase of wind power, the voltage generated by the wind power auxiliary generator 28 is increased, so that the current of the conducting power transmission ring 26 connected with the outer wall of the fixing block 25 is increased, and the fixing block 25 and the conducting power transmission ring 26 are integrally formed into an electromagnet, the magnetism of the electromagnet is increased, the internal attraction of the fixed adjusting plate 34 is enhanced, the guiding adjusting lifting plate 37 descends, so that the two solar charging plates 46 of the light energy conduction mechanism 50 are overlapped, the resistance of the solar charging plates 46 to the air flow is reduced, the two solar charging plates 46 convert the solar energy into the electric energy, the converted electric energy is transmitted to the inside of the storage battery 31, the storage battery 31 converts the generated electric energy into stable voltage and then supplies the stable voltage to the lamp tube, the storage battery 31 also converts the generated electric energy into stable voltage and then supplies a conducting wire to the illumination sensor 47 for use, the illumination sensor 47 can receive the illumination intensity so as to transmit a signal to the illumination controller 33, the illumination controller 33 can control the storage battery 31 to supply power to the driving motor 5 and enable the driving motor 5 to work, and the driving motor 5 enables the rotary threaded rod 6 to rotate, thereby can regulate and control the height of fluorescent tube height adjusting mechanism 48, utilize fluorescent tube height adjusting mechanism 48 when adjusting the lamp shade, rotate adjusting threaded rod 13, arouse a series of linkage actions to also can adjust the contained angle of lamp shade, and then change the angle of shining of fluorescent tube, be convenient for change according to shining the demand is nimble.

As shown in fig. 1 to 10, the wind conducting mechanism 49 includes a connecting fixing block 25, a conducting power ring 26, a wind-driven auxiliary generator 28 and an auxiliary blade 30, the connecting fixing block 25 is disposed inside the work processing box 24, the conducting power ring 26 is disposed around the outer wall of the connecting fixing block 25, the wind-driven auxiliary generator 28 is disposed on one side of the connecting fixing block 25, a wind-driven power rotating shaft 29 is disposed at an output end of the wind-driven auxiliary generator 28, the other end of the wind-driven power rotating shaft 29 extends to the outside of the work processing box 24 and is connected to the auxiliary blade 30, the auxiliary blade 30 is driven to rotate under the action of normal external wind force, the auxiliary blade 30 conducts and stores the current generated by the rotating work to the inside of the wind-driven auxiliary generator 28, when the external wind force is strong, the auxiliary blade 30 accelerates the rotation, the generated mechanical energy is converted into the electric energy stored inside the auxiliary generator 28, the voltage generated by the wind-driven auxiliary generator 28 is increased accordingly, the current of the conducting power ring 26 connected to the outer wall of the fixing block 25 is increased, the connecting fixing block 25 and the conducting ring 26 integrally forms an electromagnet, thereby reducing the manufacturing cost and assisting the work of the light energy conducting mechanism 50.

As shown in fig. 1 to 10, four corners of the bottom surface of the wind-driven auxiliary generator 28 are respectively provided with supporting and fixing columns 27, tops of the four supporting and fixing columns 27 are respectively welded at the bottom of the wind-driven auxiliary generator 28, the wind-driven auxiliary generator 28 is electrically connected with the conducting and power transmitting ring 26, the supporting and fixing columns 27 can provide stability for the whole wind-driven auxiliary generator 28, and current generated by the wind-driven auxiliary generator 28 can be transmitted to the surface of the conducting and power transmitting ring 26, so that the connecting and fixing block 25 and the conducting and power transmitting ring 26 form an electromagnet, and the light energy conducting mechanism 50 can be assisted to work, thereby realizing the whole automatic operation of the device.

As shown in fig. 1-10, the light energy conducting mechanism 50 includes a fixed adjusting plate 34, an adjusting lifting plate 37, a fixed lifting rod 40, an auxiliary limiting block 42, an auxiliary limiting post 43, an adjusting connecting rod 44, a solar charging plate 46 and a light sensor 47, the fixed adjusting plate 34 is disposed inside the work processing box 24 and above the connecting block 25, the adjusting lifting plate 37 is disposed inside the fixed adjusting plate 34, the fixed lifting rod 40 is disposed on the top end of the adjusting lifting plate 37, the auxiliary limiting block 42 is disposed on the top end of the fixed lifting rod 40, the auxiliary limiting post 43 is disposed on the top end of the work processing box 24, the adjusting connecting rod 44 is disposed between the auxiliary limiting block 42 and the auxiliary limiting post 43, the solar charging plate 46 is disposed on the top end of the auxiliary limiting block 42, the light sensor 47 is disposed on the surface of the solar charging plate 46, when the external wind power is strong, under the action of the electromagnet integrally formed by the connecting block 25 and the conductive power transmission ring 26, the magnetic force of the electromagnet is increased, the internal attraction force of the fixed adjusting plate 34 is enhanced, the guiding adjusting lifting plate 37 is lowered, so that the two solar charging plates 46 coincide with the magnetic attraction force of the fixed adjusting plate 34, the lifting plate 34, the air flow is reduced, the adjusting plate 34, the magnetic force of the solar charging plate is reduced, the magnetic force of the adjusting plate 34 when the solar charging plate 34 is reduced, the lifting plate 34, and the lifting plate 34, the lifting plate 34 is reduced, and the magnetic force is reduced, and the lifting plate, the magnetic force is reduced by the magnetic force of the adjusting plate, and the lifting plate when the lifting plate, the lifting plate 34.

As shown in fig. 1-10, an adjusting control cavity 35 is disposed inside the fixed adjusting plate 34, two auxiliary vertical sliding grooves 36 are respectively disposed on two sides of an inner wall of the adjusting control cavity 35, two ends of the adjusting lifting plate 37 are respectively disposed inside the two auxiliary vertical sliding grooves 36, two ends of a top of each auxiliary vertical sliding groove 36 are respectively provided with a second buffer rod 53, a second buffer spring 52 is wound around an outer wall of each second buffer rod 53, a top end of each second buffer rod 53 is disposed at a top portion inside the fixed adjusting plate 34, an auxiliary rotating shaft second 41 is disposed at a joint of a top end of the fixed lifting rod 40 and a bottom end of the auxiliary limiting block 42, an auxiliary rotating shaft third 45 is disposed at a joint of the auxiliary limiting column 43 and the adjusting connecting rod 44, the other end of the adjusting connecting rod 44 is welded to an outer wall of the auxiliary limiting block 42, two ends of the adjusting lifting plate 37 slide inside the auxiliary vertical sliding grooves 36, thereby reciprocate in the inside of fixed regulating plate 34, at the in-process that adjusts the lifter plate 37 and reciprocate, two buffer rod 53 and two 52 buffer spring can cushion rocking of production, avoid adjusting the lifter plate 37 and reciprocate and cause the damage of fixed regulating plate 34, fixed lifter 40 fixed mounting is on the top of adjusting the lifter plate 37, through adjusting the removal of lifter plate 37 in fixed regulating plate 34 inside, thereby can drive the lift of fixed lifter 40, at fixed lifter 40 lift in-process, supplementary spacing post 43 drives the rotation of adjusting connecting rod 44 through supplementary axis of rotation three 45, fixed lifter 40 can drive the rotation of supplementary stopper 42 through supplementary axis of rotation two 41, and then adjusting connecting rod 44 can drive the angle change of solar charging panel 46.

As shown in fig. 1 to 10, the lamp height adjusting mechanism 48 includes a driving motor 5, a fixed connecting rod 9, a vertical fixing plate 11, an adjusting threaded rod 13, an L-shaped connection adjusting plate 15, a concave auxiliary fixing plate 16, a connection rotating plate 18 and a street lamp protective shell 19, the driving motor 5 is disposed on the top of the inner wall of the internal through groove one 4, the output end of the driving motor 5 is provided with the rotating threaded rod 6, the outer wall of the rotating threaded rod 6 is provided with a connection threaded sleeve 8, the fixed connecting rod 9 is disposed on one side of the connection threaded sleeve 8, one end of the fixed connecting rod 9 extends to the outside of the lifting auxiliary groove one 10, the vertical fixing plate 11 is disposed at one end of the fixed connecting rod 9, the adjusting threaded rod 13 is disposed inside the vertical fixing plate 11, the L-shaped connection adjusting plate 15 is disposed at the bottom end of the adjusting threaded rod 13, the concave auxiliary fixing plate 16 is disposed on the outer wall of the bottom of the vertical fixing plate 11, the connecting rotary plate 18 is arranged inside the concave auxiliary fixing plate 16, the street lamp protection shell 19 is arranged on one side of the concave auxiliary fixing plate 16, a strip-shaped sliding groove 20 is formed in the top surface of the street lamp protection shell 19, the other end of the L-shaped connecting adjusting plate 15 is arranged inside the strip-shaped sliding groove 20, the output end of the driving motor 5 can guide the rotary threaded rod 6 to rotate, the rotary threaded rod 6 can drive the connecting threaded sleeve 8 to rotate up and down on the outer wall of the rotary threaded sleeve 6, the fixed connecting rod 9 can drive the street lamp protection shell 19 to adjust the height under the moving effect of the connecting threaded sleeve 8, the adjusting threaded rod 13 is screwed, the adjusting threaded rod 13 drives the L-shaped connecting adjusting plate 15 at the bottom end to move up and down, and accordingly the angle adjustment of the street lamp protection shell 19 on the next step is controlled through the up and down movement of the L-shaped connecting adjusting plate 15.

As shown in fig. 1 to 10, a bearing connection seat 7 is disposed at the bottom of an inner wall of a first internal through groove 4, a second internal through groove 12 is disposed inside a vertical fixing plate 11, a second lifting auxiliary groove 14 is disposed at one side of an outer wall of the vertical fixing plate 11, one end of an adjusting threaded rod 13 penetrates through the top of the second internal through groove 12 and extends into the vertical fixing plate 11, a first auxiliary rotating shaft 17 is disposed on an inner wall of a concave auxiliary fixing plate 16, one side of a connecting rotating plate 18 is welded to an outer wall of the first auxiliary rotating shaft 17, an auxiliary fixing sliding rod 21 is disposed inside a bar-shaped sliding groove 20, an auxiliary connecting block 22 is disposed on an outer wall of the auxiliary fixing sliding rod 21, the other end of the L-shaped connecting adjusting plate 15 is welded to the top of the auxiliary connecting block 22, when the L-shaped connecting adjusting plate 15 ascends, the auxiliary connecting block 22 is driven to move towards one side close to the vertical fixing plate 11 at the outer wall of the auxiliary fixing sliding rod 21, the connecting rotating plate 18 is driven to move upwards under the action of the auxiliary rotating shaft 17, thereby expanding the irradiation angle of the lamp tube, when the L-shaped connecting adjusting plate 15 descends, the auxiliary connecting block 22 drives the lamp to move towards one side far away from the side of the vertical fixing plate 11, the lamp protection shell 19, and the lamp protection shell 19, thereby reducing the irradiation angle of the lamp.

As shown in fig. 1, fig. 2, fig. 4, fig. 5 and fig. 7, the bottom four corners of the outer wall of the lamp pole fixing main body 1 is respectively provided with the same size of the fixing support rods 2, one end of each of the four fixing support rods 2 is respectively welded on the outer wall of the lamp pole fixing main body 1, the bottoms of the four fixing support rods 2 are respectively provided with the bottom anti-skid fixing pads 3 in a matched manner, the bottoms of the four bottom anti-skid fixing pads 3 are respectively provided with anti-skid patterns, four anti-skid patterns are arranged at the bottom of the bottom anti-skid fixing pads 33, the fixing of the lamp pole fixing main body 1 is realized through the four same size of the fixing support rods 2, and the bottom anti-skid fixing pads 3 utilize the anti-skid patterns to increase the friction with the ground, so as to improve the stabilizing effect on the ground.

As shown in fig. 5, 6 and 7, a storage battery 31 is disposed on one side of the bottom of the inner wall of the work processing box 24, an illumination controller 33 is disposed on the other side of the bottom of the inner wall of the work processing box 24, a power transmission line 32 is disposed between the storage battery 31 and the illumination controller 33, and the illumination sensor 47 is electrically connected to the illumination controller 33, the storage battery 31, the illumination controller 33, and the illumination sensor 47 all adopt the mature prior art, the working principles of the storage battery 31, the illumination controller 33, and the illumination sensor 47 are well known to those skilled in the art, and the working principles are not described too much, the storage battery 31 also converts the generated electric energy into a stable voltage and then transmits the stable voltage to the illumination controller 47, and the illumination sensor 47 can receive the illumination intensity and transmit a signal to the illumination controller 33, so as to complete the subsequent operation of the lamp height adjusting mechanism 48 without manual adjustment.

As shown in fig. 5, the top and the bottom of the inner wall of the lamp pole fixing body 1 are both provided with a first buffer rod 39, the outer wall of the first buffer rod 39 is wound with a first buffer spring 38, the inner cavity of the lamp pole fixing body 1 is provided with an auxiliary fixing rod 51, the top end and the bottom end of the auxiliary fixing rod 51 are respectively arranged on the first buffer rod 39, the outer wall of the auxiliary fixing rod 51 is arranged on the inner sleeve of the fixing connecting rod 9, the self-telescopic property of the first buffer rod 39 and the first buffer spring 38 is utilized, the pressure applied to the auxiliary fixing rod 51 is buffered, thereby fixing the fixing connecting rod 9, the movement of the fixing connecting rod 9 is avoided, and the use effect of illumination is influenced.

When the lamp post fixing device is used specifically, a user places the device in an area needing illumination and warning, the lamp post fixing main body 1 is fixed through the four fixing support rods 2 with the same size, and the bottom anti-skidding fixing pad 3 utilizes anti-skidding lines to increase friction with the ground, so that the stability effect on the ground is improved;

under the action of normal external wind force, the auxiliary fan blades 30 are driven to rotate, the auxiliary fan blades 30 conduct current generated by rotation to the interior of the wind-driven auxiliary generator 28 for storage, when the external wind force is strong, the auxiliary fan blades 30 can rotate quickly, the generated mechanical energy is converted into electric energy to be stored in the interior of the wind-driven auxiliary generator 28, the voltage generated by the wind-driven auxiliary generator 28 can be increased accordingly, so that the current of the conduction power transmission ring 26 connected with the outer wall of the fixed block 25 is increased, the fixed block 25 and the conduction power transmission ring 26 are connected to integrally form an electromagnet, and the work of the light energy conduction mechanism 50 can be assisted;

the internal attraction of the fixed adjusting plate 34 is enhanced, and the guiding adjusting lifting plate 37 descends, so that the two solar charging plates 46 of the light energy transmission mechanism 50 are overlapped, the resistance of the solar charging plates 46 to airflow is reduced, the two solar charging plates 46 convert solar energy into electric energy, the converted electric energy is transmitted to the inside of the storage battery 31, the storage battery 31 converts the generated electric energy into stable voltage and then supplies the stable voltage to a lamp tube for use, the storage battery 31 also converts the generated electric energy into stable voltage and then supplies a conducting wire to the illumination sensor 47 for use, the illumination sensor 47 can receive illumination intensity so as to transmit a signal to the illumination controller 33, and the illumination controller 33 can control the storage battery 31 to supply power to the driving motor 5 and enable the driving motor to work;

the output end of the driving motor 5 can guide the rotary threaded rod 6 to rotate, the rotary threaded rod 6 can drive the connecting threaded sleeve 8 to rotate up and down on the outer wall of the rotary threaded sleeve 6, the fixed connecting rod 9 can drive the street lamp protective shell 19 to adjust the height under the action of the movement of the connecting threaded sleeve 8, and the adjusting threaded rod 13 is screwed, so that the adjusting threaded rod 13 drives the L-shaped connecting adjusting plate 15 at the bottom end of the adjusting threaded rod to move up and down, and the angle adjustment of the street lamp protective shell 19 in the next step is controlled through the up-down movement of the L-shaped connecting adjusting plate 15;

when the adjusting plate 15 is connected to L shape, drive auxiliary connecting block 22 and move to the one side that is close to vertical fixed plate 11 at the outer wall of supplementary fixed slide bar 21, connect rotor plate 18 under the effect through supplementary axis of rotation 17, drive street lamp protective housing 19 and move upwards, thereby enlarge the angle of illumination of fluorescent tube, when L shape is connected adjusting plate 15 and is descended, drive auxiliary connecting block 22 and move to the one side of keeping away from vertical fixed plate 11 at the outer wall of supplementary fixed slide bar 21, connect rotor plate 18 under the effect through supplementary axis of rotation 17, drive street lamp protective housing 19 and move downwards, thereby reduce the angle of illumination of fluorescent tube, through the angle of adjusting street lamp protective housing 19, accomplish the regulation to the fluorescent tube irradiation range.

The above is the overall working process of the invention, and the steps are repeated when the device is used next time.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a complementary wisdom street lamp of wind-solar energy power generation, includes the fixed main part of lamp pole (1) and job processing box (24), the top of the fixed main part of lamp pole (1), its characterized in that are located in job processing box (24): still include fluorescent tube height control mechanism (48), wind-force conduction mechanism (49) and light energy conduction mechanism (50), the inside of the fixed main part of lamp pole (1) has been seted up inside and has been led to groove one (4), the inside that the groove one (4) was led to inside is located in fluorescent tube height control mechanism (48), the inside of work processing box (24) is located in wind-force conduction mechanism (49), the top of work processing box (24) is located in light energy conduction mechanism (50), one side of the fixed main part of lamp pole (1) outer wall is equipped with lift auxiliary groove one (10), the junction of the fixed main part of lamp pole (1) and work processing box (24) is equipped with spacing fixed set-square (23).

2. The intelligent street lamp with wind-solar hybrid power generation function according to claim 1, wherein: the lamp tube height adjusting mechanism (48) comprises a driving motor (5), a fixed connecting rod (9), a vertical fixing plate (11), an adjusting threaded rod (13), an L-shaped connecting adjusting plate (15), a concave auxiliary fixing plate (16), a connecting rotary plate (18) and a street lamp protecting shell (19), wherein the driving motor (5) is arranged at the top of the inner wall of the internal through groove I (4), the output end of the driving motor (5) is provided with a rotary threaded rod (6), the outer wall of the rotary threaded rod (6) is provided with a connecting threaded sleeve (8), the fixed connecting rod (9) is arranged at one side of the connecting threaded sleeve (8), one end of the fixed connecting rod (9) extends to the outside of the lifting auxiliary groove I (10), the vertical fixing plate (11) is arranged at one end of the fixed connecting rod (9), the adjusting threaded rod (13) is arranged in the vertical fixing plate (11), the L-shaped connecting adjusting plate (15) is arranged at the bottom end of the adjusting threaded rod (13), the concave auxiliary fixing plate (16) is arranged at the outer wall of the bottom of the vertical fixing plate (11), the connecting rotary plate (18) is arranged in the concave auxiliary fixing plate (16), the street lamp protecting shell (19) is arranged at one side of the street lamp protecting shell (19), and a strip-shaped sliding chute (20) is arranged at one side of the street lamp protecting shell (19), the other end of the L-shaped connecting adjusting plate (15) is arranged in the strip-shaped sliding groove (20).

3. The intelligent street lamp with the complementation of wind-solar power generation according to claim 2, wherein: wind-force conduction mechanism (49) is including connecting fixed block (25), conduction power transmission circle (26), wind-force auxiliary generator (28) and supplementary flabellum (30), connect the inside that work treatment box (24) were located to fixed block (25), conduction power transmission circle (26) is around locating the outer wall of connecting fixed block (25), one side of connecting fixed block (25) is located in wind-force auxiliary generator (28), the output of wind-force auxiliary generator (28) is equipped with wind power generation axis of rotation (29), the other end of wind power generation axis of rotation (29) extends to the outside of work treatment box (24) and is connected with supplementary flabellum (30).

4. The intelligent street lamp with wind-solar hybrid power generation function according to claim 3, wherein: light energy conduction mechanism (50) are including fixed regulating plate (34), regulation lifter plate (37), fixed lifter (40), supplementary stopper (42), supplementary spacing post (43), adjusting connecting rod (44), solar charging panel (46) and light sensor (47), the inside of work processing box (24) is located and is located the top of connecting fixed block (25) to fixed regulating plate (34), the inside of fixed regulating plate (34) is located in regulation lifter plate (37), the top of adjusting lifter plate (37) is located in fixed lifter (40), the top of fixed lifter (40) is located in supplementary stopper (42), the top of work processing box (24) is located in supplementary spacing post (43), adjust between auxiliary stopper (42) and supplementary spacing post (43) is located in connecting rod (44), the top of supplementary stopper (42) is located in solar charging panel (46), light sensor (47) locates the surface of solar charging panel (46).

5. The intelligent street lamp with wind-solar hybrid power generation function according to claim 4, wherein: the bottom that inside led to groove one (4) inner wall is equipped with bearing connection seat (7), the inside of bearing connection seat (7) is located to the bottom of rotatory threaded rod (6), inside logical groove two (12) have been seted up to the inside of vertical fixed plate (11), lift auxiliary groove two (14) have been seted up to one side of vertical fixed plate (11) outer wall, the one end of adjusting screw rod (13) runs through the top of inside logical groove two (12) and extends to the inside of vertical fixed plate (11), the inner wall of spill auxiliary fixed plate (16) is equipped with supplementary axis of rotation one (17), the one side of connecting rotor plate (18) welds in the outer wall of supplementary axis of rotation one (17), the inside of bar spout (20) is equipped with supplementary fixed slide bar (21), the outer wall of supplementary fixed slide bar (21) is equipped with auxiliary connecting block (22), the other end of L shape connection regulating plate (15) welds in the top of auxiliary connecting block (22).

6. The intelligent street lamp with wind-solar hybrid power generation function according to claim 5, wherein: supporting fixing columns (27) are respectively arranged at four corners of the bottom surface of the wind-driven auxiliary generator (28), the tops of the four supporting fixing columns (27) are respectively welded to the bottom of the wind-driven auxiliary generator (28), and the wind-driven auxiliary generator (28) is electrically connected with the conduction power transmission coil (26).

7. The intelligent street lamp with wind-solar hybrid power generation function according to claim 6, wherein: the top and the bottom of the inner wall of the lamp pole fixing main body (1) are provided with a first buffer rod (39), the outer wall of the first buffer rod (39) winds the first buffer spring (38), the inner cavity of the lamp pole fixing main body (1) is provided with an auxiliary fixing rod (51), the top end and the bottom end of the auxiliary fixing rod (51) are respectively arranged on the first buffer rod (39), and the outer wall of the auxiliary fixing rod (51) is arranged on the inner sleeve of the fixing connecting rod (9).

8. The intelligent street lamp with wind-solar hybrid generation and power supply of claim 7, wherein: the inside of fixed regulating plate (34) is equipped with regulation control chamber (35), the both sides of regulation control chamber (35) inner wall are equipped with supplementary vertical spout (36) respectively, the inside of two supplementary vertical spouts (36) is located respectively at the both ends of adjusting lifter plate (37), the both ends at supplementary vertical spout (36) top are equipped with buffer beam two (53) respectively, the outer wall of buffer beam two (53) is around being equipped with buffer spring two (52), the top of fixed regulating plate (34) inside is located on the top of buffer beam two (53), the top of fixed lifter (40) is equipped with supplementary axis of rotation two (41) with the bottom junction of supplementary stopper (42), supplementary spacing post (43) are equipped with supplementary axis of rotation three (45) with the junction of adjusting connecting rod (44), the other end of adjusting connecting rod (44) welds in the outer wall of supplementary stopper (42).

9. The intelligent street lamp with wind-solar hybrid generation function according to claim 8, wherein: one side of job processing box (24) inner wall bottom is equipped with battery (31), the opposite side of job processing box (24) inner wall bottom is equipped with illumination controller (33), be equipped with between battery (31) and illumination controller (33) electric power transmission line (32), electric connection between illumination sensor (47) and the illumination controller (33).

10. The intelligent street lamp with wind-solar hybrid generation and solar hybrid generation as claimed in claim 9, wherein: the bottom four corners of the outer wall of the lamp pole fixing main body (1) are respectively provided with fixing support rods (2) with the same size, four the one ends of the fixing support rods (2) are respectively welded on the outer wall of the lamp pole fixing main body (1), four the bottom of the fixing support rods (2) is respectively provided with bottom anti-skidding fixing pads (3) and four anti-skidding fixing pads (3) in the bottom in a matched mode, and anti-skidding lines are arranged at the bottom of the bottom anti-skidding fixing pads (3).