CN113418170A

CN113418170A - Electric energy storage street lamp equipment for wind power generation

Info

Publication number: CN113418170A
Application number: CN202110695669.7A
Authority: CN
Inventors: 徐桂云
Original assignee: Individual
Current assignee: Xiangyang Power Supply Co of State Grid Hubei Electric Power Co Ltd
Priority date: 2021-06-23
Filing date: 2021-06-23
Publication date: 2021-09-21
Anticipated expiration: 2041-06-23
Also published as: CN113418170B

Abstract

The invention relates to energy storage street lamp equipment, in particular to electric energy storage street lamp equipment for wind power generation, which comprises a movable lamp mechanism, a lamp holder mechanism and a water storage and power generation mechanism, wherein the equipment can collect solar energy, collect rainwater and intensively discharge the rainwater to improve the kinetic energy of the rainwater and improve the secondary collection and filtration of electric energy, and can effectively dissipate heat.

Description

Electric energy storage street lamp equipment for wind power generation

Technical Field

The invention relates to energy storage street lamp equipment, in particular to street lamp equipment for storing electric energy for wind power generation.

Background

In the use of street lamp, because the street lamp is placed in the open, sunshine, wind, rain etc. all are the energy that can utilize, especially like resource deficient area, these energies are not by good collection, extravagant natural energy, and the energy of rainwater is continuous but the impact force is little, the problem of solution energy utilization that prior art can not be better, if:

the chinese utility model patent with patent publication No. CN207674318U collects rainwater through structural design, but does not perform good treatment on the collected rainwater to achieve the purpose of energy storage;

therefore, the street lamp equipment for storing the electric energy for wind power generation is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the electric energy storage street lamp equipment for wind power generation, the equipment can collect solar energy, the equipment can collect rainwater and intensively discharge the rainwater to improve the kinetic energy of the rainwater, the secondary collection filter of electric energy is improved, and the equipment can effectively dissipate heat.

In order to solve the technical problems, the invention relates to energy storage street lamp equipment, in particular to energy storage street lamp equipment for wind power generation.

The movable lamp mechanism is connected with the lamp holder mechanism, and the lamp holder mechanism is connected with the water storage power generation mechanism.

As a further optimization of the technical scheme, the movable lamp mechanism of the street lamp equipment for storing electric energy for wind power generation comprises a servo motor, a coupler, a screw rod, a lamp, a cross sliding seat, an air inlet channel, an air inlet one-way valve, a pressure change pipe, a solar panel seat, a solar panel, a notch, a corner, a triangular groove, a rod-containing piston, a piston cavity, an air outlet one-way valve, an air outlet channel and a spring, wherein the servo motor is connected with the screw rod through the coupler, the screw rod is in threaded connection with the cross sliding seat, the lamp is connected below the cross sliding seat, the air inlet channel is arranged on the pressure change pipe, the air inlet one-way valve is arranged in the air inlet channel, the pressure change pipe is connected with the cross sliding seat, the solar panel seat is connected with the solar panel, the notch, the corner and the triangular groove are arranged on the solar panel seat, the solar panel seat is connected with the rod-containing piston, the rod-containing piston is in sliding connection with the piston cavity, the piston cavity is formed by enclosing a pressure change pipe and a cross sliding seat, the piston cavity is communicated with an air inlet channel, the piston cavity is communicated with an air outlet channel, the pressure change pipe and the cross sliding seat are both provided with air outlet channels, an air outlet one-way valve is arranged in the air outlet channel, a spring is sleeved on the piston with a rod, and two ends of the spring are respectively connected to a solar panel seat and the cross sliding seat.

As a further optimization of the technical scheme, the lamp holder mechanism of the street lamp equipment for storing electric energy for wind power generation comprises a solar panel with a runner plate, a water inlet tank, a motor placing groove, a cross arm with a cross groove, a boss, a supporting tube, a water outlet, a through hole, an energy storage battery pack, an auxiliary support, a magnetic field seat, a wind box, an air duct, a servo motor, a coupler I, a gear with a shaft I, a belt pulley, a belt pulley I, a bearing seat, a coil, a wind wheel with a shaft, a water wheel, a clapboard and a clapboard I, wherein the solar panel with the runner plate is rotatably connected with the water inlet tank, the motor placing groove is arranged on the cross arm with the cross groove, the cross arm with the cross groove is connected with the water inlet tank, the servo motor is arranged in the motor placing groove, the servo motor is connected with the cross arm with the cross groove, a screw rod is rotatably connected with the cross arm with the cross groove, a cross sliding seat is slidably connected in the cross arm with the cross groove, the water inlet box is provided with a boss, the water inlet box is connected and communicated with the support tube, the support tube is provided with a water outlet and a through hole, the support tube is connected with the energy storage battery pack, the support tube is connected with an auxiliary support, the auxiliary support is connected with a magnetic field seat, air ducts are symmetrically arranged at two ends of the air box, a servo motor is connected with the boss, the servo motor is connected with a coupling I, the coupling I is connected with a belt shaft gear, the belt shaft gear is meshed with the belt shaft gear I, the belt shaft gear and the belt shaft gear I are rotatably connected with a bearing seat, the bearing seat is connected with the water inlet box, belt pulleys are respectively connected on the belt shaft gear and the belt shaft gear I, the belt pulleys are in friction connection with a belt, the belt pulleys I are in friction connection with a belt runner plate solar panel, a coil is rotatably connected with the magnetic field seat, the magnetic field seat is connected with a belt shaft wind wheel, the belt shaft wind wheel is arranged in the air box, the belt shaft wind wheel is connected with a water wheel, the wind wheel with the shaft is rotatably connected with the supporting pipe, the wind wheel with the shaft is rotatably connected with the air box, the partition board is connected with the supporting pipe, one end of the partition board extends to the water outlet, and the partition board I is connected with the water inlet tank.

As a further optimization of the technical scheme, the water storage and power generation mechanism of the street lamp equipment for storing electric energy for wind power generation comprises a centralized drain pipe, an auxiliary support I, a magnetic field seat I, a water passing tank, a connecting pipe, a drawing tank, a water storage tank, a filter plate, a hydraulic cylinder support, a hydraulic cylinder, a hydraulic rod, a gate, a water wheel I, a secondary filter plate and a coil I, wherein the centralized drain pipe is connected and communicated with the water passing tank, the auxiliary support I is connected with the magnetic field seat I, the water passing tank is connected and communicated with the connecting pipe, the connecting pipe is connected and communicated with the drawing tank, the connecting pipe is connected and communicated with the water storage tank, the water storage tank is connected and communicated with the filter plate in a sliding manner, the hydraulic cylinder support is connected with the drawing tank, the hydraulic cylinder support is connected with the hydraulic cylinder, the hydraulic rod is connected with the drawing tank in a sliding manner, and the hydraulic rod is connected with the gate, the water wheel I is rotatably connected with the water passing tank, the secondary filter plate is slidably connected with the water storage tank, the water wheel I is connected with the coil I, and the coil I is rotatably connected with the magnetic field seat I.

As a further optimization of the technical scheme, one end of the air outlet channel of the street lamp equipment for storing electric energy for wind power generation faces a corner, and air flow blown out from the air outlet channel can be divided at the corner.

As a further optimization of the technical scheme, the solar panel and the solar panel with the runner plate of the electric energy storage street lamp equipment for wind power generation can collect solar energy, the coil and the magnetic field base rotate relatively to generate electric energy, the coil I and the magnetic field base I rotate relatively to generate electric energy, and the electric energy is collected in the energy storage battery pack.

The street lamp equipment for storing the electric energy for the wind power generation has the beneficial effects that:

according to the electric energy storage street lamp equipment for wind power generation, disclosed by the invention, the equipment can collect solar energy, collect rainwater and discharge the rainwater intensively to improve the kinetic energy of the rainwater, improve the secondary collection and filtration of electric energy, and effectively dissipate heat.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a first structural schematic diagram of a street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 2 is a schematic structural diagram of a street lamp device for storing electric energy for wind power generation according to the present invention.

Fig. 3 is a third schematic structural view of the electric energy storage street lamp device for wind power generation of the present invention.

Fig. 4 is a fourth schematic structural view of the electric energy storage street lamp device for wind power generation of the present invention.

Fig. 5 is a first schematic structural diagram of the movable lamp mechanism 1 of the electric energy storage street lamp device for wind power generation of the present invention.

Fig. 6 is a second schematic structural diagram of the movable lamp mechanism 1 of the electric energy storage street lamp device for wind power generation of the present invention.

Fig. 7 is a first structural schematic diagram of the lamp holder mechanism 2 of the street lamp device for storing electric energy for wind power generation of the invention.

Fig. 8 is a second structural schematic diagram of the lamp holder mechanism 2 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 9 is a third schematic structural diagram of the lamp holder mechanism 2 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 10 is a fourth schematic structural view of the lamp holder mechanism 2 of the street lamp device for storing electric energy for wind power generation according to the present invention.

Fig. 11 is a fifth schematic structural view of the lamp holder mechanism 2 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 12 is a first structural schematic diagram of the water storage and power generation mechanism 3 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 13 is a second schematic structural view of the water storage and power generation mechanism 3 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 14 is a third schematic structural view of the water storage and power generation mechanism 3 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 15 is a fourth schematic structural view of the water storage power generation mechanism 3 of the street lamp device for storing electric energy for wind power generation of the present invention.

Fig. 16 is a fifth schematic structural view of the water storage power generation mechanism 3 of the street lamp device for storing electric energy for wind power generation of the present invention.

In the figure: a movable lamp mechanism 1; a servo motor 1-1; 1-2 of a coupler; 1-3 of a screw rod; 1-4 of lamps; 1-5 of a cross sliding seat; air inlet channels 1-6; 1-7 of an air inlet check valve; 1-8 parts of pressure change pipe; a solar panel base 1-9; solar panels 1-10; 1-11 of slotting; corners 1-12; 1-13 parts of triangular groove; pistons with rods 1-14; piston chambers 1-15; 1-16 parts of an air outlet one-way valve; 1-17 of an air outlet channel; springs 1-18; a lamp holder mechanism 2; a solar panel 2-1 with a runner plate; 2-2 of a water inlet tank; 2-3 of a motor placing groove; 2-4 parts of cross arm with a cross groove; 2-5 parts of a boss; supporting pipes 2-6; 2-7 parts of a water outlet; 2-8 of through holes; 2-9 parts of an energy storage battery pack; 2-10 parts of auxiliary support; 2-11 parts of a magnetic field seat; 2-12 of a wind box; 2-13 of an air duct; 2-14 of servo motor; a coupler I2-15; gears 2-16 with shafts; a belt shaft gear I2-17; 2-18 pulleys; 2-19 parts of a belt; pulley I2-20; 2-21 of a bearing seat; 2-22 of coils; 2-23 of wind wheel with shaft; 2-24 of a water wheel; 2-25 of a clapboard; partition I2-26; a water storage power generation mechanism 3; a centralized drainage pipe 3-1; auxiliary support I3-2; a magnetic field seat I3-3; 3-4 of water tank; 3-5 of a connecting pipe; 3-6 parts of a drawing box; 3-7 parts of a water storage tank; 3-8 parts of a filter plate; the hydraulic cylinder supports 3-9; 3-10 parts of a hydraulic cylinder; 3-11 parts of a hydraulic rod; 3-12 of gates; water wheel I3-13; 3-14 parts of a secondary filter plate; coil I3-15.

Detailed Description

The first embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, the present invention relates to an energy storage street lamp device, and more specifically, to an energy storage street lamp device for wind power generation, which includes a movable lamp mechanism 1, a lamp holder mechanism 2, and a water storage and power generation mechanism 3, and the device can collect solar energy, collect rainwater, concentrate rainwater to discharge to improve kinetic energy of rainwater, improve secondary collection of electric energy, and effectively dissipate heat.

The movable lamp mechanism 1 is connected with the lamp holder mechanism 2, and the lamp holder mechanism 2 is connected with the water storage power generation mechanism 3.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the movable lamp mechanism 1 includes a servo motor 1-1, a shaft coupling 1-2, a lead screw 1-3, a lamp 1-4, a cross sliding seat 1-5, an air inlet channel 1-6, an air inlet check valve 1-7, a pressure change tube 1-8, a solar panel seat 1-9, a solar panel 1-10, a slot 1-11, a corner 1-12, a triangular slot 1-13, a rod-equipped piston 1-14, a piston cavity 1-15, an air outlet check valve 1-16, an air outlet channel 1-17, and a spring 1-18, a servo motor 1-1 is connected with a screw rod 1-3 through a shaft coupling 1-2, the screw rod 1-3 is in threaded connection with a cross sliding seat 1-5, a lamp 1-4 is connected below the cross sliding seat 1-5, an air inlet channel 1-6 is arranged on a pressure change tube 1-8, an air inlet one-way valve 1-7 is arranged in the air inlet channel 1-6, the pressure change tube 1-8 is connected with the cross sliding seat 1-5, a solar panel seat 1-9 is connected with a solar panel 1-10, a slotted groove 1-11, a corner 1-12 and a triangular groove 1-13 are arranged on the solar panel seat 1-9, the solar panel seat 1-9 is connected with a rod-equipped piston 1-14, the rod-equipped piston 1-14 is in sliding connection with a piston cavity 1-15, the piston cavity 1-15 is enclosed by the pressure change tube 1-8 and the cross sliding seat 1-, the piston cavity 1-15 is communicated with the air inlet channel 1-6, the piston cavity 1-15 is communicated with the air outlet channel 1-17, the air outlet channel 1-17 is arranged on the pressure change pipe 1-8 and the cross sliding seat 1-5, the air outlet one-way valve 1-16 is arranged in the air outlet channel 1-17, the spring 1-18 is sleeved on the piston 1-14 with the rod, two ends of the spring 1-18 are respectively connected with the solar panel seat 1-9 and the cross sliding seat 1-5, no matter rain or wind, the floating of the solar panel seat 1-9 can be caused, the solar panel seat 1-9 can reciprocate up and down by matching with the spring 1-18, the solar panel seat 1-9 can drive the piston 1-14 with the rod to reciprocate, thereby causing the pressure difference change in the piston cavity 1-15, therefore, outside air is sucked into the piston cavity 1-15 from the air inlet one-way valve 1-7 and then is pressurized, the air outlet one-way valve 1-16 is flushed and blown out upwards from the air outlet channel 1-17, the air flows are divided when meeting the corner 1-12, one part of the air flows enter the triangular groove 1-13, the other part of the air flows enter the open groove 1-11 for internal circulation, air flows on two sides are respectively subjected to convection from the middle, then heat is taken out to the periphery, the heat dissipation performance is improved, the servo motor 1-1 operates to drive the coupler 1-2 to rotate, the coupler 1-2 drives the screw rod 1-3 to rotate, the screw rod 1-3 drives the cross sliding seat 1-5 to move, and the illumination position of the lamp 1-4 can be adjusted.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16. the embodiment further describes the embodiment, and the lamp holder mechanism 2 comprises a solar panel with a runner plate 2-1, a water inlet tank 2-2, a motor placing groove 2-3, a cross-shaped cross arm 2-4, a boss 2-5, a support pipe 2-6, a water outlet 2-7, a through hole 2-8, an energy storage battery pack 2-9, an auxiliary support 2-10, a magnetic field base 2-11, a wind box 2-12, a wind channel 2-13, a servo motor 2-14, a coupler I2-15, a shaft gear 2-16, a shaft gear I2-17, a belt pulley 2-18, a power supply device, and a power supply device, The solar water heater comprises a belt 2-19, a belt pulley I2-20, a bearing seat 2-21, a coil 2-22, a wind wheel 2-23 with a shaft, a water wheel 2-24, a baffle plate 2-25 and a baffle plate I2-26, wherein a solar panel 2-1 with a runner plate is rotatably connected with a water inlet tank 2-2, a motor placing groove 2-3 is arranged on a cross arm 2-4 with a cross groove, the cross arm 2-4 with the cross groove is connected with the water inlet tank 2-2, a servo motor 1-1 is arranged in the motor placing groove 2-3, the servo motor 1-1 is connected with the cross arm 2-4 with the cross groove, a screw 1-3 is rotatably connected with the cross arm 2-4 with the cross groove, a sliding seat 1-5 is slidably connected in the cross arm 2-4 with the cross groove, a boss 2-5 is arranged on the water inlet tank 2-2, the water inlet tank 2-2 is connected and communicated with a support pipe 2-6, a water outlet 2-7 and a through hole 2-8 are arranged on the support pipe 2-6, the support pipe 2-6 is connected with an energy storage battery pack 2-9, the support pipe 2-6 is connected with an auxiliary support 2-10, the auxiliary support 2-10 is connected with a magnetic field base 2-11, air ducts 2-13 are symmetrically arranged at two ends of an air box 2-12, a servo motor 2-14 is connected with a boss 2-5, the servo motor 2-14 is connected with a coupler I2-15, the coupler I2-15 is connected with a shaft gear 2-16, the shaft gear 2-16 is engaged with a shaft gear I2-17, the shaft gear 2-16 and the shaft gear I2-17 are both rotatably connected with a bearing base 2-21, the bearing base 2-21 is connected with the water inlet tank 2-2, belt pulleys 2-18 are connected to the belt shaft gears 2-16 and the belt shaft gears I2-17 respectively, the belt pulleys 2-18 are connected with the belt pulleys 2-19 in a friction mode, the belt pulleys 2-19 are connected with the belt pulleys I2-20 in a friction mode, the belt pulleys I2-20 are connected with the belt runner plate solar panel 2-1, coils 2-22 are connected with magnetic field bases 2-11 in a rotation mode, the magnetic field bases 2-11 are connected with the belt shaft wind wheels 2-23, the belt shaft wind wheels 2-23 are arranged in the air boxes 2-12, the belt shaft wind wheels 2-23 are connected with the water wheels 2-24, the belt shaft wind wheels 2-23 are connected with the supporting pipes 2-6 in a rotation mode, the belt shaft wind wheels 2-23 are connected with the air boxes 2-12 in a rotation mode, the partition boards 2-25 are connected with the supporting pipes 2-6, one ends of the partition boards 2-25 extend to the water outlets 2-7, the partition plate I2-26 is connected with the water inlet tank 2-2, the equipment is provided with a solar panel 1-10 and a solar panel 2-1 with a runner plate, which can collect solar energy, the servo motor 2-14 can drive the coupler I2-15 to rotate, the coupler I2-15 can drive the belt shaft gear 2-16 to rotate, the belt shaft gear 2-16 can drive the belt shaft gear I2-17 to rotate, the rotation directions of the belt shaft gear I2-15 and the belt shaft gear I2-17 are opposite, the belt shaft gear 2-16 and the belt shaft gear I2-17 can respectively drive the corresponding belt pulley 2-18 to rotate, the belt pulley 2-18 can drive the belt pulley I2-20 to rotate through the belt 2-19, the belt pulley I2-20 can drive the solar panel 2-1 with the runner plate to rotate, thereby changing the angle of the solar panel 2-1 with the runner plate for collecting solar energy, when raining, the flow speed of rainwater can be changed by the inclination angle of the solar panel 2-1 with the runner plate, the adjustment is carried out according to the weather, when raining, water can flow into the water inlet tank 2-2 from the solar panel 2-1 with the runner plate, rainwater flowing through the solar panel 2-1 with the runner plate on two sides finally flows towards the water wheel 2-24 through the diversion of the partition plate I2-26, the water wheel 2-24 can drive the wind wheel 2-23 with the shaft to rotate, the wind wheel 2-23 with the shaft can drive the coil 2-22 to rotate, the coil 2-22 rotates to cut the magnetic induction line in the magnetic field seat 2-11, so as to form electric energy, when wind blows into the wind box 2-12 from the wind channel 2-13 on one side and then blows out from the wind channel 2-13 on the other side, the wind wheel 2-23 with the shaft is driven to rotate, the rotation of the wind wheel 2-23 with the shaft can drive the coils 2-22 to rotate to form electric energy.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the embodiment further describes the embodiment, wherein the water storage and power generation mechanism 3 comprises a centralized water drainage pipe 3-1, an auxiliary support I3-2, a magnetic field base I3-3, a water passing tank 3-4, a connecting pipe 3-5, a drawing tank 3-6, a water storage tank 3-7, a filter plate 3-8, a hydraulic cylinder support 3-9, a hydraulic cylinder 3-10, a hydraulic rod 3-11, a gate 3-12, a water wheel I3-13, a secondary filter plate 3-14, and a coil I3-15, the centralized water drainage pipe 3-1 is connected and communicated with the water passing tank 3-4, the auxiliary support I3-2 is connected and communicated with the water passing tank 3-4, the auxiliary support I3-2 is connected with the magnetic field seat I3-3, the water passing tank 3-4 is connected and communicated with a connecting pipe 3-5, the connecting pipe 3-5 is connected and communicated with a drawing tank 3-6, the connecting pipe 3-5 is connected and communicated with a water storage tank 3-7, the water storage tank 3-7 is connected with a filter plate 3-8 in a sliding way, a hydraulic cylinder support 3-9 is connected with the drawing tank 3-6, the hydraulic cylinder support 3-9 is connected with a hydraulic cylinder 3-10, the hydraulic cylinder 3-10 is connected with a hydraulic rod 3-11, the hydraulic rod 3-11 is connected with the drawing tank 3-6 in a sliding way, the hydraulic rod 3-11 is connected with a gate 3-12, a water wheel I3-13 is rotationally connected with the water passing tank 3-4, and a secondary filter plate 3-14 is connected with the water storage tank 3-7 in a sliding way, the water wheels I3-13 are connected with the coils I3-15, the coils I3-15 are rotatably connected with the magnetic field base I3-3, rainwater can flow from the partition plates 2-25 and is discharged from the water discharge ports 2-7, the rainwater is collected into the water storage tank 3-7 after being filtered by the filter plates 3-8, after the rainwater is fully collected, the hydraulic cylinders 3-10 drive the hydraulic rods 3-11 to pull the gates 3-12, the water which loses the limit can rapidly flow downwards to impact the water wheels I3-13, the water wheels I3-13 can drive the coils I3-15 to rotate when rotating, and the coils I3-15 can cut the magnetic induction lines of the magnetic field base I3-3 to form electric energy.

The fifth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the first embodiment, in which one end of the air outlet channel 1-17 faces the corner 1-12, and the air flow blown out from the air outlet channel 1-17 is divided at the corner 1-12.

The sixth specific implementation mode:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and is further described in the present embodiment, in which the solar panels 1-10 and the solar panels with flow channel plates 2-1 collect solar energy, the coils 2-22 and the magnetic field holders 2-11 rotate relatively to generate electric energy, the coils I3-15 and the magnetic field holders I3-3 rotate relatively to generate electric energy, and the electric energy is collected in the energy storage battery packs 2-9.

The working principle of the device is as follows: the equipment can collect solar energy, the equipment is provided with a solar panel 1-10 and a solar panel with a runner plate 2-1, the solar energy can be collected, a servo motor 2-14 can drive a coupler I2-15 to rotate, the coupler I2-15 can drive a belt shaft gear 2-16 to rotate, the belt shaft gear 2-16 can drive a belt shaft gear I2-17 to rotate, the rotation directions of the two are opposite, the belt shaft gear 2-16 and the belt shaft gear I2-17 can respectively drive corresponding belt pulleys 2-18 to rotate, the belt pulleys 2-18 can drive belt pulleys I2-20 to rotate through belts 2-19, the belt pulleys I2-20 can drive the solar panel with the runner plate 2-1 to rotate, and therefore the angle of the solar panel with the runner plate 2-1 for collecting solar energy is changed, when raining, the flow speed of rainwater can be changed by the inclination angle of the solar panel 2-1 with the runner plate, and the adjustment is carried out according to the weather; the device can collect the energy of rainwater, when raining, water flows into the water inlet tank 2-2 from the solar panel 2-1 with the runner plate, rainwater flowing through the solar panel 2-1 with the runner plate on two sides finally flows to the water wheel 2-24 through the diversion of the partition plate I2-26, the water wheel 2-24 drives the wind wheel 2-23 with the shaft to rotate, the wind wheel 2-23 with the shaft drives the coil 2-22 to rotate, the coil 2-22 rotates to cut the magnetic induction line in the magnetic field seat 2-11, so as to form electric energy, when wind blows in, wind blows into the air box 2-12 from the air duct 2-13 at one side and then blows out from the air duct 2-13 at the other side to drive the wind wheel with the shaft 2-23 to rotate, and the rotation of the wind wheel with the shaft 2-23 can drive the coil 2-22 to rotate to form electric energy; the device can collect rainwater and intensively discharge the rainwater to improve the kinetic energy of the rainwater and improve the secondary collection and filtration of electric energy, the rainwater can flow from the partition plates 2-25 and is discharged from the water discharge port 2-7, the rainwater is collected into the water storage tank 3-7 after being filtered by the filter plates 3-8, after being fully collected, the hydraulic cylinders 3-10 drive the hydraulic rods 3-11 to pull the gates 3-12, the water which loses the limit can rapidly flow downwards to impact the water wheels I3-13, the water wheels I3-13 can drive the coils I3-15 to rotate, and the coils I3-15 can cut the magnetic induction lines of the magnetic field seats I3-3 to form electric energy; the equipment can effectively dissipate heat, no matter rain or snow or wind, the floating of the solar panel seats 1-9 can be caused, the solar panel seats 1-9 can reciprocate up and down through the cooperation with the springs 1-18, the solar panel seats 1-9 can drive the rod-containing pistons 1-14 to reciprocate, thereby causing the pressure difference change in the piston cavity 1-15, sucking the outside air into the piston cavity 1-15 from the air inlet one-way valve 1-7, pressurizing and then flushing the air outlet one-way valve 1-16 and blowing out from the air outlet channel 1-17 upwards, when meeting the corner 1-12, shunting, wherein one part is in the triangular groove 1-13, and one part is in the open groove 1-11 for internal circulation, the air current of both sides carries out the convection current respectively from the middle, then takes the heat to around out, improves heat dispersion.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a wind power generation is with saving electric energy street lamp equipment, includes portable lamp mechanism (1), lamp stand mechanism (2), water storage electricity generation mechanism (3), its characterized in that: the movable lamp mechanism (1) is connected with the lamp holder mechanism (2), and the lamp holder mechanism (2) is connected with the water storage power generation mechanism (3).

2. A street light apparatus for storing electric energy for wind power generation according to claim 1, wherein: the movable lamp mechanism (1) comprises a servo motor (1-1), a coupler (1-2), a lead screw (1-3), a lamp (1-4), a cross sliding seat (1-5), an air inlet channel (1-6), an air inlet one-way valve (1-7), a pressure change tube (1-8), a solar panel seat (1-9), a solar panel (1-10), a slot (1-11), a corner (1-12), a triangular slot (1-13), a rod-provided piston (1-14), a piston cavity (1-15), an air outlet one-way valve (1-16), an air outlet channel (1-17) and a spring (1-18), wherein the servo motor (1-1) is connected with the lead screw (1-3) through the coupler (1-2), the screw rod (1-3) is in threaded connection with the cross sliding seat (1-5), the lamp (1-4) is connected below the cross sliding seat (1-5), the pressure change tube (1-8) is provided with an air inlet channel (1-6), the air inlet channel (1-6) is internally provided with an air inlet one-way valve (1-7), the pressure change tube (1-8) is connected with the cross sliding seat (1-5), the solar panel seat (1-9) is connected with the solar panel (1-10), the solar panel seat (1-9) is provided with a notch (1-11), a corner (1-12) and a triangular notch (1-13), the solar panel seat (1-9) is connected with the rod-carrying piston (1-14), the rod carrying piston (1-14) is in sliding connection with the piston cavity (1-15), the piston cavity (1-15) is formed by enclosing a pressure change pipe (1-8) and a cross sliding seat (1-5), the piston cavity (1-15) is communicated with an air inlet channel (1-6), the piston cavity (1-15) is communicated with an air outlet channel (1-17), the air outlet channel (1-17) is arranged on the pressure change pipe (1-8) and the cross sliding seat (1-5), an air outlet one-way valve (1-16) is arranged in the air outlet channel (1-17), a spring (1-18) is sleeved on a piston (1-14) with a rod, and two ends of the spring (1-18) are respectively connected to a solar panel seat (1-9) and the cross sliding seat (1-5).

3. A street light apparatus for storing electric energy for wind power generation according to claim 2, wherein: the lamp holder mechanism (2) comprises a solar panel (2-1) with a runner plate, a water inlet tank (2-2), a motor placing groove (2-3), a cross arm (2-4) with a cross groove, a boss (2-5), a supporting pipe (2-6), a water outlet (2-7), a through hole (2-8), an energy storage battery pack (2-9), an auxiliary support (2-10), a magnetic field seat (2-11), an air box (2-12), an air duct (2-13), a servo motor (2-14), a coupling I (2-15), a gear (2-16) with a shaft, a gear I (2-17) with a shaft, a belt pulley (2-18), a belt (2-19), a belt pulley I (2-20), a bearing seat (2-21), A coil (2-22), a wind wheel (2-23) with a shaft, a water wheel (2-24), a clapboard (2-25) and a clapboard I (2-26), wherein a solar panel (2-1) with a runner plate is rotationally connected with a water inlet box (2-2), a motor placing groove (2-3) is arranged on a cross arm (2-4) with a cross groove, the cross arm (2-4) with the cross groove is connected with the water inlet box (2-2), a servo motor (1-1) is arranged in the motor placing groove (2-3), the servo motor (1-1) is connected with the cross arm (2-4) with the cross groove, a screw rod (1-3) is rotationally connected with the cross arm (2-4) with the cross groove, a cross sliding seat (1-5) is slidably connected in the cross arm (2-4) with the cross groove, the water inlet tank (2-2) is provided with a boss (2-5), the water inlet tank (2-2) is connected with and communicated with a support pipe (2-6), the support pipe (2-6) is provided with a water outlet (2-7) and a through hole (2-8), the support pipe (2-6) is connected with an energy storage battery pack (2-9), the support pipe (2-6) is connected with an auxiliary support (2-10), the auxiliary support (2-10) is connected with a magnetic field base (2-11), two ends of the air box (2-12) are symmetrically provided with air ducts (2-13), a servo motor (2-14) is connected with the boss (2-5), the servo motor (2-14) is connected with a coupler I (2-15), the coupler I (2-15) is connected with a gear (2-16) with a shaft, the belt shaft gear (2-16) is meshed with the belt shaft gear I (2-17), the belt shaft gear (2-16) and the belt shaft gear I (2-17) are rotatably connected with bearing seats (2-21), the bearing seats (2-21) are connected with a water inlet tank (2-2), the belt pulleys (2-18) are connected on the belt shaft gear (2-16) and the belt shaft gear I (2-17), the belt pulleys (2-18) are in friction connection with belts (2-19), the belts (2-19) are in friction connection with the belt pulleys I (2-20), the belt pulleys (2-20) are connected with a solar panel (2-1) with a flow passage plate, coils (2-22) are rotatably connected with magnetic field seats (2-11), the magnetic field seats (2-11) are connected with a wind wheel (2-23) with a shaft, the wind wheel (2-23) with the shaft is arranged in the air box (2-12), the wind wheel (2-23) with the shaft is connected with the water wheel (2-24), the wind wheel (2-23) with the shaft is rotatably connected with the supporting pipe (2-6), the wind wheel (2-23) with the shaft is rotatably connected with the air box (2-12), the partition plate (2-25) is connected with the supporting pipe (2-6), one end of the partition plate (2-25) extends to the water outlet (2-7), and the partition plate I (2-26) is connected with the water inlet box (2-2).

4. A street light apparatus for storing electric energy for wind power generation according to claim 1, wherein: the water storage power generation mechanism (3) comprises a centralized drainage pipe (3-1), an auxiliary support I (3-2), a magnetic field base I (3-3), a water passing tank (3-4), a connecting pipe (3-5), a drawing tank (3-6), a water storage tank (3-7), a filter plate (3-8), a hydraulic cylinder support (3-9), a hydraulic cylinder (3-10), a hydraulic rod (3-11), a gate (3-12), a water wheel I (3-13), a secondary filter plate (3-14) and a coil I (3-15), wherein the centralized drainage pipe (3-1) is connected and communicated with the water passing tank (3-4), the auxiliary support I (3-2) is connected with the magnetic field base I (3-3), the water passing tank (3-4) is connected and communicated with the connecting pipe (3-5), the connecting pipe (3-5) is connected and communicated with the drawing tank (3-6), the connecting pipe (3-5) is connected and communicated with the water storage tank (3-7), the water storage tank (3-7) is connected and communicated with the filter plate (3-8) in a sliding way, the hydraulic cylinder support (3-9) is connected with the drawing tank (3-6), the hydraulic cylinder support (3-9) is connected with the hydraulic cylinder (3-10), the hydraulic cylinder (3-10) is connected with the hydraulic rod (3-11), the hydraulic rod (3-11) is connected with the drawing tank (3-6) in a sliding way, the hydraulic rod (3-11) is connected with the gate (3-12), the water wheel I (3-13) is rotationally connected with the water passing tank (3-4), the secondary filter plate (3-14) is connected with the water storage tank (3-7) in a sliding way, the water wheel I (3-13) is connected with the coil I (3-15), and the coil I (3-15) is rotationally connected with the magnetic field seat I (3-3).

5. A street light apparatus for storing electric energy for wind power generation according to claim 2, wherein: one end of the air outlet channel (1-17) faces to the corner (1-12), and the air flow blown out of the air outlet channel (1-17) can be divided at the corner (1-12).

6. A street light apparatus for storing electric energy for wind power generation according to claim 4, wherein: the solar panels (1-10) and the solar panels (2-1) with the runner plates can collect solar energy, the coils (2-22) and the magnetic field seats (2-11) rotate relatively to generate electric energy, the coils I (3-15) and the magnetic field seats I (3-3) rotate relatively to generate electric energy, and the electric energy is collected in the energy storage battery packs (2-9).