CN112018953A

CN112018953A - Pavement new energy power generation equipment

Info

Publication number: CN112018953A
Application number: CN202010910763.5A
Authority: CN
Inventors: 程志宏
Original assignee: Individual
Current assignee: Bozhou Power Supply Co of State Grid Anhui Electric Power Co Ltd
Priority date: 2020-09-02
Filing date: 2020-09-02
Publication date: 2020-12-01
Anticipated expiration: 2040-09-02
Also published as: CN112018953B

Abstract

The invention discloses a pavement new energy power generation device which comprises a shell, a first sliding cavity, a second sliding cavity and a third sliding cavity, wherein the shell is arranged in the ground, the top surface of the shell and the ground are kept on the same horizontal line; the water-saving device is simple in structure and convenient to use, is arranged in the ground, utilizes the pressure generated when pedestrians or vehicles pass to introduce water in the drainage pipe in the ground into a high place, and then utilizes the impact generated when the water flows back downwards to generate electricity, so that the device is safe and pollution-free; meanwhile, the invention is also provided with the water storage cavity, so that water in the drainage pipeline can be discharged partially in rainstorm weather and when water accumulation occurs in cities, the water in the drainage pipeline is prevented from leaking due to excessive water, the ground bottom is continuously washed, soil under the road surface is washed away to form a cavity, and collapse accidents occur.

Description

Pavement new energy power generation equipment

Technical Field

The invention relates to the technical field of new energy, in particular to a pavement new energy power generation device.

Background

The urban power utilization requirement is high due to high modernization degree, and the traditional power generation mode by utilizing non-renewable resources such as coal and the like is gradually eliminated due to the phenomena of high resource loss, certain pollution and the like, so that new energy is slowly converted and utilized. In the city, many large-scale facilities cannot be deployed due to site restrictions, and thus large-scale power generation cannot be performed.

Meanwhile, because the coverage area of roads in the city is large, when weather conditions such as heavy rain occur, the phenomenon of water accumulation easily occurs, the drainage pipeline laid in the bottom surface is filled with water, the leakage phenomenon easily occurs, the pipeline is hollow when the water accumulation scours the soil near the pipeline, and if a heavy vehicle runs over, the collapse phenomenon is easily caused.

Disclosure of Invention

The invention aims to provide a pavement new energy power generation device which is used for overcoming the defects in the prior art.

The invention relates to a pavement new energy power generation device, which comprises a shell, wherein the shell is arranged in the ground, the top surface of the shell and the ground are kept on the same horizontal line, a drainage pipeline is arranged in the ground below the shell, a first sliding cavity is arranged in the top surface of the shell, a stepping plate capable of penetrating through the top surface of the shell is connected in a sliding manner in the first sliding cavity, the bottom surface of the stepping plate is fixedly connected with the bottom wall of the first sliding cavity through two first springs which are symmetrical in the left-right position, a second sliding cavity is communicated and arranged in the bottom wall of the first sliding cavity between the first springs, an active rod extending into the second sliding cavity is fixedly arranged on the bottom surface of the stepping plate, a first rotating groove penetrating in the left-right direction is arranged at the lower end of the active rod, a connecting rod extending in the left-right direction is rotatably connected in the first rotating groove, a third sliding cavity is communicated and, the rear wall of the third sliding cavity is fixedly provided with a limiting block with symmetrical upper and lower positions, the limiting block is connected with a driven rod in a sliding manner, a first sliding groove penetrates through the front and back of the right end of the connecting rod, a first sliding block connected with the driven rod in a rotating manner is connected in the first sliding groove in a sliding manner, the left side of the second sliding cavity is provided with an adjusting device capable of changing the stroke of the driven rod, a first water inlet pipe penetrating through the bottom surface of the shell and communicated with the drainage pipeline is arranged below the third sliding cavity, a piston plate is connected in the first water inlet pipe in a sliding manner, the driven rod extends downwards into the first water inlet pipe and is fixed on the upper surface of the piston plate, the left side of the first water inlet pipe is provided with a first water storage cavity through a connecting pipe in a communicating manner, a water outlet pipe penetrating through the, the water outlet pipe is internally provided with a ball valve, the water outlet pipe is internally and rotatably connected with a first rotating shaft below the ball valve, rotating blades are fixedly arranged on the first rotating shaft, a power generation cavity is arranged on the left side of the water outlet pipe, a rotating speed device is fixedly arranged on the bottom wall of the power generation cavity, the first rotating shaft extends to the power generation cavity and is installed in the rotating speed device, a power generator connected with a power grid is fixedly arranged on the bottom wall of the power generation cavity on the left side of the rotating speed device, a second rotating shaft connected with the power generator in a rotating mode is installed on the left side face of the rotating speed device, and a control device capable of controlling the opening and closing of the ball valve according to the water level.

Optionally, second sliding chamber left side is equipped with first rotation chamber through second spread groove intercommunication, adjusting device including set firmly in first motor on the rotation chamber left wall, the motor right flank install with first rotation chamber right wall rotates the screw shaft of connecting, threaded connection has the screw thread piece on the screw shaft, run through around in the connecting rod left end and be equipped with the second sliding tray, second sliding tray sliding connection have with the screw thread piece rotates the second sliding block of connecting, first rotation chamber back wall in-connection is equipped with first slide rail, first slide rail sliding connection have with screw thread piece trailing flank fixed connection's restriction piece.

Optionally, a second rotating cavity is arranged above the first water storage cavity, the control device comprises a third rotating shaft which is rotatably connected and arranged on the left side surface of the second rotating cavity, a ratchet wheel is connected to the third rotating shaft, a gear is connected to the bottom wall of the second rotating cavity in a sliding manner, a rack rod capable of being meshed with the front surface of the gear is connected to the bottom wall of the second rotating cavity in a sliding manner, the top surface of the rack rod is fixedly connected to the top wall of the second rotating cavity through a steel cable, the rack rod extends downwards into the first water storage cavity, a buoyancy ball is fixedly arranged at the bottom end of the rack rod, a first belt wheel is fixedly arranged on the third rotating shaft on the left side of the gear, a fourth rotating shaft which is fixedly connected to the left side surface of the ball valve in a rotating manner is connected to the left wall of the water outlet pipe, the fourth rotating shaft extends into the power generation cavity and, the second belt wheel and the first belt wheel are in belt transmission; the second rotates and has set firmly the case that resets on the chamber right wall, the incasement that resets is equipped with the third and rotates the chamber, the third axis of rotation extends to the third rotate the intracavity and with the third rotates the chamber right wall and rotates and be connected, the third rotates the intracavity the swinging arms has set firmly in the third axis of rotation, the third rotates the second slide rail that the intracavity left and right walls in-connection was equipped with position symmetry, controls two sliding connection has the reset block between the second slide rail, reset block bottom surface with through second spring fixed connection between the second slide rail, be equipped with the electro-magnet in the second slide rail bottom surface.

Optionally, first water storage chamber left side is equipped with second water storage chamber, in the second water storage chamber diapire through the second inlet tube with drainage pipe intercommunication, be equipped with the water pump on the second inlet tube, the water pump with pass through circuit connection between the generator.

Optionally, the left and right positions symmetry is equipped with the exhaust hole that runs through from top to bottom in the piston plate, exhaust hole top the exhaust case has set firmly on the piston plate top surface, be equipped with in the exhaust case and run through the third sliding tray of exhaust case lower surface, sliding connection has in the third sliding tray can with the jam plate that the exhaust hole was plugged up, the jam plate top surface with through third spring fixed connection between the third sliding tray top surface, it is equipped with the air vent to run through in the lateral wall about the third sliding tray.

Optionally, a filter screen is arranged in the first water inlet pipe.

Optionally, a waterproof sleeve is fixedly arranged at a connection part of the fourth rotating shaft and the first rotating shaft and the water outlet pipe.

The invention has the beneficial effects that: the invention has simple structure and convenient use, has no special requirement on the field, is arranged in the ground, utilizes the pressure generated when pedestrians or vehicles pass to drive the piston plate to do reciprocating motion, leads the water in the drain pipe in the ground into a high position, and then utilizes the impact generated when the water flows back downwards to generate electricity, thereby being safe and pollution-free; meanwhile, the invention is provided with the adjusting device, so that the stroke of the reciprocating motion of the piston plate can be changed, and the adjusting device can be selected for use according to actual conditions.

The invention is also provided with the water storage cavity, so that water in the drainage pipeline can be discharged partially in rainstorm weather and when water accumulation occurs in cities, the water in the drainage pipeline is prevented from leaking due to excessive water, the ground bottom is continuously washed, soil under the road surface is washed away to form a cavity, and collapse accidents occur.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

FIG. 1 is a schematic structural diagram of a pavement new energy power generation device of the invention;

FIG. 2 is a schematic view of the structure at A-A in FIG. 1;

FIG. 3 is a schematic view of the structure at B-B in FIG. 2;

FIG. 4 is an enlarged view of the piston plate of FIG. 1;

FIG. 5 is an enlarged view of the structure at the water outlet pipe in FIG. 1;

FIG. 6 is an enlarged schematic view of the control device of FIG. 1;

FIG. 7 is an enlarged view of the structure of the reset box of FIG. 6;

FIG. 8 is a schematic view of the structure at C-C in FIG. 7;

fig. 9 is a schematic view of the oscillating lever and reset block of fig. 8 in an operating state.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 9, a pavement new energy power generation device according to an embodiment of the present invention includes a casing 12 disposed in a ground, a drainage pipe 30 disposed in the ground below the casing 12, a first sliding cavity 13 disposed in the top of the casing 12, a stepping plate 11 slidably connected to the first sliding cavity 13 and capable of penetrating through the top of the casing 12, two first springs 14 symmetrically disposed on left and right sides and fixedly connected between the bottom of the stepping plate 11 and the bottom of the first sliding cavity 13, a second sliding cavity 21 communicated with the bottom of the first sliding cavity 13 between the first springs 14, a driving rod 15 extending into the second sliding cavity 21 and fixedly disposed on the ground of the stepping plate 11, a first rotating groove 20 penetrating left and right and disposed at the lower end of the driving rod 15, and a connecting rod 40 rotatably connected to the first rotating groove 20 and extending left and right, the right side of the second sliding cavity 21 is provided with a third sliding cavity 41 through a first connecting groove 42 in a communicating manner, the rear wall of the third sliding cavity 41 is fixedly provided with a limiting block 37 with symmetrical upper and lower positions, a driven rod 36 is slidably connected with the limiting block 37, a first sliding groove 39 is arranged in the right end of the connecting rod 40 in a front-back penetrating manner, a first sliding block 38 rotatably connected with the driven rod 36 is slidably connected with the first sliding groove 39, the left side of the second sliding cavity 21 is provided with an adjusting device 101 capable of changing the stroke of the driven rod 36, a first water inlet pipe 32 penetrating through the bottom surface of the shell 12 and communicated with the drainage pipeline 30 is arranged below the third sliding cavity 41, a piston plate 35 is slidably connected with the first water inlet pipe 32, the driven rod 36 extends downwards into the first water inlet pipe 32 and is fixed on the upper surface of the piston plate 35, and a first water storage cavity 26 is arranged on the left side of the first water inlet, a water outlet pipe 31 which penetrates through the bottom surface of the shell 12 and is communicated with the drainage pipeline 30 is arranged in the bottom wall of the first water storage cavity 26, a ball valve 62 is arranged in the water outlet pipe 31, a first rotating shaft 74 is rotatably connected in the water outlet pipe 31 below the ball valve 62, the first rotating shaft 74 is fixedly provided with a rotating blade 61, the left side of the water outlet pipe 31 is provided with a power generation cavity 29, a speed rotator 59 is fixedly arranged on the bottom wall of the power generation cavity 29, the first rotating shaft 74 extends into the power generation cavity 29 and is arranged in the speed rotator 59, a generator 56 connected with the power grid is fixedly arranged on the bottom wall of the power generation cavity 29 on the left side of the speed rotating box 59, a second rotating shaft 58 rotatably connected to the generator 56 is installed on the left side surface of the speed changer 59, a control device 102 capable of controlling the opening and closing of the ball valve 62 according to the water level in the first water storage cavity 26 is arranged above the first water storage cavity 26.

Preferably, the left side of the second sliding cavity 21 is communicated with a first rotating cavity 16 through a second connecting groove 19, the adjusting device 101 includes a motor 17 fixedly arranged on the left wall of the first rotating cavity 16, a threaded shaft 18 rotatably connected with the right wall of the first rotating cavity 16 is installed on the right side surface of the motor 17, a threaded block 47 is threadedly connected on the threaded shaft 18, a second sliding groove 46 is penetratingly arranged in the front and back of the left end of the connecting rod 40, a second sliding block 45 rotatably connected with the threaded block 47 is slidably connected in the second sliding groove 46, a first sliding rail 44 is rotatably connected in the rear wall of the first rotating cavity 16, a limiting block 43 fixedly connected with the rear side surface of the threaded block 47 is slidably connected in the first sliding rail 44, when the motor 17 is started, the threaded shaft 18 is driven to rotate, because the threaded block 47 is limited by the limiting block 43, the screw block 47 can move left and right along with the rotation of the screw shaft 18, the screw block 47 drives the second sliding block 45 to move left and right in the second sliding groove 46, the distance between the second sliding block 45 and the driving rod 15 is changed, the distance of the driven rod 36 moving up and down is changed, when the water in the drainage pipeline 30 is too much, the distance of the driven rod 36 moving up and down is shortened, the water introduced into the first water inlet pipe 32 is prevented from entering the third sliding cavity 41 due to too much water, so that the equipment work is influenced, and when the water in the drainage pipeline 30 is too little, the distance of the driven rod 36 moving up and down is increased, so that the water can be introduced into the first water inlet pipe 32 and enter the first water storage cavity 26 through the connecting pipe 34.

Preferably, the second rotating cavity 23 is arranged above the first water storage cavity 26, the control device 102 includes a third rotating shaft 64 rotatably connected to the left side surface of the second rotating cavity 23, a gear 65 is ratcheted on the third rotating shaft 64, a rack bar 24 capable of being engaged with the front surface of the gear 65 is slidably connected to the bottom wall of the second rotating cavity 23, the top surface of the rack bar 24 is fixedly connected to the top wall of the second rotating cavity 23 through a steel cable 66, the rack bar 24 extends downwards into the first water storage cavity 26, a buoyancy ball 25 is fixedly arranged at the bottom end of the rack bar 24, a first belt pulley 63 is fixedly arranged on the third rotating shaft 64 at the left side of the gear 65, a fourth rotating shaft 55 fixedly connected to the left side surface of the ball valve 62 is rotatably connected to the left wall of the water outlet pipe 31, the fourth rotating shaft 55 extends into the power generation cavity 29 and is rotatably connected to the left wall of the power generation cavity 29, a second belt wheel 54 is fixedly arranged on the fourth rotating shaft 55, and the second belt wheel 54 and the first belt wheel 63 are driven by a belt 53; a reset box 67 is fixedly arranged on the right wall of the second rotating cavity 23, a third rotating cavity 73 is arranged in the reset box 67, the third rotating shaft 64 extends into the third rotating cavity 73 and is rotatably connected with the right wall of the third rotating cavity 73, a swinging rod 72 is fixedly arranged on the third rotating shaft 64 in the third rotating cavity 73, second sliding rails 69 with symmetrical positions are arranged in the left wall and the right wall of the third rotating cavity 73, a reset block 68 is slidably connected between the left second sliding rail 69 and the right second sliding rail 69, the bottom surface of the reset block 68 is fixedly connected with the second sliding rails 69 through a second spring 70, and an electromagnet 71 is arranged in the bottom surface of the second sliding rail 69; when the water level in the first water storage cavity 26 rises, the rack bar 24 is driven by the buoyancy ball 25 to move upwards, so that the gear 65 can drive the third rotating shaft 64 to rotate, the third rotating shaft 64 drives the first belt wheel 63 to rotate, the first belt wheel 63 drives the second belt wheel 54 to rotate through the belt 53, the second belt pulley 54 drives the ball valve 62 to rotate through the fourth rotating shaft 55 to open the water outlet pipe 31, so that water enters the water outlet pipe 31 to push the rotating blade 61 to rotate, the rotating blade 61 drives the first rotating shaft 74 to rotate, and the second rotating shaft 58 is driven to rotate in the generator 56 for generating power after the rotation speed is adjusted in the speed changer 59, meanwhile, the third rotating shaft 64 drives the swinging rod 72 to rotate from the first working state to the second working state; after the water level is reduced, the buoyancy ball 25 can drive due to the influence of gravity the rack bar 24 moves down, and at this moment the rack bar 24 can not make the gear 65 drive the third rotating shaft 64 rotates, when the water in the first water storage cavity 26 completely flows out, no power generation is carried out in the generator 56, at this moment the electromagnet 71 starts to attract the reset block 68 to move down, and through the swinging rod 72 drives the third rotating shaft 64 to rotate from operating condition two to operating condition three, the third rotating shaft 64 drives the fourth rotating shaft 55 to rotate and will the ball valve 62 is closed, so that the power generation work can be carried out when the water in the first water storage cavity 26 is enough to generate power.

Preferably, first water storage cavity 26 left side is equipped with second water storage cavity 22, in the second water storage cavity 22 the diapire through second inlet tube 27 with drainage pipe 30 intercommunication, be equipped with water pump 28 on the second inlet tube 27, water pump 28 with connect through circuit 57 between the generator 56, work as when drainage pipe 30 internal water is full, generator 56 can continue to work, this moment generator 56 can start water pump 28 will water in the drainage pipe 30 is introduced and is stored in the second water storage cavity 22, prevents the water seepage in drainage pipe 30 constantly erodees the basement, washes away the soil under the road surface and takes away the formation cavity, the emergence accident of collapsing.

Preferably, the piston plate 35 is provided with vent holes 75 penetrating vertically and symmetrically at left and right positions, the top surface of the piston plate 35 above the vent holes 75 is fixedly provided with a vent box 51, the vent box 51 is provided with a third sliding groove 50 penetrating through the lower surface of the vent box 51, the third sliding groove 50 is connected with a blocking plate 48 capable of blocking the vent holes 75 in a sliding manner, the top surface of the blocking plate 48 is fixedly connected with the top surface of the third sliding groove 50 through a third spring 52, vent holes 49 penetrate through left and right side walls of the third sliding groove 50, when the piston plate 35 moves downwards, air in the first water inlet pipe 32 is compressed to jack the blocking plate 48 upwards, so that the air in the first water inlet pipe 32 can enter the third sliding groove 50 through the vent holes 75 and then be discharged through the vent holes 49, when the piston plate 35 moves upward, the space in the first water inlet pipe 32 increases, the pressure decreases, and water in the drain pipe 30 can be sucked into the first water inlet pipe 32 and flows into the first water storage chamber 26 through the connection pipe 34.

Preferably, a filter screen 33 is arranged in the first water inlet pipe 32, and the filter screen 33 can prevent large impurities from entering the first water inlet pipe 32 to cause pipeline blockage.

Preferably, a waterproof sleeve 60 is fixedly arranged at the connection between the fourth rotating shaft 55 and the first rotating shaft 74 and the water outlet pipe 31, and the waterproof sleeve 60 can prevent water from entering the power generation cavity 29.

In an initial state, the top surface of the pressing plate 11 is higher than the ground, the first spring 14 is in a compressed state, the piston plate 35 is located at the top of the connecting pipe 34, the blocking plate 48 blocks the exhaust hole 75, the third spring 52 is in a compressed state, the ball valve 62 is closed, the reset block 68 and the oscillating rod 72 are in a first working state, and the second spring 70 is in a compressed state.

When a pedestrian or a vehicle passes through the ground and presses the stepping plate 11, the stepping plate 11 drives the driving rod 15 to move downwards, the driving rod 15 drives the connecting rod 40 to swing, the connecting rod 40 drives the driven rod 36 to move downwards through the first sliding block 38, then the stepping plate 11 moves upwards under the action of the first spring 14 and drives the driven rod 36 to move upwards at the same time, one-time reciprocating motion is completed, water in the drainage pipeline 30 is introduced into the first water storage cavity 26, and after the water in the first water storage cavity 26 is fully stored, the ball valve 62 is opened, the water in the first water storage cavity 26 is put into the drainage pipeline 30 from the water outlet pipe 31, and power generation is performed in the power generation cavity 29.

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

Claims

1. The utility model provides a road surface new forms of energy power generation facility, is including setting up in ground and the top surface keeps the shell at same water flat line with ground, its characterized in that: a drainage pipeline is arranged in the ground below the shell, a first sliding cavity is arranged in the top surface of the shell, a stepping plate capable of penetrating through the top surface of the shell is connected in the first sliding cavity in a sliding manner, the bottom surface of the stepping plate is fixedly connected with the bottom wall of the first sliding cavity through two first springs which are symmetrical in left and right positions, a second sliding cavity is communicated and arranged in the bottom wall of the first sliding cavity between the first springs, a driving rod extending into the second sliding cavity is fixedly arranged on the bottom surface of the stepping plate, a first rotating groove penetrating left and right is arranged at the lower end of the driving rod, a connecting rod extending left and right is rotatably connected in the first rotating groove, a third sliding cavity is communicated and arranged on the right side of the second sliding cavity through a first connecting groove, limiting blocks which are symmetrical in up and down positions are fixedly arranged on the rear wall of the third sliding cavity, and driven rods are connected in, the connecting rod is characterized in that a first sliding groove is arranged in the right end of the connecting rod in a front-back penetrating manner, a first sliding block connected with the driven rod in a rotating manner is connected in the first sliding groove in a sliding manner, an adjusting device capable of changing the stroke of the driven rod is arranged on the left side of the second sliding cavity, a first water inlet pipe which penetrates through the bottom surface of the shell and is communicated with the drainage pipeline is arranged below the third sliding cavity, a piston plate is connected in the first water inlet pipe in a sliding manner, the driven rod extends downwards into the first water inlet pipe and is fixed on the upper surface of the piston plate, a first water storage cavity is arranged on the left side of the first water inlet pipe through a connecting pipe in a communicating manner, a water outlet pipe which penetrates through the bottom surface of the shell and is communicated with the drainage pipeline is arranged in the bottom wall of the first water storage cavity, a, the outlet pipe left side is equipped with the electricity generation chamber, set firmly the tachometer on the electricity generation chamber diapire, first axis of rotation extends to the electricity generation intracavity and install in the tachometer, the tachometer is left set firmly the generator that links to each other with the electric wire netting on the electricity generation chamber diapire, the tachometer left surface install with the second axis of rotation that the generator rotates the connection, first retaining chamber top is equipped with can be according to the water level control in the first retaining intracavity the controlling means of ball valve switching.

2. The pavement new energy power generation equipment as claimed in claim 1, wherein: second sliding chamber left side is equipped with first rotation chamber through second spread groove intercommunication, adjusting device including set firmly in first motor on the rotation chamber left wall, motor right flank install with first rotation chamber right wall rotates the screw thread axle of connecting, threaded connection has the screw thread piece on the screw thread axle, run through around in the connecting rod left end and be equipped with the second sliding tray, second sliding tray sliding connection have with the screw thread piece rotates the second sliding block of connecting, first rotation chamber back wall in-connection is equipped with first slide rail, first slide rail sliding connection have with screw thread piece trailing flank fixed connection's restriction piece.

3. The pavement new energy power generation equipment as claimed in claim 1, wherein: the upper part of the first water storage cavity is provided with a second rotating cavity, the control device comprises a third rotating shaft which is rotatably connected and arranged on the left side surface of the second rotating cavity, a ratchet wheel is connected with a gear on the third rotating shaft, a rack rod which can be meshed with the front surface of the gear is slidably connected with the bottom wall of the second rotating cavity, the top surface of the rack rod is fixedly connected with the top wall of the second rotating cavity through a steel cable, the rack rod extends downwards into the first water storage cavity, a buoyancy ball is fixedly arranged at the bottom end of the rack rod, a first belt pulley is fixedly arranged on the third rotating shaft on the left side of the gear, a fourth rotating shaft which is fixedly connected with the left side surface of the ball valve is rotatably connected with the left wall of the water outlet pipe, the fourth rotating shaft extends into the power generation cavity and is rotatably connected with the left wall of the power generation cavity, and a second belt, the second belt wheel and the first belt wheel are in belt transmission; the second rotates and has set firmly the case that resets on the chamber right wall, the incasement that resets is equipped with the third and rotates the chamber, the third axis of rotation extends to the third rotate the intracavity and with the third rotates the chamber right wall and rotates and be connected, the third rotates the intracavity the swinging arms has set firmly in the third axis of rotation, the third rotates the second slide rail that the intracavity left and right walls in-connection was equipped with position symmetry, controls two sliding connection has the reset block between the second slide rail, reset block bottom surface with through second spring fixed connection between the second slide rail, be equipped with the electro-magnet in the second slide rail bottom surface.

4. The pavement new energy power generation equipment as claimed in claim 1, wherein: the left side of the first water storage cavity is provided with a second water storage cavity, the bottom wall of the second water storage cavity is communicated with the drainage pipeline through a second water inlet pipe, a water pump is arranged on the second water inlet pipe, and the water pump is connected with the generator through a circuit.

5. The pavement new energy power generation equipment as claimed in claim 1, wherein: the utility model discloses a piston plate, including piston plate, exhaust hole top, be equipped with the third sliding tray that runs through about the symmetry is equipped with in the piston plate, exhaust hole top the exhaust case has set firmly on the piston plate top surface, be equipped with in the exhaust case and run through the third sliding tray of exhaust case lower surface, sliding connection has in the third sliding tray can with the jam plate that the exhaust hole was plugged up, jam plate top surface with through third spring fixed connection between the third sliding tray top surface, it is equipped with the air vent to run through in the lateral wall about the third sliding tray.

6. The pavement new energy power generation equipment as claimed in claim 1, wherein: a filter screen is arranged in the first water inlet pipe.

7. The pavement new energy power generation equipment as claimed in claim 1, wherein: and a waterproof sleeve is fixedly arranged at the joint of the fourth rotating shaft and the first rotating shaft with the water outlet pipe.