阅读说明：本技术 一种应用于水电站水力发电的高效发电设备 (Efficient power generation equipment applied to hydropower station ) 是由 吴禹凡 高洪庆 于 2020-11-25 设计创作，主要内容包括：本发明涉及新能源设备的技术领域,特别是涉及一种应用于水电站水力发电的高效发电设备,其通过对水流进行利用发电,可有效提高水流对设备的推动效果,提高设备的运行速度,提高水流动能传递效率,从而提高电能产生量,提高实用性和可靠性；包括第一导水仓、第二导水仓、第三导水仓、第四导水仓、虹吸管和四组支腿,第一导水仓的底部为锥形,第一导水仓的顶部与外界水利管道连通,第二导水仓安装在第一导水仓的底部,第二导水仓的内壁左侧和右侧均为弧形,第三导水仓安装在第二导水仓的底部。(The invention relates to the technical field of new energy equipment, in particular to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which can effectively improve the pushing effect of water flow on the equipment, improve the running speed of the equipment and improve the kinetic energy transmission efficiency of the water flow by utilizing the water flow to generate power, thereby improving the electric energy generation amount and the practicability and reliability; including first water guide bin, second water guide bin, third water guide bin, fourth water guide bin, siphon and four groups of landing legs, the bottom in first water guide bin is the toper, and the top and the external water conservancy pipeline intercommunication in first water guide bin, second water guide bin install in the bottom in first water guide bin, and the inner wall left side and the right side in second water guide bin are the arc, and the bottom in second water guide bin is installed in third water guide bin.)

1. The utility model provides a be applied to high-efficient power generation equipment of power station hydroelectric power generation, a serial communication port, including first sump (1) that leads, second sump (2) that leads, third sump (3) that leads, fourth sump (4) that leads, siphon (5) and four groups landing leg (40), the bottom of first sump (1) that leads is the toper, the top and the external water conservancy pipeline intercommunication of first sump (1) that leads, the bottom at first sump (1) are installed in second sump (2) that leads, the inner wall left side and the right side of second sump (2) are the arc, the bottom at second sump (2) is installed in third sump (3) that leads, the bottom left side at third sump (3) is installed in fourth sump (4) that leads, the left side at fourth sump (4) is installed in siphon (5), the middle part of siphon (5) is located the top of fourth sump (4) that leads, first sump (1) that leads, The second water guide bin (2), the third water guide bin (3), the fourth water guide bin (4) and the siphon (5) are communicated with each other, a secondary power generation device is arranged in the third water guide bin (3), four groups of supporting legs (40) are all arranged on the lower side of the outer wall of the third water guide bin (3), the left side and the right side of the inner wall of the second water guide bin (2) are respectively and longitudinally rotatably provided with a first transmission shaft (6), a plurality of groups of contraction groove plates (7) are uniformly arranged in the circumferential direction of the outer wall of two groups of first transmission shafts (6), an impact plate (8) is arranged in each group of contraction groove plates (7), each group of impact plates (8) penetrates through the outer end of each contraction groove plate (7) and extends to the outer side of each contraction groove plate (7), each group of impact plates (8) respectively slide in the corresponding contraction groove plates (7), the shapes of each group of contraction groove plates (7) and each group of impact plates (8) are arc-shaped and the arc-, the multi-group contraction groove plates (7) and the multi-group impact plates (8) on the first transmission shaft (6) on the left side correspond to the multi-group contraction groove plates (7) and the multi-group impact plates (8) on the first transmission shaft (6) on the right side respectively, the inner wall bottom of each group of contraction groove plates (7) is provided with a plurality of groups of springs (9), the outer side of each group of springs (9) is installed on the corresponding impact plates (8), the front side and the rear side of each group of contraction groove plates (7) are respectively communicated with a limiting groove, limiting blocks (10) are arranged in each group of limiting grooves, each group of limiting blocks (10) is fixed on the corresponding impact plates (8), guide rods (11) are arranged on the front upper side and the rear upper side of the inside of a third water guide bin (3), the left sides and right sides of the two groups of guide rods (11) are arc-shaped, the positions of the two groups of guide rods (11) correspond to the positions of the multi-group impact plates (8) on the first transmission shaft (6) on the The positions of the two groups of guide rods are corresponding, the outer sides of the two groups of guide rods (11) are in butt joint with the lower side of the inner wall of the second water guide bin (2), the front ends of the two groups of first transmission shafts (6) penetrate through the front side of the second water guide bin (2) and extend out of the front side of the second water guide bin (2), the left side and the right side of the front part of the second water guide bin (2) are respectively provided with a transmission wheel (12), the rear sides of the two groups of transmission wheels (12) are respectively arranged at the front sides of the two groups of first transmission shafts (6), the outer side of the left transmission wheel (12) is provided with a circular transmission button cap (13), the left side of the inner side wall of the circular transmission button cap (13) is in contact with and synchronous transmission with the left side of the outer side wall of the left transmission wheel (12), the right side of the outer side wall of the circular transmission button cap (13) is in contact with and synchronous transmission, the guide rail (14) is, all be provided with first support (16) on two sets of sliders (15), the rear side of two sets of first support (16) is all fixed on second water guide bin (2), the place ahead that cap (13) was detained in circular transmission is provided with first generator (17), the rear side output of first generator (17) is installed and is detained cap (13) in circular transmission, the front side of first generator (17) is provided with bow-shaped frame (18), the back upside and the back downside of bow-shaped frame (18) are all fixed on second water guide bin (2), first generator (17) and secondary power generating equipment all are connected with external power storage equipment electricity.

2. The high-efficiency power generation device applied to hydropower station hydroelectric power generation of claim 1, wherein the secondary power generation device comprises a transmission cylinder (19), a second transmission shaft (20), a fixed column (21), a connecting ring (22), two groups of first bevel gears (24), a second bevel gear (25), a third transmission shaft (26), a second bracket (27), a worm gear (28), a second generator (29), a worm (30) and a third bracket (31), the top of the transmission cylinder (19) passes through the bottom of the third water guide bin (3) and extends into the upper side of the inside of the third water guide bin (3), the transmission cylinder (19) is rotatably connected with the third water guide bin (3), the second transmission shaft (20) is positioned in the transmission cylinder (19), the top and the bottom of the second transmission shaft (20) both extend out of the transmission cylinder (19), and the second transmission shaft (20) is rotatably connected with the transmission cylinder (19), the fixed column (21) is arranged at the top of the second transmission shaft (20), the connecting ring (22) is sleeved on the outer side of the upper portion of the second transmission shaft (20), the bottom of the connecting ring (22) is fixed at the top of the transmission cylinder (19), the top of the connecting ring (22) is rotatably arranged at the bottom of the fixed column (21), a plurality of groups of arc-shaped fan blades (23) are uniformly arranged on the fixed column (21) and on the outer wall of the transmission cylinder (19) in an inclined mode in the circumferential direction, the inclined directions of the plurality of groups of arc-shaped fan blades (23) on the fixed column (21) are opposite to the inclined direction of the plurality of groups of arc-shaped fan blades (23) on the transmission cylinder (19), two groups of first bevel gears (24) are respectively arranged on the lower side of the transmission cylinder (19) and the lower side of the second transmission shaft (20), the directions of the two groups, the third transmission shaft (26) is installed on the right side of the second bevel gear (25), the lower side of the second support (27) is rotatably installed on the third transmission shaft (26), the top of the second support (27) is fixed at the bottom of the third water guide bin (3), the worm wheel (28) is installed on the right side of the third transmission shaft (26), the second generator (29) is located behind the worm wheel (28), the second generator (29) is fixed at the bottom of the third water guide bin (3), the worm (30) is installed at the front side output end of the second generator (29), the worm (30) and the worm wheel (28) are meshed with each other, the lower side of the third support (31) is rotatably installed at the front side of the worm (30), the top of the third support (31) is fixed on the third water guide bin (3), and the second generator (29) is electrically connected with external electricity storage equipment.

3. The high-efficiency power generation equipment applied to hydropower station hydroelectric power generation of claim 2, further comprising a filter plate (32), a collection bin (33) and a cleaning plate (34), wherein the filter plate (32) is obliquely arranged on the inner wall of the first water guide bin (1), the collection bin (33) is arranged on the left side of the first water guide bin (1), the right upper side inside the collection bin (33) is communicated with the inside of the first water guide bin (1), the position of the collection bin (33) corresponds to the position of the filter plate (32), the left lower side of the collection bin (33) is communicated with a cleaning port, and the cleaning plate (34) is covered on the cleaning port.

4. The high-efficiency generating equipment applied to hydropower station hydroelectric power generation of claim 3, further comprising a water guide hopper (35), wherein the water guide hopper (35) is positioned between the two groups of guide rods (11) and the fixed column (21), and the outer side of the water guide hopper (35) is fixed on the inner wall of the third water guide bin (3).

5. The high-efficiency power generation equipment applied to hydropower station hydroelectric power generation of claim 4, further comprising a stabilizing sleeve (36) and two groups of stabilizing frames (37), wherein the stabilizing sleeve (36) is rotatably sleeved on the upper side of the outer wall of the transmission cylinder (19), and the stabilizing sleeve (36) is fixed on the inner wall of the third water guide bin (3) through the two groups of stabilizing frames (37).

6. The high-efficiency power generation device applied to hydropower station hydroelectric power generation of claim 5, further comprising a shield (38), wherein the shield (38) is positioned outside the two groups of first bevel gears (24), the second bevel gear (25), the third transmission shaft (26), the second bracket (27), the worm wheel (28), the second power generator (29), the worm (30) and the third bracket (31), and the top of the shield (38) is fixed on the third water guide bin (3).

7. The high-efficiency generating equipment applied to hydropower of the hydropower station as claimed in claim 6, further comprising a transparent glass (39), wherein the front side of the third water guide bin (3) is provided with a through hole in a communication manner, and the transparent glass (39) is covered on the through hole.

8. The high efficiency power generating apparatus for hydropower of hydropower station of claim 7, wherein the top of the fixing post (21) is provided with a taper shape.

Technical Field

The invention relates to the technical field of new energy equipment, in particular to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation.

Background

As is well known, hydroelectric power generation mainly utilizes rivers to promote the impeller rotation in the power generation facility to drive the power generation facility operation and produce the electric energy, it can convert the kinetic energy of rivers into the electric energy, the convenience provides electric power support to people's life and production, however current hydroelectric power generation facility is when using, rivers mainly produce the slope thrust to the slope blade on the impeller and make the impeller rotate, the promotion effect of rivers is relatively poor, impeller slew velocity is lower, lead to kinetic energy transmission efficiency lower, the electric energy production volume is less.

Disclosure of Invention

In order to solve the technical problems, the invention provides the high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which can effectively improve the pushing effect of water flow on equipment, improve the running speed of the equipment and improve the transmission efficiency of water flow kinetic energy, thereby improving the electric energy generation amount and improving the practicability and reliability.

The invention relates to high-efficiency power generation equipment applied to hydroelectric power generation of a hydropower station, which comprises a first water guide bin, a second water guide bin, a third water guide bin, a fourth water guide bin, a siphon and four groups of supporting legs, wherein the bottom of the first water guide bin is conical, the top of the first water guide bin is communicated with an external water conservancy pipeline, the second water guide bin is arranged at the bottom of the first water guide bin, the left side and the right side of the inner wall of the second water guide bin are both arc-shaped, the third water guide bin is arranged at the bottom of the second water guide bin, the fourth water guide bin is arranged at the left side of the bottom of the third water guide bin, the siphon is arranged at the left side of the fourth water guide bin, the middle part of the siphon is positioned above the fourth water guide bin, the first water guide bin, the second water guide bin, the third water guide bin, the fourth water guide bin and the siphon are communicated with each other, a secondary power generation device is arranged inside the third water guide bin, and the four groups of supporting legs are arranged at the lower, the left side and the right side of the inner wall of the second water guide bin are both longitudinally and rotatably provided with first transmission shafts, a plurality of groups of contraction groove plates are uniformly arranged in the circumferential direction of the outer walls of the two groups of first transmission shafts, an impact plate is arranged in each group of contraction groove plates, each group of impact plates penetrates through the outer ends of the contraction groove plates and extends out of the contraction groove plates, each group of impact plates respectively slide in the corresponding contraction groove plates, the shapes of each group of contraction groove plates and each group of impact plates are arc-shaped, the arc directions of the groups of contraction groove plates and the groups of impact plates are all corresponding to each other, the plurality of groups of contraction groove plates and the plurality of groups of impact plates on the left side first transmission shaft respectively correspond to the positions of the plurality of groups of contraction groove plates and the plurality of groups of impact plates on the right side first transmission shaft, a plurality of groups of springs are arranged at the bottoms of the inner, the limiting blocks are arranged in each group of limiting grooves, each group of limiting blocks is fixed on the corresponding impact plate, the front upper side and the rear upper side in the third water guide bin are respectively provided with a guide rod, the left side and the right side of each group of guide rods are arc-shaped, the positions of the two groups of guide rods respectively correspond to the positions of the multiple groups of impact plates on the left first transmission shaft and the positions of the multiple groups of impact plates on the right first transmission shaft, the outer sides of the two groups of guide rods are butted with the lower side of the inner wall of the second water guide bin, the front ends of the two groups of first transmission shafts respectively penetrate through the front side of the second water guide bin and extend out to the front of the second water guide bin, the left side and the right side of the front part of the second water guide bin are respectively provided with a transmission wheel, the rear sides of the two groups of transmission wheels are respectively arranged on the front sides of the two groups of first transmission shafts, the outer, the right side of the outer side wall of the circular transmission buckle cap is in contact with the left side of the outer side wall of the right transmission wheel and is in synchronous transmission with the left side of the outer side wall of the circular transmission buckle cap, a guide rail is arranged on the outer side of the front portion of the circular transmission buckle cap, sliding blocks are arranged on the left side and the right side of the guide rail in a sliding mode, first supports are arranged on the two groups of sliding blocks, the rear sides of the two groups of first supports are fixed on a second water guide bin, a first generator is arranged in front of the circular transmission buckle cap, the output end of the rear side of the first generator is mounted on the circular transmission buckle cap, an arched frame is arranged on the front side of the first generator, the rear upper side and the rear lower side; water in an external water conservancy pipeline enters a first water guide bin through the top of the first water guide bin and directly impacts a plurality of groups of contraction groove plates and a plurality of groups of impact plates between two groups of first transmission shafts downwards, because the groups of contraction groove plates and the groups of impact plates are arc-shaped and staggered in position, the water flow directly impacts and pushes the groups of contraction groove plates and the groups of impact plates between the two groups of first transmission shafts to rotate, the groups of contraction groove plates drive the two groups of first transmission shafts to rotate, when the impact plates between the two groups of first transmission shafts move downwards to the two groups of guide rods, because the left sides and the right sides of the two groups of guide rods are arc-shaped, the two groups of guide rods can push the impact plates at corresponding positions to retract into the contraction groove plates, the impact plates compress a plurality of groups of springs in the contraction groove plates, and simultaneously the impact plates drive two groups of limit blocks on the impact plates to slide in two groups of limit grooves on the corresponding contraction groove plates, the impact plate is convenient to be folded, the outer side of the impact plate slides on the guide rod and is inserted into the inner wall of the second water guide bin to continuously slide, when the outer side of the impact plate slides, the outer side of the impact plate is positioned at the positions of the first water guide bin and the second water guide bin, the impact plate is pushed by a plurality of groups of springs in the corresponding contraction groove plate to move outwards and extend to an initial state, so that the total length of the contraction groove plate and the impact plate is increased to the initial state, the total stress area of the contraction groove plate and the impact plate is increased, the rotating speed of the two groups of first transmission shafts is increased, water flow in the first water guide bin is impacted and pushed again, the plurality of groups of contraction groove plates and the plurality of impact plates on the two groups of first transmission shafts rotate and repeat telescopic motion, the two groups of first transmission shafts in the rotating state drive the two groups of transmission wheels to rotate, and the two groups of transmission wheels drive the circular transmission buckle cap to rotate, the circular transmission button cap drives the guide rails to slide on the two groups of sliding blocks, the two groups of first supports respectively support the two groups of sliding blocks, the circular transmission button cap in a rotating state drives the first generator to operate through the rear side output end of the first generator, electric energy is generated in the first generator and is transmitted into external electric storage equipment, so that the purpose of hydroelectric generation is achieved, meanwhile, the rotating torque of the circular transmission button cap can be conveniently increased through the arrangement of the two groups of transmission wheels and the circular transmission button cap, the circular transmission button cap can continuously drive the first generator to operate conveniently, water flow in the second water guide bin flows downwards to enter the third water guide bin and push the secondary electric generation equipment to operate, electric energy is generated in the secondary electric generation equipment and is transmitted into the external electric storage equipment, so that residual kinetic energy of the water flow in the third water guide bin is absorbed and utilized, water in the third water guide bin enters the fourth water guide bin and is discharged to the outside through a siphon tube, through the middle part that makes the siphon be higher than the fourth water guide storehouse, can conveniently make the siphon to the inside siphonage that produces in fourth water guide storehouse, conveniently make the rivers in third water guide storehouse and the fourth water guide storehouse flow fast, through utilizing the electricity generation to rivers, can effectively improve rivers to the promotion effect of equipment, improve equipment's functioning speed, improve rivers kinetic energy transmission efficiency to improve the electric energy production volume, improve practicality and reliability.

The invention relates to a high-efficiency power generation device applied to hydroelectric power generation of a hydropower station, which comprises a transmission cylinder, a second transmission shaft, a fixed column, a connecting ring, two groups of first bevel gears, a second bevel gear, a third transmission shaft, a second bracket, a worm gear, a second generator, a worm and a third bracket, wherein the top of the transmission cylinder penetrates through the bottom of a third water guide bin and extends into the upper side inside the third water guide bin, the transmission cylinder is rotatably connected with the third water guide bin, the second transmission shaft is positioned in the transmission cylinder, the top and the bottom of the second transmission shaft both extend out of the transmission cylinder, the second transmission shaft is rotatably connected with the transmission cylinder, the fixed column is arranged at the top of the second transmission shaft, the connecting ring is sleeved at the outer side of the upper part of the second transmission shaft, the bottom of the connecting ring is fixed at the top of the transmission cylinder, the top of the connecting ring is rotatably arranged at the bottom of the fixed column, the inclination directions of a plurality of groups of arc-shaped fan blades on the fixed columns are all opposite to the inclination directions of a plurality of groups of arc-shaped fan blades on the transmission cylinder, two groups of first bevel gears are respectively arranged on the lower side of the transmission cylinder and the lower side of a second transmission shaft, the directions of the two groups of first bevel gears are opposite, a second bevel gear is arranged on the right side of the two groups of first bevel gears and is meshed with each other, a third transmission shaft is arranged on the right side of a second bevel gear, the lower side of a second bracket is rotatably arranged on the third transmission shaft, the top of the second bracket is fixed on the bottom of the third water guide bin, the top of the second bracket is fixedly arranged on the front output end of the second generator, the worm is meshed with the worm gear, the lower side of the third bracket is rotatably arranged on the front side of the, the second generator is electrically connected with external power storage equipment; the water flow in the second water guide bin enters a third water guide bin and pushes a plurality of groups of first bevel gears, the plurality of groups of first bevel gears rotate, the plurality of groups of first bevel gears on the fixed columns have opposite rotating directions with the plurality of groups of first bevel gears on the transmission cylinder, the fixed columns drive the lower first bevel gears to rotate through the second transmission shaft, the transmission cylinder drives the upper first bevel gears to rotate, the transmission cylinder and the second transmission shaft have opposite rotating directions, the two groups of first bevel gears synchronously drive the second bevel gears to rotate, the second bevel gears drive the worm gears to rotate through the third transmission shaft, the worm gears drive the second generator to rotate through the worm, electric energy is generated in the second generator and is transmitted into external electric storage equipment, meanwhile, the worm wheel and the worm are arranged, so that the transmission ratio can be conveniently improved, the running speed of the second generator is increased, and the practicability and the reliability are improved.

The invention relates to high-efficiency power generation equipment applied to hydroelectric power generation of a hydropower station, which further comprises a filter plate, a collection bin and a cleaning plate, wherein the filter plate is obliquely arranged on the inner wall of a first water guide bin; get into rivers in the first sump of leading and pass the filter plate and flow downwards, the filter plate filters the interception to great showy impurity in the rivers and handles, because the installation of filter plate slope, impurity left removal on the rivers promotion filter plate in the first sump of leading falls into the collection storehouse in, opens the clearance board, collects the impurity accessible clearance mouth of collecting in the storehouse and discharges to the external world to prevent that impurity in the rivers from getting into in the equipment and causing the destruction to equipment, improve the practicality.

The invention relates to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which also comprises a water guide hopper, wherein the water guide hopper is positioned between two groups of guide rods and a fixed column, and the outer side of the water guide hopper is fixed on the inner wall of a third water guide bin; through setting up water guide bucket, can conveniently carry out the water conservancy diversion to the rivers that get into in the third water guide storehouse and handle, conveniently make rivers direct impact on multiunit arc flabellum, reduce rivers and flow through the gap between multiunit arc flabellum and the third water guide storehouse inner wall, improve equipment is to the absorption effect of rivers kinetic energy, improve practicality and reliability.

The invention relates to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which further comprises a stabilizing sleeve and two groups of stabilizing frames, wherein the stabilizing sleeve is rotatably sleeved on the upper side of the outer wall of a transmission cylinder and is fixed on the inner wall of a third water guide bin through the two groups of stabilizing frames; through setting up stable cover and two sets of steadying bars, can conveniently support a transmission section of thick bamboo to support multiunit arc flabellum, stability and fastness when improving its rotation improve the practicality.

The invention relates to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which further comprises a shield, wherein the shield is positioned at the outer sides of two groups of first bevel gears, second bevel gears, a third transmission shaft, a second support, a worm wheel, a second generator, a worm and a third support, and the top of the shield is fixed on a third water guide bin; through setting up the guard shield, can conveniently keep apart the protection to two sets of first bevel gear, second bevel gear, third transmission shaft, second support, worm wheel, second generator, worm and third support, improve practicality and reliability.

The invention relates to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, which further comprises transparent glass, wherein the front side of a third water guide bin is communicated with a through hole, and the transparent glass is covered on the through hole; through setting up opening and clear glass, can conveniently carry out real-time supervision to the equipment behavior in the third water guide storehouse, guarantee equipment normal operating, improve the practicality.

The invention relates to high-efficiency power generation equipment applied to hydropower station hydroelectric power generation, wherein the top of a fixed column is conical; set up to the toper through the top with the fixed column, can conveniently make rivers flow and organize the arc flabellum play to the utmost point, prevent that rivers direct impact from handling the convenience to rivers water conservancy diversion at the fixed column top, improve practicality and reliability.

Compared with the prior art, the invention has the beneficial effects that: water in an external water conservancy pipeline enters a first water guide bin through the top of the first water guide bin and directly impacts a plurality of groups of contraction groove plates and a plurality of groups of impact plates between two groups of first transmission shafts downwards, because the groups of contraction groove plates and the groups of impact plates are arc-shaped and staggered in position, the water flow directly impacts and pushes the groups of contraction groove plates and the groups of impact plates between the two groups of first transmission shafts to rotate, the groups of contraction groove plates drive the two groups of first transmission shafts to rotate, when the impact plates between the two groups of first transmission shafts move downwards to the two groups of guide rods, because the left sides and the right sides of the two groups of guide rods are arc-shaped, the two groups of guide rods can push the impact plates at corresponding positions to retract into the contraction groove plates, the impact plates compress a plurality of groups of springs in the contraction groove plates, and simultaneously the impact plates drive two groups of limit blocks on the impact plates to slide in two groups of limit grooves on the corresponding contraction groove plates, the impact plate is convenient to be folded, the outer side of the impact plate slides on the guide rod and is inserted into the inner wall of the second water guide bin to continuously slide, when the outer side of the impact plate slides, the outer side of the impact plate is positioned at the positions of the first water guide bin and the second water guide bin, the impact plate is pushed by a plurality of groups of springs in the corresponding contraction groove plate to move outwards and extend to an initial state, so that the total length of the contraction groove plate and the impact plate is increased to the initial state, the total stress area of the contraction groove plate and the impact plate is increased, the rotating speed of the two groups of first transmission shafts is increased, water flow in the first water guide bin is impacted and pushed again, the plurality of groups of contraction groove plates and the plurality of impact plates on the two groups of first transmission shafts rotate and repeat telescopic motion, the two groups of first transmission shafts in the rotating state drive the two groups of transmission wheels to rotate, and the two groups of transmission wheels drive the circular transmission buckle cap to rotate, the circular transmission button cap drives the guide rails to slide on the two groups of sliding blocks, the two groups of first supports respectively support the two groups of sliding blocks, the circular transmission button cap in a rotating state drives the first generator to operate through the rear side output end of the first generator, electric energy is generated in the first generator and is transmitted into external electric storage equipment, so that the purpose of hydroelectric generation is achieved, meanwhile, the rotating torque of the circular transmission button cap can be conveniently increased through the arrangement of the two groups of transmission wheels and the circular transmission button cap, the circular transmission button cap can continuously drive the first generator to operate conveniently, water flow in the second water guide bin flows downwards to enter the third water guide bin and push the secondary electric generation equipment to operate, electric energy is generated in the secondary electric generation equipment and is transmitted into the external electric storage equipment, so that residual kinetic energy of the water flow in the third water guide bin is absorbed and utilized, water in the third water guide bin enters the fourth water guide bin and is discharged to the outside through a siphon tube, through the middle part that makes the siphon be higher than the fourth water guide storehouse, can conveniently make the siphon to the inside siphonage that produces in fourth water guide storehouse, conveniently make the rivers in third water guide storehouse and the fourth water guide storehouse flow fast, through utilizing the electricity generation to rivers, can effectively improve rivers to the promotion effect of equipment, improve equipment's functioning speed, improve rivers kinetic energy transmission efficiency to improve the electric energy production volume, improve practicality and reliability.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic cross-sectional oblique view of the interior of the second water guiding cabin in FIG. 1;

FIG. 3 is a partially enlarged view of portion A of FIG. 2;

FIG. 4 is an enlarged view of the arc-shaped blades of FIG. 2;

FIG. 5 is an enlarged schematic view of the second generator of FIG. 2;

in the drawings, the reference numbers: 1. a first water guide bin; 2. a second water guide bin; 3. a third water guide bin; 4. a fourth water guide bin; 5. a siphon tube; 6. a first drive shaft; 7. a contracting slot plate; 8. an impact plate; 9. a spring; 10. a limiting block; 11. a guide bar; 12. a driving wheel; 13. a circular transmission buckle cap; 14. a guide rail; 15. a slider; 16. a first bracket; 17. a first generator; 18. an arched frame; 19. a transmission cylinder; 20. a second drive shaft; 21. fixing a column; 22. a connecting ring; 23. arc-shaped fan blades; 24. a first bevel gear; 25. a second bevel gear; 26. a third drive shaft; 27. a second bracket; 28. a worm gear; 29. a second generator; 30. a worm; 31. a third support; 32. filtering the plate; 33. a collection bin; 34. cleaning the plate; 35. a water guide hopper; 36. a stabilizing sleeve; 37. a stabilizer frame; 38. a shield; 39. transparent glass; 40. and (7) supporting legs.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 5, in the high-efficiency power generation device applied to hydroelectric power generation of a hydropower station, when in operation, water in an external water conservancy pipeline enters a first water guide bin 1 through the top of the first water guide bin 1 and directly impacts a plurality of groups of contraction groove plates 7 and a plurality of groups of impact plates 8 between two groups of first transmission shafts 6 downwards, because the groups of contraction groove plates 7 and the groups of impact plates 8 are arc-shaped and staggered in position, water flow directly impacts and pushes the groups of contraction groove plates 7 and the groups of impact plates 8 between the two groups of first transmission shafts 6 to rotate, the groups of contraction groove plates 7 drive the two groups of first transmission shafts 6 to rotate, when the impact plates 8 between the two groups of first transmission shafts 6 move downwards to the two groups of guide rods 11, because the left sides and the right sides of the two groups of guide rods 11 are arc-shaped, the two groups of guide rods 11 can push the impact plates 8 at corresponding positions to retract into the contraction groove plates 7, the impact plate 8 compresses a plurality of groups of springs 9 in the contraction groove plate 7, meanwhile, the impact plate 8 drives two groups of limit blocks 10 on the impact plate to slide in two groups of limit grooves on the corresponding contraction groove plate 7, two groups of guide rods 11 can guide the impact plate 8, so that the impact plate 8 is conveniently folded, the outer side of the impact plate 8 slides on the guide rods 11 and is inserted into the inner wall of the second water guide bin 2 to continuously slide, when the outer side of the impact plate 8 slides at the inner upper side of the second water guide bin 2, the outer side of the impact plate 8 is positioned at the positions of the first water guide bin 1 and the second water guide bin 2, the plurality of groups of springs 9 in the corresponding contraction groove plate 7 push the impact plate 8 to move outwards and extend to the initial state, thereby the total length of the contraction groove plate 7 and the impact plate 8 is increased to the initial state, the total stressed area of the contraction groove plate 7 and the impact plate 8 is increased, and the rotating speed of the two groups of first, the water flow in the first water guide bin 1 is impacted and pushed again, so that a plurality of groups of contraction groove plates 7 and a plurality of groups of impact plates 8 on two groups of first transmission shafts 6 rotate circularly and do telescopic motion repeatedly, two groups of first transmission shafts 6 in a rotating state drive two groups of transmission wheels 12 to rotate, two groups of transmission wheels 12 drive a circular transmission button cap 13 to rotate, the circular transmission button cap 13 drives a guide rail 14 to slide on two groups of sliding blocks 15, two groups of first supports 16 respectively support the two groups of sliding blocks 15, the circular transmission button cap 13 in a rotating state drives a first generator 17 to operate through a rear side output end of the first generator 17, electric energy is generated in the first generator 17 and is transmitted into external electric storage equipment, the purpose of hydroelectric generation is achieved, meanwhile, through the arrangement of the two groups of transmission wheels 12 and the circular transmission button cap 13, the rotating torque of the circular transmission button cap 13 can be increased conveniently, conveniently make circular transmission detain cap 13 and can continuously drive first generator 17 operation, rivers downward flow in the second leads the sump 2 and get into in the third leads sump 3 and promote the operation of secondary power generation equipment, produce electric energy in the secondary power generation equipment and transmit to in the external power storage equipment, thereby absorb the surplus kinetic energy to rivers in the third leads sump 3 and utilize, water in the third leads the sump 3 gets into in the fourth leads sump 4 and discharges to the external world through siphon 5, through making the middle part of siphon 5 be higher than fourth water guide sump 4, can conveniently make siphon 5 to the inside siphonage that produces of fourth water guide sump 4, conveniently make the rivers rapid flow in third water guide sump 3 and the fourth water guide sump 4.

The main functions realized by the invention are as follows: by utilizing the water flow to generate electricity, the pushing effect of the water flow on the equipment can be effectively improved, the running speed of the equipment is improved, and the water flow energy transmission efficiency is improved, so that the electric energy output is improved; the secondary power generation equipment works in such a way that water flow in the second water guide bin 2 enters the third water guide bin 3 and pushes a plurality of groups of first bevel gears 24, the plurality of groups of first bevel gears 24 rotate, the plurality of groups of first bevel gears 24 on the fixed column 21 rotate in opposite directions to the plurality of groups of first bevel gears 24 on the transmission cylinder 19, the fixed column 21 drives the lower first bevel gears 24 to rotate through the second transmission shaft 20, the transmission cylinder 19 drives the upper first bevel gears 24 to rotate, the transmission cylinder 19 rotates in opposite directions to the second transmission shaft 20, the two groups of first bevel gears 24 synchronously drive the second bevel gears 25 to rotate, the second bevel gears 25 drive the worm wheel 28 to rotate through the third transmission shaft 26, the worm wheel 28 drives the second generator 29 to rotate through the worm 30, electric energy generated inside the second generator 29 is transmitted to external power storage equipment, and meanwhile, by arranging the worm wheels 28 and the worm 30, the transmission ratio can be conveniently increased, so that the running speed of the second generator 29 is increased; the water flow entering the first water guide bin 1 passes through the filter plate 32 to flow downwards, the filter plate 32 filters and intercepts larger floating impurities in the water flow, the filter plate 32 is obliquely arranged, the water flow in the first water guide bin 1 pushes the impurities on the filter plate 32 to move leftwards and fall into the collection bin 33, the cleaning plate 34 is opened, and the impurities collected in the collection bin 33 can be discharged to the outside through the cleaning port, so that the impurities in the water flow are prevented from entering the equipment and damaging the equipment; by arranging the water guide hopper 35, the water flow entering the third water guide bin 3 can be conveniently guided, the water flow can be conveniently directly impacted on the multiple groups of arc-shaped fan blades 23, the water flow is reduced to flow through gaps between the multiple groups of arc-shaped fan blades 23 and the inner wall of the third water guide bin 3, and the absorption effect of the equipment on the water flow energy is improved; the transmission cylinder 19 can be conveniently supported by arranging the stabilizing sleeve 36 and the two groups of stabilizing frames 37, so that the plurality of groups of arc-shaped fan blades 23 are supported, and the stability and firmness of the fan blades in rotation are improved; by arranging the protective cover 38, two groups of first bevel gears 24, second bevel gears 25, third transmission shafts 26, second brackets 27, worm wheels 28, second generators 29, worms 30 and third brackets 31 can be conveniently isolated and protected; the through hole and the transparent glass 39 are arranged, so that the running condition of equipment in the third water guide bin 3 can be conveniently monitored in real time, and the normal running of the equipment is ensured; set up to the toper through the top with fixed column 21, can conveniently make rivers flow and organize arc flabellum 23 play to the most, prevent that rivers direct impact from handling the convenience to rivers at fixed column 21 top, improve practicality and reliability at the water conservancy diversion.

The installation mode, the connection mode or the arrangement mode of the high-efficiency power generation equipment applied to hydropower station hydroelectric power generation are common mechanical modes, and the high-efficiency power generation equipment can be implemented as long as the beneficial effects of the high-efficiency power generation equipment are achieved.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.