CN204827774U - Wind drive hydroelectric power generation equipment - Google Patents

Wind drive hydroelectric power generation equipment Download PDF

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Publication number
CN204827774U
CN204827774U CN201520614686.3U CN201520614686U CN204827774U CN 204827774 U CN204827774 U CN 204827774U CN 201520614686 U CN201520614686 U CN 201520614686U CN 204827774 U CN204827774 U CN 204827774U
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China
Prior art keywords
wind
column
wind energy
water
main shaft
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Withdrawn - After Issue
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CN201520614686.3U
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Chinese (zh)
Inventor
李培谦
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李培谦
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Priority to CN201520614686.3U priority Critical patent/CN204827774U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E10/00Energy generation through renewable energy sources
    • Y02E10/70Wind energy
    • Y02E10/72Wind turbines with rotation axis in wind direction

Abstract

The utility model provides a wind energy conversion ware that wind drive hydroelectric power generation equipment erects wind energy collecting system and water and electricity transition system between high stand and the low stand, and the wind energy collecting system includes from the height and sets up to low. The wind energy conversion ware includes main shaft, pneumatic cylinder and a plurality of fan including fixed frame and conversion parts, conversion parts, and the fan passes through the belt to be connected with the main shaft, and the rack frame was connected in the main shaft passed through roller gear and rectangle, and the bottom of rack frame links to each other with piston I in the rectangle. Water and electricity transition system establishes on low stand including the aqua storage tank, a plurality of conversion cask, automatic flushing cistern, alternator and the backward flow basin that connect gradually, aqua storage tank, the conversion cask through the pipeline with join in marriage the pneumatic cylinder of class device with adjacent wind energy conversion ware and link to each other, automatic flushing cistern, alternator and backward flow basin from the top down establish in proper order on high stand. The utility model discloses the structure is exquisite, also can generate electricity when wind -force is very little, make full use of wind -force and hydroenergy, green, each parts can be adjusted as required, the generating efficiency is high.

Description

Wind drives hydro-electric power generating equipment
Technical field
The utility model relates to a kind of power generating equipment, and specifically a kind of wind drives hydro-electric power generating equipment, belongs to technical field of hydroelectric generation.
Background technique
Traditional generation mode adopts thermal power generation usually, but due to coal resources limited, and combustion power generation process can produce immeasurable environmental pollution, and therefore new-generation technology has a great development, as hydroelectric power, wind energy power etc.Water energy and wind energy are all reproducible clean energy resourcies, and reserves are huge, and when recycling water energy and wind energy power, can not produce radiation and atmospheric pollution, thus be subject to the attention of countries in the world.But the application of these generation modes more or less can be subject to the restriction of season or region, as hydro-electric power generating equipment is only suitable for being used in abundant water, place that the height of water is large, if wind-force is very faint when adopting wind energy power, be difficult to get a desired effect, even cannot normally work.
Summary of the invention
For above-mentioned prior art Problems existing, the purpose of this utility model is to provide a kind of delicate structure, wind that is with low cost, environmental protection drives hydro-electric power generating equipment.
For achieving the above object, the technical solution adopted in the utility model is: a kind of wind drives hydro-electric power generating equipment, comprise high column and low column, erecting wind-energy collecting system and water power converting system between high column and low column, wind-energy-collection system comprises the multiple wind energy converters arranged from high to low be connected in series by wire rope.
Wind energy converter comprises fixing frame and is fixed on the converting member on support, converting member comprises main shaft, oil hydraulic cylinder and multiple fan, fan is connected with main shaft respectively by belt, main shaft is connected with rectangular inner meshing gear bar frame by the cylindrical gears be set on main shaft, and the horizontal rack of rectangular inner meshing gear bar frame lower end is connected with the piston I of oil hydraulic cylinder.
Water power converting system comprises the aqua storage tank connected successively, multiple conversion bucket, automatic flushing cistern, alternator and backflow tank, aqua storage tank is located on low column, conversion bucket is connected with the oil hydraulic cylinder of adjacent wind energy converter with flow distribution apparatus respectively by pipeline, and automatic flushing cistern, alternator and backflow tank are located on high column from top to bottom successively.
The working procedure of wind energy converter is as follows, first the multiple fan turns of wind-drive, fan transmits motion on main shaft respectively by belt, the rotation of main shaft drives cylindrical gears to rotate, due to cylindrical gears and rectangular inner meshing gear bar frame while engagement, cylindrical gears can drive rectangular inner meshing gear bar frame to move up and down.When rectangular inner meshing gear bar frame is along vertical while at the end of moving upward to stroke, cylindrical gears can engage with the horizontal rack of rectangular inner meshing gear bar frame lower end, at the end of moving to horizontal throw, engage with vertical another side again, rectangular inner meshing gear bar frame is moved downward along vertical another side, and at the end of stroke, cylindrical gears can engage with the horizontal rack of rectangular inner meshing gear bar frame upper end, circulation like this moves up and down, and then drives piston I to move up and down along oil hydraulic cylinder simultaneously.
In power generation process, the piston I being in the wind energy converter of extreme lower position moves upward along oil hydraulic cylinder, by the water in aqua storage tank by flow distribution apparatus inhalant liquid cylinder pressure, until stroke terminates, piston I moves downward, water is expelled to conversion bucket through flow distribution apparatus, next wind energy converter repeats same action, water in conversion bucket lower for position is delivered in the higher conversion bucket in position, until water to be delivered to the automatic flushing cistern of eminence, when the water level of automatic flushing cistern arrives definite value, automatically water is discharged, current are utilized to drive alternator generation, meanwhile, the water of discharge flows into backflow tank, then flows back to aqua storage tank, goes round and begins again and realizes circulating generation.
Further, in order to the change that device can be enable to adapt to wind direction, improve generating efficiency, wind energy converter arranges steering equipment.Steering equipment comprises micromachine, worm and worm wheel, and micromachine is arranged on fixing frame, and worm screw is located at micromachine front end, and is meshed with the worm gear on the mounting rod being set in support.
Further, in order to the height difference of high column and low column can be changed on demand, improve generating efficiency, high column is provided with elevator mechanism.Elevator mechanism comprises spout, cavity and is located at the piston II in cavity.
Further, in order to make the fixing more stable of high column and low column, high column and low column fix on the ground respectively by stay cord.
Preferably, flow distribution apparatus comprises and is arranged on water transport channel between upper end cap and lower end cap, the intake tunnel controlled by water inlet spool and the exhalant canal controlled by water outlet spool.
Preferably, in order to utilize wind energy more fully, intake tunnel and exhalant canal are provided with more than 3 or 3.
The utility model delicate structure is simple and easy, can make full use of wind energy, though wind energy converter be arranged so that device also can generate electricity when wind-force is very little, take full advantage of wind-force and water energy, environmental protection, and each parts can adjusted position relation as required, and generating efficiency is high.
Accompanying drawing explanation
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the sectional view in C-C direction in Fig. 1;
Fig. 3 is the structural representation of wind energy converter of the present utility model;
Fig. 4 is the sectional view in B-B direction in Fig. 3;
Fig. 5 is the enlarged view at D place in Fig. 4;
Fig. 6 is the connection diagram of rectangular inner meshing gear bar frame and piston I;
Fig. 7 is the plan view of flow distribution apparatus of the present utility model;
Fig. 8 is the sectional view in A-A direction in Fig. 7;
In figure, a, guide groove, b, connect guide rod, 100, high column, 103, cavity, 105, piston II, 200, low column,
300, wind energy converter, 301, fixing frame, 302, support, 303, wire rope, 304, mounting rod, 305, mounting hole, 311, main shaft, 312, belt, 313, oil hydraulic cylinder, 314, cylindrical gears, 315, fan, 316, rectangular inner meshing gear bar frame, 317, piston I, 319, rotating shaft, 321, micromachine, 323, worm screw, 325, worm gear, 327, bearing, 329, ball
401, aqua storage tank, 403, conversion bucket, 405, automatic flushing cistern, 407, alternator, 409, backflow tank,
402, float, 404, pull bar, 406, spool, 408, waste pipe, 420, intake pipe, 421, blade, 430, reflow pipe,
410, flow distribution apparatus, 411, water transport channel, 412, water inlet spool, 413, intake tunnel, 414, water outlet spool, 415, exhalant canal, 416, spring I, 417, spring II, 418, upper end cap, 419, lower end cap, 422, bolt,
500, stay cord.
Embodiment
Below in conjunction with accompanying drawing, the utility model is described in further detail.
Wind as shown in fig. 1 drives hydro-electric power generating equipment, comprise high column 100 and low column 200, erecting wind-energy collecting system and water power converting system between high column 100 and low column 200, wind-energy-collection system comprises multiple wind energy converter 300 arranged from high to low, and wind energy converter 300 is connected in series through mounting hole 305 by wire rope 303.
As shown in Figure 3 and Figure 4, the converting member that wind energy converter 300 comprises fixing frame 301 and is fixed on support 302, converting member comprises main shaft 311, oil hydraulic cylinder 313 and multiple fan 315, fan 315 is connected with main shaft 311 respectively by belt 312, main shaft 311 is provided with cylindrical gears 314, and cylindrical gears 314 engages with the rectangular inner meshing gear bar frame 316 being enclosed within its periphery.As shown in Figure 6, the horizontal rack of rectangular inner meshing gear bar frame 316 lower end is provided with and connects guide rod b, the piston I 317 of oil hydraulic cylinder 313 is provided with guide groove a, rectangular inner meshing gear bar frame 316 is connected with piston I 317 with guide groove a by connecting guide rod b, connect guide rod b to embed in guide groove a, and only to slide along guide groove a.
Water power converting system comprises the aqua storage tank 401 connected successively, multiple conversion bucket 403, automatic flushing cistern 405, alternator 407 and backflow tank 409, aqua storage tank 401 is located on low column 200, conversion bucket 403 is connected with the oil hydraulic cylinder 313 of adjacent wind energy converter 300 with flow distribution apparatus 410 respectively by pipeline, and automatic flushing cistern 405, alternator 407 and backflow tank 409 are located on high column 100 from top to bottom successively.
During use, the multiple fan 315 of wind-drive rotates simultaneously, and fan 315 transmits motion on main shaft 311 respectively by the belt 312 be arranged in rotating shaft 319, and the rotation of main shaft 311 drives cylindrical gears 314 to rotate.When cylindrical gears 314 and rectangular inner meshing gear bar frame 316 vertical while when engaging, rectangular inner meshing gear bar frame 316 can be driven to move upward.When rectangular inner meshing gear bar frame 316 is along vertical while at the end of moving upward to stroke, cylindrical gears 314 can engage with the horizontal rack of rectangular inner meshing gear bar frame 316 lower end, and rectangular inner meshing gear bar frame 316 is moved along guide groove a by connection guide rod b; Until at the end of rectangular inner meshing gear bar frame 316 moves to horizontal throw, vertical with the rectangular inner meshing gear bar frame 316 again another side of cylindrical gears 314 engages, and rectangular inner meshing gear bar frame 316 is moved downward along vertical another side; After stroke terminates, cylindrical gears 314 can engage with the horizontal rack of rectangular inner meshing gear bar frame 316 upper end, rectangular inner meshing gear bar frame 316 is moved horizontally, circulation like this makes rectangular inner meshing gear bar frame 316 back and forth move up and down, and drives piston I 317 to move up and down along oil hydraulic cylinder 313 by connecting guide rod b simultaneously.
In power generation process, the piston I 317 being in the wind energy converter 300 of extreme lower position moves upward along oil hydraulic cylinder 313, water in aqua storage tank 401 is passed through flow distribution apparatus 410 inhalant liquid cylinder pressure 313 from intake pipe 420, until stroke terminates, piston I 317 moves downward, water is expelled to conversion bucket 403 through flow distribution apparatus 410, next wind energy converter 300 repeats same action, water in conversion bucket 403 lower for position is delivered in the higher conversion bucket 403 in position, carry out until water is delivered in the automatic flushing cistern 405 of eminence successively, when the water level of automatic flushing cistern 405 arrives definite value, automatically water is discharged.A kind of form of automatic flushing cistern 405 has been shown in Fig. 2, float 402 is provided with in automatic flushing cistern 405, float 402 is connected with spool 406 by pull bar 404, water level exceedes certain value, float 402 is by pull bar 404 by spool 406 pull-up, and water is discharged by waste pipe 408, the blade 421 of water impact alternator 407, band motor alternator 407 rotates, and realizes generating; Meanwhile, the water of discharge flows into backflow tank 409, flows back to aqua storage tank 401, go round and begin again and realize water circulation generation by reflow pipe 430.Because automatic flushing cistern 405 retaining needs the time, although the size of wind-force can affect the time lag of automatic flushing cistern 405 twice draining and the time lag of alternator 407 twice generating, but the water yield flowed down from automatic flushing cistern 405 after retaining all as many at every turn, the impact force of current to blade 421 is constant, the frequency that the alternator 407 arranged generates electricity at every turn is all the same, electricity exports steadily, and alternator 407 electric power can be directly incorporated into electrical network after exporting, easy to use.
Further, wind energy converter 300 is provided with steering equipment.As shown in Figures 3 to 5, steering equipment comprises micromachine 321, worm screw 323 and worm gear 325, micromachine 321 is arranged on fixing frame 301, and worm screw 323 is located at micromachine 321 front end, and is meshed with the worm gear 325 that fixed cover is located on the mounting rod 304 of support 302.When needing to turn to, micromachine 321 drives worm screw 323 to rotate, and then drive the worm gear 325 engaged with worm screw 323 to rotate, mounting rod 304 rotates thereupon, and namely support 302 entirety realizes turning to.The ball 329 that bearing 327 on mounting rod 304 and support 302 bottom are embedded in fixing frame 301 decreases friction in steering procedure, serves the effect of lubrication.
Further, high column 100 is provided with elevator mechanism, as Fig. 2, and the piston II 105 that elevator mechanism comprises spout (not shown), cavity 103 and is located in cavity 103.When needing high column 100 is raised, by the spout on high column 100 to fluid injection in cavity 103, make piston II 105 to rising, the height of high column 100 can be changed.
Further, high column 100 and low column 200 fix on the ground respectively by stay cord 500.By regulate the tension force of stay cord 500 and angle make high column 100 and low column 200 more firm.
Preferably, flow distribution apparatus 410 is arranged between upper end cap 418 and lower end cap 419, as shown in Figure 7 and Figure 8, comprise water transport channel 411, the intake tunnel 413 controlled by water inlet spool 412 and the exhalant canal 415 controlled by water outlet spool 414, upper end cap 418 is fastening with bolt 422 with lower end cap 419.During work, water transport channel 411 is connected on oil hydraulic cylinder 313, and piston I 317 moves upward, produce suction, overcome the spring I 416 into water spool 412, water inlet spool 412 is opened, current flow into water transport channel 411 through intake tunnel 413, until enter oil hydraulic cylinder 313; After stroke terminates, piston I 317 moves downward, and promotes current by water transport channel 411, produce the spring II 417 that impulse force overcomes water outlet spool 414, opened by water outlet spool 414, current flow out through exhalant canal 415, thus step by step water is delivered to position higher position, avoid the backflow of water.
Further; intake tunnel 413 and exhalant canal 415 can be set to more than 3 or 3, and when wind-force is less, the suction provided is less; an intake tunnel 413 and an exhalant canal 415 is only had to work; along with the reinforcement of wind-force, the meeting that intake tunnel 413 and exhalant canal 415 open quantity increases, and current are larger; thus utilize wind energy more fully; in addition, such setting avoids to cross due to suction when wind-force is excessive forces device overload operation, plays a protective role to device.

Claims (6)

1. a wind drives hydro-electric power generating equipment, it is characterized in that, comprise high column (100) and low column (200), erecting wind-energy collecting system and water power converting system between high column (100) and low column (200), described wind-energy-collection system comprises the multiple wind energy converters (300) arranged from high to low be connected in series by wire rope (303);
The converting member that described wind energy converter (300) comprises fixing frame (301) and is fixed on support (302), converting member comprises main shaft (311), oil hydraulic cylinder (313) and multiple fan (315), fan (315) is connected with main shaft (311) respectively by belt (312), described main shaft (311) is connected with rectangular inner meshing gear bar frame (316) by the cylindrical gears (314) be set on main shaft (311), the described horizontal rack of rectangular inner meshing gear bar frame (316) lower end is connected with the piston I (317) of oil hydraulic cylinder (313),
Described water power converting system comprises the aqua storage tank (401) connected successively, multiple conversion bucket (403), automatic flushing cistern (405), alternator (407) and backflow tank (409), described aqua storage tank (401) is located on low column (200), conversion bucket (403) is connected with the oil hydraulic cylinder (313) of adjacent wind energy converter (300) with flow distribution apparatus (410) respectively by pipeline, automatic flushing cistern (405), alternator (407) and backflow tank (409) are located on high column (100) from top to bottom successively.
2. wind according to claim 1 drives hydro-electric power generating equipment, it is characterized in that, described wind energy converter (300) is provided with steering equipment, described steering equipment comprises micromachine (321), worm screw (323) and worm gear (325), described micromachine (321) is arranged on fixing frame (301), worm screw (323) is located at micromachine (321) front end, and is meshed with the worm gear (325) on the mounting rod (304) being set in support (302).
3. wind according to claim 1 and 2 drives hydro-electric power generating equipment, it is characterized in that, described high column (100) is provided with elevator mechanism, the piston II (105) that elevator mechanism comprises spout, cavity (103) and is located in cavity (103).
4. wind according to claim 1 and 2 drives hydro-electric power generating equipment, and it is characterized in that, described high column (100) and low column (200) fix on the ground respectively by stay cord (500).
5. wind according to claim 1 and 2 drives hydro-electric power generating equipment, it is characterized in that, described flow distribution apparatus (410) comprises the exhalant canal (415) being arranged on the water transport channel (411) between upper end cap (418) and lower end cap (419), the intake tunnel (413) controlled by spool (412) of intaking and being controlled by water outlet spool (414).
6. wind according to claim 5 drives hydro-electric power generating equipment, and it is characterized in that, described intake tunnel (413) and exhalant canal (415) are provided with more than 3 or 3.
CN201520614686.3U 2015-08-14 2015-08-14 Wind drive hydroelectric power generation equipment Withdrawn - After Issue CN204827774U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201520614686.3U CN204827774U (en) 2015-08-14 2015-08-14 Wind drive hydroelectric power generation equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201520614686.3U CN204827774U (en) 2015-08-14 2015-08-14 Wind drive hydroelectric power generation equipment

Publications (1)

Publication Number Publication Date
CN204827774U true CN204827774U (en) 2015-12-02

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ID=54685383

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Application Number Title Priority Date Filing Date
CN201520614686.3U Withdrawn - After Issue CN204827774U (en) 2015-08-14 2015-08-14 Wind drive hydroelectric power generation equipment

Country Status (1)

Country Link
CN (1) CN204827774U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105003382A (en) * 2015-08-14 2015-10-28 李培谦 Wind driving hydroelectric power generation equipment

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105003382A (en) * 2015-08-14 2015-10-28 李培谦 Wind driving hydroelectric power generation equipment
CN105003382B (en) * 2015-08-14 2017-05-24 李培谦 Wind driving hydroelectric power generation equipment

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AV01 Patent right actively abandoned
AV01 Patent right actively abandoned

Granted publication date: 20151202

Effective date of abandoning: 20170524