CN201351580Y - Wind power generation device of four-tower and double-fan blade portal type wind wheel - Google Patents

Wind power generation device of four-tower and double-fan blade portal type wind wheel Download PDF

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Publication number
CN201351580Y
CN201351580Y CNU2009200989507U CN200920098950U CN201351580Y CN 201351580 Y CN201351580 Y CN 201351580Y CN U2009200989507 U CNU2009200989507 U CN U2009200989507U CN 200920098950 U CN200920098950 U CN 200920098950U CN 201351580 Y CN201351580 Y CN 201351580Y
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China
Prior art keywords
fan blade
bearing
power transmission
transmission vertical
vertical shaft
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Expired - Fee Related
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CNU2009200989507U
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Chinese (zh)
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孙玉和
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Individual
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Individual
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Priority to CNU2009200989507U priority Critical patent/CN201351580Y/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
    • Y02E10/74Wind turbines with rotation axis perpendicular to the wind direction

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Abstract

The utility model relates to a wind power generation device of a four-tower and double-fan blade portal type wind wheel, which mainly comprises a tower cable-stayed steel cable, a left tower, a fan blade stationary axle pull rod, fan blade stationary axles, a fan blade door spindle, an upper bearing, a lower bearing, a plane supporting bearing, an air door wall, an upper horizontal connecting steel frame fixing steel disc, a lower horizontal connecting steel frame fixing steel disc, an upper power transmission vertical axle firm bearing, a lower power transmission vertical axle firm bearing, an upper plane supporting bearing, a lower plane supporting bearing, power transmission vertical axles, a fan blade cable-stayed steel cable, a fan blade door, an upper horizontal steel frame cable-stayed steel cable, an upper horizontal connecting steel frame, a right tower, a right supporting steel frame, a left supporting steel frame, a reinforced concrete generator room, an automatic variable speed gear box, a generator, a rear tower and a front tower. The power transmission vertical axles are respectively installed on the upper power transmission vertical axle firm bearing and the lower power transmission vertical axle firm bearing; the upper horizontal connecting steel frame fixing steel disc and the lower horizontal connecting steel frame fixing steel disc are sleeved on the upper power transmission vertical axle firm bearing and the lower power transmission vertical axle firm bearing; the upper horizontal connecting steel frame and the lower horizontal connecting steel frame are respectively installed on the left tower, the right tower, the rear tower and the front tower; the fan blade stationary axles are crossly installed on the power transmission vertical axles; the fan blade door is installed on the fan blade door spindle; and the automatic variable speed gear box and the generator are installed at the lower ends of the power transmission vertical axles.

Description

The two fan blade gate-type wind-wheel wind power generation machines of four pylons
Technical field:
The utility model relates to the two fan blade gate-type wind-wheel wind power generation machines of a kind of four pylons.
Technical background:
At present, China's utilization is cleaned, reproducible wind energy power is subjected to common concern, and the wind generating unit floor space of existing unit group, single pylon is big, and wind energy utilization is low, and networking is complicated, the construction cost height.
Summary of the invention:
The utility model is to overcome above-mentioned shortcoming, provide a kind of four pylons two fan blade gate-type wind-wheel wind power generation machines, it is installed in 10 arrays and even the tens of groups of vertical polyphones of wind wheel on the power transmission vertical shaft, solved the complex patterns of existing unit, single-shot, the monotropic transmission of electricity networking that is connected, boosts again with the spider net type cable, make wind energy utilization higher, floor space still less, generated output is bigger, it is more convenient with the transmission of electricity networking to send out power transformation, the wind field utilization ratio is more concentrated, plurality of advantages such as construction cost is lower, the purpose of this utility model are to realize like this.
The two fan blade gate-type wind-wheel wind power generation machines of four pylons are by pylon oblique rollering steel cable, left side pylon, fan blade stationary axle pull bar, the fan blade door-hinge, the fan blade stationary axle, the hanging wirerope, fan blade door-hinge upper bearing (metal), fan blade door-hinge lower bearing and plane load-bearing bearing, fan blade door wall, last level connects fixedly steel disk of steelframe, the firm bearing of last power transmission vertical shaft, last plane load-bearing bearing, the power transmission vertical shaft, fan blade oblique rollering steel cable, the fan blade door, last level connects steelframe oblique rollering steel cable, last level connects steelframe, right pylon, following level connects steelframe, right supporting steel frame, the reinforced concrete Dynamo Room, the firm bearing of following power transmission vertical shaft, the self-changing gear case, generator, lower plane load-bearing bearing, following level connects fixedly steel disk of steelframe, left side supporting steel frame, interior supporting steel frame oblique rollering steel cable, tail tower, formations such as preceding pylon.The power transmission vertical shaft be vertically mounted on upper and lower level connect steelframe fixedly in the firm bearing of the upper and lower power transmission vertical shaft in the steel disk, left pylon, right pylon, tail tower and preceding pylon be connected steelframe by level and be installed in level connection steelframe respectively fixedly on the steel disk, the oblique rollering steel cable with left and right, back, preceding four pylons be securely fixed in that power transmission vertical shaft periphery is equilateral, isogonism, equidistant place, make the power transmission vertical shaft vertically firmly stand in the heart vertical projection place, garden, center of the two fan blade gate-type wind-wheel wind power generation machines of four pylons.The blade shaft cross is installed on the power transmission vertical shaft interspersedly, the wind wheel group has dozens of, every group of two fan blades, equilateral, isogonism, be installed on the power transmission vertical shaft equidistantly, the gate-type fan blade is installed on fan blade stationary axle and the fan blade stationary axle pull bar, and generator and self-changing gear case are installed in power transmission vertical shaft lower end.This apparatus structure is simple, the wind wheel stack mounting, and wind energy utilization is concentrated, electric motor power is big, and construction cost is low, is easy to promote the use of.
Description of drawings:
Accompanying drawing 1 is the plan view of the two fan blade gate-type wind-wheel wind power generation machines of the utility model four pylons.
Accompanying drawing 2 is plan views of the two fan blade gate-type wind-wheel wind power generation machines of the utility model four pylons.
1-pylon oblique rollering steel cable, 2-left side pylon, 3-fan blade stationary axle pull bar, 4-fan blade door-hinge, 5-fan blade stationary axle, 6-hanging wirerope, 7-fan blade door-hinge upper bearing (metal), 8-fan blade door-hinge lower bearing and plane load-bearing bearing, 9-fan blade door wall, the last level of 10-connects fixedly steel disk of steelframe, the firm bearing of the last power transmission vertical shaft of 11-, the last plane load-bearing of 12-bearing, 13-power transmission vertical shaft, 14-fan blade oblique rollering steel cable, 15-fan blade door, the last level of 16-connects steelframe oblique rollering steel cable, and the last level of 17-connects steelframe, the right pylon of 18-, level connects steelframe under the 19-, the right supporting steel frame of 20-, 21-reinforced concrete Dynamo Room, the firm bearing of power transmission vertical shaft under the 22-, 23-self-changing gear case, the 24-generator, 25-lower plane load-bearing bearing, level connects fixedly steel disk of steelframe under the 26-, 27-left side supporting steel frame, supporting steel frame oblique rollering steel cable in the 28-, pylon before the 29-tail tower, 30-.
Embodiment:
Describe most preferred embodiment of the present utility model in detail below in conjunction with accompanying drawing, four pylons two fan blade gate-type wind-wheel wind power generation machines are by pylon oblique rollering steel cable 1, left pylon 2, fan blade stationary axle pull bar 3, fan blade door-hinge 4, fan blade stationary axle 5, hanging wirerope 6, fan blade door-hinge upper bearing (metal) 7, fan blade door-hinge lower bearing and plane load-bearing bearing 8, fan blade door wall 9, last level connects fixedly steel disk 10 of steelframe, the firm bearing 11 of last power transmission vertical shaft, last plane load-bearing bearing 12, power transmission vertical shaft 13, fan blade oblique rollering steel cable 14, fan blade door 15, last level connect steelframe oblique rollering steel cable 16, and last level connects steelframe 17, right pylon 18, following level connects steelframe 19, right supporting steel frame 20, reinforced concrete Dynamo Room 21, the firm bearing 22 of following power transmission vertical shaft, self-changing gear case 23, generator 24, lower plane load-bearing bearing 25, following level connects fixedly steel disk 26 of steelframe, left side supporting steel frame 27, interior supporting steel frame oblique rollering steel cable 28, tail tower 29 and preceding pylon 30 constitute.Power transmission vertical shaft 13 level that is vertically mounted on connect steelframe fixedly steel disk 10 be connected steelframe with following level fixedly on the interior firm bearing 11 of last power transmission vertical shaft of steel disk 26 and the firm bearing 22 of following power transmission vertical shaft, left side pylon 2, right pylon 18, tail tower 29 and preceding pylon 30 by last level be connected steelframe 17 will go up respectively level connect steelframe fixedly steel disk 10 be sleeved on the firm bearing 11 of power transmission vertical shaft, left side pylon 2, right pylon 18, tail tower 29 is connected steelframe 19 with following level respectively with preceding pylon 30 bottoms and is connected, following level connects steelframe 19 and is installed in down level connection steelframe fixedly on the steel disk 26, following level connection steelframe fixedly steel disk 26 is sleeved on down on the firm bearing 22 of power transmission vertical shaft, pylon oblique rollering steel cable 1 is pulled in left pylon 2 respectively, right tower 18, the top of tail tower 29 and preceding pylon 30, go up horizontal oblique rollering steel cable 16, be contained in left pylon 2 respectively, right pylon 18, the top of tail tower 29 and preceding pylon 30, the other end is installed in the middle part that level connects steelframe 17, the pylon declivity is drawn wirerope 28, is installed in left pylon 2, right pylon 18, tail tower 29, the bottom and the left supporting steel frame 27 of preceding pylon 30, right supporting steel frame 20 and before, on the back supporting steel frame.Fan blade stationary axle 5 is installed on the power transmission vertical shaft, and the gate-type fan blade is installed in fixedly on blade shaft 5, the fan blade stationary axle pull bar 3, and fan blade door 15 is installed on the fan blade door-hinge 4, is equipped with metal (upper and plane load-bearing bearing 7 and 8 on the fan blade door-hinge.Fan blade oblique rollering steel cable 14 1 ends are contained on the power transmission vertical shaft, the other end is installed in the fixedly mid-rear portion of blade shaft 5, lower plane load-bearing bearing 25 is contained in the center of top of reinforced concrete Dynamo Room 21, and self-changing gear case 23 is connected with generator 24 by power transmission vertical shaft 13.
Working principle: fan blade door 15 opens and closes automatically under the wind-force effect.When it moves against the wind, open automatically, reduce the resistance of wind to greatest extent, when it runs to the wind-engaging state, close automatically, accept wind-force to greatest extent, make wind energy drive the 13 horizontal average rates rotations of power transmission vertical shaft, produce mechanical energy, after generator 24 changes it into electric energy.This device can be accepted all directions same direction rotation of the wind comes from, so do not need to go off course and the navigation system adjustment because wind wheel horizontally rotates.

Claims (9)

1, the two fan blade gate-type wind-wheel wind power generation machines of a kind of four pylons, it is by pylon oblique rollering steel cable (1), left side pylon (2), fan blade stationary axle pull bar (3), fan blade door-hinge (4), fan blade stationary axle (5), hanging wirerope (6), fan blade door-hinge upper bearing (metal) (7), fan blade door-hinge lower bearing and plane load-bearing bearing (8), fan blade door wall (9), last level connects fixedly steel disk (10) of steelframe, the firm bearing of last power transmission vertical shaft (11), last plane load-bearing bearing (12), power transmission vertical shaft (13), fan blade oblique rollering steel cable (14), fan blade door (15), last level connects steelframe oblique rollering steel cable (16), last level connects steelframe (17), right pylon (18), following level connects steelframe (19), right supporting steel frame (20), reinforced concrete Dynamo Room (21), the firm bearing of following power transmission vertical shaft (22), self-changing gear case (23), generator (24), lower plane load-bearing bearing (25), following level connects fixedly steel disk (26) of steelframe, left side supporting steel frame (27), interior supporting steel frame oblique rollering steel cable (28), tail tower (29), preceding pylon (30) constitutes.It is characterized in that: power transmission vertical shaft (13) perpendicular to floor mounted on firm bearing of last power transmission vertical shaft (11) and the firm bearing of following power transmission vertical shaft (22), the firm bearing of last power transmission vertical shaft (11) is installed on the plane load-bearing bearing (12), the firm bearing of following power transmission vertical shaft (22) is installed on the lower plane load-bearing bearing (25), the firm bearing of last power transmission vertical shaft (11) by last level connect steelframe fixedly steel disk (10) be contained on the level connection steelframe (17), the firm bearing of following power transmission vertical shaft (22) by following level connect rigid frame fixedly steel disk (26) be contained in down on the level connection steelframe (19), last level connection steelframe (17) is connected steelframe (19) with following level and is contained in left pylon (2) respectively, right pylon (18), the top and the middle and lower part of tail tower (29) and preceding pylon (30), oblique rollering steel cable (1) is contained in left pylon (2) respectively, right pylon (18), the top of tail tower 29 and preceding pylon (30), blade shaft (5), be installed on the power transmission vertical shaft (13), fan blade door wall (9) is installed on blade shaft (5) and the fan blade stationary axle pull bar (3), fan blade door (15) is installed on the fan blade door-hinge (4), fan blade door-hinge (4) is installed on the fan blade stationary axle (5) by fan blade door-hinge upper bearing (metal) (7) and fan blade door-hinge lower bearing and plane load-bearing bearing (8), fan blade oblique rollering steel cable (14) one ends are installed on the power transmission vertical shaft (13), the other end is fixed on the middle part and the top, outer end of fan blade stationary axle (5), and generator (24) and self-changing gear case (23) are installed in the inside of the reinforced concrete Dynamo Room (21) of power transmission vertical shaft (13) lower end.
2, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: nearly hundred meters of power transmission vertical shaft (13) Gao Keda are perpendicular to ground, top is sleeved in the firm bearing of power transmission vertical shaft (11), the firm bearing of last power transmission vertical shaft (11) is installed on the plane load-bearing bearing (12), the bottom is sleeved on down in the firm bearing of power transmission vertical shaft (22), the firm bearing of following power transmission dead axle (22) is installed on the lower plane load-bearing bearing (25), lower plane load-bearing bearing (25) is held power transmission vertical shaft (13), lower plane load-bearing bearing (25) is sleeved on the thin axle in power transmission vertical shaft (13) lower end, and lower plane load-bearing bearing (25) is fixed on reinforced concrete Dynamo Room (21) upper center.
3, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: per two pairs of fan blade stationary axle (5) is one group of wind wheel, the wind wheel group has several, isogonism, isometric criss-crossing shape, upper and lower group of fan blade stationary axle (5) divided the isogonism layout each other equally, and stack mounting is on power transmission vertical shaft (13).
4, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: fan blade gate-type fan blade is contained on fan blade stationary axle (5) and the fan blade stationary axle pull bar (3), fan blade door (15) is installed on the fan blade door-hinge (4), and fan blade door-hinge upper bearing (metal) (7) and lower bearing and plane load-bearing bearing (8) are housed on the fan blade door-hinge (4).
5, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: left pylon (2), right pylon (18), tail tower (29) and preceding pylon (30) entad are installed in level perpendicular to ground respectively and are connected steelframe (17) and are connected on the steelframe (19) with following level.
6, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: the level that goes up connects steelframe (17), last level connection steelframe fixedly steel disk (10) is sleeved on the firm bearing of power transmission vertical shaft (11), following level connection steelframe on the following level connection steelframe (19) fixedly steel disk (26) is sleeved on down on the firm bearing of power transmission vertical shaft (22), the firm bearing of last power transmission vertical shaft (11) is installed in above the plane load-bearing bearing (12), and the firm bearing of following power transmission vertical shaft (22) is installed in above the lower plane load-bearing bearing (25).
7, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: pylon oblique rollering steel cable (1) is installed in the top of left pylon (2), right pylon (18), tail tower (29) and preceding pylon (30) respectively, last level connects the top that steelframe oblique rollering steel cable (16) one ends are installed in the right pylon of left pylon (2) (18), tail tower (29) and preceding pylon (30), and the other end is installed in the middle inside that level connects steelframe (17).
8, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: air door wall (9) is installed the both sides of the doorframe of being made up of fan blade stationary axle (5) and fan blade stationary axle pull bar (3).
9, according to the two fan blade gate-type wind-wheel wind power generation machines of claims 1 described four pylons, it is characterized in that: fan blade oblique rollering steel cable (14) one ends are contained on the power transmission vertical shaft (13), the other end is installed in the middle part and the outer end of fan blade stationary axle (5), hanging wirerope (6) one ends are contained in the middle part and the outer end of fan blade stationary axle (5) lower shaft of fan blade oblique rollering steel cable (14), and the other end hangs middle part and the outer end that does not have the fan blade stationary axle of fan blade oblique rollering steel cable (14) (5) to go up axle.
CNU2009200989507U 2009-01-15 2009-01-15 Wind power generation device of four-tower and double-fan blade portal type wind wheel Expired - Fee Related CN201351580Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2009200989507U CN201351580Y (en) 2009-01-15 2009-01-15 Wind power generation device of four-tower and double-fan blade portal type wind wheel

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2009200989507U CN201351580Y (en) 2009-01-15 2009-01-15 Wind power generation device of four-tower and double-fan blade portal type wind wheel

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CN201351580Y true CN201351580Y (en) 2009-11-25

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104963813A (en) * 2015-07-06 2015-10-07 范德义 Multilayer tower type vertical-axis multi-wind-condition wind power conversion device
CN110863950A (en) * 2019-12-13 2020-03-06 郴州万墨环保科技有限公司 Air siphon power generation device

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN104963813A (en) * 2015-07-06 2015-10-07 范德义 Multilayer tower type vertical-axis multi-wind-condition wind power conversion device
CN110863950A (en) * 2019-12-13 2020-03-06 郴州万墨环保科技有限公司 Air siphon power generation device
CN110863950B (en) * 2019-12-13 2024-06-11 郴州万墨环保科技有限公司 Air siphon power generation device

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C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20091125

Termination date: 20110115