CN201306254Y - A vertical horizontal rotating combined wind wheel wind power generation device - Google Patents

Abstract

The utility model relates to a vertical and horizontal rotating combined wind turbine wind power generation device, which mainly consists of: a tower cable-stayed steel cable, a left tower frame, a right tower frame, a rear tower frame, upper and lower horizontally connected steel frames, upper, lower Lower power transmission vertical shaft stable bearing, upper and lower plane load-bearing bearings, upper and lower horizontal steel frame connecting vertical shaft fixed steel plate, upper horizontal steel frame cable-stayed cable, power transmission vertical shaft, blade shaft, blade fairing, wind wheel Wheel hub, square wind bowl fan blade, fan blade shaft cable-stayed steel cable, reinforced concrete generator room, automatic transmission gearbox, generator, etc. The power transmission vertical shaft is respectively installed on the upper and lower power transmission vertical shaft stable bearings, the upper and lower power transmission vertical shaft stable bearings are respectively installed on the upper and lower plane load-bearing bearings, and the upper and lower horizontal steel frames are connected to the vertical shaft. The vertical shaft of the lower power transmission is fixed on the stable bearing. The outer circle of the steel plate is connected to the upper and lower horizontal connecting steel frames. At the top of the left, right and rear towers, one end of the upper horizontal cable-stayed steel cable is installed on the top of the left, right and rear towers, and the other end is installed on the upper horizontal connecting steel frame. The generator is installed in the center of the bottom of the generator room, and converts the mechanical energy transmitted by the automatic transmission gearbox into electrical energy. The device has compact structure, reasonable layout, high utilization rate of wind energy, no navigation or yaw device, and maximum utilization of wind from any direction, large installed capacity and low construction cost.

Description

Vertical and horizontal rotating combined wind turbine wind power generation device

Technical field:

The utility model relates to a vertical and horizontal rotating combined wind wheel wind power generation device.

technical background:

At present, the existing single-unit, single-tower wind power generation device occupies a large area and has a low utilization rate of wind energy.

Invention content:

The utility model aims at overcoming the above-mentioned shortcomings, and provides a vertical and horizontal rotating combined wind wheel wind power generation device, which combines and installs 10 groups of wind wheels on a vertical power transmission shaft, which mainly solves the problem of existing stand-alone, single-engine , single-variable and spider-web-type cable connection, and then boost the complex power generation mode of grid connection, so that the utilization rate of wind energy is higher, the land occupation area is smaller, the power generation is larger, the power generation and transformation and transmission are more convenient, and the wind field utilization per unit area More concentrated efficiency, lower construction costs and many other advantages, the purpose of this utility model is achieved in this way. The vertical and horizontal rotating combined wind turbine wind power generation device consists of tower cable-stayed steel cables, left tower, upper horizontal connecting steel frame, upper horizontal connecting steel frame cable-stayed cable, fan blade fairing, fan blade shaft, power transmission vertical shaft Stable bearing, upper plane load-bearing bearing, wind wheel hub, upper horizontal steel frame connected to vertical shaft fixed steel plate, power transmission vertical shaft (shared wind wheel shaft), fan blade shaft cable-stayed steel cable, fan blade fixing bracket, square wind bowl type fan blade , right tower frame, lower horizontal connecting steel frame, right inner supporting steel frame, reinforced concrete generator room, lower power transmission vertical shaft stable bearing, automatic transmission gearbox, generator, lower plane load-bearing bearing, lower horizontal steel frame connecting vertical shaft fixed It is composed of steel plate, left inner supporting steel frame, cable-stayed steel cable under the tower, rear tower and so on. The power transmission vertical shaft is vertically installed in the stable bearings of the upper and lower power transmission vertical shafts in the fixed steel plate of the upper, lower and horizontal connecting steel frames, and the left tower, right tower and rear tower are respectively installed in the horizontal The steel frame is connected to the vertical shaft and fixed on the steel plate, and the cable-stayed steel cables firmly fix the left, right, and rear three towers on the periphery of the power transmission vertical shaft at equilateral, equiangular, and equidistant positions, so that the power transmission vertical shaft stands vertically and firmly on the The center point of the vertical and horizontal rotating combined wind turbine wind power generation device. The hub of the wind wheel and the blade shaft are installed on the vertical shaft of the power transmission, and the cable-stayed steel cable of the blade shaft is installed on the vertical shaft of the power transmission and the blade shaft. , Equivalently installed on the power transmission vertical shaft and the wind wheel hub, the angles of the blades of the upper and lower wind wheel sets are offset by 60 degrees from each other. The square wind bowl type fan blade and the fan blade gas fairing are installed on the fan blade shaft and the fan blade shaft support. The generator and the automatic transmission gearbox are installed at the lower end of the power transmission vertical shaft. The device has the advantages of simple structure, high utilization rate of wind energy, low construction cost, large installed capacity and easy popularization and application.

Description of drawings:

Accompanying drawing 1 is the front view of the utility model vertical horizontal rotation combined wind turbine wind power generation device.

Accompanying drawing 2 is the top view of the utility model vertical horizontal rotation combined wind turbine wind power generation device.

1- Tower cable-stayed cable, 2- Left tower, 3- Upper horizontal connecting steel frame, 4- Upper horizontal steel frame cable-stayed cable, 5- Fan blade fairing, 6- Fan blade shaft, 7- Upper Power transmission vertical shaft stable bearing, 8-upper plane load-bearing bearing, 9-wind wheel hub, 10-upper horizontal steel frame connecting vertical shaft fixed steel plate, 11-power transmission vertical shaft (shared wind wheel shaft), 12-fan blade cable-stayed steel cable , 13-blade fixing bracket, 14-square wind bowl type wind blade, 15-right tower, 16-lower horizontal connection steel frame, 17-right inner support steel frame, 18-reinforced concrete generator room, 19-bottom Power transmission vertical shaft stable bearing, 20-automatic transmission gearbox, 21-generator, 22-lower plane load-bearing bearing, 23-lower horizontal steel frame connecting vertical shaft fixed steel plate, 24-left inner support steel frame, 25-lower tower Cable-stayed cables, 26-rear tower.

Detailed ways:

The best embodiment of the present utility model will be described in detail below in conjunction with the accompanying drawings. The vertical horizontal rotation combined wind wheel wind power generation device consists of: tower cable-stayed steel cable 1, left tower frame 2, upper horizontal connecting steel frame 3, upper horizontal oblique Pull steel cable 4, fan blade fairing 5, fan blade shaft 6, upper power transmission vertical shaft stable bearing 7, upper plane load-bearing bearing 8, wind wheel hub 9, upper horizontal steel frame connection vertical shaft fixed steel plate 10, power transmission vertical shaft ( Shared wind wheel shaft) 11, fan blade shaft cable-stayed steel cable 12, fan blade fixed bracket 13, square wind bowl type fan blade 14, right tower frame 15, lower horizontal connecting steel frame 16, right inner support steel frame 17, reinforced concrete Generator room 18, lower power transmission vertical shaft stable bearing 19, automatic transmission gearbox 20, generator 21, lower plane load-bearing bearing 22, lower horizontal steel frame connecting vertical shaft fixed steel plate 23, left inner support steel frame 24, under the tower Cable-stayed steel cable 25, rear tower frame 26 constitute. The power transmission vertical shaft 11 is vertically installed on the upper horizontal connection steel frame fixed steel plate 10 of the upper horizontal connection steel frame 3 and the lower horizontal connection steel frame 23 and the upper power transmission vertical shaft stable bearing 7 in the lower horizontal connection steel frame fixed steel plate 23 and In the lower power transmission vertical shaft stabilizing bearing 19, the left tower 2, the right tower 15 and the rear tower 26 respectively connect the upper horizontal steel frame to the vertical shaft fixing steel plate 10 on the upper horizontal power transmission vertical shaft through the upper horizontal connecting steel frame 3. On the bearing, the left tower frame 2, the right tower frame 15 and the lower part of the rear tower frame 26 are respectively connected with the lower horizontal connecting steel frame 15, and the lower horizontal connecting steel frame 15 is installed on the lower horizontal steel frame connecting vertical shaft fixed steel plate 23, 23 sets On the stable bearing of the lower power transmission vertical shaft, the tower cable-stayed steel cable 1 is respectively pulled on the left tower 2, the right tower 15, and the top of the rear tower 26, and the upper horizontal cable-stayed steel cable 4 is respectively installed on the left tower 2 and the right tower. The top of the tower frame 15 and the rear tower frame 26, the other end is installed in the middle part of the horizontally connected steel frame 3, and the cable stay cable 25 under the tower frame is installed in the left tower frame 2, the right tower frame 15, the bottom of the rear tower frame 26 and Left inner support steel frame 24, on the right inner support steel frame 17 and the back inner support steel frame. The blade shaft 6 and the wind wheel hub 9 are installed on the power transmission vertical shaft, the square bowl type blade 14 is installed on the blade fixing bracket 13, the blade fairing 5 is installed on the back side of the square bowl type blade 14, and the blade shaft is inclined One end of the pull steel cable 12 is installed on the power transmission vertical shaft, the other end is installed on the middle rear part of the fan blade shaft 6, the lower plane bearing bearing 22 is installed on the top center of the reinforced concrete generator room 18, and the automatic transmission gearbox 20 passes through the power transmission. Vertical shaft is connected with generator 21.

Working principle: Under the action of wind force, the square bowl-shaped fan blade 14 drives the fan blade shaft 6 to drive the power transmission vertical shaft 11 to rotate, and the streamlined outer cover of the fan blade fairing 5 diverts the gas blowing in the face up and down, reducing the air flow to the greatest extent. The wind energy is converted into mechanical energy through the rotation of the power transmission vertical shaft 11 driven by the wind impeller, and finally converted into electrical energy through the generator 21. Because the wind wheel rotates horizontally, the device can receive wind from all directions, so it does not need yaw or navigation system adjustment.

Claims (6)

1, a kind of vertical combination wind-wheel wind power generation machine that horizontally rotates, it is by pylon oblique rollering steel cable (1), left side pylon (2), last level connects steelframe (3), last level connects steelframe oblique rollering steel cable (4), fan blade cowling (5), blade shaft (6), the firm bearing of last power transmission vertical shaft (7), last plane load-bearing bearing (8), wind wheel wheel hub (9), go up horizontal steelframe and connect fixedly steel disk (10) of vertical shaft, power transmission vertical shaft (shared rotor shaft) (11), blade shaft oblique rollering steel cable (12), fan blade fixed support (13), square wind bowl formula fan blade (14), right pylon (15), following level connects steelframe (16), right supporting steel frame (17), reinforced concrete Dynamo Room (18), the firm bearing of following power transmission vertical shaft (19), self-changing gear case (20), generator (21), the down horizontal steelframe of lower plane load-bearing bearing (22) connects fixedly steel disk (23) of vertical shaft, supporting steel frame (24) in the left side, the pylon declivity is drawn wirerope (25), tail tower (26) constitutes, it is characterized in that: power transmission vertical shaft (11) perpendicular to floor mounted on firm bearing of last power transmission vertical shaft (7) and the firm bearing of following power transmission (19), the firm bearing of last power transmission vertical shaft (7) is installed on the plane load-bearing bearing (8), the firm bearing of following power transmission vertical shaft (19) is installed on the lower plane load-bearing bearing (22), the firm bearing of last power transmission vertical shaft (7) by last horizontal steelframe connect vertical shaft fixedly steel disk (10) be contained on the level connection steelframe (3), last level connects steelframe (3) and is contained in respectively on right pylon of left pylon (2) (15) and the tail tower (26), the firm bearing of following power transmission vertical shaft (19) passes through down, and level connects fixedly steel disk of steelframe, the level that is connected down connects on the steelframe (16), following level connects steelframe (16) and is contained in right pylon of left pylon (2) (15) and tail tower (26) middle and lower part respectively, oblique rollering steel cable (1) is contained in the top of right pylon of left pylon (2) (15) and tail tower (26) respectively, wind wheel wheel hub (9) and blade shaft (6) are installed on the power transmission vertical shaft (11), fan blade cowling (5) and square wind bowl formula fan blade (14) are installed on blade shaft (6) and the fan blade fixed support (13), blade shaft oblique rollering steel cable (12) one ends are installed on the power transmission vertical shaft (11), the other end is fixed on the blade shaft (6), and generator (21) and self-changing gear case (20) are installed in the inside of the reinforced concrete Dynamo Room of power transmission vertical shaft (11) lower end.

2, the vertical combination wind-wheel wind power generation machine that horizontally rotates according to claim 1, it is characterized in that: the tens of rice of power transmission vertical shaft (11) Gao Keda, perpendicular to ground, top is sleeved in the firm bearing of power transmission vertical shaft (7), and the firm Bearing Installation of last power transmission vertical shaft is on last plane load-bearing bearing (8).The bottom is sleeved on down on the firm bearing of power transmission vertical shaft (19), and the firm bearing of following power transmission vertical shaft (19) is installed on the lower plane load-bearing bearing (22).Lower plane load-bearing bearing (22) is held power transmission vertical shaft (11), and lower plane load-bearing bearing (22) middle cover is thin axle in power transmission vertical shaft (11) lower end, and lower plane load-bearing bearing (22) is fixed on reinforced concrete Dynamo Room upper center.

3, the vertical combination wind-wheel wind power generation machine that horizontally rotates according to claim 1, it is characterized in that: per three of blade shaft (6) is one group of wind wheel, the wind wheel group has several, be equilateral, isogonism, isometric three pronged shape, upper and lower group of blade shaft (9) divided the isogonism layout each other equally, stack mounting is on power transmission vertical shaft (11) and wheel hub (9), square wind bowl formula fan blade (14) is contained on the fan blade fixed support (13), blade shaft oblique rollering steel cable (12) one ends are installed on the power transmission vertical shaft (11), and an end is fixed on the blade shaft (6).

4, the vertical combination wind-wheel wind power generation machine that horizontally rotates according to claim 1 is characterized in that: left pylon (2), right pylon (15) tail tower (26) entad are installed in level connection steelframe (3) perpendicular to ground respectively and are connected on the steelframe (16) with following level.

5, the vertical combination wind-wheel wind power generation machine that horizontally rotates according to claim 1, it is characterized in that: the level that goes up connect last horizontal steelframe on the steelframe (3) connect vertical shaft fixedly steel disk (10) be sleeved on the firm bearing of power transmission vertical shaft (7), the following horizontal steelframe connection vertical shaft on the following level connection steelframe (16) fixedly steel disk (23) is sleeved on down on the firm bearing of power transmission vertical shaft (19).

6, the vertical combination wind-wheel wind power generation machine that horizontally rotates according to claim 1, it is characterized in that: pylon oblique rollering steel cable (1) is installed in the top of right pylon of left pylon (2) (15) and tail tower (26) respectively, and the pylon declivity draws wirerope (25) to be installed in supporting steel frame (24) in the left side, right interior supporting steel frame (17) top.Upward horizontal steelframe oblique rollering steel cable (4) one ends are contained in the top of right pylon of left pylon (2) (15) and tail tower (26), and the other end is installed in the middle inside that level connects steelframe.

Images