RU89633U1 - WIND GENERATOR (OPTIONS) AND INCREASING BELT DRIVE OF A WIND GENERATOR - Google Patents

Abstract

1. A wind generator including a support column (28), a bed (38) mounted on top of the support column (28), blades (19), mounted on the hub of the wind wheel (18), a drive shaft (20), one end of which is connected to the hub of the wind wheel (18) installed in the bearing assembly (22) mounted on the bed (38), the generator (2) mounted on the bed (38) and increasing the belt drive installed between the other end of the drive shaft (20) and the generator (2), characterized in that the incremental belt drive is single-stage, the drive shaft (20) connected to the shaft of the driving pulley (24) of a single-stage belt-raising transmission using a coupling (23), and the shaft of the generator (2) is connected to the shaft of the driven pulley (7) of a single-stage belt-raising transmission using another coupling (3). ! 2. The wind generator according to claim 1, characterized in that the one-stage boost belt drive includes a frame (25) mounted on a bed (38), a first bearing assembly (27) supporting the drive pulley shaft (24) and mounted on the frame (25) , a driving pulley (26) mounted on the shaft of the driving pulley (24), a second bearing assembly (15) supporting the shaft of the driven pulley (16) and mounted on the frame (25), a driven pulley (13) mounted on the shaft of the driven pulley ( 16), and a drive belt (14) between the drive pulley (26) and the driven pulley (13). ! 3. The wind generator according to claim 2, characterized in that the single-stage boost belt drive further includes a tensioner (17) mounted on the frame (25) for acting on the drive belt (14) outside for automatic tensioning. ! 4. The wind generator according to claim 2 or 3, characterized in that the drive belt (14) connecting the drive pulley (26) and the driven pulley

Description

The utility model relates to the production of electricity through the use of wind energy, in particular to a wind generator and a drive with an increased belt drive of a wind generator or wind generator.

To meet people's energy needs and ensure environmental protection, the use of wind energy, as a substitute for coal, oil and other fossil energy sources, is considered in almost all countries. Wind power has already developed in all countries, and now it is booming. Currently, the upshift between the wind wheel and the generator of the wind power installation is in the form of a gear reducer, however, the gear reducer is the node of the wind power installation that most often fails. Further, the mass of the gear reducer is usually more than ten or several tens of tons, and the height of the support column is more than 10 m or 100 m from the ground level, and when a failure occurs, it is difficult to repair and replace components and parts, while the cost of repair and the service is quite high. With the rapid development of the use of powerful wind turbines, their gear reducer is becoming larger and heavier, which at the same time causes inconvenience in its transportation and lifting to a height. A gear reducer is a necessary part of the generator, which at the same time increases the cost of a wind power installation due to the need to ensure high accuracy and the resulting high price.

It is known to use single-stage step-up belt drives in low-power wind generators [utility model DE 29606703 U1, publ. 06/20/1996; application EP 0737811 A1, publ. 10.16.1996]. However, the known designs of single-stage boost belt drives are of little use for high power wind generators.

Known wind generator, selected as a prototype, including: a support column; a bed mounted on top of a support column; blades mounted on the hub of the wind wheel, a drive shaft, one end of which is connected to the hub of the wind wheel, mounted in a bearing assembly mounted on the bed (38), a generator mounted on the bed; a step-up belt drive installed between the other end of the drive shaft and the generator, where the step-up belt transmission is made two-stage [application US 2006/0177311, publ. 08/10/2006]. However, the known construction is not thought out from the point of view of repair and replacement of the belt drive units of the used belt drive.

The purpose of this utility model is to provide a maintainable drive with an incremental belt drive of the wind generator for use as an increase transmission between the wind wheel and the generator of the wind generator, thereby reducing the cost of electricity generated and increasing the service life.

The above goal can be solved by the following proposed technical solution: a drive with a belt drive raising gear of a wind turbine is proposed, comprising a frame, a generator mounted on the frame, a belt drive with a belt gear connected to the input shaft of the generator, and the pulley of the first stage of the belt drive is connected with the shaft of the wind wheel using a coupling.

In the aforementioned drive with an increase belt drive of a wind turbine installation, an increase belt drive may include 1-4 steps containing a drive belt (s) and pulleys, where the diameter of the driven pulley is made smaller than the diameter of the drive pulley, each of the steps is connected using a coupling, and the drive belt is equipped with a tensioner.

In the aforementioned drive with an overdrive belt drive of a wind generator set, the drive belt is selected from the group: a timing belt with involute teeth, a timing belt with straight teeth, a V-belt or a V-ribbed belt.

Advantages of this utility model:

1) The blades are fixed on the wheel hub, which is a wind wheel, which in turn is fixed on the drive shaft. Under the influence of wind, the blades rotate and drive the drive shaft. Kinetic energy is transmitted through the clutch to the drive pulley of the first transmission stage to drive the driven pulley through the drive belt, while the diameter of the driven pulley is made larger than the diameter of the drive pulley in order to increase the speed of rotation. After such an increase in speed, the driven pulley of the first stage transfers kinetic energy to the second transmission stage, with which further, after a subsequent increase in rotation speed, kinetic energy is transmitted to the third transmission stage; Further, the third stage once again increases the speed of rotation and transfers kinetic energy to the generator, completing the entire process of such an overdrive. The diameter of the driven pulley of each stage is made larger than the diameter of the driving pulley to realize an overdrive. Such an overdrive belt drive can be either single-stage or multi-stage, according to needs. Replacing a previously used gear with a gear reducer with an increasing belt drive helps to reduce the cost of a wind generator; at the same time, increasing the belt drive has such advantages as reducing the vibration of the generator set, extending the service life, reducing noise during operation of the installation, etc.

2) The entire transmission system of the present utility model uses a drive belt to transmit power. The incremental belt drive can be either single-stage or multi-stage, in accordance with the requirements of an electric power generator. The diameter of the driven pulley is made larger than the diameter of the driving pulley to increase the speed of rotation in order to replace an expensive gear reducer, thereby providing a low transmission cost. The low cost of the belt drive increases the cost of the entire wind turbine, which will ensure further development and advancement in the field of wind energy.

3) The finished product according to this utility model has a lower weight of the transmission unit, and the drive belt is made in accordance with special technical requirements and material. Compared with the previously used gear-based transmission, the proposed device has the advantages of low weight, low failure rate, ease of installation and replacement, as well as a significant reduction in the cost of the wind power installation as a whole.

4) Belt drive is convenient for maintenance and replacement, while operating costs are lower than when using a traditional gear reducer. With the rapid development of high-power wind turbines, the installation using this utility model is more convenient in terms of transportation and elevation.

Figure 1 presents a schematic view of the finished product.

Digital designations in this figure: 1 - generator frame; 2 - generator; 3 - coupling; 4 - bearing assembly; 5 - a driving belt; 6 - driven pulley; 7 - a shaft of a conducted pulley; 8 - a shaft of a leading pulley of the second stage; 9 - bearing assembly; 10 - a leading pulley of the second stage; 11 - a driving belt; 12 - coupling; 13 - driven pulley; 14 - a driving belt; 15 - bearing assembly; 16 - a shaft of a conducted pulley; 17 - a tensioner; 18 - a nave of a wind wheel; 19 - blades; 20 - a leading shaft; 21 - frame; 22 - bearing assembly; 23 - coupling; 24 - a shaft of a leading pulley of the first stage; 25 - frame; 26 - a leading pulley of the first stage; 27 - bearing assembly; 28 - supporting column; 29 - a shaft of a conducted pulley; 30 - driven pulley; 31 - frame; 32 - bearing assembly; 33 - coupling; 34 - driving pulley of the third stage; 35 - frame; 36 - bearing assembly; 37 - a shaft of a leading pulley of the third stage; 38 - bed; 39 - tensioner; 40 - tensioner.

One embodiment.

For the present utility model, a three-stage belt drive is illustrated, although it may include only one step or two steps when used, or the number of steps may be increased to four or more, and the construction described here is provided only as an example of an embodiment of the utility model. According to an embodiment, there is: a generator frame 1; generator 2; coupling 3, bearing assembly 4; a drive belt 5, which may be a gear belt with involute or straight teeth, a V-belt, a V-ribbed belt, or any belt of a suitable type; the driven pulley 6 and the shaft of the driven pulley 7 of the first transmission stage; drive pulley shaft 8 of the second stage; bearing assembly 9; drive pulley 10 of the second stage; drive belt 11; clutch 12; driven pulley 13; drive belt 14; bearing assembly 15; driven pulley shaft 16; tensioner 17; the hub of the wind wheel 18; blades 19; drive shaft 20; frame 21; bearing assembly 22; coupling 23; drive pulley shaft 24 of the first stage; frame 25; drive pulley 26 of the first stage; bearing assembly 27; support column 28; driven pulley shaft 29; driven pulley 30; frame 31; bearing assembly 32; coupling 33; drive pulley 34 of the third stage; frame 35; bearing assembly 36; drive shaft pulley 37 of the third stage; bed 38; tensioner 39; and tensioner 40.

The blades 19 are connected to the hub of the wind wheel 18, and two bearing assemblies 22 are mounted on the left and right of the drive shaft 20, respectively, and are mounted on the frame 21; a hub of the wind wheel 18 is mounted on one end of the drive shaft, and the other end is connected to a coupling 23, which is connected to the shaft of the drive pulley 24 of the first stage for transmitting kinetic energy; the drive pulley 26 of the first stage is mounted on the shaft of the drive pulley 24 of the first stage, mounted in two bearing units 27 mounted respectively on the right and left and mounted on the frame 25; the driven pulley 13 is mounted on the shaft of the driven pulley 16, which is installed in two bearing units 15 mounted respectively on the right and left and mounted on the frame 25; the drive pulley 26 is connected to the driven pulley 13 through the drive belt 14, they increase the speed of rotation; the tensioner 17 is fixed on both sides to the frame 25 and is used to tension the drive belt 14; one side of the clutch 12 is connected to the shaft of the driven pulley 16, and its other side is connected to the shaft of the driving pulley 8 of the second stage for transmitting kinetic energy.

The drive pulley 10 of the second stage is mounted on the shaft of the drive pulley 8 of the second stage, which is installed in two bearing units 9 mounted respectively on the right and left and mounted on the frame 31; the drive pulley 10 is connected to the driven pulley 30 of the second stage through the drive belt 11, they increase the speed of rotation; the tensioner 39 is fixed on both sides to the frame 31 and is used to tension the drive belt 11; the driven pulley 30 is mounted on the shaft of the driven pulley 29, which is installed in two bearing units 32 mounted respectively on the right and left and mounted on the frame 31; one side of the clutch 33 is connected to the shaft of the driven pulley 29, and its other side is connected to the shaft of the driving pulley 37 of the third gear stage; the drive pulley 34 of the third stage is mounted on the shaft of the drive pulley 37 of the third stage, which is installed in two bearing units 36 mounted respectively on the right and left and mounted on the frame 35; the drive pulley 34 of the third stage is connected to the driven pulley 6 of the second stage through the drive belt 5, they increase the speed of rotation; the tensioner 40 is fixed on both sides to the frame 35 and is used to tension the drive belt 5; the driven pulley 6 is mounted on the shaft of the driven pulley 7, which is installed in two bearing units 4 mounted respectively on the right and left and mounted on the frame 35; one side of the coupling 3 is connected to the shaft of the driven pulley 7, and its other side is connected to the shaft of the generator 2 for transmitting kinetic energy to it and the final generation of electricity; the generator 2 is fixed on the frame 1, while the frame 35, frame 31, frame 25, frame 21 and frame 1, respectively, are mounted on the frame 38, which is mounted on top of the support column 28.

Claims (13)

1. A wind generator including a support column (28), a bed (38) mounted on top of the support column (28), blades (19), mounted on the hub of the wind wheel (18), a drive shaft (20), one end of which is connected to the hub of the wind wheel (18) installed in the bearing assembly (22) mounted on the bed (38), the generator (2) mounted on the bed (38) and increasing the belt drive installed between the other end of the drive shaft (20) and the generator (2), characterized in that the incremental belt drive is single-stage, the drive shaft (20) connected to the shaft of the driving pulley (24) of a single-stage belt-raising transmission using a coupling (23), and the shaft of the generator (2) is connected to the shaft of the driven pulley (7) of a single-stage belt-raising transmission using another coupling (3). 2. The wind generator according to claim 1, characterized in that the one-stage boost belt drive includes a frame (25) mounted on a bed (38), a first bearing assembly (27) supporting the drive pulley shaft (24) and mounted on the frame (25) , a driving pulley (26) mounted on the shaft of the driving pulley (24), a second bearing assembly (15) supporting the shaft of the driven pulley (16) and mounted on the frame (25), a driven pulley (13) mounted on the shaft of the driven pulley ( 16), and a drive belt (14) between the drive pulley (26) and the driven pulley (13). 3. The wind generator according to claim 2, characterized in that the single-stage boost belt drive further includes a tensioner (17) mounted on the frame (25) for acting on the drive belt (14) outside for automatic tensioning. 4. The wind generator according to claim 2 or 3, characterized in that the drive belt (14) connecting the drive pulley (26) and the driven pulley (13) is selected from the group: toothed belt with involute teeth, toothed belt with straight teeth, V-belt V-ribbed belt. 5. Increasing belt drive of a wind generator, including a bed (38) mounted on top of a support column (28), a wind drive mounted on a bed (38) using a bearing assembly (22) and including blades (19) of the wind wheel, the hub of the wind wheel (18) and a drive shaft (20), a generator (2) mounted on a bed (38), and an increase belt drive installed between the drive shaft (20) and the generator (2), characterized in that the drive shaft (20) is connected with the shaft of the driving pulley (24) of the belt-raising transmission with the help of the coupling (23), and the shaft of the generator and (2) is connected to the shaft of the driven pulley (7) of the boost belt drive with the help of another clutch (3). 6. The drive according to claim 5, characterized in that the step-up belt drive includes a frame (25) mounted on a bed (38), a first bearing assembly (27) supporting the drive pulley shaft (24) and mounted on the frame (25), a drive pulley (26) mounted on the shaft of the drive pulley (24), a second bearing assembly (15) supporting the shaft of the driven pulley (16) and mounted on the frame (25), a driven pulley (13) mounted on the shaft of the driven pulley (16) ), and a drive belt (14) between the drive pulley (26) and the driven pulley (13). 7. The drive according to claim 6, characterized in that the incremental belt drive further includes a tensioner (17) mounted on the frame (25), for acting on the drive belt (14) from the outside for automatic tensioning. 8. The drive according to claim 6 or 7, characterized in that the drive belt (14) connecting the drive pulley (26) and the driven pulley (13) is selected from the group: toothed belt with involute teeth, toothed belt with straight teeth, V-belt V-ribbed belt. 9. A wind generator comprising a support column (28), a bed (38) mounted on top of the support column (28), blades (19), mounted on the hub of the wind wheel (18), a drive shaft (20), one end of which is connected to the hub of the wind wheel (18) installed in the bearing assembly (22) mounted on the bed (38), the generator (2) mounted on the bed (38), increasing the belt drive installed between the other end of the drive shaft (20) and the generator ( 2), characterized in that the incremental belt drive includes a frame (25) mounted on a bed (38), a first bearing assembly (27) mounted on a frame (25), a drive pulley shaft (24) installed in a first bearing assembly (27), a second bearing assembly (15) mounted on a frame (25), a driven shaft a pulley (16) mounted in a second bearing assembly (15), a drive pulley (26) mounted on a shaft of a drive pulley (24), a driven pulley (13) mounted on a shaft of a driven pulley (16), a drive belt (14) between drive pulley (26) and driven pulley (13), and tensioner (17) mounted on the frame (25) to act on the drive belt (14) outside for its automatic atyazheniya, wherein the drive shaft (20) connected to the drive pulley shaft (24) via the clutch (23) and a generator shaft (2) connected to the shaft of the driven pulley (7) via the other clutch (3). 10. A wind generator including a support column (28), a bed (38) mounted on top of the support column (28), blades (19), mounted on the hub of the wind wheel (18), a drive shaft (20), one end of which is connected to the hub of the wind wheel (18) installed in the bearing assembly (22) mounted on the bed (38), the generator (2) mounted on the bed (38), and increasing the belt drive mounted between the other end of the drive shaft (20) and the generator (2), characterized in that the step-up belt transmission is multi-stage, while the drive shaft (20) is connected to the shaft of the driving pulley (24) of the first stage of the multi-stage belt drive via a clutch (23), and the shaft of the generator (2) is connected to the shaft of the driven pulley (7) of the last stage of the multi-stage belt drive using another clutch (3). 11. The wind generator according to claim 10, characterized in that each step of the multi-stage up belt drive includes a frame (25, 31, 35) mounted on a bed (38), a first bearing assembly (27, 9, 36) mounted on the frame ( 25, 31, 35), a drive pulley shaft (24, 8, 37) installed in the first bearing assembly (27, 9, 36), a second bearing assembly (15, 32, 4) mounted on the frame (25, 31, 35), the driven pulley shaft (16, 29, 7) installed in the second bearing unit (15, 32, 4), the driving pulley (26, 10, 34) mounted on the drive pulley shaft (24, 8, 37), driven pulley (13, 30, 6) mounted on the shaft of the driven pulley (16, 29, 7), and the drive belt (14, 11, 5) between the driving pulley (26, 10, 34) and the driven pulley (13, 30, 6), while the shaft of the driven pulley (16 , 29) the previous stage of the multi-stage belt drive transmission is connected to the drive pulley shaft (8, 37) of the next stage of the multi-stage belt drive with the help of a coupling (12, 23). 12. The wind generator according to claim 11, characterized in that each step of the multi-stage boost belt drive further includes a tensioner (17, 39, 40) mounted on the frame (25, 31, 35) for acting on the drive belt (14, 11, 5) outside for its automatic tension. 13. The wind generator according to claim 11 or 12, characterized in that the drive belt (14, 11, 5) connecting the drive pulley (26, 10, 34) and the driven pulley (13, 30, 6) is selected from the group: gear a belt with involute teeth, a toothed belt with straight teeth, a V-belt or a V-ribbed belt.