CN204493453U - Double-bearing direct drive aerogenerator - Google Patents

Abstract

The utility model provides a kind of double-bearing direct drive aerogenerator, comprise impeller, main shaft, dead axle cylinder and base, described main shaft is connected with described dead axle cylinder by two bearings, described impeller is fixed on described main shaft, described dead axle cylinder is fixedly connected with described base by least two row's toggles, between described toggle and described base, be provided with resilient damping member.Double-bearing direct drive aerogenerator of the present utility model, by arranging resilient damping member between dead axle cylinder and base, dead axle cylinder is connected with base elasticity, thus make direct-drive aerogenerator have certain elastic damping, reduce the air gap change of direct-drive aerogenerator, reduce the fatigue load of whole unit.

Description

Double-bearing direct drive aerogenerator

Technical field

The utility model relates to a kind of wind-driven generator, particularly relates to a kind of double-bearing direct drive aerogenerator.

Background technique

Wind power transformation is become electric energy by impeller 1 (being usually made up of to a wheel hub and corresponding pitch-controlled system multiple blade) by wind-driven generator, direct-drive aerogenerator, owing to not using the acceleration equipments such as gear-box, greatly reduces rate of fault and maintenance cost.

In order to generate electricity normally, direct-drive aerogenerator need ensure when blower fan generator operation, the air gap between generator amature 9 and stator 10 remain on an acceptable more among a small circle in, such as 5 millimeters to 30 millimeters.Therefore, the main shaft 2, dead axle cylinder 3 etc. of direct-drive aerogenerator are all designed to the larger structure of ratio of rigidity, and generally adopt between the generator unit stator 10 of wind-driven generator and dead axle cylinder 3 and be rigidly connected, also be rigidly connected between dead axle cylinder 3 and base 4, be also rigidly connected between generator amature 9, main shaft 2 and impeller 1.Like this, when wind-driven generator runs, generator amature 9 inevitably bears the moment of flexure from impeller 1, and therefore air gap also certain change can occur, and directly will affect power generation performance when air gap change exceedes the scope of wind-driven generator permission.

In the prior art, in order to ensure the power generation performance of wind-driven generator, general design is the size and the rigidity that increase the parts such as main shaft 2, bearing 5, dead axle cylinder 3, such design will cause following problem again: one is that main shaft, bearing, dead axle cylinder equidimension are larger, along with the increase of wind-driven generator rated power, for the reduction of wind power cost brings difficulty.Two is that the vibration of impeller 1 is directly delivered to tower cylinder 8 by wheel hub, main shaft 2, bearing, dead axle cylinder 3 and base 4, and the damping of whole unit is less, fatigue load is higher.

In addition, between the generator of existing direct-drive aerogenerator and base 4, generally be bolted together by a circle, when generator lifts, need to carry out aligning of generator and base 4 adpting flange aloft, this is for especially difficulty large-scale wind driven generator, and the lifting time is consuming time longer, and cost is higher.

Model utility content

Embodiment of the present utility model provides a kind of double-bearing direct drive aerogenerator, to reduce the air gap change of wind-driven generator, and reduces the fatigue load of whole unit.

For achieving the above object, embodiment of the present utility model provides a kind of double-bearing direct drive aerogenerator, it comprises impeller, main shaft, dead axle cylinder and base, described main shaft is connected with described dead axle cylinder by two bearings, described impeller is fixed on described main shaft, described dead axle cylinder is fixedly connected with described base by least two row's toggles, between described toggle and described base, be provided with resilient damping member.

Further, at main shaft axially, the connection part of at least one row's toggle and described base is between two described bearings.

Further, described resilient damping member is hydraulic unit.

Further, described base is fixed on tower cylinder, and described base has the support fixing part that at least two rows corresponding with described toggle protrude upward, and described resilient damping member is arranged on described support fixing part.

A kind of double-bearing direct drive aerogenerator that the utility model embodiment provides, by arranging resilient damping member between dead axle cylinder and base, dead axle cylinder is connected with base elasticity, thus make direct-drive aerogenerator have certain elastic damping, reduce the air gap change of direct-drive aerogenerator, reduce the fatigue load of whole unit.

Accompanying drawing explanation

Fig. 1 is the structural representation of wind-driven generator of the prior art;

Fig. 2 is one of structural representation of the utility model embodiment;

The part-structure schematic diagram that Fig. 3 is structure shown in Fig. 2;

Fig. 4 is the plan view of structure shown in Fig. 3;

Fig. 5 is the right elevation of structure shown in Fig. 3;

Fig. 6 is the structural representation two of the utility model embodiment.

Drawing reference numeral illustrates:

1-impeller; 2-main shaft; 3-dead axle cylinder; 4-base; 41-supports fixing part; 5-bearing; 6-toggle; 7-resilient damping member; 8-tower cylinder; 9-rotor; 10-stator.

Embodiment

Below in conjunction with accompanying drawing, the double-bearing direct drive aerogenerator that the utility model embodiment provides is described in detail.

The know-why of the utility model embodiment is by arranging resilient damping member between dead axle cylinder and base, dead axle cylinder is connected with base elasticity, thus make direct-drive aerogenerator have certain elastic damping, reduce the air gap change of direct-drive aerogenerator, improve wind-driven generator performance, and reduce the fatigue load of whole unit.

As shown in Figures 2 to 5, Fig. 2 is one of structural representation of the utility model embodiment, the part-structure schematic diagram that Fig. 3 is structure shown in Fig. 2, and Fig. 4 is the plan view of structure shown in Fig. 3, and Fig. 5 is the right elevation of structure shown in Fig. 3.The double-bearing direct drive aerogenerator of the utility model embodiment is external rotor generator, and the rotor 9 of generator is positioned at the outside of the stator 10 of generator.Embodiment of the present utility model comprises impeller 1, main shaft 2, dead axle cylinder 3 and base 4, main shaft 2 is connected with dead axle cylinder 3 by two bearings 5, impeller 1 is fixed on main shaft 2, dead axle cylinder 3 is fixedly connected with base 4 by least two row's toggles 6, is provided with resilient damping member 7 between toggle 6 and base 4.Wherein, toggle 6 can be cast as one with the barrel of dead axle cylinder 3.Dead axle cylinder 3 is fixedly connected with base 4 by toggle 6, and compared with being fixedly connected with mode with traditional bolt, embodiment of the present utility model, when direct-drive aerogenerator lifts, reduces docking difficulty, reduces cost.In addition, by arranging resilient damping member 7 between toggle 6 and base 4, dead axle cylinder 3 is connected with base 4 elasticity, thus make direct-drive aerogenerator have certain elastic damping, the air gap decreased between generator amature 9 and generator unit stator 10 changes, increase the damping of unit, thus reduce the fatigue load being delivered to tower cylinder.

In addition, embodiment of the present utility model in order to reduce the size of the parts such as main shaft 2, dead axle cylinder 3, direct wind-driven generator main shaft axially, the connection part of at least one row's toggle 6 and base 4 can be arranged between two bearings 5.By the way, the technological scheme traditional direct-drive aerogenerator being arranged on to base front is improved, make direct-drive aerogenerator be positioned at the top of base 4, thus make the operation that aligns of bolt hole become and be more prone to, reduce hoisting difficulty.Compared with conventional art, embodiment of the present utility model reduces the size of the parts such as main shaft 2, dead axle cylinder 3, reduces the fabricating cost of direct-drive aerogenerator.

Further, as shown in Figure 3 and Figure 5, resilient damping member 7 can be hydraulic unit.Wherein, the hollow body that resilient damping member 7 opens for two sides, the inwall of hollow body is provided with corresponding hydraulic pressure support parts (shadow region in Fig. 3 and Fig. 5).Toggle 6 can be inserted among resilient damping member 7, thus achieve being fixedly connected with of toggle 6 and resilient damping member 7.

Further, base 4 is rotatably fixed on tower cylinder 8 by slewing bearing, and base 4 can have the support fixing part 41 that at least two rows corresponding with toggle 6 protrude upward, and resilient damping member 7 can be arranged on and support on fixing part 41.

In said structure, as shown in Figure 2, bolt is dismountable is fixed on main shaft 2 by a circle for impeller 1, rotates for drive main spindle 2.Main shaft 2 is connected with dead axle cylinder 3 by two bearings 5, and main shaft 2 can be rotated relative to dead axle cylinder 3.The rotor 9 of generator is connected with main shaft 2 by least one circle bolt, and the stator 10 of generator is connected with dead axle cylinder 3 by least one circle bolt.Wherein, in order to ensure the power generation performance of generator, between the stator 10 of generator and the rotor 9 of generator, generally keep the gap of several millimeters to tens millimeters.Dead axle cylinder 3 is fixed on base 4 by the resilient damping member 7 of some, and base 4 is rotatably fixed on tower cylinder 8 by slewing bearing.Wherein, at least 4 toggles 6 on the barrel of dead axle cylinder 3.By the connection of toggle 6 with resilient damping member 7, dead axle cylinder 3 is flexibly fixed on base 4.

In addition, as shown in Figure 6, it is the structural representation two of the utility model embodiment.As a kind of distressed structure of wind-driven generator, the generator of the utility model embodiment also can adopt internal rotor type generator, and the rotor 9 of generator is positioned at the inside of the stator 10 of generator.

The above; be only embodiment of the present utility model; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; change can be expected easily or replace, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of described claim.

Claims (4)

1. a double-bearing direct drive aerogenerator, comprise impeller (1), main shaft (2), dead axle cylinder (3) and base (4), described main shaft (2) is connected with described dead axle cylinder (3) by two bearings (5), described impeller (1) is fixed on described main shaft (2), it is characterized in that:

Described dead axle cylinder (3) is fixedly connected with described base (4) by least two rows' toggle (6), is provided with resilient damping member (7) between described toggle (6) and described base (4).

2. double-bearing direct drive aerogenerator according to claim 1, it is characterized in that, at main shaft axially, the connection part of at least one row's toggle (6) and described base (4) is between two described bearings (5).

3. double-bearing direct drive aerogenerator according to claim 1, is characterized in that, described resilient damping member (7) is hydraulic unit.

4. double-bearing direct drive aerogenerator according to claim 1, it is characterized in that, described base (4) is fixed on tower cylinder (8), described base (4) has corresponding with described toggle (6) at least two and arranges the support fixing part (41) protruded upward, and described resilient damping member (7) is arranged on described support fixing part (41).