SE515712C3 - Electric power generating device - Google Patents

Description

515 712 v »-. r. 2 can be absorbed by the device in a load-favorably advantageous manner without the bending moments being applied to the rotor of the generator to an unacceptably negative extent.

SUMMARY OF THE INVENTION This object is achieved according to the present invention in that the turbine hub is rotatably mounted relative to a shaft part, which is connected or connectable to the support device, via at least a second layer separate from the at least one first-mentioned bearing, and that the connecting device is arranged to transmit the torque from the turbine hub to the rotor without or with only small simultaneous transmission of bending torque.

This solution means by releasing the rotor from bending moments that the risk of unwanted variations in the air gap between the rotor and the stator is significantly reduced and that the rotor can be dimensioned as less powerful than would have been the case if bending moments from the turbine hub had been transmitted directly to the rotor . The first bearing for the rotor will also be subjected to less stresses according to the solution according to the invention, something which, in combination with the minor stresses on the rotor itself, well compensates for the fact that an additional bearing must be provided for the turbine hub. The problem solving also gives rise to a more robust and reliable design in the sense that the risk of loads via the turbine hub negatively affecting the generator as a whole is significantly reduced.

According to an advantageous embodiment of the invention, the shaft part forms a component of a shaft, which is connected / connectable to the support device and on which the stator of the generator is fixed.

Stresses on the shaft as a consequence of bending moments generated by the turbine will thereby be absorbed by the shaft itself, without affecting the rotor, and be transmitted to the support device.

As a consequence of the fact that the generator's rotor is essentially not subjected to bending moments, there are essentially no variations in what is encountered. : lation between stator and rotor. sis 712 3 A design which is advantageous from a design and assembly point of view means that the shaft at a first end has the turbine hub via the shaft part carrying at least one second bearing and at a second end is provided with means for connecting the shaft to the support device. Thus, this shaft with attached turbine hub and generator can form a prefabricated unit, which is completely completed in factory conditions, after which at the time of installation the shaft is connected to the support device, which may have the character of a tower. In other words, connecting the shaft to the support device means that the generator / turbine hub attached to the shaft is connected at the same time.

According to the invention, the connecting device may comprise one or more connecting members which are torsionally rigidly designed but resilient to bending moments, wherein the resilience can be realized by elasticity of the connecting members or freedom of movement between two connecting members included in the connecting device, one of which is fixedly connected to the turbine while the other is fixedly connected to the rotor.

In a particularly advantageous embodiment of the device, the rotor has permanent magnets. The generator is in particular a synchronous generator, and in particular a multipole one.

Further features and advantages of the device according to the invention appear from dependent claims and the following description.

BRIEF DESCRIPTION OF THE DRAWINGS Referring to the accompanying drawing, a more detailed description of exemplary embodiments of the invention follows.

On the drawings are: 5151712 -. Fig. 1 is a schematic, partly cut-away side view of the device according to the invention viewed horizontally from one side, a support device in the form of the upper part of a tower or a mast being indicated, and Fig. 2 an enlarged view of a detail of Fig. 1. , however, in a modified version.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS In Fig. 1, the electric power generating device is illustrated as including a turbine generally designated 1 and a generator 2 with a stator 3, which is connected to a support device 4, which here is intended to have the character of a tower or mast and upper part in Fig. 1 is denoted by 5, and a rotor 6, which is rotatably mounted by means of at least one bearing 7.

The stator 3 has stator windings 8 with a suitable core arrangement 9, suitably realized by means of sheet metal packages of ferromagnetic material.

The rotor 6 has permanent magnets 10, which in the example are distributed along the circumference of the rotor and which have an air gap 11 between them and the core package present in the example outside the permanent magnets, which must be kept as constant as possible. It is emphasized that it is also possible to design the rotor so that its permanent magnets will be located radially outside the stator windings 8. According to an alternative embodiment, the gap 11 is formed between flow concentrating means (soft magnetic poles) and the stator, while the permanent magnets are conventionally coordinated with the flow concentrating organs.

The turbine 1 has a hub 12 and turbine blades 13 arranged therein in a suitable manner. The hub 12 is connected to the rotor 6 by means of a connecting device generally designated 14 and arranged torque from the hub 12 to the rotor 6. With 515 712 v | -. »O torque is meant here such an action that puts the rotor in pure rotation around its axis of rotation.

The turbine hub 12 is rotatably mounted relative to a shaft portion 16, which is connected to the support device 4, via at least a second bearing schematically indicated at 17. This second bearing 17 is separate from the at least one first-mentioned bearing 7. The connecting device 14 is arranged to transmit the torque from the turbine hub 12 to the rotor 6 without or with only small simultaneous transmission of bending torque. This means that when the shaft part 16 is subjected to bending as a consequence of the load from the turbine 1, the resulting bending moment will not be transmitted to the rotor 6, at least not to a significant extent, so that the rotor 6 is not subjected to any harmful deformation or otherwise position-changing effect as a consequence of the deflection of the shaft part 16. What should be especially avoided in this respect are such deformations or low changes of the rotor 6 which give rise to changes in the air gap 11 between the rotor and the stator.

The shaft part 16 forms part of a shaft, generally designated 15, which is connected to the support device 4 and to which the stator 3 of the generator is fixed. In the example it is indicated how the stator 3 has an annular element 18, which is mounted on the shaft 15. The rotor 6 and the bearings 7 between the rotor and the stator element 18 are located radially outside the latter. It is emphasized that the rotor 6 can be mounted directly at the shaft 15, i.e. without there being any stator element between it and the bearings 7 as indicated by 18. The stator and rotor can be attached to the shaft 15 by means of crimping, flange joints or the like. The shaft has means 19 for connecting the shaft to the support device 4. In the example these means 19 are included in a connection generally designated 20, which comprises corresponding means 21 on the support device 4. In the example these means 19, 21 are illustrated as consisting of flanges, which are fixed relative to each other by means of fastening elements 22, such as screws or bolts. sis 712 - 1. | The shaft 15 has at one first end the turbine hub 12 via the shaft part 16 carrying the at least one second bearing 17 and at a second opposite end the connecting means 19 are arranged. The stator 3 is fixed to the shaft 15 in the area between the shaft part carrying the turbine hub 16 and the other end of the shaft, having the means 19.

The connecting device 14 comprises one or more connecting means 23, which are torsionally rigidly designed in the sense that they are capable of transmitting torque between the turbine hub 12 and the rotor 6 but resilient to bending moments. Within the framework of this general instruction, the average person skilled in the art realizes that a number of realization possibilities offer themselves. Here, for the sake of illustration only, a couple of alternatives may be discussed.

According to a variant, the resilience of the connecting members 23 could be realized by these being elastic. The elasticity must then be such that it does not negatively interfere with the torque transmission, but on the other hand this elasticity must allow the connecting members 23 to be deformed with a relatively small resistance under the influence of bending moments so that they are not or only to a small extent transmitted to the rotor 6. .

The connecting members 23 could be realized in the form of an annular continuous structure possibly provided with elastic deformation under the influence of bending moments facilitating longitudinal slits, but they could also be realized in the form of a plurality of individual connecting members distributed around the shaft 15. In addition, these can be connected to the turbine hub 12 or the rotor 6 via suitable detachable fastening elements, such as screws or bolts or the like.

According to another variant which is schematically illustrated in Fig. 2, the connecting means of the connecting device 14 'could be in the number at least two and two such are illustrated in Fig. 2 by 23a and 23b. A first 23a of these is thought to be fixedly connected to the turbine hub 12 while a second Bb is thought to be fixedly connected to the rotor 6. These first and second connecting means 23a, 23b are movably connected to each other via engaging elements 24, which act as a force transmitter in the tangential direction but provide freedom of movement between the connecting members in such a substantially axial direction that deflections of the shaft part 16 are allowed without these being transmitted to the rotor 6. For example, these engaging elements could be realized by axially directed splines as schematically indicated at 24.

The device according to the invention can be mounted in a factory, whereby the generator 2 is applied to the shaft 15 and then the turbine hub 2 is applied to the shaft part 16 and the turbine hub 2 and the rotor 6 are connected by means of the connecting device 14. This assembly can then be transported in assembled form. out to the intended place of use, where the unit with the help of the connection 20 is put in place on the current support device 4. Such a procedure eliminates the need for cumbersome detailed assemblies at the intended place of use.

It is a given that the described device can be modified in a number of ways within the scope of the inventive idea referred to here. What has been presented here should therefore only be considered as an example of a realization of the invention. Within the scope of the inventive concept, all variants falling within the scope of the appended claims are included, as well as equivalent embodiments. It is pointed out that the device according to the invention, generating electric power realized as a wind turbine can advantageously be included in a larger wind farm containing one or more wind turbines of preferably the same but also different design. In a practical embodiment, it is preferred that the generator is directly connected with a voltage above 10 kV, preferably above 20 kV. In an embodiment with a directly connected generator, it is preferred that the same is rectified.

According to a further preferred embodiment, it is preferred that the generator is directly connected with a frequency lower than the traditional power frequency (50-60 Hz).

Claims (1)

A power generating device comprising a turbine (1) and a generator (2) with a stator (3) connected or connectable to a support device (4), and a rotor (4). 6), which is rotatably mounted by means of at least one bearing (7), a hub (12) of the turbine being connected to the rotor (6) by means of a connecting device (14) arranged to transmit torque from the hub to the rotor, characterized in that the turbine hub (12) is rotatably mounted relative to a shaft portion (16), which is connected or connectable to the support device (4), via at least a second bearing (17) separate from the at least one first-mentioned bearing (7), and that the connecting device (14) is arranged to transmit the torque from the turbine hub (12) to the rotor (6) without or with only slight simultaneous transmission of bending torque. Device according to Claim 1, characterized in that the shaft part (16) forms a component of a shaft (15) which can be connected to the support device (4) and on which the stator (3) of the generator is fixed. Device according to claim 2, characterized in that the shaft (15) has at one first end the turbine hub (12) via the shaft part (16) carrying the at least one second bearing (17) and is provided at a second end with means (19 ) for connecting the shaft to the support device. Device according to Claim 3, characterized in that the stator (3) is fastened to the shaft (15) in the region between the shaft part (16) carrying the turbine hub and the other end of the shaft. Device according to one of the preceding claims, characterized in that the connecting device (14) comprises one or more connecting members (23) which are rigidly designed but resilient to bending moments. Device according to any one of the preceding claims, characterized (515 712) Device according to claim 5, characterized in that the resilience of the connecting means (23) is elastic. Device according to claim 5, characterized in that the connecting device (14) connecting means (23) are in number at least two, of which at least one first (23a) is fixedly connected to the turbine hub (12) while at least one second (23b) is fixedly connected to the rotor (6), and that these first and other connecting means engage with each other via engaging elements (24) which act as torque transmitting but provide relative freedom of movement between the connecting means in terms of bending moment.Department according to any preceding claim, characterized in that the turbine (1) is a wind power turbine. , characterized in that the rotor (6) has flow-generating permanent magnets (10), in that the generator (2) is a synchronous generator.