DE102021112354A1 - Water turbine and / or water pump - Google Patents

Abstract

In the case of a water turbine and / or water pump with a rotor unit (3) consisting of a turbine (5) and a rotor (2) of an electrical machine, which can be a generator and / or an electric motor, the rotor (2) and the turbine (5 ) are connected via a shaft (4) and rotatably supported by a bearing in a housing (7), the bearing has at least one sliding surface (12) for the axial support of axial forces of the turbine (5).

Description

The invention relates to a water turbine and / or water pump according to the preamble of claim 1 and an operating method for these.

Water turbines, for example Francis or Kaplan turbines, but also water pumps, are often designed as units arranged upright, in which a turbine is connected directly to the rotor of a generator via a vertical shaft. Such a rotor unit, consisting of rotor, shaft and turbine, must be mounted in such a way that the axial forces, especially those generated by the water force acting on the turbine and acting vertically downwards, are absorbed, and the rotor unit is guided in a radially stable manner with respect to tilting moments . In this case, depending on the height of fall of a water turbine or the pumping height of a water pump, very large axial forces can occur.

Turbines and water pumps arranged completely under water are also known in the prior art. All these water turbines and water pumps have the problem of a rotating sealing of the interior of the housing on the shaft leadthrough of the rotor unit in order to avoid contact of the power electronics and the generator with the water. Known solutions with shaft sealing rings, against the background of the desired continuous and long maintenance-free operation in water turbines, have the disadvantage that the sealing ring naturally has to run on one side always loaded by the pressure of the water, wear arises from the grinding movement on the shaft and problems with it the lubrication of the sliding sealing lip. Precautions must also be taken to remove water that penetrates despite the shaft sealing ring, even if it is a small amount, since turbines require very long running times without maintenance and in continuous operation and considerable amounts of leakage water still accumulate due to only minor leaks can.

In the case of vertically arranged underwater turbines and pumps, it is known not to provide a watertight shaft seal, but to make the housing of the turbine gas-tight so that the enclosed gas is compressed by the water pressure and a water level is formed in the lower area of the housing, but the area above the Water level remains dry in the housing in which the generator and the electronics are located. For this, however, it is necessary to design the mounting of the rotor unit in such a way that, even if the water level in the housing rises, it does not reach the bearings.

From the DE 10 2006 043 946 A1 an underwater turbine with a sealed housing is known, which encloses a compressed gas cushion and has a passage for the turbine shaft which is open at the bottom with respect to the surrounding water. The barrel unit has a hollow shaft at the top, which is arranged in the form of a pot-like receptacle around a bearing pin and is mounted on this with roller bearings.

The disadvantage of this prior art is that the bearing journal is exposed to relatively high loads, precise manufacture is required and high manufacturing costs arise. The size of the forces that can be absorbed is also limited by the length of the bearing journal and the diameter of the hollow shaft or the size of the bearing resulting therefrom.

In the prior art, so-called moment bearings are also known, such as are used, for example, in wind power plants for mounting the rotor blades or else the rotor. This is a bearing that enables the transmission of axial, radial forces and tilting moments at the same time over a very short axial length, but usually with a large diameter. By means of such a moment bearing, a rotating component can be completely guided by itself without an additional bearing; large forces, in particular also axial forces and tilting moments, can be absorbed.

Compared to roller bearings, plain bearings can support considerably higher forces. An embodiment of a moment bearing with sliding bearing surfaces that are arranged at an angle to one another is also conceivable.

The present invention is therefore based on the object of providing a water turbine and / or water pump with, in particular, a vertically arranged rotor unit comprising generator / motor and turbine, in which the aforementioned disadvantages are avoided and the axial force support is improved. In particular, it is the object of the invention to provide such an improved underwater turbine and / or pump.

This object is achieved by a water turbine and / or water pump with the features of independent claim 1 and an operating method according to claim 9. Advantageous further developments of the invention are specified in the subclaims.

The object is achieved in that in a water turbine and / or water pump with a rotor unit made up of a turbine and a rotor of an electrical machine, which can be a generator and / or an electric motor, the rotor and the turbine being connected via a shaft and by a Bearing is rotatably mounted in a housing, the bearing has at least one sliding surface for the axial support of axial forces of the turbine.

A much higher force can advantageously be supported by such a sliding surface for axial support than by a roller bearing.

The rotor unit can be arranged at an angle to the horizontal, in particular perpendicular, and support the sliding surface downwardly directed axial forces.

The rotor of the electrical machine is advantageously arranged within a winding, a center plane of the rotor being offset downward by a distance from a center plane of the winding, so that when operated as a motor, a force pulling the rotor into the winding is generated and by the axial force upwards the sliding surface is relieved.

In the case of a water turbine in particular, an initial energization and operation as a motor can result in the sliding surface being relieved until a lubrication pad has built up. If the axial force of the action of the water on the turbine occurs, for example by means of a flow control, a complete lubrication pad already exists and additional wear is avoided. If, particularly in the case of a water turbine, an effective center plane of the rotor is offset from that of the stator windings or windings in the manner described, an attractive force arises when energized and operated as a motor, which relieves the load on the sliding surfaces.

The rotor of the electrical machine can be arranged within a winding, the windings being divided in such a way that a force pulling the rotor into the winding is generated by a corresponding current supply and the sliding surface is relieved by the axial force upwards.

The advantageous effect described above can also be achieved by designing the windings in this way.

In an advantageous embodiment, the bearing is a moment bearing which is arranged on the underside of the rotor.

A moment bearing, which guides a shaft through a large diameter in a single bearing and also supports it against tilting moments, a very large axial supported force can be achieved in a plain bearing due to the large surface area.

Advantageously, the torque bearing further comprises a conical sliding surface, a running ring being guided between the sliding surface designed as a radial surface and the conical sliding surface.

In a further advantageous embodiment, the housing is gas-tight and the shaft of the rotor unit is led downward out of the housing through a shaft opening, so that penetration of the water into the housing by a volume of gas compressed in the housing is prevented.

The rotor can be a permanent magnet excited rotor.

The object is also achieved by an operating method for a water turbine and / or water pump according to one of the preceding claims, wherein when a water turbine starts up, the electric machine is operated as a motor or a water pump, optionally at a reduced speed, until a hydrodynamic oil lubrication pad is established forms on the sliding surface.

In a previously described operating method using a previously described water turbine and / or water pump, the sliding surface is advantageously relieved when it starts up.

Further advantages and details of the invention are explained in more detail with reference to the embodiment shown in the schematic figure. Here, the figure shows in a schematic section an overall picture of a water turbine 1 with a rotor designed as a hollow cylinder 2 running in a runner unit 3 over a wave 4th with a turbine 5 connected is. The turbine 5 is about guide vanes 6th acted upon by head water, which is discharged downwards, for example via a suction pipe not shown here.

The water turbine 1 has a gas-tight housing 7th on, which is open at the bottom, so that the entry of water is prevented by compressed air or gas, even if the water turbine 1 is completely submerged.

The rotor 2 is of stator windings 8th surrounded by a division of the stator windings 8th and / or a geometric offset of the center plane of the rotor 2 compared to that of the statro windings 8th when energized, an upward pulling force can be generated. Especially when the rotor 2 is initially driven in the sense of a motor.

Below the rotor 2 is a moment bearing 9 arranged as a plain bearing 10 with an axial sliding surface 12th is executed. A cone sliding surface 13th leads the moment bearing 9 radially and axially upwards, so that through the moment bearing 9 all forces, in particular tilting forces, can be absorbed and the shaft 4th is completely led. Due to the axial sliding surface 12th are the axially downward forces exerted by the blades of the turbine 5 generated in operation, supported.

Through a ring plate 14th , the housing 7th as well as a carrier plate 11 of the moment bearing 9 becomes an oil pan 15th formed by a moment bearing 9 as a plain bearing 10 very high axial forces can be supported. This involves the manufacture of the plain bearing 10 cheaper than a corresponding roller bearing. As a result of the possibility of relief during start-up, operation similar to that of a roller bearing can be achieved with little wear.

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102006043946 A1 [0005]

Claims (10)

Water turbine and / or water pump with a rotor unit (3) consisting of a turbine (5) and a rotor (2) of an electrical machine, which can be a generator and / or electric motor, the rotor (2) and the turbine (5) over a shaft (4) are connected and rotatably supported by a bearing in a housing (7), characterized in that the bearing has at least one sliding surface (12) for the axial support of axial forces of the turbine (5). Water turbine and / or water pump after Claim 1 , characterized in that the rotor unit (3) is arranged at an angle to the horizontal, in particular perpendicular, and the sliding surface (12) supports downwardly directed axial forces. Water turbine and / or water pump after Claim 2 , characterized in that the rotor (2) of the electrical machine is arranged within a winding (8), a center plane of the rotor (2) being offset downward by a distance from a center plane of the winding (8), so that in a When operated as a motor, a force pulling the rotor (2) into the winding (8) is generated and the sliding surface (12) is relieved by the upward axial force. Water turbine and / or water pump according to one of the Claims 2 or 3 , characterized in that the rotor (2) of the electrical machine is arranged within a winding (8), the windings (8) being divided in such a way that a force pulling the rotor (2) into the winding (8) through a corresponding energization is generated and the sliding surface (12) is relieved by the axial force upwards. Water turbine and / or water pump according to one of the Claims 2 until 4th , characterized in that the bearing is a moment bearing (9) which is arranged on the underside of the rotor (2). Water turbine and / or water pump after Claim 5 , characterized in that the torque bearing (9) further comprises a conical sliding surface (13), a running ring being guided between the sliding surface (12) designed as a radial surface and the conical sliding surface (13). Water turbine and / or water pump according to one of the Claims 2 until 6th , characterized in that the housing (4) is gas-tight and the shaft (4) of the rotor unit (3) is led downwards out of the housing (7) through a shaft opening, so that the water can penetrate into the housing (7) a gas volume compressed in the housing (7) is prevented. Water turbine and / or water pump according to one of the preceding claims, characterized in that the rotor (7) is a permanent magnet-excited rotor (2). Operating method for a water turbine and / or water pump according to one of the preceding claims, wherein when a water turbine (1) starts up, the electric machine is operated as a motor or a water pump, optionally at a reduced speed, until a hydrodynamic oil lubrication pad forms on the sliding surface . Operating procedures according to Claim 9 for a water turbine and / or water pump according to one of the Claims 3 or 4th , characterized in that the sliding surface (12) is relieved when starting.

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