DE102008037528A1 - Device for producing electricity from water force, has turbine supported at shaft and rotated around longitudinal axis, and turbine blades, rotor and stator extending along predominant part of device in direction of axis of shaft - Google Patents

Abstract

The device (10) has a turbine supported at a shaft and rotated around a longitudinal axis (24). A rotor of the turbine co-operates with a stator provided at the shaft. Fastening parts are provided for fastening the device downstream of a weir (14) above a water surface of a lower level of the weir such that the turbine is driven by water (20) falling from the weir. Turbine blades (22), the rotor and the stator extend along a predominant part of the device in a direction of the longitudinal axis of the shaft.

Description

Technical area

• (a) eine umgebungsfeste Welle,
• (b) eine um die Längsachse der Welle drehbare und auf der Welle gelagerte Turbine mit Turbinenschaufeln, und
• (c) einen als Außenläufer ausgebildeten, elektrischen Generator, der von einem in der Turbine vorgesehenen Rotor gebildet ist, der mit einem an der Welle vorgesehenen Stator zusammenwirkt.

The invention relates to a device for obtaining electrical energy from hydropower, comprising:

• (a) an environmentally safe wave,
• (B) a turbine rotatable about the longitudinal axis of the shaft and mounted on the shaft with turbine blades, and
• (C) designed as an external rotor, electric generator, which is formed by a rotor provided in the turbine, which cooperates with a shaft provided on the stator.

State of the art

In order to obtain electrical energy from renewable sources, hydroelectric power can be used in waters. From the DE 10 2007 003 618 A1 are known devices for generating electrical energy from hydropower, which are used as turbomachines preferably in ocean currents and streams for energy. The known from the document turbines are designed as wheels with rotor blades. The water flows parallel to the axis of the impeller against the rotor blades. For this purpose, the device is mounted in the watercourse. The energy yield is therefore limited to the flow velocity of the water. Alternatively, devices for generating electrical energy are used on specially constructed dams. Here, a turbine is provided in the dam.

adversely in the known arrangement, it is either in the flow of the watercourse, whereby restricted traffic on the watercourse becomes. Or it must be built specifically dams, in which this type of turbines is integrated. The construction of dams, is costly and usually sets a long lead time advance, as such a construction must first be approved.

Disclosure of the invention

It Object of the invention, a device of the aforementioned Kind of creating with the extra energy already existing conditions without intervention in nature can.

• (d) Befestigungsmittel zur Befestigung der Vorrichtung stromabwärts eines Wehrs oberhalb einer Wasseroberfläche eines unteren Niveaus des Wehrs vorgesehen sind, derart dass die Turbine durch von dem Wehr fallendes Wasser antreibbar ist,
• (e) die Turbine als Schaufelrad ausgebildet ist, und
• (f) sich die Turbinenschaufeln, der Rotor und der Stator in Richtung der Längsachse der Welle entlang des überwiegenden Teils der Vorrichtung erstrecken.

According to the invention the object is achieved in that

• (d) attachment means are provided for attaching the device downstream of a weir above a water surface of a lower level of the weir such that the turbine is drivable by water falling from the weir,
• (E) the turbine is designed as a paddle wheel, and
• (F) the turbine blades, the rotor and the stator extend in the direction of the longitudinal axis of the shaft along the major part of the device.

at Such a device can be the energy of the overflowing Water can be converted into a rotation of the turbine. Because the Turbine blades, the rotor and the stator extending along the predominant Part of the device extending the efficiency is increased. Preferably, the turbine extends over the entire Width of the weir.

In An advantageous embodiment of the invention is the device modular composed of several turbines. This has the advantage that in a wider weir the entire width can be exploited. In an arrangement consisting of only one turbine, the maximum achievable length limited because the shaft is stored only at the ends. In a modular design, each Module be shorter and stored independently.

In Another alternative embodiment is rotor and stator segmented a module. This allows the use of easy to manufacturing soft iron cylinders as the core of a pole. The coils of the Poles are also easier to wind. Through the use of Pol dimensions, which are common in series production, the production is cheaper.

Favorable Way, rotor and stator are designed multipolar. At the turbine no gear is provided. This corresponds to the relative angular velocity between rotor and stator of the angular velocity of the turbine. This leads to a low frequency of the induced Tension. By a multipolar arrangement, the frequency of increased AC voltage. The adaptation of the frequency to the frequency of the power grid is facilitated.

In In a further advantageous embodiment, the rotor is a squirrel cage rotor educated. This has the advantage of being expensive to use Permanent magnets can be dispensed with. The device is characterized less expensive to manufacture.

In a further advantageous embodiment of the invention, a frequency converter is provided for adapting the frequency of the generated current to the frequency of a power network. The frequency of the induced AC voltage is lower than the Frequency of the electricity network. So that one can also use the generated energy, frequency converters are provided.

Favorable Way, the rotor comprises a tubular support made of magnetically conductive material. This ensures one magnetic closure of the poles, thereby increasing the efficiency the arrangement.

In Another embodiment is a sensor for detecting provided the generated electrical energy. This provides one important indication of the efficiency of the device. Continue to let yourself so that the energy fed into the power grid is logged.

In In another embodiment, means for controlling and regulating the measured values, which are detected by the sensor become. For example, the currently generated electrical energy with the mean of the generated electrical energy of the last Week compared. Changes in the efficiency of Device can then be recognized quickly. This can then be done Signaling means are displayed.

Favorable Way are on the device means for adjusting the distance provided between the axis of the turbine and the weir. Thereby the possibility arises to align the turbine. If If the water level at the weir changes significantly, it is possible that the turbine is no longer optimally from the overflowing water is taken. Then it makes sense to realign the turbine. This increases the efficiency of the device.

In In another embodiment, the axis of the device is on the weir side arranged to the water jet. As a result, the water flows over the paddle wheel. Flotsam can not therefore between weir and paddle wheel arrive and block this. This embodiment increases the operational safety of the arrangement.

advantageously, is the shaft as a hollow shaft with sealed cable glands educated. This allows the cables of the stator to the outside lead, at the same time, a penetration of water in the rotor / stator arrangement prevents. The arrangement then requires less maintenance. At the same time the life is increased.

In In a further embodiment, the fastening means comprise a Frame for lateral attachment to the shore. Because of their importance Weirs are subject to special conditions. That's not easy Mounting holes are drilled in a weir. Here is the device attached independently of the weir on the shore. The bureaucratic effort before installation is reduced.

Favorable Way means are provided for non-rotating holder of the shaft. For this purpose, for example, a feather key is provided. Alternatively, you can the shaft at the end be designed as a polygon and the holder as negative of this polygonal profile. It is still possible to strip the shaft end.

In In one embodiment of the invention, the turbine is made of a stainless steel Material, in particular stainless steel, formed. The use of stainless material increases the life of the assembly and reduces the Maintenance costs. This makes the arrangement more economical.

In In a further embodiment, the turbine comprises a tube, with in substantially projecting in the radial direction blades. Pipes with different diameters can be cheap be procured. It eliminates the expensive one-off production. The substantially radially projecting paddle wheels, provide for a greater torque through the impinging water.

In In an advantageous embodiment, the blades extend along the vast majority of the length of the Tube. This makes it possible the energy of the overflowing Water over the entire width of the arrangement to use. This increases the efficiency.

Favorable Way, the blades are inclined relative to the turbine axis. This will make the water run smoother out of the shovels. The sound of the water becomes reduced, which leads to a lower noise pollution of the residents.

By the invention, it is now possible the hydropower of the Weirs overflowing water to use for energy. So far, this was not possible because known devices, specially constructed barrages have assumed.

refinements The invention are the subject of the dependent claims. An embodiment is with reference to the accompanying drawings explained in more detail.

Brief description of the drawings

1 is a schematic sketch of the turbine assembly, as it is arranged on a watercourse.

2 schematically shows a perspective view of a turbine.

3 is a perspective view of a rotor / stator assembly.

4 is a schematic representation of a rotor / stator assembly in plan view.

5 is the schematic cross section of a hollow shaft with stators, and connected electronics.

6 shows in section a cover which protects the assembly against ingress of water.

7 is the sketch of a fastening device for a non-rotating holder of a shaft.

8th is a schematic cross section through a watercourse, in which a device according to the invention is mounted between the shore sides.

Description of the embodiment

1 shows schematically a device for generating electrical energy from hydropower, which generally with 10 is designated. The device is on a watercourse 12 appropriate. Through a weir 14 is the watercourse in an upper reaches 16 and an underflow 18 divided. Falling from the weir water 20 meets shovels 22 the device 10 which thereby rotate around an axis 24 is offset.

The shovels 22 the device 10 are in 2 shown. The shovels 22 are on a pipe 26 attached. The shovels 22 and the pipe 26 form a turbine 28 , The turbine 28 is made of stainless steel. Preferably, the blades are 22 curved. The shovels 22 are against the axis 24 of the pipe 26 inclined. This reduces the sounds that the water 20 when leaving the blades 22 generated.

In the pipe 26 is a rotor 30 intended. This one is in 3 and 4 shown. The outer diameter of the rotor 30 is slightly smaller than the inner diameter of the tube 26 the turbine 28 , so that the rotor 30 in the turbine 28 can be attached. The rotor 30 comprises a tubular support 32 made of a magnetically conductive steel. The tubular support 32 is along its longitudinal axis 24 divisible into two parts 34 . 36 , The two parts 34 . 36 of the tubular support 30 are screwed. These are on an inner side of the one part of the tubular support 34 projections 38 . 40 intended. Through the wall of the other part of the tubular support 36 go holes 42 which are aligned with corresponding holes in the projections. Through these holes 42 Bolts are set, which are the two parts 34 . 36 connect with each other.

On the inner wall of the tubular support 32 of the rotor 30 are segments 120 from three soft iron cores 43 each provided by a copper coil 45 are surrounded. The soft iron cores 43 are arranged coaxially and are at a 120 ° angle to each other. In one embodiment, not shown, a larger number of soft iron cores is provided with copper coils, whereby the angle between them reduced accordingly.

The copper coil 45 is designed as a short-circuit coil. This creates a squirrel cage arrangement. At the end faces of the tubular support 32 are covers on each side 46 intended. The cover 46 is in 6 shown. The covers 46 be on the front sides of the tubular support 32 attached. The covers 46 contain bearing seats 48 , In the bearing seats 48 be ball bearings 50 used. The ball bearings 50 consist of an outer ring 52 and an inner ring 54 , The outer ring 52 of the ball bearing 50 sits in the camp seat 48 the cover 46 ,

With the help of ball bearings 50 becomes the rotor 30 concentric and rotatable on a shaft 56 appropriate. The ball bearing 50 is through a shaft seal 108 between wave 56 and cover 46 protected against ingress of water. In an alternative embodiment, not shown, the seal against water is implemented by a labyrinth.

The inner ring 54 of the ball bearing 50 sits on a bearing seat 57 the wave 56 , 5 schematically shows the shaft 56 with a stator 104 on average. The wave 56 is designed as a hollow shaft. At the wave 56 is the stator 104 provided as in 4 shown. The stator 104 is along the axis 24 the wave 56 in segments 122 divided. This is in 5 shown. Every segment 122 includes a pole pair 116 , The pole pair 116 comes from three copper coils 64 with soft iron core 62 formed, which at 120 ° angle radially projecting around the shaft 56 are arranged in 4 shown. In a non-illustrated embodiment, a larger number of pole pairs is provided, this results in the same number of revolutions an alternating voltage higher frequency.

The copper coils 45 a segment 120 of the rotor 30 and the copper coils 64 a segment 122 of the stator 104 are coaxially arranged in a plane. From the copper coil 64 go cable 66 from which through the hollow shaft 56 be led to the outside. Along the axis 24 are on the rotor 30 and at the stator 104 four segments each 120 . 122 intended. This is in 5 shown. For clarity, the copper coil 64 around the soft iron core 62 only on one of the segments 122 of the stator 104 indicated. The ends of the hollow shaft 56 are with a watertight cable gland 68 Mistake. The hollow shaft 56 is at each end with a fastening device 70 connected. The hollow shaft 56 is by feather keys 72 secured against twisting at the ends.

The fastening device 70 includes two half shells 76 . 78 , This is in 7 shown. In the upper half shell 76 is a groove 80 for receiving the feather key 72 intended. The two half shells 76 . 78 are bolted together. In an alternative embodiment, not shown, the mounted ends of the hollow shaft are formed as a polygon, here a hexagon.

The half-shells 76 . 78 are formed as negative to the profile of the shaft end.

The fastening device 70 is part of a frame 82 which is attached to a shore. The frame 82 is in 8th shown.

For fixing the device 10 downstream of the weir 14 above the water surface are fasteners 89 intended. The fasteners 89 include the easel 82 and metal rails 84 , For fixing the frame 82 are on both sides 110 . 112 of the bank metal rails 84 intended. The fasteners 89 also provide funds 126 for adjusting the distance between the axis 24 the turbine 28 and the weir 14 This is ever one of the metal rails 84 on each side 110 . 112 fixed on the shore. In the metal rail 84 threaded holes are provided. On the frame 82 are plate-shaped arms 90 provided on the metal rails 84 rest. In the plate-shaped arms 90 long slots are provided. The oblong holes lie above the corresponding threaded holes. The adjustable mounting allows the position of the turbine 28 opposite the weir 14 to adjust. The location of the axis 24 the turbine 28 relative to the water surface is also adjustable. This is the frame 82 adjusted in height.

The frame 82 spans the stretch from a shore 110 to the other shore 112 , It has a U-shaped profile. The U-profile consists of a bottom to which the turbine is attached and two side panels 85 , Each of the side panels consists of two parts 86 . 88 , which are bolted together via a slot connection. This allows you to adjust the length of the pages. At one of the two parts 86 one side is the plate-shaped cantilever 90 provided on the rails 84 rests, which are attached to the shore.

By the rotational movement of the rotor 30 opposite the stator 104 will be in every pole pair 116 of the stator induces a voltage. The induced electrical voltage is applied to the cables 66 tapped and by means of a frequency converter 96 adapted to the frequency of the power grid. The electrical energy generated is with a sensor 98 detected. They are means 100 for controlling and regulating the sensor 98 provided measured values, which compare the generated electrical energy with an expected value and in case of deviations a signal at a signal generator 102 give. This is in 5 shown.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 102007003618 A1 [0002]

Claims (18)

Apparatus for generating electrical energy from hydropower, comprising: (a) an environmentally safe wave ( 56 ), (b) a turbine rotatable about the longitudinal axis of the shaft and mounted on the shaft ( 28 ) with turbine blades ( 22 ), and (c) an external generator formed by an electric generator provided in the turbine ( 30 ) formed with one on the shaft ( 56 ) provided stator ( 104 ), characterized in that (d) fixing means ( 89 ) for fastening the device downstream of a weir ( 14 ) are provided above a water surface of a lower level of the weir such that the turbine ( 28 ) by the weir ( 14 ) falling water ( 20 ), (e) the turbine ( 28 ) is designed as a paddle wheel turbine, and (f) the turbine blades ( 22 ), the rotor ( 30 ) and the stator ( 104 ) in the direction of the longitudinal axis ( 24 ) the wave ( 56 ) extend along the majority of the device. Apparatus according to claim 1, characterized in that the device is modularly composed, wherein the modules of shaft ( 56 ), Generator and turbine ( 28 ) are connectable along the longitudinal axis. Device according to claim 1 or 2, characterized in that rotor ( 30 ) and stator ( 104 ) along the axis ( 24 ) are segmented. (Segmentation also within the module) Device according to one of the preceding claims, characterized in that rotor ( 30 ) and stator ( 104 ) are formed multipolar. Device according to one of the preceding claims, characterized in that the rotor ( 30 ) is designed as a squirrel cage rotor. Device according to one of the preceding claims, characterized in that a frequency judge ( 96 ) is provided for adjusting the frequency of the generated power to the frequency of a power grid. Device according to one of the preceding claims, characterized in that the rotor ( 30 ) or the rotor segments ( 120 ) a tubular support ( 32 ) of magnetically conductive material. Device according to one of the preceding claims, characterized by a sensor ( 98 ) for detecting the generated electric energy. Device according to claim 8, characterized by means ( 100 ) for the control and regulation of the sensor ( 98 ) measured values. Device according to one of the preceding claims, characterized by means ( 126 ) for adjusting the distance between the axis ( 24 ) of the turbine ( 28 ) and the weir ( 14 ). Device according to one of the preceding claims, characterized in that the axis ( 24 ) The device is arranged on the weir side to the water jet. Device according to one of the preceding claims, characterized in that the shaft ( 56 ) as a hollow shaft with sealed cable glands ( 68 ) is trained. Device according to one of the preceding claims, characterized in that the fastening means ( 89 ) a frame ( 82 ) for lateral attachment to the shore. Device according to one of the preceding claims, characterized by means for the non-rotating holder of the shaft ( 56 ). Device according to one of the preceding claims, characterized in that the turbine ( 28 ) made of stainless material, in particular stainless steel. Device according to one of the preceding claims, characterized in that the turbine ( 28 ) a pipe ( 26 ) with blades projecting substantially in the radial direction ( 22 ). Device according to one of the preceding claims, characterized in that the blades ( 22 ) along the major part of the length of the tube ( 26 ). Device according to one of the preceding claims, characterized in that the blades ( 22 ) opposite the turbine axis ( 24 ) are inclined.