DE202006008055U1 - Hydroelectric power generating plant, guides blades so that their surfaces are perpendicular to flow direction when moving in flow direction and parallel to flow direction when moving against flow direction - Google Patents

Abstract

The hydroelectric power generator is placed in flowing water and comprises a number of blades (1) which move along a closed path when subjected to pressure by a flowing pressure medium. A guide (2,2a,2b) is provided to guide the blades so that the blade surfaces (1a) of the blades moving in the flow direction are perpendicular to the flow direction, and the blade surfaces of the blades moving against the flow direction are parallel to the flow direction.

Description

The The invention relates to a hydropower plant according to the preamble of Claim 1.

Corresponding hydropower plants for flowing waters, such as those from DE 296 10 286 U1 are known, generally have a plurality of successively spaced arranged Stauflügel. Due to the water pressure of a flowing body of water, the mooring wings are moved during operation of the plant in the flow direction. The Stauflügel be guided circumferentially on chains or the like and drive by their movement to a drive shaft or the like, whose rotation is used for example for the generation of electric power.

The Ram-wing run in such a circulation operation in the flow direction of the watercourse and have to subsequently against the flow direction be returned to a starting position. Due to the flowing through the waters caused resistance, the Stauflügel be lifted out of the water and are returned by the air above the water level. This leads to, that constructions above the waterline are required, which in particular ago the background of the impairment of the landscape, especially with larger-sized plants Disadvantages.

task The present invention is therefore a hydropower plant indicate that does not have this disadvantage.

Is solved this object with the features of claim 1. According to the invention, this is provided that the from the pouring waters in the flow direction driven wing elements with their wings in flow direction guided perpendicular to this become and the wing elements in the return by the waters against the flow direction and with their wings parallel to the flow direction guided become. In this case, a guide is preferably provided which folds the wing elements in the area of the turning points of the wing elements in the operation of the Plant described path.

The Invention will be described below with reference to a preferred embodiment explained in more detail.

1 FIG. 3 shows a perspective view of a hydropower plant according to the invention, FIG.

2 - Shows a longitudinal sectional view through the hydropower plant 1 .

3 - Shows a cross-sectional view through the hydropower plant 1 ,

The hydropower plant according to the invention has a plurality of wing elements designed as stowing wings 1 with a wing area 1a on. The wing elements 1 Be guided by guides 2 . 2a . 2 B guided circumferentially, in the example shown on suspensions ( 1b - 1f ) on a circulating guided chain or a toothed belt 3 are attached. The angle of the wing surfaces 1a is relative to the chain or the timing belt 3 variable. The guides 2 . 2a . 2 B are preferably provided in side walls W of the hydropower plant. In the example shown, the drive of the chain takes place 3 in the direction of the arrow, so the flow of water flowing through the system takes place in the drawing from the left front to the right rear.

In order to obtain the most effective utilization of hydropower, the plant (cf. 2 ) arranged so that, on the one hand, the gap 5 between bottom surface B and the wing elements 1 as low as possible. On the other hand, the water level L of the watercourse should not be too far away from the wing elements 1 have, so that the inflowing in the direction of the arrow in the system water as completely as possible to drive the wing elements 1 is used and as little as possible to flow past the water system.

The general operating principle of the invention is based on the two sectional views of 2 and 3 explained in more detail.

A flowing into the system flow caused by the water pressure against the wing surfaces 1 the entrainment of the wing elements 1 and thus their drive in the flow direction.

The wing elements 1 are forked suspensions 1b . 1c on the one hand with the chain 3 connected, on the other hand in the guides 2 respectively. 2a . 2 B guided. The suspension of the wing elements 1 in the chain 3 is held so that the wing surfaces 1a opposite the chain 3 can take different angular positions. The chain 3 is about wheels (or discs, gears or the like) 4 led the reversal areas of the chain 3 represent. The suspensions point, as in 3 shown, preferably two parallel pins 1b . 1c on, one approximately perpendicular to the respective wing surface 1a spanning or forming a standing plane. The pencils 1b . 1c are via a cross connector 1e connected, which in turn with one through the chain 3 (Chain link 3a ) or the timing belt guided bolt 1f connected is. The bolt 1f is eg via a fitting 1d firmly with the wing area 1a connected.

The guide in which the suspension is guided consists essentially of two sections: a first section or a first guide 2 , which is arranged at the top in the drawing, and two second sections or second guides 2a . 2 B which is near the reversal areas of the chain 3 approximately in the area of the vertex to the first guide 2 connect. The first guide 2 So divides into the two second guides 2a . 2 B on, or the two second guides 2a . 2 B lead to the first leadership 2 , Both the first and the two second guides 2a . 2 B have in the reverse region curved portions, which are each converted into horizontal sections.

During operation of the system, as mentioned, the wing elements 1 driven in the flow direction and run in the first guide 2 continue to the right turnaround area. The parallel pins 1b . 1c the suspension run together in the guide 2 until the lead 2 in the reverse area in the two guides 2a . 2 B divides. Due to the rigid connection of the suspension with the wing surface 1a becomes the wing element 1 upon reaching the curved portion of the guide 2 pivoted so that angling of the wing surface 1a takes place to the flow direction. Get the corresponding wing element 1 to the place where the leadership 2 in the guides 2a . 2 B goes over, runs each of the pins 1b . 1c the suspension in each case one of the second guides 2a . 2 B further. This ensures that the respective wing surface 1a does not set up again after bending in the reverse area, but remains at the vertex in a horizontal position, so that the wing surface 1a is approximately parallel to the flow direction and can be returned to the flow direction with minimal resistance. So traced back, the wing area in the left turn area in 2 by merging the two guides 2a . 2 B Raised, with the pins 1b . 1c the suspension at this point again together in the lead 2 to be moved.

The described process is repeated for each wing element, as long as there is a water flow. The wheels provided in the turning areas 4 are preferred with a wave 6 coupled, which if necessary via a transmission 6a is connected to a generator unit or the like. Obstacles such as drive shafts in the area of the water flow can be avoided by the system according to the invention.

Claims (7)

Hydropower plant for placement in flowing waters with a plurality of wing elements ( 1 ) which are movably guided along a closed path by pressurization with a flowing pressure medium and whose movement is used for conversion into electrical energy, characterized in that a guide ( 2 . 2a . 2 B ) for the wing elements ( 1 ) is provided, which is designed so that the moving in the flow direction wing elements ( 1 ) with their wing surfaces ( 1a ) are employed substantially perpendicular to the flow direction and that the wing elements moving against the flow direction ( 1 ) with their wing surfaces ( 1a ) are oriented substantially parallel to the flow direction. Hydroelectric power plant according to claim 1, characterized in that the wing elements ( 1 ) between two chains or toothed belts ( 3 ) at predetermined distances from one another relative to the chains or toothed belts ( 3 ) are rotatably arranged. Hydroelectric power plant according to claim 2, characterized in that each chain or toothed belt ( 3 ) over two spaced gears ( 4 ) to be led. Hydroelectric power plant according to claim 3, characterized in that at least one toothed wheel ( 4 ) is coupled to a generator. Hydroelectric power plant according to one of the preceding claims, characterized in that the wing elements ( 1 ) at the end faces to each other and to the wing elements ( 1 ) in fixed position guide elements ( 1b . 1c ), which in guides ( 2 . 2a . 2 B ) are guided. Hydroelectric power plant according to claim 5, characterized in that the guides ( 2 . 2a . 2 B ) at least a first section ( 2 ) and at least two second sections ( 2a . 2 B ), wherein the first section ( 2 ) at a first predetermined location in the second sections ( 2a . 2 B ) and the second sections ( 2a . 2 B ) at a second predetermined location back to the first section ( 2 ) are brought together. Hydroelectric power plant according to claim 6, characterized in that the guide elements ( 1b . 1c ) when going through the first section ( 2 ) of the leadership together in this first section ( 2 ) and when passing through the second sections ( 2a . 2 B ) one guide element each ( 1b ) respectively. ( 1c ) in each of the second sections ( 2 B ) respectively. ( 2a ) to be led.