DE2446980A1 - Water wheel for electric power generation - has impeller in longitudinal sections suspended to float in stream - Google Patents

Abstract

The impeller is assembled from sections (a) in the shape of a double sided cone separated by sections (b) in the shape of circular cylinders. Radial blades (Sch) are attached to the cylindrical sections and one of the cones carries an outer ring of gear teeth (Z) on its centre. At its ends the assembled impeller has projecting journals (P) which are held in bearings in a tilting frame. The frame carries a pinion wheel meshing with the gears (Z) on the impeller and an electrical generator coupled to the pinion. The frame tilts so that the impeller is kept floating in the water to just under its centre line and moves up and down as the water level varies.

Description

Title: Swimming water wheel as a power plant for generating electricity Description : Despite a number of patents and pending registrations, pertaining to the use of the current of flowing water, such systems are unknown andl-nowhere to be found or enjoy neither reputation nor trust as an electricity producer.

Generally known, however, because in multiple and proven designs, are large-scale systems where hydrostatic power is accumulated in various ways converted into rotary force as drop pressure by means of various turbine systems and is used to generate electricity. The water used in this way then continues to flow, either until the next. Traffic jam or further and further - away into the sea.

It is amazing that humanity in its otherwise rational thinking the "flow of water" not on every possible meter in a more modest, but uses it sensibly.

The present invention is intended to do this in the manner of the well-known water wheels can be achieved in that without hydraulic engineering intervention on flowing water a floating water wheel is placed. Must be anchored on the bank or on the ground the floating waterwheel will turn if it is axially suspended. This turning movement is a torque corresponding to the flow force and the blade area, its use in the sense of the invention with the following construction should be effected made of plastic, wood or sheet metal buoys of two different shapes and indeed large disc-shaped ones (a) and tubular cylindrical (b). These are axially longer according to the purpose Sequence a-b b-a joined together to form a buoy combination. This creates twisted rolls Departments equipped with blades (Sch) in the manner of the well-known water wheels which can also be staggered in sections, thus creating the shape of the swimming waterwheel is fixed (Fig. 1) A machine shaft in the conventional sense is unnecessary because the So formed swimming waterwheel results in a rigid, self-supporting cell and thus represents a wave itself in terms of shape and stability.

The two outer (a) buoys are used for axial stabilization special Suspension points used like cells, here called pole bearings (P). Take this an arbitrarily designed, with pole-bearing insert parts (P) provided, traverse, who also carries the pinion (R), gear (G) and dynamo (D) 71 and about the Pole bearing (P) also has forward and downward-facing floor stands (Bo), which Extend a useful piece beyond the radial circle (Fig. 2) Traverse centrally located mounting points for a holding fork (Ga) into which a large (a) -Uoje, which rotates like a wheel, is agitated, here called spur buoy (Fig. 3) This spur buoy and the traverse form the balance part of the swimming waterwheel and at the same time has the secondary function of a traverse with the floor stands (Bo) Tripod, if a tuning option for the swimming waterwheel at low tide is not given, but nevertheless the tips of the (a) buoys and thus also the scoop] n (Sch) can still walk in the water. The swimming waterwheel can be effective until the last Flow force work. In the case of drought, it hangs due to its presence The three-legged swimming waterwheel can move freely and when the water flow is restored it will function fully floating again.

Now the watering or swimming in can be done on the designated berth and anchoring done. With the watering up, the acting current sets in the rotation of the swimming waterwheel. The resulting torque is by means of a radial circle at any point on the periphery of the blade Gear rim (Z) from the pinion (R) of an automatic speed modulating Transmission (G) removed and transferred to the dynamo shaft to generate electricity.

The plant is depending on the possibility from the bank or from both banks off, on bridges or held by ground anchors, but otherwise works as a free-floating, self-regulating system for every occurring water level. A serious stress condition in a flood disaster is occurring Flotsam, which in extreme cases can be large ice floes or very bizarre, uprooted ones Trees can be. But the system can also cope with such flotsam, because it is bike, balanced and therefore rolls over it; also a deadlock of Branches or bulky goods prevent the running in their parts, respectively. slipping off held construction. The rest takes care of their own weight.

Claims (1)

Claims Floating Wasoerrad as a power plant to generate electricity Made of plastic, wood or sheet metal, to make use of the flow force more fluid Waters by laying on the water surface and anchoring on the bank or bottom, without further hydraulic structures floating freely or sitting on the ground working at any water level, characterized in that the power plant is off consists of three main parts, namely 1.1) the Schwinm water wheel, which consists of individual buoys, namely large disc-shaped (a) and tubular cylindrical (b) in any one long building combination a-b ..... b-a is combined and the resulting departments be equipped with shovels (Sch), which can be staggered in sections, whereby a rigid, wazen-shaped Schaalfelrad as a self-supporting, floatable Cell is created; ehts the one with radial gear rim (Z) for torque output, as well as with pole bearings (P) for axial suspension is provided (Fig.1) 1.2) the spur buoy of type (a), which with pole bearings (P) hangs in a retaining fork (Ga), which is attached to the traverse with a bracket is provided (Fig.3) 1.3) of the traverse, which is equipped with pole bearing insert parts (P) of the Axial stabilization of the swimming water wheel service and with extensions Provided beyond its radial circle as a floor stand (Bo) for low water is, as well as centrally located assembly points to accommodate the retaining fork (Ga) with spur buoy has, as well as a platform for installing the power take-off units pinion (R), automatic gearbox (G) and dynamo (D) carries (Fig.2) 2) swimming waterwheel as Power plant for generating electricity according to 1), characterized in that for the axial Stabilization of the swimming water wheel, the traverse and the swimming water wheel take place is constructed with pole bearings (P), with radial bearings (RL), the periphery around two (a) buoys or otherwise run and cam-like floor stands on the lower pitch circle (Bo) have (Fig.2) 3) swimming waterwheel as a power plant for generating electricity 1), characterized in that for the axial stabilization of the swimming waterwheel the traverse and the swimming wasrwheel have the storage combination of 1) and 2) (Fig. 2) 4) Swimming water wheel as a power plant for Stromers.elagunf according to 1) - 3), characterized in that the power transmission takes place by radial gear rim (Z) and pinion (R), using a radial grinding ring and grinding wheel. 5) Swimming water wheel as a power plant for generating electricity according to 1) - 3), characterized in that the power transmission takes place through a radial ring gear (Z) and pinion (R), by means of a radial running ring and impeller. 6) Swimming water wheel as a power plant for generating electricity according to 1) - 5), characterized in that the system, equipped with or without a spur buoy, but connected by traverses, several swimming water wheels arranged one behind the other has and thus represents a swimming-waterwheel combination. Identified publications: German Patent 814 879 / 88b-4 882 o80 / 88b-4 "803 768/88 b-4" I1 811 579 / 88a-10 801 o25 / 88a-1o Auslegeschrift 1 o18 ooo / 88b-4 Offenlegungsschrift 1 503 349 / 88b-4