DE102006041505A1 - Energy generating arrangement for tornado turbine, has identical turbines shifted around specified degrees such that rotation blade shaft and central drive shaft are extended on both sides based on transmissions for coupling of turbines - Google Patents

Abstract

The arrangement has a rotation blade rotatably arranged in a housing (1) and attached to a rotation blade shaft (10), and an action space provided with an injection nozzle for combustible gas, where the nozzle is adjusted in an operating chamber of the action space. Two identical turbines arranged in the housing are shifted around 180 degrees in such a manner that the shaft and a central drive shaft (2) are extended on both sides based on common transmissions (14, 15) arranged in the housing for coupling of the turbines.

Description

The invention relates to a turbine for generating energy at an output shaft (wave energy) according to the tornado principle according to the main patent DE 10 2005 056 182.9 , in particular for use as a motor.

[State of the art]

turbines in which artificial Air vortexes that resemble hurricanes are generated as tornado turbines designated.

Known Tornadoturbinen build exclusively on the Tornado principle ( Joseph T. Hamrick, Mechanical Engineering 4/03/03, "From Gas Turbines to Tornadoes" and WO 1997/045630 ) on. They are complex in production, relatively large and therefore not suitable for the construction of profitable vehicle drives (high power weight ratio with low fuel consumption).

With the main patent DE 10 2005 056 182.9 For example, a method and arrangement for generating wave energy (ie, energy at an output shaft) according to the tornado principle has been provided.

A Variety of rotary sheets rotate in a rotation housing between one another coupled inner and an outer rotating housing part stationary in a certain gear ratio and opposite to the direction of rotation of the rotary housing. In one between the inner and outer rotating housing parts formed action space thus rotate a variety of working chambers. Due to the geometry of the rotary blades, the profile of the inner and the outer rotary housing part be together with opposite to the direction of rotation of the rotary housing parts aligned outer and inner spiral openings Air turbulence generated by combustion expansion in the working chambers generate a rotational movement and additionally by exploiting a Rebound in the area the outer spiral opening to be reinforced.

adversely At this construction is that, although all components are completely round rotate, due to the profile of the inner and the outer rotating housing part an imbalance arises, which is a quiet running feature of the Tornadoturbine impaired.

OBJECT OF THE INVENTION

task The invention is a turbine for generating energy at a Output shaft to create the tornado principle, in the design-related Imbalances are eliminated while maintaining the effectiveness of the turbine elevated becomes.

The Task is solved with the features of the first claim. advantageous Further developments and embodiments are the subject of the dependent claims.

The Tornado turbine is a prime mover dedicated to the generation of energy on an output shaft (wave energy) next to the classic expansion (Internal combustion engine) uses the tornado principle, namely generated air vortex and exploits the hurricanes resemble.

she consists of a basic housing on the a rotation housing, an output shaft is assigned, is rotatably arranged. The Headers is done with a fixed base disk on this seals the rotary housing with an inner and an outer rotating housing part rotates.

The inner and outer rotating housing part is over a base plate cup-shaped nested in each other tightly connected. The two housing parts are aligned coaxially with each other, with both the inner and also the outer rotating housing part one opposite to their direction of rotation has a spiral opening.

By this arrangement is between the inner and the outer rotating housing part an action space formed in which a plurality of rotary blades arranged who divide the action space into a large number of working chambers.

The inner housing part has to suck in air an axial cavity in the spiral opening of the inner housing part empties. Through this axial cavity is by the rotation of the rotary housing and the temperature difference between the sucked air in the cavity and the combustion gases formed in the action space of the tornado vortex, the additional for a pre-compaction and reinforcement the rotation ensures.

The rotary blades are attached to rotary blade shafts, which are dependent rotatably mounted in the base housing are.

Either the inner and the outer rotating housing part has on the side of the action space towards a profile that through the Rotation of the rotary blades is determined so that the working chambers at each position the rotary blades are sufficiently sealed against each other.

At one point of the largest constriction of the action space has a directed into the respective working chamber injection nozzle for combustible Ga se.

The Place the biggest narrowing At the same time, it is the only place where two rotary pages are made approach, that the curvature of a rotary blade continuously merges with the curvature of the subsequent rotary blade.

The rotary blades turn fixed and over a transmission forcibly controlled between the inner and the outer rotary housing part in a certain gear ratio (z. B. 2: 1) to the rotary housing. The direction of rotation is opposite. As a result, quasi rotate a variety of working chambers within the between the inner and the outer rotary housing part formed Action space, where due to the geometry of the rotary blades, the Profile of the inner and outer rotating housing parts, together with the opposite to the direction of rotation of the rotary housing parts arranged outside and inner spiral openings Air turbulence caused by combustion expansion in the Working chambers produce a rotational movement, in addition to Exploitation of a tangential recoil in the area the outer spiral opening is reinforced.

The tangential outflowing Reinforce gases the tornado effect of the sucked gases and serve the same time Compression. By the size of the outer spiral opening is this effect controllable.

Become now according to the invention two of these built-up Tornadoturbinen interconnected, imbalances, caused by the structure and the shape of the rotary housing and the different positions of the rotary blades, be balanced.

The Headers with the arranged in this gear, which of each other coordinated movement of the rotary blade shafts and the output shaft with the rotation housing serves, becomes for shared both tornado turbines. The two turbines, the completely are constructed identically, are on both sides of the common base housing and offset by 180 ° arranged and coupled together.

The Headers owns for Each turbine has a base plate for coupling. The rotary blade shafts and the central output shaft are on both sides of the transmission through extended the two base plates for coupling the two turbines.

By This construction is in addition to the absolute concentricity of all components ensures a quiet run. The power of the turbine is doubled, the size is smaller than with two individual turbines.

[Examples]

At Hand of drawings are the structure and operation of the Invention closer explained.

It demonstrate:

1 the view of a tornado turbine in cross-section,

2 Representation of the operation of the Tornadoturbine in compression,

3 Representation of the operation of the Tornadoturbine during expansion,

4 Representation of the operation of the Tornadoturbine exhaust outlet recoil,

5 a basic housing of a tornado turbine with the shafts for the rotary housing and the rotary blades,

6 the basic housing after 5 with attached rotary blades,

7 a rotary housing with inner and outer rotating housing part,

8th a base plate for connecting the inner and outer rotary housing parts,

9 two tornado turbines coupled together,

10 two coupled Tornadoturbinen without rotation housing and

11 the representation of a rotary blade with stabilizing disc.

The structure and operation of one of the 9 coupled tornado turbines is in 1 to 8th explained.

A tornado turbine consists of two housings, a fixed base housing 1 ( 5 . 6 ) and a rotary housing 3 that consists of an inner rotating housing part 5 and an outer rotary housing part 6 consists. The rotation housing 3 is with a hollow central shaft 2 , which is the output shaft, firmly connected and in the main body 1 stored.

Between the inner 5 and the outer rotary housing part 6 is such an action space 8th ( 1 ) educated. In the action room 8th of the rotary housing 3 are arranged in a circle, preferably eight curved rotary blades 9 that on rotary blade shafts 10 are stored.

At the end of the hollow central shaft 2 of the rotary housing 3 is preferably a central gear 14 in the ratio 2: 1 (reversal of direction of rotation) with peripheral gears 15 the rotary blades 9 that at the end of the rotary blade shafts 10 are attached, engaged.

The central gear 14 forms so together with the peripheral gears 15 a gearbox. The gear 14 . 15 is opposite the action space 8th over a base disk 16 sealed by the waves 2 and 10 are guided.

The gear 14 . 15 and the base disk 16 are part of the basic housing 1 , On the base housing 1 is the rotation housing 3 to which the output shaft 2 is assigned, rotatably arranged.

All waves 2 and 10 are starting from the gearbox 14 . 15 in the base disk 16 of the stationary housing 1 ( 5 ), on which the rotor blades 9 turn, stored. The rotary blade shafts 10 are at their free ends in the base plate 4 of the rotary housing 3 stored and the output shaft 2 is with the base plate 4 of the stationary housing 1 firmly connected.

The base plate 4 ( 8th ) serves the firm connection of the inner 5 with the outer rotating housing part 6 to form the rotary housing 3 , In the place of the biggest constriction 12 owns the action space 8th a directed into the respective working chamber injection nozzle 13 or a fuel atomization pressure nozzle for combustible gases.

The inner rotating housing part 5 also has an axial bore 18 (Cavity) through which the hollow central shaft 2 is guided.

If the rotation housing 3 is set in motion, rotate the rotary blades 9 twice as fast backwards as the rotary housing 3 forward. The air passes through a spiral opening 19 and the central cavity 18 (Tornadogang) inside the rotating housing part 5 into a closing working chamber of the action space 8th promoted. Then it becomes dense following chambers ( 2 ) compacted. From there it flows into the combustion chamber ( 3 ). There she is with fuel mist from the injector 13 mixed. The ignition takes place, for example, with a burst of fire through the Tornadogang 18 , If the fuel mist is ignited in the combustion chamber, it continues to burn continuously. This is the first energy source in the closed action space 8th the tornado turbine. The residual expansion pressure is released when the working chambers ( 4 ) radially to the hollow central shaft 2 from the rotary housing 3 tangentially at high speed from an outer spiral opening 7 dismiss. The resulting recoil is the second energy source of the Tornadoturbine. Is a part of the extremely fast gases back into the compression cycle ( 2 ), creates an extreme form.

9 shows the construction of two coupled identical turbines, each turbine in the construction of the in 1 to 8th illustrated turbine resembles. Only the transmission 14 . 15 is shared by both turbines.

For better visibility of the items are the rotating housing 3 from the rotary blade shafts 10 shown deducted. The base plate 4 ( 8th ), which is the inner rotating housing part 5 with the outer rotating housing part 6 was removed and also the base disks 16 that the gearbox 14 . 15 opposite the action space 8th ( 3 ) and through which the rotary blade waves 10 and the central output shaft 2 is guided. On the necessary for the realization of Tornadoprinzips spiral openings 7 . 19 represented in 1 was to simplify the figure in 9 waived.

For better clarification of the different position of the rotary blades 9 in the two turbines twisted by 180 ° to each other, the coupling of the two turbines in 10 without the rotation housing 3 and the basic housing 1 with the base discs 16 shown.

An expedient embodiment of the rotary blades 9 shows 11 , Between the rotary blade shafts 10 and the rotary blades 9 are for holding the strong on the rotary blades 9 acting torsional forces stabilizing discs 17 that stuck with the rotary blades 9 and the rotary blade shafts 10 are connected, arranged.

These stabilizing discs 17 are in the base disk 16 embedded stored.

1

Headers

2

Hollow central shaft, output shaft

3

rotary case

4

baseplate

5

inner Rotating housing part

6

outer rotating housing part

7

outer spiral opening

8th

Aktionsraum

9

rotary blades

10

Rotary blade shafts

11

housing profile

12

narrowing

13

injection

14

Central gear

15

Planet gears

16

base disc

17

stabilizing discs

18

axial drilling

19

inner spiral opening

Claims (4)

Arrangement for generating energy on an output shaft according to the tornado principle, comprising - a basic housing ( 1 ), - one on an output shaft ( 2 ) arranged rotary housing ( 3 ), which consists of a, by a base plate ( 4 ) and coaxial with each other inner ( 5 ) and outer rotational housing part ( 6 ), whereby both the inner ( 5 ) as well as the outer rotary housing part ( 6 ) an opposite to its direction of rotation spiral opening ( 7 . 19 ), - one between the inner ( 5 ) and the outer rotary housing part ( 6 ) formed action space ( 8th ), - a plurality of rotary blades ( 9 ), which between the inner ( 5 ) and the outer ( 6 ) Rotary housing part are arranged and the action space ( 8th ) into a plurality of working chambers, wherein - the rotary blades ( 9 ) on rotary blade shafts ( 10 ), which are dependent rotatable in the base housing ( 1 ) and - the inner ( 5 ) and the outer rotary housing part ( 6 ) a profile ( 11 ) obtained by the rotation of the rotary blades ( 9 ) is determined such that the working chambers in the action room ( 8th ) are sufficiently differentiated from each other and - the action space ( 8th ) at the point of greatest narrowing ( 12 ) one into a working chamber of the action room ( 8th ) directed injection nozzle ( 13 ) for combustible gases, characterized in that on a common base housing ( 1 ) on both sides two identical turbines are arranged offset by 180 ° and coupled to each other, that starting from a in the basic housing ( 1 ) arranged common transmission ( 14 . 15 ) the Rotationsblattwel len ( 10 ) and the central output shaft ( 2 ) are extended on both sides to couple the two turbines. Arrangement according to claim 1, characterized in that the basic housing ( 1 ) for each of the two turbines a fixed base plate ( 16 ) on which seals the rotary housing ( 3 ) with the inner ( 5 ) and the outer rotating housing parts ( 6 ) rotate. Arrangement according to claim 1, characterized in that between the rotary blade shafts ( 10 ) and the rotary blades ( 9 ) Stabilizing discs ( 17 ) are arranged. Arrangement according to claim 1, characterized in that the inner rotation housing part ( 5 ) an axial bore ( 18 ), which with the inner spiral-shaped opening ( 19 ) connected is.