DE20306866U1

DE20306866U1 - Rotary swing piston motor, using an oxyhydrogen fuel mixture, has a center pressure zone at the rotor and structured piston shapes to seal their swing chambers on a maximum possible swing angle

Info

Publication number: DE20306866U1
Application number: DE20306866U
Authority: DE
Original assignee: BERNAU KLAUS JUERGEN
Current assignee: BERNAU KLAUS JUERGEN
Priority date: 2003-04-28
Filing date: 2003-04-28
Publication date: 2003-07-31
Anticipated expiration: 2013-04-29

Abstract

The rotary swing piston motor has a cooled housing (1) with a rotor (3) rotating within an inner drilling (2). The hollowed zone within the housing has structured contour shapes (5) to form at least three chambers (4) between the rotor and the housing. A pressure zone (13) is at the center of the rotor, linked to a compressed exhaust gas supply through an axial shaft drilling (14), and radial channels (15) lie between the center pressure zone and the swing piston chambers (12). The shape of the swing pistons is structured so that, on a maximum possible swing-out angle (alpha ), they seal the swing piston chambers.

Description

Der Beschreibungstext wurde nicht elektronisch erfaßt The description text was not recorded electronically

Der Beschreibungstext wurde nicht elektronisch erfaßtThe description text was not recorded electronically

Claims

1. Rotary swivel piston motor, consisting of a coolable housing ( 1 ) in which a rotor ( 3 ) is rotatably arranged in an inner bore ( 2 ) and the inner bore ( 2 ) of the housing ( 1 ) has formations ( 5 ) which are between the rotor ( 3 ) and the housing ( 1 ) form at least three chambers ( 4 ), on the circumference of the rotor ( 3 ) at least five pivoting pistons ( 6 ) are pivotably arranged, which divide the at least three chambers ( 4 ) into five working chambers, the size of which with one revolution of the rotor ( 3 ) in accordance with successive work cycles can be changed, the swivel pistons ( 6 ) in swivel piston chambers ( 12 ) of the rotor ( 3 ) can be swiveled in, each chamber ( 4 ) with a nozzle set ( 7 ) for insertion Process gases is equipped and the housing ( 1 ) has cooling chambers ( 26 ), outlet bores ( 8 ) and an outlet channel ( 9 ), characterized in that a pressure chamber ( 13 ) is arranged in the center of the rotor ( 3 ) et, which is connected via an axial shaft bore ( 14 ) to a compressed gas reservoir and radial channels ( 15 ) are arranged between the central pressure chamber ( 13 ) and the pivoting piston chambers ( 12 ), the pivoting pistons ( 6 ) having a shape that the swivel piston chambers ( 12 ) are sealed even at a maximum possible swivel angle α.

2. Rotary swing piston engine according to claim 5, characterized in that the Compressed gas is the exhaust gas.

3. Rotary swiveling piston engine according to claim 5, characterized in that the swiveling pistons ( 6 ) have the shape of cylinder cutouts with a centi angle β, egg ner arc surface ( 16 ), and two radius surfaces ( 18 , 23 ), the swiveling piston ( 6 ) with the tips ( 17 ) their central angles β are mounted on the circumference of the rotor ( 3 ) and the arc surfaces ( 16 ) of the cylinder cutouts are dimensioned such that at each swivel angle α the swivel piston chambers ( 12 ) over the radius surfaces ( 18 ) immersed in the rotor ( 3 ) are sealed.

4. Rotary swiveling piston motor according to claim 7, characterized in that the central angular tips ( 17 ) of the swiveling pistons ( 6 ) are cut off and spherically curved inwards and are supported on swiveling radii ( 19 ) on the circumference of the rotor ( 3 ) such that the swiveling pistons ( 6 ) can be swiveled completely into the swivel piston chambers ( 12 ) and form a common surface with the rotor ( 3 ) when swiveled in.

5. Rotary swiveling piston motor according to claim 5, characterized in that the formations ( 5 ) of the housing inner bore ( 2 ) are axially aligned with the rotor ( 3 ), are cylindrically curved indentations and bulges with continuous transitions and the highest elevations ( 28 ) between two formations ( 5 ) touch the rotor ( 3 ) sealed.

6. Rotary swivel piston motor according to claim 5, 7 and 8, characterized in that the swivel piston ( 6 ) via sealing strips ( 20 ) relative to the swivel piston chambers ( 12 ) and the side walls formed by the formations ( 5 ) of the housing internal bore ( 2 ) Chambers ( 4 ) are sealed.

7. Rotary swivel piston engine according to claim 10, characterized in that the sealing strips ( 20 ) are egg-shaped in cross-section and are fitted with their thicker ends in corresponding grooves ( 21 ) on the swivel piston ( 6 ).

8. Rotary pivoting piston engine according to claim 10 and 11, characterized in that the grooves ( 21 ) for the sealing strips ( 20 ) from their rear side via channels ( 22 ) with the pivoting piston chambers ( 12 ) and / or the working chambers ( 4 ) in connec tion stand and are pressed against the surfaces to be sealed via the exhaust gas pressure and / or process gas pressure.

9. Rotary pivoting piston engine according to claim 5, 9, 11 and 12, characterized in that the highest elevations ( 28 ) of the housing inner bore ( 2 ), which touch the rotor ( 3 ), by sealing strips ( 29 ) with sealing strip channels ( 30 ), analogously to the sealing strips ( 20 ) of the swivel piston ( 6 ) are sealed.

10. Rotary swivel piston engine according to claim 5, 7 and 8, characterized in that the swivel pistons ( 6 ) on their curved surfaces ( 16 ) and on the radius surfaces ( 18 ) which seal the swivel piston chambers ( 12 ), have arches ( 24 , 25 ) Zen.

11. Rotary swivel piston engine according to claim 1, characterized in that in the housing ( 1 ) concentrically to the rotor ( 3 ) cooling chambers ( 26 ) are arranged, through which the rotary swivel piston engine can be cooled by at least one process gas component.

12. Rotary swivel piston engine according to claim 1, 2 and 11, characterized in that the cooling chambers ( 26 ) to the drain channel ( 9 ) in the housing ( 1 ) are arranged in parallel.