DE212009000072U1 - rotary engine - Google Patents

Abstract

Rotary motor with a body (1), which has inside two cylindrical rotors (4, 5),
characterized,
in that the body (1) is provided with two cylindrical bores (2, 3) with parallel axes,
that in the bores (2, 3) loosely two cylindrical rotors (4, 5) are installed, which contact with their outer surfaces with the inner surfaces of the corresponding bore (2, 3),
that each rotor (4, 5) has projections (6, 8) and cavities (7, 11) which ensure a free synchronous passage of the rotors (4, 5) and
in that a close contact of the rotors (4, 5) with their outer surfaces for the formation of a motor working chamber (10) is obtained.

Description

The invention relates to a rotary engine according to the preamble of claim 1. The invention is in the field of power engineering and transport engineering, including engines with internal and external fuel combustion, as well as motors that use everything as a working body, which is a spatial extension and ensures a pressure on the rotor in any process, can be used.

Recirculating motors are known, which have a body with a cylindrical bore and are provided therein with rotating rotors concentrically or eccentrically with respect to the inner cylindrical body bore with movable dividers in the body or in the rotor for working chamber formation (see the patents: US 5479887 A ; US 6935300 B2 ; RU 2251007 C2 ).

Rotor pumps of various modifications are also known. The invention comes closest to a recirculating motor having a body with a sleeve and cooling chambers pressed therein, a separating slide, elements of a working body feed and discharge of the used working body and a cylindrical rotor. In the fold of a sprung insert is installed, which forms a working chamber with a separating slide (see the patent RU 2229610 .).

One shortcoming of these known motors is the presence of movable elements such as a slide for forming the working chamber and devices actuating the elements. Outflow of the working body, limitation of the number of revolutions per minute and lowering of the efficiency of the engine are dependent on it.

It is an object of the invention to simplify the construction of the mechanism of the working chamber formation of the engine in the efficiency of its work due to the omission of the movable slide, which form a working chamber of the engine, and the devices that operate them, as well as in the Noise reduction of his operation.

The stated object is solved by the features of claim 1.

This is achieved in that the rotary motor has a body within which two cylindrical rotors are installed, that the body has two cylindrical bores with parallel axes in which two cylindrical rotors of a circumference are loosely installed, that the rotors with an inner surface of a contact respective body bore so that each rotor has projections and cavities which ensure free synchronous passage of the projections of the other rotor and that tight contact of the rotors with their external circuits ensures formation of the working chamber of the motor.

In addition, the projections may be replaced with rolling elements. The engine may be provided with a closure control element pick-up serving for the direction of the exhaust gases and for supply to the working chamber at engine start-up and slow-down.

The invention will be explained in more detail with reference to an embodiment shown in the drawings. Show it:

1 shows the cross section of a sector of the rotary engine at the time of combustion chamber formation,

2 the cross section of a sector of the circulating motor in the external energy supply, which ensures the pressure on the rotor,

3 the cross section of a sector of the rotary engine, which works on the back energy of the exhaust gases and

4 a variant of the synchronous operation of the rotors.

The body 1 has two cylindrical holes 2 and 3 with parallel axes. In the borings 2 and 3 are concentric two cylindrical rotors 4 and 5 unterge-brought, but have a smaller diameter. The rotors 4 and 5 touch the outer cylindrical surfaces during work.

The rotor 4 has a lead 6 that when turning with its outer surface on the inner surface of the boring 2 slides. With synchronous rotation of the rotors this projection penetrates 5 in the hollow 8th of the rotor 5 one. The rotor 5 has a lead 9 when synchronizing the rotors 4 and 5 in the hollow 7 of the rotor 4 penetrates. The working body is in the combustion chamber 10 through the channel 11 in the ceilings of the sectors or the partitions of the adjoining sectors at the time of the union of the projection 6 with the excavation 8th of the rotor 5 introduced. The channel 11 can have different configurations with regulators that ensure the supply of the working body in certain proportions for a given rule. Optionally, an ignition element for the working body is arranged in the body to the combustion chamber, which is present in the rotary engine with an internal combustion of the fuel.

The sectors of the rotary engine can perform the functions of fuel, grease, water or air pumps, which ensure the supply of the working body, the lubrication and the engine cooling ( 2 ).

The exhaust outlet is through the opening 12 gradually through additional channels 13 with variants of the regulation and the direction in known ways of an exhaust part in the transducer 14 , It serves in the presence of certain components and facilities as a damper and exhaust filter and ensures their cooling ( 3 ). In the case of an excess of energy, an exhaust gas part is produced by means of a control device 15 various modifications through a channel 16 under pressure in the transducer 14 guided. At engine start-up and its slow speed (idle), the used work body is removed from the pickup 14 over a canal 17 by a shutter control device 18 various constructions in the working chamber 10 discharged at the time of their formation to the beginning of the exhaust outlet. In a multi-part circulating motor, a part of the sectors of the offered construction fulfills the role of the motor and part of the role of the pumps of different function and alternate with each other.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• US 5479887 A [0002]
• US 6935300 B2 [0002]
• RU 2251007 C2 [0002]
• RU 2229610 [0003]

Claims (3)

Orbital motor with a body ( 1 ), which within two cylindrical rotors ( 4 . 5 ), characterized in that the body ( 1 ) with two cylindrical bores ( 2 . 3 ) is provided with parallel axes that in the bores ( 2 . 3 ) loose two cylindrical rotors ( 4 . 5 ) are fitted with their outer surfaces with the inner surfaces of the corresponding boring ( 2 . 3 ) contact each rotor ( 4 . 5 ) Projections ( 6 . 8th ) and excavations ( 7 . 11 ) having a free synchronous passage of the rotors ( 4 . 5 ) and ensure that a close contact of the rotors ( 4 . 5 ) with their outer surfaces for the formation of a motor working chamber ( 10 ) is received. Circulation motor according to claim 1, characterized in that the projections ( 6 . 8th ) are formed with rolling elements. Circulating motor according to claim 1 and 2, characterized in that it is provided with a transducer ( 14 ) with closure control elements ( 18 ) for the direction of the exhaust gases and their supply to the working chamber ( 10 ) is provided at engine start and its slow speed.

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