FR2614366A1 - Turbine using the principals of reactive dynamics - Google Patents

Abstract

The device represents a disc including two cheeks 1 and 2. The joining of these two components makes it possible to obtain holes t for the ejection of the fluid; they are formed by symmetrical channels r on each of the two cheeks. The figure is a diagram of the embodiment. The addition of a supplementary cheek 5 to the cheeks 3 and 4, pierced right through in order to be able to reverse the direction of operation and allow braking, may be seen. Once assembled, it is possible to see that there is just a single hole in which there is placed a slide valve 6 controlled by a rod 7 controlled by an electromagnet 8. This assembly is intended for reversing the direction of operation. In the position a the turbine rotates in one direction. In the position b the rotational direction is reversed.

Description

The present invention relates to a method using principles of reactive dynamics.

 It applies to the field of rotating groups and makes it possible to increase the yield therefrom as regards the wear and maintenance of the components.

The main examples of the automobile and the iron ehemln are all the more obvious.
The kinematic chains of the latter are sometimes long, @ have lose energy, reduce the yield @ References, belts, gears, etc ...) and increase the wear which sometimes is expensive.

In order to overcome all these drawbacks, it suffices to remove the existing kinematic chain and reduce it to a single torque on the shaft, it is indeed a question of placing a motor directly driving the part. '' we want to m @ ttre in motion - it is a turbine using the principle of the reaction exerted @ by the ej @ ntion of a fluid by the holes placed on the latter
This method also makes it possible to eliminate the braking circuit, in the case of a land vehicle.
The turbine ra has the form of a disc made up of three flanges joining together. The f3uide penetrates inside a hollow shaft, and goes into each of the conduits allowing the rotation of the turbine. A drawer allows reversing the direction of travel, thanks to the orienta
conduits -tion reverse of the second flange relative to the first,
This drawer is operated with an electromagnet which is excited either in at or in b.

This operation will allow braking of the turbine, thanks to the reversal of the direction of ejection of the fluid. (Position of the holes on each of the two flanges
The accompanying drawings illustrate the invention!
Figure I shows the principle of the invention.

FIG. II represents the embodiment of the invention,
The device of Figure I represents a dis @ ue, comprising two flanges (1) and (2). The assembly of these two parts makes it possible to obtain holes (t) for the ejection of the fluid; they are formed by symmetrical channels (r) on each of the two flanges.

Figure II shows the implementation diagram.

We can see the addition of an additional flange (5) to the flanges (3) and (4), drilled on both sides, this according to the schematic diagram, (1/2)) of power reverse the direction of travel and allow braking.

Once the assembly has been carried out, it can be seen that there is only one hole in which is placed a drawer @ (6) controlled by a rod (7) controlled by an electromagnet (8)
This assembly is intended for reversing the direction of travel.

In position (a) the turbine @ rotates in one direction.

In position (b) the direction of rotation is opposite.

Claims (3)

1) Transmission of the rotary movement characterized in that it comprises a turbine of the type composed of three flanges (3), (4)  (5) forming a disc once they are assembled and each provided with a hole concentric to their axis, with holes (t) composed of a straight part and a radial part formed by grooves (r) during the assembly of the aforementioned parts, by a drawer  (6) controlled by a rod (7) itself controlled by an electrochemical (8) in position (a) or (b), this, for reversing the direction of rotation. 2) Device according to claim 1, characterized in that the slide (6) allows, in position (a), the passage of the fluid in the holes (t) formed by the flanges (4) and (5); in position ( b) in the holes (t) formed by the flanges (3) and (5) (3) Device according to claim 1, characterized in that the flanges (3) and (5) have holes (t) oriented opposite to those formed by the other face of the flange (5) and the flange (4).  (Radial part) 4) @ Device, according to claim 1, characterized in that it collects the turbine in a direction of rotation opposite to that of the rdaetion exerted by the ejection of the fluid within the casing which also is filled. 5) Device, according to a variant, characterized in that it comprises St 'level of the casing (not shown) of the housings arranged at its periphery (c @ enaux, grooves), or even pressurization: these two means being Intended to increase the torque of the device.