DE51001C - Rotating machine - Google Patents

Description

IMPERIAL

PATENT OFFICE.

CLASS 14: Steam Engines.

The rotating machine consists of an outer cylinder α and an inner cylinder which is parallel and eccentric in the known manner. This inner cylinder is now composed of two individual cylinders, cylinder b and the flap cylinder c attached to it. The flaps K are cut out of the latter and are centered precisely in their bearings by the inserts d. In the cylinder b there is now a hollow, slightly conical body f, which automatically seals itself off due to the overpressure on it in the axial direction. It is prevented from turning by holding pins g and has an opening h which allows the propellant to pass through to the channels k in the cylinder b as soon as they correspond to this opening due to their respective position, FIG. 1.

A conical slide Z, which consists of two opposite wings, is also seated in a self-sealing manner in the cone f and can event through an axis m by means of the hand. Regulator lever η can be changed in its position so that it is able to completely close or partially or completely open opening h.

The effect of the machine is as follows:

If the propellant is allowed to enter the interior of the cone f through the inflow pipe, when the rotary valve I completely or partially opens the opening h and one of the channels k corresponds to this, the propellant will pass through the channel k under the flap K , lift this and in the direction of the arrow, FIG. 1, set the same and with it the cylinder b in rotation. The inflow of the blowing agent 'will enter and quit the expansion effect when k channel opening h has passirt. As soon as the next channel k comes to a standstill via h , the exhausted propellant already emerges through the openings i and a new one. Cylinder filling begins, etc. Forward leakage of the propellant is prevented by pressing the flaps tightly against their bearings and against the edge of the cylinder, as well as by pressing the resilient flap pieces q against both sides of the flaps, Fig. 4 ..

The flaps are therefore self-sealing. A backward escape of the propellant is made impossible in that the insert o, which guides the flaps in a known manner towards the outer cylinder wall, is composed of two parts, Fig. 5, of which one part r is resilient and also by means of pressure screws ρ can be pressed tightly onto the flap cylinder c. The lateral sealing of the cylinder space towards the outside is achieved by the resilient rings S and S, Fig. 2, whereby the inner cylinder is centered at the same time. On the body i, the springy one. Ring S , the axle is wedged so that by turning the inner cylinder a simultaneous entrainment of the axle takes place, since t is firmly connected to b and c by screws ν and the claw cross w , Fig. 2, 5 and 6.

By adjusting the slide I by means of the lever η a narrowing or widening is possible

Claims (1)

the opening h is reached and thereby a higher or lower degree of expansion is achieved in the simplest and most expedient manner without interrupting operation. Pateντ claim: The arrangement of a rotating machine, in which on the channel cylinder b rotating in a cylindrical housing α and lying eccentrically to α a flap cylinder c with the flaps K lying in the jacket of c is attached; in which further the lateral sealing towards the outside is achieved by resilient rings S and s, the sealing inward to the rear by the resilient insert r and the sealing of the flaps themselves by resilient lateral flaps q , and the control of the machine inside the rotary cylinder is arranged so that a self-sealing hollow cone, centric and firmly lying in it, takes over the distribution of the propellant pressure when passing the flaps, and by inserting a rotary valve Z it is possible to change the degree of expansion by hand or by the regulator. For this purpose ι sheet of drawings.