DE4916C - Rotating engine - Google Patents

Description

1878.

Class 88.

JULIUS RÖSTER in BÖHMISCH AICHA. Rotting engine.

Patented in the German Empire on March 3, 1878.

The subject of the present invention forms a rotating motor, which by the pressure a liquid is set in motion, no matter what kind the liquid may be likes whether it is liquid or gaseous liquid and auph. no matter where the pressure comes from the liquid driving the motor originates or. whereby it is produced.

The motor consists essentially of a tubular body of revolution of any type Cross-sectional shape. This tubular body of revolution is divided into two halves in such a way that both clutches can rotate about their axis against each other and are close to each other keep. One of the two rotating bodies is now fixed, the other is movable. The hydraulic fluid does not flow through the entire tubular body of revolution, but only through a part of it. Shortly before entering the fixed part of the rotating body, a solid partition determines the direction of movement of the hydraulic fluid, while a number of valves on the rotating part of the body of revolution are attached to them Oppose movement and thus absorb the force of the hydraulic fluid and thereby the Induce rotation of the movable part of the rotating body. The liquid steps on it at another point of the rotation body again from the same. Because the flaps, which the. Pressure of the fluid transmitted through which the tubular body of revolution is blocking Must go away from the partition so that, as soon as they have passed the water inlet, the Can absorb the pressure of the fluid anew, they must hang in joints, which allow them, initiated by suitable steering devices, close behind the exit of the pressure fluid from the rotary body to fold over so that it over the slide away the aforementioned partition.

As already mentioned above, the hydraulic fluid can be any; Thus water with a natural gradient or tap water or some other suitable source of power can be used; But the water exiting on one side of the partition blocking the tubular body of revolution can also be reintroduced on the other side of the wall in question through an ordinary, relatively not too long tube of suitable cross-section, and thus the same quantity of water can always be used to generate the rotation as soon as one ensures that this water always receives new force impulses in the right place, i.e. close to the entry into the body of revolution. This can be achieved, for example, by switching on an injector in the: the pipe which reintroduces the emerging water ; which, by means of steam with the highest possible tension, drives the water into the tubular body of revolution on one side and sucks it away from the point of exit from the body of revolution. In this case made must, of course, for corresponding cooling of the water, so that the Injector look even · to 'is able.

Such a machine to be driven by an injector according to the above system is, for example shown in the accompanying drawing, and it is:

Fig. Ι a vertical center section of the same,

Fig. 2a is a top view of the machine,
. · -Fig..2b a horizontal cross-section in the direction of the line AB in Fig. 1,

Fig. 3 is a vertical section through the body of revolution in the direction of the radius the same, the flap showing the tubular body of revolution blocking,

Fig. 4 is just such a section as Fig. 3, only the flap is raised, and

Fig. 5 is a vertical section through the central tube of the rotating body.

Figs. 3, 4 and 5 are shown on a somewhat larger scale than Figs. 1 and 2 to show the details to show .. The same letters denote the same parts in all the figures.

The trough-shaped rotary body A , which is surrounded by masonry or otherwise suitably fixed, forms a tubular rotary body with the likewise trough-shaped, cover-shaped rotary body B ₁ , as indicated above in the introduction. The body of revolution B is connected to the central shaft C by the arms bb and rotates with the same. The whole is closed by a fixed cover D , which is screwed with the ring d onto the lower fixed part A and essentially consists of the ring d and

the radial ribs d ' . These ribs are combined in the center to a hub ti ", through which passes the central shaft C, and are mutually connected with metal so, the lid D DAF completely abschliefst. The movable rotating body B ₁ carries four flaps e, of which one also more or less, and which usually hang down vertically, radially, and thus divide the tubular body of revolution into four parts. At the fixed part of revolution A , a tube not too long leads from point F ' to point F " and it is in the same at any point, preferably just before the entrance at F ' an injector / switched on, which, when the whole thing is filled with water and the injector is fed with high-pressure steam, sucks the water in from one side at F " and after on the other side against F ¹ , so that the water entering with pressure at F ' hits the first lying flap e and rotates the movable body of rotation B g offset. In order for the liquid to act in the manner mentioned, a sloping, closing wall / 'is arranged shortly before the entry at F ¹ , which wall absorbs the retroactive substance of the water. The flaps e must be passed over this wall and for this purpose there is just behind the exit of the water from the rotating body just such an oppositely sloping wall blocking the opening of the rotating body / "arranged, f" and f are through the two side walls / / (see Fig. 4) connected and attached to the lower, fixed rotating body A. As soon as a flap e arrives at the inclined wall / ″, it lies in the cavity arranged on the upper wall of the movable rotating body B and remains in this position, sliding on the upper edge of the two walls / until it reaches the opposite inclined wall / 'arrives, where it, caused by its own gravity, can stand upright again, blocking the opening of the body of revolution, in order to take up the force of the water again.

The tube F can also be designed as a cooling coil and surrounded by cold water, but one will have to try to reduce any resistance in it as far as possible. The water between the two inclined walls / 'and / " does not take part in the movement of the machine; this space could just as easily be filled by any solid body.

Claims (1)

Patent Claims:
ι. The construction of a rotating motor, like shown and described.
2. The arrangement of an injector for operating the above motor, also as shown and described. For this purpose I sheet drawings.