DE124003C - - Google Patents

Description

IMPERIAL

PATENT OFFICE

The subject of the invention is an explosion engine with an annular, rotating cylinder in which two curved pistons are located during rotation move.

For this purpose the cylinder is diametrically divided by partitions. These partitions form two chambers and in each of these one of the pistons leads one alternately Movement in relation to the cylinder.

Due to the pistons moving inside the two cylinder sections four variable chambers are formed, in which explosion, expansion, exhaust, suction and compression take place.

The two pistons are coupled by a balancer arranged outside the cylinder. This balancer is arranged diametrically to the cylinder and sits loosely on the Machine shaft that forms the axis of the rotating cylinder. One of the pistons is also arranged with the cylinder itself through a second one outside Balancer connected. This balancer is arranged eccentrically to the cylinder axis.

As a result of this eccentric attachment, the piston and housing move in the same direction of rotation, but at different speeds.

In the drawing, the machine is shown in Fig. 1 in side view, Fig. 2 shows the same in vertical section. Fig. 3 shows the control of the exhaust valves and the igniter, , the cylinder is thought to have been removed in this figure. Figs. 4, 5, 6 and 7 show the four main positions of the individual organs during two revolutions.

Fig. 8 is a section along the line ABC of Fig. I, the part cut according to AB is placed in the horizontal plane.

The cylinder of the machine has the shape of a hollow ring of whatever on which Drawing assumed square cross-section. It consists of two parts 1 and 2, which are united by a diametrical plate, 3 by means of bolts, 4 and two sections form in which the two pistons 5 and 6 move.

These pistons form four compartments or sub-cylinders 7, 8, 9 and 10 in the cylinder between the piston ends and the wall 3.

The whole machine is carried in part by a shaft 11 which is in one Bearing 12 and a bearing sleeve 13 rotates, the both are attached to the machine frame. In addition, the cylinder is equipped at one end with a shaft 15, which is in the fixed arm bearing 16 rotates.

One cylinder bottom 17 has openings 18, 19, 20 and 21, which form the four chambers 7 and 8 respectively. 9 and 10 with the feed valve housings 22 respectively. 23 connect that on the cylinder cover are arranged.

The other cylinder cover 24 also has four openings 25, 26, 27 and 28, which the chambers 7,8,9 and 10 with the housings Connect 29 and 30 of the exhaust valves.

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The hollow shaft 11 has openings 3 ¹ J which, at the end opposite the cylinder, connect the interior of the shaft to a chamber 32 provided in the bearing sleeve 13, into which the explosive mixture enters through the opening 33. At the other end, the hollow shaft 11 opens into two lines 34, which are recessed in the cylinder and are connected by pipe sockets 35 to a bent tube 36 which is arranged concentrically to the cylinder axis, which through lines 37 the mixture to the chambers 22 and 23 of the Feed valves feeds.

The outflows of the exhaust valve housings represent the housing 29 through pipes 38 and 39 and for the housing 30 through pipes 40 and 41 with the exhaust ring 42 in connection.

The exhaust valves are controlled by cam disks 43 and 44, which release on the Sit shaft 11 and carry a gear 45. This gear 45 is with one on the Shaft 47 keyed drive 46 engaged by a movement retarding gear 48 and 49 is driven by the shaft 11. Each lifting disc actuates two Exhaust valves by acting on rollers 50 which are driven by levers 51 swinging around bolts 52 be worn. Each lever 51 acts through a roller 53 on the spindle of an exhaust valve.

The two pistons 5 and 6 are below each other on the outside of the cylinder by a diametrical connected to the cylinder arranged balancer 54, which is on the shaft II of the rotating Cylinders is freely rotatable. Each piston carries a pin 55, which through in the Cylinder cover 24 recessed circular arc-shaped slots 57 and 58 passes through and with connected to one end of the balancer.

A second balancer 59, which is loosely rotatable on the eccentric arm 16, connects on the other side of the cylinder the piston 5 through rods 60 with the cylinder self.

The eccentric position of the pivot point of this balancer results in the differences in the speed of the pistons in relation to the cylinder.
The ignition of the mixture is brought about by igniters 61, which come into contact through contacts 62 with metal sectors 63 which receive current at the given point in time through a device not shown in the drawing.

The operation of the machine is as follows with reference to Figures 4, 5, 6 and 7 :

In Fig. 4, the chambers 7 and 9 occupy the smallest space, while the chambers 8 and 10, on the other hand, have their largest volume. Find now in the with condensed When the mixture is filled with the mixture, the ignition takes place, so this chamber becomes through the combustion yergröfsert, the piston 5 rotates, as does the cylinder, in the direction of the arrow, and after about half a revolution of the cylinder, the parts take that shown in Fig. 5 Position.

Chamber 8 and chamber 10 have decreased in volume during this rotation, while chambers 7 and 9 have increased. During this movement, the expansion of the takes place in the chamber 7 ignited gases, in the chamber 9 the suction of fresh mixture, in the chamber 10 the compression of the mixture and in the chamber 8 the exhausting of the burned Gases instead.

When the cylinder and piston have come to the position shown in FIG. 5, the Explosion takes place in chamber 10, the movement continues in the same sense, while in chamber 7 exhaust, in JECammer 8 intake and in chamber 9 Compression occurs.

In the position Fig. 6, the expansion begins in the chamber 9 after the explosion, in the Chamber 8 the compression, chamber 10 the exhaust and chamber 7 the suction.

In the position Fig. 7, an explosion occurs in chamber 8, and exhaust takes place in chamber 9, suction takes place in chamber 10 and compression takes place in chamber 7.

The cycle continues in the same way and returns the parts to the in Fig. 4 position shown back.

A machine of this type can contain two, four, six or eight pistons, whichever have any other cross-section, e.g. be circular.

The cooling can be effected with the aid of vanes arranged on the rotating cylinder will.

The piston eyelids can have the arrangement shown in FIGS. 9, 10 and 11.

In the arrangement shown in Fig. 9, the Liderung consists of four angle pieces 64, which are pressed into the re-entrant angle of the cylinder by springs 65 will.

In the embodiment shown in FIGS the segment of the Liderung is made from a single somewhat bent angle piece 66, which its tension receives from itself. Once the segment is closed, it takes exactly that Shape of a square, the dimensions of which are those of the inner cylinder cross-section exactly match.

Claims (1)

Patent claim: Explosive engine with circling
Cylinder or Housing and one or more moving in the same direction, but at different speeds
in relation to the cylinder moving col ben, characterized in that the pistons (5 and 6) freely open beneath each other the shaft (11) of the machine rotating balancer (54) and also by a second balancer (59) arranged eccentrically to the shaft (11) connected to the cylinder are. 1 sheet of drawings. ' BERLIN. PRINTED IN THE REICHSDRUCKEREI.