DE360859C - Internal combustion engine with ring cylinder and rotating piston - Google Patents

Description

Internal combustion engine with ring cylinder and running piston. There are internal combustion engines with Ringzv linder undumlaufenden.Kolben known, in which chambers are formed in front of or behind the piston by means of radially movable slides in which suction, compression, ignition and expansion take place. Of these Machines, the invention differs in that the pistons are on the machine shaft are attached by means of discs, over which the extended middle housing parts reach almost to the hub. This arrangement not only increases the number of individual parts, but also the whole assembly and execution these parts simplified. The control is also easy and clear arrange and the mutual action of individual organs with great convenience rules.

In the drawings: Fig. I shows a side view of the machine, Fig. 2 is a vertical cross-section through the machine, Fig. 3 is a vertical one Longitudinal section along line 3-3 of Fig. I, Fig. Q. a floor plan of the machine.

The pistons g, h, i rotate in the chamber O and are connected to a disk i2 jFig. i, 2, 3), which is attached to the shaft i by means of a long hub (Fig. 3). As they rotate, the pistons take with them the disk 12 and the shaft i, on which a chain wheel 2 and cam disks 3 and 4 are attached (Fig. 3). The chain wheels 7 and 8 are driven by a chain through the chain wheel .2 (Fig. I) and transfer the movement to the cams g, io, ii and rd., Which open the valves C, D, E and F (Fig. 3 and 4). The springs attached to the rods of these valves cause the valves to close if they are not kept open by the cams. The cam disks 3 and: I open the slides a and b, and the springs attached to the rods 5, 6 close the slides when the cams of the disks 3, 4 are out of action. When the slides d and b (Fig. 2) rest on the circumference of the piston disk 12, they close the chamber 0 completely, but in the retracted position give the piston g, h, i free passage. -The housing parts reach almost to the hub over the piston disk, so that they form a kind of labyrinth seal finitely the disk 12 and the hub. The motion is transmitted directly from the hub or shaft to the abutment slide by means of a rocker arm. The individual parts of the machine are so simple in shape that they are very easily suitable for mass production and only require relatively simple castings. The transfer of motion from these simple machine parts only requires the arrangement of a few additional organs, which are very easy to do. are overlooked. The simple and clear arrangement ensures a high level of operational safety and very cheap production.

The operating principle of the machine is as follows: When the piston g rotates in the chamber 0 in the direction g, h, i, the slide a closes when the piston a has passed it and the valve E opens. This valve is connected to a carburetor through the pipe h. When piston g continues to move in chamber 0 and slide a is closed, the piston sucks mixture from the carburetor through valve E into chamber 0. Shortly before piston g reaches slide b, this slide is pulled back and remains open until the piston has passed it, after which it closes again. The valve E also closes, and the mixture is in the chamber 0 between the slides a and b, whereupon the piston i comes close to the slide a, which opens. The compression of the mixture in the chamber 0 between the piston i and the slide b now begins. Valve D then opens and the compressed mixture flows through (port R and valve D into pipe J.

In the meantime piston i has moved on, and as soon as piston h reaches opening p, which connects valve C with chamber 0, valve C opens and the compressed mixture in tube J flows into chamber 0 between the meanwhile closed slide a and the back of the piston. As soon as the compressed mixture has flowed in, valve C closes and an electrical spark is generated by the spark plug located at point 0, which causes the compressed mixture to burn in chamber 0 between Slide a and the back of the piston h is effected. The resulting expansion moves the piston h against the slide b, which opens before the piston reaches it and closes again immediately after the piston has passed through.

Now the piston g is again in front of your slide a; which opens. The piston g enters the chamber 0 filled with burnt gases. The slide b is closed and the valve F is opened, which passes through the opening S is connected to chamber 0. The piston g pushes the burnt gases through the valve F and the connecting pipe L out. As soon as this piston is on the slide c. has passed, it closes and valve C opens. Of the Piston g now begins to suck in mixture from the carburetor through pipe k, and the Operation takes place in the same way as before.

The rectangular shaped pistons g, h, i and slides a and b have sealing springs of rectangular shape.

Claims (1)

PATENT CLAIM: Combustion engine with ring cylinder and revolving pistons, with the rotation of which chambers are formed in front of or behind the pistons by radially movable slides, in which chambers are sucked in, compressed, ignited and expanded, characterized in that the pistons (g, h, i) open the machine shaft are fastened by means of disks (12), over which the extended middle housing parts reach almost to the hub.