DE103086C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

The subject of the disclosure is a device by means of which the "one Capsule system sucked in and compressed explosion mixture taken up for ignition and then passed into a second capsule plant, in which the ignited mixture expands and acts as a driving force.

Fig. Ι of the drawing illustrates a machine equipped with this device (shown schematically).

Fig. 2 shows an exemplary embodiment of the machine in cross section.

FIG. 3 shows a longitudinal section along the line AB of FIG.

Fig. 4 shows a detail on a larger scale.

By means of the pump d (Fig. 1) the fresh explosion mixture is sucked in through the feed pipe c , compressed in the pump and pressed into a hollow body e, in which it is ignited, and finally reaches the second capsule plant f , where it does its work. The used mixture escapes through the discharge tube g (Fig. 1). The circular movement of the pistons in the capsule mechanism f is transmitted with the aid of gears to the pistons of the pump d and to the shaft of the hollow body e .

In the exemplary embodiment illustrated by FIGS. 2 and 3, the pump is provided with rotating pistons i and the control body k, and the engine is provided with the piston I ₁ and the control body k ₁ . The device, which receives the compressed mixture and transfers it to the engine, consists of a rotating hollow cylinder Z, which has a number of chambers m (drer chambers in the drawing). The whole machine is enclosed by a common housing jacket η , the inner wall of which, together with the attachments O and O ₁ firmly attached to the one housing cover, form the paths for the rotating pistons. The latter are respectively on their waves ρ. p _L firmly wedged. The number of revolutions of the four shafts ρ is the same, while shaft P ₁ and thus hollow cylinder / has only one third of these numbers of revolutions.

The machine works as follows:

By means of the pistons i , the fresh mixture is sucked in through the supply pipe c and then compressed. In the position shown in Fig. 2, the piston i following the arrow has just started compression and, as the movement progresses, presses the mixture through the channel r into a chamber m of the rotating hollow cylinder Z. Since the latter only rotates a third as many revolutions as the piston z, with the three-winged piston i the chamber m is fed three times in succession with increasing tension a quantity of fresh, compressed mixture before the next chamber m approaches the channel r. During the passage of the pistons i through the recesses in the control body k , the webs s of the hollow cylinder Z keep the channel r closed so that the mixture taken up by the chamber m cannot recede. The one remaining in the harmful space between piston i and body k at the end of compression

The rest of the mixture returns to the suction space. As the rotation progresses, the filled chamber m of the hollow cylinder / is brought into connection with the ignition device q. After ignition, as the body continues to rotate, the exploded high-tension mixture will enter the engine from chamber m through channel t. Each of the chambers m thus alternately serves as a receiving space for the compressed mixture, as an ignition space and as a discharge space for the exploded mixture. The hot, tense gases, entering through channel t , drive piston Z ₁ forwards in the direction of the arrow, expand and finally escape through discharge tube g. During the passage of the piston Z ₁ , channel t is kept closed by a web s of the hollow cylinder /, which prevents an explosion of the mixture from / into the engine during this time. The piston i Z ₁ and the webs s of the hollow cylinder / can be sealed against their sliding surfaces in a known manner, as z. B. Fig. 4 shows where in grooves lying angle bars χ by the pressure of the propellant entering the channels ν both against the sliding surfaces; as well as the surfaces y of the pistons themselves are pressed on.

Claims (1)

Patent claim: Capsule explosion machine, characterized by a rotating hollow body (IJ which is divided into a number of chambers (m) , which takes up the mixture compressed by a capsule (dj ), ignites it and delivers it to a second capsule (f) acting as a prime mover. 1 sheet of drawings.