DE103900C - - Google Patents

Description

IMPERIAL

Wmmt

PATENT OFFICE.

The invention relates to a device on two-cylinder capsule wheel explosion machines, in which the suction and compression of the charge on the one hand and the ignition and utilization the loading, on the other hand, takes place in special cylinders. Starting this machine by hand is made easier because that the first charge goes directly into the explosion cylinder, within which the ignition takes place, is sucked in, so that no compression pressure has to be overcome. this will achieved by the fact that the charge in the compression cylinder only passes through during starting are mixed with each other, so that the charge in the working cylinder is uncompacted to explode got. The normal operation is brought about by the simple connection the compression cylinder with the working cylinder is effected by opening a cock.

Such a machine is shown, for example, in the drawings.

Fig. I. is a cross section.

Fig. Ι a shows a structural arrangement of the machine in detail.

2 and 3 are sections along the line X-Y of FIG. 1 with two different piston positions.

FIGS. 2 a and 3 a are similar sections along the line X -Y ' of FIG. 1.

The machine is provided with two cylinders AA ' which, like the cylinder shown in patent specification No. 96049 , are

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written machine are set up. Each cylinder AA ' consists of a housing, which respectively consists of two penetrating cylinder parts BC. B 'C is formed ~ which are connected to each other by recesses A ^{2 in} the housing wall and in which the sector-shaped pistons FG respectively. Rotate F 'G' . The pistons FG and F 'G' cooperate in pairs in a manner similar to that of the pistons of the machine illustrated in patent specification No. 96049. The pistons FF ' sit on the shaft D, the pistons GG' on the shaft E. The two parallel shafts D and E are inevitably connected by gearwheels KL of the same diameter, the latter being attached outside the chambers AA ', expediently between the same .

The cylinder A forms the working cylinder. On the upper side of the same, the ignition chamber M is provided with an electric igniter M ' , on the lower side recesses M ² M ^{3 are} attached, which open into the exhaust duct M ^. .

If the machine works with compression during normal operations, the cylinder A ' serves to suck in and compress the cargo, as well as to transfer it to the cylinder A, the cylinder A' is provided on the upper side with an opening N for sucking in the fuel-air mixture. On the lower side of the cylinder A 'there is an exit

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Pipe socket N ' ^{2 is} connected, through which the latter the mixture sucked in through the upper opening N is pressed into the cylinder A by the alternating action of the pistons F' G ' rotating in the cylinders B' C. The pistons F 'G' are also sector-shaped and set up in the same way as the pistons F G of cylinder A.

A pipe N ^{3 is} connected to the pipe socket N ² , into which a pipe N * opens which leads to the distribution chamber 2V ⁵ which is connected to the ignition chamber M. A two-way valve N ^{a is} provided in the pipe N ³ , which is connected by a pipe O to the mixing chamber O ' , into which a feed ^{pipe O 2} for carburized air or the like and a nozzle O ³ for the combustion air open. In the latter there is a cock O ⁴ to regulate the amount of air supply.

The distribution chamber iV ⁵ is closed by a valve P which is under the action of a spring P '. This valve closes an opening P ' ² , through which the distribution and compression chamber N ⁵ communicates with the ignition chamber M of part A , so that at the moment of ignition any connection between the ignition chamber M and the distribution ^{chamber iV 5 is} blocked.

The pistons circulate in the direction of the arrows shown in FIGS. 2 to 3a. The pistons F 'G < in the cylinders B' C alternately suck in charge and block access to the intake manifold N, while at the same time the pistons FG alternately connect the cylinders B and C to the ignition chamber M. In the position shown in Fig. 2 and 2a, the piston F acts as a driving force, the cylinder B is in connection with the ignition chamber M, as well as with the exhaust port Μ ^Λ through which the already effective combustion gases escape. The second piston G of part A , meanwhile, forms the bottom of cylinder B. In partition A ' the pistons F' G 'act in a corresponding manner. The piston F ' has just ended the suction through the opening N and locks the latter against the cylinder B' . The charge sucked in by the piston F ' is pressed by this piston into the line N' N ² N ³ iV ⁴ and the chamber N ⁵ as soon as the opening N 'is released, while the latter is simultaneously released from the cylinder C through the piston G. 'is locked. The piston G 'begins to suck in the position shown in Fig. 2a, the opposite part of it compresses the previously sucked gas mixture and pushes it into the line N' N ² iV ³ N * and the chamber N ⁵ . . . _: ... ■

In the position according to FIGS. 3 and 3 a, the action of the pistons FG, F 'G' is opposite to that of FIGS. 2 and 2 a. The pistons FG ' form the bottom of the associated cylinders, while the pistons GF' act in the following way. On the one hand, the piston G has a driving effect and, on the other hand, pushes the gases that have already been effective out of the cylinder. The piston F ' compresses the previously sucked in gas mixture and pushes it towards the distribution chamber TV ⁵ .

In the position "of the cock iV ⁶ " shown in FIG. 1, the machine works with compression of the gas mixture, since the chamber iV ^{5 is} only in communication with the opening 2V ¹ , while the piston F 'G' of part A ' alternates gas is drawn in. When the tap N ⁶ has the position shown in FIG. 1 a holds, as is the case before the start of the engine, is sucked the first charge in the ignition chamber M is tightened, the machine ■ by hand, and the Maschie works after the first explosion without compression, as the gas mixture is then supplied directly by alternating suction of the pistons FG of part A , the bore N ^{1 of} the cock N ^{6 being} the chamber iV ⁵ and the supply pipes iV ⁴ N ^{3 being} directly connected to that of the Mixing chamber O 'is connected by line O. The pistons F' G ' of part A' continue to run even when the compression is switched off, their suction and pressure effect taking place in the same way as described above, but without a ver to effect sealing of the gas mixture. The bore JV ^{7 of} the tap N ^e connects the mixing chamber O ' directly to the line N ³ N ² N' by means of the pipe O. The gas mixture sucked in through the opening N from the chamber O ' returns through the bore N ^{7 of} the cock iV ⁶ and the pipe O back into the same, so that it carries out a cycle, whereby a more intimate mixture takes place.

To start the machine, you turn the tap ΛΓ ⁶ in the position according to Fig. 1 a, whereby the compression is turned off, whereupon you start the machine as usual without having to overcome a compression pressure. The machine can then be set to compression by turning the valve V ⁶ to the position according to FIG. 1.

Claims (1)

Patent claim: Zweicylindrige Kapselradexplosionsmaschine, characterized in, that BEZW the keyed on the same parallel shaft (DE) piston (FG. F) 'G BEZW ¹ J in both chamber casings (A, A ¹ J work together such that Verdichtungscylinder (A DAF' the Arbeitscylinder ( A) in which the ignition takes place finds that in the normal course of the machine working with a compressed gas mixture, the explosive mixture (O 'NN' N *) is connected upstream in such a way that it can only enter the working cylinder (A ⁾ under compression in the cylinder (A 1 J ) , while when starting the machine by creating a secondary line (ON ¹ ), a compression pressure cannot be overcome and switching over the secondary line tap (N ⁶ J is sufficient to introduce compression after starting). For this purpose ι sheet of drawings.