DE101842C - - Google Patents

Description

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PATENT OFFICE.

The object of the invention consists in a double-acting prime mover one piston side of which explosion gases and on the other compressed gases, z. B. liquid Carbonic acid. As a result, the cylinder is cooled from the inside and the heating "of the cylinder is used for power output, while in most known explosion machines the heat is either generated by the Cooling water is absorbed or discharged outside through cooling blades.

A combined compressed air and gas machine is already published in patent specification No. 55690, in which the cold formation that occurs when the air expands to cool the cylinder walls heated by the gas explosions and the heat generated by the explosion is used to heat the compressed air. . However, there will be this Machine uses two separate cylinders for the gas and air, which with Kühlbezw. Warming jackets are equipped.

In contrast to this, in the subject of the invention, the cooling from the inside acts, and there is only one cylinder, on the piston of which is successively carbonated and the explosion mixture «work.

This machine is shown schematically in the drawing.

The machine consists of three cylinders, namely two working cylinders AA ' and BB', the cranks of which are offset by 180 °. The air required to produce the explosion mixture is compressed in a third cylinder CC. All three cylinders are directly coupled to the crankshaft.

The container C O ² contains liquid carbonic acid and the container C ² U " ^{2 contains} any fuel, for example petroleum essence, coal dust or compressed acetylene gas.

The tubes if, V, t ", t"', t "", t'"" connect the cylinders with one another and with the containers. The control of the various taps or valves R \ R ² , R% R \ R ^s , R ^e , R \ R ^{8 of} these pipes is effected by the machine, whereby the connection is cut off or opened at the appropriate moment.

The machine works as follows:

When the pistons assume the position illustrated in the drawing, the piston P _{1 has} just been pushed down by the carbonic acid. The cylinder space A contains relaxed carbon dioxide. The cylinder space A ¹ is open to the outside, so that the burnt gases of the preceding piston passage could escape. The piston P \ has just reached the opposite outermost position under the action of the combustion gases, while the relaxed carbonic acid of the previous stroke located above the piston in B has flowed outwards. The piston P, which completes its stroke a little later than the other two pistons, still moves in the direction of the arrow / and compresses the ^{air in the cylinder space C 1} , while at the same time atmospheric air is sucked in above the piston P in C. When the pistons P ₁ and P'j have reached their end position, the connection from A ¹ to the outside is turned off, whereas R ^{6 is} opened, so that the compressed air from C ' to A' passes under the piston P _1.

At the same time, B 'is open to the outside for emptying, while B is closed to the outside and carbonic acid flows in through the open valve R ^e , which drives the piston P \. Here the carbonic acid absorbs the heat of the cylinder walls, so that at the same time the heat of the cylinder walls is converted into work by heating the carbonic acid. The piston P reaches the lower end position at the same time. At this moment you are asleep, i? ⁵ , R ^& opens so that atmospheric air can be sucked in when piston P is raised.

Since the valve jR ^{7 is} closed, the air in the cylinder space C is compressed by the piston P. At the moment when R ⁵ closes, R ² opens and the appropriate amount of fuel enters the compressed and therefore hot air in A '; the liquid or solid fuel is burned immediately and the combustion gases push the piston P ₁ back.

The machine is thus from the carbon dioxide in B and the combustion gases in A '. driven until the moment when the pistons P ₁ and P \ occupy the opposite end position. As soon as this is the case, the taps are switched, carbonic acid passes through the piston P ₁ to A, pushes the piston P ₁ back and at the same time absorbs the heat of the walls of the cylinder, which the combustion gases have left behind, while the previously compressed air. and the liquid or solid fuel entering thereupon ^{unite in B1} behind the piston P \ , push it back and heat the walls again. In this way the crankshaft receives two drives from the carbonic acid with every back and forth movement, one in each cylinder, which work continuously as a result of the heating of the gas on the walls, and on the other hand two drives from the combustion gases.

Claims (1)

Patent application: Double-acting engine, characterized in that it is on one side of the piston the tensioned gases resulting from the combustion of a gas-air mixture on which on the other hand, carbonic acid acts as a propellant, for the purpose of expansion the carbonic acid to cool the cylinder wall and to increase the effect of the carbonic acid by heating it. For this purpose ι sheet of drawings.