DE283793C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVr 2.83793 - CLASS 59 c. GROUP

Patented in the German Empire on July 12, 1912.

For pumps for pumping liquids or gases where the explosion pressure ignited gases set a column of liquid vibrating, the efficiency significantly deteriorated when the liquid as a result of direct contact with the burned gases are partially evaporated. The generated steam goes with the exhaust gases away, and the heat of vaporization is for the

ίο Lost work. To these losses To avoid this, a piston can be arranged as a partition between the combustion gases and the water column, which is completely or partially participates in the movements of the liquid column and its immediate Prevents contact with the hot gases. The invention consists in a particular one appropriate design of such pistons; In general, losses are also caused when a piston is used Evaporation of liquid is not entirely prevented, as there is always certain quantities of it despite the sealing of the piston against the cylinder wall in the combustion chamber seep through; and even small amounts of evaporating liquid set the efficiency considerably. According to the invention, the piston should now be designed so that the seepage water, the inevitable occurs, cannot come into contact with the hot gases.

Fig. Ι shows an embodiment. In the vertical cylinder 1 moves Piston 2; the space above is for them The compression and expansion of the gas mixture is determined by the gas valve, for example 3 .and the air valve 5 is introduced and exhausted through the outlet valve 4. Under the piston is located in the cylinder 1 and the vibrating tube 12 connected to it a column of liquid. The piston 2 itself is hollow, and opens into the cavity also hollow piston rod 8, which is in the lower part of the cylinder through a stuffing box 10 is performed tightly. The piston has two sealing surfaces 6 and 7. Between the two there are openings 9 in its wall, which lead into the inner cavity. All Quantities of liquid which seep through the sealing surface 6 from below, enter the cavity and flow through the hollow piston rod 8 to the outside so they cannot come into contact with the hot gases.

Another embodiment is shown in FIG. In the cylinder 20, the upper one Part the combustion mixture. is supplied, for example, through valves 21 and 22, and from which the burnt gases exit again through the exhaust valve 23, moves a piston 24. It forms a full-walled body with the two sealing surfaces 25 and 26. Between these two sealing surfaces there is a part with a smaller diameter, so that a cavity 27 is created between the cylinder and the piston wall. All seepage water that passes through the seal 25 of Enters below, collects in this

Rooms. In the cylinder wall there are openings 28 distributed over the circumference, through which the leaked liquid exits when the piston moves upwards emotional. This is so long that it covers the openings 28 in every position, so that they also at the lowest position of the piston, which is indicated in the drawing by dotted lines does not come into contact with the combustion chamber.

When the exhaust valve 23 is arranged as shown in the drawing, so can the removal of the seepage water from the cavity 27 can be particularly supported. In the exhaust valve and the exhaust ducts there is always an overpressure, albeit a small one, above the atmosphere. If the exhaust valve with the cavity 27 is connected, this slight overpressure also acts on the liquid present here and helps convey them out through the openings 28. The exhaust valve 23 opens either automatically or is controlled accordingly.

At times the presence of water in the explosion chamber is desirable because it enables a higher compression due to its cooling effect. In such cases the elimination of the leachate appears to be disadvantageous. In reality it is tight final pistons according to the invention also useful here; because the amounts of water which enter the combustion chamber as a result of a piston leaking, vary depending on the nature of the sealing surfaces and cannot be regulated will. Therefore it is better to do this by using a piston of the type described To prevent seepage into the combustion chamber at all and that Precisely measured amounts of water that are required for internal cooling and inject especially at the right time.

Claims (3)

Patent-to sayings: 1. Pistons for explosion pumps as a partition between the combustion gases and a vibrating liquid, characterized by two sealing surfaces, between which a collecting space for the seeping liquid, from which it can flow to the outside. 2. Embodiment according to claim 1, characterized in that the collecting space is in communication between the two sealing surfaces with a cavity in the interior of the piston, in which one is hollow Piston rod opens through which the seeping liquid can flow off. , 3. Embodiment according to claim 1, characterized in that the cylinder wall Has openings through which the seep liquid can flow out of the collecting space to the outside. 1 sheet of drawings.