DE132286C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

ΛΙ132286 CLASS 59 c.

The subject of the present invention is a control for explosion pumps, i. H. for those pumps in which the explosion of a gas mixture is so used that it is direct and successively causes the suction and the displacement of the liquid that is being pumped shall be.

The accompanying drawing shows a pump provided with said control system, and though:

Fig. Ι in detail,

Fig. 2 in longitudinal section,

Fig. 3 in outline.

Fig. 3a is a basic outline of the rotary valve.

Fig. 4 shows the central part of the pump in cross section.

The pump consists essentially of a vessel of cylindrical shape a, which is connected on the one hand to a pipe b, which is shaped as a siphon and serves for suction, and on the other hand to a second pipe c of suitable diameter through which the liquid flows out. Both tubes are each provided with a valve of the usual type. The pressure valve is visible in d , while the suction valve is not shown. The latter can be attached to the lower end of the suction tube. The gas mixture is introduced into the upper part of the cylinder α where the explosion is to take place. The explosion takes place by means of a burner fed with gas or a carbon mixture, the flame of which licks the opening f (Fig. 3). The inlet and outlet of the gas is regulated by a rotary valve g which is provided with three openings (Fig. 3a). The first opening h is used for the inlet of the gas mixture, the second j for the outlet of the combustion gases and the third f for igniting the mixture. This rotary valve is wedged on an axis k and arranged under the distributor m , which forms the cover of the pump ■ and which has a pipe socket η with pipe η ' through which the gas mixture enters, and with a pipe socket 0 through which the combustion gases exit , is provided. The opening mentioned above is intended for the ignition of the mixture. The axis k penetrates through the cover and carries a crank on the outside, the pin end 'of which can slide in a groove of a slider b' . The slider is driven from the shaft u by means of a crank and a drive rod. The shaft is in turn set in motion by the crank e ' by means of the countershaft c' d ' (FIG. 1).

The gas mixture is supplied through the pipe η ', which goes out from the pressure valve ρ of the gas pump q. The piston r (Fig. 4) of this gas pump is set in motion by the lever s (Fig. 1), which receives its movement from the shaft u by means of the crank disk t. The gas mixture is the suction valve ν by one branched tube χ supplied whose branches ^ \ with respect to the coal gas, or any other, carry out a carbon compound-containing gas and the atmospheric air. These two

branches are each provided with a tap, so that the gas mixture can be precisely regulated.

The pump works as follows:

In that position of the rotary valve in which its speed of rotation is equal to zero, the gas mixture is introduced by the "gas pump q through the opening Ii of the rotary valve into the free space of the cylinder a. Its connection with the tube b with each suction the liquid forces the liquid to rise to a given height. The rotary valve then rotates with increasing speed until ignition takes place through the openings ff, which are now one above the other, and the valve opening _ / continues opposite the outlet opening c . In this last Position h, at the rotary valve again a short standstill, which serves to ensure that the liquid is sucked in up to the height required by the siphon b.

Claims (1)

Patent claim:
Explosion control, characterized by the connection of a rotary slide g with u by a shaft in such a way in reciprocating motion set sliders b \ That the opening h of the rotary valve jeweilen then with the inlet opening η and the opening j of the slider jeweilen then with the outlet opening c collapses when the slide arrives at one or the other dead point of its movement. For this purpose ι sheet of drawings.