DE53316C - Pressure regulator for gas and pre-air tanks in gas machines - Google Patents

Description

IMPERIAL

PATENT OFFICE

PATENT LETTERING

CLASS 46: Air and gas engines.

LOUIS JEAN ROGER HOLST in PARIS. Pressure regulator for gas and preps air tanks included

Patented in the German Empire on October 15, 1889.

Fig. Ι shows the total view of a gas engine in longitudinal section and

Fig. 2 shows the corresponding basic outline.

In Fig. 3 the essential parts of the machine are seen from one end and partly shown in section.

Fig. 4 shows, on a larger scale, the inlet device in section and

Fig. 5 illustrates the associated drive mechanism.

A piston drive should occur with each piston stroke. The wall and the bottoms of this cylinder are for water cooling as double walls respectively. -Floors executed. The working piston is hollow and b has a length, which is advantageous equal to the length of the piston stroke, to reduce the surface on which the gases cause heating of Cylinderwände. Around. To reduce the thermal effect even further, the interior of the working piston b can still be permanently connected to the outer atmosphere. For this purpose, the rear wall of the piston carries a pipe extension c, which slides easily on another pipe extension d , which is attached at its outer end to a support (Fig. 1).

The piston rod e carries at its other end the piston / of the air pump cylinder g, which is also equipped with double walls and with inlet and outlet valves h . The air is forced into a container i , where it is stored under a certain and constant pressure. To prevent this pressure That the allowable limit exceeds, one can replace the valves, the game brings a work loss of time, by a Regulirvorrichtung as is particularly shown in Fig. 3 ;, the same consists of a communicirenden with the container i small cylinder k, in which a piston k ^l with a counter-pressure spring / c ^{2 is} arranged, the tension of which depends on the maximum pressure to be obtained in the reservoir i. The piston k ¹ is connected to a tube k ⁵ through the rod k ³ and the arm A ⁴ ; the latter is attached to the outer wall of the cylinder g, and both ends of it are equipped with openings k ^e which can communicate with the two ends of this cylinder. As soon as the pressure in the container i and consequently also in the small cylinder k exceeds the limit for which the spring k ^{2 is} regulated, the piston k ¹ - goes down, thereby turning the tube & ⁵ and thus setting the through this tube both sides of the piston in direct communication with one another, so as to cancel out any compression work done by the pump g. The gas is compressed by means of a small pump Z in space m; the latter is arranged above the above-mentioned container i and separated from it by a membrane η , which the latter is arranged in such a way that it hangs into the container i under normal circumstances. This membrane, which can be replaced by any other device having the same properties, has the purpose of automatically regulating the gas pressure as well as the air pressure, which must always be the same in the two containers i and m.

The machine shown in the drawing

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has two inflow valves ο and two outflow valves p. The inlet device shown particularly in FIG. 4 is actuated from the working shaft A by means of the disk B and the lever C ; the latter oscillates about a fixed axis D which actuates the distribution pistons q on each side of the cylinder. The air from the reservoir i passes through the tube ο ¹ and likewise the gas from the reservoir m through the tube ο ² ; the mixture is formed in space o ³ before it enters the working cylinder. Finally, this inflow device is set up in such a way that a stream of compressed air can be sent into the working cylinder with each piston stroke in order to drive out the combustion residues. For this purpose, the openings s of the air supply are opened a moment before those of the gas supply, specifically at the moment when the working piston has almost reached the end of the piston travel. Exactly at the same moment the outflow valves ρ are also opened; they close only at the same time as the opening of the gas inlet device.

Figures 1, 2 and 3 illustrate the mechanical actuation of the outflow more clearly; the same takes place by means of the disk p ¹ and the cross member p ² connected to the two valves. Of course, any other mechanical device can also be used to achieve this purpose.

The work is transmitted by a balancer E, whose fixed point of oscillation is at F and on which the connecting rod H engages at G. At its lower free end, the balancer is connected to the piston rod e by a clasp i or some other suitable device. The mixture in the cylinder can be ignited by means of the wires r by any suitable source of electricity. The regulator acts on the inflow time and not on the mixing ratio.

Claims (2)

Patent claim: In gas engines, which are fed with working mixture from two special containers for gas and air and fill these containers through an air pump and a gas pump, the connection of the following two devices with each other: 1. for the purpose of the automatic pressure equalization in both containers the arrangement of one flexible wall which separates the two container spaces from one another; 2. The arrangement of a pressure regulator on the pre-air tank, consisting of one on the one hand from the Prefsluft and on the other hand loaded with certain pressures piston, its Shift causes a connection of the two ends of the air pump cylinder as soon as the prevailing in the pre-air tank Pressure exceeds a specified limit. In addition 3 sheets of drawings.