DE277568C - - Google Patents

Description

IMPERIAL

PATENT OFFICE.

PATENT LETTERING

- JVl 277568 - CLASS 14 «. GROUP

HUGO LENTZ in BERLIN-HALENSEE.

controlled outlet slots.

Addition to patent 261690.

Patented in the German Empire on September 24, 1913. Longest duration: April 20, 1927.

The invention relates to a further embodiment of the direct current steam engine according to patent 261690 with controlled by the working piston and a downstream organ Outlet slots. It consists in the special training of the outlet organ, that this not only controls the inlet valves to the associated cylinder, but also an auxiliary sauslaß at the same time, the then automatically takes effect when the compression in the associated cylinder a has reached an inadmissible height or has switched from condensation operation to exhaust operation will. Furthermore, according to the invention, the controlling edges of the slide and the edges of the control cams provided thereon for the inlet valves so arranged to each other that a simple continuous machining of the slide is made possible and there are no special constrictions in the outlet duct.

The drawing shows a composite steam engine without a transducer as an embodiment of the invention shown with a low-pressure cylinder working in direct current. In particular show:

Fig. Ι a cross section along line 1-1 of the Figure 4.

FIG. 2, on the left, a section along line 2-2 of FIG. 1,

FIG. 2, on the right, a section along line 2'-2 ^r of FIG. 1,

FIG. 3 shows a cross section along line 3-3 in FIG. 4.

FIG. 4 at the top a section along line 4-4 of FIG. 3,

FIG. 4 shows a bottom view of FIG. 3,

5 shows a part of FIG. 1 on a larger scale,

6 to 8 sections through the control slide according to the section lines of the same name of FIG. 5.

The composite steam engine Woolfscher design shown consists of a high pressure cylinder 0 and a low pressure cylinder n, in which the two pistons a and b (Fig. 4) move. Both cylinders are connected to one another at their ends through overflow channels c, c '. The live steam enters at d ' (Fig. 3), then passes through the inlet valves p and the overflow channels d into the high-pressure cylinder 0, from here after its partial expansion through the overflow channels c and the intermediate valves m into the low-pressure cylinder η and after its complete Relaxation through the outlet

slots e and the outlet slide f in the outlet port β '.

The spring-loaded inlet valves p are controlled by the control shaft k, which acts on the ends of the inlet valve spindles f by means of the control cam h ' , so that the inlet valves are opened and closed in a non-positive manner in the known manner.

ίο The passage of the steam from the high pressure to the low pressure cylinder is controlled by the likewise spring-loaded intermediate valves m , which are driven by cams i , which are arranged directly on the outlet control slide f in the manner indicated in the main patent. These cams i act on the ends of the valve spindles I.

The exit of the steam from the low-pressure cylinder η through the exhaust slots e is controlled by the working piston b and the downstream rotary valve f , which, where it covers the outlet slots e , has the cross-section f shown in FIG. 8 and, depending on its position, these slots e completes or releases. The rotary valve is controlled by an eccentric (not shown), the rod of which engages the rocker arm g.

In addition to the control channels described so far, special auxiliary outlet channels k (Fig. 4) are arranged along the low-pressure cylinder η , which open on the one hand with vertical bores k ' in the cylinder ends and on the other hand in a bore s' of the central bearing web s receiving the rotary valve f and thus a Establish a connection between the cylinder ends and the exhaust chamber. In the position of the rotary slide valve f shown in FIG. 5, however, these channels k are continuously closed off by the full slide cross section t even when the slide valve f is rotated. When the capacitor is switched on, the low-pressure cylinder then works in pure direct current mode.

In addition to the full cross-section t , the smaller cross-section u is formed by a recess, the controlling edges 3 of which have the position shown in FIG. 7 relative to the control channels k . This auxiliary control slide u should come into effect when, due to the failure of the condensation or for other reasons, the pressure in the low-pressure cylinder exceeds the permissible level, in that the channel openings k are then alternately opened and closed by switching on this auxiliary slide, thereby connecting the respective cylinder ends with the exhaust is made. The machine then works partly in countercurrent. 6p

So that the slide u can automatically take effect if the condensation fails, the entire outlet element f is slidably mounted in a housing q , with one end in the housing q closing off a space q ' like a piston, which through a pipe ν with the condenser is in connection, so that the respective condenser pressure prevails in this space. A spring w housed in the space q ' is used to adjust the control element f. When the condensation is switched on or active, the full negative pressure prevails in the space q' , so that the entire slide f is pressed to the left by the external overpressure and the full part of the step valve, the auxiliary outlet channels k constantly closes off. If the condenser fails and the pressure in the space q ' increases as a result, the spring w comes into effect, which then moves the control element f to the right and switches on the lower part u of the step valve.

So that the drive of the rotary slide valve f is maintained during this adjustment, the other end f ″ of the fork-shaped end g 'of the drive rocker g is encompassed in a claw-like manner.

If, in the described arrangement, the position of the lift cams 1-2 of the control cam i is arranged independently of the position of the control edges 4 of the effective slide cross-section f , it is necessary to narrow the outlet channel e at this point by means of approaches or the like. so that no pre-flow of steam can occur there. In order to avoid this, according to the invention, these control edges 4 and the position of the two uppermost points 2 of the thrust curve i are brought into such a relationship that their distance is the same.

This ensures that the outlet channel e can pass through evenly, and that it is also controlled in the correct manner by the latter where the cam i is located. Furthermore, this special design also enables simple production of the entire slide, because it can be milled smoothly and less deep millings are necessary only where the cams are located.

Claims (2)

Patent Claims: i. DC steam engine with a working piston and a downstream Organ-controlled outlet slots according to Patent 261690, characterized in that that the outlet member (f), in addition to the cam tracks (i) for the inlet control, also carries a stepped auxiliary outlet control slide (t, u) which controls channels (k) leading to the cylinder ends. 2. DC steam engine according to claim i, characterized in that the outlet member (f) is slidably mounted in the housing (q) and is under the action of the condenser pressure and a xo spring (w) in such a way that at low condenser pressure the auxiliary outlet ducts (£) through the full slide part (t). kept closed at all times and controlled by the lower slide part (u) when the condenser pressure is high. For this purpose ι sheet of drawings.