DE270382C - - Google Patents

Description

IMPERIAL

PATENT OFFICE,

PATENT LETTERING

270382 CLASS Ud. GROUP

MORITZ HOCHWALD in BERLIN.

Patented in the German Empire on June 24, 1908.

The invention relates to a piston valve for steam engines with internal inflow and multiple inflow openings caused by a slide channel and with Mu- ■ Schel arrangement within the slide.

Structurally similar slide arrangements are already known. The trick piston valve is an example of such an arrangement. But with this slide it breaks

ίο the channel the inflow cover, what the principal The disadvantage is that only a narrow web remains for sealing against the live steam space, which is a sufficient one Can not achieve sealing. The advantages of multiple openings are therefore consequential Increased vapor permeability, in turn, is partly lost. With another one that became known Slider arrangement with a shell arrangement within the slider body is the shell

ao not as in the case of the subject matter of the present invention together with the slide body, but operated by a special slide rod, and the mode of operation is such, that the chamber only during expansion and not also, which is very important, during the compression connection after the cylinder port receives. The Chamber must therefore agree every stroke change is first filled with live steam and is therefore a harmful space.

A slide with slide channel and inner shell has also become known, in which the latter is operated together with the slide body. The inner shell but with this slide it is used for the downflow and not, as with the new slide, the inflow. This has the disadvantage that the chamber is only at the beginning of the compression and is in communication with the cylinder channel at the end of the expansion; it will be the for the compression in the chamber is not recovered during expansion, on the contrary, it is almost completely lost because the Compression already begins with the counter-pressure tension, while the expansion work only. up to the final expansion stress, which is always considerably higher than the counter-pressure stress lies, can be exploited.

In addition, a piston valve with a grate slide arranged in its interior is known, in which the grate slide controlling the live steam flow is normal, which the Piston valve controlling cylinder channels has smaller inflow coverages, so that the im Piston valve available space at the beginning of the expansion, and at the end of the compression participates. This known slide arrangement has the disadvantage that the number of sealing edges compared to the number of inflow openings is large; so z. B. If there are two main steam openings, there are four sealing edges, which leads to a disadvantageous change in pressure in the closed chamber space of the slide give rise to trapped steam. The invention eliminates this drawback Use of the known piston valve with inserted mussel valve to to improve the known mode of action. The latter is made possible by the fact that the number the sealing edge is reduced in relation to that of the live steam inflow, because, for example, with two main steam inflows, there are only two sealing edges available. It therefore becomes the tension of the

steam sealed in the piston slide chamber can be changed less than if four sealing edges were present, as is the case with the known grate slide.
Fig. Ι shows the new slide in its simplest embodiment. C is the live steam space that opens out with channel B in the slide surface. A, A ₁ are the steam inlet ducts leading to the cylinder ends.

ίο A slide valve D is built into the valve body. The webs of this shell control the inflow. For the cylinder channel A , the inflow takes place at the edges 2 'and 6, and for the cylinder channel A ₁ at the edges 1 and 2 of the valve clam bars. The outflow takes place on the outside at the edges 7 and 8 of the slide body. Between the channels B and A or B and A ₁ , annular recesses E, E are provided in the sleeve of the slide, which means that the inflow gaps are doubled when the bars of the slide valve work together, as indicated by the arrows in the figure . In order to allow this doubling of the inflow gaps to come into its own, the slide edges 9 and 10, which open the slide chamber K , have a cover that is considerably smaller than the inflow cover. So before the edges of the valve clam webs clear the inflow, the edges 9 and 10 have already opened the cylinder channel wide and the connection between the latter and the cylinder channel

^v slide chamber K produced. From the beginning of this connection, the chamber becomes a compression space. However, the compression work expended is fully recovered after the filling has been closed during the expansion.
If you consider the advantages of this slide, they can be summarized as follows:

i. Exceptionally good tightness. Two paths lead from the main steam room to the Valve chamber. However, there is no difference between the slide chamber and the cylinder channel itself the double opening only a single way, on which possible loss of steam can enter. Because the covers on the one hand between the slide chamber and cylinder channel and on the other hand, between the valve chamber and the live steam chamber, complement each other, so is the escape route for the Live steam still doubly blocked, so to speak. This seal is also all the more perfect, because the webs of the mussel work exclusively in the live steam room, and therefore always remain exposed to the same temperature, and there are therefore leaks as a result of Ver Throwing of the material due to temperature changes is excluded. -

2. Double opening of the inflow channels, therefore precise vapor closure and avoidance of throttling losses.

3. The walls and volume of the harmful space fall regardless of the double opening only very slightly because there is only a single cylinder inlet port.

4. The valve chamber exerts a moderating effect on the compression end tension. This is of particular value in the case of axis regulator and link controls, which are known to have very high compressions with small fillings. By virtue of the slide chamber, you can work with full slide box pressure even with the smallest fillings, without loops in the diagram and the associated work losses, and without the linkage working unsteadily. - _:

Figs. 2, 3 and 4 in various working positions a slider is with two opening out on the cylinder mirror steam channels B ₁ B and with an arrangement of two slide shells D, D and B ₁ B disposed annular recess between the two channels E. The thus equipped As the arrows shown in FIG. 3 show, the slide provides a three-fold opening for the inflow.

If one wants to achieve a further increase of the Er-'Öffnungsspalten, it is only necessary to shift mirror, also in FIGS. 2 and 4 between the cylinder channel A or A ₁ and the channels B, B with recesses according to E of Fig. 1 to Mistake.

Claims (2)

Godfather sayings: 1. Piston valve for steam engines with internal inflow and multiple, through a chamber of mediated inflow openings, characterized in that the known, within the piston valve connected to it and working together with recesses of the valve mirror carries the normal inflow covers, while the piston valve controlling the cylinder channels in a known manner has a smaller inflow cover. 2. Piston valve according to claim 1, characterized in that the steam entry into the piston valve takes place through two channels (B, B) arranged in the valve mirror and two valve shells (D) of the piston valve which cooperate with these. 1 sheet of drawings.