DE388610C - Reversible marine turbine - Google Patents

Description

The invention relates to reversible axial steam turbines, in particular turbines for Ship purposes, their reversal by changing the direction of flow of the steam he follows.

The invention consists in that the steam is first placed on the axial gears Shovels acted tangentially and that a reversing slide the steam from the Tan-ίο gentialschaufeln transferred to the axial blades.

Fig. Ι is partly elevation and partly Section, Fig. 2 the external view, Fig. 3 the end view of such a turbine; Fig. 4 is partly in section and partly in end view similar to the machine shown in Figure 3; Fig. 5 shows in section the upper valve body; Fig. 6 is a detail section through a slide plate in this housing; Fig. 7 is a bottom view of this Slide plate; Fig. 8 is a plan view of the valve body after the plate has been removed; Fig. 9 is a plan view of the first valve body; Fig. 10 is a section through the Slide body in this housing along line 10-10 of Fig. 11; Fig. 11 is a view of on the bottom of the valve body, and Fig. 12 shows a partial section and a partial view of the valve body shown in Fig. 9 to 11 and slide again.

The stationary cylinder 25 encloses the rotor 26, which is wedged on the shaft Z ¹ J. The latter runs in the bearing blocks 28 of the frame 29. According to FIGS. 1 and 4, the rotor consists of a number of rings which are seated on the shaft 27 with hubs 100. The wheel arms are held together by bolts 101. The rings 98 carry the inwardly directed blades 107 and the outwardly directed blades 108.102 are guide vanes ^

Ring channels 103 are arranged in the cylinder 25. Lead from these annular channels 103 Channels 104 to the outside. The steam that at 105 (Fig. 1) entering through the nozzle 106 in a direction parallel to the axis the axial gears.

Above the housing 25 is a Steam outlet chamber 31, into which the steam after its action on the blade 108 overflows. A second chamber 32 communicates with this chamber through pipes 33; the steam is thus released from the outlet chamber 31 transferred into this second chamber 32.

Immediately above the outlet chamber 31 there is the inlet chamber 32, designed as a valve housing, into which the steam overflows from the boiler through pipe 38 and opening 42. The steam control is carried out by those indicated in Fig. 2 at 39, 40 and 41 Valves.

The bottom of the chamber 32 has the openings 44, 46, 48, 50 shown in Fig. 9, the outlet opening 60 and the openings 51, 49, 47 and 45. Of these openings the bottom plate The channels 52, 54, 56, 58, 59, 51, 55 extend through the casting of the cylinder and 53. They open into the steam cylinder 25 and are designed differently so that through them different numbers of wreaths can be acted upon or the steam can be returned from the loaded wreaths.

088610

The valve body shown in Figs. Io, ii and 12 is now on the bottom of this slide chamber 61 arranged. This body has a circular support surface, with which it is on the bottom of the chamber 32 is seated. A number of openings 62 to 69 on the lower surface of the body 61 are distributed there similarly as the openings 44 to 51 on the Bottom of the chamber 37 itself. However, the openings 62 to 69 in the body 61 are in pairs connected by channels while an inlet port 70 passes upwards and so with the vapor space of the chamber 37 is in communication. So this body becomes 61 placed on the bottom plate of the chamber 37 in such a way that, for example, the bore 70 is congruent with the opening 44 of the base plate, the other openings are also located 62 to 69 of the valve body 61 in overlap with the other openings 45 to 50 and 60 of the base plate. The steam will therefore flow into the channel 52 through the opening 44, affect a blade ring of the turbine, flow back from the channel 53, through the opening 45 of the bottom plate in the Overflow channel from 62 to 63 and, since opening 63 is now with opening 46 is in cover, through the channel 54 to the turbine, channel 55, then through the cross hole 64 to 65, duct 56 to the turbine, closed; back to channel 57, through the cover ■ located holes 49, 66, transverse channel 66, 67, for opening 50, channel 58, channel 59, bore. 51 of the plate into the transverse bore 68, 69 and from here through the opening 60 of the base plate flow into the outlet chamber 31. The turbine; is then applied in all wreaths.

The slide body 61 can now be adjusted in this chamber 31 such that the The turbine is acted upon in the other direction, and for this purpose it is the planing device shown in Fig. 9 and Fig. 2 arranged. The handwheel 77 sets the spindle 76 with the gear 75 and a sector 73 in rotation through which the The slide is adjusted about the axis of the housing 37 through the intermediary of the handlebars 71, 72. As a result of this partial rotation of the slide, the inflow opening 70 then coincides with it the opening 45, and the loading takes place in the opposite direction.

The steam escaping from the channel 60 flows out of the housing 31 through pipe 33 in the upper compartment 32 of the housing. A slide 90 is also rotatably arranged in it. Bottom 81 in the housing 32, which is the slide serves as a support, has openings 84 to 87 (Fig. 8), and these openings are in pairs with those tubes 34, 35 in connection, which the steam now on the axial blades 102, 107 guide (Fig. 1). A central opening 88 goes to the exhaust port 36. One relatively large recess 90 in the interior of this body has bulges in order, for example, to cover the holes 91 and 92 with the holes 84 and 85 bulges of this cavity 90 to bring in communication with the openings 86 and 87. The flowing from the pipe 33 For example, steam flows into the tubes through openings 91 and 92 and 84 and 85 35, and after releasing its energy it flows back through the pipes 34 to pass through the Holes 86 and 87 to enter the cavity 90. This cavity lies above the central opening 88 of the plate 81, and this central opening is again with the exhaust line 36 tied together. The now almost tension-free steam can from the pipe 36 in a any capacitor can be introduced.

According to Fig. 2 and 3 that device is which the relocation of the lower slide takes care of reversing the turbines the spindle 80, a lever 96 and links 95 connected, which in a similar manner to the Upper plate sliders are connected as is the case with respect to the lower slider has been described.

Claims (2)

Patent Claims: 1. Reversible axial steam turbine, especially for ship purposes, in which the reversal is done by changing the direction of flow of the steam, with successive wreaths of moving Blade pitch on a rotor in cooperation with fixed blade pitch on a stationary wreath and a housing that serves as a steam box, a convertible Contains valve and is provided with channels for the supply or discharge of the steam from and to the blade rings, characterized in that the axial gears carry the blade face (108) to be acted upon tangentially, which the steam first is applied and the exhaust steam is fed through a slide (89) to the axial gears will. 2. Turbine according to claim 1, characterized in that immediately above the Cylinder (25) a steam outlet chamber (31) is provided, from which the steam in a steam chamber (32) is passed, from where it is passed through slide (89) and channels (34, 35) into the axial gears and then into the outlet channel (36). 1 sheet of drawings.