DE1852028U - STEAM TURBINE UNIT. - Google Patents

Description

"Steam turbine housing with associated valve housings, Connecting pipes and steam supply " The invention relates to the novel design of high-pressure steam turbine systems operating at high temperatures, in particular the design of the turbine housing. with associated valve housings, connecting pipes and steam inlets for such systems.

According to a known embodiment of such an arrangement are Valve housing anchored to the foundation frame of the system. With this arrangement the connecting pipes between the valve housings and the turbine must be sufficient be designed to be flexible in order to be able to move between the turbine, the valve housings and the pipe system to be able to absorb occurring temperature expansions.

If the valve housings are anchored to the foundation frame, the desired flexibility of the pipes between the valve housing and the turbine usually achieved by making the pipes long enough. It is possible that the Pipes are given such a length that the larger amount of steam carried in them falls below certain operating conditions dangerous runaway of the turbine caused.

If the valve housing, as is also known, directly on the turbine housing are attached, the turbine housing is the shock forces and torques that emanating from the pipelines connected to the boilers or collectors. In large turbines in which high-pressure steam of high temperature is used is used, these impact forces and torques can be very large.

The invention aims to form a steam turbine housing with associated valve housings, connecting pipes and steam inlets in such Training that a particularly favorable anchorage for those emanating from the boiler Pipes vertically below the axis of the turbine shaft is allowed while the Valve body in a horizontal plane as close as possible to the plane of the shaft axis be supported. This ensures that the turbine is only exposed to pipe pressures which are relatively small and can be precisely determined while also the amount of steam entrained behind the control valves in the system is not too big, so that there is no dangerous passage through the turbine can take place.

According to the invention, it is proposed to design the steam turbine housing with valve housings, associated connecting pipes and steam supply lines as a rigid structural unit. that the valve housing or housings are arranged in a horizontal plane symmetrically to a vertical plane passing through the axis of the turbine shaft bearing. In this sense, a valve housing can be positioned vertically below the Axis of the turbine shaft by means of a fitting piece or the like. Abge on the horizontal plane laid by the shaft axis. be based. As a result, the valve housing including the connecting pipes is secured against displacement in the direction of the turbine axis and prevented from moving transversely to the axis, so that a rigid structural unit results, consisting of the turbine housing with associated valve housings and connecting pipes.

Another embodiment of the invention is that a Pair of valve housings symmetrical to that put through the axis of the turbine shaft bearing Ventikalplane is arranged, wherein the valve housing is provided with inlet chambers connected by pipes.

The steam supplies are expediently approximately in the above-mentioned, vertical plane laid through the axis of the turbine shaft bearing or symmetrically arranged to this. The connecting pipes between the valve housings can be useful be carried out below the turbine housing.

Furthermore, the pipes are left between the valve housings and the turbine housings expediently run in two tracks, one of which from the lower part of each valve housing into the upper part of the turbine housing and the other from the lower part each valve housing leads into the lower part of the turbine housing.

According to a preferred embodiment of the invention, two are the Housing containing control valves arranged so that one on each side of the Turbine lies. The valve inlet chambers of the two housings are rigid means two pipes connected to each other, those below the turbine. and spatially free by the same, are passed through. The steam coming from the boilers is in these cross tubes are introduced in such a way that the steam is caused to run along the entire length Length of cross tubes to flow. After flowing through the valves, the steam flows through a series of connection. roar into the turbine.

The two valve housings and cross tubes form with the turbine housing a rigid unit. This unit is against transverse movement by means of a fitting piece or a similar device anchored to the foundation frame on the same axial center line as the turbine is attached, the unit being supported in this way is that the two valve boxes of the expansion of the cross tubes in the Querrich can follow freely. The unit is anchored in such a way that vertical and axial compressive forces are transmitted to the foundation frame. The vertical and axial expansion of the unit and the pipes connecting it to the turbine both in dimension and in the direction of the corresponding Expansion of the turbine approximated.

Since the connecting pipes leading to the turbine are usually the same The connecting pipes only need to be at the same temperature as the cross pipes enough flexible eye. 4 forms to be around the relative dimensions of the allow vertical and axial direction.

The very rigid unit comprising valve housing and cross tubes that rests on widely spaced supports, is well suited to to withstand the pressure and turning moments of the pipes emanating from the boiler, whereby 'only there is very little risk of seizure between the sliding surfaces of the various fittings and anchoring points occurs.

In the accompanying drawings are several embodiments of the invention for example shown.

Figures 1 and 2 show an end view and a plan view of a Formation of the subject matter of the invention.

Figures 3 and 4 are similar views of an arrangement in which a single valve housing is used.

According to Figures 1 and 2, a turbine housing 1 is in the usual way arranged in such a way that it extends from an anchoring point A in the axial direction can expand freely while the axis of the turbine shaft is opposite the foundation frame remains constant both in the transverse direction and in the vertical direction. One Unit consisting of valve housings and cross connections, the valve housing 2 includes, the inlet chambers by means of two, below the cylinder 1 performing Pipes 3 are rigidly connected to one another, can be carried out on carriers 4 as close as possible stored on the horizontal plane passing through the axis of the turbine shaft. The valves are fixed in the axial direction while they are in the housing Transverse direction to the shaft with the aid of adapters or equivalent devices 5 can move. In this way, the fitting pieces 5 put the housing in axial direction while they are expanding the same together with the turbine allow, d. H. there can be an axial expansion of the housing from the points 5 take place, but no general axial displacement of the unit as a whole.

The unit 3, 4 as a whole is assisted in the transverse direction a fitting piece or other suitable device to the foundation frame a point 6 anchored vertically below the shaft axis.

The unit is supplied with steam through the inlet pipes 7, which are connected to the cross tubes 3 between the ends of the same, preferably at the changing points, are connected from where the steam runs along the entire length of these pipes into the valve housings 2 and flows from there through cross connections 8 to the turbine housing, as in FIG Figure 1 indicated by the flow lines provided with arrows in the pipes is.

In the embodiment illustrated in Figures 3 and 4 are the same parts are denoted by the same reference numerals as in FIGS. In this Case a single valve housing 2 is supported at 4 and includes a steam inlet 7 and steam connection lines 8, which lead to the Turbi. inner housing 1 guide the Housing 2 forms a rigid unit and is on one side on the foundation frame the turbine anchored by means of suitable means 10, which have a general axial and prevent transverse movement, but allow vertical displacement. On the other hand, the housing 2 is by means of a fitting or an equivalent Device, as indicated at 6, anchored, which prevents transverse movement, while it allows displacement in the axial and vertical directions.

The fitting 6 thus results in an axial expansion of the housing together with the turbine allows, while the supports 4 both an axial expansion as well as a cross. Allow outward rotation from anchorage 6.

The steam can come directly from a steam generator or the unit supplied from a superheater, reheater or other energy source will.

Protection claims:

Claims (6)

Protection claims: 1. Steam turbine housing with associated valve housings, connecting pipes and steam supply lines, characterized in that the turbine housing with valve housings and connecting pipes is designed as a rigid structural unit in such a way that the valve housing (s) in a horizontal plane is symmetrical to a vertical one laid through the axis of the turbine shaft bearing Are arranged level. 2. Device according to claim 1, characterized in that a valve housing vertically below the axis of the turbine shaft by means of a fitting or the like. is supported on the horizontal plane laid by the shaft axis. 3. Device according to claims 1 and 2, characterized in that a pair of valve housings arranged symmetrically to the center plane of the turbine shaft bearing is, wherein the valves are provided with inlet chambers which are interconnected by pipes are connected. 4. Device according to claims 1 to 3, characterized in that the steam feeds to the valve housings approximately in the vertical direction, through the axis the turbine shaft bearing laid plane or are arranged symmetrically to this. 5. Device according to claims 1 to 3, characterized in that the connecting pipes between several valve housings below the turbine housing are carried out. 6. Device according to claims 1 to 4, characterized in that the pipes run in two tracks between the valve housings and the turbine housing, one of which from the lower end of each valve housing into the upper part of the turbine housing and the other from the lower part of each valve housing to the lower part of the turbine housing leads.