DE1945035B2 - Steam converting valve - Google Patents

Description

30th

The invention relates to a steam converting valve with behind or partly also in front of the reducing cross-section arranged cooling water injection holes and upstream cooling water control valve as well with a valve body with a tubular extension, which is provided with cooling water passage openings Cooling water supply pipe slidably overlaps and its relative position to the cooling water supply pipe the reducing cross-section and the determining the amount of the injected cooling water ^ "Corresponds to the setting of the cooling water control valve.

A known steam converting valve of this type has a tubular shape coupled to the valve body Organ on whose setting the passage cross-section of the injection holes as a function determined by the reducing cross-section. This steam converting valve is designed so that at the adjustment of the valve body, the change in the cross section of the injection bores on the outlet side The opening of these holes takes place in that these openings are more or less exposed.

- - be practiced. The exit mouths are thus at

partial coverage out of round. The consequence of this is a poor outlet flow, so that one can no longer speak of a flawless nozzle-shaped outlet, as well as a high level of wear at the control edge.

In contrast, the object of the invention is to influence the cross-section of the passage to make the injection bores depending on the reducing cross-section in such a way, that a nozzle-shaped outlet is maintained and a perfect outlet flow below Reduction of wear is achieved.

For this purpose, the invention provides that the cooling water supply pipe into the valve body is extended and that its cooling water passage openings with the in the valve body and the tubular approach arranged cooling water injection holes work together, the overlapped Part of the cooling water supply pipe acts as a stationary gate valve, which the cooling water injection holes covers the inlet side according to the respective reducing cross section.

On the basis of this design, the passage cross section of the cooling water injection bores is influenced depending on the reducing cross-section in such a way that a nozzle-shaped Outlet is retained and a perfect outlet flow with a reduction in the Wear and tear is achieved. This improvement is based on the fact that the passage cross-section of the injection holes It is not regulated on the outlet side, but on the inlet side of the cooling water. The passage cross-sections of the injection bores are thus adapted to the respective cooling water requirement on the inlet side adapted, d. H. to the amount of cooling water supplied through the cooling water control valve. Through this the result is that the nozzle effect persists even with the smallest amounts of steam to be cooled and complete atomization and evaporation of the cooling water is guaranteed. The danger of Erosion through entrained water droplets is thus eliminated.

As an example, let us assume that the steam reducing cone is designed from 10 to 100% stroke position for 10 to 100% throughput. Furthermore, let the reducing cone be open ^{to 100 0} O at a maximum steam flow rate of 100 t / h. Then at part load, for example 10 t / h steam throughput, based on a linear stroke / flow characteristic, the opening is likewise 10%. If one continues to assume the same temperature cooling, then b: the amount of cooling water also only carries 10% of the maximum amount of cooling water, namely that for 100% opening.

For illustration, an embodiment is shown in the drawing. In this embodiment it is a straight-way valve with staggered inlet and outlet. The hot one High pressure steam is supplied through the connection pipe 1, while the cooled and reduced steam exits through tube 2. There is therefore a lateral offset within the valve housing 3.

The hot high-pressure steam arriving through the connecting pipe 1 passes through openings 4 into the Valve housing 3, within which the replaceable valve seat body S is arranged. The reducing cross-section is here formed by the annular gap 6, which is located between this valve seat body 5 and the axially displaceable valve body 7 is located. The latter has the shape of a cone with sinem tubular extension 8. The bore of this tubular extension 8 is located in the valve body 7 away into it. The cooling water is supplied by an exchangeable inside the valve housing 3 arranged cooling water supply pipe 9, which is provided with cooling water passage openings 10 and 11 is and slid over by the hollow valve body 7 and its tubular extension 8 will. The valve body 7 and its tubular extension 8 are provided with different injection bores 12 and 13 provided. It can be seen that with axial displacement of the valve body 7 and its tubular Approach 8 by means of the valve rod 14 the

V.

Injection bores are exposed on the inlet side. You can this by the valve body 7 and its tubular extension 8 overlapped end of the Consider cooling water supply pipe 9 as a gate valve, which is arranged at rest.

So you have it in your hand, through appropriate distribution the injection bores 12 and 13 in the axial direction, by choosing the number of these bores and their distribution over the entire surface of the valve body 7 and its tubular attachment 8 as well as through the dimensioning of their passage cross-sections in each operating position the free total To dimension the passage cross-section so that it is in the correct ratio to the corresponding Cross section of the annular gap 6 is available.

As a result, the water injected into the mixing chamber 15 is perfectly atomized even when the cooling water supply is low. From this mixing space 15 the cooled steam of lower pressure then passes through outlet openings 16 into an annular chamber 17 to which the pipe 2 is connected.

1 sheet of drawings

Claims (1)

Claim: Dampfumformveritil with behind or in part also in front of the reducing cross-section arranged cooling water injection holes and upstream Cooling water control valve as well as with a valve body with tubular! Approach that a with cooling water passage openings provided with cooling water supply pipe slidably overlaps and its relative position to the cooling water supply pipe, the reducing cross section and the setting of the cooling water regulating valve that determines the amount of cooling water injected corresponds to, where g ^ denotes, that the cooling water supply pipe (9) is extended into the valve body (7) and that its cooling water passage openings (10, 11) with the in the valve body (7) and the tubular extension (8) arranged cooling water injection bores (12, 13) work together, wherein the overlapped part of the cooling water supply pipe (9) as a stationary gate valve acts that the cooling water injection bores (12, 13) on the inlet side according to the covers the respective reducing cross-section.