DE3126295A1 - Transformer - Google Patents

Abstract

The invention relates to a transformer for expanding and cooling hot vapour, the throttle of which consists of a hollow cylindrical throttle body (10) which is displaceable in a perforated cylinder (8), the throttle body (10) also having bores (11) in such a manner that all bores (9, 11) are sealed in the closed position, that individual bores (11) in the throttle body (10) are exposed first during opening, and that the bores (9) in the perforated cylinder (8) also become free only on further opening. The expanded vapour passes through a sound-absorbing space (12) into the steam outlet (3), where an atomising device (15) for cooling water is situated, which is supplied from outside with cooling water and with hot vapour from a cavity formed from throttle body (10) and perforated cylinder (8). <IMAGE>

Description

B 2 - 7 Rö / Sehn

Applicant: Bochumer Maschinenfabrik

Arthur Schneider GmbH & Co KG Hohensteinstr. 52

4 6 3 ο Bochum

Transformer

The invention relates to a transformer for expanding and cooling superheated steam with a valve housing, one steam inlet and one steam outlet and a closing body which is displaceable in the housing and which is in the closed position rests on a valve seat assigned to the housing and on which a hollow cylindrical Throttle body connects, which is in a perforated cylinder

is slidably inserted, wherein the hollow cylinder Throttle body in its upper section adjoining the closing body has radial bores that form a first throttle stage, and the perforated cylinder in his

lower section is also provided with radial bores, which a second throttle stage form and wherein in the closed position of the valve, the upper unperforated portion of the Perforated cylinder the radial bores in the throttle body and the lower unperforated section of the Ürosselkörpers the radial bores in the perforated cylinder cover and the two throttle stages both a cooling water injection and a silencer are arranged downstream.

Transformers of this type are known. In I) E-OS 2 7 13 I5o a transformer is described, the one from a steam inlet, steam outlet and a displaceable closing body, which in the closed position on one of the valve housing assigned valve seat rests, with attached to the closing body, in its upper Section provided with radial bores hollow cylindrical throttle body, which is in a adjoining the valve seat in its lower section provided with radial bores Perforated cylinder can be pushed in, the lower one being unperforated in the closed position Section of the throttle body covers the radial bores in the perforated cylinder and when Lifting the closing body from the valve seat at the same time the holes in the throttle body and the Bores Lm perforated cylinder become free. Further ~~ the transformer has a water injection, which has the task of passing through the first and second throttle stages To cool steam before it passes through a silencer to the steam outlet.

The disadvantage of this transformer is that the water only enters a narrow space is injected between the second throttle stage and the silencer. The. Shock-like evaporating

3Q cooling water does not have enough expansion space and places extreme demands on the strength of the material Way. Furthermore, fine atomization is dispensed with when the cooling water is injected, so that droplets of various sizes are pressed with force into the silencer, with the very high flow velocity

The ability of the steam to destroy the silencer and the walls.

Atomizing devices for cooling water that work with a part of the superheated steam are known. So in DE-PS 11 37 o37 a device for throttling and cooling of Ileißdampf with a pressure reducing valve and a This atomizer device downstream on the flow side is described in which the cooling water is atomized by a partial flow of the superheated steam and fed to the steam to be cooled. at However, this construction lacks the silencer and the simple structure of the throttle prevents a precise setting of the steam volume, especially since the second throttle level is only through a fixed aperture is formed, so it is not adjustable. In addition, the low enough Amount of steam with small openings of the

The valve for the atomization of the cooling water is not off.

Hs is therefore the object of the invention to provide a known atomizing device in a steam forming ^ valve of the above type to be integrated in such a way that in all throttle positions of the valve perfect atomization of the cooling water is guaranteed.

According to the invention, this object is achieved by that in the middle of the steam outlet a cooling water atomization device adjoins the perforated cylinder is arranged over side feeds

with cooling water and through holes from the 35

Throttle body and perforated cylinder formed cavity can be supplied with steam, and that the

Bores in the throttle body connected to the closing body and the bores in the perforated cylinder are arranged such that when the valve is opened first individual bores in the throttle body released while the holes in the perforated cylinder are still through the unperforated section of the throttle body are covered, so that initially only the first throttle stage tat Lg is, while the second throttle stage only after further displacement of the closing body is put into action.

Advantageous in this embodiment form a Transformers is the simple device for diverting partial steam. It gets complicated on Detour lines are dispensed with, which branch off part of the steam from the steam supply and feed to a cooling water atomization device. Instead, the holes are in the throttle body and perforated cylinder arranged so that before the main flow of steam through the second A sufficient partial flow of the steam already flows through the throttle stage and through the silencer Can set the atomizing device of the cooling water in motion.

Another advantageous embodiment of the invention provides that the atomizing device is arranged downstream of the silencer in the direction of flow is. The advantage of this arrangement is that the muffler can be destroyed more or less large water droplets that would be pressed into the silencer with 3 ucht,

excluded are.
35

Hin embodiment of the invention is in the

Drawing shown and is described in more detail below.

FIG. 1 shows a section through the transformer.

In the drawing, a transformer is shown, which has a housing 1, a steam inlet 2, a Has steam outlet 3 and a plurality of laterally attached '"' water inlet nozzles 4. In the housing 1 a closing body 5 is arranged displaceably in the axial direction, which is a not shown Actuator is assigned to the axial displacement. The closing body 5 has a conical closing part 6, which in the closed position on a likewise conical valve seat 7 is applied, which is arranged at the upper end of a perforated cylinder 8 fixedly connected to the housing is. The perforated cylinder 8 is in his

the valve seat 7 facing end portion and unperforated at the opposite end portion and has a plurality of radially extending bores 9 only in its central part. With the Closing body 5 is a hollow cylindrical flow control

body connected directly to the locking part 6 connects and is guided in a sliding manner on the inner walls of the perforated cylinder 8 is. At its end facing away from the closing body 5, the throttle body 1o is open at the end. In addition, the throttle body 1o in his A large number of walls in the area directly adjoining the closing part 6 of radially extending bores 11. In the area of its facing away from the closing body 5 End section of the throttle body 1o is unperforated and covers - depending on the position of the

3126205

Closing body 5 - some or all of the bores 9 in the perforated cylinder 8. In the fully open position, on the other hand, the throttle body Io releases all of the bores 9 in the perforated cylinder 8. The bores 9 and 11 in the perforated cylinder 8 and in the throttle body Io are arranged so that when the valve is opened only a few bores 11 in the throttle body Io become free, while the walls of the throttle body 1o nocli cover all the bores 9 in the perforated cylinder 8. The bores 9 and 11 in the throttle body 1o and perforated cylinder 8 are arranged in several rows one above the other, and the cross section of the bores 9 and 11 changes from row to row in such a way that it increases in the throttle body 1o away from the shooting body 5, while in the perforated cylinder 8 the Cross section of the bores 9 in the direction of the valve seat 7 increases. The bores 9 in the perforated cylinder 8 connect to a sound-absorbing chamber 12 surrounding the perforated cylinder 8. This sound-damping space 12 has on its underside facing the steam outlet 3: a plurality of bores 13 which connect the sound-damping space! With tig in the steam from laß 5, directly following the perforated cylinder 8, the feed lines 14 from the water inlet nozzle 4 open into an atomizer device 15. This atomizer device 15 is connected to the interior of the perforated cylinder 8 by bores and has an opening 17, which points axially into the steam from 1 ate 3.

In the drawing, the transformer is shown in the closed position. The closing body 5 rests on the valve seat 7. When postponed

of the closing body 5 upwards, the closing part b is first lifted off the valve seat 7. The closing body 5 is then moved further upwards until the first row of bores 11 in the hollow-cylinder throttle body Io is released. The steam passes from the steam inlet 2 into the interior of the throttle body Io and further into the interior of the perforated cylinder S, Jessen bores 9 are still covered by the throttle body 1o. The vapor may nevertheless leave perforated cylinder only through the Rohrungen 16 8 and passes into the atomization liier the steam flows concentrically on the water-carrying opening 17 by, generated a negative pressure which pulls out the> ater from the opening 17th

Shortly behind the opening 17, water combine and steam, are swirled and atomized and reach steam outlet 3. If you move it further the closing body 5 upwards are further rows of holes 11 in the throttle body Io free, and this now also releases the first bores 9 in the perforated cylinder 8, see above that most of the steam passes through these holes 9 in the sound-absorbing chamber 12 and from there through the bores I3 into the steam outlet 3, where it is cooled by the atomized water and leaves the transformer »

- Claims 30

ugs ζ oak list 'Be: casing ⁵ , Steam inlet 2 = Steam outlet 3 = Water inlet connection Closing body Locking part 6th Valve seat 7 = Perforated cylinder S. Drilling 9 hollow cylindrical throttle body 1ο Drilling ³ 11 Silencing room 12th Drilling 13th To guides I 4 Atomizing device ) ^{15 =} Drilling opening ! 7

Claims (2)

Claims Transformer for expansion and cooling of superheated steam with a valve housing, the one Steam inlet and one steam outlet and one in the housing has displaceable closing body, which in the closed position on one of the housing '^ assigned valve seat rests and on which a hollow cylindrical throttle body adjoins, which can be slid into a perforated cylinder, the. hollow cylindrical Throttle body in its upper section adjoining the closing body Has radial bores which form a first throttle stage, and the perforated cylinder in his lower section is also provided with radial bores, which a second throttle stage form and wherein in the closed position of the valve, the upper unperforated portion of the perforated cylinder the radial bores in the throttle body and the lower unperforated section of the throttle body the radial bores in the perforated Cover the cylinder and the two throttle stages both a cooling water injection and a Silencer are arranged downstream, characterized in that in the middle of the Dampfaus outlet (3) then on the perforated cylinder (8) a cooling water atomization device (15) is arranged, which over lateral inlets (14) with cooling water. and via bores (16) from the throttle body (1o) and perforated cylinder (8) formed cavity can be supplied with steam, and that the holes (11) in the closing body C 5) connected throttle body (Io) and the bores C 9) are arranged in the perforated cylinder (8) so that when you open the Valve first individual bores (1 1) in the ^ ürosselkörper (1o) are released while the bores (9) in the perforated cylinder (8) through the unperforated section of the throttle body C 1o j are covered so that initially only the first throttle stage is active, while the second throttle stage is only activated after the closing body (5) has been moved further. is put into action. 2. Transformer according to claim 1, characterized in that the atomizing device (15) is arranged behind the muffler (12) in the direction of flow.