DE2327842A1 - HIGH PRESSURE HEAT EXCHANGER - Google Patents

Description

PATENT LAWYERS

. <. SiEBERT G. GRÄTTSNGER

Dipl.-Ing. Dipi.-Ing., DipI.-Winsch.-lng.

813 Starnberg near Munich PO Box 1650, Aimeidaweg 12 Telephone (0 81 51) 2730 <1 2730) and 4115

the

Lawyer file 5732/1

Prvni brnenska strojirna, oborovy podnik, Brno

High pressure heat from ch er

The invention relates to a high pressure heat exchanger with a tubular space for the high pressure medium, which opens into a bundle of tubes which pass through a tubular space for the low-pressure medium.

409851/0527

Postal check account Munich 2726 - Kreisspart ■■ - - - · * or (j 68940 · Deutsche Bank Sic-nherg 53/17570

.Where the two tubular spaces through at least one Double partition walls are sealed from each other and the ends of the tubes are welded to the partition delimiting the tubular space for the high-pressure medium are..

The invention has as its object the partition wall connected to the pipes for the high pressure medium To train thin, a welded connection of the'Rohre with to enable another load-bearing partition and to ensure that leakage fluid between the Partition walls can be derived. According to the invention, this object is achieved by a high-pressure heat exchanger mentioned type solved, which is characterized in that the delimiting the space for the high pressure medium first partition at a distance from the. Pipes provided, forming a coherent cavity between them Has projections which are supported with their end faces on the second partition wall. .

By being supported by the projections, a ' significantly higher resilience of those under the influence of the high pressure medium and, for reasons, lighter Can be welded to the pipes as well as to the receptacle from thermal dilatations only a thin first partition is achieved. The arrangement and training according to the invention also provide the projections between the first and second partition wall a space for receiving leakage fluid, so that in the event of: a leak in the welds on the pipes, the two media come together, between where the heat is to be exchanged, is avoided.

409851/0527

In addition, this arrangement of the projections creates space, for a weld seam between the tubes of the bundle and the second partition.

In a preferred embodiment of the invention are the projections through the tubes respectively surrounding depressions, which together make up the cavity on the Second partition facing side of the first partition formed. This makes one in terms of welds between the pipes and the second partition and especially with regard to the absorption of leakage fluid favorable arrangement of the free space between the two partitions is achieved.

Preferably the recesses are considered to be the tubes Concentric, intersecting Saeklochbohrungen carried out because this is easy to manufacture.

In a further preferred embodiment of the invention the projections or the cavity are contained in a separate support part or formed by such a support. This avoids an individual workpiece that is too complicated to shape.

The invention is explained in more detail below with reference to an embodiment shown in the drawing. It is

1 shows a section through a heat exchanger according to the invention along line A-A from FIGS. 2 and

FIG. 2 shows this heat exchanger according to the invention in FIG Top view.

409851/0527

Pig. 1 shows a tubular space 4 into which a bundle of tubes 6 opens, three of which are visible. The space 4, which contains the high-pressure medium, is separated by a first partition 1 and a second partition 3 from a second space 7 for receiving the second medium. The second partition 3 is solid and connected to the tubes 6 via welds. The partition 1, which must be made thin in order to be able to accommodate thermal expansion, in particular of the tubes 6, without undue stress on the welds 8 and 9, is supported by projections 2 on the solid partition 3. In this way, the partition wall 1 can absorb high pressures such as those that occur in heat exchangers in nuclear energy technology. As can be better seen from Fig. 2, the projections 2 leave a cavity 5 free around the tubes 6, which on the one hand leaves space for the welds 8, but in particular serves to accommodate leakage fluid, whereby contact between the two media is avoided. This is where _s it is especially important media in nuclear power engineering, which must not come in contact with each other for security ₉ such as liquid metals and steam. At their outer edges facing one another, the two partition walls 1 and 3 are connected via a circumferential weld 10 shown in FIG. 1, which seals the cavity 5 from the outside.

Patent claims:

409851/0527

Claims (1)

Patent claims: 1.) High-pressure heat from more of a tubular space for the high pressure medium, which opens into a bundle of tubes that form a tubular space for the low pressure medium run through, the two tubular spaces by an at least double partition are sealingly separated from each other and the ends of the tubes with which the tubular space for the high pressure medium delimiting partition are welded, "characterized in that the tubular Space (4) for the high-pressure medium delimiting first partition (1) at a distance from the pipes (6) has projections (2) provided between them and forming a contiguous cavity (5), which are supported with their end faces on the second partition (3). 2. High pressure heat exchanger according to claim 1, characterized in that that the projections (2) through the tubes (6) each surrounding, together the cavity (5) defining depressions on the side of the first partition wall facing the second partition wall are formed. 3. High pressure heat exchanger according to claim 2, characterized in that that the recesses to the pipes concentric intersecting blind holes are. - 409851/052 High pressure heat exchanger according to claim 1, characterized in that that the projections (2) or the depressions' contained in a separate support part or are formed by such. May 30, 1973/95 ² * d 409851/052