DE665594C - Ribbed heating wall for heat exchanger - Google Patents

Description

Ribbed heating wall for heat exchangers For metal heat exchangers (Recuperators, etc.) you have to increase the efficiency through the heating surface Attachment of ribs to the heating walls enlarged.

To improve the efficiency of these ribs, it has been proposed that to slit these in their longitudinal direction, thereby increasing their heating surface will.

Despite this enlargement of the heating surface, the effect was not yet satisfactory the end. The reason lies in the poor ability of the smooth surface.

To modify this deficiency it has therefore been proposed that the ribs cut across their main direction and the resulting small strips to bend sideways and twist so that the ends in the passing Heat exchange medium protrude, cause eddies there and very forcefully be acted upon, whereby the heat transfer is increased.

According to the invention are to further increase the heat absorption or -delivery the bent ends of the strips towards the direction of the heat exchange medium so inclined that the movement of the heat exchange medium to the heating wall is steered. As a result, these and the adjoining parts of the ribs washed very vigorously. So it will be - in contrast to the aforementioned Suggestions - not just the bent strips washed more, but the entire heating surface.

This exposure to the actual pipe wall is very important of the adjoining parts, since with these the heat paths to the interior of the pipes are significant are shorter and in the case of the pipe wall itself the passage cross-section for the heat is considerably larger than the cross-section of the ribs in the known Proposals for the heat transfer almost alone comes into question.

The greater the cross-section for, the greater the heat transfer the heat transfer and the shorter the heat path.

Another feature of the invention is that instead of a single Rib bundles of ribs are applied. This increases the surface area, the number of joints multiplied, the cross-section for the heat transfer. enlarged and the safe transfer of the heat exchange medium to the actual heating wall guaranteed.

The invention is explained in more detail with reference to the accompanying drawing explained.

Fig. I is a longitudinal section through the heat exchanger according to the lines a-b in Fig. 2. Figure 2 is a cross-section of the exchanger according to FIG the lines c-d in Fig. i.

Fig. 3 is a section along the lines F-,? of Fig. 6 and plan view against the bent ends of the ribs.

Fig. 4 is a view against that marked aü £ f '. curved side strips provided ribs of cast heating ribs according to FIG. 3.

Fig. 5 is a cross section through a heating fin made from a sheet metal strip.

Fig. 6 is a cross-section through a heating fin formed from a Bundles of sheet metal strips, along lines g-h in Fig. 3.

The heat-emitting agent runs through the room i from top to bottom and washes around the boxes 2 through which the heat absorbing agent of. down after strokes above. The former gives the heat to the sheet metal bundle 3 through the bent Strip q. 3 and 6 or 8 of FIG. 4 or 9 of FIG. 5. ', The heat migrates through the continuous sheet metal strips 5 and through the actual partition 6 into the boxes 2, where they through the bent sheet metal strips] in the to be heated Means passes.

By increasing the number of sheet metal strips in the bundle and by reducing the height the stripe q. and 7 the heating surface is enlarged and. the heat absorption or -Increased ability of the ribs to dispense. With the means described, the Increased performance of the rib heating walls, so that fewer heating wall surfaces than previously required are, from which it follows that fewer boxes c:; like. for the cross-out means are needed. This simplifies the structure of the entire heat exchanger and cheaper. The space required for the installation is reduced and the Installation possibility increased.

Claims (2)

PATENT CLAIMS: i. Ribbed heating wall for heat exchangers where the Ribs transverse to the main direction divided into many small strips and the strips are bent up in the direction of the heating wall, characterized in that the bent up Ends of the strips so inclined to the direction of the heat exchange means are that the movement of the heat exchange medium is directed towards the heating wall. 2. Rib heating wall according to claim i; characterized in that instead of the ribs from individual sheet metal strips those from sheet metal bundles are provided, whereby a Enlargement of the heating surface and an increase in the joints is achieved.