DE2309743A1 - PLATE HEAT EXCHANGER - Google Patents

Description

The invention relates to a plate heat exchanger, the plates of which have a distribution surface 6 with grooves 22 between the heat exchange surface 7 and the inflow opening 1 for a heat exchange medium, which run between the inflow opening 1 and the heat exchange surface 7 and are delimited between ribs 21 running next to one another, of which a rib 21a, 21b extending along one side of the distribution surface 6 forms a side wall of a sealing groove lying outside the distribution surface, this side wall merging into the bottom surface 27 of the sealing groove along a continuous line so that a seal 9 lying in the groove provides continuous support from the rib 21a, 21b, the ribs 21, 23 and the grooves 22, 2k being arranged in the various plates so that the ribs one

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Plate cross and against the ribs formed by the grooves on the opposite side of an adjacent plate these ribs butt without extending so far that they support the bottom surface 27 of the sealing groove of this plate.

Two plates arranged side by side in a plate heat exchanger of this type are shown in Fig. 1 of the drawing. Each of these plates, labeled A and B, has four openings 1- k or 11-14 and a seal 5 or 15, which is located in a groove which extends along the circumference of the plate outside of said openings. The heat transfer part of each plate is divided into three fields 6-8 or 16-18, of which the middle field 7 or 17 forms the actual heat exchange surface of the plate, on which the main part of the heat transfer between the two media takes place. It is intended that the back of the plate A will touch the front of the plate B.

On the front side of the plate A, a heat exchange medium from the port 1 is intended to flow to the opening 3, while on the front side of the plate B (backside of the plate A) another VMrmeauetauechmedium from the opening 14 h to the opening 12 (of the opening to the opening 2) or in the opposite direction . On the front side of the plate A are the openings 2 and k of the heat transfer part of the plate

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separated by seals 9 and 10, respectively, and the openings 11 and 13 of the heat transfer part are on the front side of the plate B this plate separated by means of seals 19 and 20, respectively.

Referring to Figure 2, there is shown a more detailed view of the distribution surfaces 6 and 16 of panels A and B, respectively. In the distribution surface 6 of the plate A, side-by-side ribs 21 are formed, between which grooves 22 are formed. Through these grooves, which are wider than the ribs, the heat exchange medium entering through the opening 1 is intended to be distributed over the entire width of the actual heat exchange surface 7 of the plate. Corresponding ribs 23 and grooves 2k are formed in the distribution surface 16 of the plate B. These extend so that they form an angle with the ribs 21 and the grooves 22 of the plate A. Therefore, the ribs 23 of the plate B cross the ribs formed on the rear side of the plate A by the grooves 22 and abut against them.

tyier over the ribs 21 at their opening 1 closest located ends, the plate A has a flat part 25. This is intended to be in sealing engagement against the seal 19 of the plate B when panels A and B are assembled. A similar flat part 26 is found on plate B. the ends of the ribs 23 closest to the opening 12

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- if -

FIG. 3 shows a cross section along the line III-III of FIG. 1 through the plates A and B and a further plate C, which is designed in the same way as the plate B. In this figure, ribs 21 and 21a of plate A and a groove 22 formed between these ribs are shown in cross section. The rib 21a forms a side wall of the aforementioned groove in which the seal 9 is located. The bottom area of this groove is 2? designated. The plate B lying below the plate A has one of the aforementioned ribs 23t which is the underside of the groove 2 ?. cross the plate a and push against it. The butt ends 23, as shown, to the aforementioned flat portion 26 of the plate B. A corresponding flat portion of the plate G 2NC abuts sealingly against the upper öeite the like processing. 9

A heat exchange medium entering through the opening 1 of the plate A (FIG. 1) flows through the grooves 22 in the Gap between plates A and C (Fig. 3), i.e. perpendicular to the plane of the drawing in Fig. 3. Between plates A and B, the other heat exchange medium flows in parallel to the ribs 23 of the plate B, as indicated by the arrows 29 in FIG.

t
If a plate exchanger, the plates of the described

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NEN type, is put together, the panels are pressed against each other in such a way that the seals are pressed together and a sealing pressure is created, with heat exchange is made possible with the heat exchange media at superatmospheric pressure. With this clamping of the Plates the gasket, which extends along the circumference of each plate, lies in correspondence with the gasket 5 or 15 in Fig. 1, sealing against the bottom surface of the groove of the adjoining plate, in v / which groove is the corresponding Seal this plate is located, and at the same time supports the said bottom surface of the groove. Appropriate support however, is not obtained for the bottom surfaces of the grooves in which the plate seals are arranged, which the Seal 9 or 19 correspond. From Fig. 3 it can be seen that the plate located behind it does not have a seal in this Area has. This is required to enable that the heat exchange medium flows into this space between the plates (cf. arrows 29).

As a result of the lack of support of the bottom surfaces of these sealing grooves, the plates bend in these areas if they are pressed against one another with too great a force. This is illustrated by the dashed line 30 in FIG. 3. The result shows that the seals considered, ie the seals 9 _f 10 and 19, 20

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in Fig. 1, less than the other seals, i.e. the seals 5 or 15, pressed together on the periphery of the plates; will and consequently are unable to withstand such a high superatmospheric pressure of the heat exchange media as the to seal the latter.

To solve this problem you have previously been forced to use plates of this type along the flat parts 25, 26 and 20 Welding support elements, for example in the form of corrugated strips, which when the panels are compressed support the bottom surfaces of the sealing grooves in the adjacent plates without the flow of the heat exchange medium to hinder in the plate gaps, where they are, significantly. The use of such support elements means however, a complication in the manufacture of heat exchange plates. Pockets can form on the support elements which are undesirable from a hygienic point of view. aside from that Solid components in the heat exchange medium, such as foreign matter, fibers, etc., can be deposited on the support elements and form obstacles to the flow of heat exchange medium.

According to the invention a new solution to the problem of insufficient support for certain parts of the panels in proposed a plate heat exchanger of the type described above.

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The solution consists in the feature of forming each plate in the regions closest to the sealing grooves under consideration in such a way that the need for a support of the type mentioned above for the bottom surfaces of these grooves is substantially reduced. The invention is characterized in that the cradle located in the distribution surface of each plate, which forms the side wall of the sealing groove in question, is provided with recesses which are formed on its side turned away from the sealing groove so that the bottom surface of the groove in the distribution surface, which is closest to this rib, He receives expansions in the direction of the sealing groove at the points where it is supported abge by the ribs of the adjacent plate, these ribs are designed so that they extend calibration to these extensions of the groove bottom surface. As a result of this design of the plates, they support one another more closely on the sealing grooves mentioned than before. Furthermore, the lip, which forms the side wall of the sealing groove, receives wall parts which are directed transversely to the sealing groove and which are arranged in alignment with the support points which lie between the two mutually abutting plates in the area in question. These two facts have the effect that the plates are much more rigid in the transverse direction to the sealing groove and that the strength of the plates is precisely at these

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Places where the panels support each other in this area, increases. A deflection of the type shown in dashed lines in FIG. 3 can in this way in the present case If clamping pressures occur, turn significantly less.

In a preferred embodiment of the invention, the Rib, which forms the side wall of the sealing groove, is narrower and lower than the places where the next one Groove runs. As a result, the edge part of the rib under consideration, which is directed transversely to the sealing groove, is enlarged. Preferably the lower parts of the rib have the same extension in the longitudinal direction of the rib as the enlarged ones Parts of said groove. Between the widened parts of the groove, these flatter parts with such an extension can be made have that the deep parts of the groove are only formed by grooves running across the groove in its bottom surface get lost.

The invention will now be described with reference to the drawing. It owns:

Fig. 1, as previously mentioned, two heat exchange plates of the type under consideration;

Fig. 2 parts of these plates in detail; 3 shows a cross section along the line III-III in FIG. 1;

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FIG. K shows a view of part of a plate designed according to the invention; FIG.

Fig. 5 is a longitudinal cross-section of three plates of this type the line V-V of Fig. * f;

Figure 6 is a view similar to Figure h of a plate formed in accordance with another embodiment of the invention;

7 is a view of a plate formed in accordance with a further embodiment of the invention; and

FIG. 8 shows a section of the plate along the line VIII-VIII in FIG. 7.

The plate A shown in FIG. 2 has parallel ribs 21 and grooves 22 formed between them, which extend from the opening 1 to the central part of the plate. The rib closest to the seal 9 forms a side wall of the groove for this seal. This can be seen from Fig. J> , in which this rib is designated by 21a.

In the previously known plates of this type, the side surface of the rib 21a turned away from the seal 9 runs without interruption along the rib. However, this is not the case in a plate designed according to the invention. This can be seen in Figure k which is a view of part of such a plate. The bottom surface of the groove for the

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Here, as in FIG. 3, seal 9 is designated by 27. The rib forming the side wall of the sealing groove, here denoted by 21b, merges into the bottom surface 27 of the sealing groove along a continuous line, whereby the rib provides continuous support for a seal located in the sealing groove along its entire length. On the other hand , the rib 21b merges into a groove in the distribution surface of the plate. This groove is denoted by 22a in FIG. K. From the drawing it can be seen that the rib 21b has several narrower parts 30 in its longitudinal extension . The groove 22a is thereby expanded at these points in the direction of the sealing groove. These extensions are denoted k in Fig. 31.

In Fig. K show dashed lines to the expansion of the ribs 23a of an adjacent panel, which cross the bottom of the groove 22a and abut them. It can be seen that these ribs, denoted by 23a, cross the groove 22 at those points where they are provided with extensions 31. The ribs 23a extend far enough to also support the bottom surface of the groove 22a at these extensions.

Fig. 5 shows a cross section through three plates, which it is designed according to the invention . The cross-section is longitudinal

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the line V-V of Fig. ^ f, i.e. through one of the narrow parts 30 of the hip 21o and an extension 31 of the groove 22a.

In FIG. 3, which is designed according to the prior art Plates shows, is a distance S between the point at which the bottom surface 27 of the sealing groove merges with the rib 21a and marks the point closest to the seal groove where the one on the other side of the rib 21a Groove 22 is supported on its underside by the ribs 23 of the adjacent plate. In Fig. 5, the invention shows formed plates, the corresponding distance is indicated by L. It can be seen that the distance L is much smaller than the distance S. This means that a plate formed according to the invention from the adjacent Plate is better supported in the area of the seal 9 than a plate formed according to the prior art.

It can also be seen from FIGS. K and 5 that the rib 21b is also lower at its narrow parts J> Q than at the other parts of its length. As a result of this particular shape of the rib, parts of its walls are extended substantially transversely to the longitudinal direction the rib. These parts of the rib walls, indicated in the drawing by 32, make the plate rigid against deflection in the direction transverse to the rib. .

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In Fig. 6, another embodiment of the Hippe 21b ge shows which forms the side wall of the seal groove. Each of the narrower parts 30 of the rib 21b here has a length such that it extends beyond two of the crossing ribs 23a of the adjacent plate .

Fig. 7 shows a plate on which the ridge 21b closest to the sealing groove has the same shape as the ridge 21b in Fig. K , while the groove 22a extending next to the ridge has shallower parts 33 between where its bottom surface is is supported by the ribs 23a of the adjacent plate.

Fig. 8 shows a section along the line VIII-VIIl of Fig. 7 · It is seen that the surface shown in Fig..5 received an extension of 3 ^ in this embodiment, the plate 32 extending transversely over the entire width Groove 22a extends. Thanks to the surface formed by the surfaces 32 and 3 ^ together, a plate of this embodiment will be particularly rigid against deflection in the transverse direction to the sealing groove.

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Claims (5)

23097A3 Alfa-Laval AB Claims Π. i'lattenwärmeaustauscher, whose plates are between the Heat exchange surface and the inflow opening for a heat ^ exchange medium have a distribution surface with grooves that. .ix the inlet opening and the heat exchange surface and are delimited between side-by-side ribs, one of which extends along one side of the distribution surface extending rib forms a side wall of a sealing groove lying outside the distribution surface, this side wall merging into the bottom surface of the sealing groove along a continuous line, so that an in The seal lying on the groove receives a continuous support from said one rib, the ribs and the Grooves are arranged in the various plates so that the ribs of one plate correspond to those of the grooves on the opposite Cross the ribs formed on the side of an adjacent plate and push against these ribs, but without so far to run so that they support the bottom surface of the sealing groove of this plate, characterized in that the rib (21b), which forms the side wall of the sealing groove, with recesses is provided, which are formed on their turned away from the sealing groove side so that the bottom surface of the 309840/0792 Groove (22a) in the distribution surface (6) that this rib
is closest, enlargements (31) in the direction of the sealing groove at the points where it is supported by the ribs (23a) of the adjacent plate, which
Ribs are formed so that they extend to these extensions (31) of the bottom surface of the groove (22a). 2. Plate heat exchanger according to claim 1, characterized in that that the groove (22a), which is widened at certain points, has shallower parts (33) between these points. 3 plate heat exchanger according to claim 2, characterized in that that the deeper parts of the groove form grooves which extend in the transverse direction of the groove. 4. Plate heat exchanger according to one of the preceding claims, characterized in that the rib (21b) forming the side wall of the sealing groove is lower opposite where the closest groove extends. 5. Plate heat exchanger according to claim k, characterized in that the lower parts (30) of the rib (21b) the
same elongation in the longitudinal direction of the rib as the
have enlarged parts (3I) of the closest groove (22a). 30984070792