SE462060B - HEAT EXCHANGE PLATER WITH SPECIFIC CORRUGATION PATTERNS - Google Patents

Description

462 060 z 10 15 20 25 30 35 90 ° with the flow direction, and those opposite each other the lying profile elements of those in the plate heat exchanger adjacent heat transfer plates run in parallel.

The result is that for maintaining the distance between them adjacent heat transfer plates must be marked on these read special spacers. In addition, such heat transfer guide plates a relatively low intrinsic rigidity and thus a low pressure stability. An advantage of these heat transfer plates is that the flow channels formed by these can designed in such a way that the flow rate component parallel to the heat transfer surface to a large extent pressure and the number of support points at which they in the plate heat exchanger The adjacent heat transfer plates rest against each other. others, may be determined to the extent necessary for the necessary the pressure stability of the plate heat exchanger, the number of penetration points in the flow channel. which lead to an increase of the pressure loss, can be kept low. in the second type of heat transfer plates described above the profile elements arranged parallel to each other run over the entire width of the heat transfer plate with one from 90 ° deviating, essentially constant angle. whereby they opposite adjacent profile elements of those in the plate heat exchanger adjacent heat transfer plates intersect. This is also the case with the heat transfer plates at which the heat the transmission surface is divided into segments. in which they are wavy the profile elements are arranged parallel to each other, but towards the flow direction with a deviation from 90 ', i substantially constant angle, this angle being different at the adjacent segments.

The advantage of this embodiment over the embodiment with parallel control of the profile elements of the adjacent heat transfer the guide plates over the entire width is that the profile elements of the adjacent heat transfer plates can directly support against each other whereby the design of special spacer combs not required and these heat transfer plates have a relative high intrinsic stiffness. 10 15 20 25 30 35 462 060 A disadvantage, however, is that locally there are very large flow cross-sectional variations and that the flow gets one velocity component parallel to the heat transfer surface. This leads to a large proportion for heat transfer not usable feed effect. The number of support points and thus the number of penetration points in the flow channel thereby exceed in rule what is required for the pressure stability of plate heating the exchanger.

The object of the invention is to combine the advantages of heating the transfer plates, at which the corrugated profile elements extends at an angle of 90 ° to the flow direction, with the advantages of the heat transfer plates, at which the shaped profile elements run with a deviation from 90 ° Angle.

The object of the invention is to be known per se heat transfer plates design the heat transfer surface, which is divided into a number of segments and provided with a wavy file so that the opposite profile elements of the adjacent heaters in the composite plate heat exchanger the transfer plates run substantially parallel to the current direction but forms an angle deviating from 90 °.

According to the invention, this task is solved by the number arranged opposite to the flow direction next to each other segments are larger than one and uneven, plus the width of the both outer segments or the adjacent segments or at least two symmetrically relative to the central segment segments arranged are mutually different, the angles, which the wave-shaped profile elements form with flow direction at the segments opposite each other to a plate heat exchanger composite, adjacent heat the transfer plates, are essentially the same. In doing so, they can shaped profile elements of each segment across the current direction of adjacent segments form mainly the same angle or in individual segments also different angles with 462 060 4 10 15 20 25 30 35 flow direction. The width of the two outer segments or those adjacent segments or at least two symmetrically relative to the middle segment arranged segments are at least so different that when joining the heat transfer the plates of a plate heat exchanger support the profile elements of the adjacent heat transfer plates to each other on an electric several in parallel with the flow direction running support lines.

By the solution according to the invention it is achieved that they against each other horizontal profile elements of two in the plate heat exchanger adjacent heat transfer plates run parallel to the front to the support area despite the fact that the profile elements of the adjacent the heat transfer plates rest directly against each other. so that special spacers can be omitted, because through a corresponding choice of the ratio of the widths of those at the both sides of the heat transfer surfaces arranged segments the number of guides is adapted to the necessary pressure stability whereby they flow in the flow channels unnecessarily affecting the support points and at the same time a high self-rigidity of the the transfer plates by a suitable angle between the profiles the elements of the individual segments and the flow direction. even in parallel control of the opposite ones the profile elements of adjacent heat transfer plates. the plate heat exchanger, An embodiment of the invention is described in more detail below with reference to the accompanying drawings, in which Fig. 1 shows heat transfer plates with transverse flow directions heat transfer surfaces divided into three segments. Fig. 2 shows the position of the segments of the heat transfer surface during joining of two heat transfer plates in a plate heat exchanger, and Fig. 3 shows an example of a heat transfer plate. at which the heat transfer surface is divided into more than three segments across the flow direction.

According to Fig. 1, the heat transfer surface 4 of the heat transfer guide plate 5 in an uneven number of segments 1a. lb, lc across 10 15 20 s 462 060 against the flow direction. Within each segment la-lc proceed the profile elements 3 parallel to each other, wherein they with the direction of flow forms a substantially deviating from 90 ° constant angle aa, ab, ac. These angles aa, ab resp. ab, ac of the adjacent segments la. lb resp. lb, lc are different, while the angles aa, ac at the two segments 1a, 1b adjacent to each other are equal.

The width 2a, 2c of those on both sides of the heat transfer the segments 1a, 1c arranged in the plate 5 are different. In the example according to Fig. 1, the segments 1b, le have the same width 2b, Zc while the segments la, lc have different widths Za, Ze which are so chosen that when assembling the heat transfer plates 5 into one plate heat exchanger, each heat transfer plate S towards its adjacent plate is rotated l80 ° around it perpendicular to the center line 8 directed axis, the profile elements 3 of adjacent heat transfer plates 5 are so supported that the support points, like the example according to Fig. 2, are on two adjacent guides 9a. 9b and 10a, 10b.

Fig. 2 shows that the number of support areas 9, 10 corresponds the number of segments la-le arranged one across the plate width minus one.

Fig. 3 shows a special embodiment with five next to each other arranged segments ll, 12, 13, 14, 15.

Claims (4)

462 060 s 10 15 20 25 30 35 Patent claim 1. heat transfer plates with a heat transfer surface provided with a corrugated profile and divided into a number of segments. which, while maintaining a certain distance, is joined in a suitable device to a plate heat exchanger so that each heat transfer plate is rotated 180 ° about its adjacent plate about the axis perpendicular to the same axis and flow channels are formed between the heat transfer plates. each segment consisting of a number arranged parallel to each other. wavy profile elements with respect to the flow direction in the flow channels with a determined. deviating from 90 ° and substantially constant angle. and wherein this angle is different between two adjacent segments. characterized in that the number of segments (la, lb, lc and ll, 12, 13.'14. 15) arranged next to each other in the direction of flow are larger than one and uneven, and the width (2a and 2c) of the two the outer segments (1a, 1c and 11, 15, respectively) or the adjacent segments or at least two segments arranged symmetrically with respect to the middle segment (1b and 13, respectively) are mutually different. wherein the angles (a). which the wavy profile elements (3) form with the direction of flow. at the segments (sa, 7c and Gb, 7b and 6c, 7a, respectively) which lie opposite each other at the adjacent heat transfer plates (5) assembled to a plate heat exchanger, are substantially equal. Heat transfer plates according to claim 1, characterized in that the width (82a. 2c) of the two outer segments (1a, 1c and 11, 15) or the adjacent segments or at least two symmetrically relative to the middle segment (1b) respectively 13 segments are arranged at least so different that when joining the heat transfer plates (5) to a plate heat exchanger, the profile elements (3) of the adjacent heat transfer plates (5) support each other on one or more guide lines (9a, 90 running parallel to the flow direction). 108, l0b). 10 v 462 060 Heat transfer plates according to Claim 1 or 2, characterized in that the wavy profile elements (3) of the segments (1a, 1c, 11c and 11, respectively) of the respective segments (1b and 12, 13, 14, 14) , 13 and 12, respectively. 14 and 13, 15, respectively) have substantially the same slope in relation to the flow direction. Heat transfer plates according to Claim 1 or 2, characterized in that the wave-shaped profile elements (3) of individual segments (1a-1c and 11-15, respectively) are transverse to the flow direction of adjacent segments (1a-1c and 11, respectively). -15) has a different slope in size relative to the flow direction.