SE532084C2 - plate heat exchangers - Google Patents

Description

20 _25 30 532 G85: leakage in the connections between the plate heat exchanger and the connection block or equivalent.

This object is achieved with the originally defined plate heat exchanger, which is characterized by an extension of the fastening devices in longitudinal direction which deviates relative to the longitudinal extension of the rest of the end plate and the plate stack.

By providing the plate plate of the plate heat exchanger with curved fastening devices, the strength increases when the end plate is mounted on the connection block or equivalent.

The fasteners are bent down during assembly so that they reach the surface of the connection block or equivalent. The bending of the fastening device causes a stress and in some cases also a plastic or permanent deformation in the transition area between the fastening device and the stack with heat exchanger plates. The deformation causes a deformation hardening at the most exposed place, which increases the strength and stress so that the end plate does not fail under load. This keeps the seals or gaskets between the end plate and the connection block in place. In accordance with another aspect of the invention, the fasteners are designed as protruding brackets from the end plate and asymmetrically placed on its short sides. In accordance with yet another aspect of the invention, one of the fasteners is asymmetrically located on each of the short sides of the end plate. In accordance with yet another aspect of the invention, the fastening devices are provided with holes for mounting the plate heat exchanger at its mounting location.

Additional aspects of the invention are defined in the dependent claims.

BRIEF DESCRIPTION OF THE DRAWINGS In the following, the invention is explained in more detail with reference to the accompanying drawings, in which: Fig. 1 shows a schematic side view of a plate heat exchanger according to the invention; Fig. 2 shows a schematic perspective view of a plate heat exchanger according to the invention; Fig. 3 shows a schematic perspective view of a plate heat exchanger according to the invention and a mounting block; Fig. 4 shows a schematic detail view in perspective of the plate heat exchanger according to the invention and the mounting block; and Fig. 5 shows a schematic detail view in perspective of the plate heat exchanger according to the invention during mounting on the mounting block.

DETAILED DESCRIPTION OF THE CONSTRUCTIONS Figs. 1 to 5 show different views of a plate heat exchanger according to the invention. The plate heat exchanger 1 contains a number of heat exchanger plates 5, which are placed next to each other so that they form a plate package or a plate stack 2. lfig. 1 to 5, the stack of heat exchanger plates 5 is shown as a single package to simplify the drawing, but in reality the stack consists of several heat exchanger plates 5. A stand plate 3 and a pressure plate 4 are mounted on each side of the heat exchanger plates 5. In the construction shown, the stand plate 3 , all heat exchanger plates 5 and the pressure plate 4 are permanently connected to each other, e.g. by hair brazing, soldering, gluing, welding or any other suitable joining method. The frame plate 3 and the pressure plate 4 are referred to in the further description of the invention as end plate 3 and 4, respectively.

Each heat exchanger plate 5 includes in a known manner a corrugation or a pattern which increases the heat transfer. The pattern consists of elevations and depressions, placed on adjacent heat exchanger plates 5 but facing each other locally so that contact points are formed and used in a known manner to connect the heat exchanger plates 5 to each other by brazing or soldering the plate heat exchanger 1. Flow channels are formed on known method between the mutually adjacent heat exchanger plates 5 in the plate stack 2 consisting of a number of heat exchanger plates 5 stacked on each other. Mutually adjacent flow channels are traversed by different media between which a temperature transfer takes place through the heat transfer surfaces of the heat exchanger surfaces 5.

The heat exchanger plates 5 have four port holes for forming the corresponding number of connection channels extending through plate package 2 and are connected to the flow channels formed between the heat exchanger plates 5. It should be noted that plate package 2 may contain a different number of connection channels than the four shown in the construction. . The heat exchanger plates 5, the end plate 3 and the end plate 4 are positioned so that they largely extend parallel to a common main extension plane.

The heat exchanger plates 5, the end plate 3 and the end plate 4 are mainly made of chromium-containing stainless steel. The heat exchanger plates 5 are connected to each other by soldering. The soldering is performed using a solder material based on or containing copper, nickel, iron or silver and possibly fluxes which may contain fluorine. A thin foil or paste of the solder material is placed in all spaces between the heat exchanger plates 5. The plate package 2 can then be compressed.

The plate package 2 can be placed in an enclosed space (not shown), e.g. a vacuum furnace, under vacuum-like pressure conditions or in a gas atmosphere consisting of a substantially inert or reducing gas, and desired soldering temperature, which may be up to about 1100 ° C with copper as solder and about 1200 ° C with nickel as solder.

At each of the short ends of the end plate 3, a mounting bracket 6 protrudes from the end plate 3. The mounting brackets 6 protrude next to and parallel to the center line of the end plate 3, i.e. the mounting brackets 6 are asymmetrically placed on the short sides of the end plate 3. The mounting brackets 6 can also be placed in the middle of the short sides of the end plate 3, but this is not shown. Likewise, it is not shown that more than one mounting bracket 6 can be placed on each short side of the end plate 3, or that also the long sides of the end plate 3 can be provided with the mounting bracket 6.

The longitudinal extension B of the mounting brackets 6 deviates from the longitudinal extension A of the end plate 3. The deviation between the longitudinal extensions is the deviation angle d. The deviation angle d is between 1 and 15 degrees, and preferably between 2 and 8 degrees. It is important that the angle d is large enough to cause plastic deformation in the mounting bracket 6 or in at least a part of the mounting bracket 6 when the mounting bracket 6 and the plate heat exchanger 1 are mounted on a mounting location or mounting block 9. 1 \ / led a smaller angle d than 2 degrees no plastic deformation is achieved in the mounting bracket 6 or in at least a part of the mounting bracket, and with a larger angle d than 8 degrees the mounting of the plate heat exchanger becomes problematic and the connection between the plate package 2 and the end plates 3, 4 can break when mounting the plate heat exchanger at the mounting location 9. 10 15 20 25 30 Üåf-'l The mounting bracket 6 is provided with holes 8 for mounting the plate heat exchanger at the mounting location 9. The plate heat exchanger 1 is mounted at the mounting location by means of bolts or corresponding fastening devices. Instead of holes in the mounting bracket 6, there may also be slots 8 on the mounting bracket 6 for mounting on the mounting location 9.

The assembly of the plate heat exchanger 1 according to the invention is now described with reference to fig. 3-5. Fig. 3 shows the plate heat exchanger 1 together with a mounting location or a mounting block 9 where the plate heat exchanger 1 is to be mounted.

The mounting block 9 has ports or connections 10 which connect to the corresponding ports 7 in the plate heat exchanger 1 (see fig. 2). It also has mounting holes 11 corresponding to the heel 8 in the plate heat exchanger 1.

To mount the plate heat exchanger 1 on the block 9, the plate heat exchanger 1 is placed in its mounting position so that the ports or connections 10 in block 9 connect to the corresponding port 7 in the plate heat exchanger 1. A bolt (not shown) or the like is inserted into heel 8 of the bracket 6 and further into heel 11 on block 9 or in the reverse direction. A nut (not shown) is screwed onto the bolt to seal the bolt joint so that the plate heat exchanger 1 is tightly mounted on the block 9. During the tightening of the bolt joint, the mounting bracket 6 is pressed down against the block 9 so that the longitudinal extension of the mounting bracket 6 the end plate 3 becomes parallel. The downward bending of the mounting bracket 6 towards the block 9 causes a stress in the mounting bracket 6 and to some extent also a plastic deformation in the joint or transition area between the mounting bracket 6 and the end plate 3. The plastic deformation gives rise to increased pouring strength or reduced stress under the same load. exposed areas, and the stress in the mounting bracket 6 prevents the end plate 3 from moving under load so that the gaskets between the plate heat exchanger 1 and the block 9 are kept in place and leakage is avoided.

According to another solution (not shown), the block on which the plate heat exchanger 1 is mounted is provided with a mounting or fastening device in which one of the end plate brackets is inserted into a corresponding slot, while the other bracket is fastened to the block with a bolt or the like as described. above. After the first bracket has been inserted into the slot or corresponding fastening device, the rest of the plate heat exchanger is pressed downwards and causes a plastic deformation in the joint or the transition area between the mounting bracket and the first bracket of the end plate. When the plate heat exchanger has been pressed down so that it has contact with the block, the other bracket is tightened with a bolted joint or similar so that a plastic deformation also occurs in the second bracket.

The above description shows the brackets placed on the end plate closest to the mounting block and the door holes, but it is also possible in special cases to place the brackets on the other end plate.

The invention is not limited to the constructions described above and shown in the drawings, but may be supplemented and modified in any manner within the scope of the invention as defined in the appended claims.

Claims (8)

10 15 20 25 30 PATENT REQUIREMENTS A plate heat exchanger (1) including a plate stack (2) with two end plates (3, 4) and a number of heat exchanger plates (5), which are placed between the end plates (3, 4), where an end plate (3, 4) is provided with fastening devices (6) protruding from the outside of the slab stack (2), further that the plate heat exchanger (1) is provided with a port hole (7) on one end plate (3, 4) corresponding to the connections (10) at a mounting location. (9) where the plate heat exchanger (1) is to be mounted, characterized in that the longitudinal extension (B) of the fastening device (6) deviates relative to the longitudinal extension (A) of the rest of the end plate (3, 4) and the plate stacks ( 2), and where the fastening device (6) can be deformed so that the longitudinal extension (B) of the fastening device (6) is parallel to the longitudinal extension (A) of the end plate (3, 4) and the plate stacks (2) when the plate heat exchanger (1 ) shall be mounted on the mounting site (9), where said deformation creates an increased strength of the fastening device (6). A plate heat exchanger (1) according to claim 1, wherein the fastening devices are designed as brackets (6) projecting from the end plate (3, 4). A plate heat exchanger (1) according to either of claims 1 and 2, wherein the fastening devices (6) are located asymmetrically on the short sides of the end plate (3, 4). A plate heat exchanger (1) according to any one of claims 1-3, wherein a fastening device (6) is located asymmetrically on either of the short sides of the end plate (3, 4). A plate heat exchanger (1) according to any one of claims 1-4, wherein the fastening devices (6) are provided with heels for mounting the plate heat exchanger (1) at the mounting location (9). 10 15 = ... Il 'i EJ lW-FJ fi !! 1323 Jïâi. A plate heat exchanger (1) according to any one of claims 1-4, wherein the fastening devices (6) are provided with slots for mounting the plate heat exchanger (1) at the mounting location (9). A plate heat exchanger (1) according to any one of claims 1-6, wherein the elongation (B) of the fastening devices (6) deviates longitudinally relative to the extension (A) longitudinally of the rest of the end plate (3, 4), and wherein the deviation angle (d) is between 1 and 15 degrees, and preferably between 2 and 8 degrees. A plate heat exchanger (1) according to any one of claims 1-6, wherein the elongation (B) of the fastening devices (6) deviates longitudinally relative to the elongation (A) longitudinally of the rest of the end plate (3, 4), and wherein the deviation angle (d) is large enough to cause plastic deformation of at least a part of the fastening devices (6), when the plate heat exchanger (1) is mounted on the mounting site (9) -