Method of joining at least four heat transfer plates to a...

Heat exchange – Flow passages for two confined fluids – Interdigitated plural first and plural second fluid passages

Reexamination Certificate

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Details

C165S166000, C029S890054, C219S121640

Reexamination Certificate

active

06397940

ABSTRACT:

THE BACKGROUND OF THE INVENTION AND PRIOR ART
The present refers to a method of joining at least four heat transfer plates to a plate package for a plate heat exchanger, wherein each heat transfer plate comprises an outer edge portion extending around the heat transfer plate in its edge area and an inner edge portion extending around the heat transfer plate inside the outer edge portion, and wherein the method includes the steps of: joining the heat transfer plates in pairs at a first contact plane to at least two plate pairs along said inner edge portions, bringing an outer edge portion of one of said plate pairs to abutment at a second contact plane to an outer edge portion of another of said plate pairs, and welding said two outer edge portions to each other by means of a weld joint.
The invention also refers to a plate package of joined heat transfer plates for a plate heat exchanger, in which each heat transfer plate comprises an outer edge portion extending around the heat transfer plate in its edge area and an inner edge portion extending around the heat transfer plate inside the outer edge portion, wherein the heat transfer plates are joined in pairs to at least two plate pairs along said inner edge portions at a first contact plane and wherein one of said plate pairs is welded at a second contact plane to an adjacent of said plate pairs along said outer edge portion by means of a weld joint.
Each heat transfer plate in such a plate package is usually provided with four through-going holes, so-called port-holes. The heat transfer plates abut each other in such a manner that the port-holes form four port channels through the plate package and that two sets of heat transfer passages are formed between the heat transfer plates. Each heat transfer passage is connected to two of the port channels.
Such plate packages are comprised by a plate heat exchanger through which two heat exchanging fluids are intended to flow; one through each of the two sets of heat transfer passages and associated port channels.
It is essential for the function of such a plate heat exchanger that the plate package is sealed in such a manner that no heat exchanging fluids may leak out of the plate heat exchanger in which the plate package is contained. When the plate package is joined in the manner initially defined, satisfactory possibilities are offered to check the tightness of the plate package. The tightness may be checked in each plate pair prior to being joined by means of said weld joint. When the plate pairs have been welded to each other the tightness of the whole plate package may be tested. If then any untight weld joint appear it is accessible for correction from the outside of the plate package.
EP 578 933 and GB 580 368 disclose a plate heat exchanger comprising heat transfer plates which firstly have been joined by welding and thereafter to plate packages.
The plate heat exchanger disclosed in EP 578 933 comprises heat transfer plates which firstly are welded in pairs to cassettes about two of the four port-holes of the heat transfer plates and along edge portions of the heat transfer plates. Thereafter, the cassettes are brought to abutment to each other and the heat transfer plates are welded about the two other port-holes and along outer edge portions of the heat transfer plates. The latter weld joints in the outer edge portions are shaped as edge welds.
GB 580 368 discloses a plate heat exchanger which comprises heat transfer plates permanently joined by resistance welding. The heat transfer plates are firstly welded to each other in pairs to plate pairs along inner edge portions and thereafter the plate pairs are welded to each other along outer edge portions.
JP 7-214 319 discloses a method of welding heat transfer plates which are provided with port-holes by means of edge welds. The heat transfer plates are welded to each other along edges of the port-holes by means of a TIG-weld. The heat transfer plates are held during the welding in pairs about the port-holes by means of a special device which also leads heat from the welded area in order to avoid heat deformations.
Modern weld methods with a high energy beam, such as electron beam welding or laser welding, have many advantages from a productions point of view. Such methods are for instance well suited for automatic manufacturing and result in weld joints having a high and uniform quality. In connection with welding of heat transfer plates to a plate package, the greatest advantage of such modern weld methods is the low power generation merely subjecting the heat transfer plates to insignificant heat deformations. WO93/15369 describes a plate heat exchanger comprising a plate package of heat transfer plates which have been welded together by laser welding. One heat transfer plate at the time is welded to the plate package to be formed in such a manner that every second heat transfer plate is welded along inner edge portions and every second heat transfer plate is welded along outer edge portions. The outer edge portions are located between the inner edge portions and the edges of the heat transfer plates. In addition, each heat transfer plate comprises a strengthening bending outside the outer edge portion. However, this known method has the disadvantage that a satisfactory check of the tightness is difficult to obtain. Practically, it is too inefficient to perform a tightness check after the welding of each heat transfer plate. Instead, a tightness check is made when the whole plate package or an essential part thereof, for instance 10-30 heat transfer plates, has been welded together. If a weld joint between the inner edge portions thereby is not completely tight, this weld joint is practically not any longer repairable and the whole plate package or the module has to be thrown away. Consequently, this method of manufacture requires a high process security in the production if one is to obtain an acceptable level of rejection. In order to obtain such a process security, extensive testing and adjustment of the different process parameters are required for each material quality. Consequently, this weld method is expensive for the manufacturing of plate heat exchangers in small series or in less usual materials.
However, welding by means of a high energy beam is by the technique available today not possible to utilise for the method initially defined since a heat transfer plate of a plate pair, which is not to be welded to a heat transfer plate in an adjacent plate pair, shades the heat transfer plates to be welded together. A nozzle for a high energy beam and a shielding gas surrounding the beam are in addition too large to be housed between two heat transfer plates in a plate pair. Thereby, it has been proposed to form the weld joint as an edge weld. However, it is very difficult to focus a high energy beam on the edge end surfaces of the heat transfer plates if, for instance, the joint is not precisely straight or if there is a small gap between the plates in the joint.
SUMMARY OF THE INVENTION
The object of the present invention is to remedy the problems mentioned above and provide an improved weld joint between plate pairs to be welded together to a plate package for a plate heat exchanger.
This object is obtained by the method initially defined, which is characterised in that said weld joint is produced by means of a high energy beam directed towards one of said outer edge portions at a distance from the outer edge thereof and at an angle other than. perpendicular with respect to said contact plane. Such a concentrated high energy beam, for instance a laser beam or an electron beam, may focus in a vary accurate manner on one of the edge portions of the plate pairs, which means that the weld joint formed will extend through both of the adjacent edge portions and ensure a connection of high reliability and quality. In addition, the checking possibilities offered by the method initially defined may be utilised completely. It has been found that a high energy beam may penetrate both the outer adjacent edge portions and p

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