FI107353B - Plate for plate heat exchangers and plate heat exchangers - Google Patents

Description

1 107353

Plate heat exchanger plate and plate heat exchanger

More particularly, the invention relates to a plate heat exchanger plate having a circular shape and having at least two flow openings for conducting and removing the heat transfer fluid from the plate forming sols used in the welded plate heat exchangers and forming the heat transfer surfaces. Preferably, the metal plate heat exchanger plates are formed with corrugations that improve heat transfer properties and support the soles formed between the plates of the plate heat exchanger. The plates of the plate heat exchanger are welded in pairs together at the outer periphery of the flow openings 10 and the plate pairs are joined by welding the plates of the plate pairs to the plates of another pair of plates.

The conventional plate heat exchanger is assembled on top of stacked plates, the plate package being formed by clamping screws between the two end plates. The passages formed by the plates 15 and the associated flow openings are sealed by seals separate from their outer periphery. Even though seals have been heavily developed, the biggest problem with such heat exchangers is leakage of seals, which can be caused by temperature, corrosion, aging, or some other cause. The plates of such plate heat exchangers are generally rectangular and the flow openings, which are generally four, are located near the corner. The heat transfer surfaces are usually corrugated with straight corrugations or corrugated in a v-shape. The boards are stacked so that the folds are not parallel but leave an angle between the ridges, the size of which significantly affects the heat transfer properties. Because the plates of a conventional plate heat exchanger are made by pressing, changing the angle between the brushes has always required a new expensive press tool.

Numerous solutions have been proposed for adjusting the angle between the plate ridges. Rat-- · solutions have been sought, for example, by changing the design of the plate heat exchanger or by developing press tools. Finnish Patent Publication FI79409 discloses a heat exchanger in which circular or polygonal plates are stacked on top of one another and the plate package thus produced is supported between the end plates. The plates do not have flow openings as in conventional plate heat exchangers, but the flows are conducted between the plates.

Kin outside the discs. In this case, the angle between the disks of the plates is freely complained of with round plates and polygonal plates within the limits of the polygon. However, the construction according to the u ka is expensive to manufacture and the sealing problems are not too satisfactory.

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The Finnish patent publication FI84659 discloses a solution having typical features of both a conventional plate heat exchanger and a tubular heat exchanger. Repeat the flow of the heat transfer medium is traced through the flow openings in the plates as in conventional plate heat exchangers. Like a tube heat exchanger. <m 10 outer sheath around the heat exchanger. The most significant difference with traditional solutions is the welding of the sheets together at the flow holes and outer peripheries. The sheets of this application can be used in a plate heat exchanger as described above.

Finnish Patent Publication FI 94395 discloses a manufacturing method and a tool for manufacturing a heat exchanger plate. The method of the disclosure utilizes a press tool having a plurality of fillers that are either of a normal pick or smell type. By changing the positions of the pads, the positioning of the flow apertures of the compressed heat exchanger plates can be varied, so that the angle between the fins of the logically assembled heat exchanger is also changed. Using the same clamps with a t-1 to 20 lu, several different variations of the ridge angle are obtained, naturally depending on the number of fillers. Such press tools are, of course, more expensive to make than conventional ones, but considerably cheaper than the all-needed press tools made individually for all sharks.

It is an object of the present invention to provide a circular corrugated heat exchanger 1 <vy with at least one additional pair of flow openings for flow openings which can be selected after pressing the plate of the heat exchanger. The heat exchanger plate is cut off at the outside of the flow opening so that the press tool can extend ι to cut the flow opening into the plate. Depending on the number of positions of the flow orifice pairs, there are alternatives for the angles of the li m-30 transducer plates. In practice, one or more additional seats for a pair of flow openings are often sufficient.

Specifically, the plate heat exchanger plate according to the invention is characterized by what is said in the characterizing part of claim 1.

The plate heat exchanger plates according to the invention have at least two pairs of locations for the flow apertures, whereby by making the flow apertures at the desired locations, the scattering angle between the diffusers of the overlapping plate heat exchanger plates is obtained to achieve the best heat transfer properties. The locations of the flow openings and the center hole consist of straight, smooth, annular portions with corrugations inside. The opened central bore forms a flow channel for the second heat transfer medium and / or serves as a placement channel for the support member. The unopened locations of the central bore and the flow openings form part of the heat exchange surfaces of the plate heat exchanger plates of the invention in the assembled plate heat exchanger. The annular straight portion of the plate heat exchanger plate and the annular straight portions of the flow apertures and center hole locations are at least two different planes between the plate heat exchanger plates to seal the flow soles. In the plate heat exchanger plates of the invention, in the heat exchanger assembled, the adjacent plates are welded together by their outer periphery and the outer periphery of the central holes or the flow openings. If the blanks to be removed from the flow openings are sufficiently large in diameter, the locations of the flow openings may be shaped as plate heat exchanger plates having slots for alternative flow openings, and smaller plate heat exchangers may be assembled from the resulting plates.

The plate heat exchanger plate according to the invention provides significant advantages. The price of a press tool for making a disc is not much different from the price of a conventional 25 tool. The plate heat exchanger plates can be manufactured for future supply. The flow holes can be pressed after the heat sizing of the heat exchanger, before starting the assembly work. Because all discs are made with the same press tool, the discs are quickly modified without any changes to the press tool settings. If the size of the pressed plates is sufficiently large, the blank blanks to be removed from the flow openings may be used as plates of a small plate heat exchanger with pre-pressed locations for the flow openings. Although the plate heat exchanger plate according to the invention does not allow infinite adjustment of the shark angle,

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4 107313 practically available angle options are sufficient. The heat exchanger, made of sheets of basic construction according to the invention, is superior to known solutions, which are hag angle or orthodontically adjustable, at least in terms of purchase price and t> i mintage. The plate heat exchangers welded from the plates according to the invention are small in size, reliable in operation and have good pressure resistance properties.

In the following, the plate heat exchanger according to the invention will be described in more detail with reference to the accompanying drawings, in which: Figure 1 schematically shows a plate heat exchanger plate according to the invention in close-up view.

Fig. 2 schematically illustrates an embodiment of a plate-up changer plate according to the invention, which is cut from the flow opening of a larger plate.

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Figure 3 schematically shows the sliding of the plate heat exchanger plates of Figure 1 into pairs of plates.

Fig. 4 is a schematic sectional view of a plate heat color 20 assembled from plates according to the invention at a flow opening and an opened central bore.

Fig. 5 schematically shows a plate heat exchanger assembled from sheets according to the invention! · At the unopened flow port and the unopened center hole. The invention will now be described in more detail with reference to the accompanying drawings. K. \ iv ois 1-3 are circular plate heat exchanger plates 1 formed from a sheet material by a press tool. The folds 2 are printed on the sheet 1 by a press tool or the like. Positions 4 and 5 of the Yi backholes can be left unpunched during the compression step. The heat a in the center of the exchanger plate 1 can be reserved for the 6 central holes. At the positions 4 and 5 of the flow openings 30 and at the position 6 of the central bore, the folds 2 are broken and the openings 11, 107353 of the heat exchanger 11 also have straight portions 10 on the outer edges of the heat exchanger plates. are interconnected such that the ridges of the corrugations 12 form with each other a shark angle a.

Figures 4-5 show how the plates 1 of the heat exchangers are connected to one another. In the solution of Figure 4 5, the central hole 11 is opened. The plates 1 are connected to each other by pairs of plates 13 from the outer periphery of the flow openings 3 by welding 12. The plate pairs 13 are connected to each other by the weld 14 of the outer periphery of the plates 1. The annular straight portions 10 and the straight portions 9 of wherein the central hole 11 communicates with the flow passages 16 which open at the outer periphery of the plates 1. Thus, it is possible to use the central bore 11 as an inlet or outlet for the second flow circuit of the heat transfer agents. The flow openings 3 and the passageways 17 form a closed circuit for the heat transfer medium, the inlet and outlet channels of which are formed by the flow openings 3.

Figure 5 illustrates how the unopened flow openings 3 and the central bore 11 affect the current on the sols 16 and 17. As can be seen from the figure, the flow openings 16 and 17 remain open at one of the positions 4, 5 of one flow opening 3. Instead, the annular straight portions 9 of the unopened center hole 11 overlap as they overlap another of the flow passages 16, 17, depending on the level at which the straight portions 9 are fitted. This fact should be taken into account when operating a plate heat exchanger assembled from plates 1 according to the invention at high temperatures.

It will be apparent to those skilled in the art that only one embodiment of the inventive idea is disclosed above, which may, of course, vary within the scope of the claims. For example, the profile of the corrugations 2 of the plate heat exchanger plate 1 can be of any shape to meet the strength and temperature requirements. If it is desired to increase the staggering of the shark angle α, the number of positions 4,5 of the flow openings 3 may be increased even so that they partially overlap. However, too many positions 4, 5 may change the flow conditions in Sol 16.17 too much. The size of the center hole 30 11 and the joining of the flow passages 16,17 are selectable according to the application.

Claims (8)

A plate for plate heat exchangers, in particular for welded plate heat exchangers, wherein a plate separating flow channels (16, 17) in a plate heat exchanger, located at one of the plates, forms the has a latch (2) extending over the plate heat exchanger plate (1) e. Correspondingly, characterized in that the plate heat exchanger plates (1) project at least two pairs of unopened, to their periphery straight places (4, 5) for flow openings 10 (3), in which locations the flow openings (3) can be formed and by adjusting the flow streams (3) in desired locations (4, 5), the angle of angle a between the axes of adjacent plate heat exchanger plates (1) is adjusted to achieve the desired flow - and heat transfer properties. A plate (1) for plate heat exchanger according to claim 1, characterized in that the plate (1) has a location (6) for a central opening (11) in its center, the villa opening opened forming a flow channel and / or channel is the heat transfer blank in a plate heat exchanger assembled by plates (1), in which a support means for the end plates of the heat exchanger is provided. 20 3. A plate (1) for plate heat exchangers according to claims 1-2, characterized in that the locations (4, 5) of the flow openings (3) and the central opening (11) are formed by n! an annular portion (7, 8, 9), the inner portion of which is part of the plate (1) having sp; r (2). .. 25 A plate (1) for plate heat exchangers according to claims 1-3, characterized in that the locations (4, 5, 6) of the flow openings (3) and the central opening (11) form an id of the heat transfer surfaces in plate heat exchangers assembled by plates. 107353 5. Plate (1) for plate heat exchanger according to claims 1-4, characterized therein. the annular straight portion (10) of the periphery of the plate (1), the annular straight portion (7, 8, 9) of the flow openings (3) and the locations (4, 5, 6) of the central opening (11) are arranged in at least two pipes for closing of the flow channels of the plate heat exchanger 5 (1) assembled (16,17). 6. Plate heat exchanger plate (1) according to claims 1-5, characterized in that, in a plate heat exchanger assembled by plates (1), adjacent plates (1) are bonded together by means of welding together or in the periphery of the central openings (11). or at the periphery of the flow openings (3). Plate heat exchanger plate (1) according to claims 1-6, characterized in that plate half-finished products removed from the flow openings (3) are plates (1) for a smaller cross-sectional plate heat exchanger, which have alternative locations (4, 5) for flow island (3). Plate (1) for plate heat exchanger according to any of the previous claims, characterized in that the lock (2) of the plate (1) extends continuously through the middle portion of the plate (1) and that the location (6) for the central opening (11) is taken. from the plate (1). * · R 7 · • i