EP2589916A1 - Plattenwärmetauscher - Google Patents

Plattenwärmetauscher Download PDF

Info

Publication number
EP2589916A1
EP2589916A1 EP11187796.5A EP11187796A EP2589916A1 EP 2589916 A1 EP2589916 A1 EP 2589916A1 EP 11187796 A EP11187796 A EP 11187796A EP 2589916 A1 EP2589916 A1 EP 2589916A1
Authority
EP
European Patent Office
Prior art keywords
heat exchanger
plate
sleeve
plates
bolt
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP11187796.5A
Other languages
English (en)
French (fr)
Inventor
Niklas Widerberg
Johan Snarberg
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Alfa Laval Corporate AB
Original Assignee
Alfa Laval Corporate AB
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Alfa Laval Corporate AB filed Critical Alfa Laval Corporate AB
Priority to EP11187796.5A priority Critical patent/EP2589916A1/de
Publication of EP2589916A1 publication Critical patent/EP2589916A1/de
Withdrawn legal-status Critical Current

Links

Images

Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F3/00Plate-like or laminated elements; Assemblies of plate-like or laminated elements
    • F28F3/08Elements constructed for building-up into stacks, e.g. capable of being taken apart for cleaning
    • F28F3/083Elements constructed for building-up into stacks, e.g. capable of being taken apart for cleaning capable of being taken apart
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F9/00Casings; Header boxes; Auxiliary supports for elements; Auxiliary members within casings
    • F28F9/001Casings in the form of plate-like arrangements; Frames enclosing a heat exchange core
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F28HEAT EXCHANGE IN GENERAL
    • F28FDETAILS OF HEAT-EXCHANGE AND HEAT-TRANSFER APPARATUS, OF GENERAL APPLICATION
    • F28F2275/00Fastening; Joining
    • F28F2275/20Fastening; Joining with threaded elements
    • F28F2275/205Fastening; Joining with threaded elements with of tie-rods

Definitions

  • the present invention relates to a plate heat exchanger comprising a first end plate having an inner surface and an outer surface and a second end plate having an inner surface and an outer surface.
  • a set of heat exchanger plates is arranged between the inner surface of the first end plate and the inner surface of the second end plate.
  • a first means engages with the first end plate and a second means engages with the second end plate.
  • the first means further engages with the second means for connecting the first end plate and the second end plate and the second means partly encloses the first means.
  • the invention also relates to a second means for use in such a plate heat exchanger and a first means adapted for use in connection with such a second means.
  • Plate heat exchangers typically consist of two end plates in between which a number of heat exchanger plates are arranged in an aligned manner.
  • gaskets are arranged between the heat exchanger plates. The end plates, and therefore the heat exchanger plates, are pressed towards each other whereby the gaskets seal between the heat exchanger plates.
  • the gaskets define parallel flow channels between the heat exchanger plates through which channels two fluids of initially different temperatures can flow for transferring heat from one fluid to the other.
  • the heat exchanger plates can be separated from each other and from the rest of the PHE to enable e.g. cleaning, removal, addition and replacement of plates which is desired in connection with some PHE applications.
  • the end plates of a gasketed plate heat exchanger are normally referred to as frame plate and pressure plate.
  • the frame plate is often fixed to a support surface such as the floor while the pressure plate is movable in relation to the frame plate.
  • a carrying bar for carrying the pressure plate as well as the heat exchanger plates extends from an upper part of the frame plate while a guiding bar for guiding the pressure and heat exchanger plates extends from a lower part of the frame plate.
  • the frame and pressure plates are connected to each other by means of a number of pair wise cooperating first and second means, in the form of bolts and nuts, respectively.
  • the bolts typically extend through respective openings in the pressure plate and the frame plate with the bolt heads engaging with an outside surface of the frame plate and the nuts engaging with the bolts and with the outside surface of the pressure plate. By rotating these nuts, the pressure between the frame and pressure plates can be regulated.
  • gasketed plate heat exchangers can be opened up by releasing the pressure between the frame and pressure plates whereby the heat exchanger plates can be separated and individually accessed to enable maintenance operations. This is performed by rotating the nuts, normally counter-clockwise, such that the nuts are displaced from the bolt heads in an axial direction. In connection with such opening, complete dismounting is often undesirable since the plate heat exchanger often should be reclosed after the desired maintenance operations have been performed. Therefore, the carrying and guiding bars are normally relatively long such that the pressure plate and the heat exchanger plates can be separated from each other and from the frame plate while still hanging from the carrying bar and being threaded onto the guiding bar. The length of the bolts determines whether complete removal of the nuts from the bolts is necessary in connection with the opening or not.
  • the PHE can be opened and the heat exchange plates separated and accessed without having to remove the nuts from the bolts. This means that the pressure plate remains threaded onto the bolts during the opening which facilitates subsequent reclosing of the PHE.
  • the nuts and probably also the pressure plate and some of the heat exchanger plates must be removed from the rest of the PHE to enable the desired maintenance operations.
  • the nuts are again tightened or rotated on the bolts, normally in the clockwise direction, such that the nuts are displaced towards the bolt heads in the axial direction.
  • the heat exchanger plates together with the gaskets form a stack with the thickness t open , see figures 6a and 6b illustrating a plate heat exchanger according to prior art.
  • the frame and pressure plates are forced towards one another which leads to deformation of the gaskets arranged between the heat exchanger plates.
  • the thickness of the stack is t closed , where t open > t closed .
  • the length L bolt of the bolts should be larger than t open + 2 ⁇ T plates + T bolt proj + ⁇ , where ⁇ is the projection of the bolts from the outside surface of the pressure plate necessary for the nuts to be able to engage with the bolts. If the length of the bolts was less than this, it would be very hard to attach the nuts to the bolts since the stack of exchanger plates and gaskets first would have to be compressed to make the bolts project from the outside surface of the pressure plate. Similarly, the length of the carrying and guiding bars should be at least such that a stack of thickness t open can be carried and guided by the bars.
  • the bolts are longer than required for the very clamping of the heat exchanger plates and the gaskets between the frame and pressure plates.
  • the excessive length of the bolts is mainly for enabling closing of the PHE.
  • the excess bolt lengths as well as the carrying and guiding bars project from the outside surface of the pressure plate, which makes the plate heat exchanger unnecessary bulky.
  • An object of the present invention is to provide a plate heat exchanger and parts adapted for use in such a plate heat exchanger which, at least partly, eliminate potential limitations of prior art.
  • the basic concept of the invention is to let the second means extend between the end plates to enable first means-second means engagement between the outer surfaces of end plates instead of, like previously, on the outside of the end plates. Thereby the plate heat exchanger can be made considerably less bulky.
  • a plate heat exchanger comprises a first end plate having an inner surface and an outer surface, a second end plate having an inner surface and an outer surface and a set of heat exchanger plates arranged between the inner surface of the first end plate and the inner surface of the second end plate.
  • a first means engages with the first end plate and a second means engages with the second end plate.
  • the first means further engages with the second means for connecting the first end plate and the second end plate.
  • the second means partly encloses the first means.
  • the plate heat exchanger is characterized in that a first part of the second means projects from the inner surface of the second end plate.
  • the plate heat exchanger can be of different types, for example of the type initially described, i.e. a gasketed plate heat exchanger.
  • inner surface is meant that surface of the end plates that faces the heat exchanger plates.
  • outer surface is meant that surface of the end plates that is turned away from the heat exchanger plates.
  • the number of heat exchanger plates in the set may vary and is dependent on the intended application of the plate heat exchanger.
  • the heat exchanger plates are arranged in a stack, the top surface of the first heat exchanger plate in the stack facing the first end plate and the bottom surface of the last heat exchanger plate in the stack facing the second end plate.
  • the first and second means are pair wise cooperating components and they can be of different types. For example, they can so arranged as to perform the function of the above described bolts and nuts, i.e. the function of forcing the inner surface of the first end plate and the inner surface of the second end plate against each other.
  • the stack of heat exchanger plates are pressed together and clamped between the first and second end plates. Due to this pressing, the thickness of the stack of heat exchanger plates is reduced. The closer the end plates come, the more reduced the stack thickness is.
  • first and second means could be so arranged as to perform the function of carrying and guiding the heat exchanger plates, in which case they would replace the above described conventional carrying and guiding bars.
  • first and second means could be arranged so as to not be active in reducing the thickness of the stack.
  • the first and second means can be arranged to engage both directly and indirectly with the first and second end plates, respectively, and with each other. Further, the first and second means may be formed as one respective single piece or they may be composed of several assembled respective pieces.
  • connection element the first means cooperating with the second means.
  • the connection element there is a direct relationship between the stack thickness reduction and how much of the first means or bolts that projects from the outer surface of the second end plate. Obviously, the more the stack thickness is reduced, the more the first means or bolts project from the outer surface of the second end plate. In the known plate heat exchanger, the first means or bolts extend all the way from the first end plate to the second end plate. In other words, the portion of the connection element extending from the inner surface of the first end plate to the inner surface of the second end plate is completely composed of a portion of the first means.
  • the portion of the connection element extending from the inner surface of the first end plate to the inner surface of the second end plate comprises a portion of the second means. It is not necessary, but however possible, for the first means to extend all the way from the first end plate to the second end plate for connection of the end plates and it is possible to construct the PHE such that no portion of the first means, or a relatively short portion of the first means, extends beyond the outer surface of the second end plate. Thereby, the PHE can be made less space demanding.
  • the second means comprises a sleeve arranged to receive a distal end of the first part of the first means.
  • distal end is meant the “free" end, i.e. the end not connecting with the rest of the first means.
  • the sleeve can be open in both ends or closed in one end.
  • the complete second means or just one or more portions thereof may be sleeve shaped.
  • the above sleeve can be constructed so as to have an internal thread adapted for mutual cooperation with an external thread provided on the first means. Such thread connections are robust and mechanically un-complicated.
  • the internal thread above can be arranged to extend only partly along the sleeve. This is beneficial since it becomes easier to screw the first means into the sleeve. If the internal thread would extend along the complete sleeve, the friction between the sleeve and the first means would be higher and it would be harder to screw the first means into the sleeve.
  • the plate heat exchanger is constructed such that the distal end of the first part of the first means is arranged within the sleeve. In other words, the distal end of the first part of the first means never extend beyond the sleeve which enables an even more space efficient plate heat exchanger.
  • the inventive plate heat exchanger may be designed such that an outer part of the second means has a partly edgy contour.
  • This outer part may project from the outer surface of the second end plate to enable maneuvering of the second means from the outside of the plate heat exchanger.
  • This outer part may also be arranged in a recess of the second end plate so as to not protrude from an outer surface thereof to enable an even more compact PHE.
  • An edgy contour, such as an edgy outer shape, of the outer part of the second means makes it easier to firmly engage with the second means, for example by means of a tool in the form of an adjustable spanner or the like, for rotating the second means in relation to the first means.
  • essentially the complete first part of the first means is arranged within the sleeve when the plate heat exchanger is ready for use.
  • the PHE may be so designed that the first part of the first means projects from the inner surface of the first end plate. Such a design enables first means-second means engagement between the inner surfaces of the end plates. Further, since the first part of both the first and the second means extend between the first and second end plates, the portion of the connection element extending from the inner surface of the first end plate to the inner surface of the second end plate will comprise one portion of the first means and one portion of the second means.
  • a distal end of the first part of the second means is arranged to abut against an abutment surface of the plate heat exchanger so as to indicate a preferred distance (t closed ) between the inner surfaces of the first and second end plates when the plate heat exchanger is ready for use.
  • the abutment surface could be part of the inner surface of the first end plate. This means that the distal end of the first part of the second means contacts the inner surface of the first end plate when the PHE is ready for use.
  • the length of the first part of the second means is equal to the preferred distance between the inner surfaces of the end plates.
  • the abutment surface could be part of the first means. This means that the distal end of the first part of the second means contacts the first means when the PHE is ready for use. This contact can take place in different ways, for example flush with the outer surface of the first end plate or between the inner and outer surfaces of the first end plate.
  • a second means according to the present invention is adapted for use in a plate heat exchanger according to the present invention.
  • a first means according to the present invention is adapted for use in connection with a second means according to the present invention.
  • a gasketed plate heat exchanger 10 according to a first embodiment of the present invention is shown. It comprises a first end plate hereinafter referred to as frame plate 12.
  • the frame plate 12 has an inner surface 14 and an outer surface 16.
  • the plate heat exchanger 10 further comprises a second end plate hereinafter referred to as pressure plate 18.
  • the pressure plate 18 has an inner surface 20 and an outer surface 22.
  • a set of heat exchanger plates are arranged between the inner surface 14 of the frame plate 12 and the inner surface 20 of the pressure plate 18.
  • the heat exchanger plates are not individually shown in figures 1 a and 1 b but further ahead in the drawings. They are all of the same kind, i.e.
  • essentially rectangular sheets of stainless steel provided with a certain pattern or profile and a number of fluid inlet and outlet ports, and arranged in succession with a top surface of one heat exchanger plate facing the bottom surface of a neighboring heat exchanger plate. Every second heat exchanger plate is rotated 180 degrees in relation to a reference orientation.
  • the heat exchanger plates are separated from each other by gaskets which are not individually shown in figures 1 a and 1 b but further ahead in the drawings.
  • the heat exchanger plates together with the gaskets form parallel channels arranged to receive two fluids for transferring heat from one fluid to the other. To this end, a first fluid is arranged to flow in every second channel and a second fluid is arranged to flow in the remaining channels.
  • the heat exchanger plates For the channels to be leak proof, the heat exchanger plates must be pressed against each other whereby the gaskets are deformed and seal between the heat exchanger plates. When assembled the heat exchanger plates and the gaskets forms a package 24 arranged between the frame and pressure plates 12 and 18, respectively.
  • a carrying bar 26 is fixed to, and extends in the horizontal direction from, an upper portion of the frame plate 12. Further, a guide bar 28 is fixed to, and extends in the horizontal direction from, a lower portion of the frame plate 12.
  • the free ends of the carrying and guide bars 26 and 28, respectively, could be fixed to a support for increased stability but this is not illustrated herein.
  • the carrying bar 26 is arranged to carry the pressure plate 18 as well as the heat exchanger plates. To this end the pressure plate and the heat exchanger plates are each provided, in a top edge thereof, with a recess 30 and 32, respectively, arranged to receive and engage with the carrying bar 26.
  • the guiding bar 28 is arranged to guide and align the pressure plate 18 as well as the heat exchanger plates.
  • the pressure plate and the heat exchanger plates are each provided, in a bottom edge thereof, with a recess (not shown), respectively, arranged to receive and engage with the guiding bar 28.
  • the plate heat exchanger 10 further comprises a number of connection elements 34, here six, for connecting the frame plate 12 and the pressure plate 18.
  • the frame plate 12 is provided with the same number of recesses 36 along its side edges which recesses are arranged for engagement with the connection elements 34.
  • the pressure plate 18 is provided with corresponding recesses 38 along its side edges which recesses are arranged for engagement with the connection elements 34.
  • the plate heat exchanger 10 is openable to enable maintenance and cleaning operations.
  • the plate heat exchanger 10 has an open state and a closed state, the latter being illustrated in figures 1 a and 1 b.
  • the frame plate 12 is secured to the floor and arranged to be stationary.
  • the pressure plate 18 and the heat exchanger plates are movable in relation to the frame plate 12 to enable opening and closing of the plate heat exchanger 10.
  • To open the plate heat exchanger 10 the connection elements 34 are released and the pressure plate 18 is displaced in a direction from the frame plate 12.
  • the carrying and guide bars 26 and 28 are relatively long such that the pressure plate theoretically can be displaced a distance x while still being supported by the carrying and guide bars.
  • the carrying and guiding bars are each provided with a stopping means 40 limiting the displacement of the pressure plate.
  • the heat exchanger plates can be displaced from the frame plate and separated from each other while still engaging with the carrying bar 26 and the guiding bar 28.
  • the general functioning and design of a gasketed plate heat exchanger is well known and will not be described in further detail herein.
  • connection elements 34 for connecting the frame plate to the pressure plate.
  • connection elements 34 are illustrated in more detail in figures 2a and 2b which correspond to the area marked with broken lines in figure 1 b.
  • figure 2c an area of the outer surface 22 of the pressure plate 18 is shown, which area is arranged for engagement with the connection element (the connection element not being illustrated in the figure).
  • the connection element 34 comprises a first means 41 and a second means 43, which means are arranged to engage with each other to connect the frame and pressure plates, 12 and 18.
  • the first means 41 comprises a solid bolt 42 and a bolt washer/fixing means 46 arranged to surround the bolt 42 in an area of engagement with the frame plate 12.
  • the bolt 42 has a bolt bar 42ab and a bolt head 42c.
  • the bolt bar 42ab has a cylindrical outer contour while the bolt head 42c instead has an edgy outer contour, here a hexagonal outer shape, to facilitate firm tool engagement in connection with tightening and releasing of the connection element.
  • the bolt washer/fixing means 46 has a fixing part 46b arranged to be positioned within the frame plate 12, between a wall of the recess 36 and the bolt bar 42ab for securing the same in the frame plate, and a washer part 46c arranged to be positioned between the bolt head 42ab and the outer surface 16 of the frame plate 12.
  • the first means 41 has a first part 41 a arranged to extend from the inner surface 14 of the frame plate 12, which first part is constituted of a portion of the bolt bar 42ab.
  • the first means 41 has a second part 41 b arranged to be positioned between the inner and outer surfaces 14 and 16, respectively, of the frame plate, which second part is constituted of a portion of the bolt bar 42ab and the fixing part 46b of the bolt washer/fixing means 46.
  • the second part 41 b of the first means 41 is arranged to be positioned in a respective one of the recesses 36 of the frame plate 12, which recesses are similar to the recesses 38 of the pressure plate 18, of which one is shown in figure 2c .
  • the first means 41 has a third part 41 c arranged to extend from the outer surface 16 of the frame plate, which third part is constituted of the bolt head 42c and the washer part 46c of the washer/fixing means 46.
  • the second means 43 comprises a sleeve 44 and a sleeve washer/fixing means 48 arranged to surround the sleeve 44 in an area of engagement with the pressure plate 18.
  • the sleeve 44 is open in both ends and has a casing 44ab which is internally partly threaded and a sleeve head 44c.
  • the casing 44ab has a cylindrical outer contour while the sleeve head 44c instead has an edgy outer contour, here a hexagonal outer shape, to facilitate firm tool engagement in connection with tightening and releasing of the connection element.
  • the sleeve washer/fixing means 48 has a fixing part 48b arranged to be positioned within the pressure plate 18, between a wall of the recess 38 and the casing 44ab for securing the same in the pressure plate, and a washer part 48c arranged to be positioned between the sleeve head 44c and the outer surface 22 of the pressure plate 18.
  • the second means 43 has a first part 43a arranged to be positioned between the frame plate 12 and the pressure plate 18, which first part is constituted of a portion of the casing 44ab.
  • the second means 43 has a second part 43b arranged to be positioned between the inner and outer surfaces 20 and 22, respectively, of the pressure plate, which second part is constituted of a portion of the casing 44ab and the fixing part 48b of the sleeve washer/fixing means 48.
  • the second part 43b of the second means 43 is arranged to be positioned in a respective one of the recesses 38 of the pressure plate 18.
  • the second means 43 has a third part 43c arranged to extend from the outer surface 22 of the pressure plate 18, which third part is constituted of the sleeve head 44c and the washer part 48c of the washer/fixing means 48.
  • the borders between the different parts of the first and second means of the connection element have been illustrated by means of narrow broken vertical lines.
  • the first means 41 is arranged to engage with the frame plate 12
  • the second means 43 is arranged to engage with the pressure plate 18
  • the first and second means are further arranged to engage with each other.
  • the first part 41 a of the first means i.e. the above mentioned portion of the bolt bar 42ab
  • the first part 43a of the second means i.e. the above mentioned portion of the casing 44ab
  • an internal thread 44a' is provided for closing the plate heat exchanger.
  • the external thread 42a' extends along the complete bolt bar 42ab while the internal thread 44a' extends along only a portion 44a" of the first part of the second means 43.
  • the sleeve 44 is arranged to receive a free or distal end 41 a' of the first part 41 a of the first means 41, i.e. the distal end of the bolt 42, for enabling mutual cooperation between the threads 42a' and 44a' by rotation or screwing of the bolt in relation the sleeve. Since the internal thread 44a' extends along only the portion 44a" of the sleeve 44 it is easier to screw the bolt into the sleeve than would have been the case if the internal thread extended along essentially the complete sleeve.
  • Figure 3a corresponds to figure 2a but illustrates also the heat exchanger plates 50, here 28 in number, and the gaskets 52, here 27 in number, of the package 24 shown in figures 1 a and 1 b. While figure 3a illustrates a part of the plate heat exchanger 10 in a closed state, figure 3b illustrates the same part of the plate heat exchanger in an open state.
  • the heat exchanger plates 50 of the specific set Prior to assembly of the plate heat exchanger, the heat exchanger plates 50 of the specific set are all provided with a respective one of the gaskets 52 but for one of the heat exchanger plates arranged to be positioned closest to the frame plate 12 since the package 24 should begin and end with a respective one of the heat exchanger plates 50.
  • the gasket provision is performed by attaching, by adhesive or clips, the gaskets in grooves of the heat exchanger plates. This is well known within the art and will not be further described herein.
  • the heat exchanger plates 50 as well as the pressure plate 18 are threaded, through the recesses in the top edge and bottom edge thereof, onto the carrying bar 26 and the guiding bar 28 (shown in figures 1 a and 1 b).
  • the bolt 42 and the bolt washer/fixing means 46 i.e. the first means 41
  • the sleeve 44 and the sleeve washer/fixing means 48 i.e. the second means 43, is arranged in engagement with the pressure plate 18 and the bolt is arranged in engagement with the sleeve, in the above described way.
  • the package 24 has a thickness t open .
  • the bolt 42 is screwed into the sleeve 44 the distance d.
  • the bolt is screwed further into the sleeve, the distance ⁇ t, whereby the frame and pressure plates are pressed towards each other and the gaskets 52 are deformed between the heat exchanger plates 50.
  • the bolt is rotated until a distal end 43a' of the first part 43a of the second means 43, i.e.
  • the distal end of the sleeve 44 contacts the inner surface 14 of the frame plate 12 and the distal end 41 a' of the first part 41 a of the first means 41, i.e. the distal end of the bolt 42, arrives flush with an outer edge 44c' of the sleeve head 44c.
  • the contact between the sleeve and frame plate inner surface is established along an abutment surface 45 of the inner surface, which abutment surface surrounds the recess 36. Then, no further bolt rotation is possible and the desired distance between the frame and pressure plates for the plate heat exchanger in the closed state has been achieved.
  • connection element 34 when used in the plate heat exchanger can be varied by rotation of the bolt in relation to the sleeve between a minimum length shown in figure 3a and discussed above and a maximum length shown in figure 3c .
  • connection element has its maximum length, the bolt is screwed into the sleeve as little as possible, ⁇ , while still assuring engagement between the bolt and the sleeve.
  • connection elements had exactly this maximum length L, it would be very hard, if not impossible, to assemble the plate heat exchanger since the connection element could not be used in compressing the package 24 to its desired state-of-use-thickness, t closed .
  • the connection element with a maximum length enabling connection of the pressure and frames plates without compression of the package 24, i.e. L ⁇ 2 ⁇ T plate + t open + T 1st means proj + T 2nd means proj + ⁇
  • the plate heat exchanger can be transferred from its open to its closed state by simply rotating the bolt in relation to the sleeve. No additional means for forcing the pressure plate towards the frame plate are necessary.
  • Figure 3c illustrates that additional heat exchanger plates 50' and gaskets 52' (illustrated with broken lines) could be added to the plate heat exchanger 10 while still keeping this functionality of the connection element 34.
  • exchanger plates 50' and gaskets 52' would result in increased package thicknesses t open and t closed . Consequently, the distal end of the sleeve contacting the inner surface of the frame plate could not, without adjustments, be used as a sign that the desired distance between the frame and pressure plates for the plate heat exchanger in the closed state has been achieved. More particularly, if more heat exchanger plates 50' and gaskets 52' were added to the heat exchanger 10, the distal end of the sleeve would never (without over-tightening the connection element 34) contact the inner surface 14 of the frame plate 12.
  • both the first and second means more particularly the bolt and the sleeve, extend between the pressure plate and frame plate, a connection element is formed that is very compact.
  • the portion of the connection element that extends between the pressure and frame plate consists not only of a portion of the bolt but of portions of both the bolt and the sleeve.
  • the bolt and the sleeve can be arranged essentially after one another with only a short "overlap" to enable mutual engagement and give the connection element a maximum length, or the sleeve can be arranged to "swallow" a portion of the bolt to give the connection element a minimum length.
  • connection element is sufficient to connect the frame and pressure plates even when the package of heat exchanger plates and gaskets arranged between the frame and pressure plates is completely uncompressed. Additionally, the minimum length of the connection element is suited to the desired measures of the plate heat exchanger in the closed, ready-for-use, stage. More particularly, the first part of the second means extends from the inner surface of the frame plate to the inner surface of the pressure plate in the closed state of the PHE, the length of this first part being equal to the desired thickness of the package, t closed .
  • FIGS 4a-c correspond to figures 2a-c and illustrate parts of a gasketed plate heat exchanger 82 (not shown in its entirety but to a very large extent similar to the one shown in figures 1 a & b) according to a second embodiment of the present invention.
  • This PHE 82 is similar to the PHE 10 according to the previous figures except for when it comes to the connection between the frame plate 84 and pressure plate 86, which plates are connected by means of connection elements 88.
  • connection elements 88 are connected by means of connection elements 88.
  • the connection element 88 comprises a first means 81 and a second means 83.
  • the first means 81 has first, second and third parts, 81a-c, and comprises a solid bolt 90, having an external thread 90a', and a bolt washer/fixing means 92.
  • the second means 83 has first, second and third parts, 83a-c, and comprises a sleeve 94, having an internal thread 94a', and a sleeve washer means 96.
  • the sleeve washer means 96 is similar to the sleeve washer/fixing means 48 of the previously described connection element 34 except for that it lacks a fixing part.
  • the third part 83c of the second means 83 contains the sleeve washer means 96 corresponding to the washer part 48c of the sleeve washer/fixing means 48 while the second part 83b of the second means is constituted of a portion of the sleeve 94 only.
  • the second part 81 b of the first means 81 is arranged to be positioned in a respective recess 98 of the frame plate 84 while the second part 83b of the second means 83 is arranged to be positioned in a respective recess 100 of the pressure plate 86.
  • One of the recesses 100 of the pressure plate 86 which is similar to the recesses 98 of the frame plate (not further shown), is illustrated in more detail in figure 4c .
  • the shape of the recesses 98 and 100 of the plate heat exchanger 82 according to the second embodiment of the present invention is different from the shape of the recesses 36 and 38 of the plate heat exchanger 10 according to the first embodiment of the present invention.
  • the first and second means 81 and 83 In connection with the recesses 98 and 100, the first and second means 81 and 83, respectively, must be inserted into and removed from the frame and pressure plates in a direction parallel to the arrow D. However, in connection with the recesses 36 and 38, the first and second means 41 and 43, respectively, can also be inserted into and removed from the frame and pressure plates in a direction perpendicular to the arrow D.
  • the dimensions of the first and second means differ between the first and second embodiment of the present invention.
  • the outer diameter of the sleeve 94 is larger than of the sleeve 44 such that the second part 83b of the second means 83 takes up essentially the whole corresponding recess 100. Consequently, there is no need for a fixing part like the fixing part 48b described with reference to figure 2a and 2b .
  • the plate heat exchanger is closed by screwing the bolt 90 into the sleeve 94.
  • the bolt 90 is rotated until a distal end 83a' of the first part 83a of the second means 83, i.e. the distal end of the sleeve 94, contacts a fixing part 92b of the bolt washer/fixing means 92, and a distal end 81 a' of the first part 81 a of the first means 81, i.e. the distal end of the bolt 90, arrives flush with an outer edge 94c' of a sleeve head 94c of the sleeve 94.
  • the distal end of the sleeve 94 extends a distance ⁇ into the recess 98 of frame plate 84.
  • the connection element 88 has its minimum length. This minimum length is suited to the desired measures of the plate heat exchanger in the closed, ready-for-use, stage.
  • the first part 83a of the second means 83 extends from the inner surface 102 of the pressure plate to the fixing part 92b of the bold washer/fixing means in the closed state of the PHE, the length of this first part minus ⁇ being equal to the desired distance between inner surfaces 102 and 104 of the pressure and frame plates, respectively.
  • the outer surfaces of the pressure and frame plates are denoted 103 and 105, respectively.
  • FIG. 5a show a gasketed plate heat exchanger 106 according to a third embodiment of the present invention.
  • the PHE 106 is similar to the PHE shown in figures 1 a & 1 b except for when it comes to its carrying bar and its guiding bar, which bars are essentially similar and constructed as a respective connection element 108 according to the present invention.
  • connection elements are arranged to engage with the pressure plate while the second means of the connection elements are arranged to engage with the frame plate, which will be further described below.
  • PHE 106 A fully detailed description of the PHE 106 is considered redundant and will not be given.
  • components of the carrying and guiding bars, i.e. the connection elements 108 similar (except for dimensionally) to what has already been described, both in connection with the carrying and guiding bars 26 and 28 and the connection elements 34 and 88, will not be described again.
  • FIGS 5b and 5c show a part of a cross section through the plate heat exchanger 106 taken along line A-A in figure 5a , in a first and second PHE state, respectively.
  • the connection element 108 here in the form of the carrying bar, is illustrated in more detail.
  • the connection element 108 comprises a first means 111 and a second means 113.
  • the first means 111 has a first, a second and a third part, of which only the first part 111 a, with the distal end 111 a', has been given a reference numeral in the figures.
  • the first means 111 comprises a bolt 110, having an external thread 110a', and a bolt washer/fixing means 112.
  • the second means 113 has a first and a second part, 113a-b, and comprises a solid bolt 114, a sleeve 116 (drawn transparent for illustrative purposes) and a bolt washer means 118.
  • the sleeve 116 has an internal thread 116a' extending along the complete sleeve.
  • the bolt 114 is arranged to be inserted through the bolt washer means 118 and through a recess 120 in the frame plate 122, which frame plate has an inner surface 123 and an outer surface 124, before being screwed into the sleeve 116 to attach the same to the frame plate.
  • the bolt head 114b is housed within the frame plate 122, i.e.
  • the sleeve 116 can carry a load such as a number of heat exchanger plates provided with gaskets (not shown) and a pressure plate 126 having an inner surface 125 and an outer surface 127.
  • connection element 108 is not used for reducing the thickness of the plate/gasket package but for maintaining the desired final thickness of the package.
  • connection elements 34 and 88 are not suitable for use as carrying and guiding bars. If, for example, the connection element 34 was used as a carrying bar in the PHE 106, in the open state of the same, the bolt 42 would be screwed a certain distance into the sleeve 44 and some of the heat exchanger plates would hang from the bolt while the rest of the heat exchanger plates would hang from the sleeve. In connection with closing of the PHE, problems would arise, since the sleeve and the bolt have different outer diameters resulting in a misalignment of the heat exchanger plates. In accordance with the third embodiment of the present invention, this problem is solved by instead using the connection element 108 as carrying bar together with an extension element 128 during the plate/gasket package reduction.
  • the extension element 128 comprises a connection part 128a and a carrying part 128b.
  • the connection part 128a is externally threaded and adapted to be screwed into the sleeve 116.
  • the outer diameter of the carrying part 128b is equal to the outer diameter of the sleeve 116 such that the extension element and the sleeve, when connected, forms a bar 130 of uniform thickness from which the heat exchanger plates can hang while being aligned even in an open state of the PHE.
  • the first state illustrated in figure 5b is such an open state.
  • the extension element 128 is connected to the sleeve during assembly of the PHE up until the plate/gasket package has been reduced to its final desired thickness.
  • the heat exchanger plates and the pressure plate are threaded onto the bar 130, the plate/gasket package is compressed, for example by means of connection elements like the ones according to the first or the second embodiment, resulting in a transfer of all the heat exchanger plates to the sleeve 116, and then the extension element 128 is disconnected from the sleeve. Then, the second state illustrated in figure 5c prevails. Finally, the bolt 110 is screwed into the sleeve 116 which completes the closing of the PHE 106. In the closed ready-for-use state of the PHE 106 the sleeve 116 extends into the recess 132 of the pressure plate 126 without contacting the bolt washer/fixing means 112.
  • FIGs 6a and 6b correspond to figures 3a & 3b but illustrate a connection element 54 of a known PHE.
  • the connection element 54 comprises a threaded bolt 56 arranged to engage with a nut 58 for connecting two end plates 60 and 62 and clamping a package 64 of heat exchanger plates 66, here 28, separated by gaskets 68, here 27, there between.
  • the connection element 54 further comprises a bolt washer/fixing means 70 and a nut washer/fixing means 72.
  • the known PHE has conventional carrying and guiding bars (not shown) which are attached to the end plate 60.
  • the heat exchanger plates 66 provided with the gaskets 68 and the end plate 62 are threaded onto the carrying and guiding bars and shoved towards the end plate 60 to assume the uncompressed state illustrated in figure 6b .
  • the threaded bolt 56 and the bolt washer/fixing means 70 is arranged in a recess 74 of the end plate 60 such that the bolt extends along the package 64 and further through a recess 76 of the end plate 62.
  • the nut 58 is screwed onto the bolt 56.
  • it is essential that the bolt 56 is long enough to extend somewhat from an outer surface 78 of the end plate 62 to enable bolt-nut engagement.
  • the nut 58 is rotated in relation to the bolt 56 to force the end plates 60 and 62 closer to each other.
  • the end plate 62 has been displaced the distance ⁇ t in relation to the end plate 60, the PHE has reached its ready-for-use state.
  • Figure 6a shows the connection element 54 when the PHE is in the closed, ready-for-use, state.
  • the connection element defines desired distance between the end plates of the PHE in the ready-to-use state, which feature is available with the present, above described, invention, is missing for this known PHE.
  • the PHE is in the ready-for-use state it is actually possible to rotate the nut 58 even further in relation to the bolt 56.
  • the distance between the end plates must be measured in a separate operation. If the distance is not the desired one, there is a risk of the PHE not working properly.
  • Rotation of the nut 58 for transferring the PHE from the open to the closed state makes the bolt 56 extend more and more from the outer surface 78 of the end plate 62 and eventually also an outer edge 80 of the nut 58.
  • the bolt extends the distance p from the outer edge 80 of the nut 58.
  • the inventive PHE according to figure 3a where the bolt does not extend beyond the outer edge 44c' of the sleeve 44.
  • the PHE constructed in accordance with the present invention is much more compact and neat as compared to known PHEs. In connection with larger PHEs with more heat exchanger plates as well as gaskets, the difference in space demand between a known PHE and a PHE constructed in accordance with the present invention would be even larger.
  • connection element per PHE.
  • each of the PHEs comprises several connection elements, and it should be said that these several connection elements are not necessarily the same.
  • the second means of the connection elements are tailored for a specific number and type of heat exchanger plates and gaskets.
  • more heat exchanger plates and gaskets could be added to the above described inventive PHEs, at least the ones according to the first and second embodiments, without changing the design of the second means.
  • Such an addition would, however, probably remove the functionality, if any, of the second means defining the desired distance between the frame and pressure plates of the PHEs in the ready-to-use state.
  • removal of heat exchanger plates and gaskets from the PHEs may not be possible without adjustments. This is because it might not be possible to achieve a sufficient compression of such a reduced plate/gasket package before the connection element reaches its minimum length.
  • the first means of the connection elements are tailored for the respective specific second means.
  • addition of heat exchanger plates and gaskets to the above described inventive PHEs would be possible, at least for the ones according to the first and second embodiments, without changing the design of the first means.
  • removal of heat exchanger plates and gaskets from the PHEs would probably require amendments to the first means to make sure that it does not protrude beyond the outer edge of the second means in the PHE state of use.
  • the second means of the different connection means described above are arranged to either contact, or extend past, the inner surface of the frame plate when the respective PHE is in its state of use.
  • the second means could instead be shorter so as to never reach the inner surface of the frame plate.
  • the first and second means previously described engage with the frame and pressure plates, respectively, by being inserted through respective recesses in these frame and pressure plates.
  • the first and second means could, however, be designed to engage with the frame and pressure plates in other ways.
  • the first and/or the second means could be attached to the inner surface of the respective plate, i.e. not extend through, or into, the plate.
  • the herein disclosed shapes of the recesses in the frame and pressure plates are just exemplary and many other recess shapes are conceivable in connection with the present invention.
  • the recesses could be formed as curved grooves, the connection elements being automatically arranged in the bottom of the grooves due to gravity.
  • the first means of the connection element of the third embodiment is arranged to project from an inner surface of the frame plate when the PHE is closed.
  • the first means is so short that it does not extend through the complete frame plate and, therefore, does not protrude from the inner surface thereof.
  • the plate heat exchangers in the above described exemplary embodiments are gasketed PHEs.
  • the present invention could be used in connection with other types of PHEs, such as semi-welded PHEs.

Landscapes

  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Thermal Sciences (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Heat-Exchange Devices With Radiators And Conduit Assemblies (AREA)
EP11187796.5A 2011-11-04 2011-11-04 Plattenwärmetauscher Withdrawn EP2589916A1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP11187796.5A EP2589916A1 (de) 2011-11-04 2011-11-04 Plattenwärmetauscher

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP11187796.5A EP2589916A1 (de) 2011-11-04 2011-11-04 Plattenwärmetauscher

Publications (1)

Publication Number Publication Date
EP2589916A1 true EP2589916A1 (de) 2013-05-08

Family

ID=44970966

Family Applications (1)

Application Number Title Priority Date Filing Date
EP11187796.5A Withdrawn EP2589916A1 (de) 2011-11-04 2011-11-04 Plattenwärmetauscher

Country Status (1)

Country Link
EP (1) EP2589916A1 (de)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2013131794A1 (de) * 2012-03-07 2013-09-12 Mahle International Gmbh Plattenwärmetauscher und dessen herstellungsverfahren
EP3018318A3 (de) * 2014-08-18 2016-07-20 Modine Manufacturing Company Ladeluftkühler und einlassverteiler damit
CN111351380A (zh) * 2020-03-18 2020-06-30 济南东盛热电有限公司 一种可提高供暖效率的板式换热器
CN113175842A (zh) * 2021-03-26 2021-07-27 佛山市南海区德佰尼卫浴有限公司 一种耐高温陶瓷换热器

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH105787A (de) * 1923-07-21 1924-08-01 Haber Eugen Wärmeaustauschvorrichtung.
US2582871A (en) * 1948-07-31 1952-01-15 Pfaudler Co Inc Heat exchanger
GB1039817A (en) * 1963-10-08 1966-08-24 Serck Radiators Ltd Plate type heat exchangers or filters
WO1999023434A1 (en) * 1997-10-30 1999-05-14 Alfa Laval Ab Frame arrangement for a plate heat exchanger
EP1985955A2 (de) * 2007-04-28 2008-10-29 MAN Nutzfahrzeuge Aktiengesellschaft Plattenwärmetauscher

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH105787A (de) * 1923-07-21 1924-08-01 Haber Eugen Wärmeaustauschvorrichtung.
US2582871A (en) * 1948-07-31 1952-01-15 Pfaudler Co Inc Heat exchanger
GB1039817A (en) * 1963-10-08 1966-08-24 Serck Radiators Ltd Plate type heat exchangers or filters
WO1999023434A1 (en) * 1997-10-30 1999-05-14 Alfa Laval Ab Frame arrangement for a plate heat exchanger
EP1985955A2 (de) * 2007-04-28 2008-10-29 MAN Nutzfahrzeuge Aktiengesellschaft Plattenwärmetauscher

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2013131794A1 (de) * 2012-03-07 2013-09-12 Mahle International Gmbh Plattenwärmetauscher und dessen herstellungsverfahren
EP3018318A3 (de) * 2014-08-18 2016-07-20 Modine Manufacturing Company Ladeluftkühler und einlassverteiler damit
CN111351380A (zh) * 2020-03-18 2020-06-30 济南东盛热电有限公司 一种可提高供暖效率的板式换热器
CN113175842A (zh) * 2021-03-26 2021-07-27 佛山市南海区德佰尼卫浴有限公司 一种耐高温陶瓷换热器

Similar Documents

Publication Publication Date Title
AU2008332739B2 (en) Improved pipe coupling with built-in grip
JP5749352B2 (ja) プレート熱交換器
EP2589916A1 (de) Plattenwärmetauscher
EP2872810B1 (de) Pressfitting kupplung
JP2012505366A (ja) プレート熱交換器
US5000488A (en) Adapter fittings and connectors
JP2008298545A (ja) 水道メータ脱着用具およびこれを用いた水道メータ脱着方法
JP4400511B2 (ja) フランジ補強治具及びフランジ接合部の補強方法
KR101271984B1 (ko) 배관 피팅 고정부재
KR19990042031U (ko) 플랜지 정렬용 공구
JP4687040B2 (ja) コンクリート部材のための接続装置
EP3399270B1 (de) Plattenwärmetauscher
EP3453999A1 (de) Klemmanordnung und wärmetauscher mit der klemmanordnung
EP3222957A1 (de) Hakenbaugruppe und spiralwärmetauscher
CN218891809U (zh) 一种用于板式换热器的板片拆卸辅助装置
WO2018150354A1 (en) Connector element
CN220187518U (zh) 一种带有过滤结构的热交换器
CN218883277U (zh) 一种供加氢反应器、加氢换热器使用的顶推螺栓紧固组件
CN210462046U (zh) 速拆型螺旋顶杆式泵阀安装结构
CN202109096U (zh) 一种管夹及其管夹片
IL150324A (en) Pipe coupling
KR200416897Y1 (ko) 열교환기용 핀튜브 고정장치
WO2024010791A1 (en) Repair clamp tightening bolt assembly
WO2014094593A1 (zh) 偏心半球阀
JP4902948B2 (ja) フランジ面間調整継手装置

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

AX Request for extension of the european patent

Extension state: BA ME

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: THE APPLICATION IS DEEMED TO BE WITHDRAWN

18D Application deemed to be withdrawn

Effective date: 20131109