• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a heat transfer plate for a plate heat exchanger, the heat transfer plate comprising: a plate body forming a patterned section and having a first side and a second side opposite to the first side; a gasket groove formed depressed from the plate body in a direction from the first side towards the second side, and having a bottom wall, the bottom wall having a bottom wall body; and where the gasket groove includes at least a first section with a first recess formed on the bottom wall body, depressed from the bottom wall body in the direction from the first side towards the second side, and a second section with a second recess formed on the bottom wall body, depressed from the bottom wall body in the direction from the second side towards the first side, wherein said second section is adapted to accommodate a gasket. The present invention further relates to the heat exchanger formed of such heat transfer plates.
    公开号:DK201800725A1
    申请号:DKP201800725
    申请日:2018-10-15
    公开日:2020-05-25
    发明作者:Andersen Benny
    申请人:Danfoss A/S;
    IPC主号:
    专利说明:

    HEAT EXCHANGER PLATE WITH STRENGHENED DIAGONAL AREA
    BACKGROUND
    A typical construction of a plate heat exchanger comprises a plurality of heat transfer plate stacked on top of each other. The heat transfer plates are formed with patterns such that flow paths are formed between each set of neighboring heat transfer plates. Openings and are formed in the heat transfer plates to form inlets and outlets for fluids to these flow paths. Gaskets are positioned between the heat transfer plates in gasket grooves formed in the heat transfer plates. The gasket is arranged at an edge portion of the heat transfer plate to seal the flow paths and at an area around the openings to seal pairs of the openings, such that only two of them have flow access to the flow path formed at one side of the heat transfer plate, while the other two is sealed therefrom.
    Especially in the opening areas the pressures are high, but the gasket is disposed at only one side of the heat transfer plate, while the other side is unsupported, thus forming a weak section, where these weak sections in the areas of the high pressures may be deformed. Further, the gasket tends to be pushed out of position by the pressures in these in these areas.
    SUMMARY OF THE INVENTION
    The present disclosure provides a heat transfer plate for a plate heat exchanger and a plate heat exchanger that at least partly alleviate the deformation of the heat transfer plate at the gasket groove in use.
    The present disclosure further provides a heat transfer plate for a plate heat exchanger and a plate heat exchanger that at least partly alleviate the dispositioning of the gasket positioned in these areas.
    DK 2018 00725 A1
    The present disclosure introduces a heat transfer plate for a plate heat exchanger, the heat transfer plate comprising:
    a plate body forming a patterned section and having a first side and a second side opposite to the first side;
    a gasket groove depressed from the plate body in a direction from the first side towards the second side, and having a bottom wall, the bottom wall having a bottom wall body;
    and where the gasket groove includes at least a first section with a first recess formed on the bottom wall body, depressed from the bottom wall body in the direction from the first side towards the second side, and a second section with a second recess formed on the bottom wall body, depressed from the bottom wall body in the direction from the second side towards the first side, wherein said second section is adapted to accommodate a gasket.
    In an embodiment said plate comprises opening pairs, wherein said first section is positioned to separate said first pair from said patterned section, and said second section is positioned to separate said second pair from said patterned section, and where, when a gasket is positioned in said second section, then said second pair is sealed from said first side patterned section, whereas when no gasket is positioned in said first section, said first pair forms respectively inlet and outlet to the first side.
    In an embodiment the gasket groove further includes a third section with a flat bottom wall body connecting a first section of respectively an inlet to an outlet of said first opening pair and a second section of respectively and an inlet to an outlet of said second opening pair.
    In an embodiment the heat transfer plate is provided with structures in the plate body forming flow paths when connected to an upper neighbouring heat transfer plate, and openings forming inlets and outlets to the flow paths, and where a gasket is positioned in said second section first side and contacted by the neighbouring plate first section second side, whereby said gasket forms a
    DK 2018 00725 A1 sealing between the first side flow paths of said heat transfer plate and the second opening pair.
    In one embodiment, said heat transfer plate is connected to a lower neighbouring heat transfer plate, where the first side of said first section is empty, meaning no gasket is positioned in said first section, but where its lower surface, the second side surface, contacts a gasket positioned in a second section of said lower neighbouring heat transfer plate.
    In one embodiment, the gasket is shaped at the upper and/or lower surface with an upper recess and/or lower recess to receive the heat transfer plate second recess and/or the upper neighbouring heat transfer plate first recess. This has the effect of the recesses ‘hooking’ into the gasket keeping it in place.
    In one embodiment, the gasket is not shaped at the upper and lower surface according to the shapes of second recess and the upper neighbouring heat transfer plate first recess but is deformed by the first and second recesses respectively when squeezed between the two heat transfer plates. This has the effect of the first and second recess squeezing themselves into the gasket material, which by e.g. the friction and the elasticity of the gasket helps to keep the gasket in position. Further, if there should be some minor deformation of the heat transfer plate in the area, the elasticity of the gasket material would ensure contact if the deformation is of the plates is less than the deformation of the gasket.
    In one embodiment, the first recess and second recess are differently shaped.
    In one embodiment, the first recess and second recess have different widths.
    In one embodiment, the first section has a first width and second section has second width different from said first width.
    DK 2018 00725 A1
    In one embodiment, the first width is smaller than the second width, such that when an upper heat transfer plate is stacked on top of said heat transfer plate, the outer portions of the upper heat transfer plate is positioned on the part of the plate body at the side of the second section of said heat transfer plate. This ensures a strengthening of the area where a gasket only is positioned in every second heat transfer plate.
    The present further in an embodiment relate to a heat transfer plate for a plate heat exchanger, the heat transfer plate comprising:
    a plate body forming a patterned section and having a first side and a second side opposite to the first side;
    a gasket groove formed on the plate body, depressed from the plate body in a direction from the first side towards the second side, and having a bottom wall, the bottom wall having a bottom wall body;
    and where the gasket groove includes at least a first section with a first width, and a second section with a second width, wherein the first width is smaller than the second width, such that when an upper heat transfer plate is stacked on top of said heat transfer plate, the outer portions of the upper heat transfer plate is positioned on the part of the plate body at the side of the second section of said heat transfer plate.
    FIGURES
    Fig. 1
    Fig. 2
    Fig. 3
    Heat exchanger stack according to prior art.
    Deformation of heat exchanger stack according to prior art.
    Heat transfer plate diagonal area with recessed first and second gasket groove sections according to an embodiment of the present invention.
    DK 2018 00725 A1
    Figs. 4A, B Cross sections of two different gasket designs to be used in the heat transfer plates according to the present invention.
    Figs. 5A, B Illustrations of two different embodiments of said respectively first and second sections of said gasket grooves stacked on top of each other.
    DETAILED DESCRIPTION OF THE INVENTION
    It should be understood, that the detailed description and specific examples, while indicating embodiments of the invention, are given by way of illustration only, since various changes and modifications within the spirit and scope of the invention will become apparent to those skilled in the art from the detailed description.
    FIG. 1 shows a typical construction of a plate heat exchanger 1'. The plate heat exchanger 1' comprises a plurality of heat transfer plate 10' stacked on top of each other. The heat transfer plates 10' are formed with a patterned section 11 such that flow paths are formed between each set of neighboring heat transfer plates 10'. Openings 41 and 42 are formed in the heat transfer plates 10' to form inlets and outlets for fluids to these flow paths. Gaskets 60 are positioned between the heat transfer plates 10' in gasket grooves 20' formed in the heat transfer plates. The gasket 60 is arranged at an edge portion of the heat transfer plate to seal the flow paths and at an area around the openings to seal pairs of the openings 41, 42, such that only two 41 of them have flow access to the flow path formed at one side of the heat transfer plate, while the other two 42 is sealed therefrom. The arrows with broken lines illustrate the flow of a fluid along the first side 111 patterned section 11 from an inlet to an outlet 31.
    Especially in the opening areas the pressures are high, but the gasket 60 is disposed at only one side of the heat transfer plate 10', while the other side is unsupported, thus forming a weak section.
    DK 2018 00725 A1
    As shown in FIG. 2, these weak sections in the areas of the high pressures may be deformed.
    In an embodiment, referring to FIGS. 3, 4A and 4B, the heat transfer plate 10 comprises a plate body 11 having a first side 111 and a second side 112 opposite to the first side 111. The heat transfer plate 10 further comprises a gasket groove 20 which is formed on the plate body 11, is depressed from the plate body 11 in a direction from the first side 111 towards the second side 112 and has a bottom wall 120 with a bottom wall body 121.
    The gasket groove 20 includes at least a first section 21 with a first recess 31 formed on the bottom wall body 121, depressed from the bottom wall body 121 in the direction from the first side 111 towards the second side 112, and a second section 22 with a second recess 32 formed on the bottom wall body 121, depressed from the bottom wall body 121 in the direction from the second side 111 towards the first side 112. The respectively first section 21 and second section 22 is positioned such that said first section 31 separate the first pair 41 of openings, and the second section 22 separate the second pair 42 of openings, from the heat exchanging sections of the flow paths formed by the combined patterned sections 12 of connected neighbouring plates.
    In an embodiment, the first section 21 is provided with a first recess 31 formed on the bottom wall body 121, depressed from the bottom wall body 121 in the direction from the first side 111 towards the second side 112. The second section 22 is provided with a second recess 32 formed on the bottom wall body 121, depressed from the bottom wall body 121 in the direction from the second side 111 towards the first side 112. The first 31 and second 32 recess thus project to opposite directions relative to the plate body 11 and to each other. Seen from one side of the plate body 11 first recess 31 and second 32 recess naturally will be recesses, whereas from the other they will appear as projections.
    DK 2018 00725 A1
    The first and second recesses 31, 32 in themselves ensures some rigidity to the heat transfer plate 10 material in the opening areas (often referred to as the diagonal areas) which is better able to withstand the pressures in these areas, making them less prone to bending or deformation, but also assists in keeping the gasket in place, as will also be discussed later.
    In an embodiment the gasket groove 20 further includes a third section 23 formed in the edge portion at the circumference of the heat transfer plate 10, possible also having sections partly or fully encircling the openings 41,42.
    When the heat exchanger 1 is formed is stacked by stacking heat exchanger plates 10 according to any embodiment, a gasket 60 is positioned in the gasket groove 20 except in the first section 21.
    The third section 23 will form the sealing to the external of the heat exchanger 1, and will be positioned such that it is positioned in combination with third sections 23 of the upper and lower connected heat transferring plates 10, such that the gasket 60 is squeezed between the third section 23 first side 111 bottom wall and the upper neighbouring heat transferring plate 10 third section 23 second side 112.
    The first section 21 will be empty of a gasket 60, such that there will be access from the first opening pair 41 to the patterned section 12, this pair then will form inlet and outlet to the flow path formed at the first side 111 of the heat transfer plate 10.
    The second section 22 will comprise a gasket 60 sealing off fluid from the second pair 42 to the first side 111 flow path.
    As also indicated in relation to figure 1, when stacking the heat transfer plates 10 to form the heat exchanger 1, a first section 21 will be aligned with a second section 22 of both an upper and lower neighbouring heat transfer plate 10, and correspondingly a second section 22 will be aligned with a first section 21 of
    DK 2018 00725 A1 both an upper and lower neighbouring heat transfer plate 10. Therefore, in these areas, the diagonal areas, every second heat exchanger plate 10 is unsupported by a gasket 60.
    The third section 23 may have any shape of the bottom wall body 121, such as being flat, and may further connect a first section 21 of respectively an inlet to an outlet of said first opening pair 41 and a second section 22 of respectively and an inlet to an outlet of said second opening pair 42.
    Each of the first 21, second 22 and third sections 23 may be a single section only or could each be a plural of sections of the gasket grove 20. They could be meandering sections or branched, open or closes sections.
    In an embodiment the gasket 60 is shaped at the upper and lower surface with an upper recess 61 and/or lower recess 62 as seen in fig. 4A to receive the heat transfer plate 10 second recess 32 and/or the upper neighbouring heat transfer plate 10 first recess 31.
    In an embodiment as illustrated in figure 4B, the gasket 60 is not shaped according to the first 31 and second 32 recesses but could have upper and lower surfaces in any shape, such as flat as illustrated. In this embodiment the gasket 60 is being deformed by the first 31 and second 32 recesses respectively when squeezed between the two heat transfer plates 10. This is to be understood such that the whole of the gasket 60 may be squeezed a bit making a first general deformation of the gasket 60, but the first 31 and/or second 32 recesses push into the gasket 60 material with a second deformation.
    In one embodiment combining the features of fig. 4A and 4B, then the gasket 60 comprises either the upper 61 or lower 62 gasket recess, whereas the other of the upper or lower of the gasket 60 surfaces is unshaped according to the first 31 or second 32 recess, such as seen in fig. 4B.
    DK 2018 00725 A1
    In any of the embodiments the first 31 and second 32 recess thus assists in keeping the gasket 60 in position.
    In an embodiment the first recess 31 and second recess 32 is differently shaped, which could be that they have different widths, or could be simply the form of the recess 31, 32 is different, e.g. one having flat tops being square like, another being triangular like with pointing ends etc.
    Fig. 5A illustrate the aligned respectively first 21 and second 22 sections where four heat transfer plates 10 is stacked on top of each other, and where a gasket is situated within every second plate.
    Fig. 5B illustrated an embodiment where the first section 21 has a first width and second section 22 has second width different from said first width. In one embodiment as illustrated the first width is smaller than the second width, such that when an upper heat transfer plate 10 is stacked on top of said heat transfer plate 10, the outer portions of the upper heat transfer plate 10 is positioned on the part of the plate body 11 at the side of the second recess 22 of said heat transfer plate 10.
    It should be understood for any of the embodiments, that the first 21 and second 22 sections usually will not have ‘continuous’ walls, though it may appear as such from the illustrations, but will have a number of open sections in the walls forming the fluidic communication between an inlet and outlet 41, 42 and the patterned sections 12. When referring to respectively the first width and second width, this thus implies a general width of the sections 21, 22, such as where it does comprise walls opposite to each other. It should also be understood that in any of the embodiments the first and second widths may change along the length extensions of the first and second sections 21, 22, just as the widths of the first 31 and second 32 recesses may change.
    权利要求:
    Claims (12)
    [1] 1. A heat transfer plate (10) for a plate heat exchanger (1), the heat transfer plate (10) comprising:
    a plate body (11) forming a patterned section (12) and having a first side (111) and a second side (112) opposite to the first side (111);
    a gasket groove (20) formed depressed from the plate body (11) in a direction from the first side (111) towards the second side (112), and having a bottom wall (120), the bottom wall (120) having a bottom wall body (121);
    and where the gasket groove (20) includes at least a first section (21) with a first recess (31) formed on the bottom wall body (121), depressed from the bottom wall body (121) in the direction from the first side (111) towards the second side (112), and a second section (22) with a second recess (32) formed on the bottom wall body (121), depressed from the bottom wall body (121) in the direction from the second side (111) towards the first side (112), wherein said second section (22) is adapted to accommodate a gasket (60).
    [2] 2. Heat transfer plate (10) according to claim 1, where said plate comprises opening pairs (41, 42), wherein said first section (21) is positioned to separate said first pair (41) from said patterned section (12), and said second section (22) is positioned to separate said second pair (42) from said patterned section (12), and where, when a gasket is positioned in said second section (22), then said second pair (42) is sealed from said first side (111) patterned section (12), whereas when no gasket is positioned in said first section (21), said first pair (41) forms respectively inlet and outlet to the first side (111).
    [3] 3. Heat transfer plate (10) according to claim 1 or 2, wherein the gasket groove (20) further includes a third section (23) with a flat bottom wall body (121) connecting a first section (21) of respectively an inlet to an outlet of said first opening pair (41) and a second section (22) of respectively and an inlet to an outlet of said second opening pair (42).
    DK 2018 00725 A1
    [4] 4. Heat transfer plate (10) according to claim 1, 2 or 3, wherein the heat transfer plate (10) is provided with structures in the plate body (11) forming flow paths when connected to an upper neighbouring heat transfer plate (10), and openings (41, 42) forming inlets and outlets to the flow paths, then a gasket (60) is positioned in said second section (22) first side (111) and contacted by the neighbouring plate (10) first section (21) second side (112).
    [5] 5. Heat transfer plate (10) according to claim 4, wherein when said heat transfer plate (10) is connected to a lower neighbouring heat transfer plate (10), said first side (111) of said first section (21) is empty, but contacts a gasket (60) positioned in a second section (22) of said lower neighbouring heat transfer plate (10).
    [6] 6. Gasket (60) for a heat transfer plate (10) according to claim 4 or 5, wherein said gasket (60) is shaped at the upper and/or lower surface with an upper recess (61) and/or lower recess (62) to receive the heat transfer plate (10) second recess (32) and/or the upper neighbouring heat transfer plate (10) first recess (31).
    [7] 7. Gasket (60) for a heat transfer plate (10) according to claim 4 or 5, wherein the gasket (60) is not shaped at the upper and lower surface according to the shapes of second recess (32) and the upper neighbouring heat transfer plate (10) first recess (31), but is deformed by the first (31) and second (32) recesses respectively when squeezed between the two heat transfer plates (10).
    [8] 8. Heat transfer plate (10) according to any of the preceding claims, wherein the first recess (31) and second recess (32) is differently shaped.
    [9] 9. Heat transfer plate (10) according to any of the preceding claims, wherein the first recess (32) and second recess (32) has different widths.
    DK 2018 00725 A1
    [10] 10. Heat transfer plate (10) according to any of the previous claims, wherein the first section (21) has a first width and second section (22) has second width different from said first width.
    [11] 11. Heat transfer plate (10) according to claim 10, wherein the first width is smaller than the second width, such that when an upper heat transfer plate (10) is stacked on top of said heat transfer plate (10), the outer portions of the upper heat transfer plate (10) is positioned on the part of the plate body (11) at the side of the second section (22) of said heat transfer plate (10).
    [12] 12. A heat transfer plate (10) for a plate heat exchanger (1), the heat transfer plate (10) comprising:
    a plate body (11) forming a patterned section (12) and having a first side (111) and a second side (112) opposite to the first side (111);
    a gasket groove (20) depressed from the plate body (11) in a direction from the first side (111) towards the second side (112), and having a bottom wall (120), the bottom wall (120) having a bottom wall body (121);
    and where the gasket groove (20) includes at least a first section (21) with a first width, and a second section (22) with a second width, wherein the first width is smaller than the second width, such that when an upper heat transfer plate (10) is stacked on top of said heat transfer plate (10), the outer portions of the upper heat transfer plate (10) is positioned on the part of the plate body (11) at the side of the second section (22) of said heat transfer plate (10).
    类似技术:
    公开号 | 公开日 | 专利标题
    KR101483837B1|2015-01-16|Plate heat exchanger plate and plate heat exchanger
    US9250019B2|2016-02-02|Plate heat exchanger
    EP3080541B1|2019-05-08|Heat exchanger with improved flow
    US10527361B2|2020-01-07|Heat exchanger
    EP2370773B1|2016-04-06|Reinforced heat exchanger
    EP3640577B1|2021-11-03|Heat exchanger comprising plates with strenghened diagonal area
    EP3032208B1|2017-04-19|Gasket groove for a plate heat exchanger
    KR20210022738A|2021-03-03|Heat transfer plate and gasket
    EP3489606A1|2019-05-29|Heat transfer plate for plate heat exchanger and plate heat exchanger with the same
    EP3640576A1|2020-04-22|Gasket fixation to heat transfer plate
    EP3812682A1|2021-04-28|Lining for heat exchanger
    EP3835702A1|2021-06-16|Gasket and assembly for a plate heat exchanger
    CN109813159B|2021-02-02|Heat transfer plate for a plate heat exchanger and plate heat exchanger with a heat transfer plate
    EP3825637A1|2021-05-26|Gasket and assembly for a plate heat exchanger
    DK180387B1|2021-02-26|Plate kind heat exchanger with end plates
    JP2005221222A|2005-08-18|Plate for heat exchange, and heat exchange unit
    CN112747613A|2021-05-04|Heat exchange plate for plate heat exchanger and plate heat exchanger
    US20160146543A1|2016-05-26|Plate heat exchanger
    CN111220006A|2020-06-02|Plate heat exchanger
    WO2022015217A1|2022-01-20|A double wall plate heat exchanger
    同族专利:
    公开号 | 公开日
    EP3640577B1|2021-11-03|
    DK180146B1|2020-06-25|
    EP3640577A2|2020-04-22|
    EP3640577A3|2020-07-29|
    DK3640577T3|2022-02-07|
    RU2718661C1|2020-04-13|
    CN111043896B|2022-01-28|
    CN111043896A|2020-04-21|
    US20200116440A1|2020-04-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US4184542A|1976-04-16|1980-01-22|Hisaka Works, Ltd.|Plate type condenser|
    SE456771B|1984-01-24|1988-10-31|Reheat Ab|PACKING SAVINGS AND PACKAGING OF PLATE ELEMENTS FOR PLATFORM HEAT EXCHANGERS|
    GB8423271D0|1984-09-14|1984-10-17|Apv Int Ltd|Plate heat transfer apparatus|
    DE4303669C1|1993-02-09|1994-01-20|Kyffhaeuser Maschf Artern Gmbh|Transmission plate for heat - has sealing groove running around heat transmission surface and through apertures|
    KR100196779B1|1997-01-06|1999-06-15|이동환|Gasket attachment shape for plate type heat exchanger|
    CN2405181Y|1999-12-30|2000-11-08|大连经济技术开发区九圆热交换设备制造有限公司|Plate pieces unit of plate type heat exchanger|
    DE10029999A1|2000-06-17|2002-01-03|Otto Thermotech Gmbh|Plate heat exchanger of sealed type has seal with bottom approximately same shape as sealing groove base, sealing surface approximately same shape as base of adjacent plate|
    SE528847C2|2005-01-28|2007-02-27|Alfa Laval Corp Ab|Gasket assembly for plate heat exchanger|
    KR20080006585U|2008-03-21|2008-12-26|대원열판|Gasket for heat transfer plate|
    EP2626661B1|2012-02-07|2018-02-28|Danfoss A/S|stacked plate heat exchanger having a groove and a gasket|
    DK177634B1|2013-03-08|2014-01-13|Danfoss As|Fixing gasket in plate type heat exchanger|
    EP3032208B1|2014-12-10|2017-04-19|Danfoss A/S|Gasket groove for a plate heat exchanger|
    CN207050547U|2017-07-05|2018-02-27|扬州派斯特换热设备有限公司|A kind of plate type heat exchanger sealing structure|US10876794B2|2017-06-12|2020-12-29|Ingersoll-Rand Industrial U.S., Inc.|Gasketed plate and shell heat exchanger|
    法律状态:
    2020-05-25| PAT| Application published|Effective date: 20200416 |
    2020-06-25| PME| Patent granted|Effective date: 20200625 |
    优先权:
    申请号 | 申请日 | 专利标题
    DKPA201800725A|DK180146B1|2018-10-15|2018-10-15|Heat exchanger plate with strenghened diagonal area|DKPA201800725A| DK180146B1|2018-10-15|2018-10-15|Heat exchanger plate with strenghened diagonal area|
    DK19201243.3T| DK3640577T3|2018-10-15|2019-10-03|HEAT EXCHANGER COMPREHENSIVE PLATES WITH REINFORCED DIAGONAL AREA|
    EP19201243.3A| EP3640577B1|2018-10-15|2019-10-03|Heat exchanger comprising plates with strenghened diagonal area|
    CN201910963371.2A| CN111043896B|2018-10-15|2019-10-11|Heat exchanger plate with reinforced diagonal zones|
    US16/599,329| US20200116440A1|2018-10-15|2019-10-11|Heat exchanger plate with strengthened diagonal area|
    RU2019132510A| RU2718661C1|2018-10-15|2019-10-14|Heat exchanger plate with reinforced diagonal area|
    [返回顶部]