CN1672007A

CN1672007A - A heat exchanger plate, a plate heat exchanger and a method for manufacturing a heat exchanger plate

Info

Publication number: CN1672007A
Application number: CNA038184095A
Authority: CN
Inventors: B·塔格森
Original assignee: Alfa Laval AB
Current assignee: Alfa Laval AB
Priority date: 2002-07-29
Filing date: 2003-07-07
Publication date: 2005-09-21
Anticipated expiration: 2023-07-07
Also published as: AU2003248167A1; JP4246702B2; WO2004011868A1; SE0202333L; CN100442001C; SE0202333D0; SE524751C2; US20050269058A1; EP1552237A1; JP2005534885A

Abstract

The invention refers to a heat exchanger plate (3), a plate heat exchanger with a plate package of heat exchanger plates and a method for manufacturing a heat exchanger plate. The heat exchanger plate includes a heat transfer area (20) and a border area (22), which is located outside the heat transfer area and which extends along and delimits the heat transfer area. A curable polymer material is applied to the border area in such a way that it extends along the whole or parts of the border area. The polymer material forms after curing a gasket (30) for tight abutment against an adjacent plate in the plate heat exchanger.

Description

Heat exchanger plate, heat-exchangers of the plate type and the method for making heat exchanger plate

Technical field

The present invention relates to a kind of heat exchanger plate that is used for heat exchanger, wherein this plate comprises heat transfer zone and borderline region, and this borderline region is positioned at the outside in this heat transfer zone and extends and determine the border in this heat transfer zone along this heat transfer zone.The invention still further relates to a kind of heat-exchangers of the plate type that comprises a plurality of this plates.In addition, the invention still further relates to a kind of method of making heat exchanger plate, it may further comprise the steps: thin plate is provided, cut this plate and make this plate be configured as the heat exchanger plate that has conduct heat zone and borderline region, this heat transfer zone has a large amount of perforates, and this borderline region is positioned at the outside in this heat transfer zone and extends and determine the border in this heat transfer zone along this heat transfer zone.

Background technology

SE-B-548806 has disclosed a kind of heat-exchangers of the plate type that has such heat exchanger plate.This heat exchanger plate keeps together by turnbuckle, so that form board component.

Thereby heat exchanger plate now is to make by the unwanted part that is pressed into required shape and removes for example perforate.Liner uses between the heat exchanger plate of this heat-exchangers of the plate type, thereby this liner is for example made individually by compression molding or injection molding.Thereafter, complete liner is attached on the complete heat exchanger plate.Preferably, thus this liner is attached on the heat exchanger plate by gluing.This liner also can comprise various guides, for example so-called T shape tab, and it stretches out and is pressed in the corresponding recesses the heat exchanger plate from liner.Liner formerly has the cross sectional shape of essentially rectangular usually, yet liner in recent years has the cross sectional shape of the point of roof shape for the upper surface of this liner, this upper surface promptly in the face of and against the surface of adjacent heat exchanger plate.

Even this known independent molded liner has good sealing characteristics and higher reliability, but these liners also have some shortcoming.The installation of liner is time-consuming manual work, and this causes staff's fatigue easily, and is difficult to automation mechanized operation.The liner of a large amount of various sizes has to store.The manufacturing of the liner of various sizes need be to different mould great amount of investment, and this means that also the cost that changes liner is very high.In different application scenarios, this liner can not be applicable to different plate thickness individually, perhaps can not be applicable to required operating pressure individually.In the installation process of plate and board component, the required whether correctly location of this liner of accurately checking, whether for example all T shape tabs correctly are arranged in the corresponding grooves.For the maintenance of heat-exchangers of the plate type, liner can not re-use, and this is because they often rupture and shrink or the like.Therefore, under each maintenance condition of stripper assembly, liner has to pull down and change.

DE-A-2359978 has disclosed the heat-exchangers of the plate type of another type, and it has the plate of glass plate or any similar silicate material.Between plate,, be provided with the sealing and the bonding combined material band that comprise silicon along the edge.These bands are arranged so that first band and spacing are seen be applied on first plate continuously.Thereafter, second plate is applied to spacing part and first and is with.Second band and spacing part are applied on second plate subsequently, and the 3rd plate applies second and is with thereafter, or the like.When finishing this board component installation by this way, sealing and adhesives solidify, and remove the spacing part subsequently.

DE-A-3905066 has disclosed a kind of heat exchanger module, and it has thin metal forming, and the spacing element was stacked on top of each other in the middle of this metal forming was utilized, and this spacing element comprises fringeware and fabric.Fringeware comprises sealing device, and it is made of for example different polymeric materials such as silicon natural rubber, thermoplastic resin.

Summary of the invention

Purpose of the present invention is reduced to be made heat-exchangers of the plate type and overcomes above-mentioned shortcoming.

This purpose realizes by a kind of heat exchanger plate that is limited by preamble and characteristic, this heat exchanger plate is characterised in that, curable polymeric material is applied on this borderline region and on this borderline region and solidifies, so that this polymeric material extends along whole borderline region or portion boundary zone, and be arranged to be convenient to form liner, so as in this heat-exchangers of the plate type closely against adjacent plate.

By this heat exchanger plate, overcome above-mentioned shortcoming.By polymeric material is applied on this plate with uncured viscous form, thereby can make this plate by easy mode in borderline region.When this polymeric material has cured, formed such heat exchanger plate, this polymeric material sticks on the borderline region regularly on this plate, and this heat exchanger plate is near another this plate setting in board component.Therefore can save the complete liner of previous use.Because the polymeric material of viscosity can apply by robot apparatus, so its manufacturing can realize automation in an easy manner.

According to embodiments of the invention, this curable polymeric material comprises silicon, and it has good sealing characteristics.Silicon also has the higher bonding performance of the heat exchanger plate with under it.Therefore, this curable polymeric material comprises liquid silastic (LSR).

According to another embodiment of the present invention, this curable polymeric material forms the lower surface that is roughly the plane after solidifying, and it directly adheres on this borderline region.Therefore, can guarantee with its under the borderline region of plate bonding well.In addition, this curable polymeric material comprises upper surface after solidifying, and this upper surface has slow curved convex shape in the cross section.By this convex shape, can guarantee closely against adjacent plate.Because convex shape is this against having roughly linear shape.This convex shape also helps to realize the reduction of following risk, that is, this liner adheres on the adjacent plate, and particularly the bonding of borderline region of the plate under with it compared after long-term the use.This board component can easily be dismantled thus.

According to another embodiment of the present invention, this curable polymeric material comprises first composition and second composition, and first composition and second composition are mixed into the polymeric blends that can apply.This curable polymeric material can be before composition mixes longer-term storage.This curable polymeric material has given desirable characteristics aspect adhesive property, viscosity, the hardness after solidifying.Advantageously, this polymeric blends that can apply is very sticking before solidifying, and this polymeric blends can easily apply like this.For example, the viscosity of this polymeric blends that can apply reaches 300-800Pas (Pascal * second).By this viscosity, can guarantee that polymeric blends kept required shape before solidifying, finish up to this curing.Simultaneously, by the viscosity of this order of magnitude, the beginning that can guarantee the material that applies is very uniform with being connected before it is terminal.Selected viscosity must be optimized with reference to applying performance, shape stability and being connected uniformity thus at least.

According to another embodiment of the present invention, this borderline region comprises basal surface and at least one first side surface, and this basal surface roughly extends along whole borderline region, and this first side surface extends and extends between this basal surface and heat transfer zone along whole borderline region.First side surface is to interrupt so in some sense, and promptly the ripple in the zone of conducting heat arrives the position of first side surface.This first side surface forms an angle with respect to this basal surface.By this way, formed path label for polymeric material.This borderline region also comprises second side surface, and this second side surface extends in the basal surface outside along whole borderline region, and this second side surface forms an angle with respect to this basal surface.This polymeric material is besieged between side surface thus, and also remains on the desired position after the long-term use of this heat-exchangers of the plate type.This heat exchanger plate also comprises fringe region, and this fringe region is positioned at this borderline region outside, and extends and the limited boundary zone around borderline region, and wherein this second side surface extends between basal surface and fringe region.

Limit and comprise by preamble, realized the above object as the heat-exchangers of the plate type of the assembly of the heat exchanger plate of above-mentioned qualification.This heat exchanger plate is easily mounted on the board component of heat-exchangers of the plate type, and wherein this board component keeps together by turnbuckle or any similar parts.

This purpose also can limit and the method that is used to make heat exchanger plate with step of characteristic realizes that it may further comprise the steps by preamble:

Curable polymeric material is applied on this borderline region, so that this polymeric material extends along whole borderline region or portion boundary zone; With

Make this curable polymeric material solidify so that form liner so that in this heat-exchangers of the plate type closely against adjacent plate.

The advantageous embodiment of this method limits in dependent claims 15-25.

Advantageously, this curable polymeric material comprises first composition and second composition, and this method may further comprise the steps before near described applying: what make these two kinds of compositions be mixed into can to apply preferably is very sticking polymeric blends.This first composition comprises for example LSR and can comprise catalyst of silicon, and this second composition comprises silicon for example LSR and activator, crosslinking agent for example, and wherein the percentage of these two kinds of compositions is favourable roughly the same in this polymeric blends.

In addition, this curable polymeric material applies by automatic processing device, and this automatic processing device is arranged to carry and is used to discharge the nozzle of this polymeric material and guides this nozzle along this borderline region.After applying, this curable polymeric material solidifies at elevated temperatures, and the temperature of this rising is for example between 150-250 degree centigrade.This curable polymeric material solidifies reaching in hardening time of at least 0.5 hour.

Description of drawings

With reference to the following description of preferred embodiment and in conjunction with the accompanying drawings, the present invention may be better understood, in the accompanying drawings:

Fig. 1 shows the side view of heat-exchangers of the plate type of the present invention;

Fig. 2 shows the front view of heat-exchangers of the plate type shown in Figure 1;

Fig. 3 show heat-exchangers of the plate type shown in Figure 1 the front view of heat exchanger plate;

Fig. 4 shows along the sectional view of the line IV-IV intercepting of Fig. 3; With

Fig. 5 shows and is used for polymeric material is applied to treating apparatus on the plate shown in Figure 3.

The specific embodiment

Fig. 1 and Fig. 2 show the heat-exchangers of the plate type 1 that comprises board component 2, and this board component has and is arranged to heat exchanger plate adjacent one another are 3.This board component is arranged between two end plates 4 and 5.Thereby end plate 4 and 5 is by turnbuckle 6 pressure plates assemblies 2 and press each other, and this turnbuckle extends through end plate 4 and 5.Turnbuckle 6 comprises screw thread, thereby and therefore can compress this board component 2 on the turnbuckle 6 by with manner known in the art nut 7 being screwed to.In an illustrated embodiment, show four turnbuckles 6.Should be noted that the quantity that can change turnbuckle, and the quantity of turnbuckle can be different in different application scenarios.

Heat-exchangers of the plate type 1 also comprises two entrance members 8 and two outlet members 9.Entrance member 8 and outlet member 9 extend through end plate and the board component 3 in the end plate 5.Plate 3 is provided with perforate 10 with manner known in the art, see Fig. 3, and plate 3 pressurized being molded as, so that being communicated with first pair of entrance member 8 and outlet member 9 between adjacent heat exchanger plate 3 every a clearance space, and other clearance space every between adjacent heat exchanger plate 3 is communicated with entrance member 8 and outlet member 9 with another.This separation of clearance space can realize that promptly, the zone that centers on perforate 10 roughly is positioned on the midplane (middle plane) of heat exchanger plate 3 by suppressing described plate by this way.Perforate 10 also can be surrounded by liner, so that realize the separation of this clearance space.Below will describe these liners in detail.

Therefore, first medium can be introduced through first entrance member 8, the first half ones of the plate spacing of flowing through, and draw through first outlet member 9.Second medium can be introduced through second entrance member 8, the second half ones of the plate spacing of flowing through, and draw through second outlet member 9.These two media can be carried each other in adverse current form or following current form.

With reference to Fig. 3 and 4, be described for the configuration of independent heat exchanger plate 3.Fig. 3 shows the front view of heat exchanger plate 3.Heat exchanger plate 3 is preferably stainless sheet steel by sheet metal and makes, and comprises heat exchange area roughly placed in the middle 20, and above-mentioned perforate 10 is arranged in this zone.This heat transfer zone 30 is provided with ripple 21 with manner known in the art, and this ripple obtains by the compression molding of sheet metal.In an illustrated embodiment, ripple 21 is only schematically shown by the mode that the diagonal on the zone 20 of conducting heat is extended.Should be noted that ripple 21 can comprise the obviously more complicated ridge and the extension form of depression, herringbone pattern for example known in the art.Within the scope of the invention, also can use the plate that roughly is entirely the plane.

Heat exchanger plate 3 also is included in the borderline region 22 in regional 20 outsides of conducting heat, and this borderline region extends and limit the border in the zone 20 of conducting heat around the zone 20 of conducting heat.Heat exchanger plate 3 also is included in the fringe region 23 in borderline region 22 outsides, and this fringe region extends the also border in limited boundary zone 22 around borderline region 22.As shown in Figure 2, borderline region 22 comprises basal surface 25, first side surface 26 and second side surface 27, this basal surface roughly extends along whole borderline region 22, this first side surface extends and extends between basal surface 25 and heat transfer zone 20 along borderline region 22, and this second side surface extends and extends between basal surface 25 and fringe region 23 along whole borderline region 22.The ripple of first side surface 26 in the zone 20 of conducting heat reaches the position of first side surface 26 to be interrupted.

Side surface

26 and 27 forms corresponding angle with respect to basal surface 25.In an illustrated embodiment, borderline region 22 has the groove shape structure of trapezoid cross section thus.

Each heat exchanger plate 3 comprises the liner 30 that is arranged in the borderline region 22, so this liner extends along the zone 20 of conducting heat.In an illustrated embodiment, liner 30 roughly extends along whole borderline region 22, but except four interrupt units, this interrupt unit is formation discharge-channel 34 near two perforates 10.Fig. 4 shows the sectional view of liner 30.This liner 30 comprises the lower surface 31 that is roughly the plane, the basal surface that is roughly the plane 25 of this lower surface abutment edge boundary region 22.But liner 30 also abutment edge boundary region 22

side surface

26,27 and by

side surface

26,27 supporting.Liner 30 also shows upper surface 32, and this upper surface has slow curved convex shape in sectional view.Therefore, thus liner 30 in being mounted to board component 2, use this upper surface 32 by the power along center line of being concentrated into against adjacent heat exchanger plate 3 '.

Liner 30 is made by curable polymeric material.This polymeric material is fed in the borderline region as very sticking polymeric blends with uncured state, and the amount of its viscosity is 300-800Pas, is preferably 450-650Pas.By this viscosity, this polymeric blends can easily apply and realization cross sectional shape as shown in Figure 4 after applying.Simultaneously, can utilize this viscosity to make that this polymeric material is very sticking and form irregular shape, particularly the link position place between the terminal of the beginning of liner and liner 30.

Fig. 5 schematically shows the automatic processing equipment that applies that is used for polymeric material.This treatment facility comprises the robotic arm 40 that has holder 41, and this holder 41 keeps applying part 42.This applies part 42 and comprises hybrid chamber 43 and nozzle 44, so that discharge polymeric material.Robotic arm 40 can be programmed with manner known in the art, so that move along the mobile route of determining, is the borderline region 22 shown in the edge in this case.

Curable polymeric material comprises suitable silicon, and has used liquid silastic (LSR) in an illustrated embodiment.This polymeric material is arranged to first composition and second composition, and this first composition comprises LSR and can comprise catalyst that this second composition comprises LSR and activator, for example crosslinking agent.These two kinds of compositions are fed in the hybrid chamber 43 via

corresponding feed line

45,46, and roughly are right after thus before this polymeric blends is fed to heat exchanger plate 3 via nozzle 44, and these two kinds of compositions mix in hybrid chamber 43.After applying polymeric blends, this polymeric blends solidifies.In the relatively long time period, at room temperature be cured, but preferably in curing oven, for example be cured under 200 degrees centigrade the temperature at 150-250 degree centigrade.Can reach 30 minutes to 2 hours hardening time, for example about 1 hour.After solidifying, liner 30 has suitable hardness, so that allow closely against plate 3 ' disposed thereon, and does not have and plate 3 ' strong bonding risk disposed thereon.After solidifying, liner 30 regularly with its plate 3 adhesions down.

As mentioned above, each heat exchanger plate 3 also can comprise the liner 50 that limits two perforates 10.In addition, another liner 51 can be arranged near centering on each perforate 10 near the edge of perforate 10.These liners 50,51 can be made by the mode identical with liner 30, and make simultaneously with liner 30.Therefore, liner 50,51 has the characteristic identical with liner 30.

The invention is not restricted to embodiment described above, and can in the scope of accompanying Claim, change and modification.

For example, heat exchanger plate 3 can use in the application of various heat-exchangerss of the plate type, and can comprise more or less perforate.In addition, the present invention is applicable to the heat-exchangers of the plate type that does not have perforate, and wherein entrance member is connected with the not ipsilateral of board component with outlet member.

Should be noted that in this application the term that uses " on " and " under " only refers in the accompanying drawings the position with respect to liner 30,50.Certainly, when heat-exchangers of the plate type 1 used, plate 3 can have other orientation.

Claims

1. heat exchanger plate (3) that is used for heat-exchangers of the plate type (1), wherein this plate (3) comprising:

Conduct heat regional (20); With

Borderline region (22), this borderline region are positioned at the outside in this heat transfer zone (20) and extend and determine the border in this heat transfer zone along this heat transfer zone (20),

It is characterized in that, curable polymeric material is applied to this borderline region (22) and upward and at this borderline region (22) goes up curing, so that this polymeric material extends along whole borderline region or portion boundary zone, and be arranged to be convenient to form liner (30,50), so as in this heat-exchangers of the plate type (1) closely against adjacent plate (3).

2. heat exchanger plate as claimed in claim 1 is characterized in that, this curable polymeric material comprises silicon.

3. heat exchanger plate as claimed in claim 2 is characterized in that, this curable polymeric material comprises liquid silastic.

4. as each described heat exchanger plate in the above-mentioned claim, it is characterized in that this curable polymeric material forms the lower surface (31) that is roughly the plane after solidifying, it directly adheres on this borderline region (22).

5. heat exchanger plate as claimed in claim 4 is characterized in that, this curable polymeric material comprises upper surface (32) after solidifying, and this upper surface has slow curved convex shape in the cross section.

6. as each described heat exchanger plate in the above-mentioned claim, it is characterized in that this curable polymeric material comprises first composition and second composition, first composition and second composition are mixed into the polymeric blends that can apply.

7. heat exchanger plate as claimed in claim 6 is characterized in that, this polymeric blends that can apply was very sticking before solidifying.

8. heat exchanger plate as claimed in claim 7 is characterized in that the viscosity of the polymeric blends that this can apply reaches 300-800Pas.

9. as each described heat exchanger plate in the above-mentioned claim, it is characterized in that, this borderline region (22) comprises basal surface (25) and at least one first side surface (26), this basal surface roughly extends along whole borderline region, this first side surface extends and extends between this basal surface and heat transfer zone (20) along whole borderline region, and this first side surface forms an angle with respect to this basal surface.

10. heat exchanger plate as claimed in claim 9, it is characterized in that, this borderline region (22) comprises second side surface (27), and this second side surface extends in basal surface (25) outside along whole borderline region, and this second side surface forms an angle with respect to this basal surface.

11. as each described heat exchanger plate in the above-mentioned claim, it is characterized in that this plate (3) comprises fringe region (23), this fringe region is positioned at this borderline region (22) outside, and extends and the limited boundary zone around borderline region.

12., it is characterized in that this second side surface (27) extends as claim 10 and 11 described heat exchanger plates between basal surface (25) and fringe region (23).

13. a heat-exchangers of the plate type, it comprises the assembly (2) that has as each described heat exchanger plate (3) in the above-mentioned claim.

14. a method that is used to make heat exchanger plate, it may further comprise the steps:

Thin plate is provided;

Cut this thin plate and make that this sheet moulding is a heat exchanger plate, this heat exchanger plate has heat transfer zone and borderline region, this heat transfer zone has a plurality of perforates, and this borderline region is positioned at the outside in this heat transfer zone and extends and determine the border in this heat transfer zone along this heat transfer zone

It is characterized in that having following steps: curable polymeric material is applied on this borderline region, so that this polymeric material extends along whole borderline region or portion boundary zone; With

15. method as claimed in claim 14 is characterized in that, this curable polymeric material comprises silicon.

16. method as claimed in claim 15 is characterized in that, this curable polymeric material comprises liquid silastic.

17. as each described method among the above-mentioned claim 14-16, it is characterized in that this curable polymeric material comprises first composition and second composition, and this method may further comprise the steps before near described applying:

Make these two kinds of compositions be mixed into the polymeric blends that can apply.

18. method as claimed in claim 17 is characterized in that, this polymeric blends that can apply was very sticking before solidifying.

19. method as claimed in claim 17 is characterized in that, the viscosity of the polymeric blends that this can apply reaches 300-800Pas.

20. aforesaid right requires each described method among the 17-19, it is characterized in that, this first composition comprises silicon and can comprise catalyst, and this second composition comprises silicon and activator, and wherein the deal of these two kinds of compositions is roughly the same in this polymeric blends.

21. method as claimed in claim 20 is characterized in that, the viscosity of these two kinds of compositions is roughly the same.

22. aforesaid right requires each described method among the 14-21, it is characterized in that, this curable polymeric material applies by automatic processing device, and this automatic processing device is arranged to carry and is used to discharge the nozzle of this polymeric material and guides this nozzle along this borderline region.

23. aforesaid right requires each described method among the 14-22, it is characterized in that this curable polymeric material solidifies at elevated temperatures.

24. method as claimed in claim 23 is characterized in that, the temperature of this rising is between 150-250 degree centigrade.

25. aforesaid right requires each described method among the 14-24, it is characterized in that, this curable polymeric material solidifies reaching in hardening time of at least 0.5 hour.