CN102187174A

CN102187174A - A plate heat exchanger

Info

Publication number: CN102187174A
Application number: CN2009801413668A
Authority: CN
Inventors: J·奥尔森; G·安德森; A·哈勒; E·塞利克; S·梅林
Original assignee: Alfa Laval AB
Current assignee: Alfa Laval AB
Priority date: 2008-10-15
Filing date: 2009-09-30
Publication date: 2011-09-14
Also published as: EP2335002A2; WO2010044723A2; JP2012505366A; SE533394C2; WO2010044723A3; RU2469252C1; BRPI0920331A2; SE0850037A1; KR20110054050A; US20110220334A1

Abstract

The invention relates to a plate heat exchanger comprising a package of heat exchanger plates provided with inlet and outlet ports, the ports forming channels through the package for at least one heat exchange fluid, two end plates between which the plate package of heat exchanger plates is arranged, where at least said one end plate is provided with at least one through hole, which communicates with one of the channels, and where a connection pipe is arranged in the through hole of the at least one end plate, the connection pipe communicates with a pipe system transporting the at least one heat exchange fluid, where the connection pipe extends through the through hole and being removably and rotationally and axially lockable fastened to the at least one end plate.

Description

Plate type heat exchanger

Technical field

The present invention relates generally to permission and is being in the plate type heat exchanger that transmits for the heat of various purposes between two kinds of fluids of different temperatures.Particularly, the present invention relates to have the plate type heat exchanger of end plate, end plate has the improved device that is used for connector is fixed to end plate.

Background technology

Plate type heat exchanger is provided with or is connected to and is used for connected sum and transports the fluid pipeline and the pipe-line system of plate type heat exchanger back and forth, and fluid will be handled in plate type heat exchanger.Plate type heat exchanger is provided with the connection that is used for pipeline or pipe-line system are connected to plate type heat exchanger and arranges.Connect to arrange to form the pipe fitting that extends from an end plate of plate type heat exchanger usually that wherein the parts of Yan Shening provide the synergistic threaded portion of corresponding threaded portion with pipeline or pipe-line system.By for example this part being welded to end plate or passing through molded end plate and pipe fitting in an operation, pipe fitting can be the integrated parts of end plate, but because lower cost and the flexibility of Geng Gao more generally are that pipe fitting or connecting pipe are positioned on the end plate as separated components.Being its excellent sealings that should have a heat exchanging device plate to some basic needs of pipe fitting or connecting pipe leaks avoiding, and it also should have axial locking to prevent connecting pipe and be pressed on the heat exchanger plate by external force and to prevent the potential damage heat exchanger plate of connecting pipe or liner between heat exchanger plate and connecting pipe or sealing.Preferably, it should for spin locking to help that connecting pipe is installed or be interconnected to pipeline or pipe-line system.

The many solutions that are used for connecting pipe are shown in the prior art.Disclose a kind of plate type heat exchanger in prior art file GB 1 009 178, wherein, connecting pipe directly is screwed into each connection aperture of the outer surface of relevant end plate.Disclose another kind of solution in EP B1-0 277 171, wherein, plate type heat exchanger is described as to have and is screwed into the lining that connects the aperture and in abutting connection with the branch sleeve of end plate.In other solution, connector by the bolt that is attached to end plate regularly be attached to end plate and wherein nut arrangements keep connector to end plate.It also is known having flanged connecting pipe, connecting pipe inserts and extends through the connection aperture or the outlet of end plate from the inboard of end plate, and connecting pipe remains on the appropriate location by the pressure from heat exchanger plate when heat exchanger plate or plate group are squeezed together between two end plates.This solution can utilize lining or sleeve to replenish so that connecting pipe is firmly locked onto end plate.These prior art solutions are failed the above-mentioned needs of the good connecting pipe of the work of satisfying, and this is because their in only satisfying the demand one or two.

Because client's other needs, the size of connecting pipe and the size that therefore connects aperture or outlet also provide to satisfy each different client's needs with different size.Having some different end plates and connecting pipe is expensive to mate all different needs.The universal solution that satisfies all needs is favourable.

Summary of the invention

The purpose of this invention is to provide and guarantee that connecting pipe can not damage the new design of the plate type heat exchanger of heat exchanger plate.

This purpose can realize by following plate type heat exchanger design, it comprises heat exchanger plate group and two end plates that are provided with inlet port and outlet aperture, the aperture is formed for the passage that passes through group of at least a heat exchanging fluid, the plate group of heat exchanger plate is arranged between two end plates, wherein, at least a described end plate be provided with passage at least one through hole that is communicated with, and connecting pipe is arranged in the through hole of at least one end plate, connecting pipe is communicated with the pipe-line system of transporting at least a heat exchanging fluid, and connecting pipe extends through through hole and lockably is fixed at least one end plate removedly and radially and longitudinally.

According to additional aspects of the present invention, connecting pipe is being provided with flange towards heat exchanger plate and in abutting connection with the end on the surface of end plate, and the surface of end plate (14a) is towards heat exchanger plate.

According to another aspect of the present invention, bonder is arranged between the flange of the surface of end plate and connecting pipe, and bonder is two adhesive tapes, adhesive or the like.

According to a further aspect of the invention, flange is equipped with lip in its outer periphery, and lip extends from the surface of the sensing end plate of flange, and its end plates is provided with and the synergistic corresponding recess of the lip of flange.

According to a further aspect of the invention, the external screw thread of the pipeline of the pipe-line system of being connected to is extended and had to connecting pipe from end plate, and wherein, pipeline is provided with internal thread.The external screw thread of connector extends on the whole length of connecting pipe basically.Pipeline abuts the outer surface of end plate.

According to a further aspect of the invention, the lining with internal thread is arranged to engage with the external screw thread of connecting pipe, and wherein, lining abuts the outer surface of end plate.Lining is as having the externally threaded transition piece that engages with the internal thread of pipeline, and wherein, the internal thread of pipeline is greater than the external screw thread of connecting pipe.

Additional aspects of the present invention are apparent by dependent claims and specification.

Description of drawings

From the following detailed description of some embodiment of the present invention with reference to the accompanying drawings, other purpose, feature and advantage will manifest, in the accompanying drawings:

Fig. 1 is the perspective view according to plate type heat exchanger of the present invention;

Fig. 2 is the perspective view according to plate type heat exchanger of the present invention;

Fig. 3 is the detailed partial view A according to the plate type heat exchanger among Fig. 2 of the present invention;

Fig. 4 is the perspective view according to connecting pipe of the present invention;

Fig. 5 is the partial side view according to the top of plate type heat exchanger of the present invention;

Fig. 6 is the detailed partial view B according to the plate type heat exchanger of Fig. 5 of the present invention; And

Fig. 7 is the partial side view according to the top of plate type heat exchanger of the present invention, and wherein pipeline is installed on the connecting pipe;

Fig. 8 is the perspective view according to the alternate embodiment of connecting pipe of the present invention;

Fig. 9 is the perspective view according to lining of the present invention; And

Figure 10 is the fragmentary, perspective view according to connecting pipe of the present invention and end plate.

The specific embodiment

Heat exchanger is used for conducting heat between two kinds of fluids that separated by solid body.Heat exchanger can be some types, and the most frequently used is votator, pipe heat exchanger and plate type heat exchanger.Plate type heat exchanger is used for conducting heat between heat and cold fluid, and heat and cold fluid flows in the runner that replaces that is formed between the group of heat exchanger plate.The layout of the heat exchanger plate that limits above is enclosed in than between the relative thicker end plate of heat exchanger plate.The inner surface of each end plate is towards heat exchanger plate.

Fig. 1-2 openly is used for the plate type heat exchanger 1 of the processing of medium.Plate type heat exchanger 1 comprises the heat exchanger plate 2 of many pressing molds, and they are arranged to parallel to each other and one after the other are provided with in the mode that forms plate group 3.Plate group 3 is arranged between first end plate 6 (being also referred to as frame plate) and second end plate 7 (being also referred to as pressure plare).Between heat exchanger plate 2, form first sheet separation and second sheet separation.

First sheet separation and second sheet separation are arranged in such a way in plate group 3 with the order that replaces, and promptly each first sheet separation is centered on by two second sheet separations basically, and each second sheet separation is centered on by two first sheet separations basically.Different segmentations in the plate group 3 fix limit each other by the liner in each sheet separation.Preferably by elastomeric material for example the gasket arrangement made of elastomeric material along the peripheral of the heat exchanger plate of forming 2 and in the groove of aperture extension.Liner may can comprise metal or be centered on by second material (for example metal, PTFE etc.).

Shown in Fig. 1-2, plate group 3, promptly heat exchanger plate 2 and setting liner (not shown) therebetween keep together in a manner known way by screw thread tie bolt 30 between end plate 6 and 7.Tie bolt 30 is from 6 extensions of first end plate and by hole or recess the marginal portion of second end plate 7.Heat exchanger plate 2 is arranged to be suspended on the carrier bar 31 that extends between first end plate 6 and the support column 32, and/or stands on the guide rod 33.First end plate 6 is connected to support column 32 by carrier bar 31, and carrier bar 31 at one end is attached to the upper end of first end plate 6 regularly and is attached to the upper end of support column 32 in the opposite end regularly.Can be used for along second end plate 7 that carrier bar 31 moves heat exchanger plate 2 is forced together to form plate group 3.Be connected with the bottom of first end plate 6 in the bottom of guiding their guide rod 33 in the lower end of heat exchanger plate 2 support column.

Heat exchanger plate 2 discussed above comprises the many holes 4 that are used to increase the wrinkle portion or the pattern of heat transfer and are used to form the orifice passage 5 of corresponding number in a manner known way, and orifice passage 5 extends through plate group 3 and is connected with the runner 5 that is formed between the heat exchanger plate 2.

Many through holes 8 (the best illustrates in Fig. 5 and 7) are arranged on first end plate 6, and it is corresponding to the import hole/outlet hole 4 of heat exchanger plate 2.In the illustrated embodiment, end plate 6 is provided with four through holes 8, but can be still less or more according to the design through hole 8 of heat exchanger plate 2.May arrange on second end plate 7 that also through hole 8 or

end plate

6,7 all are provided with many through holes 8.In through hole 8, arrange connecting pipe 9.In the illustrated embodiment, the connecting pipe 9 that the connecting pipe 9 that first end plate 6 is provided with 9, two through holes 8 of connecting pipe of through hole 8 and corresponding number and corresponding number is arranged in the lower end of end plate 6 and two through holes 8 and corresponding number is arranged in the upper end of end plate 6.

Connector 9, the design of its principle as shown in Figure 4, as making plate type heat exchanger 1 or the attaching parts that interconnect of plate group 3 and relevant pipeline 12 or pipe-line system 10 more accurately.

Connecting pipe 9 forms the cylindrical part 21 with through hole 22.End at cylindrical part 21 is provided with flange portion 17, and its longitudinal extension part that outwards, is approximately perpendicular to cylindrical part 21 extends.In the end opposite, form external screw thread 11 with the end that is provided with flange portion 17 of cylindrical part 21.External screw thread 11 can form along the whole length of cylindrical part 21, promptly almost to the end that is provided with annular flange portion 17 of cylindrical part 21, perhaps external screw thread 11 may be only along the part formation of cylindrical part 21.Relevant pipeline 12 or pipe-line system 10 are formed with corresponding internal thread 13, and it interacts with in safe being connected of formation between plate type heat exchanger 1 and pipeline 12 and/or the pipe-line system 10 with external screw thread 11.

Connecting pipe 9 is inserted the through hole 8 of end plate 6 from the inboard of end plate 6, and wherein, inner surface is the surperficial 14a towards plate group 3 of end plate 6, and connecting pipe 9 is passed through hole 8 up to the flange 17 of the connecting pipe 9 inner surface 14a in abutting connection with end plate 6.Extend from the outside of end plate now the opposite end of connecting pipe 9, and wherein, outer surface is the surperficial 14b that turns to with deviating from or lead with plate group 3 of end plate 6.

According to first embodiment, bonder 16 (referring to Fig. 6) is arranged between the inner surface 14a of the flange 17 of connecting pipe 9 and end plate 6.Bonder 16 relative end plates 6 lock connecting pipe 9 rotatably and axially.Bonder 16 can be two adhesive tapes, adhesive or the like.Preferably, binding 16 is arranged on the whole surface of annular lip 17, but it also can be arranged on the place of selection of ledge surface.

According to second embodiment, lining or sleeve 15 are arranged in or are screwed on the male thread portion 11 of connecting pipe 9, make the outer surface 14b of lining 15 in abutting connection with end plate 6.Lining 15 relative end plates 6 at least axially lock connecting pipe 9.In order to guarantee that further connecting pipe 9 relative end plates 6 lock rotatably, flange 17 can be provided with lip 18 in the periphery of flange 17.Lip 18 axially extend to or point to end plate 6.End plate 6 is provided with corresponding recess 19, its lip 18 with flange 17 interact make when flange 17 during in abutting connection with the inner surface 14a of end plate 6 lip 18 enter recess 19, and connecting pipe 9 can not be rotated with respect to end plate 6.Lip 18 can be configured as the sub-fraction of flange 17, it bends up the sub-fraction (referring to Figure 10) of extending from the surface of flange to form from ledge surface, and point to end plate 6, but it also can be configured as be installed to flange 17 outer and places and extend little pin to end plate 6, nail or the like.The lip 18 that replacement is used for locking rotatably, bonder can be used for realizing identical effect.

Can be arranged to lining 15 and mean that in abutting connection with end plate 6 connecting pipe 9 is formed with along the external screw thread 11 of the whole length of connecting pipe.This is shown in Figure 8.

The client uses pipeline 12 or the pipe-line system 10 with different line sizes.For these pipelines 12 or pipe-line system 10 being connected to plate type heat exchanger 1, may have end plate, but this is quite expensive solution with different through hole 8 sizes.Preferably, same plate type heat exchanger 1 should be connected to pipeline 12 or pipe-line system 10 with different line sizes.In order to realize like this, can use transition piece 24 (referring to Fig. 7), it has corresponding to the interior diameter of the external screw thread 11 of connecting pipe 9 and internal thread 13 and has and is suitable for the pipeline 12 that it plans to be connected to or the external screw thread 25 of pipe-line system 10.

Transition piece 24 can be configured such that it is arranged in (not shown) on the part of external screw thread 11 of connecting pipe 9, but it also can be shaped as and makes an end of transition piece 24 can be arranged to the outer surface 14b in abutting connection with end plate 6, therefore connecting pipe 9 is locked onto end plate 6.Therefore, transition piece 24 can form pipe fitting or column piece as shown in Figure 7, have at least along it length a part internal thread 13 or have along the internal thread 13 of its whole length.External screw thread 25 forms along the part of the length of transition piece 24 at least.It also can be configured as lining 15, referring to Fig. 9, has hexagonal, octagonal or suitable edge head 23 and has external screw thread 20 along the outer surface of lining 15 at an end of lining 15.The lining 15 of Fig. 9 is provided for connecting pipe 9 is easily locked onto the locking device and the pipeline 12 that is used to make plate type heat exchanger 1 be suitable for various sizes or the

transition piece

15 or 24 of pipe-line system 10 of end plate 6.

In the description and accompanying drawing on embodiment, as if being described as, connecting pipe 9 is arranged on first end plate 6, but be apparent that connecting pipe 9 also can be arranged on second end plate 7 or simultaneously on

end plate

6,7, this all depends on the function and the purpose of plate type heat exchanger 1.

In the superincumbent description, term " connecting pipe " is used to extend through end plate and the parts sealing of heat exchanging device plate.Technical, term " lining " is used for corresponding component, but more pays attention to the defencive function about end plate herein, and these parts do not extend from end plate basically herein.

In addition, term " lining " is used for connecting pipe is locked onto the parts of end plate.Term " lining " also comprises sleeve, sleeve pipe (quill), housing and penetrating member.Similarly, the term " lip " of the little extension component of the flange periphery of description connecting pipe comprises pin, nail, stopper, double-screw bolt, lug, cover plate and head.

The invention is not restricted to embodiment above-described and that on accompanying drawing, illustrate, but can as by the scope of the present invention that claims limited in replenish by any way and change.

Reference numeral

The detailed view of A: Fig. 2

The detailed view of B: Fig. 5

1: plate type heat exchanger

2: heat exchanger plate

3: the plate group

4: inlet port and outlet aperture

5: passage

6: end plate

7: end plate

8: through hole

9: connecting pipe

10: pipe-line system

11: external screw thread

12: pipeline

13: internal thread

14a: inner surface

14b: outer surface

15: lining

16: bonder

17: flange

18: lip

19: recess

20: external screw thread

21: cylindrical part

22: through hole

23: edge head

24: transition piece

25: external screw thread

30: fasten bar

31: carrier bar

32: support column

33: guide rod

Claims

1. a plate type heat exchanger (1), it comprises group (3) and two end plates (6 of the heat exchanger plate (2) that is provided with inlet port and outlet aperture (4), 7), described aperture (4) is formed for the passage that passes through described group (3) (5) of at least a heat exchanging fluid, the plate group (3) of described heat exchanger plate (2) is arranged in described two end plates (6,7) between, wherein, at least a described end plate (6,7) be provided with described passage (5) at least one through hole (8) that is communicated with, and connecting pipe (9) is arranged in described at least one end plate (6,7) in the through hole (8), described connecting pipe (9) is communicated with the pipe-line system of transporting described at least a heat exchanging fluid (10), described connecting pipe (9) extends through described through hole (8) and lockably is fixed to described at least one end plate (6 removedly and radially and longitudinally, 7), it is characterized in that, be arranged on described at least one end plate (6,7) and the dismountable bonder (16) between the described connecting pipe (9) described connecting pipe (9) radially and is longitudinally locked onto described at least one end plate (6,7).

2. plate type heat exchanger according to claim 1, it is characterized in that, described connecting pipe (9) is towards described heat exchanger plate (2) and in abutting connection with described end plate (6, the end on surface 7) (14a) is provided with flange (17), the surface (14a) of described end plate (6,7) is towards described heat exchanger plate (2).

3. plate type heat exchanger according to claim 2, it is characterized in that, described bonder (16) is arranged between the flange (17) of the surface (14a) of described end plate (6,7) and described connecting pipe (9), and described bonder (16) is two adhesive tapes, adhesive or the like.

4. plate type heat exchanger according to claim 2, it is characterized in that, described flange (17) is equipped with lip (18) in its outer periphery, described lip (18) is from the described end plate (6 of the sensing of described flange (17), 7) extend on surface, and wherein said end plate (6,7) is provided with the synergistic corresponding recess of lip (18) (19) with described flange (17).

5. according to each the described plate type heat exchanger among the claim 2-4, it is characterized in that, described connecting pipe (9) is from described end plate (6,7) extend and have the external screw thread (11) of the pipeline (12) of the pipe-line system of being connected to (10), wherein, described pipeline (12) is provided with internal thread (13).

6. plate type heat exchanger according to claim 5 is characterized in that, the external screw thread (11) of described connector (6,7) extends on the whole length of described connecting pipe (9) basically.

7. plate type heat exchanger according to claim 5 is characterized in that, described pipeline (12) abuts the outer surface (14b) of described end plate (6,7).

8. plate type heat exchanger according to claim 5, it is characterized in that, described pipeline (12) can form lining (15), it has the internal thread (13) that engages with the external screw thread (11) of described connecting pipe (9), and wherein said lining (15) abuts the outer surface (14b) of described end plate (6,7).

9. plate type heat exchanger according to claim 8 is characterized in that, the internal thread (13) of described pipeline (12) and the cooperation of the external screw thread (20,25) of described lining (15).

10. according to Claim 8 or 9 described plate type heat exchangers, it is characterized in that, described lining (15) is as having the external screw thread (20 that engages with the internal thread (13) of described pipeline (12), 25) transition piece (24), wherein, the internal thread (13) of described pipeline (12) is greater than the external screw thread (11) of described connecting pipe (9).