CN201087817Y

CN201087817Y - Alternating current type heat converter

Info

Publication number: CN201087817Y
Application number: CNU200720157159XU
Authority: CN
Inventors: 斯文·珀斯森
Original assignee: AIREC AB
Current assignee: AIREC AB
Priority date: 2007-03-07
Filing date: 2007-07-26
Publication date: 2008-07-16
Anticipated expiration: 2017-07-26
Also published as: EP2118610A4; KR20090129415A; WO2008108724A2; SE530970C2; RU2009132195A; JP2010520439A; SE0700570L; TWM328553U; WO2008108724A3; BRPI0808493A2; EP2118610A2; US20100116479A1

Abstract

The utility model relates to an alternating current type heat exchanger (1) which carries on heat exchange to two different mediums. The heat exchanger (1) comprises a stacking plate profile (2) which is composed of a heat transfer plate profile, wherein, the heat transfer plate profile comprises a first plate profile (3) and a second plate profile (4). In the stacking plate profile (2), the two plate profiles (3), (4) are mutually stacked. Each of the plate profiles (3) and (4) respectively has an A side and a B side and comprises a heat exchange surface (9). The heat exchange surface (9) is provided with recesses, and the structures of the recesses are (10a) and (10b). In the stacking plate profile (2), the adjacent plate profiles (3) and (4) respectively form a first cross flow catheter (14) and a second cross flow catheter (15). The first cross flow catheter (14) has bigger volume than the second cross flow catheter (15), so a first medium (16) which flows in the first cross flow catheter (14) has bigger volume than a second medium (17) which flows in the second cross flow catheter (15), wherein, the mediums (16) and (17) carry on heat transfer by the heat exchange surface (9). The medium (16) which flows in the first cross flow catheter (14) has a smaller pressure drop than the medium (17) which flows in the second cross flow catheter (15).

Description

The AC system heat exchanger

Affiliated technical field

The present invention relates to a kind of AC system heat exchanger, this heat exchanger is to carry out heat exchange between two kinds of different mediums.

Background technology

European patent EP 0984239 B1 case has disclosed a kind of AC system heat exchanger.This heat exchanger is to be overlapped each other and formed a stacking plate body by two kinds of templates, and adjoins two and to be provided with a conduit between template.This heat exchanger is by receiving the heat transmission between two media implementation, two media.Its all conduits all have identical volume each other.

Yet, because each density of medium difference, thereby when all conduits are same volume, will make the heat exchange between two media effectively to carry out.

Summary of the invention

One of the object of the invention provides a heat exchanger, and it can make two media that flow in two conduits realize maximum and optimal hot the transmission by a conduit wall.

Another object of the present invention provides the more Apparatus and method for of economic benefit of a relative prior art.Because equipment of the present invention is easy to make, and therefore can effectively save cost of manufacture and Production Time.

Above-mentioned and other purpose of the present invention can realize by the described equipment of claim 1 in the explanation.

The equipment disclosed according to claim 1 has the following advantages, and can realize two kinds of heat transmission between the different densities medium.

According to the present invention, the preferred embodiment of this equipment further has the described characteristics of claim the 2-12 item.

According to one embodiment of present invention, in this first template, first fringe region of being located at this first plane constitutes an adjacent surface around this opening respectively, is resisted against on this second template around second fringe region of this opening respectively; Pile up in the plate body at this, this second template is folded to be located on this first template, and the B side of this second template is adjoined and contacted to the A side of this first template whereby.Therefore the first through-flow catheter-shaped is formed in two and adjoins between the template.

According to another embodiment of the present invention, comparatively ideal is that a shunt bar can be located at the heat exchange surface of a template by impact style, and preferably is located at this first template; This shunt bar extends to another minor face by the minor face at this opening place; Simultaneously, this shunt bar with and this length limit parallel direction be located between the two long limits, and it is shorter in length than this length limit.In heat exchanger, establish a shunt bar on the template and have the advantage of strengthening the stacking plate body structure.

According to another embodiment of the present invention, shunt bar on this plate comprises a spine or a bottom that is arranged in second plane on this first plate body B side, by this this shunt bar must with second a template A side contacts of adjoining, and between the minor face of the free end of this shunt bar and this two template, form a passage.Spine of this shunt bar or bottom have a contact surface, and this shunt bar is connected with this second template that adjoins with this contact surface.Binding between two templates can be by known various technology, and for example welding, welding, adhesion etc. are realized.

According to another embodiment of the present invention, this first through-flow conduit is arranged between each long limit, and adjoins between the template in two of first plane connection.As previously mentioned, this shunt bar is extended to the B side at this place, second plane by this first plane on first template.This illustrates that this shunt bar does not protrude in the A side surface of this first template, does not therefore influence the fluid of this first template A side.Preceding for another example described, the A side of first template is connected with the B side of second template, so as to form the first through-flow conduit between two templates.Because shunt bar is to the fluid did not influence in this first through-flow conduit, so this conduit can be located between aforementioned each long limit of adjoining template.

According to another embodiment of the present invention, this second through-flow conduit is located at this second plane and is extended between this two opening; This second through-flow conduit is extended to this second minor face by the space between this shunt bar and the long limit by first minor face of contiguous this first opening earlier whereby, then through the passage between this shunt bar free end and this second minor face, then between second side and this second long limit by this shunt bar, extend towards this first minor face, wherein first minor face also adjoins this second opening again; In view of the above, this second through-flow conduit is to be extended behind this shunt bar by first opening, and second side revolution at this shunt bar extends to this second opening again to form a U word shape.This U font of being used to conduit provides long percolation path for second medium in second fluid conduit systems.

According to another embodiment of the present invention, the 3rd fringe region of this first template is positioned at second plane of this template, and along each long limit and each minor face extended loop around this template; This fringe region constitutes an adjacent surface, and this adjacent surface is near the fringe region that is provided with in the same manner on this second template.Pile up in the plate body at this, this second template is arranged on this first template below.The B side of first template and the A side of this second template interconnect with second plane, thereby form this second through-flow conduit.Therefore this first opening can be the inlet of this second through-flow conduit and this second opening can be the outlet of this second through-flow conduit.

According to another embodiment of the present invention, each minor face of each template has an outer rim.This outer rim constitutes piles up the adjacent surface that adjoins in the plate body between template in order to connection.

According to another embodiment of the present invention, adjoin an edge of opening location at this depression and be provided with some conduits, this conduit is connected with this opening and makes this catheter directed this opening.This conduit helps medium is caused the zone that each template medium is difficult to arrive by this opening derivation.When this zone is easily spread by medium, can realize the better utilization of the total heat exchange surface of each plate body; Be difficult to the zone that arrives in the heat exchange surface because this conduit can be directed to the part medium, make the easier diffusion of medium and be distributed in bigger zone in the heat exchange surface.

According to another embodiment of the present invention, one discharges the position that conduit is located at this outer rim or is close to this outer rim, and be formed at two conduits that adjoin between plate and be connected.This discharge conduit is set to pass the hole of a template.This discharge conduit is connected with this first through-flow conduit.In the middle of the heat exchanger operation, the medium in the first through-flow conduit may be detained at the minor face of two connection templates; Because the medium that part flows in the first through-flow conduit between the long limit of template may be because condense etc. former thereby be detained between two templates as medium.Therefore need to be provided with the discharge conduit that unnecessary or the medium of being detained can be discharged this heat exchanger.

According to another embodiment of the present invention, the shape and structure of the first template pocket is designed to two tips of adjoining depression and points to same direction, and two adjoin and have a recess between the depression tip; The position of this recess is lower than this most advanced and sophisticated horizontal level; And be higher than in addition two bottoms of adjoining depression; Wherein otherwise this bottom is to point to and most advanced and sophisticated indication direction mutually.Compared to the plane, this depression has the effect that enlarges heat exchange surface.

According to another embodiment of the present invention, this depression that is positioned at the second template A side by this second plane towards this first plane.In second plane at this second template A side place, be provided with plane domain between two depressions; This plane domain provides an adjacent surface for the depression tip of first template that contacts with this second template.This plane domain can and be attached thereto the tip portion of the shunt bar on second template against plane domain at the set-up mode of the second template A side.

Description of drawings

First figure is the stereo appearance figure that heat exchanger piles up plate body.

Second figure is the three-dimensional exploded view of this stacked body, for clearly demonstrating, among the figure formation is piled up each template expression separated from one another of plate body.

The 3rd figure is the stereogram of first template.

The 4th figure is the cutaway view of first template.

The 5th figure is the stereogram of second template.

The 6th figure is the cutaway view of second template.

The specific embodiment

First figure piles up the interchanger (1) that plate body (2) is formed.This piles up plate body (2) is made up of some heat transfer plate sheets, and wherein the part plate is first template (3), and part then is second template (4).

According to first figure, this heat exchanger (1) is an AC system.Above-mentioned template (3), (4) are arranged in this heat exchanger (1) in the mode of its long limit (5a), (5b) opening, medium can flow to another long limit (5b) through this heat exchanger (1) by a long limit (5a) whereby, and the minor face (6a), (6b) that adjoin two templates (3), (4) then are connected to each other.

Second figure further specifies this and piles up plate body (2); With template (3), (4) discrete representation, how through-flow is between every pair of template with the position of explanation template (3), (4) and each medium among the figure.As shown in FIG., this to pile up plate body (2) be to be piled up alternately each other by two templates (3), (4) to form.The minor face (6a) of each template (3), (4) respectively is provided with first and second opening (7), (8).And each template (3), (4) respectively have a heat exchange surface (9).This heat exchange surface (9) has the some depressions (11) that are designed to (10a), (10b) shape.The cave structure of template (3), (4) is also inequality, and this names a person for a particular job and further specifies hereinafter.Second figure shows how this heat exchanger of through-flow (1) of each medium; As its name suggests, the medium in the AC system heat exchanger (1) is interlaced with each other therein flowing.

The 3rd figure is first template (3).The depression of (10a) shape extends between first plane (12) and second plane (13) in this first template (3).The 4th figure is the cutaway view of first template (3) of parallel this minor face (6a), (6b), and this cutaway view is simultaneously by each opening (7), (8).This first template has an A side and a B side.The A side be among the 3rd figure first template (3) towards reader's a side; The B side is bottom side in this first template (3) in the pie graph three then.

The 5th figure illustrates second template (4).The depression of (10b) shape extends between second plane (13) and first plane (12) in the mode identical with first template (3) in this first template (4).Plane (12), (13) that two templates (3), (4) are adjoined are overlapping and constitute a pair of plate.This is illustrated in the combination of a pair of plate, and two templates all may combine with another plate via one of plane (12), (13).

The 6th figure is the cutaway view of second template (4) of parallel this minor face (6a), (6b), and its hatching passes through respectively this opening (7), (8); First and second plane (12), (13) of visible this second template (4) among the figure.This second template has an A side and a B side.The A side is the side that second template (4) is faced the reader among the 5th figure; The B side is the bottom side of this second template (4) in the pie graph five then.

Pile up in the plate body at this, the B side of the A side of first template (3) and second plate body that adjoins is common to form the first through-flow conduit (see second figure 14); The B side of first template (3) and the A side of second template then form the second through-flow conduit (see second figure 15) jointly.First medium (16) flows into this first through-flow conduit (14); And second medium (17) flows into this second through-flow conduit (15).This first and second medium (16), (17) are through respectively heat exchange is therebetween carried out in this template (3), (4).

First template (3) has one and centers on respectively first fringe region of this opening (18, see third and fourth figure).This first fringe region (18) is positioned on first plane (12) of this template (3).This first fringe region (18) has the function of adjacent surface; This is because this first fringe region (18) can be near second fringe region (19).This second fringe region (19) piles up respectively this parameatal zone of adjoining on second template (4, see the 5th, six figure) in the plate body (2) for this.This second fringe region (19) is positioned at first plane of this second template (4).Adjoiner in two templates (3,4), this fringe region (18), (19) are overlapping and adjoin each other with first plane (12).The minor face (6a), (6b) that adjoin template (3), (4) connect with this first plane (12) each other.This first through-flow conduit (14) then is positioned at two and adjoins between the template (3,4, see second figure).

This first template (3, see figure three) is provided with a shunt bar (20).This shunt bar (20) is to be located at this first template (3) with impact style.Perhaps, a separation shunt bar can engage this heat exchange surface (9) that is fixedly arranged on this first template (3).This shunt bar (20) is located between this length limit (5a), (5b) and this opening (7), (8), is extended to another minor face (6b) by a minor face (6a) with parallel direction of being somebody's turn to do long limit (5a), (5b).This shunt bar (20) has a bottom (21) that is positioned at this first template (3, see the 4th figure) second plane (13).

Shunt bar (20) bottom (21) that is positioned at this first template (3) B side can be near the A side of this second template (4).As previously mentioned, on the contact between first template (3) B side and second template (4) A side, the bottom (21) of this shunt bar (20) is connected with the B side of this second template (4).The long limit (5a), (5b) that adjoin template (3), (4) all are connected with second plane (13) each other with minor face (6a), (6b).This shunt bar (20) is shorter than this length limit (5a), (5b).This shunt bar (20) has a free end (22).Because this shunt bar (20) is shorter than this length limit (5a), (5b), therefore between first template (3) B side and second template (4) A side, can form a passage between the free end (22) of this shunt bar (20) and another minor face (6b).This second through-flow conduit (15) is located between template (3), (4), and the medium that flows in the second through-flow conduit (15) flows between first opening (7) and this second opening (8).

The 3rd fringe region (23) extends with minor face (6a), (6b) along long limit (5a), (5b) of first and second template (3), (4).The 3rd fringe region (23) is positioned at second plane (13) of each template (3), (4), and the 3rd fringe region (23) of each template (3), (4) is for abutting one another and interconnecting.

Respectively this minor face (6a) of each template (3), (4), (6b) are equipped with an outer rim (24).Respectively this respectively this outer rim (24) of adjoining template (3), (4) can abut one another and interconnect.One discharges conduit (25) is located on this outer rim (24) along second minor face (6b) of this first template (3, see the 3rd figure).This discharge conduit (25) is a hole by this first template (3) outer rim (24).Therefore can for example be retained in medium between a pair of plate by this discharge conduit (25) eliminating is any because of condensation.

Be provided with some distribution ducts (26a-d in this second plate body (4), see the 5th figure), by around respectively first and second fringe region (14), (15) of this opening (7), (8) extend to this heat exchange surface (9) upper shed (7), (8) some depressions on every side.This distribution ducts (26a-d) can be directed to this heat exchange surface (9) by opening (7,8) with medium and go up the zone that fluid is difficult to arrive.This distribution ducts (26a-d) is to be located among this second template (4) with impact style.

The cave structure of this first template (3) is different with the cave structure of this second template (4), and causes the out-of-flatness of the catheter surface of each through-flow conduit (14), (15), and therefore helping increases the turbulent flow that flows in this through-flow conduit (14), (15) medium.

Though this case is to do explanation with most preferred embodiment, above illustrated embodiment is not in order to limit the scope of this case in order to explanation this case only.Various modifications or variation being carried out without prejudice to this case design all belong to this case claim.

Claims

1. one in order to carrying out the AC system heat exchanger (1) of heat exchange to two kinds of different mediums, and it comprises with what some heat transfer plate types constituted and piles up plate body (2), and this transfer template comprises first template (3) and second template (4); In this lamination body (2), pile up each other alternately this template (3), (4), and have two long relatively limits (5a), (5b), two relative minor faces (6a), (6b) separately, be close to minor face (6a) and be provided with the B side that first and second opening (7), (8), have the A side of heat exchange surface (9) and be different from this heat exchange surface (9) side; This heat exchange surface (9) is arranged between this length limit (5a), (5b), (6a), (6b), and is provided with the depression (11) that comprises (10a), (10b) shape; This heat exchange surface (9) of each template (3), (4) is arranged between first and second plane (12), (13), whereby, the A side of first template (3) is adjoined and is connected with first plane (12) each other with the B side of one second template (4), and adjoins the formation first through-flow conduit (14) between template (3), (4) at this; And the B side of first template (3) is adjoined and is connected with second plane (13) each other with the A side of second template (4), and adjoins the formation second through-flow conduit (15) between template (3), (4) at this; It is characterized by the volume of the volume of this first through-flow conduit (14) greater than this second through-flow conduit (15), in view of the above, the volume of first medium (16) is greater than the volume of second medium (17) in this second through-flow conduit (15) in this first through-flow conduit (14); Wherein shift via the heat that this heat exchange surface (9) between conduit (14), (15) carries out therebetween this medium (16), (17); The pressure drop of medium (16) that flows in this first through-flow conduit (14) is less than the pressure drop of the medium (17) that flows in this second through-flow conduit (15).

2. heat exchanger as claimed in claim 1 (1), it is characterized by in this first template (3), first fringe region (18) of being located at this first plane (12) constitutes an adjacent surface around this opening (7) respectively, (8), and this adjacent surface can be resisted against this second template (4) and go up around second fringe region (19) of this opening (7), (8) respectively; In piling up plate body (3), this second template (4) is folded to be located on this first template (3), and the A of this first template (3) adjoins and connect the B side of this second template (4) whereby.

3. heat exchanger as claimed in claim 1 (1) is characterized by shunt bar (20) and is located in the heat exchange surface (9) of a template (3), (4) with impact style; This shunt bar (20) is extended to this second minor face (6b) by the minor face (6a) at this opening (7), (8) place, wherein this shunt bar (20) is located between this two long limit (5a), (5b) with the direction parallel with this length limit (5a), (5b), and it is shorter in length than this length limit (5a), (5b).

4. heat exchanger as claimed in claim 3 (1), the shunt bar (20) that it is characterized by this first template (3) comprise and are arranged at spine (21) or bottom (21) in this second plane (13) on this first template (3) B side; Whereby, the A side that this shunt bar (20) and adjoins second template (4) is connected, and is forming a passage that is positioned between the free end of this shunt bar (20) and this template (3), (4) minor face (6b) between this two template (3), (4).

5. heat exchanger as claimed in claim 1 (1) is characterized by this first through-flow conduit (14) and is located between each long limit (5a), (5b), and be positioned at two each other with this first plane (120 connect adjoin between template (3), (4).

6. heat exchanger as claimed in claim 1 (1) is characterized by this second through-flow conduit (15) and is located at this second plane (13) and extends between this two opening (7), (8); This second through-flow conduit (15) is by way of between this shunt bar (20) and the long limit (5a) whereby, first minor face (6a) by contiguous this first opening (7) extends to this second minor face (6b), then by free end (22) of this shunt bar (20) and the passage between this second minor face (6b), and by way of between second limit and an in addition long limit (5b) of this shunt bar (20), extend towards first minor face (6a) again; Wherein first minor face (6a) also adjoins this second opening (8); In view of the above, this second through-flow conduit (15) is gone back to by the opposite side of this shunt bar (20) and is arrived at this second opening (8) by detour this shunt bar (20) back of this first opening (7), and is that a U font extends.

7. heat exchanger according to claim 1 (1), the 3rd fringe region (23) that it is characterized by this first template (3) are arranged on second plane (13) of this first template (3) and along respectively this length limit (5a), (5b) and respectively this minor face (6a), (6b) center on this template (3) extension; Wherein this fringe region (23) constitutes an adjacent surface, and this adjacent surface can be gone up the fringe region (23) that is provided with in corresponding mode near second template (4); Pile up in the plate body (20) in this, this second template (4) is arranged at the below of this first template (3).

8. heat exchanger as claimed in claim 1 (1) is characterized by each template (3), (4) and has an outer rim (24) that is arranged at each minor face (6a), (6b).

9. heat exchanger as claimed in claim 1 (1) is characterized by in this depression (11) adjacenting opening (7), (8) fringe region (18), (19) part and is provided with some distribution ducts (26a-d); This distribution ducts (26a-d) is connected with this opening (7), (8) and makes this conduit (26a-d) lead this opening (7), (8).

10. heat exchanger as claimed in claim 8 (1), it is characterized by one discharges conduit (25) and is formed at two and adjoins between plate body (3), (4), this discharge conduit (25) is arranged on this outer rim (24) or is close to the zone of this outer rim (24), and is connected with this through-flow conduit (14), (15).

11. heat exchanger as claimed in claim 1 (1), structure (10a), (10b) that it is characterized by the depression (11) of this first template (3) are designed to two tips of adjoining depression (11) and point to equidirectional, and two adjoin and have a recess between the depression tip; The position of this recess is lower than this most advanced and sophisticated horizontal level, and face is higher than in addition two bottoms of adjoining depression (11); Wherein the direction opposite with most advanced and sophisticated indication pointed in this bottom.

12. heat exchanger according to claim 1 (1), this depression (11) that it is characterized by on this second template (4) A side is to be provided with towards this first plane (12) by this second plane (13).