CN100541108C - Header and heat exchanger with this header - Google Patents

Abstract

A kind of heat exchanger and the header that is used for heat exchanger, this header has the asymmetric front and rear of cross-sectional profiles, wherein, at least the outside of this header forms by extruding part, this is extruded part and has spine integratedly, this spine is positioned on the outer surface of extruding part away from what this extruded part and extrudes the longitudinal extension of part with respect to the position at the center of fore-and-aft direction and along this, and except this spine, this extrudes the cross-sectional profiles symmetry of the front and rear of part.

Description

Header and heat exchanger with this header

The cross reference of related application

The application proposes according to 35U.S.C. § 111 (a), and according to 35U.S.C. § 119 (e) (1) require respectively on August 25th, 2003 and on March 24th, 2004 according to the provisional application No.60/497338 of 35U.S.C. § 111 (b) submission and the applying date interests of No.60/555706.

Technical field

The present invention relates to heat exchanger, relate in particular to the heat exchanger that in motor vehicle air conditioning, is used as evaporimeter, the kind of refrigeration cycle that motor vehicle air conditioning is promptly installed in motor vehicle.

Treat by the air of the airflow clearance between every pair of adjacent heat-exchange tube downstream (Fig. 1 and 10 arrow X indicated direction, and the right-hand side of Fig. 3 and 11) in the text be called as " preceding " in the claims, and opposite side is called as " back ".

Background technology

Up to now, the evaporimeter that uses so-called stacked plates widely is as the motor vehicle evaporimeter, the evaporimeter of this stacked plates comprise a plurality of be arranged in parallel and include mutually in the face of and along the right flat hollow bodies of circumferential edge soldering discoid plate together, and be arranged between every pair of adjacent flat hollow bodies and the board-like corrugated fin of soldering shutter thereon.But, in recent years, required the evaporimeter that provides that size and weight further reduce and show superior performance.

In order to satisfy this requirement, the evaporimeter that the applicant has proposed to comprise first and second headers that are arranged spaced from each other and has been arranged on the heat exchange core between these two headers, in these two headers each has the front and rear of cross-sectional profiles symmetry, the inside of this first header is separated the refrigerant outlet collector that wall is divided into the refrigerant inlet collector in the downstream that is positioned at this air-flow direction and is positioned at the upstream of this air-flow direction with respect to the flow direction of the air by evaporimeter, the inside quilt and the shunting flaps that this outlet header forms of this outlet header are divided into two spaces, upper and lower, and this flaps has a plurality of cold-producing medium openings; The inside of this second header is separated the cold-producing medium outflow collector that wall is divided into the cold-producing medium inflow collector in the downstream that is positioned at this air-flow direction and is positioned at the upstream of this air-flow direction with respect to the flow direction of air; This heat exchange core comprises that form is the pipe group along many rows of air-flow direction setting, each pipe group comprises a plurality of heat-exchange tubes that vertically are provided with at a distance of certain intervals along this case, two opposite ends of the heat-exchange tube of at least one pipe group join this inlet header respectively to and flow into collector, and two opposite ends of the heat-exchange tube of pipe group in addition join outlet header respectively to and flow out collector (seeing document JP-A No.2003-75024).This evaporimeter be by with the combined and tack of described assembly together and the assembly of common soldering institute tack make.

For this evaporimeter, the shunting flaps is used to allow cold-producing medium to flow through all heat-exchange tubes of pipe group with uniform amount, thereby the heat exchange performance of evaporimeter is improved.

But, the cross-sectional profiles symmetry of the front and rear of first header, and can not shunt flaps from outside identification, thus when assembling described assembly so that making evaporimeter, header longitudinally may be incorporated into assembly in opposite direction.So, almost can not obtain making cold-producing medium flow through the effect of all heat-exchange tubes, and have the impaired greatly possibility of refrigeration performance of evaporimeter with uniform amount.

In addition, in order to make the amount for the treatment of the cold-producing medium by all heat-exchange tubes even, as shown in Figure 15 and 16 of above-mentioned document, may be along vertical a plurality of cold-producing medium openings that in the shunting flaps, form shape and/or vary in size of refrigerant outlet collector asymmetricly.

But, since in load module so that can not discern the position of cold-producing medium opening from the outside when making evaporimeter, so flaps longitudinally may be incorporated into assembly in opposite direction.Therefore, almost can not obtain making cold-producing medium flow through the effect of all heat-exchange tubes, and have the impaired greatly possibility of refrigeration performance of evaporimeter with uniform amount.

An object of the present invention is to overcome the problems referred to above and provide a kind of heat exchange performance extraordinary heat exchanger.

Summary of the invention

To achieve these goals, the present invention includes below with the pattern that illustrates.

1) a kind of heat exchanger, this heat exchanger comprise two collectors of arranging and be arranged between these two collectors abreast and its two ends are bonded on a plurality of heat-exchange tubes on the respective headers of being spaced from each other,

The inside of at least one is shunted flaps and is divided into two spaces in the described collector, heat-exchange tube be bonded on described at least one collector in case with described space in one be communicated with, be formed with cold-producing medium opening (cold-producing medium passes through the hole) in this flaps, this collector with flaps has the mark of the position that is used to distinguish the cold-producing medium opening on the outer surface.

2) as paragraph 1) described in heat exchanger, the cold-producing medium opening that is formed with a plurality of shapes and/or varies in size in this shunting flaps wherein, this collector with flaps have the shape of also representing each hole except the position of representing each hole and/or the mark of size on the outer surface.

3) as paragraph 2) described in heat exchanger, wherein said mark is separately positioned on and corresponding position, each hole, and according to the shape in described hole and/or size and different.

4) as paragraph 1) described in heat exchanger, wherein said mark is included in the recess that forms in the collector outer surface.

5) as paragraph 1) described in heat exchanger, wherein said mark is included in the protuberance that forms on the collector outer surface.

6) as paragraph 1) described in heat exchanger, this heat exchanger comprises: heat exchange core, this heat exchange core comprise a plurality of rows' that form is provided with before and after being pipe group, and each pipe group comprises a plurality of heat-exchange tubes that are provided with at a distance of certain intervals; Towards an end of each heat-exchange tube location and be arranged on the refrigerant inlet collector of front side, this inlet header engages with the heat-exchange tube of at least one comb group; Towards the described end setting of each heat-exchange tube and be arranged on the refrigerant outlet collector at this inlet header rear, this outlet header engages with the heat-exchange tube of at least one comb group; Flow into collector towards the other end setting of each heat exchanger and the cold-producing medium that joins on described and the heat-exchange tube that inlet header engages; And flow out collector towards the described other end setting of each heat-exchange tube and the cold-producing medium that is arranged on this inflow collector rear, this outflow collector joins on described and the heat-exchange tube that outlet header engages, this outflow collector is communicated with this inflow collector, and the inside of this outlet header is shunted flaps and is divided into two spaces.

7) as paragraph 6) described in heat exchanger, wherein this inlet header and outlet header are integral, this inlet header and outlet header are to form by the inside of dividing a header with partition wall.

8) as paragraph 7) described in heat exchanger, wherein this header comprises first parts that engage with heat-exchange tube and at part (firmly) soldering second parts on this first parts relative with heat-exchange tube of first parts; Described partition wall and flaps and this second parts form one; Described mark is arranged on the outer surface of these second parts.

9) a kind ofly be used for making as paragraph 8) described in the method for heat exchanger, this method comprises: extrude second parts with partition wall and flaps, these second parts of extruding are carried out pressure processing with formation cold-producing medium opening in flaps, and on the outer surface of these second parts, mark is set simultaneously.

10) a kind of kind of refrigeration cycle that comprises compressor, condenser and evaporimeter, this evaporimeter is a paragraph 1) to 8) any one described in heat exchanger.

11) paragraph 10 is installed in it) described in kind of refrigeration cycle with vehicle as aircondition.

12) a kind of header that is used for heat exchanger, this header has the asymmetric front and rear of cross-sectional profiles.

13) as paragraph 12) described in the header that is used for heat exchanger, wherein the outside of this header forms by extruding part at least, this is extruded part and has spine integratedly, this spine is positioned on the outer surface of extruding part away from what this extruded part and extrudes the longitudinal extension of part with respect to the position at the center of fore-and-aft direction and along this, except this spine, this extrudes the cross-sectional profiles symmetry of the front and rear of part.

14) as paragraph 13) described in the header that is used for heat exchanger, this header comprises first parts of heat-exchange tube to be joined and second parts of the part soldering relative with heat-exchange tube on these first parts at these first parts, and these second parts are the parts of extruding with spine.

15) a kind of heat exchanger, this heat exchanger comprises: first and second headers that are arranged spaced from each other and be arranged between these two headers abreast and its two opposite end is bonded on a plurality of heat-exchange tubes on the respective episode bobbin carriage, at least one in the described header has the asymmetric front and rear of cross-sectional profiles.

16) as paragraph 15) described in heat exchanger, wherein said header with the asymmetric front and rear of cross-sectional profiles has at least by extruding the outside that part is made, this is extruded part and has spine integratedly, this spine is positioned on the outer surface of extruding part away from what this extruded part and extrudes the longitudinal extension of part with respect to the position at the center of fore-and-aft direction and along this, except this spine, this extrudes the cross-sectional profiles symmetry of the front and rear of part.

17) as paragraph 16) described in heat exchanger, wherein said header with the asymmetric front and rear of cross-sectional profiles comprises makes heat-exchange tube joint first parts thereon and second parts of the part soldering relative with heat-exchange tube on these first parts at these first parts, and these second parts are the parts of extruding with spine.

18) as paragraph 15) described in heat exchanger, this heat exchanger comprises: first and second headers that are arranged spaced from each other, and be arranged between these two headers abreast and its two opposite end is bonded on a plurality of heat-exchange tubes on the respective episode bobbin carriage, the inside of this first header is separated wall and is divided into front and rear so that refrigerant inlet collector and refrigerant outlet collector to be provided respectively, the inside of this second header is separated wall and is divided into front and rear so that two intermediate header to be provided, some heat-exchange tubes in the described heat-exchange tube are set in parallel between one of described intermediate header and this inlet header and its two opposite end joins respective headers to, and other heat-exchange tube in the described heat-exchange tube is set in parallel between another and this outlet header in the described intermediate header and its two opposite end joins respective headers to.

19) as paragraph 18) described in heat exchanger, wherein said header includes and makes heat-exchange tube joint first parts thereon, with make by extrusion profile and at second parts of the part soldering relative on these first parts of these first parts with heat-exchange tube, second parts of at least one header have spine integratedly, this spine be positioned on the outer surface of second parts away from these second parts with respect to the position at the center of fore-and-aft direction and along the longitudinal extension of these second parts, except this spine, the cross-sectional profiles symmetry of the front and rear of these second parts.

20) as paragraph 19) described in heat exchanger, wherein said spine is arranged on the outer surface of second parts of this first header, the inside of this outlet header is shunted flaps and is separated into two spaces, described other heat-exchange tube joins this outlet header to the earthing that links to each other in the described space, be formed with the cold-producing medium opening in this flaps, this partition wall and flaps and this second parts form.

21) a kind ofly be used for making as paragraph 15) described in the method for heat exchanger, the method is characterized in that, comprise and will be assembled together by header and the heat-exchange tube that anchor clamps keep (step), these anchor clamps have recess so that the outside of each header is engaged in wherein.

22) a kind ofly be used for making as paragraph 16) or 19) described in the method for heat exchanger, the method is characterized in that, comprise and to be assembled together by header and the heat-exchange tube that anchor clamps keep (step), these anchor clamps have recess so that the outside of each header is engaged in wherein, this recess that is used at least one header have the interior peripheral surface that is formed on this recess and along the groove of its longitudinal extension so that spine is engaged in wherein.

23) a kind of kind of refrigeration cycle that comprises compressor, condenser and evaporimeter, this evaporimeter is a paragraph 15) to 20) any one described in heat exchanger.

24) a kind of vehicle is equipped with paragraph 23 in it) described in kind of refrigeration cycle with as aircondition.

In load module so that make paragraph 1) described in heat exchanger the time, but reference marker distinguishes from the collector outside position of the cold-producing medium opening the shunting flaps.This eliminated reliably with collector be assemblied in reverse direction in the heat exchanger may, thereby make flaps to play to make the amount of the cold-producing medium by all heat-exchange tubes to act on uniformly, make heat exchanger can show good heat exchange performance thus.

For paragraph 2) and 3) described in heat exchanger, even have at flaps under the situation of the different a plurality of cold-producing medium openings of shape and/or size, still can eliminate reliably when load module collector is assemblied in reverse direction in the heat exchanger may.

For paragraph 4) or 5) described in evaporimeter, mark can more easily be arranged on the collector outer surface.

In load module so that make paragraph 6) described in heat exchanger the time, but reference marker distinguishes from refrigerant outlet collector outside the position of the cold-producing medium opening the shunting flaps.This just eliminated reliably with collector be assemblied in reverse direction in the heat exchanger may, thereby make flaps to play to make the amount of the cold-producing medium by all heat-exchange tubes to act on uniformly, make heat exchanger can show good heat exchange performance thus.

Paragraph 7) heat exchanger described in can be made by the assembly of negligible amounts on the whole.

For paragraph 8) described in heat exchanger, therefore this partition wall and flaps and second parts are integral, and can be arranged in the header by processing simply.

For paragraph 9) described in the method that is used to make heat exchanger, when in flaps, making the cold-producing medium opening, on the outer surface of second parts, form mark by pressure processing simultaneously, indicator hole forms reliably when being identified thereby this is marked at.

Using paragraph 12) described in header when making heat exchanger, the correct portrait orientation of the profile indication header of header, thus eliminated reliably with header be assemblied in reverse direction in the heat exchanger may.Therefore, when the device of the performance that in this header, is provided for improving heat exchanger, can accurately locate this device definitely, improve thereby make wherein in conjunction with heat exchange performance by the heat exchanger of this header.When being had recess by anchor clamps-these anchor clamps so that the header that the outside of header is engaged in wherein-keeps when being assemblied in the heat exchanger, if this header towards on the contrary, then this header can not be contained in the recess of these anchor clamps.Whether so automatic indication header is towards rightabout.

At paragraph 13) and 14) described in the situation of heat exchanger header case under, can more easily make the cross-sectional profiles of front and rear of this header asymmetric.

Making paragraph 15) and 18) described in heat exchanger the time, the profile of header is indicated the correct portrait orientation of this header, thereby eliminated reliably header is assemblied in possible in the heat exchanger in reverse direction.Therefore, when the device of the performance that in this header, is provided for improving heat exchanger, can accurately locate this device definitely, thereby the heat exchange performance of the heat exchanger that wherein is combined with this header is improved.When being had recess by anchor clamps-these anchor clamps so that the header that the outside of header is mounted in it-keeps when being assemblied in the heat exchanger, if this header towards on the contrary, then this header can not be contained in the recess of these anchor clamps.Whether so automatic indication header is towards rightabout.

At paragraph 16) and 17) described in the situation of heat exchanger under, can more easily make the cross-sectional profiles of front and rear of this header asymmetric.

For paragraph 20) described in heat exchanger, can accurately determine first header towards so that the outlet header that inlet header is placed in the front side and will has a flaps is placed in rear side.This amount with the cold-producing medium by all heat-exchange tubes that makes flaps to play to make acts on uniformly, guaranteeing high heat exchange performance, and the quantity of the assembly of this heat exchanger is reduced.

By paragraph 21) and 22) described in the method for manufacturing heat exchanger assemble under the situation of the header that kept by anchor clamps and heat-exchange tube, if the described at least header with spine is towards in the other direction then can not be contained in the recess.Whether so automatic indication header is towards rightabout.

Description of drawings

Fig. 1 is overall structure and the removed perspective view of part that illustrates according to first embodiment of evaporimeter of the present invention;

Fig. 2 is the vertical view of the evaporimeter shown in Fig. 1;

Fig. 3 is cutting open and the removed zoomed-in view of part along the line A-A among Fig. 1;

Fig. 4 is the decomposition diagram of the refrigerant inlet-EXPORT CARTON of evaporimeter shown in Fig. 1;

Fig. 5 is at first parts of import-EXPORT CARTON shown in Fig. 1 and the amplification view of the joint between second parts;

Fig. 6 is the decomposition diagram of the refrigerant turn tank shown in Fig. 1;

Fig. 7 is the amplification vertical sectional view of the side plate of the evaporimeter shown in Fig. 1;

Fig. 8 illustrates how to assemble heat-exchange tube, fin and the side plate figure with the evaporimeter shown in the shop drawings 1;

Fig. 9 illustrates the figure how cold-producing medium passes through the evaporimeter shown in Fig. 1;

Figure 10 illustrates the perspective view of removing according to overall structure and the part of second embodiment of evaporimeter of the present invention;

Figure 11 is the zoomed-in view along the line B-B among Figure 10 cuts open and part is removed;

Figure 12 is the decomposition diagram of the refrigerant inlet-outlet header case of the evaporimeter shown in Figure 10;

Figure 13 is the decomposition diagram that the cold-producing medium of the evaporimeter shown in Figure 10 turns to header;

Figure 14 is the figure that the part process that is used to make the evaporimeter shown in Figure 10 is shown.

The specific embodiment

Embodiments of the invention are described below with reference to accompanying drawings.These embodiment are according to evaporimeter of the present invention.

In the following description, Fig. 1 and 10 upper and lower and left-hand side and right-hand side be called as respectively " on ", D score, " left side " and " right side ".In addition, in the following description, term " aluminium " also comprises aluminium alloy except fine aluminium.

In the accompanying drawings, identical parts will be by identical label indication and with no longer repeat specification.

Fig. 1 to 3 illustrates the overall structure according to first embodiment of evaporimeter of the present invention, and Fig. 4 to 7 illustrates the structure of critical piece.Fig. 8 illustrates assembling heat-exchange tube, fin and the side plate method with the manufacturing evaporimeter, and Fig. 9 illustrates cold-producing medium flowing by evaporimeter.

Fig. 1 illustrates evaporimeter 1, and this evaporimeter comprises is arranged to vertically isolated aluminium refrigerant import-outlet header case 2 and aluminium refrigerant turns to header 3, and is arranged on the heat exchange core 4 between these two headers 2,3.

Refrigerant inlet-outlet header case 2 comprises refrigerant inlet collector 5 that is positioned at toe lateral (downstream of the air-flow by evaporimeter) and the refrigerant outlet collector 6 that is positioned at rear portion side (upstream side of air-flow).Cold-producing medium turns to header 3 to comprise to be positioned at the cold-producing medium as intermediate header of toe lateral to flow into collector 7 and the cold-producing medium as intermediate header that is positioned at rear portion side flows out collector 8.

Heat exchange core 4 comprise many rows that form is provided with before and after being-be in the present embodiment two rows-pipe group 11, each pipe group 11 comprise at a distance of about certain intervals ground be arranged in parallel-promptly along the horizontally set of evaporimeter-a plurality of aluminum heat exchange tubes 9.Corrugated aluminum fin 12 be separately positioned on each pipe group 11 each in the circulation of air gap between the adjacent heat-exchange tube 9, and the outside of the heat-exchange tube 9 at the place, left and right two opposite ends be positioned at each pipe group 11 is set, the equal soldering of each fin is on adjacent heat-exchange tube 9.Outer setting in left and right each corrugated fin 12 of holding has the aluminum side plate 13 of soldering on described fin 12.The top and bottom of the heat-exchange tube 9 of anterior pipe group 11 join inlet header 5 respectively to and flow into collector 7, and the top and bottom of the heat-exchange tube 9 of rear portion pipe group 11 join outlet header 6 respectively to and flow out collector 8.

With reference to Fig. 2 to 4, refrigerant inlet-EXPORT CARTON 2 comprises the first tabular parts 14, made and covered second parts 15 on top of first parts 14 and the aluminium lid 16,17 that seals left end and right-end openings respectively by naked aluminium (bare aluminum) extrudate, these first parts are made by the aluminum brazing sheet that has the brazing material layer at least on its outer surface (lower surface), and engage with heat-exchange tube 9.

First parts 14 all have bend 18 at each place of its front and rear, and the shape of cross section of this bend is the circular arc of small curve and protrudes downwards in the middle.The a plurality of pipe interpolation slits 19 that extend before and after this bend 18 has and be provided with along horizontal certain intervals ground apart.The position is identical in the horizontal for the seam 19 of every pair of correspondence in the front and rear bend 18.The back edge of the leading edge of front curvature portion 18 and rear portion bend 18 has upstanding wall 18a separately integratedly, and this upstanding wall extends on the whole length of parts 14.First parts 14 comprise flat 21 between two bends 18, this flat has a plurality of through holes 22 that are provided with along laterally mutual certain intervals.

The cross section of second parts 15 is generally m shape and under shed, these second parts comprise two walls 23 of front and rear along horizontal expansion, be arranged in the middle part between these two walls 23 and to be divided into the partition wall 24 in former and later two spaces and two along horizontal expansion with the inside with refrigerant inlet-EXPORT CARTON 2 be the connecting wall 25 of circular arc on the whole, described connecting wall is protruding upward and partition wall 24 and corresponding front and back walls 23 are connected integratedly in the upper end.The lower limb of the forward and backward lateral edges of second parts 15-be front and back walls 23-have piping support spine 30 integratedly on the whole length of parts 15, described spine is outstanding and outstanding towards first parts 14 in respective headers 5,6.The lower end of the front upper part of rear portion protuberance 30 and partition wall 24 interconnects on whole length by shunting flaps 26.Perhaps, can on protuberance 30 and partition wall 24, fix the plate that separates with this protuberance 30 and this partition wall 24 with as flaps 26.

Shunting flaps 26 have shape and/vary in size and along plate 26 laterally at a distance of a plurality of cold-producing medium openings (cold-producing medium opening) 27A, 27B, 27C and the 27D of certain intervals ground setting.That the plate 26 of illustrated embodiment has is a plurality of-and three-shape of the first cold-producing medium opening 27A that promptly three-shape is identical with size, a plurality of-the promptly but second cold-producing medium opening 27B that vary in size identical with the first hole 27A, shape and big or small three cold-producing medium opening 27C and shape and first and second hole 27As different with hole 27A, 27B, 27B is identical but the 4th cold-producing medium opening 27D that varies in size.The connecting wall 25 of second parts 15 has mark 28A, 28B, 28C, 28D on its outer surface, the position of these marks with each cold-producing medium opening 27A, 27B, 27C, 27D is corresponding so that distinguish these holes 27A, 27B, 27C, 27D.Mark 28A, 28B, 28C, 28D are according to the shape of cold-producing medium opening 27A, 27B, 27C, 27D and/or size and different.Therefore, be used for first to the 4th cold-producing medium opening 27A, 27B, 27C, mark 28A, the 28B of 27D, 28C, 28D difference, and be respectively shape with the size identical hole 27A or 27B identical mark 28A or 28B are set.Therefore, mark 28A, 28B, 28C, 28D also represent the shape and/or the size in described hole except the position of representing hole 27A, 27B, 27C, 27D.Mark 28A, 28B, 28C, 28D comprise indenture or projection or the combination of the two on the outer surface that for example is arranged on connecting wall.Situation shown in mark 28A, 28B, 28C, 28D are not limited to, but can be revised suitably and change.

The outstanding lower end that surpasses the piping support spine 30 of front and back walls 23 of the lower ends downward of partition wall 24, and have a plurality of protuberance 24a integratedly, described protuberance is outstanding downwards from the lower limb of this wall 24, the edge is horizontal is provided with at a distance of certain intervals ground and is engaged in the through hole 22 of first parts 14.Protuberance 24a forms by the specified portions of excising partition wall 24.

Second parts 15 are to make like this, promptly, front and rear wall 23, partition wall 24, connecting wall 25, piping support spine 30 and shunting flaps 26 are extruded form into integral piece, after this this is extruded part and carry out pressure processing to form cold-producing medium opening 27A, 27B, 27C, 27D and mark 28A, 28B, 28C, 28D are provided simultaneously in flaps 26, the part of further excising partition wall 24 is to form protuberance 24a.

Lid 16,17 be to use naked material (bare material) by pressure processing, forge or be cut into, each lid has along laterally inwardly so that the recess that the end of the correspondence of first parts 14 and second parts 15 is mounted in it.Right lid 17 has the cold-producing medium outflow opening 17b that the cold-producing medium inlet opening 17a that is communicated with refrigerant inlet collector 5 and the top with refrigerant outlet collector 6 on flaps 26 are communicated with.Soldering has refrigerant inlet-outlet alumiaum article 29 on the lid 17 of the right side, and this alumiaum article has refrigerant inlet 29a that is communicated with cold-producing medium inlet opening 17a and the refrigerant outlet 29b that is communicated with cold-producing medium outflow opening 17b.

Described two parts 14,15 utilize on first parts 14 the mutual soldering of brazing material layer together, and the protuberance 24a undercut of second parts 15 engages and is inserted in the respective aperture 22 of first parts 14 (crimping engagement), wherein the upper surface of the front and rear upstanding wall 18a of first parts 14 contacts with the lower surface of the front and back walls 23 of second parts 15, and the inner surface of front and rear upstanding wall 18a contacts with the outer surface of forward and backward piping support spine 30.Described two lids 16,17 also use the soldering of brazing material sheet material on first parts 14 and second parts 15.So just made import-EXPORT CARTON 2.Case 2 in the part in partition wall 24 the place aheads of second parts 15 as refrigerant inlet collector 5, and case 2 in the part at these partition wall 24 rears as refrigerant outlet collector 6.In addition, refrigerant outlet collector 6 is divided into upper and lower two space 6a, 6b by shunting flaps 26, and these spaces 6a, 6b are communicated with by cold-producing medium opening 27A, 27B, 27C, 27D.Lower space 6b is first space that is communicated with the heat-exchange tube 9 of rear portion pipe group 11, and upper space 6a to be cold-producing medium pass through that it flows out second space of evaporimeter.The cold-producing medium of right lid 17 flows out opening 17b and is communicated with the upper space of refrigerant outlet collector 6.

With reference to Fig. 5, the lower limb of the top edge of the front side of first parts 14 or posterior edges-be front portion or rear portion upstanding wall 18a and the front side of second parts 15 or posterior edges-be front portion or rear wall 23 has soldered fitting.In cross section, as center on indication ground by the chain-dotted line A among Fig. 5, this length of said joint is the back side and the piping support spine 30 contacted length that the thickness of upstanding wall 18a and antetheca or rear wall 23 adds this upstanding wall 18a.The length of soldered fitting preferably is at least 1.2 times of thickness of the thin part of the first parts upstanding wall 18a and second member front wall or rear wall 23, more preferably is at least 2 times.Like this, the soldered fitting of first parts 14 and second parts 15 has just had the intensity that the opposing that improves is broken or leaked.In the embodiment shown, the wall thickness of the antetheca of the upstanding wall 18a of first parts 14 and second parts 15 or rear wall 23 equates.

With reference to Fig. 3 and 6, refrigerant turn tank 3 comprise second parts 32 of tabular first parts 31, and downside that cover first parts 31 that make by naked aluminum extruded section bar and be used to seal about the aluminium lid 33 of two opposite end openings, these first parts are made and are engaged with heat-exchange tube 4 by the aluminum brazing sheet that has the brazing material layer at least on its outer surface (upper surface).

Refrigerant turn tank 3 has end face 3a, and the shape of cross section of the integral body of this end face is a circular arc, thereby its middle part is the highest 34 with respect to fore-and-aft direction, and this highest is reduced gradually towards front and rear.Case 3 has groove 35 in its both sides, front and back, described groove extends to front and back two sides 3b and laterally certain intervals ground setting apart of edge respectively from the highest 34 the both sides, front and back of end face 3a.

First parts 31 have at the middle part of these the first parts circular arc cross section protruding upward with respect to direction forward or backward, and have vertical wall (dependingwall) 31a that extends on and the whole length at these parts integrally formed at each place of the forward and backward lateral edges of these first parts and this parts 31.The upper surface of first parts 31 is as the end face 3a of refrigerant turn tank 3, and the outer surface of the wall 31a that hangs down is as the front portion or the rear portion side surface 3b of case 3.Groove 35 is formed in the forward and backward sidepiece of first parts, and from the highest 34 lower end that extends to the wall 31a that hangs down with respect to the middle part of forward or backward direction of these parts 31.Each of forward and backward sidepiece the highest part 34 in the middle part of being positioned at it of first parts all is formed with the pipe interpolation slit 36 that extends along direction forward or backward between each is to adjacent groove 35.The position with respect to horizontal of the front and rear pipe interpolation slit 36 of every pair of correspondence is identical.The highest part 34 that is positioned at its middle part of first parts 31 is formed with a plurality of through holes 37 that are provided with at a distance of certain intervals along laterally.By utilizing pressure processing, form vertical wall 31a, groove 35, pipe interpolation slit 36 and the through hole 37 of first parts 31 simultaneously by aluminum brazing sheet manufacture component 31.

The cross section of second parts 32 is as general as w shape and towards upper shed, these second parts comprise respectively along forward and direction backward make progress bandy and be divided into two spaces of front and rear and two connecting walls 41 that partition wall 39 and respective front and rear wall 38 are connected integratedly at lower end along horizontal expansion and with refrigerant turn tank 3 along two walls 38 of front and rear of horizontal expansion, this partition wall 39 of vertical partition wall 39-of being arranged on the center between these two walls 38.The top edge of the forward and backward both sides of the edge of second parts 32-be front and back walls 38-have piping support spine 40 integratedly, this spine stretches in each collector 7,8 and extends on the whole length of parts 32.

Partition wall 39 has the upper end that projects upwards above the upper end of front and rear wall 38, and this partition wall 39 has a plurality of protuberance 39a, and described protuberance projects upwards with being integral with it, is provided with at a distance of certain intervals ground and is contained in the respective through hole 37 of first parts 31 along horizontal from the top edge of this wall 39.Partition wall 39 is formed with cold-producing medium in to the top edge between the adjacent protuberance 39a by otch (cold-producing medium circulation otch) 39b at it at each.Protuberance 39a and otch 39b form by the specified portions of excision partition wall 39.

Second parts 32 are to make like this: promptly, front and rear wall 38, partition wall 39, connecting wall 41 and piping support spine 40 are extruded as integral piece, and cutting partition wall 39 is to form protuberance 39a and otch 39b.

Lid 33 is to use naked material to make by pressure processing, forging or cutting, and each lid has along laterally inwardly so that the recess that the end of the correspondence of first and second parts 31,32 is mounted in it.

First and second parts 31,32 utilize on first parts 31 the mutual soldering of brazing material layer together, and the protuberance 39a undercut of second parts 32 is inserted in the respective aperture 37 with engaging, wherein the upper surface of the front and rear wall 38 of second parts 32 is supported in the lower surface of the vertical wall 31a of first parts 31, and the inner surface of the vertical wall 31a of front and rear contacts with the outer surface of piping support spine 40.Described two lids 33 also utilize the soldering of brazing material sheet material on first and second parts 31,32.Like this, just formed refrigerant turn tank 3.The part in partition wall 39 the place aheads of second parts 32 is used as and flows into collector 7, and the part at partition wall 39 rears of these parts is used as and flows out collector 8.The upper end open of otch 39b in the partition wall 39 of second parts 32 is by 31 sealings of first parts, thus formation cold-producing medium opening 42.Perhaps, the cold-producing medium opening 42 that forms by the upper end open with first parts, 31 closure of incisions 39b can be the through hole that is formed in the partition wall 39.

Though the piping support spine 30 of refrigerant inlet-outlet header case 2 or cold-producing medium turn to the piping support spine 40 of header 3 to be arranged on the front and rear wall 23 or 38 of second parts 15 or 32, also they are arranged on the partition wall 24 or 39 of second parts 15 or 32.

Turn in the header 3 described, the hang down top edge of the front side of the lower limb of wall 31a and second parts 32 or posterior edges-be front portion or rear wall 38 of the front side of first parts 31 or posterior edges-be front portion or rear portion has soldered fitting.As the situation of import-outlet header case 2, in cross section, the length of soldered fitting preferably is at least 1.2 times of smaller in the thickness of the thickness of vertical wall 31a of first parts and front portion or rear wall 38, promptly is at least 1.2 times of thickness of the wall 31a that hangs down, more preferably is at least 2 times.Like this, the soldered fitting of first parts 31 and second parts 32 has had the intensity that the opposing that improves is broken or leaked.

The heat-exchange tube 9 that front and rear pipe group 11 is provided is that the naked material of aluminum extruded section bar is made by its form.Each pipe 9 all is flat and bigger along the width of fore-and-aft direction, and this pipe has in inside along the longitudinal extension of this pipe and a plurality of coolant channels that be arranged in parallel.Pipe 9 has the front and rear opposite end walls that its form is the circular arc of outside protrusion.9 pairs of the heat-exchange tubes of the heat-exchange tube 9 of each corresponding anterior pipe group 11 and rear portion pipe group 11 are all with respect to laterally being in identical position, their upper ends is in the pipe interpolation slit 19 of first parts 14 of the refrigerant inlet-outlet header case 2 of alignment, and the brazing material layer soldering that utilizes first parts 14 is on first parts 14, and wherein the upper end of pipe contacts with respective tube supporting spine 30.The cold-producing medium that these pipe bottoms of 9 are placed on alignment turns in the pipe interpolation slit 36 of first parts 31 of collector 3, and the brazing material layer soldering that utilizes these first parts 31 be on these first parts 31, and wherein the bottom of pipe is supported spine 40 with respective tube and contacted.The heat-exchange tube 9 of anterior pipe group 11 flows into collector 7 with refrigerant inlet collector 5 and cold-producing medium and is communicated with, and the heat-exchange tube 9 of rear portion pipe group 11 flows out collector 8 with refrigerant outlet collector 6 and cold-producing medium and is communicated with.

The length of protuberance that the upper end of heat-exchange tube 9 is stretched into inlet header 5 and stretched into outlet header 6 preferably at place, the end of the minimum that stretches into described collector-promptly in the front side or the posterior edges place-be at least 1mm.The pipe bottom stretch into the length that flows into collector 7 and stretch into the protuberance that flows out collector 8 preferably at the smallest ends place that stretches into described collector-promptly at forward or backward outer ledge place-be at least 1mm.In the time of on collector 9 being soldered to first parts 14,31, this has prevented to manage 9 coolant channel and has been stopped up by brazing material, thereby avoids the pressure loss to increase and refrigeration performance worsens.Preferably be at least 3mm apart from the air line distance of the inner surface of the air line distance of the upper surface part farthest of this pipe and upper end with from managing 9 lower surface to the air line distance apart from the upper surface of the air line distance of the lower surface part farthest of this pipe and flat part of the interior peripheral surface that flows into collector 7 to the interior peripheral surface of inlet header 5 from managing 9 upper surface to the similar portions that flows out collector 8-promptly to connecting wall 41 to the similar portions of outlet header 6-promptly to connecting wall 25.It is inhomogeneous and can avoid the pressure loss to increase that this prevents to flow into the shunting of cold-producing medium of all heat-exchange tubes 9, thereby avoid refrigeration performance to worsen.

Preferably, the height of heat-exchange tube 9-promptly along horizontal thickness-be 0.75 to 1.5mm, along the width of fore-and-aft direction be 12 to 18mm, the wall thickness of its circumferential wall is 0.175 to 0.275mm, with the thickness of coolant channel partition wall spaced apart from each other is 0.175 to 0.275mm, the spacing of partition wall is 0.5 to 3.0mm, and the radius of curvature of the outer surface of front and rear two opposite end walls is 0.35 to 0.75mm.

Can use the aluminum resistance weld pipe to replace the heat-exchange tube of being made by aluminum extruded section bar 9, described resistance weld pipe has a plurality of by inner fins being inserted the coolant channel that wherein forms.In addition, also can use the formed pipe of plate by the preparation of aluminium soldering sheet material, this aluminium soldering sheet material has the aluminium soldering material layer by rolling processing on its two opposite sides, and this aluminium soldering sheet material comprises that two flat wall that engage by the coupling part form part, each flat wall form be integrally formed therewith on the part and form part from this flat wall form part with the outstanding sidewall of this coupling part opposed side edge, and a plurality of partition walls of giving prominence to it with being integral and be provided with at a distance of certain intervals ground along its width from each flat wall formation part form parts, this pipe is by in this coupling part this plate being bent to the U font, and sidewall is formed part the ground connection soldering is partly formed partition wall and makes to form with described partition wall together.With the corrugated fin of using in the case is the fin of being made by naked material.

Corrugated fin 12 is to be that waveform is made by the aluminium soldering sheet material forming that will have the brazing material layer in its both sides.Be formed with the shutter portion that be arranged in parallel along fore-and-aft direction making in its crest portion and the part that its trough portion is connected of this waveform sheet material.Corrugated fin 12 is shared for front and rear pipe group 11.The leading edge that the width along fore-and-aft direction of fin 12 approximates the heat-exchange tube 9 in the past portion's pipe group 11 is greatly managed the antemarginal distance of the heat-exchange tube 9 of the correspondence in the group 11 to the rear portion.Wish the air line distance of the fin height of corrugated fin 12-promptly-be 7.0 to 10.0mm from crest portion to trough portion, the spacing of spacing of fin-be coupling part-be 1.3 to 1.8mm.Between can be every pair of each the pipe group 11 adjacent heat-exchange tube 9 corrugated fin is set, rather than makes front and rear pipe group 11 jointly use a corrugated fin.

With reference to Fig. 7, each side plate 13 is made by naked aluminum, and thereon, down the place, both ends all has along laterally inwardly outstanding bend 13a.Side plate 13 width forward or backward equals the width forward or backward of fin 12.Side plate 13 have be positioned at this plate with respect to a plurality of-promptly two-circular positioning through hole 45 on the center line of width, described through hole lay respectively at than this plate with respect to the center of length direction more near the position of the end (upper end) of this plate with more near the position of its other end (lower end).Locating hole 45 is not limited to circle, and can be oval.From side plate 13 be preferably 30 to 90mm with respect to the center O of longitudinally to the distance D at the center of each positioning through hole 45, more preferably be 40 to 70mm.Preferably equal from the center O of side plate 13 to the distance of each positioning through hole 45.Be provided with the vertical component effect 46 that is used to prevent the fin landing in the last interior circumferential edge that centers on each locating hole 45 of qualification of this plate of the side towards fin 12 (along horizontal inboard) of plate 13 with being integral with it.Vertical component effect 46 forms by side plate is carried out the reaming crimp.The height of the protuberance of vertical component effect 46 is preferably in 2mm, more preferably in about 0.5mm.Like this, can farthest prevent corrugated fin 12 distortion.

Above-mentioned side plate 13 has two positioning through hole 45 on the center line with respect to width of this plate, described through hole lay respectively at than this plate with respect to the center of length direction more near the position of the end (upper end) of this plate with more near the position of its other end (lower end), but this set is not restrictive; Can suitably change the position in hole 45, simultaneously at least three locating holes 45 can be set.Under the situation that at least three holes 45 are set, with at least two locating holes 45 be separately positioned on than this plate with respect to the center of length direction more near the position of the end (upper end) of this plate with more near the position of the other end (lower end) of this plate, and form erection part 46 around the circumferential edge of each limiting hole of this plate.

Evaporimeter 1 be by with the combined and tack/spot welding (tack) of assembly together and the assembly of common soldering institute tack make.

For making evaporimeter, utilize method assembling heat-exchange tube 9, corrugated fin 12 and the side plate 13 shown in Fig. 8.A plurality of heat-exchange tubes 9 and corrugated fin 12 alternately are arranged to fin 12 is positioned at each end of this device.Then, prepare movably anchor clamps 47, each anchor clamps has two protuberances 48 that can insert corresponding positioning through hole 45.Protuberance 48 is being inserted under the situation in the hole 45 in the side plate 13, anchor clamps 47 are being moved, towards the layout of pipe 9 and fin 12 side plate 13 is placed in the outside of fin 12 at two ends.

Evaporimeter 1 and compressor and condenser constitute together be installed in vehicle for example in the motor vehicle as the kind of refrigeration cycle of conditioner.

With reference to Fig. 9 that described evaporimeter 1 is shown, the gas-liquid mixed two-layer cold-producing medium mutually that flows through compressor, condenser and decompressor enters the refrigerant inlet collector 5 of refrigerant inlet-EXPORT CARTON 2 via the refrigerant inlet 29a of refrigerant inlet-outlet member 29 and the cold-producing medium inlet opening 17a of right lid 17, and shunts the coolant channel of all heat-exchange tubes 9 that flow into anterior pipe group 11.

The cold-producing medium that flows into the passage of all heat-exchange tubes 9 flows into collector 7 along the cold-producing medium that passage flowed down and entered refrigerant turn tank 3.Cold-producing medium in the collector 7 flows into cold-producing medium outflow collector 8 by the cold-producing medium opening 42 of partition wall 39.

Coolant channel in all heat-exchange tubes 9 of cold-producing medium shunting inflow rear portion pipe group 11 in the collector 8, the lower space 6b that changes its route and upwards flow into the refrigerant outlet collector 6 of refrigerant inlet-EXPORT CARTON 2 by described passage.The mobile resistance that provides of the 26 pairs of cold-producing mediums of shunting flaps in the outlet header 6 is provided, thereby make cold-producing medium flow into all heat-exchange tubes 9 of rear portion pipe group 11 from flowing out collector 8 with evenly shunting, and flow into all heat-exchange tubes 9 of anterior pipe group 11 from inlet header 5.As a result, cold-producing medium flows through all heat-exchange tubes 9 of these two pipe groups with uniform amount.

Subsequently, cold-producing medium opening 27A, 27B, 27C, the 27D of cold-producing medium by flaps 26 flows into the upper space 6a of outlet header 6, and flows out evaporimeter via the outflow opening 17b of lid 17 and the outlet 29b of refrigerant inlet-outlet member 29.When the coolant channel of the heat-exchange tube 9 of the coolant channel of the heat-exchange tube 9 that flows through anterior pipe group 11 and rear portion pipe group 11, cold-producing medium with flow through the air of air along the direction of the arrow X shown in Fig. 1 and carry out heat exchange by gap (circulation of air gap), and with (steaming) gas phase outflow evaporimeter.

At this moment, produce condensed water on the surface of corrugated fin 12, described condensed water flows down along the end face 3a of steering box 3.The condensed water that flows down along the end face 3a of case is owing to capillary effect enters groove 35, flows through groove 35 and drops to the below of steering box 3 along the outer end forward or backward of groove 35.Assemble a large amount of condensed waters between the end face 3a that this prevents at steering box 3 and the lower end of corrugated fin 12, thereby prevent that condensed water from freezing owing to assembling in a large number, avoids the efficiency of evaporimeter 1 to reduce thus.

Figure 10 to 13 illustrates second embodiment according to evaporimeter of the present invention.

Figure 10 and 11 illustrates the overall structure of evaporimeter, and Figure 12 and 13 illustrates the structure of major part.

Under the situation of the embodiment shown in Figure 10 to 13, the shunting flaps 26 of second parts 15 of refrigerant inlet-outlet header case 2 has along laterally that be provided with and a plurality of long and narrow cold-producing medium opening 51A, 51B that form in the rear portion except its left end and right-hand member of this plate 26 at a distance of certain intervals ground, rather than shape and/or the cold-producing medium that varies in size pass through hole 27A, 27B, 27C, 27D.The hole 51A that is positioned at the center is shorter than other hole 51B.

Two of second parts 15 are one of connecting wall 25 of circular arc-be that rear portion connecting wall 25-has on the outer surface integratedly along the longitudinal extension of this wall and away from its spine 52 with respect to the center of fore-and-aft direction on the whole, replace being arranged on mark 28A, 28B, 28C, 28D on the outer surface of connecting wall 25.It is that the cross-sectional profiles of front and rear of refrigerant inlet-outlet header case 2-is asymmetric that the existence of spine 52 makes the second parts 15-.Except spine 52, the front and rear of collector 2 of the front and rear of second parts 15-just-the cross-sectional profiles symmetry.

Second parts 15 are to make like this: front and rear wall 23, partition wall 24, connecting wall 25, shunting flaps 26, piping support spine 30 and spine 52 are extruded into integral piece, then this is extruded part and carry out pressure processing, and further cut partition wall 24 to form protuberance 24a with formation cold-producing medium opening 51A, 51B in flaps 26.

The inlet header 5 of refrigerant inlet-outlet header case 2 is connected with aluminium refrigerant inlet tube 53, and is connected with aluminium refrigerant outlet 54 on the outlet header 6 of case 2.

The lid 55,56 that is used to seal the both ends open of import-outlet header case 2 is to use to be made by pressure processing, forging or cutting at its two aluminium soldering sheet material that has the brazing material layer relatively on the surface.Right lid 55 have on the front portions in its left side, be integrally formed into it and can be contained in protuberance left 57 inlet header 5 in, and on the rear portion in its left side, have the top protuberance 59 left of the bottom in protuberance 58 and the lower space 6b that can be contained in collector 6 left in the upper space 6a that can be contained in outlet header 6 integratedly.This right side lid 55 have outstanding left and edge thereon on the throne and the forward and backward lateral edges of Qi Ge between circular arc shaped portion on the engagement lug 61 that forms.Right lid 55 also has engagement lug 62 outstanding and that be integrally formed into it left on each front and rear portions of its lower limb.In the diapire of the protuberance left 57 of the front portion of right side lid 55, be formed with refrigerant inlet 63, and the top on the rear portion of lid 55 is formed with refrigerant outlet 64 in the diapire of protuberance 58 left.Left side lid 56 and right lid 55 symmetries, and have the protuberance to the right 65 that is integrally formed into and can be contained in it in inlet header 5, the top in the upper space 6a that can be contained in outlet header 6 to the right protuberance 66, can be contained in lower rightward protuberance 67 and outstanding upper and lower engagement lug 68,69 in the lower space 6b of collector 6 to the right.Protuberance 65 or top do not form opening in the protuberance 66 to the right left.

Outside soldering at right side lid 55 has the fish plate of being made by naked aluminum and extend 71 that prolongs to the left or to the right on import and outlet header 5,6.Refrigerant inlet pipe 53 and outlet 54 join this fish plate 71 to.

It is that short cylinder and the refrigerant inlet part 72 that is communicated with the import 63 of right side lid 55 and form are short cylinder and the refrigerant outlet spare 73 that is communicated with the outlet 64 of this lid that fish plate 71 has form.In each of the top edge of fish plate 71 and lower limb, be formed with outstanding bend 74 left between import parts 72 and the outlet member 73.Described upper and lower bend 74 is bonded in the case 2 between inlet header 5 and outlet header 6.Fish plate 71 has left the engagement lug 75 of extending and being integrally formed into it at each place of the front-end and back-end of its lower limb.Lug 75 engages with the lower limb of right lid 55.

First and second parts 14,15 of refrigerant inlet-EXPORT CARTON 2, described two the lid 55,56 with fish plate 71 in the following manner soldering be in the same place.First and second parts 14,15 with the mode mutual soldering identical with aforementioned first embodiment together.Lid 55,56 utilize described lid 55, brazing material layer soldering on 56 is at first and second parts 14, on 15, and anterior protuberance 57,65 are contained in described two parts 14,15 the front space that is positioned at partition wall 24 the place aheads, protuberance 58 on the rear portion, 66 are contained in described two parts 14,15 be positioned at partition wall 24 rears and the back space on flaps 26, then subordinate's protuberance 59,67 are contained in partition wall 24 rears and the lower space under flaps 26, upper bond lug 61,68 engage the connecting wall 25 of second parts 15, lower bond lug 62,69 engage the bend 18 of first parts 14.Fish plate 71 utilizes the brazing material layer soldering of right lid 55 on this lid 55, and upper bend portion 74 engages with this lid 55 at the middle part with respect to fore-and-aft direction of right side lid 55 and engage with these second parts 15 in the part between two connecting walls 25 of second parts 15, lower knuckle portion 74 engages with this lid 55 and engages with the flat 21 of first parts 14 at the middle part with respect to fore-and-aft direction of right side lid 55, and engagement lug 75 also engages with the lower limb of right side lid 55.

Like this, just made refrigernant collector case 2.The import parts 72 of fish plate 71 keeps being communicated with inlet header 5 via the import 63 of right side lid 55, and outlet member 73 maintenances are communicated with outlet header 6 via exporting 64.

Turn to one of two connecting walls 41 of second parts 32 of header 3-be that rear portion connecting wall 41-has the spine 76 along its longitudinal extension integratedly, this spine to be positioned on the outer surface of wall and away from the center with respect to fore-and-aft direction of second parts 32.The setting of this spine 76 make the front and rear of the front and rear of second parts 32-promptly turn to header 3-cross-sectional profiles asymmetric.Except spine 76, the cross-sectional profiles symmetry of the front and rear of the front and rear of second parts 32 and collector 3.

Second parts 32 are to make like this: front and rear wall 38, partition wall 39, connecting wall 41, piping support spine 40 and spine 76 are extruded into integral piece, cut partition wall 39 then to form protuberance 39a and otch 39b.

Being used to seal the lid 77 that cold-producing medium turns to the both ends open of header 3 is to use aluminium soldering sheet material to make by pressure processing, forging or cutting.Each lid 77 have on its laterally inboard front portion, be integrally formed into it and can be contained in the laterally inwardly protuberance 78 that flows in the collector 7, and have integratedly on the rear portion of side within it to be contained in and flow out the interior laterally inwardly protuberance 79 of collector 8.Each lid 77 has along engagement lug 81 laterally inwardly outstanding and that form with this lid on the circular arc shaped portion between each of the lower limb of this lid and forward and backward lateral edges, and have integratedly from the top edge of this lid project upwards, along laterally inwardly extending and along a plurality of engagement lug 82 of fore-and-aft direction at a distance of the setting of certain intervals ground.

Cold-producing medium turns to each lid 77 of header 3 to utilize brazing material layer soldering on this lid 77 on first and second parts 31,32, and anterior protuberance 78 is contained in by these two parts 31,32 and limits and in the front space in partition wall 39 the place aheads, rear portion protuberance 79 is contained in by these two parts 31,32 and limits and in the back space at partition wall 39 rears, upper bond lug 82 engages with first parts 31, and lower bond lug 81 engages with the respective front and the rear wall 38 of second parts 32.

Except above-mentioned feature, second embodiment is identical with the evaporimeter of first embodiment.

Figure 14 illustrates the method for the evaporimeter 1 that is used to make second embodiment.

At first, thereby the upper surface of the front and rear upstanding wall 18a of first parts 14 is contacted with the lower surface of the front and rear wall 23 of second parts 15 and the inner surface of front and rear upstanding wall 18a is contacted with the outer surface of front and rear piping support spine 30 by the respective aperture 22 of the protuberance 24a undercut of second parts 15 being inserted first parts 14 with engaging, first parts 14 and second parts, 15 tacks are in the same place.By with anterior protuberance 57,65 are contained in described two parts 14,15 the front space that is positioned at partition wall 24 the place aheads, with protuberance on the rear portion 58,66 adorn described two parts 14,15 be positioned at partition wall 24 rears and the upper space on flaps 26, and with protuberance under the rear portion 59,67 are contained in and are positioned at partition wall 24 rears and the lower space under flaps 26, make upper bond lug 61,68 engage and make lower bond lug 62 with the connecting wall 25 of second parts 15,69 engage with the bend 18 of first parts 14, with described two lids 55,56 tacks are at first and second parts 14, on 15.By upper bend portion 74 is engaged with this right side lid 55 at the middle part with respect to fore-and-aft direction of right side lid 55, thereby and engage with these second parts 15 in the part between two connecting walls 25 of second parts 15 and to make lower knuckle portion 74 cover 55 with this right side to engage and engage with the par 21 of first parts 14 at the middle part with respect to fore-and-aft direction of right side lid 55, and engagement lug 75 is engaged with the lower limb of right lid 55, fish plate 71 tacks are covered on 55 at two parts 14,15 and the right side.Like this, just make the tack assembly 90 of refrigerant inlet-outlet header case.

On the other hand, by being inserted respective aperture 37 with engaging, the protuberance 39a undercut of second parts 32, first parts 31 and second parts, 32 tacks are in the same place so that the lower surface of the vertical wall 31a of the front and rear of first parts 31 contacts with the upper surface of the front and rear wall 38 of second parts 32 and the inner surface of the vertical wall 31a of front and rear is contacted with the outer surface of front and rear piping support spine 40.By anterior protuberance 78 is contained in by described two parts 31,32 that limit and be positioned at partition wall 39 the place aheads front space, rear portion protuberance 79 is contained in that limit and be positioned at the back space at partition wall 39 rears by described two parts 31,32, and make the upper bond lug 82 and first parts 31 engage, make lower bond lug 81 to engage with the respective front and the rear wall 38 of second parts 32, each is covered 77 tacks on first and second parts 31,32.Like this, just make the tack assembly 91 that cold-producing medium turns to header.

Subsequently, be set in place in the outside of the corrugated fin 12 at these layout two ends, make the assembly 92 of heat exchange core by a plurality of heat-exchange tubes 9 and corrugated fin 12 are arranged on the base 100 and with side plate 13.

Then, with the tack assembly 90 of import-outlet header case with turn to the tack assembly 91 of header to be separately positioned on the both sides of heat exchanger core parts 92, by the anchor clamps 93,94 that can move forward or backward tack assembly 90,91 is moved towards core assembly 92, thereby make its tube supporting spine 30,40 with the pipe interpolation slit 19,36 of the two ends of heat-exchange tube being inserted corresponding first assembly 14,31.Anchor clamps 93,94 have recess 93a, the 94a that the outside that is used to make tack assembly 90,91 is mounted in it.In addition, in the interior peripheral surface of recess 93a, the 94a of anchor clamps 93,94, be formed with and be used to groove 95,96 that corresponding spine 52,76 is mounted in it.

After this, utilize suitable anchor clamps that tack assembly 90,91 and core assembly 92 tacks are in the same place, and common all these assemblies of soldering.Like this, just made evaporimeter 1.

According to second embodiment, turn to second parts 32 of header 3 to have spine 76 on the outer surface, but it is identical with the structure that flows out collector 8 to work as the inflow collector 7 that turns to header 3, and when the symmetry of the position of the cold-producing medium opening 42 that in the left side of partition wall 42, forms and in its right-hand part, form, even header 3 is arranged to longitudinally also can not go wrong towards rightabout.Therefore, always do not need to be provided with spine 76.

Although according to aforementioned second embodiment, second parts 15 or 32 that form the outside of header 2 or 3 are made by aluminum extruded section bar, this header also can by integral body be used for the evaporimeter of other type or other heat exchanger for example the extrusion profile of condenser make.

According to aforementioned two embodiment, the inlet header 5 of described two headers 2,3 and flow between the collector 7 with and outlet header 6 and flow out between the collector 8 a heat-exchange tube group 11 is set, but this setting is not restrictive; Can and flow between the collector 7 and at its outlet header 6 with flow out between the collector 8 one or at least two heat-exchange tube groups 11 are set at the inlet header 5 of two headers 2,3.Although according to previous embodiment, the cold-producing medium that refrigerant inlet-outlet header case 2 is positioned at the lower turns on the header 3, and this evaporimeter can use with being reversed, makes to turn to header 3 to be positioned on import-outlet header case 2.

Although heat exchanger of the present invention is as evaporimeter under the situation of above-mentioned two embodiment, this use is not restrictive; The present invention can show as various other heat exchanger condensers for example.

In addition, heat exchanger of the present invention can be equipped with have compressor, gas cooler, intermediate heat exchanger, expansion valve and evaporimeter and use CO ₂The vehicle of the conditioner of cold-producing medium is for example in the motor vehicle, with gas cooler or the evaporimeter as this conditioner.

Industrial usability

Heat exchanger of the present invention is suitable for use as the evaporimeter of motor vehicle air conditioning system, and the heat exchange effect Rate is higher.

Claims (7)

1. header that is used for heat exchanger, this header has the asymmetric front and rear of cross-sectional profiles, wherein, at least the outside of this header forms by extruding part, this is extruded part and has spine integratedly, this spine is positioned on the outer surface of extruding part away from what this extruded part and extrudes the longitudinal extension of part with respect to the position at the center of fore-and-aft direction and along this, and except this spine, this extrudes the cross-sectional profiles symmetry of the front and rear of part.

2. according to the header that is used for heat exchanger of claim 1, it is characterized in that, this header comprises and will engage first parts of heat-exchange tube and second parts of the part soldering relative with heat-exchange tube on these first parts at these first parts that these second parts are the parts of extruding with spine.

3. heat exchanger, this heat exchanger comprises: first and second headers that are arranged spaced from each other, and be arranged between these two headers abreast and its two opposite end is bonded on a plurality of heat-exchange tubes on the respective episode bobbin carriage, in the described header at least one has the asymmetric front and rear of cross-sectional profiles, described header with the asymmetric front and rear of cross-sectional profiles has at least by extruding the outside that part is made, this is extruded part and has spine integratedly, this spine is positioned on this outer surface of extruding part away from what extrude part and extrudes the longitudinal extension of part with respect to the position at the center of fore-and-aft direction and along this, except this spine, this extrudes the cross-sectional profiles symmetry of the front and rear of part.

4. according to the heat exchanger of claim 3, it is characterized in that, described header with the asymmetric front and rear of cross-sectional profiles comprises makes heat-exchange tube joint first parts thereon and second parts of the part soldering relative with heat-exchange tube on these first parts at these first parts, and these second parts are the parts of extruding with spine.

5. according to the heat exchanger of claim 3, it is characterized in that, the inside of this first header is separated wall and is divided into front and rear so that refrigerant inlet collector and refrigerant outlet collector to be provided respectively, the inside of this second header is separated wall and is divided into front and rear so that two intermediate header to be provided, some heat-exchange tubes in the described heat-exchange tube are set in parallel between one of described intermediate header and this inlet header and its two opposite end joins respective headers to, and other heat-exchange tube in the described heat-exchange tube is set in parallel between another and this outlet header in the described intermediate header and its two opposite end joins respective headers to.

6. according to the heat exchanger of claim 5, it is characterized in that, described header includes and makes heat-exchange tube joint first parts thereon, with make by extrusion profile and at second parts of the part soldering relative on these first parts of these first parts with heat-exchange tube, second parts of at least one header have spine integratedly, this spine be positioned on the outer surface of these second parts away from these second parts with respect to the position at the center of fore-and-aft direction and along the longitudinal extension of these second parts, except this spine, the cross-sectional profiles symmetry of the front and rear of these second parts.

7. according to the heat exchanger of claim 6, it is characterized in that, described spine is arranged on the outer surface of second parts of this first header, the inside of this outlet header is shunted flaps and is separated into two spaces, described other heat-exchange tube joins this outlet header to the earthing that links to each other in the described space, be formed with the cold-producing medium opening in this flaps, this partition wall and flaps and this second parts form.

Images