CN103837032A - Fins of heat exchanger and heat exchanger - Google Patents
Fins of heat exchanger and heat exchanger Download PDFInfo
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- CN103837032A CN103837032A CN201210484380.1A CN201210484380A CN103837032A CN 103837032 A CN103837032 A CN 103837032A CN 201210484380 A CN201210484380 A CN 201210484380A CN 103837032 A CN103837032 A CN 103837032A
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Abstract
The invention discloses a heat exchanger and fins of the heat exchanger. The fins comprise a plurality of first fin units and a plurality of second fin units which are arranged alternatively side by side, wherein each first fin unit comprises a first window fin facing the flowing-in direction of fluid, each second fin unit comprises a second window fin facing the flowing-in direction of the fluid, the first window fins and the second window fins are arranged side by side and are arranged alternatively in the flowing-in direction of the fluid, a first interval is formed among the first window fins and the second window fins, and either the first window fins or the second window fins are of the shape with two wide ends and a narrow middle or two narrow ends and a wide middle. Due to the arrangement, the heat exchanger and the fins of the heat exchanger reserve transverse turbulence and reinforce the turbulence in the vertical direction, and the turbulence in the vertical direction is bidirectional, so that the turbulence effect is obvious, and heat exchange efficiency is improved.
Description
Technical field
The present invention relates to a kind of fin and heat exchanger of heat exchanger, relate in particular to a kind of plate-fin heat exchanger that there is the fin of stronger flow disturbance and there is this fin.
Background technology
Plate-fin heat exchanger is normally made up of dividing plate, fin, strip of paper used for sealing and flow deflector.Thereby between adjacent two dividing plates, place fin, flow deflector and an interlayer of strip of paper used for sealing composition, Here it is passage.Such interlayer is stacked in a different manner according to actual needs, and soldering becomes the as a whole plate bundle that just formed.The Assembly of the parts such as plate bundle and corresponding end socket, adapter, support are got up, just formed plate-fin heat exchanger.
Plate-fin heat exchanger is defined as the heat transfer element being made up of flow plate and fin, and fin is its core component, and common fin type has: straight shape, zigzag, corrugated, porous and shutter shape etc.For the heat transfer effect of reinforcement plate fin heat exchanger, people have carried out continuous research and development and improvement to its fin structure.
Than traditional heat exchanger, plate-fin heat exchanger has enhanced heat exchange surface, and structure is very compact; Multiplex aluminum alloy materials manufacture, very light and handy; The disturbance of fin convection cell constantly destroys the boundary layer of fluid, due to the high-termal conductivity of dividing plate and fin, makes plate-fin heat exchanger have very high efficiency simultaneously.Therefore, the adaptability of plate-fin heat exchanger is very strong, can and the phase-change heat-exchange that collection state changes occur for the heat exchange between various fluids; Layout and combination by runner can adapt to the different heat-exchanging states such as adverse current, cross-flow, multiple flow and multilayer stream; Can meet the heat exchange needs of main equipment by series, parallel, series-parallel combination between unit.At present, plate-fin heat exchanger is widely used in the fields such as air separation plant, petrochemical industry, refrigeration and low temperature field, automobile and aircraft industry.
Due to the advantages of compact and light structure of plate-fin heat exchanger, installing space is limited, and its flow passage structure improvement and the space of optimizing are relatively little, and the structural design of plate-fin heat exchanger fin can be versatile and flexible, has space and the condition of further improvement and optimization.Along with the increase of heat gain from appliance and equipment, the heat exchange efficiency of plate-fin heat exchanger also needs to strengthen, under the requirement of this overall situation, improve and optimize the fin structure of plate-fin heat exchanger, the heat exchange efficiency between enhanced fin and the high and low temperature medium that flows through becomes one of main direction of research.
Please refer to shown in Fig. 1, the structural representation that Fig. 1 is existing oil cooler, it comprises some plates 1 ' and is positioned at adjacent two plates ' middle louvered fin 2 '.Make hot and cold medium change flow direction by described louvered fin 2 ', and make its flow boundary layer destroyed and then produce action of turbulent flow.
Shown in Fig. 2 is the partial structurtes of louvered fin 2 '.Described louvered fin 2 ' is made up of multiple fin units 3 ', two window wings 6 ', 7 ' that wherein each fin unit 3 ' comprises top 4 ', bottom 5 ' and is arranged symmetrically with.Adjacent fin unit 3 ' is to be staggeredly arranged in parallel, and between the adjacent window wing in left and right, leaves gap 8 '.In the time that hot and cold medium flows to fin window wing 6 ', 7 ' along the direction of arrow, will be subject to window wing 6 ', 7 ' obstruction and constantly produce the shunting on transverse plane.Hot and cold medium is in the process of shunting, is constantly broken by louvered fin 2 ' in its boundary layer, will be in the disturbance producing on part plan, and this can strengthen the exchange capability of heat of plate-fin heat exchanger to a certain extent.But due to the restriction of fin window wing 6 ', 7 ' planform, hot and cold medium is main in the process of shunting, and what produce is disturbance transversely, and longitudinally the disturbance on (vertical direction) is relatively less.
Therefore, be necessary existing technology to improve, to solve above technical problem.
Summary of the invention
The object of the present invention is to provide fin and the heat exchanger thereof of the heat exchanger that a kind of heat exchange efficiency is higher.
For achieving the above object, the present invention adopts following technical scheme: a kind of fin of heat exchanger, some the first fin units and some the second fin units that described fin comprises side by side and is arranged alternately, wherein each first fin unit comprises the first window wing towards fluid inflow direction, each second fin unit comprises the second window wing towards fluid inflow direction, described the first window wing and described the second window wing are arranged side by side, described the first window wing and described the second window wing stagger to form the first gap between described the first window wing and described the second window wing on described fluid inflow direction, it is wide that at least one in described the first window wing and described the second window wing presents two ends, middle narrow shape or two ends are narrow, middle wide shape.
As further improved technical scheme of the present invention, the shape wide in the middle of described the first window wing presents, two ends are narrow, the shape narrow in the middle of described the second window wing presents, two ends are wide.
As further improved technical scheme of the present invention, described the first window wing is symmetrical set along its horizontal center line, and described the second window wing is also symmetrical set along its horizontal center line.
As further improved technical scheme of the present invention, described the first window wing and described the second window wing are parallel to each other, described the first window wing and described the second window wing are obliquely installed with respect to fluid inflow direction, and described the first window wing and described the second window wing are one in front and one in back and arrange on fluid inflow direction.
As further improved technical scheme of the present invention, described the first window wing is hexagon, and described the first window wing and the second window wing are to be stamped to form by a metallic plate, and the first adjacent window wing and the second window wing are at the shape complementarity of punching press place.
As further improved technical scheme of the present invention, the first bottom that described the first fin unit comprises from horizontally extending first top, top of the first window wing and extends from the bottom level of the first window wing, the second bottom that described the second fin unit comprises from horizontally extending second top, top of the second window wing and extends from the bottom level of the second window wing, described the first top and described the second top are bonded to each other and coplanar, and described the first bottom and described the second bottom are bonded to each other and coplanar.
As further improved technical scheme of the present invention, described the first fin unit comprises the 3rd window wing extending from the first top downward, and described the first window wing and described the 3rd window wing are symmetrical arranged; Described the second fin unit comprises the four-light wing extending from the second top downward, and described the second window wing and described four-light wing are symmetrical arranged; Described the 3rd window wing and described four-light wing stagger to form the second gap between described the 3rd window wing and described four-light wing on described fluid inflow direction.
For achieving the above object, the present invention also provides a kind of heat exchanger, it comprises bearing, be installed on bearing and intersect stacking setting some the first flow plates and some the second flow plates and be contained in the first flow plate and the second flow plate in some fins, described the first flow plate comprises accommodating the first receiving space of corresponding fin, described the second flow plate comprises accommodating the second receiving space of corresponding fin, it is characterized in that, described fin is the fin of above-mentioned heat exchanger.
As further improved technical scheme of the present invention, described the first flow plate comprises the first base and is centered around the first framework of described the first base periphery, described the first receiving space is surrounded by described the first base and described the first framework, and described fin adheres on described the first base; Described the second flow plate comprises the second base and is centered around the second framework of described the second base periphery, and described the second receiving space is surrounded by described the second base and described the second framework, and described fin adheres on described the second base; Described the first framework and described the second framework have the projection and the groove that cooperatively interact.
As further improved technical scheme of the present invention, described the first base is provided with the first plane hole and the first convex surface hole, and described fin is provided with the first breach corresponding to described the first plane hole and described the first convex surface hole; Described the second base is provided with the second plane hole and the second convex surface hole, and described fin is provided with the second breach corresponding to described the second plane hole and described the second convex surface hole; The height of described fin is concordant with described the first convex surface hole and the second convex surface hole.
Compared with prior art, the present invention is because at least one in the first window wing and described the second window wing presents wide, the middle narrow shape in two ends or two ends are narrow, middle wide shape, thereby the obstruction of convection cell is just different, pressure differential and then the in the vertical direction that just can produce thus on vertical direction produce preferably flow-disturbing effect, improving heat exchanging efficiency.
Brief description of the drawings
Fig. 1 is the side view of heat exchanger of the prior art.
Fig. 2 is the stereogram of the fin of heat exchanger of the prior art.
Fig. 3 is the stereogram of heat exchanger of the present invention.
Fig. 4 is the cutaway view of heat exchanger of the present invention along A-A line in Fig. 3, and wherein said top board and bearing are not revealed.
Fig. 5 is the stereogram of the first flow plate in Fig. 4.
Fig. 6 is the cutaway view along B-B line in Fig. 5.
Fig. 7 is the cutaway view along C-C line in Fig. 5.
Fig. 8 is the stereogram of the second flow plate in Fig. 4.
Fig. 9 is the stereogram after the assembling of the first flow plate and fin in Fig. 4.
Figure 10 is the top view of Fig. 9, and has indicated the approximate flow directions of fluid.
Figure 11 is the stereogram of fin in Fig. 9, and wherein the first fin unit and the second fin unit are alternately arranged side by side.
Figure 12 is the stereogram of the second fin unit in Figure 11.
Figure 13 is the get the bid schematic perspective view of bright fluid flow direction of Figure 11.
Figure 14 is the schematic diagram that in Figure 13, disturbance occurs fluid in the time of the first window wing by the first fin unit.
Figure 15 is the schematic diagram that in Figure 13, disturbance occurs fluid in the time of the second window wing by the second fin unit.
Detailed description of the invention
Shown in please refer to the drawing 3 to Figure 10, the present invention has disclosed a kind of heat exchanger 100, and it comprises bearing 1, be installed on bearing 1 and intersect some the first flow plates 2 and some second flow plates 3 of stacking setting, the top board 7 that is contained in the some fins 4 in the first flow plate 2 and the second flow plate 3 and is installed on top.In illustrative embodiments of the present invention, described heat exchanger 100 is plate-fin heat exchanger.Describe and understand better technical scheme of the present invention for the ease of following, the mutual stacking direction of the first flow plate 2 and the second flow plate 3 is defined as " vertical direction " or " above-below direction ".
Described bearing 1 is provided with the installing plate 11 that circumferentially protrudes from described the first flow plate 2 and the second flow plate 3.Described installing plate 11 is provided with some installing holes 12 that pass for screw, to realize fixing described heat exchanger 100.
Described top board 7 comprises flat end face 71 and protrudes the some columniform flange of end face 71.Described flange comprises and lays respectively at cornerwise two the first flanges 72 and lay respectively at another cornerwise two the second flanges 73.One of them import that is first fluid in described two the first flanges 72, another outlet that is first fluid.One of them import that is second fluid in described two the second flanges 73, another outlet that is second fluid.Described the first flange 72 and the second flange 73 are all in order to be connected with pipeline (not shown).In the following description, first fluid and second fluid are referred to as fluid.
Shown in please refer to the drawing 5, described the first flow plate 2 comprises the first base 21 and is centered around the first framework 22 of described the first base 21 peripheries.Described the first framework 22 is protruding upward in described the first base 21, and described the first framework 22 and common first receiving space 23 of accommodating corresponding fin 4 that forms of described the first base 21.Described the first base 21 is provided with some the first plane holes 211 and some the first convex surface holes 212.Shown in please refer to the drawing 6, described the first convex surface hole 212 is that punching press forms and comprises the first boss face 213 that is positioned at top.In illustrative embodiments of the present invention, described the first plane hole 211 is two and is distributed in a diagonal angle of described the first base 21, and described the first convex surface hole 212 is two and is distributed in another diagonal angle of described the first base 21.Certainly, in other embodiments, described the first plane hole 211 also can be arranged on the same side and alignment is arranged, correspondingly, described the first convex surface hole 212 can be arranged on opposite side and alignment is arranged, i.e. one of them first plane hole 211 and one of them first convex surface hole 212 reversing of position in Fig. 5.
Shown in please refer to the drawing 8, described the second flow plate 3 comprises the second base 31 and is centered around the second framework 32 of described the second base 31 peripheries.Described the second framework 32 is protruding upward in described the second base 31, and described the second framework 32 and common second receiving space 33 of accommodating corresponding fin 4 that forms of described the second base 31.Described the second base 31 is provided with some the second plane holes 311 and some the second convex surface holes 312.Described the second convex surface hole 312 is that punching press forms and comprises the second boss face 313 that is positioned at top.In illustrative embodiments of the present invention, described the second plane hole 311 is two and is distributed in a diagonal angle of described the second base 31, and described the second convex surface hole 312 is two and is distributed in another diagonal angle of described the second base 31.Certainly, in other embodiments, described the second plane hole 311 also can be arranged on the same side and alignment is arranged, correspondingly, described the second convex surface hole 312 can be arranged on opposite side and alignment is arranged, i.e. one of them second plane hole 311 and one of them second convex surface hole 312 reversing of position in Fig. 8.
It should be noted that: in illustrative embodiments of the present invention, the second plane hole 311 mutual dislocation of the first plane hole 211 of the first flow plate 2 and the second flow plate 3; The second also mutual dislocation of convex surface hole 312 of the first convex surface hole 212 of the first flow plate 2 and the second flow plate 3.The first plane hole 211 of described the first flow plate 2 is corresponding to described the first flange 72, and the second plane hole 311 of described the second flow plate 3 is corresponding to described the second flange 73.
Shown in please refer to the drawing 3, the first framework 22 and second framework 32 of described the second flow plate 3 of described the first flow plate 2 have the projection 23 and groove 33 that cooperatively interact.By described protruding 23 with can play the effect that prevents mistake assembling coordinating of groove 33, once and there is mistake assembling (for example two the first flow plates 2 have stacked because of carelessness) because can produce gap, so be easy to be found.In illustrative embodiments of the present invention, described protruding 23 are arranged in the first framework 22, and described groove 33 is arranged in the second framework 32.Certainly, in other embodiments, described protruding 23 also can be arranged in the second framework 32, and described groove 33 is arranged in the first framework 22, can realize equally the effect that prevents mistake assembling.
Shown in please refer to the drawing 5 and Fig. 8 because the first flow plate 2 and the second flow plate 3 structures are similar, below only taking the first flow plate 2 as example, introduce in detail the assembled relation of the first flow plate 2 and corresponding fin 4.
Shown in please refer to the drawing 9 and Figure 10, the fin 4 being contained in the first receiving space 23 is provided with some the first breach (not label) with described the first convex surface hole 212 corresponding to described the first plane hole 211, and the height of described fin 4 is concordant with first boss face 213 in described the first convex surface hole 212.Be understandable that: the fin 4 being contained in the second receiving space 33 is provided with some the second breach (not shown) with described the second convex surface hole 312 corresponding to described the second plane hole 311, and the height of described fin 4 is concordant with second boss face 313 in described the second convex surface hole 312.The part (corresponding respectively to the second plane hole 311 and the first plane hole 211) that described the first boss face 213 and described the second boss face 313 all fit with it welds together, thereby ensures when fluid circulates in fin 4 can not flow in the first convex surface hole 212 or the second convex surface hole 312.
Shown in please refer to the drawing 10, the first plane hole 211 in the lower left corner is import, and the first plane hole 211 in the upper right corner is outlet, and what the direction of arrow in figure represented is first fluid flows to outlet signal route from import.
Similarly, shown in please refer to the drawing 8, be appreciated that second fluid flows to from the second plane hole 311 in the upper left corner, flows out from the second plane hole 311 in the lower right corner.
The first fluid that the present invention's the first flow plate 2 circulates respectively from the second flow plate 3 and second fluid are two kinds of different media, and mutually can not mix heat exchanger 100 is interior, heat exchanger 100 of the present invention namely provides the place of heat exchange for these two kinds of different media.
Shown in please refer to the drawing 11 to Figure 15, below the structure of fin 4 is described in detail.Some the first fin units 5 and some the second fin units 6 that described fin 4 comprises side by side and is arranged alternately.Each first fin unit 5 comprises towards the first window wing 51 of fluid inflow direction (being fore-and-aft direction in illustrative embodiments of the present invention), first bottom 53 of extending from horizontally extending first top 52, top of the first window wing 51, from the bottom level of the first window wing 51 and the 3rd window wing 54 from the first top 52 downward-sloping extensions.Described the first window wing 51 is symmetrical arranged with described the 3rd window wing 54.
Similarly, the second bottom 63 that described each second fin unit 6 comprises towards the second window wing 61 of fluid inflow direction, from horizontally extending second top 62, top of the second window wing 61, extends from the bottom level of the second window wing 61 and from the four-light wing 64 of the second top 62 downward-sloping extensions.Described the second window wing 61 is symmetrical arranged with described four-light wing 64.In illustrative embodiments of the present invention, described the first window wing 51 is arranged side by side on left and right directions with described the second window wing 61.Described the first bottom 53 is less than the length of described the second bottom 63 along described fluid inflow direction along the length of described fluid inflow direction.Described the first window wing 51 and described the second window wing 61 stagger to form the first gap 50 between described the first window wing 51 and described the second window wing 61 on described fluid inflow direction.In illustrative embodiments of the present invention, described the first window wing 51 is prior to described the second window wing 61 and described fluid contact.Described the 3rd window wing 54 is same with described four-light wing 64 staggers to form the second gap 60 between described the 3rd window wing 54 and described four-light wing 64 on described fluid inflow direction.In illustrative embodiments of the present invention, described the 3rd window wing 54 is prior to described four-light wing 64 and described fluid contact.
Together with described the first fin unit 5 is bonded to each other with described the second fin unit 6, to form an entirety, improve heat exchange property.Particularly, described the first top 52 is bonded to each other and coplanar with described the second top 62, and described the first bottom 53 is bonded to each other and coplanar with described the second bottom 63.In addition, described the first bottom 53 and described the second bottom 63 are all fixedly welded on the first base 21 of described the first flow plate 2 and on the second base 31 of described the second flow plate 3.
Shown in please refer to the drawing 13 to Figure 15, below the disturbance that why can strengthen on vertical direction with regard to heat exchanger 100 of the present invention and fin 4 thereof be elaborated.
Because described the first window wing 51 is than the more close fluid of described the second window wing 61, the first window wing 51 is prior to the second window wing 61 and fluid contact.In the time that fluid touches the first window wing 51, be subject to the obstruction of the first window wing 51, on the one hand, fluid can and pass through described the first rear continuation in gap 50 to both sides horizontal proliferation and flow backward; On the other hand, because described the first window wing 51 presents the shape that centre is wide, two ends are narrow, the resistance that fluid is subject at the mid portion of the first window wing 51 is greater than the resistance that upper/lower terminal is subject to, therefore fluid is less than the flow of fluid at the two ends up and down of the first window wing 51 at the flow of the mid portion of the first window wing 51, in other words, the rear of the mid portion of the first window wing 51 can produce deletion fluid.Shown in please refer to the drawing 14, no matter from the angle of flow or from the angle analysis of deletion fluid, due to the existence of pressure differential, the fluid of the latter half of the first window wing 51 can flow to along the first gap 50 mid portion of the first window wing 51, the fluid of the first half of the first window wing 51 also can flow to along the first gap 50 mid portion of the first window wing 51 simultaneously, thereby in the vertical direction produces preferably flow-disturbing effect.
When fluid flows through after the first window wing 51, remaining fluid will interact with the second window wing 61, and fluid at this time also should comprise shunting while flowing through the first window wing 51 and next part.Similarly, fluid is subject to the obstruction of the second window wing 61, and on the one hand, fluid can and pass through described the first gap 50 and continue to flow backward to both sides horizontal proliferation; On the other hand, because described the second window wing 61 presents the shape that centre is narrow, two ends are wide, the resistance that fluid is subject at the upper/lower terminal of the second window wing 61 is greater than the resistance that mid portion is subject to, therefore fluid is less than the flow of fluid at the mid portion of the second window wing 61 at the flow of the upper/lower terminal of the second window wing 61, in other words, the rear of the upper/lower terminal of the second window wing 61 can produce deletion fluid.Shown in please refer to the drawing 15, no matter from the angle of flow or from the angle analysis of deletion fluid, due to the existence of pressure differential, the fluid of the mid portion of the second window wing 61 can flow to along the first gap 50 upper end and the lower end of the second window wing 61, thereby in the vertical direction produces preferably flow-disturbing effect.
It is identical respectively that fluid flows through the mode of the 3rd window wing 54 and described four-light wing 64 and effect and the first window wing 51 and the second window wing 61, do not repeat them here.
It should be noted that: although shown the first window wing 51 and the 3rd window wing 54 is hexagon in illustrative embodiments of the present invention, but, centre is wide, two ends are narrow is also all fine as long as meet to be appreciated that other shape (such as D shape, prismatic etc.).Shown in please refer to the drawing 11 to Figure 15, in illustrative embodiments of the present invention, described the first window wing 51 and the second window wing 61 are to be stamped to form by a metallic plate, and the first adjacent window wing 51 and the second window wing 61 are the shape complementarity of punching press place (the first window wing 51 is positioned at the triangle wedge angle of a side and the corresponding triangular groove shape complementarity of the second window wing 61), so arrange, be convenient to manufacture.
In sum, heat exchanger 100 of the present invention and fin 4 thereof, retaining in horizontal disturbance, have strengthened the disturbance of in the vertical direction, and disturbance on vertical direction is two-way, therefore have obvious flow-disturbing effect.This flow-disturbing effect makes the fluid in heat exchanger 100 can keep smaller difference in the temperature of each position, thereby has promoted the heat exchange efficiency of heat exchanger 100 entirety.
It should be noted that: above embodiment is only for illustrating the present invention and unrestricted technical scheme described in the invention, although this description has been described in detail the present invention with reference to the above embodiments, but, those of ordinary skill in the art is to be understood that, person of ordinary skill in the field still can modify or be equal to replacement the present invention, and all do not depart from technical scheme and the improvement thereof of the spirit and scope of the present invention, all should be encompassed within the scope of claim of the present invention.
Claims (10)
1. the fin of a heat exchanger, some the first fin units and some the second fin units that described fin comprises side by side and is arranged alternately, wherein each first fin unit comprises the first window wing towards fluid inflow direction, each second fin unit comprises the second window wing towards fluid inflow direction, described the first window wing and described the second window wing are arranged side by side, described the first window wing and described the second window wing stagger to form the first gap between described the first window wing and described the second window wing on described fluid inflow direction, it is characterized in that: it is wide that at least one in described the first window wing and described the second window wing presents two ends, middle narrow shape or two ends are narrow, middle wide shape.
2. the fin of heat exchanger as claimed in claim 1, is characterized in that: the shape wide in the middle of described the first window wing presents, two ends are narrow, the shape narrow in the middle of described the second window wing presents, two ends are wide.
3. the fin of heat exchanger as claimed in claim 2, is characterized in that: described the first window wing is symmetrical set along its horizontal center line, and described the second window wing is also symmetrical set along its horizontal center line.
4. the fin of heat exchanger as claimed in claim 3, it is characterized in that: described the first window wing and described the second window wing are parallel to each other, described the first window wing and described the second window wing are obliquely installed with respect to fluid inflow direction, and described the first window wing and described the second window wing are one in front and one in back and arrange on fluid inflow direction.
5. the fin of the heat exchanger as described in any one in claim 1 to 4, it is characterized in that: described the first window wing is hexagon, described the first window wing and the second window wing are to be stamped to form by a metallic plate, and the first adjacent window wing and the second window wing are at the shape complementarity of punching press place.
6. the fin of heat exchanger as claimed in claim 5, it is characterized in that: the first bottom that described the first fin unit comprises from horizontally extending first top, top of the first window wing and extends from the bottom level of the first window wing, the second bottom that described the second fin unit comprises from horizontally extending second top, top of the second window wing and extends from the bottom level of the second window wing, described the first top and described the second top are bonded to each other and coplanar, and described the first bottom and described the second bottom are bonded to each other and coplanar.
7. the fin of heat exchanger as claimed in claim 6, is characterized in that: described the first fin unit comprises the 3rd window wing extending from the first top downward, and described the first window wing and described the 3rd window wing are symmetrical arranged; Described the second fin unit comprises the four-light wing extending from the second top downward, and described the second window wing and described four-light wing are symmetrical arranged; Described the 3rd window wing and described four-light wing stagger to form the second gap between described the 3rd window wing and described four-light wing on described fluid inflow direction.
8. a heat exchanger, it comprises bearing, be installed on bearing and intersect stacking setting some the first flow plates and some the second flow plates and be contained in the first flow plate and the second flow plate in some fins, described the first flow plate comprises accommodating the first receiving space of corresponding fin, described the second flow plate comprises accommodating the second receiving space of corresponding fin, it is characterized in that, described fin is the fin of the heat exchanger described in any one in claim 1 to 7.
9. heat exchanger as claimed in claim 8, it is characterized in that: described the first flow plate comprises the first base and is centered around the first framework of described the first base periphery, described the first receiving space is surrounded by described the first base and described the first framework, and described fin adheres on described the first base; Described the second flow plate comprises the second base and is centered around the second framework of described the second base periphery, and described the second receiving space is surrounded by described the second base and described the second framework, and described fin adheres on described the second base; Described the first framework and described the second framework have the projection and the groove that cooperatively interact.
10. heat exchanger as claimed in claim 9, is characterized in that: described the first base is provided with the first plane hole and the first convex surface hole, and described fin is provided with the first breach corresponding to described the first plane hole and described the first convex surface hole; Described the second base is provided with the second plane hole and the second convex surface hole, and described fin is provided with the second breach corresponding to described the second plane hole and described the second convex surface hole; The height of described fin is concordant with described the first convex surface hole and the second convex surface hole.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
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CN201210484380.1A CN103837032B (en) | 2012-11-26 | 2012-11-26 | The fin of heat exchanger and heat exchanger |
PCT/CN2013/082840 WO2014048228A1 (en) | 2012-09-26 | 2013-09-03 | Fin of heat exchanger and heat exchanger |
US14/428,955 US9651315B2 (en) | 2012-09-26 | 2013-09-03 | Fin of heat exchanger and heat exchanger |
DE112013004723.3T DE112013004723T5 (en) | 2012-09-26 | 2013-09-03 | Rib of a heat exchanger and heat exchanger |
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CN201210484380.1A CN103837032B (en) | 2012-11-26 | 2012-11-26 | The fin of heat exchanger and heat exchanger |
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CN103837032A true CN103837032A (en) | 2014-06-04 |
CN103837032B CN103837032B (en) | 2016-09-28 |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106439468A (en) * | 2016-05-30 | 2017-02-22 | 浙江银轮机械股份有限公司 | Turbulent-flow plate for cooler |
CN110388839A (en) * | 2019-05-31 | 2019-10-29 | 胡志鹏 | Heat exchanger and gas fired-boiler |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN106439468A (en) * | 2016-05-30 | 2017-02-22 | 浙江银轮机械股份有限公司 | Turbulent-flow plate for cooler |
CN110388839A (en) * | 2019-05-31 | 2019-10-29 | 胡志鹏 | Heat exchanger and gas fired-boiler |
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Effective date of registration: 20170508 Address after: 310018 No. 301, No. 12, Hangzhou economic and Technological Development Zone, Zhejiang Province Patentee after: Zhejiang Sanhua Automobile Components Co., Ltd. Address before: 310018, Zhejiang, Hangzhou Economic Development Zone Xiasha street, No. 12, No. 289 Patentee before: Hangzhou Sanhua Institute Co., Ltd. |