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CN201302409Y - A flat concave groove heat exchange tube and a heat exchanger employing same - Google Patents

A flat concave groove heat exchange tube and a heat exchanger employing same Download PDF

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Publication number
CN201302409Y
CN201302409Y CNU2008201240784U CN200820124078U CN201302409Y CN 201302409 Y CN201302409 Y CN 201302409Y CN U2008201240784 U CNU2008201240784 U CN U2008201240784U CN 200820124078 U CN200820124078 U CN 200820124078U CN 201302409 Y CN201302409 Y CN 201302409Y
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China
Prior art keywords
heat exchanger
tube
heat exchange
bulge
flat
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CNU2008201240784U
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景建周
沈董浩
汤俊洁
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Meilianqioa Sci & Tech Development Co Ltd Beijing
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Meilianqioa Sci & Tech Development Co Ltd Beijing
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Abstract

The utility model provides a flat concave groove heat exchange tube and a heat exchanger employing same; the heat exchanger is applicable to automobile engine exhaust recirculation system and is used as engine exhaust gas recirculation cooler. The utility model comprises a stainless steel tube body; the height and width of the section shape of the stainless steel tube body are unequal; inwards-concave short concave grooves in parallel arrangement are arranged on the upper and lower surfaces of the tube body; outwards-convex projections are arranged on the upper and lower surfaces between multiple concave grooves. The utility model adopts the combination of concave grooves and projections of the flat concave groove heat exchange tube to enable the heat exchange tube to be uneasy to deform and have stable heat exchange effect under the situation of bearing fierce temperature and pressure changes. The short concave grooves capable of increasing heat exchange efficiency also have the effect of increasing the strength of long shaft direction plane of the flat tube, so as to prevent deformation; projections between tubes are supported on each other to effectively improve the force application situation of the tube walls; the flat tube is ensured to have the minimum deformation; enough space can be maintained between tubes even deformation occurs, so as to facilitate the medium flowing outside tubes.

Description

Flat-shaped groove heat exchange tube and use the heat exchanger of flat-shaped groove heat exchange tube
Technical field
The flat-shaped groove heat exchange tube of the utility model and use the heat exchanger of flat-shaped groove heat exchange tube is a kind of accessory that is used for automobile engine, is a kind of heat exchanger that is applied in the vehicle engine exhaust gas recirculation system as cooler for recycled exhaust gas.
Background technology
The applicating history of heat exchanger is long, but still is in continuous improvement and the development.Heat exchanger is 40%~60% of the whole technological equipment investment of Ying Zhongzhan of industries such as petrochemical industry, machine-building, oil refining, metallurgy, light industry, pharmacy, food, so new type heat exchanger continues to bring out along with improving of science and technology.At automotive field, the engine exhaust recirculated cooling system with cooler also in continuous improvement, with the standard of the motor vehicle exhaust emission that adapts to increasingly stringent.
The application of cooler for recycled exhaust gas is one of automobile industry effective measures of reducing motor vehicle exhaust emission, also is to satisfy state three, state four even more the maximum discharge requirement is required selects a kind of of equipment for use.Waste gas recirculation cooling technology is to add cooler in the gas recirculation system, after the waste gas of the part cycling and reutilization that automobile engine is discharged cools off by cooler for recycled exhaust gas earlier, a kind of technology of burning with the combustion chamber that passes back to engine after fresh air fully mixes again.Because the formation condition of engine NOx is high-temperature oxygen-enriched, and EGR Technology is utilized and is contained a large amount of chemically inactive gas (CO in the waste gas 2, N 2, H 2O) have higher specific heat, gaseous mixture thermal capacity is increased, make the gaseous mixture of the same amount then required heat of same temperature that raises increase, thereby effectively reduce maximum combustion temperature, the high temperature that has departed from NOx generates the district; Waste gas is to the also corresponding concentration that reduces oxygen of the dilution of fresh air on the other hand, thereby suppresses the generation of NOx effectively.Therefore in gas recirculation system, being provided with efficiently, cooler for recycled exhaust gas can make the exhaust emissions amount of automobile satisfy the requirement of strict rules.
At present, the heat exchanger used of vehicle engine exhaust gas recirculation system has two big classes.
The first kind is a plate-fin heat exchanger, form by the fin between polylith thin plate and plate, fin belongs to two subsurfaces of heat transfer, fin has increased the heat transfer gross area, can play the tube sheet spacing again and strengthen the effect of rigidity, this type of heat exchanger structure complexity, manufacturing cost height, its heat exchange efficiency is also higher relatively than traditional shell-and-tube heat exchanger simultaneously, but plate-fin heat exchanger is applicable to the working environment of lower thermic load and low mechanical load.
Second class is a shell-and-tube heat exchanger, and generally traditional shell-and-tube heat exchanger is that many flat pipes (claiming these flat pipes to be tube bank) are set in a cylindrical shell, and cold and hot two kinds of fluids flow through the exchange of carrying out heat from managing interior space (pipe side) and managing the external space (shell-side) respectively; Usually can the shell-side device longitudinal baffle parallel with tube bank or with restrain vertical deflection plate; To improve flow rate of fluid and to strengthen disturbance, improve heat exchange efficiency.This type of heat exchanger structure is simple, but heat exchange efficiency is lower, can improve design to the heat exchanger tube of this traditional shell-and-tube heat exchanger, the final purpose that realizes improving heat exchange efficiency;
At present, the cooler that is applied in gas recirculation system is based on above-mentioned shell-and-tube heat exchanger, be provided with a kind of surface therein and have the heat exchanger tube of the cross section of inwardly protruded helical groove for circle, it is many that heat exchange efficiency has improved relatively, and use more extensive at present.But along with the increasingly stringent of countries in the world automobile emission regulation, the needs of using the heat exchanger of round screw thread groove heat exchange tube improve.
For further improving heat exchange efficiency, the heat exchanger tube of selecting usually in shell-and-tube heat exchanger is a flat tube.The meaning of described flat tube is that the cross section of pipe is non-circular pipe, and the size in cross section has a major axis and a minor axis, and the ratio of major axis and minor axis is greater than 1.The geometry in flat tube cross section can be oval or approximate rectangular, and perhaps two semicircles are middle by multiple shapes such as straight line are formed by connecting, because the heat exchange area that can increase the inside and outside medium of pipe of flat tube.This flat pipe forms broader upper and lower surface on long axis direction, form narrow side surface on short-axis direction.Shell-and-tube heat exchanger can improve heat exchange efficiency by intensive heat exchanger tube is set under normal conditions, but the heat exchanger that uses for vehicle engine exhaust gas recirculation then situation is more special, the environment facies of use are to badly.The waste gas that automobile engine is discharged has two characteristics: the one, and variations in temperature is bigger, heat exchanger was not at normal temperatures when engine started, engine is in case start, temperature in the heat exchanger can continue to raise, even reach the high temperature of hundreds of degree, because automobile engine often is in the variation duty that starts and stop, so that the working environment of the heat exchanger that waste gas recirculation is used also changes is very frequent, this is that the working environment of general heat exchanger is unexistent.Another problem is the cyclically-varying of Tube Sheet of Heat Exchanger internal pressure.Since engine operation air-breathing-compression-acting-exhaust this-in circulating; that is to say that the pressure in the pipe just just occurs in the waste gas recirculation heat-exchanger in engine exhaust; other times pressure is less; certainly actual conditions are to have a plurality of engine cylinder-body wheels to change jobs; even if under the situation that multi-cylinder body wheel changes jobs; pressure in the waste gas recirculation heat-exchanger in the pipe also is continuous variation, and tube wall constantly is subjected to periodic impact, and this also is the unexistent working environment of common heat exchanger.Because temperature and pressure jumpy makes the heat exchanger tube in the waste gas recirculation heat-exchanger extremely be easy to generate distortion.Flat pipe particularly, because the body weakness of the relative short-axis direction of body of flat pipe long axis direction, particularly under the situation of pipe intercycle compression shock, the tube wall of long axis direction is outwards heaved distortion easily.If heat exchanger tube is too intensive, two heat exchanger tubes of heaving just may be crowded together, and stop flowing of the outer heat transferring medium of heat exchanger tube, cause the heat exchange efficiency of heat exchanger integral body to reduce.Need to propose the shortcoming that a kind of novel heat exchanger tube overcomes the heat exchanger tube distortion.
Summary of the invention
The purpose of this utility model is the heat exchanger that proposes a kind of flat-shaped groove heat exchange tube and use flat-shaped groove heat exchange tube, and described flat-shaped groove heat exchange tube is a kind of not yielding in the heat exchanger of intensive heat exchanger tube, heat exchanger tube that can the outer media flow of chock tube.The described heat exchanger tube that described heat exchanger uses.The heat exchanger that described heat exchanger tube constitutes is particularly suited for as heat exchanger in cooler for recycled exhaust gas in the automobile engine system or the turbo charge system.
The purpose of this utility model reaches like this: a kind of flat-shaped groove heat exchange tube, comprise the height of cross sectional shape and the stainless steel body that width does not wait, described body upper and lower surface is provided with the short groove that concaves that is arranged in parallel, and the upper and lower surface between a plurality of grooves is provided with the bulge to outer lug at interval.
A kind of heat exchanger of using above-mentioned flat-shaped groove heat exchange tube comprises: housing, heat exchanger tube, tube sheet, flange, water pipe and support; Described tube sheet is arranged on the two ends of housing, and the described heat exchanger tube mouth of pipe is welded in the through hole of tube sheet reservation, and described heat exchanger tube is the flat-shaped groove heat exchange tube that has to the outer lug bulge, supports mutually by described bulge between the heat exchanger tube.
The beneficial effects of the utility model are: because flat-shaped groove heat exchange tube, the combination setting of its groove and bulge is not being born under the situation that violent temperature and pressure changes heat exchanger tube, and is yielding and produce higher heat exchange effect.The short groove that increases heat exchange efficiency also plays the intensity that increases flat tube long axis direction plane and has suppressed distortion, between the tube and tube improvement that has strong support mutually of bulge the stressing conditions of tube wall, make the distortion minimum of flat tube, even distortion also can leave enough leeway between pipe, help managing flowing of outer medium.In before the design advantage of continuous groove heat exchange tube be, the groove setting of upper and lower surface is joined together to form continuous groove, this flat-shaped heat exchanger tube is equivalent to intermittently be provided with groove to the layout of groove, use the heat exchanger of this mode heat exchanger tube, its heat exchange efficiency can increase than the efficient of using continuous groove heat exchange tube, more prior is by the supporting role of bulge between two pipes up and down, has increased the reliability of heat exchanger tube.
The cross sectional shape of the heat exchanger tube that the utility model adopted is flat-shaped, and upper and lower surface is furnished with many grooves, and is provided with bulge; The flat-shaped heat exchanger tube that area of section is identical is compared with circular heat exchanger tube, and the girth in its cross section increases to some extent, and the heat exchange area of the heat exchanger tube of equal length increases simultaneously, and the heat exchange effect is improved.The design of helical groove on the heat exchanger tube, fluid produce strong turbulent motion in pipe, make dirt suffer fierce erosion in pipe, and be less scaling, is beneficial to cleaning, reduced the heat exchanger maintenance cost; For the heat exchanger of using this heat exchanger tube, heat exchanger tube has not only promoted the disturbance of tube fluid, also have and strengthen to flow and impel and mix full and uniform effect managing outer flow of coolant simultaneously, and the disturbance of extratubal fluid has also been strengthened in the design of the bulge on the heat exchanger tube, and the reliability of using this heat exchanger is increased; Heat exchanger tube is distributed in the housing in sequence, compact and reasonable utilize the limited space of housing, make heat exchanger not only have the simple advantage of shell-and-tube heat exchanger manufacturing, also comprised the high advantage of plate-fin heat exchanger heat exchange efficiency simultaneously; The utility model improves performance as starting point from saving cost, for organically integrating, engine exhaust recirculation refrigeration system and dynamical system provide technology platform, saved between engine air greatly and volume, reduced unnecessary setting effectively, when improving engine performance, greatly save manufacturing cost for the producer.In cooling system for recycled exhaust gas, use this heat exchanger, effectively reduce the discharging of oxynitrides in the automobile exhaust gas.
On the basis of straight round screw thread groove heat exchange tube, by analysis strengthen the factor of fluid heat exchange and the difficulty in the actual processing, designed flat-shaped helical groove heat exchange tube.On this basis, through continuing research, on the basis of this flat-shaped helical groove, carried out the transformation of design, groove is only designed on surface up and down, and every several grooves a bulge just is set, being provided with of bulge can make heat exchanger tube be applied in the heat exchanger, increase the disturbance of cooling agent on the one hand, can support playing an important role on the other hand to the pipe pipe, thereby make flat-shaped heat exchanger tube not yielding, also increase the reliability of heat exchanger.Flat-shaped groove heat exchange tube and use several heat exchangers of this heat exchanger tube is compared with the heat exchanger of present widely used application round screw thread groove pipe, and efficient has improved a lot, can satisfy more maximum discharge standard-required of Ou Siji.
Description of drawings
Below by drawings and Examples, the technical solution of the utility model is elaborated.
Fig. 1 the utility model embodiment one, eight uses the heat exchanger of flat-shaped groove heat exchange tube;
The stereogram of Fig. 2 the utility model embodiment one described flat-shaped groove heat exchange tube;
The partial enlarged drawing of Fig. 3 the utility model embodiment one described flat-shaped groove heat exchange tube;
Fig. 4 adopts the stereogram of continuous helical groove heat exchange tube;
The short groove arrangement schematic diagram of Fig. 5 the utility model embodiment four described flat-shaped groove heat exchange tubes;
The partial enlarged drawing of Fig. 6 the utility model embodiment six described flat-shaped groove heat exchange tube vertical views;
The left view of Fig. 7 the utility model embodiment six described flat-shaped groove heat exchange tubes;
The partial enlarged drawing of Fig. 8 the utility model embodiment six described flat-shaped groove heat exchange tube front views;
The flat-shaped groove heat exchange tube heat exchanger adjacent two flat-shaped groove pipes of Fig. 9 the utility model embodiment nine described uses are arranged;
The flat-shaped groove heat exchange tube heat exchanger adjacent two flat-shaped groove pipes of Figure 10 the utility model embodiment ten described uses are arranged;
The schematic cross-section of Figure 11 the utility model embodiment 11 described flat-shaped groove heat exchange tubes;
The schematic cross-section of Figure 12 the utility model embodiment 12 described flat-shaped groove heat exchange tubes;
The schematic cross-section of Figure 13 the utility model embodiment 13 described flat-shaped groove heat exchange tubes;
The schematic cross-section of Figure 14 the utility model embodiment 14 described flat-shaped groove heat exchange tubes;
The two-tube formula heat exchanger of the flat-shaped groove heat exchange tube of Figure 15 the utility model embodiment 15 described application;
The double-U-shaped heat exchanger of the flat-shaped groove heat exchange tube of Figure 16 the utility model embodiment 16 described application.
The specific embodiment
Embodiment one:
Present embodiment is a kind of flat-shaped groove heat exchange tube, comprise the height of cross sectional shape and the stainless steel body that width does not wait, described body upper and lower surface is provided with the short groove that concaves that is arranged in parallel, and the upper and lower surface between a plurality of grooves is provided with the bulge to outer lug at interval.
Referring to Fig. 1, Fig. 2 and Fig. 3, Fig. 2 is the stereogram of flat-shaped groove heat exchange tube for cross sectional shape, and Fig. 3 is the partial enlarged drawing of flat-shaped heat exchanger tube, and Fig. 1 is for using the heat exchanger of flat-shaped heat exchanger tube.Heat exchanger is mainly by housing 1, heat exchanger tube 2, and tube sheet 3 and water pipe 4 are formed.The tube sheet at housing two ends is provided with EGR gas inlet and waste gas outlet, and housing is provided with coolant entrance and coolant outlet.The cross section of heat exchanger tube is the rectangle that long limit and minor face do not wait, the upper and lower surface of body is furnished with the short groove that is arranged in parallel, can arrange a bulge every several short grooves, after coupling together, the axis of the short groove of upper and lower surface becomes equidistant helix, in the housing that is arranged in heat exchanger of this flat-shaped groove pipe order, compact conformation, flowing of outer fluid in managing all played the effect of strengthening, thereby strengthened the heat exchange efficiency of whole heat exchanger, improve heat exchange efficiency, also strengthened the reliability of heat exchanger.
Embodiment two:
Present embodiment is the improvement of embodiment one, and this spacing of implementing described short groove equates that the axis along long side direction of all short grooves links together and can form the helix of a continuous uniform pitch that centers on body on the body, shown in Fig. 2,3.
Equidistant helical is similar to the helical on the existing employing continuous helical groove heat exchange tube, as shown in Figure 4.Figure 4 shows that the stereogram that adopts flat-shaped continuous helical groove heat exchange tube, this heat exchanger tube has the effect to the mobile reinforcement of outer fluid in managing equally, but compare with the flat-shaped groove pipe in the utility model and to have lacked the bulge setting on the body, thereby when being arranged in the heat exchanger, make not have between the pipe pipe and support, the situation that might have flat-shaped pipe deformation under the high temperature occurs, so just may cause the heat exchange effect to descend, the utility model proposes in order to prevent this phenomenon from taking place, and the reliability that is arranged so that heat exchanger of bulge improves.The described helical of present embodiment is a virtual helical, and the axis along long side direction of all short grooves overlaps with this helical.
The short groove of flat-shaped groove heat exchange tube and the particular design of bulge make that flowing of outer fluid all being strengthened in the pipe, have promoted the turbulent flow of fluid, separation, attenuate and destroyed the boundary layer, thus strengthened heat transfer.The pipe end of heat exchanger tube is a flat segments, and such design makes when heat exchanger tube is welded on the hole corresponding with it on the tube sheet, is easy to processing, more reasonable structure, fastening.Heat exchanger tube 2 is the stainless steel body, equally also the be arranged in parallel short groove 24 of ecto-entad projection of the be arranged in parallel short groove 23 of ecto-entad projection of the body upper surface of heat exchanger tube, body lower surface.23 and 24 couple together to being the helical form of certain lead angle 25, and this lead angle is 20 °, as shown in Figure 3.
Embodiment three:
Present embodiment is the improvement of embodiment two.The scope along the lead angle of the axis of long side direction of short groove described in the present embodiment is 15~30 °.
The lead angle 25 of short groove 23,24 is between 15~30 degree in the present embodiment.The degree of depth of short groove 23,24 is not less than 0.4mm.For example, be respectively 13.5mm and 4mm in the length edge lengths of flat pipe, when wall thickness was 0.3mm, the degree of depth of short groove can be several different numerical value such as 0.6mm, 0.8mm, 1.0mm, 1.2mm.
Embodiment four:
Present embodiment is the improvement of embodiment one, two, three.The setting of the bulge described in the present embodiment is that a plurality of grooves are provided with a bulge at interval, replaces this locational groove with bulge, as shown in Figure 5.
The body upper surface of heat exchanger tube is furnished with bulge 21, and lower surface arrangement has bulge 22, and the heat exchanger tube that the setting of bulge is is arranged in and plays the effect that pipe deformation was supported, prevented to body mutually in the heat exchanger.
Arrange in the shell of heat exchanger that this cross sectional shape is flat-shaped and upper and lower surface all is provided with the particular design of short groove and bulge, no matter for the high-temperature gas that flows through in the pipe still to managing the outer flow of coolant that flows through, strong facilitation is all arranged.Fluid is in flat-shaped groove pipe, except being subjected to the guiding function of the short groove of upper and lower surface, in pipe, rotate along short groove, motion vertically simultaneously, fluid from two different motion directions runs foul of each other, thereby destroyed the boundary layer of fluid, promoted the heat transfer effect between the outer fluid in the pipe; Flowing of heat exchanger tube outer fluid has been subjected to the influence of flat-shaped short groove pipe special construction equally, outer short groove and the bulge of pipe played facilitation to flow of coolant, make that the mixing of cooling agent is more abundant, the enhancing of disturbance makes the turbulent extent of fluid strengthen equally; Under the situation that outer fluid all strengthens in pipe, the heat exchange outstanding effect between the fluid strengthens, and heat exchange efficiency is greatly improved.
Can it is evident that the difference of flat-shaped groove pipe and round screw thread groove heat exchange tube, the flat-shaped cross section of heat exchanger tube, it or not centrosymmetric shape, the geometric center of flat-shaped band helical groove pipe is littler than the distance of round screw thread groove tube and tube wall with the distance of tube wall, most of fluid in the pipe can participate in heat exchange, and the shape of flat pipe makes the disturbance of fluid strengthen, the disturbance of fluid in pipe is more strong, also just strengthened the heat exchange effect, it is fast that thereby the temperature of tube fluid descends, the temperature difference of importing and exporting increases, and has improved heat exchange efficiency.
Figure 5 shows that the vertical view of flat-shaped groove heat exchange tube, Fig. 6 is the partial enlarged drawing of heat exchanger tube vertical view, can see clearly that from Fig. 5 and Fig. 6 the groove 23,24 of upper and lower surface couples together the shape that can form continuous equidistant helical groove.
Figure 7 shows that the left view of flat-shaped groove heat exchange tube, Fig. 8 is the partial enlarged drawing of the front view of flat-shaped heat exchanger tube.The setting of the groove 23,24 of the ecto-entad projection of body upper and lower surface as can see from Figure 7, its degree of depth is identical; Fig. 7 can see the setting of the bulge 21,22 of projection from inside to outside of body upper and lower surface simultaneously, and it is highly identical.The setting that can see groove and bulge from Fig. 8 kind intermeshes, and so just can form helical form.
Embodiment five:
Present embodiment is the improvement of embodiment four.The projecting height of the described bulge of present embodiment is not less than 0.4mm.Because of the effect of bulge except that producing turbulent flow, mainly be in order to play the mutual supporting role with adjacent tubes, because the distance dependent between the heat exchanger tube in the height of bulge and the heat exchanger, the height of bulge is high more, distance is big more between the adjacent heat exchange tubes, thereby has increased the circulation passage of the outer medium of pipe.
Embodiment six:
Present embodiment is the improvement of embodiment five.The described bulge of present embodiment be shaped as short tongue, described short tongue form helix along the axis of long side direction and the axis of each described short groove.
The shape of the described bulge of present embodiment is similar to short groove, and just longitudinal length is shorter, shown in Fig. 5,6.
Embodiment seven:
Present embodiment is the improvement of embodiment five.The described bulge of present embodiment be shaped as circle or ellipse, the center of circle of described circular bulge forms on the helix in the middle bobbin thread of each described short groove; The middle bobbin thread of the long axis ray of described oval bulge and each described short groove forms helix.
Present embodiment is the scheme of two kinds of bulges, and a kind of is circular bulge, and this bulge shape is fairly simple, does certainly conveniently, and cost is lower.
The shape of another kind of bulge is oval, this bulge can play and implement six similar effects.
Embodiment eight:
Present embodiment is a kind of heat exchanger of using the described flat-shaped groove heat exchange tube of the various embodiments described above, comprising: housing, heat exchanger tube, tube sheet, flange, water pipe and support; Described tube sheet is arranged on the two ends of housing, and the described heat exchanger tube mouth of pipe is welded in the through hole of tube sheet reservation, and described heat exchanger tube is the flat-shaped groove heat exchange tube that has to the outer lug bulge, supports mutually by described bulge between the heat exchanger tube, as shown in Figure 1.
The key of present embodiment is to have used the described flat-shaped groove heat exchange tube of the foregoing description, this heat exchanger tube is to the bulge of outer lug, can make between the adjacent heat exchange tubes and support mutually, short groove can suppress the distortion of heat exchanger tube, has overcome the problem of the no bulge flat heat exchanger tube easy deformation of heat exchanger employing.
Embodiment nine:
Present embodiment is the improvement of embodiment eight.The bulge top of the described heat exchanger tube of present embodiment contacts with the bulge top of adjacent heat exchange tubes, as shown in Figure 9.
When heat exchanger tube is arranged in the heat exchanger in the present embodiment, be in contact with one another by bulge between the adjacent tubes.Show among Fig. 9 that two heat exchanger tubes are that bulge and bulge are in contact with one another up and down, the height setting of bulge this moment can be relatively low, and then difficulty of processing also can reduce.
Embodiment ten:
Present embodiment is the improvement of embodiment eight.The bulge top and the adjacent heat exchange tubes of the described heat exchanger tube of present embodiment do not have the part of groove or bulge to contact, as shown in figure 10.
Arrangement shown in Figure 10 when heat exchanger tube connects up and down, is that bulge directly contacts with body, and this moment, the height of bulge can be higher relatively in order to ensure the circulation passage of cooling agent, but this layout makes that the support reliability of pipe pipe is bigger; Therefore, in the application of reality, can select the way of contact between the different adjacent heat exchange tubes as required.
Embodiment 11:
Present embodiment is the improvement of the various embodiments described above, is the improvement in flat-shaped groove heat exchange tube cross section, referring to Figure 11.Figure 11 is a kind of schematic cross-section of flat-shaped groove heat exchange tube, this cross section does not comprise groove and bulge, just simple signal, two relative minor faces are curved projection from inside to outside, and with long limit is that rounding off is connected, such setting makes full use of the surface of heat exchanger tube and realizes the heat exchange of maximal efficiency, and is easy to production and processing.
Embodiment 12:
Present embodiment is the improvement of the various embodiments described above, is the improvement in flat-shaped groove heat exchange tube cross section, referring to Figure 12.Figure 12 is second kind of schematic cross-section of flat-shaped groove heat exchange tube, and cross sectional shape is a rectangle, and connects for arc transition between the adjacent both sides.Remainder is identical with first kind of heat exchanger tube.Production and processing is convenient in such structure setting.
Embodiment 13:
Present embodiment is the improvement of the various embodiments described above, it is the improvement in flat-shaped groove heat exchange tube cross section, referring to Figure 13, Figure 13 is the third schematic cross-section of flat-shaped groove heat exchange tube, the heat exchanger tube cross sectional shape is on the basis of flat heat-exchanging tube, two relative long limits are set to be the arc of projection from inside to outside, and the arc surface of curved projection from inside to outside all is arranged on four surfaces that are about to the stainless steel heat exchanger tube; The arc radius on long limit is far longer than the radius of minor face, can avoid long limit the phenomenon on surface " subsiding " to occur like this; Remainder is identical with first kind of heat exchanger tube.
Embodiment 14:
Present embodiment is the improvement of the various embodiments described above, is the improvement in flat-shaped groove heat exchange tube cross section, referring to Figure 14.Figure 14 is the third schematic cross-section of flat-shaped groove heat exchange tube, and the cross sectional shape of heat exchanger tube is oval; The ratio of oval-shaped major axis and minor axis is less than 4, and remainder is identical with first kind of heat exchanger tube.
Embodiment 15:
Present embodiment is the improvement of embodiment eight.Referring to Figure 15, use the heat exchanger of flat-shaped groove heat exchange tube.This heat exchanger is the two-tube-pass heat exchanger, and fluid is the U-shaped loop flowing of tube side.Heat exchanger is made up of housing 1, heat exchanger tube 2, tube sheet 3, water pipe 4, bobbin carriage 5, end socket 6, deflection plate 7; Wherein, be provided with fixed tube sheet at the two ends of housing, have the fixed via of heat exchanger tube on the tube sheet, the end of heat exchanger tube is welded on respectively on the tube sheet in the corresponding with it hole, and is parallel to each other and is fixed in the housing.
Heat exchanger tube is divided into two journeys by pass partition, first tube side and second tube side, the waste gas outlet end of engine links to each other with the exhaust gas inlet end of first tube side, the waste gas outlet end of first tube side and the exhaust gas inlet end of second tube side, connect with each other by the end socket that is fixed on the housing, the waste gas outlet end of second tube side links to each other with engine intake; And the quantity of the first tube side heat exchanger tube is greater than the quantity of the second tube side heat exchanger tube.The curved curved surface of end socket is beneficial to flowing of waste gas.
In the present embodiment, the waste gas that comes out from engine flows through the heat exchanger tube of first tube side earlier, then flows through the heat exchanger tube of second tube side, and fluid is in the loop of " U " shape of mobile being of tube side.Waste gas is behind subcooler, and the temperature before and after the cooling can differ several Baidu, and the density p of gas has a certain distance when high temperature and low temperature, therefore the variable density of gas is considered that in the design of heat exchanger, then fluid is at the mass flow Q of different tube sides MUnder the prerequisite that remains unchanged, the temperature height when the temperature ratio of waste gas by first tube side time passes through second tube side, the density p of waste gas when first tube side so 1Than the density p when second tube side 2Low, i.e. ρ 1≤ ρ 2, according to hydrodynamics formula Q M1A 1v 12A 2v 2=contant as can be known, roughly the same in order to guarantee average flow velocity v and the drag losses situation of fluid in different tube sides, then the circulation area of first tube side is greater than the circulation area of second tube side, i.e. A 1〉=A 2So the quantity of the heat exchanger tube of first tube side is more than the quantity of the heat exchanger tube of second tube side.So promptly guaranteed under identical mass flow, the pipe quantity of first tube side increases to some extent, resistance descends to some extent, the pipe number of second tube side reduces to some extent, speed increases, and then heat exchange effect strengthens to some extent, finally makes heat exchanger reach higher heat exchange efficiency, also reduce simultaneously the quantity that heat exchanger tube uses, saved material.
Embodiment 16:
Present embodiment is the improvement of embodiment eight.Referring to Figure 16, be the heat exchanger that the double-U type loop of using flat-shaped heat exchanger tube designs, so-called double-U type loop is exactly the tube side of heat exchanger tube and the type of flow that shell side all is designed to U type loop.Heat exchanger is made up of shell 1, heat exchanger tube 2, tube sheet 3, water pipe 4, adpting flange 5, end socket 6, pass partition 7, support 8.The heat exchanger of this double-U type loop, compact conformation, its heat exchange amount can be than other mode height in identical volume range, and the heat exchanger power density of promptly this double-U type loop design is big.
Arrange the heat exchanger tube of flat-shaped groove band helical groove in the heat exchanger, when fluid passes through this heat exchanger tube, run into the inhibition of pipe inside spin boss, flow direction changes, and produces complicated secondary stream vortex flow, has also formed vortex in the back of spiral salient simultaneously, increased the turbulivity of waste gas, especially increased disturbance to the near wall region boundary layer, destroy or attenuate the boundary layer of fluid, thereby strengthened heat exchange; Fluid is by bending channel the time, and the flow direction of fluid takes place by corresponding the variation, has increased the disturbance of fluid equally, has promoted the heat exchange effect of fluid; Simultaneously, the enhancing of flow disturbance makes critical Reynolds number reduce, and promptly takes place ahead of time from the transformation of laminar flow to turbulent flow, and strong turbulent motion makes dirt suffer fierce erosion in pipe, and is less scaling, is beneficial to cleaning.The designed heat exchanger applications of the utility model can improve the discharge performance index of automobile engine greatly in vehicle engine exhaust gas recirculation system, satisfy the environment protection emission requirement of increasingly stringent.As the charge air cooler of automobile engine pressure charging system, can improve the power and the moment of torsion of engine to greatest extent, improve the performance of engine.
Below just shown several typical flat-shaped groove heat exchange tube of the present utility model and used several arrangements in the heat exchanger of flat-shaped groove pipe, wherein can revise about length, number and the heat exchanger tube of heat exchanger tube arrangement mode and the shape of housing and the position that cooling agent is imported and exported in housing; The application of flat-shaped groove heat exchange tube is all strengthened to some extent to the disturbance of outer fluid in managing, and has improved the heat exchange effect of heat exchanger, thereby improves the discharge performance index of automobile engine, satisfies the emission request of the environmental regulation of increasingly stringent.
It should be noted last that, below only unrestricted in order to the explanation the technical solution of the utility model, although the utility model is had been described in detail with reference to the preferred arrangement scheme, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical solution of the utility model (such as shape of the profile of housing, the cross sectional shape of heat exchanger tube, described groove and the number of bulge, described groove and bulge etc.), and not break away from the spirit and scope of technical solutions of the utility model.

Claims (10)

1. flat-shaped groove heat exchange tube, comprise the height of cross sectional shape and the stainless steel body that width does not wait, it is characterized in that described body upper and lower surface is provided with the short groove that concaves that is arranged in parallel, the upper and lower surface between a plurality of grooves is provided with the bulge to outer lug at interval.
2. heat exchanger tube according to claim 1 is characterized in that, the spacing of described short groove equates that the axis along long side direction of all short grooves links together and can form the helix of a continuous uniform pitch that centers on body on the body.
3. flat-shaped groove heat exchange tube according to claim 2 is characterized in that, the scope along the lead angle of the axis of long side direction of described short groove is 15~30 °.
4. according to claim 1,2 or 3 described heat exchanger tubes, it is characterized in that the setting of described bulge is that a plurality of grooves are provided with a bulge at interval, replaces this locational groove with bulge.
5. flat-shaped groove heat exchange tube according to claim 4 is characterized in that the projecting height of described bulge is not less than 0.4mm.
6. flat-shaped groove heat exchange tube according to claim 5 is characterized in that, described bulge be shaped as short tongue, described short tongue form helix along the axis of long side direction and the axis of each described short groove.
7. flat-shaped groove heat exchange tube according to claim 5 is characterized in that, described bulge be shaped as circle or ellipse, the center of circle of described circular bulge forms on the helix in the middle bobbin thread of each described short groove; The axis along long frontier defense line of the long axis ray of described oval bulge and each described short groove forms helix.
8. an application rights requires the heat exchanger of 1 described flat-shaped groove heat exchange tube, comprising: housing, heat exchanger tube, tube sheet, flange, water pipe and support; Described tube sheet is arranged on the two ends of housing, and the described heat exchanger tube mouth of pipe is welded in the through hole of tube sheet reservation, it is characterized in that described heat exchanger tube is the flat-shaped groove heat exchange tube that has to the outer lug bulge, supports mutually by described bulge between the heat exchanger tube.
9. heat exchanger according to claim 8 is characterized in that, the bulge top of described heat exchanger tube contacts with the bulge top of adjacent heat exchange tubes.
10. heat exchanger according to claim 8 is characterized in that, the bulge top and the adjacent heat exchange tubes of described heat exchanger tube do not have the body portion of groove or bulge to contact.
CNU2008201240784U 2008-12-02 2008-12-02 A flat concave groove heat exchange tube and a heat exchanger employing same Expired - Lifetime CN201302409Y (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103635771A (en) * 2011-06-27 2014-03-12 开利公司 Micro-port shell and tube heat exchanger
CN105444470A (en) * 2015-12-24 2016-03-30 潍柴动力股份有限公司 Automobile air conditioning evaporator
CN106196750A (en) * 2016-07-18 2016-12-07 合肥美的电冰箱有限公司 A kind of condenser and refrigerator
DE102017207335A1 (en) * 2017-05-02 2018-11-08 Mahle International Gmbh Exhaust gas heat exchanger
CN110006272A (en) * 2017-12-14 2019-07-12 翰昂汽车零部件有限公司 For the pipeline of gaseous effluent, especially flat tube and gaseous effluent
CN110918779A (en) * 2019-12-26 2020-03-27 江苏统联科技股份有限公司 Production method of heat exchange tube of vehicle exhaust gas recirculation system
US11421949B2 (en) 2017-12-21 2022-08-23 Mahle International Gmbh Flat tube for an exhaust gas cooler

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103635771A (en) * 2011-06-27 2014-03-12 开利公司 Micro-port shell and tube heat exchanger
US9777964B2 (en) 2011-06-27 2017-10-03 Carrier Corporation Micro-port shell and tube heat exchanger
CN105444470A (en) * 2015-12-24 2016-03-30 潍柴动力股份有限公司 Automobile air conditioning evaporator
CN106196750A (en) * 2016-07-18 2016-12-07 合肥美的电冰箱有限公司 A kind of condenser and refrigerator
DE102017207335A1 (en) * 2017-05-02 2018-11-08 Mahle International Gmbh Exhaust gas heat exchanger
CN110006272A (en) * 2017-12-14 2019-07-12 翰昂汽车零部件有限公司 For the pipeline of gaseous effluent, especially flat tube and gaseous effluent
US11421949B2 (en) 2017-12-21 2022-08-23 Mahle International Gmbh Flat tube for an exhaust gas cooler
CN110918779A (en) * 2019-12-26 2020-03-27 江苏统联科技股份有限公司 Production method of heat exchange tube of vehicle exhaust gas recirculation system
CN110918779B (en) * 2019-12-26 2021-03-05 江苏统联科技股份有限公司 Production method of heat exchange tube of vehicle exhaust gas recirculation system

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