AU2003286429A1 - Finned tube for heat exchangers, heat exchanger, apparatus for fabricating heat exchanger finned tube and process for fabricating heat exchanger finned tube - Google Patents

Description

WO2004/053414 PCT/JP2003/015701 DESCRIPTION FINNED TUBE FOR HEAT EXCHANGERS, HEAT EXCHANGER, APPARATUS FOR FABRICATING HEAT EXCHANGER FINNED TUBE AND PROCESS FOR 5 FABRICATING HEAT EXCHANGER FINNED TUBE CROSS REFERENCE TO RELATED APPLICATIONS This application is an application filed under 35 U.S.C. §111 (a) claiming the benefit pursuant to 35 U.S.C. §119(e) (1) 10 of the filing data of Provisional Application No. 60/440,373 filed January 16, 2003 pursuant to 35 U.S.C. §111(b). TECHNICAL FIELD The present invention relates to heat exchanger finned 15 tubes for use in fabricating heat exchangers useful as evaporators of refrigeration devices such as refrigerators and refrigerated showcases, heat exchangers, an apparatus for fabricating the heat exchanger finned tube and a process for fabricating the heat exchanger finned tube. 20 BACKGROUND ART For use in refrigerators and refrigerated showcases, studies are recently under way on the replacement of chlorofluorocarbon refrigerants by hydrocarbon refrigerants 25 which are less likely affect the depletion of the ozone layer or global warming. Since hydrocarbon refrigerants are inflammable, leakage of the refrigerant must be diminished to the greatest possible extent.

I

WO2004/053414 PCT/JP2003/015701 Heat exchangers adapted to prevent leaks of the refrigerant are known which are fabricated by arranging a plurality of fin groups at a spacing, each of the fin groups comprising parallel plate fins each having two pipe inserting 5 holes, inserting two straight outer pipes through the respective holes of all the plate fins, forcing a pipe enlarging tool through the outer pipes to enlarge the pipes and fixedly fit the plate fins around the outer pipes, inserting two straight pipe portions of an inner pipe in the form of a hairpin and 10 comprising a pipe having no weld seam into the respective outer pipes, and bending the outer pipes and the straight pipe portions of the inner pipe at portions between the adjacent fin groups to form the pipe assembly in a zigzag shape in its entirety (see the publication of JP-A No. 2001-124485). 15 Since the inner pipe has no weld seam, the fluid flowing through the inner pipe, i.e., the refrigerant when the conventional heat exchanger is used as the evaporator of a refrigeration device, is prevented from leaking. Further with the conventional heat exchanger, the inner 20 pipe is not enlarged by the pipe enlarging tool, so that inner fins can be formed on the inner peripheral surface thereof integrally therewith, hence an increased heat transfer area to result in an improved heat exchange efficiency. However, the conventional heat exchanger has the problem 25 of requiring a high material cost and having great weight in its entirety since the outer pipes and the inner pipe must be used. The heat exchanger has another problem in that the insertion of the straight pipe portions of the inner pipe into 2 WO2004/053414 PCT/JP2003/015701 the outer pipes requires cumbersome work. Moreover, it is impossible to greatly reduce the difference between the outside diameter of the inner pipe straight portions and the inside diameter of the outer pipes so as to render the inner pipe 5 straight portions insertable into the outer pipes with an improved work efficiency. This entails the problem of impaired intimate contact between the pipe portion and the outer pipe to result in a lower heat transfer efficiency and a lower heat exchange efficiency. 10 With the conventional heat exchanger described, an adhesive orcompoundofhighheattransferpropertiesisprovided between the inner pipe straight portion and the outer pipe so as to ensure improved heat transfer therebetween. The heat exchangerthereforehastheproblemthattheadhesiveorcompound 15 is cumbersome to apply. Accordingly, to overcome these problems, it is thought useful to provide a heat exchanger by arranging a plurality of fin groups at a spacing, each of the fin groups comprising parallel plate fins each having two tube inserting holes, 20 insertingtwostraighttubeportionsofahairpintubecomprising a tube having no weld seam through the respective holes of all the plate fins, forcing a pressure fluid into the hairpin tube to enlarge the tube, fixedly fit the plate fins around the straight tube portions of the hairpin tube and form a heat 25 exchanger finned tube, and bending the hairpin tube straight portions of the finned tube at portions between the adjacent fin groups to form the finned tube in a zigzag shape in its entirety. 3 WO2004/053414 PCT/JP2003/015701 However, this heat exchanger has the problem that the hairpin tube ruptures at a finless portion thereof which has no fins when the tube is enlarged with the pressure fluid. An object of the present invention is to overcome the 5 above problems and to provided a heat exchanger finned tube which is adapted to diminish the leakage of refrigerant and to exhibit the desired refrigeration performance and which can be prevented from rupturing during fabrication, a heat exchanger, an apparatus for fabricating the heat.exchanger 10 finned tube and a process for fabricating the heat exchanger finned tube. DISCLOSURE OF THE INVENTION The present invention provides a first heat exchanger 15 finned tube which has a fin fixing tube having a straight tube portion and comprising a tube having no weld seam, and a fin group comprising a plurality of parallel plate fins fixed to the straight tube portion of the fin fixing tube, the straight tube portion having at least one finless part provided with 20 no fin group, each of the plate fin having a tube inserting hole, the fin fixing tube having its straight tube portion inserted through the holes of the plate fins and being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portion, the finless part of the straight 25 tube portion having an outer peripheral surface bearing annular clamp marks left by clamping the straight tube portion over the entire circumference thereof when the fin fixing tube is enlarged. 4 WO2004/053414 PCT/JP2003/015701 The heat exchanger finned tube of the present invention has a fin fixing tube comprising a tube having no weld seam, so that the heat exchanger fabricated with use of this finned tube is adapted to diminish the leakage of fluids, e.g., 5 refrigerant. Hydrocarbon refrigerants are therefore usable which are less likely to affect the depletion of the ozone layer or global warming. Since the plate fins are fixedly fitted around the straight tube portion of the fin fixing tube by enlarging the tube with use of a fluid, the desired 10 refrigeration efficiency (heat exchange efficiency) can be achieved even when the fin fixing tube has inner fins projecting from the inner peripheral surface thereof to a relatively great height so as to obtain an increased area of heat transfer, without the likelihood that the inner fins will be collapsed 15 when the tube is enlarged. Furthermore, the finless part of the straight tube portion bears annular clamp marks which are left on the outer peripheral surface thereof by clamping the tube portion over the entire circumference thereof during enlargement. This indicates that the finless part is clamped 20 over the entire circumference thereof by some means when the fin fixing tube is enlarged with the fluid. The straight tube portion is therefore prevented from rupturing during enlargement. With the heat exchanger finned tube according to the 25 invention, the fin fixing tube may be in the form of a hairpin, with a plurality of fin groups arranged on two straight tube portions of the fin fixing tube longitudinally thereof at a spacing, eachofthefingroupscomprising a pluralityofparallel 5 WO2004/053414 PCT/JP2003/015701 plate fins extending across and fixed to the two straight tube portions, each of the plate fins having two tube inserting holes spaced apart from each other, the fin fixing tube having its straight tube portions inserted through the respective 5 holes of the plate fins, the two straight tube portions of the fin fixing tube each having the finless part between each pair of adjacent fin groups. With the heat exchanger finned tube according to the invention, the finless part may be in excess of 5 mmin length, 10 and portions bearing no clamp mark and included in the finless part may be up to 5 mm in length. The fin fixing tube can then be enlarged while being prevented from rupturing reliably. With the heat exchanger finned tube according to the invention, the fin fixing tube may be integrally provided on 15 an inner peripheral surface thereof with inner fins extending longitudinally thereof and arranged at a spacing circumferentially thereof. Thus, the fin fixing tube has inner fins formed on the inner peripheral surface thereof integrally therewith, extending longitudinally of the tube 20 and arranged circumferentially thereof at a spacing. This gives an increased area of heat transfer to the fin fixing tube to improve the heat exchange efficiency of the heat exchanger to be fabricated using the finned tube. With the heat exchanger finned tube according to the 25 invention, the fin fixing tube may have high and low two kinds of inner fins alternately arranged circumferentially thereof and projecting from the inner peripheral surface of the tube to different heights, the high inner fins being 0.7 to 1.7 6 WO2004/053414 PCT/JP2003/015701 mm in height from the surface of the fin fixing tube, the low inner fins being 0.4 to 1.2 mm in height from the surface. All the inner fins may be equal in height and 0.7 to 1.2 mm in height from the inner peripheral surface of the fin fixing 5 tube. In either case, it is desirable that the pitch of the inner fins be 0.4 to 1.6mm. These features effectively improve the heat exchange efficiency of the heat exchanger to beproduced with use of the finned tube. The present invention provides a first heat exchanger 10 comprising a heat exchanger finned tube which has a fin fixing tube having a straight tube portion and comprising a tube having no weld seam, anda fin group comprising apluralityofparallel plate fins fixed to the straight tube portion of the fin fixing tube, the straight tube portion having at least one finless 15 part provided with no fin group, each of the plate fin having a tube inserting hole, the fin fixing tube having its straight tube portion inserted through the holes of the plate fins and being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portion, the finless part 20 of the straight tube portion having an outer peripheral surface bearing annular clamp marks left by clamping the straight tube portion over the entire circumference thereof when the fin fixing tube is enlarged, the heat exchanger finned tube being bent at said at least one finless part of the straight tube 25 portion of the fin fixing tube. The present invention provides a second heat exchanger comprising a heat exchanger finned tube which has a fin fixing hairpin tube having two straight tube portions and comprising 7 WO 2004/053414 PCT/JP2003/015701 a tube having no weld seam, and a plurality of fin groups arranged on the two straight tube portions of the fin fixing tube longitudinally thereof at a spacing, each of the fin groups comprising a pluralityofparallelplate fins extending across 5 and fixed to the two straight tube portions, each of the straight tube portions having at least one finless part provided with no fin group, each of the plate fins having two tube inserting holes spaced apart from each other, the fin fixing tube having its straight tube portions inserted through the respective 10 holes of the plate fins and being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portions, the two straight tube portions of the fin fixing tube each having the finless part between each pair of adjacent fin groups, the finless part of each straight tube portion 15 having an outer peripheral surface bearing annular clamp marks left by clamping the straight tube portion over the entire circumference thereof when the fin fixing tube is enlarged, the finned tube being formed in a zigzag shape in its entirety by bending in the same direction each pair of finless parts 20 located in the same position with respect to the longitudinal direction of the straight tube portions of the fin fixing tube, and bending in different directions each pair of finless parts adjacent to each other longitudinally of the straight tube portions. 25 These heat exchangers have the same advantage as already described with reference to the heat exchanger finned tube. The present invention provides a refrigerator which comprises a refrigeration cycle having a compressor, a condenser 8 WO 2004/053414 PCT/JP2003/015701 and an evaporator, the evaporator being a heat exchanger according to claim 8 or 9, and wherein ahydrocarbonrefrigerant is used as the refrigerant. With this refrigerator, the refrigerant is circulated preferably at a rate of 1 to 9 kg/h. 5 The present invention provides a refrigerated showcase which comprises a refrigeration cycle having a compressor, a condenser and an evaporator, the evaporator being one of the heat exchangers described above, and wherein a hydrocarbon refrigerant is used as the refrigerant. With this showcase, 10 the refrigerant is circulated preferably at a rate of 1 to 9 kg/h. The present invention provides an apparatus for producing a heat exchanger finnedtube comprising a fin setting jig composed of a plate base and a plurality of fin support plates provided 15 upright on the plate base and arranged in parallel at a spacing, tube clamp lower plates arranged in respective fin setting clearancesbetweenadjacentfinsupportplatesofthefinsetting jig, tube clamp upper plates arranged on the respective lower plates between the adjacent fin support plates and a pressure 20 member for pressing the upper plates downward, each of the fin support plates having a cutout formed in an upper edge thereof for a straight tube portion of a fin fixing tube to fit in, each pair of corresponding tube clamp upper and lower plates having a through hole formed therebetween for inserting 25 the straight tube portion of the fin fixing tube therethrough, the through hole having an inside diameter not smaller than the outside diameter of the fin fixing tube. The production apparatus of the present invention has 9 WO2004/053414 PCT/JP2003/015701 a relatively simple construction and is nevertheless capable of producing a heat exchanger finned tube. The tube clamp upper and lower plates act to clamp the straight tube portion of the fin fixing tube to be enlarged with a fluid, preventing 5 the tube from rupturing during enlargement. Moreover, the apparatus is low in cost. The straight tube portion of the fin fixing tube can be prevented from rupturing while being enlarged with use of the fluid, by restraining the finless part with a restraining die approximately over the entire length 10 thereof, but the apparatus then becomes costly. The finless part of the heat exchanger finned tube may differ in length with the type of heat exchanger, and production of finned tubes having finless parts of varying lengths necessitates preparationof restraining dies specifically for the respective 15 finless parts of different lengths to result in increases in cost. With the production apparatus of the present invention, on the other hand, the tube to be enlarged can be prevented from rupturing merely by varying the number of tube clamp lower plates to be arranged in the fin setting clearances of the 20 fin setting jig and the number of upper plates to be arranged on the lower plates even when the heat exchanger finned tube tobeproduced has a finlesspartofalteredlength. Accordingly upper and lower plates need only to be prepared in an increased number. This results in a lower cost than when various metal 25 members must be prepared for specific use. In the heat exchanger finned tube production apparatus of the invention, each of the fin support plates may have two cutouts formed as spaced apart in the upper edge thereof for 10 WO2004/053414 PCT/JP2003/015701 two straight tube portions of a fin fixing hairpin tube to fit in, and each pair of corresponding tube clamp upper and lower plates may have two through holes formed therebetween for inserting the two straight tube portions of the fin fixing 5 tube therethrough, the through holes having the same pitch as the two cutouts. In this case, the heat exchanger finned tube wherein the fin fixing tube is in the form of a hairpin as described above can be produced at a low cost without permitting the rupture of the straight tube portions of the 10 tube. In the heat exchanger finned tube production apparatus of the invention, the plate base of the fin setting jig may comprise a plurality of base units arranged in series, with fin support plates provided upright on each of the base units. 15 When the fin fixing tube to be used has a straight tube portion of altered length, the apparatus is usable for this tube by altering the number of base units. In the heat exchanger finned tube production apparatus of the invention, the tube clamp upper and lower plates may 20 each have a thickness of 0.8 to 1.0 mm. The fin fixing tube to be enlarged with use of a fluid can then be prevented from rupturing reliably. The present invention provides a process for producing the heat exchanger finned tube according to the invention and 25 described above which process includes preparing a fin fixing tube having a straight tube portion and comprising a tube having no weld seam, and a plurality of plate fins each having a tube inserting hole, arranging the plate fins in respective fin 11 WO2004/053414 PCT/JP2003/015701 setting clearances arranged in succession at a portion where a fin group is to be provided, among fin setting clearances between all fin support plates of the production apparatus described above, arranging tube clamp lower plates in the 5 respective fin setting clearances having no plate fin disposed therein, inserting the straight tube portion of the fin fixing tube through the tube inserting holes of the plate fins and fitting the straight tube portion into cutouts of the fin support plates to provide on the straight tube portion a fin group 10 comprising the plate fins as arranged in parallel and a finless part, arranging tube clamp upper plates on the respective tube clamp lower plates, with the straight tube portion of the tube extending through a hole formed between each pair of corresponding upper and lower plates, pressing the upper 15 plates downward by a pressure member, and introducing a fluid into the fin fixing tube to enlarge the tube and fixedly fit the plate fins of the fin group around the straight tube portion. In the case where the heat exchanger finned tube comprising a fin fixing hairpin tube and described above is to be produced 20 by the process of the invention, a production apparatus is used wherein each of fin support plates has two cutouts formed in the upper edge thereof for the two straight tube portions of the fin fixing hairpin tube to fit in, and each pair of corresponding tube clamp upper and lower plates have two through 25 holes formed therebetween for inserting the two straight tube portions of the fin fixing tube therethrough, the through holes having the same pitch as the two cutouts. The heat exchanger finned tube is produced by a process which includes preparing 12 WO2004/053414 PCT/JP2003/015701 a fin fixing hairpin tube comprising a tube having no weld seam, and plate fins each having two tube inserting holes, arranging the plate fins in respective fin setting clearances arranged in succession at portions where respective fin groups 5 are to be provided, among fin setting clearances between all fin support plates of the production apparatus described above, arranging tube clamp lower plates in the respective fin setting clearances having no plate fin disposed therein, inserting two straight tube portions of the fin fixing tube through the 10 respective tube inserting holes of each of the plate fins and fittingthestraighttubeportions respectivelyintotwocutouts of each of the fin support plates to provide fin groups each comprising a plurality of plate fins as arranged in parallel and finless parts, arranging tube clamp upper plates on the 15 respective tube clamp lower plates, with the straight tube portions of the tube extending respectively through two holes formed between each pair of corresponding upper and lower plates, pressing the upper plates downward by a pressure member, and introducing a fluid into the fin fixing tube to 20 enlarge the tube and fixedly fit the plate fins of the fin groups around the straight tube portions. In the heat exchanger finned tube production process of the invention, suppose the hole formed between the corresponding tube clamp upper and lower plates has an inside 25 diameter D, and the straight tube portion of the fin fixing tube before enlargement has an outside diameter d. These diameters preferably have the relationship of d D d + 0.4 mm. Further with the process of the invention, suppose the 13 WO 2004/053414 PCT/JP2003/015701 combined area of contact of the tube clamp upper plates with the fin fixing tube is A, and the pressure of the fluid introduced into the fin fixing tube is P. Preferably, the force to be applied by the pressure member for pressing the 5 upper plates downward is set at not smaller than A X P. In these cases, the fin fixing tube can be enlarged with use of a fluid while being reliably prevented from rupturing. With the heat exchanger finned tube production process of the invention, the fin fixing tube may be integrally provided 10 on an inner peripheral surface thereof with inner fins extending longitudinally thereof and arranged at a spacing circumferentially thereof. Since the plate fins of the fin groups are fixedly fitted around the straight tube portions of the fin fixing tube by introducing a fluid into the tube 15 for enlargement, the inner fins are prevented from collapsing during enlargement, enabling the heat exchanger to be produced with use of the finned tube to achieve a high heat exchange efficiency. With the heat exchanger finned tube production process 20 of the invention, the fin fixing tube has high and low two kinds of inner fins alternately arranged circumferentially thereof and projecting from the inner peripheral surface of the tube to different heights, the high inner fins being 0.7 to 1.7 mm in height from the surface of the fin fixing tube, 25 the low inner fins being 0.4 to 1.2mm in height fromthe surface. Further with the heat exchanger finned tube production process of the invention, all the inner fins are equal in height and 0.7 to 1.2 mm in height from the inner peripheral surface of 14 WO2004/053414 PCT/JP2003/015701 the fin fixing tube. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view partly broken away and showing a 5 heat exchanger finned tube according to the invention. FIG. 2 is an enlarged view in section taken along the line II-II in FIG. 1. FIG. 3 is an enlarged fragmentary view in section of the finned tube of FIG. 1. FIG. 4 is an enlarged perspective viewpartlyshowinganapparatus forproducingtheheatexchanger 10 finned tube according to the invention. FIG. 5 is a view in vertical longitudinal section and partly showing a fin fixing tube and fins set in the apparatus of FIG. 4. FIG. 6 is a view in section taken along the line VI-VI in FIG. 5 and partly cut away. FIG. 7 is a view in horizontal section and partly 15 broken away to show a process for producing the finned tube of FIG. 1 before the fin fixing tube is enlarged. FIG. 8 is a sectional view corresponding to FIG. 5 and partly showing the fin fixing tube as enlarged in producing the finned tube of FIG. 1. FIG. 9 is a fragmentary perspective view showing 20 a process for fabricating a heat exchanger from the heat exchanger finned tube. FIG. 10 is a perspective view showing the overall construction of the heat exchanger of the invention. FIG. 11 is a sectional view corresponding to FIG. 2 and showing another embodiment of heat exchanger finned tube. 25 BEST MODE OF CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. The term "aluminum" 15 WO2004/053414 PCT/JP2003/015701 as used in the following description includes aluminum alloys in addition to pure aluminum. Further in the following description, the left-hand sides of FIG. 1 will be referred to as "front," the right-hand side thereof as "rear," and the 5 upper and lower sides and left- and right-hand sides of FIGS. 2 and 6 as "upper," "lower," "left" and "right", respectively. FIGS. 1 to 2 show a finned tube for use in heat exchangers, FIGS. 4 to 8 show an apparatus and a process for producing the finned tube, and FIG. 9 shows a process for fabricating 10 a heat exchanger with the use of the finned tube. Further FIG. 10 shows the overall construction of the heat exchanger fabricated using the finned tube. With reference to FIG. 1, a finned tube 10 for use in heat exchangers comprises a fin fixing hairpin tube 11 made 15 of aluminum and comprising a tube having no weld seam, such as an extruded tube, and a plurality of fin groups 12 arranged on two straight tube portions ila of the tube 11 longitudinallythereofat a spacing. Thestraighttubeportions lla each have a finless part 13 between each pair of adjacent 20 fin groups 12 thereon. The fin group 12 comprises a plurality of parallel aluminum plate fins 14 extending across and fixed to the two straight tube portions ila of the fin fixing tube 11. With reference to FIG. 2, the fin fixing tube 11 is 25 integrally provided with high and low two kinds of inner fins 15, 16 projecting from the inner peripheral surface of the tube to different heights, extending longitudinally thereof, and alternately arranged circumferentiallythereof at a spacing. 16 WO2004/053414 PCT/JP2003/015701 The inner fins 15, 16 project toward the center of the tube 11. The high inner fins 15 are 0.7 to 1.7 mm in height hl as measured from the inner peripheral surface of the tube 11, and the low inner fins 31 are 0.4 to 1.2 mm in height h2 as 5 measured from the surface of the tube 11. The pitch p of the inner fins 15, 16 is 0.4 to 1.6 mm. The pitch p of the inner fins 15, 16 is the circumferential distance, as measured in cross section on the outer periphery of the tube 11, between two straight lines connecting the center line of the tube 11 10 and the centers of the thicknesses of a pair of adjacent inner fins 15, 16. The fin fixing tube 11 is 6 to 10 mm in outside diameter of the portion thereof where plate fins 14 are fixed, and 0.4 to 0.8 mm in the thickness of the circumferential wall thereof. 15 The tube 11 has a bent portion llb which is enlarged in its entirety and given the same diameter as the part of the straight tube portion 1la to which part the plate fins 14 are fixed to provide the fin group 12 at one end (rear end) of the tube portion 1la close to the bent portion llb. The fin 20 fixing tube 11 has a restrained small-diameter portion 17 having an outside diameter equal to or about 0.2 to 0.3 mm larger than that of the fin fixing tube 11 before enlargement, at a part closer to an opening thereof than the fin group 12 at an open end portion (front end portion) of the tube 11. 25 The restrained small-diameter portion 17 has a length which is preferably, for example, at least 15 mm. The portion 17 is provided at each of its opposite ends with a tapered part 18 which is flared leftwardly or rightwardly outward. 17 WO 2004/053414 PCT/JP2003/015701 Each of the plate fins 14 has two tube inserting holes 14a each provided with a collar 14b therearound. The two straight tube portions Ila of the fin fixing tube 11 are inserted through the respective holes 14a of all the plate fins 14, 5 and the plate fins 14 are fixedly fitted around the straight tube portions 1la by enlarging the tube fixing tube 11 with a fluid such as water, oil or air. The finless parts 13 are in excess of 5 mm in length, and annular clamp marks 19 are produced on each finless part 10 at a spacing longitudinally of the straight tube portion ila. The spacing X (see FIG. 3) between each pair of adjacent clamp marks 19 on the finless part 13 and the distance between the clamp mark 19 and the plate fin 14 which are positioned at each end of the finless portion 13 are each up to 5 mm, with 15 the result that the portions of the finless part 13 bearing no clamp mark 19 are not greater than 5 mm in length. The portions bearing no clamp mark 19 are limited to not greater than 5 mm in length so as to reliably prevent the fin fixing tube 11 from rupturing during enlargement. When the clamp 20 mark 19 is observedmicroscopically, the entire circumferential wall of the straight tube portion lla is slightly recessed at the marked part from the other part as shown in FIG. 3. The finned tube 10 for use in heat exchangers is produced as shown in FIGS. 4 to 6 using the production apparatus shown 25 in these drawings. With reference to FIGS. 4 to 6, the production apparatus comprises a fin setting jig 20 composed of a forwardly or rearwardly elongated plate base 21 and a plurality of parallel 18 WO2004/053414 PCT/JP2003/015701 fin support plates 22 provided upright on the plate base 21 and arranged at a spacing in the forward or rearward direction, tube clamp lower plates 24 arranged in respective fin setting clearances 23 between the adjacent fin support plates 22 of 5 the jig 20, tube clamp upper plates 25 provided on the lower plates 24 arranged between the adjacent fin support plates 22, and a platelike pressure member 26 for pressing the upper plates 25. The plate base 21 comprises a plurality of base units 10 21A arranged in series in the forward or rearward direction. Fin support plates 22 are provided upright on each of the base units 21A. Two cutouts 22a which are generally U-shaped for fitting the straight tube portions lla of the tube 11 therein are formed in the upper edge of each support plate 22 and spaced 15 apart leftward or rightward, i.e., laterally. The upper and lower plates 25, 24 are made, for example, of JIS SUS 304 and have a thickness preferably of 0.8 to 1.0 mm. If the upper and lower plates 25, 24 are less than 0.8 mm in thickness, conspicuous marks remain on the outer peripheral surface of 20 the fin fixing tube as enlarged, while if the thickness is in excess of 1.0 mm, great fluid pressure will act on the plates 25, 24, giving rise to the necessity of increasing the load resistance of the plates. The upper edge of the tube clamp lower plate 24 and the lower edge of the upper plate 25 are 25 each provided with two semicircular cutouts 24a or 25a as spaced apart laterally, whereby two circular through holes 27 for inserting the respective straight tube portions lla of the fin fixing tube 11 therethrough are formed between the upper 19 WO2004/053414 PCT/JP2003/015701 and lower plates 25, 24 with the same pitch as the two cutouts 22a in the fin support plate 22. The through holes 27 have an inside diameter not smaller than the outside diameter of the tube 11 before enlargement. Stated more specifically, 5 suppose the inside diameter of the holes 27 is D, and the outside diameter of the straight tube portions lla of the tube 11 is d before enlargement. It is then desired that these diameters have the relationship of d D d + 0.4 mm because if d > D, the tube 11 can not be inserted through the holes 27, and 10 further because if D >d+ 0.4mm, the tube 11 can not be reliably prevented from rupturing when the tube 11 is enlarged with use of a fluid. Prepared for the production of a heat exchanger finned tube 10 are a fin fixing aluminum tube 11 in the form of a 15 tube having no weld seam, and a multiplicity of aluminum plate fins 14 each having two tube inserting holes 14a as spaced apart. The plate fins 14 are arranged in the respective fin setting clearances 23 arranged in succession at the portions where fin groups 12 are to be provided, among the fin setting 20 clearances 23 between all the fin support plates 22 of the production apparatus described above. Subsequently, the tube clamp lower plates 24 are arranged in the respective fin setting clearances 23 having no plate fin 14 disposed therein. At this time, the spacing between each pair of adjacent lower 25 plates 24 and the distance between the lower plate 24 and the plate fin 14 at each of opposite ends of the arrangements are adjustedtonot greaterthan 5mm. The twostraighttubeportions 11a of the fin fixing tube 11 are then inserted through the 20 WO 2004/053414 PCT/JP2003/015701 respective tube inserting holes 14a of all the plate fins 14 and fitted into the respective cutouts 22a of the fin support plates 22 to provide fin groups 12 each comprising a plurality of parallel plate fins 14 extending across the two straight 5 tube portions lla and finless parts 13. The tube clamp upper plates 25 are then arranged on the respective lower plates 24, with the straight tube portions lla of the tube 11 extending through the respective through holes 27 formed between the pairs of plates 24, 25. The upper plates 25 are thereafter 10 pressed downward by the pressure member 26 (see FIGS. 4 to 6). Suppose the combined area of contact of the tube clamp upper plates 25 with the fin fixing tube 11 is A [m 2 ], and the pressure of the fluid introduced into the fin fixing tube 11 is P [Pa]. The force to be applied by the pressure member 15 26 for pressing the upper plates 25 downward is then set at not smaller than A X P [N]. Incidentally, the outside diameter of the fin fixing tube 11 before enlargement, the wall thickness of the tube 11, the inside diameter of the tube inserting holes 27 of the plate 20 fins 14 and the inside diameter of the through holes 27 formed between the tube clamp upper and lower plates 25, 24 are, for example, 8.0 mm, 0.61 mm, 8.3 mm and 8.4 mm, respectively. Further as shown in FIG. 7, the bent portion llb of the fin fixing tube 11 is restrained by a restraining die 28. 25 This die 28 has a U-shaped cavity 29 having a circular cross section. The cavity 29 has an inside diameter larger than the outside diameter of the tube 11 before enlargement and equal to the inside diameter of the tube inserting holes 14a 21 WO 2004/053414 PCT/JP2003/015701 of the plate fins 14. Furthermore, opposite ends of the fin fixing tube 11 are restrained by a tube chucking die 31, and a fluid pressure seal block 32 is joined to the die 31 in intimate contact therewith. The tube chucking.die 31 has cavities 33, 5 i.e., two hollow cylindrical restraining portions 33a spaced apart transversely of the tube 11 and having an inside diameter equal to the outside diameter of the tube 11 before enlargement, two tapered portions 33b communicating with respective opposite ends ofeachofthe restraining portions33a andhaving a diameter 10 increasing laterally outward, and a tube enlargement permitting portion 33c in the form of a hollow short cylinder, communicating with the larger end of each tapered portion 33b and not smaller than the tube inserting holes 14a of the plate fins 14 in inside diameter. The seal block 32 has two fluid inlet channels 34 15 which are spaced apart laterally. The front half of each of the inlet channels 34 has an inside diameter smaller than the outside diameter of the tube 11 before enlargement. The rear half of the channel 34 has a large-diameter portion 34a adjacent to the front half with a stepped portion provided therebetween. 20 The large-diameter portion 34a is equal to the enlargement permitting portion 33c of the tube chucking die 31 in inside diameter. The ends of the tube 11 are inserted into the large-diameter portions 34a of the fluid inlet channels 34 of the fluid pressure seal block 32, and their end faces are 25 in intimate bearing contact with the stepped portions. In this state, a pressure fluid comprising, for example, water, oil or air is introduced into the fin fixing tube 11 from the fluid inlet channels 34 of the seal block 32, enlarging 22 WO2004/053414 PCT/JP2003/015701 the tube 11 except at the portions thereof restrained by the restraining portions 33a of the tube chucking die 31 to fixedly fit the plate fins 14 of the fin groups 12 around the straight tube portions ila of the tube 11. During this enlargement, 5 clamp marks 19 are left by the tube clamp upper and lower plates 25, 24 (see FIG. 8). In this way, the heat exchanger finned tube 10 is produced. In the process described, the straight tube portions 1la of the fin fixing tube 11 are clamped at the finless parts 10 13 by the upper and lower plates 25, 24 during enlargement as described above and are therefore prevented from rupturing. Furthermore, the inner fins 15, 16 are prevented from collapsing since the tube is enlarged with the pressure fluid. As shown in FIG. 9, the heat exchanger finned tube 10 15 is bent at the finless parts 13 between the adjacent fin groups 12, whereby the tube is formed zigzag in its entirety. FIG. 10 shows a heat exchanger 1 thus fabricated for use as an evaporator in refrigerators or refrigerated showcases. Stated more specifically, the straight tube portions 1la are bent 20 in the same direction at the finless parts 13 which are located in the same position with respect to the longitudinal direction of the straight tube portions la so that a straight line through the lengthwise centers of the parts 13 will be the center of the curvature, and each pair of finless parts 13 adjacent to 25 each other longitudinally of the straight tube portions Ila are bent in different directions, whereby the tube 11 is bent zigzag in its entirety. With reference to FIG. 10, the heat exchanger 1 comprises 23 WO2004/053414 PCT/JP2003/015701 a zigzag heat exchange tube 2 comprising a fin fixing tube 11 bent zigzag, and fin groups 12 provided around the straight tube portions 2a of the zigzag heat exchange tube 2 and each comprising a plurality of parallel plate fins 14. Aplurality 5 of bent portions 2b at the left and right sides of the zigzag heat exchange tube 2 each comprise a finless part 13. Although not shown, the bent portions 2b of the tube 2 at the left and right are held by respective side plates. The heat exchanger 1 is used as the evaporator of a 10 refrigeratorwhich isprovidedwitha refrigeration cycle having a compressor, condenser and evaporator, and wherein a hydrocarbon refrigerant is used as the refrigerant. In this refrigerator, the refrigerant is circulated at a low rate of 1 to 9 kg/h. 15 The heat exchanger 1 is used also as the evaporator of a refrigerated showcase which is provided with a refrigeration cyclehaving a compressor, condenser andevaporator, andwherein a hydrocarbon refrigerant is used as the refrigerant. In this refrigerated showcase, the refrigerant is circulated at a low 20 rate of 1 to 9 kg/h. FIG. 11 shows another embodiment of heat exchanger finned tube. WithreferencetoFIG. 11, afinfixingtubellisintegrally provided with a plurality of inner fins 40 projecting from 25 the inner peripheral surface of the tube to equal heights, extending longitudinally thereof, and arranged circumferentially thereof at a spacing. The inner fins 40 are 0.7 to 1.2 mm in height h3 as measured from the inner 24 WO2004/053414 PCT/JP2003/015701 peripheral surface of the fin fixing tube 11. The inner fins 40 have the same pitch p as those already described. At the tube portions fixedly provided with the plate fins 14, the tube 11 is 6 to 10 mm in outside diameter, and 0.4 to 0.8 mm 5 in the thickness of the circumferential wall thereof. INDUSTRIAL APPLICABILITY The heat exchanger finned tube of the invention is suitable for fabricating a heat exchanger, for example, for use as the 10 evaporator of a refrigeration cycle which is included in a refrigerator or refrigerated showcase and wherein a hydrocarbon refrigerant is used. 25

Claims (22)

1. A heat exchanger finned tube which has a fin fixing tube having a straight tube portion and comprising a tube having no weld seam, anda fin group comprising apluralityof parallel 5 plate fins fixed to the straight tube portion of the fin fixing tube, the straight tube portion having at least one finless part provided with no fin group, each of the plate fin having a tube inserting hole, the fin fixing tube having its straight tube portion inserted through the holes of the plate fins and 10 being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portion, the finless part of the straight tube portion having an outer peripheral surface bearing annular clamp marks left by clamping the straight tube portion over the entire circumference thereof when the fin 15 fixing tube is enlarged.

2. A heat exchanger finned tube according to claim 1 wherein the fin fixing tube is in the form of a hairpin, and a plurality of fin groups are arranged on two straight tube portions of the fin fixing tube longitudinally thereof at a spacing, each 20 of the fin groups comprising a plurality of parallel plate fins extendingacrossandfixedtothetwostraighttubeportions, each of the plate fins having two tube inserting holes spaced apart from each other, the fin fixing tube having its straight tube portions inserted through the respective holes of the 25 plate fins, the two straight tube portions of the fin fixing tube each having the finless part between each pair of adjacent fin groups.

3. A heat exchanger finned tube according to claim 1 wherein 26 WO2004/053414 PCT/JP2003/015701 the finless part is in excess of 5 mm in length, and portions bearing no clamp mark and included in the finless part are up to 5 mm in length.

4. A heat exchanger finned tubeaccordingto claim 1 wherein 5 the fin fixing tube is integrallyprovided on an innerperipheral surface thereof with inner fins extending longitudinally thereof and arranged at a spacing circumferentially thereof.

5. A heat exchanger finned tube according to claim 4 wherein the fin fixing tube has high and low two kinds of inner fins 10 alternately arranged circumferentially thereof and projecting from the inner peripheral surface of the tube to different heights, the high inner fins being 0.7 to 1.7 mm in height from the surface of the fin fixing tube, the low inner fins being 0.4 to 1.2 mm in height from the surface. 15

6. Aheat exchanger finned tube according to claim 4 wherein all the inner fins are equal in height and 0.7 to 1.2 mm in height from the inner peripheral surface of the fin fixing tube.

7. A heat exchanger finned tube according to claim 5 or 20 6 wherein the pitch of the inner fins is 0.4 to 1.6 mm.

8. A heat exchanger comprising a heat exchanger finned tube which has a fin fixing tube having a straight tube portion and comprising a tube having no weld seam, and a fin group comprising a plurality of parallel plate fins fixed to the 25 straight tube portion of the fin fixing tube, the straight tube portion having at least one finless part provided with no fin group, each of the plate fin having a tube inserting hole, the fin fixing tube having its straight tube portion 27 WO2004/053414 PCT/JP2003/015701 inserted through the holes of the plate fins and being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portion, the finless part of the straight tube portion having an outer peripheral surface bearing annular 5 clamp marks left by clamping the straight tube portion over the entire circumference thereof when the fin fixing tube is enlarged, the heat exchanger finned tube being bent at said at least one finless part of the straight tube portion of the fin fixing tube. 10

9. A heat exchanger comprising a heat exchanger finned tube which has a fin fixing hairpin tube having two straight tube portions and comprising a tube having no weld seam, and a plurality of fin groups arranged on the two straight tube portions of the fin fixing tube longitudinally thereof at a 15 spacing, each of the fin groups comprising a plurality of parallel plate fins extending across and fixed to the two straight tube portions, each of the straight tube portions having at least one finless part provided with no fin group, each of the plate fins having two tube inserting holes spaced 20 apart from each other, the fin fixing tube having its straight tube portions inserted through the respective holes of the plate fins and being enlarged with use of a fluid to thereby fixedly fit the plate fins around the straight tube portions, the two straight tube portions of the fin fixing tube each 25 having the finless part between each pair ofadjacent fin groups, the finless part of each straight tube portion having an outer peripheral surface bearing annular clamp marks left by clamping the straight tube portion over the entire circumference thereof 28 WO2004/053414 PCT/JP2003/015701 when the fin fixing tube is enlarged, the finned tube being formed in a zigzag shape in its entirety by bending in the same direction each pair of finless parts located in the same position with respect to the longitudinal direction of the 5 straight tube portions of the fin fixing tube, and bending in different directions each pair of finless parts adjacent to each other longitudinally of the straight tube portions.

10. A refrigerator which comprises a refrigeration cycle having a compressor, a condenser and an evaporator, the 10 evaporator being a heat exchanger according to claim 8 or 9, and wherein a hydrocarbon refrigerant is used as the refrigerant.

11. A refrigerated showcase which comprises a refrigeration cycle having a compressor, a condenser and an 15 evaporator, the evaporator being a heat exchanger according to claim 8 or 9, and wherein a hydrocarbon refrigerant is used as the refrigerant.

12. An apparatus for producing a heat exchanger finned tube comprising a fin setting jig composed of a plate base 20 and a plurality of fin support plates provided upright on the plate base and arranged in parallel at a spacing, tube clamp lower plates arranged in respective fin setting clearances between adjacent fin support plates of the fin setting jig, tube clamp upper plates arranged on the respective lower plates 25 between the adjacent fin support plates and a pressure member for pressing the upper plates downward, each of the fin support plates having a cutout formed in an upper edge thereof for a straight tube portion of a fin fixing tube to fit in, each 29 WO2004/053414 PCT/JP2003/015701 pair of corresponding tube clamp upper and lower plates having a through hole formed therebetween for inserting the straight tube portion of the fin fixing tube therethrough, the through hole having an inside diameter not smaller than the outside 5 diameter of the fin fixing tube.

13. An apparatus for producing a heat exchanger finned tube according to claim 12 wherein each of the fin support plates has two cutouts formed as spaced apart in the upper edge thereof for two straight tube portions of a fin fixing 10 hairpin tube to fit in, and each pair of corresponding tube clamp upper and lower plates have two through holes formed therebetween for inserting the two straight tube portions of the fin fixing tube therethrough, the through holes having the same pitch as the two cutouts. 15

14. An apparatus for producing a heat exchanger finned tube according to claim 12 wherein the plate base of the fin setting jig comprises a plurality of base units arranged in series, and fin support plates are provided upright on each of the base units. 20

15. An apparatus for producing a heat exchanger finned tube according to claim 12 wherein the tube clamp upper and lower plates are each 0.8 to 1.0 mm in thickness.

16. A process for producing a heat exchanger finned tube according to claim 1 which process includes preparing a fin 25 fixing tube having a straight tube portion and comprising a tube having no weld seam, and a plurality of plate fins each having a tube inserting hole, arranging the plate fins in respective fin setting clearances arranged in succession at 30 WO2004/053414 PCT/JP2003/015701 a portion where a fin group is to be provided, among fin setting clearances between all fin support plates of a production apparatus according to claim 12, arranging tube clamp lower plates in the respective fin setting clearances having no plate 5 fin disposed therein, inserting the straight tube portion of the fin fixing tube through the tube inserting holes of the plate fins and fitting the straight tube portion into cutouts of the fin support plates to provideon the straight tube portion a fin group comprising the plate fins as arranged in parallel 10 and a finless part, arranging tube clamp upper plates on the respective tube clamp lower plates, with the straight tube portion of the tube extending through a hole formed between each pair of corresponding upper and lower plates, pressing the upper plates downward by a pressuremember, and introducing 15 afluid into the fin fixing tube to enlarge the tube and fixedly fit the plate fins of the fin group around the straight tube portion.

17. A process for producing a heat exchanger finned tube according to claim 2 which process includes preparing a fin 20 fixing hairpin tube comprising a tube having no weld seam, and plate fins each having two tube inserting holes, arranging the plate fins in respective fin setting clearances arranged in succession at portions where respective fin groups are to beprovided, among finsettingclearancesbetweenallfinsupport 25 plates of a production apparatus according to claim 13, arranging tube clamp lower plates in the respective fin setting clearances having no plate fin disposed therein, inserting two straight tube portions of the fin fixing tube through the 31 WO2004/053414 PCT/JP2003/015701 respective tube inserting holes of each of the plate fins and fitting the straight tube portions respectively intotwo cutouts of each of the fin support plates to provide fin groups each comprising a plurality of plate fins as arranged in parallel 5 and finless parts, arranging tube clamp upper plates on the respective tube clamp lower plates, with the straight tube portions of the tube extending respectively through two holes formed between each pair of corresponding upper and lower plates, pressing the upper plates downward by a pressure 10 member, and introducing a fluid into the fin fixing tube to enlarge the tube and fixedly fit the plate fins of the fin groups around the straight tube portions.

18. A process for producing a heat exchanger finned tube according to claim 16 or 17 wherein assuming that the hole 15 formed between the corresponding tube clamp upper and lower plates has an inside diameter D, and that the straight tube portion of the fin fixing tube before enlargement has an outside diameter d, these diameters have the relationship of d D Sd + 0.4 mm. 20

19. A process for producing a heat exchanger finned tube according to claim 16 or 17 wherein assuming that the combined area of contact of the tube clamp upper plates with the fin fixing tube is A, and that the pressure of the fluid introduced into the fin fixing tube is P, the force to be applied by 25 the pressure member for pressing the upper plates downward is set at not smaller than A X P.

20. A process for producing a heat exchanger finned tube according to claim 16 or 17 wherein the fin fixing tube is 32 WO2004/053414 PCT/JP2003/015701 integrally provided on an inner peripheral surface thereof with inner fins extending longitudinally thereof and arranged at a spacing circumferentially thereof.

21. A heat exchanger finned tube according to claim 20 5 wherein the fin fixing tube has high and low two kinds of inner fins alternately arranged circumferentially thereof and projecting from the inner peripheral surface of the tube to different heights, the high inner fins being 0.7 to 1.7 mm in height from the surface of the fin fixing tube, the low 10 inner fins being 0.4 to 1.2 mm in height from the surface.

22. A heat exchanger finned tube according to claim 20 wherein all the inner fins are equal in height and 0.7 to 1.2 mmin height from the inner peripheral surface of the fin fixing tube. 33