• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A method for conforming to a circular cross-section the end of a metallic tube of oblong cross-section for a heat exchanger, comprising two steps, one during which the end of the tube is subjected to a radial compression, and the other during which a punch having a diameter equal to that desired for the inner surface of the tube end is forcibly driven into said end.
    公开号:SU1223830A3
    申请号:SU802949080
    申请日:1980-07-23
    公开日:1986-04-07
    发明作者:Шарль Коллгон Пьер
    申请人:Валео (Фирма);
    IPC主号:
    专利说明:

    f1
    The invention relates to constructions and methods for manufacturing a metal pipe, in particular for a heat exchanger such as a radiator constituting part of a vehicle engine cooling system, or for a heat exchanger j constituting part of an installation for heating and / or creating an artificial microclimate of a car cabin.
    The aim of the invention is to simplify the assembly process of the heat exchanger.
     Fig. 1 shows the pipe assembly assembly with the tool; 2, part of the heat exchanger S section in FIG. 3 shows section A-A in FIG. 2, in FIG. 4 is a tool for implementing a single operation of method J in FIG. 5 is the same, the intermediate position of the tool} in FIG. 6 is a section BB in FIG. 5j in FIG. 7 - tool. to implement another operation of the method; FIG. 8 is a section B-B in FIG. 7 ° in FIG. 9 - nHCTpyMBHt to examine the method of the second embodiment; FIG. 10 - the end of the tool inserted into the pipe; figi section GGD of fig. 9, FIG. 12 is a section DD-D in FIG. 9; in fig. 13 is a tool variant for another method variant; in fig. 14 is a variant of the tool, in FIG. 15 shows section EE of FIG. 14, FIG. 16 is a sectional view of FIG. 14-5 in FIG. 17 is a section of a pipe most preferred for carrying out the method.
    The metal pipe is made in the form of an elongated cross-sectional body 1, for example, an oval. The body end 2 has a circular cross-section. The length of section I connecting the body to one end can be no more than 0.2 of the largest size of the elongated section of the pipe or 0 , 5 is the smallest size of this section, so that it is possible to manufacture heat exchangers with conventional collectors formed by plates 3 with round holes 4, without installing a gasket between the flange or edge 5 of this collector and last edge 6 set. The holes 4 of the collector, formed by the plates 3, are bordered cylindrically outside the collector chamber 7 and the flanges 8. The plate is covered inside the chamber with a rubber sheet 9 (or made of similar
    0
    0
    8302
    material), having openings tO, coinciding with openings 4 and bordered by couplings 115 constituting the integral part of a sheet 9, containing a part 12 of small length, protruding towards the chamber 7, and part 13 of a large length inserted into the shoulder 8 and ending with a bulge of 14s forming, at its connection with part 13, a flange 15, resting on the edge of the end of the collar 8.
    The edge 5 of the metal plate 3, protruding outward from the collector chamber, forms the bottom of the groove passing along the mat 16 of the rubber sheet 9.
    In order to fasten the plates 3 with their rubber sheet 9 to the ends of the pipes, the coupling 11 is subjected to preliminary stress. The diameter of their inner surface in a free state is less than the diameter of the outer surface of the pipe ends. The ends of the pipes pass through the plates until each side until edge 5 contacts 5 with edge 6, the prestress is then weakened, the punches or mandrels (not shown) are then simultaneously inserted into the ends of the pipes so that the end 2 has a broadening, the outer diameter of which is slightly larger than the inner diameter of the shoulder 8, in order to hold the mounting of the plates 3 in relation to the pipe body 1. Contact edges 5 and the end of the 6 rib also contributes to this installation,
    The average perimeter of the end of a circular pipe must be greater than the average perimeter of the body with an elongated cross section of at least 1%.
    A method of manufacturing a proposed metal pipe for a heat exchanger is as follows.
    The end of the body 1 of a pipe of direct oval section 17 (FIG. 4), having a major axis 18 and a minor axis 19, perpendicular to each other, squeezing with a tool from two clamping; sponges 20 and 21, which are identical active surfaces with respect to surfaces 22 and 23, respectively, each of which has a semi-cylindrical circular cross-section, forming these semi-cylindrical surfaces parallel to the axis of the pipe. The radius of each of these semi-cylindrical surfaces is German.
    0
    0
    3
    the radius of the outer surface to be obtained at the end of the pipe.
    In order to form an expanded joint of small length between the end 2 and the body 1 of the oval tube, the sponges 20 and 21 have a cut or expansion, respectively 24 and 25.
    This slice or extension is formed as follows.
    The sponges 20 and 21 in position, when they are brought together, limit, on bevels (cuts) 24 and 25, the axis of the cylinder coinciding with the axis of the pipe. In continuation, in the perpendicular plane to this axis, an oval 26 is marked (Fig. 6), corresponding to the outer surface of the pipe, and a circle 27, corresponding to surfaces 22 and 23. This circle has two arcs 28 and 29 inside the oval 26 and two arcs 28 and 29 outside the oval 26. Arcs 28 and 29 correspond to surfaces 22 and 23 along the entire length or height of the tool. On this continuation, on the contrary, the sections correspond to arcs of a curve of type 30 and 31, concluded between oval 26 and circle 27.
    The sponges 20 and 21 are brought together prior to contact with the outer surface of the pipe at the ends 32 and 33 (Fig. 4) of its major axis 18 and approach each other parallel to this major axis in the direction of the arrows f and f. The pipe is thus compressed parallel to axis 18 and expands in the perpendicular direction, and its cross section towards the end of this first stage of the operation has the general shape of a circular ring.
    Mandrel 34 (FIG. 4) of circular cross section with a truncated end
    -, g-
    The cone 35 and the active cylindrical part 36 of circular cross section with a diameter greater than the diameter of the inner surface of the ring obtained by the outcome of the first stage of the operation are then inserted with force into the end 2 to give it a round cylindrical shape as a result of expansion, i.e. increase the perimeter.
    This operation is conducted with. so that the average perimeter of the end 2 is after the first stage of the process implementation more, preferably by 1%, of the average perimeter of the oval section. But at the same time, the elastic limit of the metal from which the pipe is made must not exceed.
    The diameter of the outer surface end. formed in this way.
    5 Q 5 |
    five
    P


    0
    3G4
    must be smaller along the length of the major axis of the outer surface of the oval section so that it can be operated with the edges 37 and 38 (Fig. 3), forming the stops for the rib 6.
    FIG. 9 and 13 are variants of the method.
    For these options, first, a dispensing operation is performed with the aid of a tool 39 (Fig. 9), and after this operation radial compression is performed on the tacky surface of the pipe end using a ring 40 (Fig. 13).
    The tool - mandrel 39 - has a cylindrical body 41 of circular cross section, the outer diameter of which extends the required inner diameter for the pipe end 2, and has a truncated cone 42 end, the base 43 of which is circular in diameter and equal to the smallest small size along the axis 19 the inner surface of the pipe in part of its oval section.
    The axial length of this cone 42 has approximately the same magnitude as the stroke of the jaws 20 and 21 (FIG. 4), i.e. which is the length of the intermediate part between the body and the end of the pipe after this process is performed. Thus, the pipes obtained as a result of applying the second method make it possible to obtain a heat exchanger similar to the heat exchanger shown in FIG. 2 and 3.
    The mandrel 39 is inserted with force into the pipe body 1 for a certain length. It is then held in this position, after which, around the end thus transformed, the sliding ring 40 is passed in the axial direction with a circular inner cylindrical surface 44, the inner diameter of which is equal to the required outer diameter for the pipe end. The ring ends in the lower part with a chamfer. The outer diameter of this ring is essentially equal to the size of the pipe body 1 along its major axis 18 °. The chamfer is determined in a similar way as the sections 24 and 25 of the jaws 20 and 21 (Fig. 4).
    In this way, a heat exchanger of the type of heat exchanger shown in FIG. 2 and 3 can be manufactured. heat exchanger; in which the flange of a conventional collector is in direct contact with the end of the rib, avoiding the use of cumbersome
    gaskets that are useless when exchanging heat.
    FIG. 14-16 shows the embodiments of the mandrel. The mandrel contains a head. 45 and the body 46, the head 45 has a cross section of an ovally shaped 47 with two vertices 48 and 49 along its 50 J axis, which are diametrically opposed on a circle 51 (fig 15) with a diameter equal to the diameter surface of the pipe end. The head has two other peaks 52 and 53 along its small axis 54, coinciding with the peaks of the oval 55 of the corresponding inner surface of the pipe body.
    The body 46 is a round cylinder with a diameter equal to the required diameter for the inner surface of the pipe end.
    The length of the head 45 is at least equal to the length of the end 2 of the circular section that they want to receive.
    To implement this variant of the method, the mandrel head 45 is inserted into the pipe body 1 in such a way that the minor axis 54 coincides with the minor axis 19 and the major axis 18 coincides with the axis 50 at the required length for the end 2, then this mandrel is rotated around its axis 54, the pipe remains stationary, which makes it possible to give its end a shape close to the cylinder of circular section. After the rotation stops, the mandrel sets the Pc back to an angled position (Fig. 15) and pushes in such a way that its body 46 ends up converting the end of the pipe. The head 45 then does not have a transforming effect on the body of the pipe inside which it is located, but has the guiding effect of the tool in the pipe.
    The outer surface of the pipe end is then transformed with a ring 40, the mandrel remains during this second step of the method inside the pipe.
    This option also allows the manufacture of a heat exchanger of the type of heat exchanger shown in Figures 2 and 3, i.e. a heat exchanger J in which the flange of a conventional collector is directly in contact with the edge of the end, which makes it possible to avoid the use of a bulky gasket. 5 which is useless for heat exchange.
    Most preferably, the pipe body 1 has an oval cross-section (FIG. 17).
    Two circles 56 and 57 of the same 2Q radius with centers 58 and 59 and distances from each other along the line 50e which passes through the largest section size of the body of the pipe body 1 are applied. The distance separating these centers is markedly greater than the diameter of each of the circles 56 and 57, then two arcs of the circle 61 and 62 are tangent to the circles 56, 57 on both sides of the line 60. The Hx centers 63 and 64 are at 0 median The 65 segments connecting the centers 58 and 59 are symmetrical with respect to this segment. The radii of these circles are much larger than the radii of circles 56 and 57.
    The major axis of length b, the curve thus obtained, and the perpendicular mgsha axis of length a have a ratio b / a ranging between 1 to 5 and 2.5 j, which is optimal for heat exchange between the fluid circulating in housing 1 pipes, and air.
    / 4 Phage.
    IZ V 23
    20 22 23 -2 21
    A,.
    Fi.g.5
    Thebes .§
    Bb
    FIG
    6
    , /
    42 4J FIG. 9
    F (lg.1d
    ./S54G
    F
    1g


    45 /
    Fig. /
    Yr
    Fy
    FIG. 15
    MF
    Fi.g.16
    62
    权利要求:
    Claims (4)
    [1]
    1. A metal pipe for a heat exchanger, in particular for a motor vehicle, made in the form of a body of a long cotton cross section, for example oval, at least one end of which has a circular 'cross section, characterized in that, in order to simplify the assembly of the heat exchanger , the end of the circular cross section 'is connected to the pipe body of an elongated cross section with an intermediate section of a length not exceeding 0.2 of the largest size of the oblong section of the pipe body or 0.5 of the smallest The era of this oblong village.
    [2]
    2. Pipe pop. 1, characterized in that the average perimeter of the circular section of the end of the pipe is greater than the average perimeter of the elongated section of the pipe body by at least 1Ζ.
    [3]
    3. A method of manufacturing a metal pipe for a heat exchanger, including the operation of radial crimping, the end of the pipe and radial distribution of this end, characterized in that at first the radial crimping operation of the ends is performed according to the largest size of the elongated ί cross section of the pipe end, and then radial distribution is performed.
    [4]
    4. The method according to p. 3, characterized in that i <'in that in the process of radial distribution the average perimeter of the circular end of the pipe is increased by at least 1 relative to the average perimeter of the elongated section of the pipe body.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1223830A3|1986-04-07|Metal tube for heat exchanger and method of manufacturing same
    US6044554A|2000-04-04|Method of assembly of a heat exchanger with oval or oblong tubes
    US5713611A|1998-02-03|Connection of a plate and tubular members
    CA2012043C|2000-06-13|Heat exchanger and a method for a liquid-tight mounting of an end plate to an array of heat exchanging elements of the heat exchanger
    JP3956495B2|2007-08-08|Piping joint and manufacturing method thereof
    US4456059A|1984-06-26|Heat exchanger having a bundle of parallel tubes, and method of assembling its component parts
    EP0745824B1|1998-08-12|Heat exchanger and method for manufacturing the same
    WO1980001197A1|1980-06-12|Pipe coupling for lap joints
    PL126241B1|1983-07-30|Heat exchanger and method of making the same
    US5348082A|1994-09-20|Heat exchanger with tubes of oblong cross section, in particular for motor vehicles
    KR100437585B1|2004-06-26|Method for assembling a heat exchanger
    US4574444A|1986-03-11|Method for the joining of tubular parts in a heat exchanger and tool for practicing the method
    MXPA96005319A|1997-08-01|Heat exchanger with sectionally pipe or oblonga and mont procedure
    KR100442929B1|2004-09-18|A coupling device for a plate-type heat exchanger, especially for motor vehicles
    US5481800A|1996-01-09|Method of making a parallel flow condenser with lap joined headers
    JPH06235594A|1994-08-23|Heat exchanger with tube handke, particularly tube handle for motor car and manufacture thereof
    EP1275926A2|2003-01-15|Tank of heat exchanger and method of producing same
    US6561263B1|2003-05-13|Heat exchange device with two arrays of tubes in particular for a motor vehicle, and a method of manufacturing it
    GB2055064A|1981-02-25|A method for the conformation of a metallic tube, particularly for a heat exchanger
    US5417277A|1995-05-23|Fluid manifold having a tubular wall, for a heat exchanger
    KR100311834B1|2001-12-17|heat transmitter
    JPH1018844A|1998-01-20|Header plate for heat exchanger
    US5052477A|1991-10-01|Pipe for coolant condenser
    EP0334817A1|1989-09-27|A radiator for motor vehicles
    US5450667A|1995-09-19|Process for fixing a transverse partition in a tubular header of a heat exchanger
    同族专利:
    公开号 | 公开日
    AR223054A1|1981-07-15|
    MX154369A|1987-07-28|
    SE8005286L|1981-01-27|
    HK16584A|1984-03-02|
    DE3026461A1|1981-02-12|
    DE3026461C2|1984-12-06|
    SE446436B|1986-09-15|
    PL225904A1|1981-08-21|
    IT8068175D0|1980-07-23|
    RO81366A|1983-06-01|
    NL8004298A|1981-01-28|
    FR2462215A1|1981-02-13|
    FR2462215B1|1981-08-14|
    GB2056330B|1982-12-08|
    ES8302494A1|1983-02-01|
    BR8004635A|1981-02-03|
    GB2056330A|1981-03-18|
    RO81366B|1983-05-30|
    ES252209Y|1981-05-16|
    PL126340B1|1983-07-30|
    JPS5626647A|1981-03-14|
    ES493595A0|1983-02-01|
    AU6077880A|1981-01-29|
    IT8068177D0|1980-07-23|
    ES252209U|1980-11-16|
    IT1166471B|1987-05-06|
    IT1166470B|1987-05-06|
    US4467511A|1984-08-28|
    AU535137B2|1984-03-01|
    CS226414B2|1984-03-19|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    GB214877A|1923-07-05|1924-05-01|Jacobus Haag|Improvements in perkins tubes, particularly for heaters, condensers and similar apparatus|
    US1856618A|1930-05-23|1932-05-03|Griscom Russell Co|Heat exchanger|
    US1992795A|1933-07-07|1935-02-26|Fred M Young|Heat transfer unit|
    DE721466C|1940-09-15|1942-06-06|Hans Windhoff App Und Maschine|Connection of a row of finned tubes of light metal coolers with the water chamber floors|
    US2367942A|1944-02-07|1945-01-23|Hartman William Walter|Method of making socket wrenches|
    US2915107A|1956-01-09|1959-12-01|Quinn Esther Wilson|Gauge for swaging tool|
    CH337558A|1956-01-20|1959-04-15|Calorifer Ag|Heat exchanger|
    US3426409A|1965-01-26|1969-02-11|United Aircraft Corp|Method of making a tubular walled chamber|
    FR1480185A|1966-03-09|1967-05-12|Chausson Usines Sa|Heating radiator for vehicle|
    FR1577223A|1967-07-21|1969-08-08|
    GB1232414A|1968-02-02|1971-05-19|
    JPS5223093B2|1970-11-02|
    US3710473A|1971-06-28|1973-01-16|Caterpillar Tractor Co|Method of manufacturing a heat exchanger|
    US3972371A|1972-04-26|1976-08-03|Societe Anonyme Des Usines Chausson|Tube and tube-plate assembly|
    FR2226258B1|1973-04-23|1977-10-07|Union Carbide Corp|
    US3906605A|1973-06-18|1975-09-23|Olin Corp|Process for preparing heat exchanger tube|
    US3857151A|1973-10-15|1974-12-31|Young Radiation Co|Method of making a radiator core|
    DE2509717B2|1975-03-06|1981-02-05|Volkswagenwerk Ag, 3180 Wolfsburg|Seal for a tube sheet of light metal heat exchangers through which liquid flows, and process for their production|
    NO141963L|1975-03-19|
    JPS51110752A|1975-03-25|1976-09-30|Mitsubishi Heavy Ind Ltd|Netsukokanki oyobi sonoseizohoho|
    DE2539971A1|1975-09-02|1977-03-10|Becker Apparatebau Geb|Heater for highly viscous mediums - uses flow pipe with corrugations in two directions for heating foods|
    DE2549565B2|1975-11-05|1977-12-08|Daimler-Benz Ag, 7000 Stuttgart|TOOL FOR TAILOR-MADE FORMING AND CALIBRATING THE END OF A PIPE|
    FR2381267B1|1977-02-21|1980-01-04|Chausson Usines Sa|
    US4159034A|1977-05-12|1979-06-26|Modine Manufacturing Company|Weldment heat exchanger|JPS634120B2|1982-08-11|1988-01-27|Ntn Toyo Bearing Co Ltd|
    US4858686A|1983-10-19|1989-08-22|The Allen Group, Inc.|Heat exchanger|
    DE3563263D1|1984-03-14|1988-07-14|Norsk Hydro As|Method of manufacturing hairpin configured tubes|
    JPH0221891B2|1984-03-28|1990-05-16|Tokyo Shibaura Electric Co|
    FR2567247B1|1984-07-05|1986-12-19|Valeo|METHOD FOR MOUNTING THE END OF A TUBE WITH A SEAL IN A HOLE OF A WALL, AND TUBE BEAM HEAT EXCHANGER CARRIED OUT BY CARRYING OUT THIS PROCESS|
    DE3619267C2|1986-06-07|1989-11-09|Sueddeutsche Kuehlerfabrik Julius Fr. Behr Gmbh & Co Kg, 7000 Stuttgart, De|
    US4930331A|1989-02-24|1990-06-05|Manning Douglas E|Apparatus and method for fabricating elliptical tubing|
    DE3908266A1|1989-03-14|1990-09-20|Autokuehler Gmbh & Co Kg|HEAT EXCHANGER AND METHOD FOR FASTENING A LIQUID-TIGHT PLATE TO A HEAT EXCHANGER NET|
    DE4032992A1|1989-10-26|1991-05-02|Mannesmann Ag|TUBULAR STEEL PROFILE FOR DOOR REINFORCEMENT|
    US5150520A|1989-12-14|1992-09-29|The Allen Group Inc.|Heat exchanger and method of assembly thereof|
    US5165168A|1991-04-09|1992-11-24|Higgins Larry B|Method of making a high rise spout and spout made according to the method|
    US5123482A|1991-11-14|1992-06-23|Wynn's Climate Systems, Inc.|Oval tube heat exchanger|
    FR2690515A1|1992-04-24|1993-10-29|Valeo Thermique Moteur Sa|Heat exchanger with oblong section tubes, in particular for motor vehicles.|
    DE4305945A1|1993-02-26|1994-09-01|Behr Gmbh & Co|Heat exchanger, in particular for motor vehicles|
    US5366006A|1993-03-01|1994-11-22|Mccord Heat Transfer Corporation|Tab joint between coolant tube and header|
    US5329988A|1993-05-28|1994-07-19|The Allen Group, Inc.|Heat exchanger|
    ES2087702T3|1993-07-06|1996-07-16|Magneti Marelli Climat Srl|AIR CONDITIONING SYSTEMS CONDENSER, IN PARTICULAR FOR MOTOR VEHICLES.|
    DE4445590C2|1994-12-20|2001-02-01|Behr Gmbh & Co|Process for widening the pipe ends of pipes of a heat exchanger, tool for carrying out the process and heat exchanger produced by the process and with the tool|
    USD406639S|1998-04-29|1999-03-09|H&H Tube & Manufacturing Co.|Spout design|
    US6719037B2|2001-05-02|2004-04-13|Transpro, Inc.|Resiliently bonded heat exchanger|
    DE102004027831B3|2004-06-08|2006-03-30|Veritas Ag|Connection device for lines, motor vehicle with such a connection device and method for connecting lines|
    US7849724B2|2005-10-13|2010-12-14|Kanemitsu Corporation|Method of manufacturing a ring-shaped member|
    US20070227713A1|2006-03-31|2007-10-04|Bugler Thomas W Iii|Heat exchanger tube with a compressed return bend, a serpentine heat exchanger tube with compressed return bends and heat exchanger implementing the same|
    US7296620B2|2006-03-31|2007-11-20|Evapco, Inc.|Heat exchanger apparatus incorporating elliptically-shaped serpentine tube bodies|
    CN101432225B|2006-04-26|2012-04-04|松下电器产业株式会社|Process for producing hydrogen generator|
    US20100300667A1|2009-06-01|2010-12-02|Delphi Technologies, Inc.|Distributor tube and end cap subassembly|
    CN102941482A|2012-11-23|2013-02-27|哈尔滨汽轮机厂有限责任公司|Clamp for flattening and processing high-speed power turbine support ring sleeve for gas turbine|
    CN103143635A|2013-03-27|2013-06-12|江苏格林威尔金属材料科技有限公司|Reducing device for aluminum alloy flat tube|
    DE102014219401A1|2014-09-25|2016-03-31|Mahle International Gmbh|Arrangement for a tempering device and tempering device|
    FR3037643B1|2015-06-22|2019-07-12|Valeo Systemes Thermiques|HEAT EXCHANGER AND METHOD FOR MANUFACTURING THE SAME|
    CN106881421A|2017-02-27|2017-06-23|六安六八航空航天精密器件有限公司|A kind of pneumatic pipe reducing device|
    DE102017216639A1|2017-09-20|2019-03-21|Mahle International Gmbh|heat exchangers|
    CN108160814A|2017-12-27|2018-06-15|常州腾龙汽车零部件股份有限公司|A kind of moulding process and molding die of the big shoulder of automobile evaporator water pipe|
    CN108176794B|2017-12-27|2019-12-27|常州腾龙汽车零部件股份有限公司|Forming process and die for double-end pressing plate type O-shaped groove of automobile air conditioner pipeline|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FR7919357A|FR2462215B1|1979-07-26|1979-07-26|
    [返回顶部]