EP0419494A1 - Vorrichtung zur kontinuierlichen herstellung von geschweissten rohren von kleinem durchmesser - Google Patents

Vorrichtung zur kontinuierlichen herstellung von geschweissten rohren von kleinem durchmesser

Info

Publication number
EP0419494A1
EP0419494A1 EP89905088A EP89905088A EP0419494A1 EP 0419494 A1 EP0419494 A1 EP 0419494A1 EP 89905088 A EP89905088 A EP 89905088A EP 89905088 A EP89905088 A EP 89905088A EP 0419494 A1 EP0419494 A1 EP 0419494A1
Authority
EP
European Patent Office
Prior art keywords
pipe
bush
unit
strip
sleeve
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP89905088A
Other languages
English (en)
French (fr)
Inventor
Steno Marcegaglia
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Marcegaglia SpA
Original Assignee
Marcegaglia SpA
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Marcegaglia SpA filed Critical Marcegaglia SpA
Publication of EP0419494A1 publication Critical patent/EP0419494A1/de
Withdrawn legal-status Critical Current

Links

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C37/00Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
    • B21C37/06Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape of tubes or metal hoses; Combined procedures for making tubes, e.g. for making multi-wall tubes
    • B21C37/08Making tubes with welded or soldered seams
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES OR PROFILES, OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C37/00Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
    • B21C37/06Manufacture of metal sheets, bars, wire, tubes or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape of tubes or metal hoses; Combined procedures for making tubes, e.g. for making multi-wall tubes
    • B21C37/08Making tubes with welded or soldered seams
    • B21C37/09Making tubes with welded or soldered seams of coated strip material ; Making multi-wall tubes

Definitions

  • the present invention relates to an apparatus for the continuous production of small-diameter welded pipes, as used for instance, in refrigerating circuits, motor vehicles etc.
  • the aim of the present invention is to provide an apparatus for the continuous production of pipes with a relatively small diameter, i.e. less than 12 mm, which obtains finished pipes starting from reels of strips of mild steel, copper, aluminum and alloys thereof, with a high hourly production rate.
  • an object of the present invention is to provide an apparatus which operates in a completely automatic manner and with a continuous process, to allow it to obtain, starting from reeled strips, a finished pipe which is also coiled in reels, is annealed and is in its natural state (black pipe) or hot-galvanized or hot-alu inized.
  • an apparatus for the continuous production of welded small-diameter pipes having a plurality of devices which are arranged in sequence and comprise a device for unwinding strips from reels, a splicing-welding machine for connecting the ends of two successive strips, a strip accumulator for feeding the apparatus during the splicing of. two strips, a strip degreasing unit, a strip forming machine to impart a tubular configuration with opposite and.
  • a welding machine for welding the edges of the tubular configuration to one another to obtain a continuous pipe with, an ⁇ trter welding beady a bead removing unit adapted to continuously perform the hot removal of the outer welding bead, a unit for calibrating the bead-free pipe to a slightly smaller diameter, a.
  • unit for cooling the bead-free pipe a drawing machine for cold-reducing the diameter of the pipe by approximately 2.5 times, a unit for degreasing the drawn pipe, a furnace for preheating the pipe and a unit for annealing the preheated pipe and soaking it in a reducing atmosphere, a unit for cooling the tube in a reducing atmosphere, a galvanizing unit, a water cooling unit, a device for winding the pipe in reels, and a unit for testing and coiling the tested reels.
  • figure 1 A- B- C- D- and E- are a schematic front elevational and plan view of an apparatus according to the invention for continuously producing welded pipes;
  • figure 2 is a front elevational view, with sectioned parts, of a galvanizing tank or crucible;
  • figure 3 is a top plan view of the tank or crucible of figure 1;
  • figure 4 is a side vie of a die illustrated in figure 5;.
  • figure 5 is a partially sectional view of the die of figure 4.
  • the apparatus according to the present invention is formed- by a strip unwinding spool 10 adapted to unwind a reel 12 of strip 13 (figure 1(A)). Said strip 13 is moved so as to unwind by a strip accumulator 14 arranged after a welding machine 15, to which the strip unwound from the spool is sent.
  • the spool 10 can comprise, for example, a fixed base 11 which has a pivot or rotation seat with a vertical axis, about which a structure for supporting two idly rotatable reel-holder spools can rotate (double spool) .
  • Each rotatable spool has a clutch apparatus (not illustrated) which can be, for example, operated pneumatically and is adapted to ensure a constant and slight tension of the strip 13, and a braking device (which is also not illustrated and may also be pneumatically operated) to allow rapid locking of each spool when the respective reel 12 is emptied.
  • the braking device is controlled by an adapted control device (not visible in the drawing) arranged on the strip accumulator 14.
  • a double spool thus structured allows, once it has emptied one of its reels, to rapidly restore the feeding of the strip by unwinding the other reel (new strip) .
  • the initial end of the new strip is inserted in the welding or splicing machine 15, where its end is faced by shears (not shown) , moved to abut in alignment against the terminal end of the strip of the preceding reel and then automatically welded thereto.
  • a grinder not illustrated, removes the burr from both sides of the strip 13 along the welding bead in order to eliminate any irregularity in. planarity possibly created by the welding.
  • the replacement of a reel 12 and the welding of the ends of_ two successive strips requires certain working time, so that the strip accumulator 14 must be provided if the continuous operation of the apparatus is to be maintained and not interrupted.
  • the accumulator 14 therefore has the purpose of constituting a reserve of strip 13 to be fed to the apparatus while splicing is performed in the welding machine 15.
  • the accumulator 14 usually comprises a group of motorized winders for inserting the strip 13 therein, two concentric and variable-diameter roller cages and a central output pulley 16 for the strip.
  • a degreasing unit 17 which may be constituted by a tank which contains a suitable solvent washing liquid, a plurality of idly rotatable transmission rollers 18, and oil-scraping pads (not illustrated..
  • the strip 13 is first scraped to remove the protective oil or grease applied thereon by the strip's manufacturer and is then immersed in the solvent washing liquid.
  • the strip 13 is clean enough to be machined, i.e. to pass from a planar configuration to a three-dimensional tubular one.
  • the strip 13 is fed to a forming machine 19 which comprises a plurality of forming rollers and more precisely a set of input strip-guiding rollers, a certain number of vertical heads with motorized rollers, for example six heads, and a plurality of free horizontal output rollers.
  • the forming machine 19 operates at a constant speed which determines the basic or primary speed of the entire apparatus.
  • the operating temperature and pressure of the forming machine are important parameters for the good operation of the apparatus; such parameters must be chosen taking into account the nature and the characteristics of the strip 13, as well as the perfect alignment of the forming machine's components with the strip's direction of advancement.
  • the strip 13 has assumed the shape of a pipe 20, having for example an average diameter of approximately 11 mm. , with its edges arranged mutually adjacent, and is fed immediately thereafter into a welding area where presser rollers are provided to compress the edges of the pipe 20 one against the other and where said edges are mutually welded in any appropriate manner.
  • a high-frequency generator 23 (for example at approximately 400 KHz) can be provided to raise the temperature of the edges of the pipe to be welded to a temperature of 1,200-1,300OC, if the pipe " is constituted by mild steel, as required to forge-weld, forming an outer welding bead-
  • the welding bead usually traps impurities of various kinds, such as the oxides generated during the welding process.
  • the bead furthermore constitutes an irregularity on the surface of the pipe 20 which would give rise to considerable complications in the successive machining and treatment units of the apparatus, so it must be eliminated.
  • a bead removing unit 24 is. provided at the output of the welding area and continuously removes the welding bead; said unit is formed by at least one tool, made for example of hard metal or ceramic, and by a' plurality of guiding rollers which keep the pipe 20 stable during the bead removing operation.
  • the removed bead 25 is automatically collected for example above the pipe 20.
  • Said pipe now has a uniform outer surface which also allows the trouble-free passage of the pipe through the successive machining units of the apparatus.
  • rollers are adapted to reduce the diameter of the bead-free pipe, for example from 11 mm to approximately 10.6 mm.
  • one or more series cooling tanks 26 are provided.
  • a coolant for example an oil based liquid emulsified in water, is sprinkled in said tank or tanks by means of a pump and filter unit 28.
  • a heat exchanger, a settling tank for the discharged coolant, a magnetic filter for retaining the ferromagnetic particles and an air blower are furthermore advantageously provided; said blower is arranged at the output to dry the cooled pipe 20 as it leaves the last cooling tank 26 before entering the drawing machine 27.
  • Said drawing machine cold-reduces the welded pipe 20 e.g., from a diameter of approximately 10.6 mm to a diameter of 4.5 mm, and may comprise four motorized and independent steps through which the pipe 20 is forced to pass. Each step has a rotating and lubricated die 29 and a device with a loop and a movable arm (dandy roller) 30.
  • the drawing machine 27 ends with a straightening unit 21 which neutralizes the curving trend of the hardened pipe 20 exiting from the steps of the drawing machine and can simply consist of two groups of appropriately aligned horizontal and vertical rollers.
  • the straightened pipe 2 ⁇ ( Figure 1 (C)> is coated with a thin layer or film of lubricating oil applied thereon during its passage through the reducing drawing machine 26; said film must be removed before said pipe enters the pre- heating furnace 32 and the annealing furnace 34 to avoid the forming of surface oxides.
  • a degreasing unit 35 which may be constituted by a tank containing an appropriate solvent, for example a liquid hydrocarbon such as kerosene, in which the pipe 20 is immersed in countercurrent, by a solvent recirculation pump 36, by a solvent purifying filter and by a blower to dry the exiting pipe 20.
  • the furnace 32 for preheating the degreased pipe 20 may be constituted by a medium-frequency induction generator or by a gas furnace, for example powered by methane gas, having a plurality of adjustable burners with a slightly oxidizing flame, with multiple and mutually thermally independent sections; the number of said sections depends on the diameter of the pipe 20 and on its advancement speed.
  • the preheating furnace 32 is intended to heat the pipe 20 to approximately 200°C in order to burn the oil/solvent residual which may have remained on the pipe 20 after the degreasing operation and to slightly oxidize the pipe to ensure that the surface of the pipe is adequately clean, this being an indispensable prerequisit .for an adequate adhesion of the final zinc or aluminum coating to the pipe.
  • a pyrometer (not shown) measures the temperature and drives an automatic apparatus for controlling the flame of the burners.
  • the preheating action of the furnace 32 furthermore reduces the load of the successive annealing furnace 34.
  • the preheated pipe 20 arriving from the preheating furnace 32 is subject to an annealing (re- crystallization) process caused by raising the temperature of the pipe for example to approximately 800°C by means of a high-frequency generator 37 in a reducing atmosphere formed for example by approximately 12% H2 and approximately 88% N2.
  • a pyrometer (not shown) measures the temperature and drives an automatic apparatus for controlling some parameters, such as the supply of electric current to an induction coil through which the pipe passes, the advancement speed of the pipe and the like, also as. a function of said pipe's diameter.
  • the pipe 20 In order to reduce the hardness of the material of the pipe 20, said pipe must be kept at its annealing temperature for a preset time sufficient to allow a uniform distribution of the temperature in the pipe's entire thickness.
  • the pipe 20 is passed (see figure 1 (C) ) in an environment at a constant temperature or soaking section 38 formed for example by a long thermally insulated large- diameter duct within which a reducing atmosphere is provided.
  • the soaking section 38 is followed by a cooling section 39 from which it is separated by a thermal coupling 33.
  • the pipe 20 In the cooling section 39 the pipe 20 is cooled, i.e. it passes from the annealing temperature to a lower temperature, for example 460°C if the pipe is to be galvanized, by means of the forced circulation of a reducing atmosphere formed for example by a mixture of H2 and N2.
  • the cooling section 39 is formed by a large-diameter duct 40 aligned with the duct of the soaking section and is surrounded by a jacket of cooling fluid, for example water.
  • the reducing atmosphere is blown at high speed along the duct 40 by a multistage centrifugal blower 41.
  • the pipe 40 is connected to vertical extensions 42 of another duct 43 which is parallel to the duct 40 and acts as return and delivery duct for the reducing gas pumped by the multistage centrifugal blower 41 in order to ensure a closed-circuit circulation of said reducing gas.
  • the duct 43 is in turn surrounded or contains an exchanger apparatus provided with fins with a circulation of cooling water to cool the heated reducing gas arriving from the duct 40.
  • a mixer 45 for the reducing atmosphere ensures a uniform composition of the gas mixture, while an 02 analyzer (not shown) stops the apparatus if the percentage of oxygen in the reducing atmosphere exceeds a preset threshold value.
  • the. pipe 20 is ready to be either sent to a pipe coiling device (in the case of production of so-called “black pipe”) , as will be explained hereafter, or to enter the galvanizing or aluminizing unit 45 to receive a protective coating.
  • the galvanizing unit 45 comprises one or two tanks or crucibles 46, each containing molten zinc or aluminum 47 kept at its melting temperature, for example at approximately 460°C in the case of zinc, i_e. at the. same temperature as the incoming pipe 20.
  • each tank 46 has an entry opening 48 and an exit opening 49 for the pipe 20.
  • Said two openings 48 and 49 may be structurally identical, and each may comprise a respective conical bush or die 50 having a frustum-like outer configuration with an also conical inner cavity 51.
  • Longitudinal recesses 52 are provided on the outer surface of the die or bush 50 and are connected to one another by means of a larger or terminal annular cavity 53 and a smaller one 54.
  • the die 50 is accommodated in a sleeve 56 which has a frustum-shaped internal accommodation cavity.
  • the sleeve 56 is in turn screwed for a good portion of its length within a bush 57 which is protrudingly fixed, for example welded, to the wall of the tank 46.
  • the sleeve 56 has, in its portion protruding from the bush 57, a lateral opening 58 which leads inward at the terminal recess 53 of the die 50 and can be externally connected to a source (not shown) of pressurized gaseous fluid (for example constituted by nitrogen) .
  • the sleeve 56 abuts against the coupling base of said bush and has a recess 59 in which a ceramic calibrating bush 60 is accommodated; said calibrating bush extends through the coupling base of the bush 57 and through the wall of the tank until it is in contact with the molten-metal bath 47.
  • One end of the calibrating bush 60 (the end accommodated in the sleeve 56) is advantageously flanged and abuts against the coupling base of the supporting bush 57; its other end (the one in contact with the bath 47) has a flared and rounded inlet 61.
  • the calibrating bush 60 is internally provided with a conical opening 62 which widens starting from a little after the inlet 61 towards the flanged head of said bush, i.e. toward the sleeve 56, and is connected to the end thereof; said bush is furthermore axially aligned with the inner cavity 51 of the die 50.
  • the inner cavity 51 of the die 50 is not entirely frustum-shaped, but it has a slight widening 63 which extends approximately from a level corresponding to that of the outer annular recess 54 until it gradually disappears a little ahead of the point of the die 50 and therefore of the calibrating bush 60.
  • the die 50 is retained within the sleeve 56 by a bush or flanged cover 64 screwed on the free end of the sleeve 56; the inner opening 65 of said cover 64 is axially aligned with the die 50 and with the bush 60.
  • the pipe 20 arriving from the cooling section 40 passes horizontally through the bath of molten metal 47, which is kept at a slightly higher level than that of the calibrating bushes 60 and is immersed the molten zinc or aluminum, i.e. it is covered with molten metal.
  • the pipe 20 is affected, by a conical jet of pressurized nitrogen gas fed at the conical opening 62 of the bush 60 through the interspace between the sleeve 56 and the bush or die 50, the recesses 54, 52 and 53 and the opening 58.
  • the pressurized reducing gas has the specific function of protecting the pipe 20 against undesirable oxidation phenomena which would compromise, the good adhesion between the pipe and the coating metal.
  • the conical jet of nitrogen gas created within the bush 60 has the very important function of completing the calibrating and laminating action of the bush 60 on the thickness and on the distribution of the coating metal around the pipe, so as to thus obtain a continuous, uniform and regular coating.
  • the nitrogen gas is discharged, also because it is entrained by said pipe 20, through the internal opening 51 of the die 50 and then through the bush or cover 64, and is subject to a first slight expansion in the widening 63 and to a greater expansion in the remaining portion of the die 50.
  • the jet of nitrogen gas also applies an initial cooling effect on the coating at the outlet 49; said coating solidifies completely in a successive cooling tank indicated by 67.
  • an entry opening 48 or of an exit opening 49 is such as to allow an easy and • rapid assembly and disassembly of its components 50, 56, 57, 60 and 64 both for installation and for maintenance and/or replacement.
  • the level of the bath 47 is lowered inside the tank 46, then it is sufficient to unscrew the bush 64 (which is provided, for this purpose, with outer faces for the use of an adapted key) , unscrew the sleeve 56 (which also has outer faces to move it by means of a key) from the supporting bush 57, replace the worn bush with a new bush 60 and then screw the assembly back into place.
  • the molten metal can be transferred from said tank to the galvanizing tank 46 either manually or by means of a pump.
  • the galvanizing unit 45 can be bypassed for the production of so-called, "black pipe”.
  • the pipe 20 then passes into a water- filled cooling tank 67 and advances towar a transmission 68 ( Figure 1(D)) directed toward a winder 69.
  • Said winder provides an adequate traction of the pipe on the line and winds the finished pipe in reels; said winder may furthermore comprise a motorized drum 70 synchronically with the die, and some turns of the pipe 20 are wound thereon to ensure the necessary grip.
  • the pipe 20 then falls downward in loose turns and winds onto a band 71 arranged on a rotatable platform 72 which rotates synchronically with the drum 70.
  • An automatic cutting device (not illustrated) cuts the pipe once a reel 73 of the required dimensions has been obtained.
  • the reels 73 are finally transported in succession to a testing device 74 to reveal any leaks in the pipe due to welding or splicing defects.
  • the device comprises a tank containing an aqueous solution of rust-inhibiting agents, in which the reels 73 to be tested are introduced. Once each reel 73 is immersed, it is pressurized with dry air, for example at a pressure of 50 kg/sq.cm. At such a pressure, any leaks, even small ones, are immediately revealed by air bubbles which rise to the surface of the solution.
  • Suitable raising/lowering and movement means send the tested reels to a coiling device (not illustrated) preset to wind the reels of pipe in compact turns.
  • the coiling device may be constituted by an unwinding spool, by a straighte ⁇ er with motorized rollers which are synchronized with the successive winding spool, a motorized winding spool fitted with a device for aligning and forming compact turns, and a tilting holder for unloading the coiled and possibly strapped reels.
  • the forming speed, of the pipe through the entire apparatus may be comprised between approximately 250 m/min in the case of a pipe with a diameter of 4.5 mm and approximately 130 m/min if the pipe has a diameter of 10-12 mm.
  • the gross average hourly production rate may be of 15
  • the described apparatus may naturally be assigned to the production of pipes in mild steel, copper, aluminum and alloys thereof. It is furthermore suitable, as mentioned, for aluminizing, instead of galvanizing, of pipes, wires, bars and the like by appropriately increasing the temperature of the crucible 46 which should operate, in such a case, at least at approximately 630°C.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Coating With Molten Metal (AREA)
EP89905088A 1989-03-12 1989-03-12 Vorrichtung zur kontinuierlichen herstellung von geschweissten rohren von kleinem durchmesser Withdrawn EP0419494A1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
EP89201176A EP0387425A1 (de) 1989-03-12 1989-03-12 Vorrichtung zur kontinuierlichen Herstellung von geschweissten Rohren von kleinem Durchmesser
PCT/EP1989/000257 WO1990010509A1 (en) 1989-03-12 1989-03-12 Apparatus for the continuous production of small-diameter welded pipes

Publications (1)

Publication Number Publication Date
EP0419494A1 true EP0419494A1 (de) 1991-04-03

Family

ID=42211796

Family Applications (2)

Application Number Title Priority Date Filing Date
EP89201176A Pending EP0387425A1 (de) 1989-03-12 1989-03-12 Vorrichtung zur kontinuierlichen Herstellung von geschweissten Rohren von kleinem Durchmesser
EP89905088A Withdrawn EP0419494A1 (de) 1989-03-12 1989-03-12 Vorrichtung zur kontinuierlichen herstellung von geschweissten rohren von kleinem durchmesser

Family Applications Before (1)

Application Number Title Priority Date Filing Date
EP89201176A Pending EP0387425A1 (de) 1989-03-12 1989-03-12 Vorrichtung zur kontinuierlichen Herstellung von geschweissten Rohren von kleinem Durchmesser

Country Status (3)

Country Link
EP (2) EP0387425A1 (de)
IN (1) IN171318B (de)
WO (1) WO1990010509A1 (de)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2943624B2 (ja) * 1994-09-27 1999-08-30 日立電線株式会社 金属管及びそれを用いたケーブル
DE50002657D1 (de) 2000-08-31 2003-07-31 Nexans Verfahren zur Herstellung eines Metallrohres aus Kupfer
CN103361467B (zh) * 2013-07-25 2015-03-18 莱芜钢铁集团有限公司 一种在线修补电弧炉炉壁水冷块的方法
CN104646932A (zh) * 2013-11-16 2015-05-27 无锡大金高精度冷拔钢管有限公司 一种高精密冷拔焊管的制造方法
CN110255244A (zh) * 2019-07-01 2019-09-20 常州卓睿管业有限公司 一种焊管的生产线及生产方法

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DE724547C (de) * 1933-05-14 1942-08-28 August Seuthe Maschf Maschine zur Herstellung von geschweissten Rohren
US2011398A (en) * 1934-02-10 1935-08-13 Keystone Steel & Wire Co Method and apparatus for drawing and coating wire
GB786934A (en) * 1955-05-26 1957-11-27 Bundy Tubing Co Method and apparatus for making metal tubing
US2959849A (en) * 1956-09-14 1960-11-15 Yoder Co Method and apparatus for making pipe
US3145676A (en) * 1960-06-14 1964-08-25 Markin Tubing Inc Manufacture of metal tubing
US3226817A (en) * 1963-04-17 1966-01-04 Internat Nikoh Corp Continuous method for fabricating tubing
US3524245A (en) * 1968-04-11 1970-08-18 Msl Tubing & Steel Co Continuous tube forming and metallizing process
US3650456A (en) * 1969-05-20 1972-03-21 Anaconda American Brass Co Apparatus for welding

Non-Patent Citations (1)

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Title
See references of WO9010509A1 *

Also Published As

Publication number Publication date
WO1990010509A1 (en) 1990-09-20
IN171318B (de) 1992-09-19
EP0387425A1 (de) 1990-09-19

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