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AU595108B2 - Method of cold drawing seamless metal tubes each having an upset portion on each end - Google Patents
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AU595108B2 - Method of cold drawing seamless metal tubes each having an upset portion on each end - Google Patents

Method of cold drawing seamless metal tubes each having an upset portion on each end Download PDF

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Publication number
AU595108B2
AU595108B2 AU14730/88A AU1473088A AU595108B2 AU 595108 B2 AU595108 B2 AU 595108B2 AU 14730/88 A AU14730/88 A AU 14730/88A AU 1473088 A AU1473088 A AU 1473088A AU 595108 B2 AU595108 B2 AU 595108B2
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AU
Australia
Prior art keywords
plug
die
tube
reducing
bearing portion
Prior art date
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Ceased
Application number
AU14730/88A
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AU1473088A (en
Inventor
Toshio Sakurai
Yutaka Sunaga
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Sanwa Kokan Co Ltd
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Sanwa Kokan Co Ltd
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Filing date
Publication date
Priority claimed from ZA842833A external-priority patent/ZA842833B/xx
Application filed by Sanwa Kokan Co Ltd filed Critical Sanwa Kokan Co Ltd
Priority to AU14730/88A priority Critical patent/AU595108B2/en
Publication of AU1473088A publication Critical patent/AU1473088A/en
Application granted granted Critical
Publication of AU595108B2 publication Critical patent/AU595108B2/en
Anticipated expiration legal-status Critical
Ceased legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES, PROFILES OR LIKE SEMI-MANUFACTURED PRODUCTS OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C1/00Manufacture of metal sheets, wire, rods, tubes or like semi-manufactured products by drawing
    • B21C1/16Metal drawing by machines or apparatus in which the drawing action is effected by means other than drums, e.g. by a longitudinally-moved carriage pulling or pushing the work or stock for making metal sheets, rods or tubes
    • B21C1/22Metal drawing by machines or apparatus in which the drawing action is effected by means other than drums, e.g. by a longitudinally-moved carriage pulling or pushing the work or stock for making metal sheets, rods or tubes specially adapted for making tubular articles
    • B21C1/24Metal drawing by machines or apparatus in which the drawing action is effected by means other than drums, e.g. by a longitudinally-moved carriage pulling or pushing the work or stock for making metal sheets, rods or tubes specially adapted for making tubular articles by means of mandrels
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B21MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
    • B21CMANUFACTURE OF METAL SHEETS, WIRE, RODS, TUBES, PROFILES OR LIKE SEMI-MANUFACTURED PRODUCTS OTHERWISE THAN BY ROLLING; AUXILIARY OPERATIONS USED IN CONNECTION WITH METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL
    • B21C37/00Manufacture of metal sheets, rods, wire, tubes, profiles or like semi-manufactured products, not otherwise provided for; Manufacture of tubes of special shape
    • B21C37/06Manufacture of metal sheets, rods, wire, tubes, profiles 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
    • B21C37/15Making tubes of special shape; Making tube fittings
    • B21C37/16Making tubes with varying diameter in longitudinal direction

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Metal Extraction Processes (AREA)
  • Forging (AREA)

Description

Short Title: Int. Cl: Application c t :a ii: I I I V
AUSTRALIA
Form PATENTS ACT 1952 COMPLETE SPECIFICATION
(ORIGINAL)
FOR OFFICE USE Number: Lodged: 59, 5
IU
C c S Cbmplete Specification-Lodged: Accepted:
C
Co e Lapsed: Published: Priority:
C
C.
SRelated Art: 6 a 4S e of Applicant: 0 e4~me of Applicant: TO BE COMPLETED SANWA KOKAN CO. LTD.
BY APPLICANT Address of Applicant: 252 Naganuma-cho, Tozuka-ku, Yokahama City, Kanagawa, Prefecture, Japan.
Actual Inventor: Address for Service: CLEMENT 'rACK CO., 601 St. Kilda Road, Melbourne, Victoria 3004, Australia.
Complete Specification for the invention entitled: METHOD OF COLD DRAWING SEAMLESS METAL TUBES EACH HAVING AN UPSET PORTION ON EACH END.
The following statement is a full description of this invention, including the best method of performing it known to me:- PF/CP1F/2/80 METHOD OF COLD DRAWING SEAMLESS METAL TUBES EACH HAVING AN UPSET PORTION ON EACH END BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of cold drawing seamless metal tubes each having an upset portion on CCCz each end.
These seamless metal tubes are preferably used for drilling tubes casings, inner rods and outer rods for geological, r aralogical, metallurgical or geothermal research and/or drilling for civil engineering or water wells.
0: 2. Prior Art With reference to Figs. 1-4(b) showing the seamless metal tubes which have been produced by the conventional method o. using the conventional draw bench, a hot forged thin wall a 00 o*0 midbody 7c of a metal tube is welded at each end with a thick wall end tube 7b in order to obtain a larger diameter seamless 0:00 &see metal tube or pipe 7 having an upset portion 7b on each end.
Alternatively, the seamless metal -tube may be produced by casting or lathing, but metallic filaments in such 00 0a seamless metal tube are axially cut at welded or lathed 60060: portions or at blowholes, which are likely to cause cracks in the seamless metal tube after heat treatment at high temperature.
Thus, a method of and a draw bench for cold drawing seamless metal tubes each having an upset portion on each end have been proposed. For example, a small diameter and thin wall seamless metal tube having a diameter of 25-35 mm and a wall thickness of 2.1-3.2 mm such as for a bicycle framework may be cold drawn through the draw bench shown in Figs.
2 The conventional draw bench, which is particularly shown in Figs.2(a) and for drawing such seamless metal tube comprises a bed 12 to be fixed on the floor, a die holder 26 which is mounted at a middle portion on the bed 12 and a closed periphery reducing die 2 which is concentrically mounted in the die holder 26. A pair of tongs 6 and a bearing are arranged on the entry side of the bed 12 for horizontally supporting a plug fixing rod 88.
rt, Secured to a front portion of the rod 88 is a plug 4 S which is inserted into the reducing die 2 when drawing.
000 A draw unit 110 is arranged on the exit side of the bed 12 and comprises a carriage 112 mounted on rollers 00oo 0 travelling on the bed 12, the carriage 112 carrying a hook 118 0 o and a chuck 114 for gripping the front tip 7a of the mother tube or workpiece 7. The carriage 112 is driven by an endless c chain 120 encompassing a driven sprocket wheel (not shown) 00 mounted on the bed 12. A driving sprocket wheel is coupled by any convenient means with an electric motor (not shown). The hook 118 is engaged with the endless chain 120 when drawing and ~the front tip 7a of the mother tube 7 engaged by jaws 116 of the chuck 114 is strongly pulled by the carriage 122 to draw a tube 7 having an upset portion 7b on each end.
00 The embodiments in Figs. 3(a) and 3(b) show the 0° 0 conventional manner of drawing seamless metal tubes which have the same outer diameter but unequal inner diameter upset portions on both ends. In Fig. a plug 4 is held adjacent to a tapered entry in the axial bore of the reducing die 2 at a clearance from the inner periphery of the mother tube 7 to draw the portion of the tube 7 having the small inner diameter upset portion 7b on both ends, while the plug 4 in Fig. 3(b) is held right in the bore of the reducing die 2 to draw a tube 7 having a larger inner diameter.
a: x t
~I
3 Figs. 4(a) and 4(b) show another conventional drawing method as shown in FIg. 4(a).
A reducing die 2 can have an internal surface including an inlet portion 2b which tapers forwardly toward a bearing or throat portion 2a and an oppositely inclined outlet portion 2c. When the enlarged front portion 4a of the plug 4 is held right in the bearing portion 2a of the reducing die 2, the mother tube 7 is drawn through the bearing portion 2a and efc over the enlarged front portion 4a to form a drawn tube having a 9mall outer diameter.
In Fig. the enlarged front portion 4a of the c plug 4 is passed leftwards through the bearing portion 2a and
COCO
flea located adjacent to the outlet portion 2c. Then the mother a tube 7 is drawn through the bearing portion 2a and around the small diameter portion 4b of the plug 4 to reduce the outer diameter of the drawn tube. When the mother tube 7 is further advanced the inner diameter of the mother tube 7 is widened by the enlarged front portion 4a of the plug 4 so as to draw the a9 tube 7 having the same inner diameter as that of the enlarged Cast 0 0000 front portion 4a of the plug 4 and having an outer diameter upset portion 7b larger than that of the drawn tube 7 produced Sby means of the reducing die of Fig. 4(a).
a oa Seamless metal tubes 7 drawn through conventional 0 o reducing dies 2 as described above have the following disadvantages: The seamless mother tube 7 having a small inner diameter is drawn through the reducing die 2 of Fig.3(a) without any internal radial pressure, thus resulting in corrugation in and around the drawn tube.
In Fig.4(b), the mother tube 7 is drawn through the reducing die 2 with the plug 4 held in the bearing portion 2a and in the tube 7 to obtain the drawn tube 7 having one outer diameter but two different inner diameter upset portions 7b.
The tube drawn through the bearing portion 2a and over and
I?
4 around the small diameter portion 4a of the plug 4 is widened by the enlarged front portion 4a of the plug 4 to obtain a drawn tube similar to that shown in Figs. 7(b) and 7(c), wherein d4 denotes a large diameter bearing portion of the plug 4, d2 denotes a bearing portion diameter of the reducing die 2, dl denotes a large diameter of the drawn tube 7, and d3 denotes a small diameter bearing portion of the plug 4 ,rt I respectively.
,Accordingly, d4 becomes an inner diameter of the drawn tube 7 and d2 becomes a small outer diameter of the drawn tube 7, but the large diameter dl of the drawn tube 7 is not 000 rice directly related to the bearing portion diameters of the T'"9c reducing die 2 and the plug 4, but is given by the following functional formula: t dl f(d2,d3,d4) 1However, we cannot determine the values of dl, d2 and S d4 independently. In order to arrive at the most preferable values for dl, d2 and d4, it is necessary to select the value 0000 .000 sufficiently near the most suitable value among the various solutions of the functional formula of S dl f(d2,d3,d4) 0 a We cannot, however, obtain the most suitable values a for the diameters of dl, d2 and d4.
The configuration of the drawn tube is limited to only two kinds, i.e.
one having one outer diameter but two unequal inner diameters; another having one inner diameter but two unequal outer diameters.
The drawing force of the plug 4 is so small that the plug 4 may be driven in its movement by a hydraulic cylinder, while on the other hand it is necessary to provide a balancing unit or a plurality of hydraulic cylinders to balance the reaction upon the strong drawing force of the plug 4, thus ;1 i making the device complicated and expensive.
SUMMARY OF THE INVENTION: The invention provides an improved method of cold drawing a seamless metal tube having an upset portion on each end.
Specifically, the invention provides a method of cold drawing a seamless metal tube having an upset portion on each end, comprising the steps of: defining a reducing area between first and second S relatively movable members, the first member being a closed periphery reducing die and the second member being a plug secured to a front end portion of a main push-pull rod, the reducing die having an internal surface including a rearward inlet portion which tapers rearwardly, a forward outlet portion 0€ which tapers forwardly, and a small diameter bearing portion ¢0 0 o0 between the inlet and outlet portions, the plug having a large 00 diameter bearing portion between a rearward rearwardly tapered 0000 ooo portion and a forward small diameter bearing portion; moving the reducing die and the plug longitudinally with respect to each other at least twice to vary the size of 00000 the reducing area and fixing the reducing die and the plug in three different positions selected from first, second and third relative positions, the forward small diameter bearing porticn of the plug being radially aligned with the small diameter bearing portion of the die in the first relative position so that the inner and outer peripheries of the reducing area therebetween respectively have a first inner diameter and a first outer diameter, the large diameter bearing portion of the plug being radially aligned with the small diameter bearing portion of the die in the second relative position so that the inner and outer peripheries of the reducing area therebetween respectively have a second inner diameter greater than the first inner diameter and a second outer diameter equal to said 6first outer diameter, and the large diameter bearing portion of the plug being radially aligned with the outlet portion of the die in the third relative position so that the inner and outer peripheries of the reducing area therebetween respectively have a third inner diameter equal to the second inner diameter and a third outer diameter greater than the first and second outer diameters; and successively drawing a mother tube through the die 'Cz :r4 and around the plug through the reducing area in three steps, c, each of said steps being performed when the plug and die are in a different one of the first, second and third positions, to thereby successively form first, second and third tube portions t ~having inner and outer diameters corresponding to the reducing area during each of the three steps, at least one of the first and third tube portions forming an upset portion with the e second tube portion therebetween, two of the tube portions C I c having different inner diameters and different outer diameters.
0 004 BRIEF DESCRIPTION OF THE DRAWINGS 0000oooo o 0000 The nature of this invention will be clear from the following detailed description of particular embodiments of the 00 00 proposed method of cold drawing a seamless metal tube having an upset portion on each end when taken with the accompanying drawing, in which: Fig.l is a cross section of a seamless metal tube made by a conventional process such as by casting, lathing or hot forging, with its midbody partially cut away; Fig.2(a) is a side elevation of a conventional draw bench, with the chain drive portion of a draw unit partially cut away; Fig.2(b) is an enlarged detailed vertical sectional view of a reducing die, a plug and a mother tube shown in Fig.2(a), particularly showing that the mother tube is being drawn through the reducing die and around the plug; 7 7 Figs.3(a) and 3(b) are fragmentary axial sectional views of the reducing die and the modified plug, showing some conventional drawing steps for drawing seamless metal tubes; Figs.4(a) and 4(b) are similar fragmentary axial sectional views of the reducing die and the modified plug, showing other conventional drawing steps for drawing ordinary seamless metal tubes; is a side elevation, partly in section, of a "o draw bench which is used for carrying out the method of this .00 0 oo invention; is a greatly enlarged detailed vertical sectional view of the die control device of the draw bench ct ~shown in cI C Fig.5(c) is a greatly enlarged detailed vertical sectional view of the hydraulic cylinder which is secured to a rear face of the die holder shown in Figs.5(a) and Fig.6 is a greatly enlarged detailed vertical sectional view of the plug control device; Fig. 7(a) is an enlarged vertical section of the reducing die, the mother tube and the plug of this invention, with its large diameter bearing of the plug approaching an inlet portion of the reducing die; 0 o0 0 0o Fig.7(b) is an enlarged vertical section similar to 0 Fig.7(a), with the large diameter bearing of the plug located at the small diameter bearing portion of the reducing die; Fig.7(c) is also an enlarged vertical section similar to Fig.7(a), with the large diameter bearing of the plug located at the forwardly tapered outlet portion; Fig.8(a) is a cross-section of a seamless metal tube drawn through the draw bench of this invention, and having an inner upset portion on each end; Fig.8(b) is a similar cross section of a seamless metal tube drawn by the method of this invention, and having an inner upset portion on one end and outer upset portion on another end; i 8 Fig.8(c) is a similar cross section of a seamless metal tube drawn through the method of this invention, and having an outer upset portion on each end; and Fig.9 is a cross section of the seamless metal tubes, partially cut away, which are screwed threadedly joined to each other through the upset portion on each end.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 000 o6o ~The method of this invention is characterized in that the cross-sectional reducing area between the reducing die and oo the plug is preferably changed in accordance with the desired 0080 forms of a mother tube to be drawn by longitudinally o0ooo0 transferring the reducing die and the plug and fixing them at the selected positions.
Proceeding now with a detailed description of the fat a drawings, we turn first to Figs.5(a) through 6 illustrating 0 this invention. A draw bench 10 for carrying out the method of this invention comprises a bed 12 which is usually fixed on the 0000 o floor, a front stopper 14 which is mounted at the middle portion on the bed 12 and is reinforced by a reinforcing member 18, the stopper 14 having a central large opening 16.
o oo 0In Figo.5(a) and a die control device 20, which 0 4a300 is arranged on the bed 12 adjacent to the front stopper 14, includes a rail 22 extending longitudinally on the bed 12, and a carriage 24 arranged movably on the rail 22. A die holder 26 rigidly secured on the carriage 24 has a large diameter central opening 28 and a cylindrical holder 46 including a closed periphery reducing die 2 is secured to a rear face of the die holder 26 in line with the central large diameter opening 28 thereof.
A pair of hydraulic cylinders 34 extend in the axial direction at diametrically opposite peripheral regions of the rear face of the die holder 26, one end portion of each of the hydraulic cylinders penetrating through the die holder 26 and 9 being connected to the rear face of the front stopper 14 by means of a ram 42.
As particularly shown in Fig.5(c), a pair of axially extending cylindrical recesses 28 are formed in the rear face of the die holder 26 near its outer periphery, and a small opening 32 is formed through the floor 30 of each cavity 28. A large diameter flange 44 of a respective one of the rams 42 is inserted into each recess 28, the :am extending through the small opening 32 being connected to the rear of the front stopper 14.
The front end of the piston 36 of the hydraulic cylinder 34 is coupled to a male lug 40 which is provided at a S central rear face of the large diameter flange 44, and the a front end of the hydraulic cylinder 34 is secured to the rear 00 face of the die holder 26 to abut upon the hollow portion 28 0 0* thereof.
00 or 0..0 In this way, the front face 44a of the large diameter 0 000o0o flange 44 provided at the end of the ram 42 is brought into contact with the innermost portion 30 of the cylindrical hollow a portion 28 when the piston (not shown) within the hydraulic 0 00 00 0o 00oo0 cylinder 34 is advanced forwardly.
0oo 00 The hydraulic cylinder 34 produces a pushing force which is larger than a tube drawing force of for instance 150 ooo 200 tons. In order to fix the die holder 26 at the desired position, the large diameter flange 44 is preferably brought into contact with the innermost portion 30. The hydraulic 0 006 0 00 cylinders 34 are connected to a hydraulic unit 50 by a pipe 48.
0 o0 A plug control device 60 shown in Fig.6 is arranged on the bed 12 at the entry side thereof and coaxially with the die control device 20. The plug control device 60 includes a base 62 which is rigidly mounted on the bed 12, a rear stopper 64 having a central lateral opening 66, and a rear post 68, the rear stopper 64 being reinforced on both sides by a pair of reinforcing members 10 A leading screw compressed-air cylinder 70 having a radial small opening 71 through a periphery rotatably and slidably extends through the central lateral opening 66, and a pair of screw nuts 72 and 74 are threadedly screwed on the extending portions of the compressed-air cylinder A rear end cover 82 including a compressed-air supply flexible pipe 76 is threadedly screwed on the rear end of the cylinder 70 and front cover 84 having a central opening 86 and a radial small opening 87 is threadedly screwed on the front portion of the cylinder 70. Prior to screwing of the front cover 84, a rear portion of a push-pull main rod 88 is closely fitted thfough the central opening 86 of the front cover 84 to o0000 allow a large diameter flange 89 to be located within the 00o 00 hollow cylinder 70 when the cover 84 is screwed on the front 0 0 o 0 end of the cylinder 70. When cover 84 is screwed on cylinder 0 70, the small radial opening 71 of the cylinder 70 is coincided 0000 with the radial small opening 87, into which a compressed-air 0 0 exhaust flexible pipe 78 is connected. The large diameter flange 89 of the push-pull main rod 88 is connected to the S0 0 piston 80 within the cylinder A front portion of a hydraulic cylinder 90 which is 0o.00o laterally mounted on the rear post 68 is coupled to the rear 00 end of the cylinder 70 by a ram 92, the rear end of which is 000o connected to a hydraulic unit 96 by a pipe 94.
As shown in Figs.7(a) a plug 100 is secured 0 to a front end portion of the push-pull main rod 88 by a shank o 00 98, and the plug 100 includes a large diameter bearing portion 0 00 0. 102 a forwardly tapered portion 104 and a small diameter bearing portion 106 (d3) which are shaped forwardly in the stated order.
In accordance with the draw bench 10 of this invention, the left screw nut 74 is rotatably brought into contact with the front face 64b of the rear stopper 64 to determine the right fixed position, while the right screw nut 72 is rotatably brought into contact with the rear face 64a 11 thereof to determine the left fixed position.
For drawing, the reducing die 2 and the plug 100 are respectively transferred to take the fixed positions by the hydraulic units 50 and 96 which are connected thereto by the respective pipes 48 and 94.
The reducing die 2 has an internal surface including an inlet portion 2b which tapers rearwardly, a small diameter bearing or throat portion 2a and an oppositely inclined outlet portion 2c.
A draw unit 110 is arranged on the exit side of the bed 12 and comprises a carriage 112 mounted on rollers travelling on the bed 12, the carriage 112 carrying a hook 118 Sand a chuck 114 for gripping the front tip 7a of the mother tube or workpiece 7. The carriage 112 is driven by an endless chain 120 encompassing a driven sprocket 122 and a driving sprocket wheel (not shown) mounted in the bed 12.
Drawing operations are schematically shown in S Figs.7(a)-7(c). The die holder 26 is located at the left fixed position as shown in Fig.5(a) to locate the large diameter bearing portion 102 (d4) of the plug 100 at the rearwardly a o0 tapered inlet portion 2b as shown in Fig. while the plug o control device 60 is located at the right fixed position in Fig.6 for drawing the mother tube 7.
000oo0 oooo In Fig.7(b), the die holder 26 is located at the left fixed position and the plug fixing main rod 88 is also located at the left fixed position to fix the large diameter bearing o O oO oo portion 102 (d4) of the plug 100 at the throat portion 2a of 0°01: the reducing die 2, thus drawing the mother tube 7 h2aving an inner peripheral upset portion 7b on each end, In Fig. the die holder 26 and plug fixing main rod 88 are relatively located so that the large diameter bearing portion 102 is located at the outlet portion 2c so that the tube is drawn out with an outer diameter dl and an inner diameter d4.
i ,r i 12 The drawn tube 7 having an inner peripheral upset portion 7b on one end and an outer peripheral upset portion 7b on another end shown in Fig.8(b) can be obtained through the continuous steps shown in Figs. 7(b) and The drawn tube 7 having a inner peripheral upset portions 7b on each end can be formed by successively performing the steps shown in Figs. and Finally, the drawn tube having outer peripheral upset portions 7b on both ends shown in Fig. 8(c) can be formed by sucessively performing the steps shown in Figs. and The die holder 26 and the plug fixing main rod 88 are driven to move with each other by means of the hydraulic units 50 and 96 which are mounted on the bed 12, taking account of the speeds among the drawn tube 7, the reducing die 2 and the I plug 100.
After drawing, the plug 100 is again brought back to the starting position by the plug control device 60, whii', the die holder 26 is also returned to the starting position by the die control device o An example of the drawn tube 7 having an upset ooL portion 7b on each end embodying the novel feature of this invention is given below.
040 4* o0t>r 4 OU 6O 13
EXAMPLE
material heat treatment Mn-Cr-Mo steel alloy quenching and tempering finally resulted in martensitic structure 000 4 a o 0 9 o o 0 00 00 o o o 0 000 o oa 00 0 0 0 0 ooo o 000 a o o 00 0 0 0 0 0o o oo 0 00 0 00o 0000 o oa 0 0o0 0 00 size after drawing outer diameter thick wall thickness thin wall thickness length Shore hardness strength joint of each drawn tube Use rotation depth other benefits 88.0 mm 6.6 mm 5.0 mm 2-6m 43 90 kg/ 2 joined at acme tapered screw thread of the upset end portion.
Surveying for underground resource such as uranium, metals etc. or for geological surveying.
800-1000 rpm boring 1000-1500 m under the ground mud and slurry are smoothly circulated ,i i' I 1 14 As is clear from the foregoing description and the Example, the preferred drawing method in accordance with this invention considerably improves the drawing steps, drawing rate, reduction of area and the like, and may advantageously be used to draw seamless metal tubes having upset portions at both ends.
While an embodiment of this invention has been described, it is obvious that variations and modifications are possible without departing from the invention. It is desired to cover all such forms of the invention as would be apparent to one skilled in the art, and that come within the scope of the appended claims.
f t I CCC C C
SOC
o 00 o o o 00 0 00 00 01 o 0 00 0060 0 0 a0 0 0 0 0 0 0

Claims (1)

  1. 2. A method of cold drawing a seamless metal tube having an upset portion on each end, comprising the steps of: defining a reducing area between first and second €C C relatively movable members, the first men~ber being a closed periphery reducing die and the second member being a plug secured to a front end portion of a main push-pull rod, the 'cr reducing die having an internal surface including a rearward inlet portion which tapers rearwardly, a forward outlet portion which tapers forwardly, and a small diameter bearing portion o 0between the inlet and outlet portions, the plug having a large o 000o diameter bearing portion between a rearward rearwardly tapered portion and a forward small diameter bearing portion; o0 O000 moving the reducing die and plug longitudinally with respect to each other at least twice to vary the size of the reducing area and fixing the reducing die and the plug in three o 0 0o0 different positions selected from first, second and third oeooo relative positions, the forward small diameter bearing portion of the plug being radially aligned with the small diameter bearing portion of the die in the first relative position so that the inner and outer peripheries of the reducing area therebetween respectively have a first inner diameter and a first outer diameter, the large diameter bearing portion of the plug being radially aligned with the small diameter bearing portion of the die in the second relative position so that the -I 17 inner and outer peripheries of the reducing area therebetween respectively have a second inner diameter greater than the first inner diameter and a second outer diameter equal to said first outer diameter, and a large diameter bearing portion of the plug being radially aligned with the outlet portion of the die in the third relative position so that the inner and outer peripheries of the reducing area therebetween respectively have a third inner diameter equal to the second inner diameter and a third outer diameter greater than the first and second outer diameters; and successively drawing a mother tube through the die and around the plug through the reducing area in three steps, COZI ,0t each of said steps being performed when the plug and die are :0 fixed in a different one of the first, second and third S, positions, including the steps of relatively fixing the plug and die in one of the first and third relative positions during the first step, then relatively moving the plug and die to the second relative position and relatively fixing the plug and die in the second relative position during the second step, and then relatively moving the plug and die to the other of the S first and third relative positions and relatively fixing the plug and die in said other of the first and third relative positions during the third step, to thereby successively form oaa first, second and third tube portions having inner and outer diameters corresponding to the reducing area during each of the three steps, the first and third tube portions forming upset 6 09 O 0 portions with the second tube portion therebetween, whereby 0 0 18 there is formed a tube having an outer upset portion and an inner upset portion at the first and third tube portions at the respective opposite ends of the second tube portion. DATED THIS 13th DAY OF APRIL, 1988. SANWA KOKAN CO. LTD. By its Patent Attorneys: CLEMENT HACK CO. Fellows Institute of patent Attorneys of Australia. 9 t '4 0 I 0 0 0 0oo 0 00 0 i
AU14730/88A 1984-04-16 1988-04-18 Method of cold drawing seamless metal tubes each having an upset portion on each end Ceased AU595108B2 (en)

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Application Number Priority Date Filing Date Title
AU14730/88A AU595108B2 (en) 1984-04-16 1988-04-18 Method of cold drawing seamless metal tubes each having an upset portion on each end

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
ZA842833A ZA842833B (en) 1984-04-16 1984-04-16
AU574673 1984-04-16
AU14730/88A AU595108B2 (en) 1984-04-16 1988-04-18 Method of cold drawing seamless metal tubes each having an upset portion on each end

Related Parent Applications (1)

Application Number Title Priority Date Filing Date
AU26862/84A Division AU574673B2 (en) 1984-04-16 1984-04-16 Making seamless metal tubes

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AU1473088A AU1473088A (en) 1989-09-28
AU595108B2 true AU595108B2 (en) 1990-03-22

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU639887B2 (en) * 1984-04-16 1993-08-12 Sanwa Kokan Co. Ltd. Methods of and devices for cold drawing seamless metal tubes each having an upset portion on each end
EP3713690B1 (en) * 2017-11-21 2023-09-06 Neturen Co., Ltd. Manufacturing method for hollow rack bar

Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU1472988A (en) * 1984-04-16 1988-07-14 Sanwa Kokan Co. Ltd. Methods of and devices for cold drawing seamless metal tubes each having an upset portion on each end

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU1472988A (en) * 1984-04-16 1988-07-14 Sanwa Kokan Co. Ltd. Methods of and devices for cold drawing seamless metal tubes each having an upset portion on each end

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
AU639887B2 (en) * 1984-04-16 1993-08-12 Sanwa Kokan Co. Ltd. Methods of and devices for cold drawing seamless metal tubes each having an upset portion on each end
EP3713690B1 (en) * 2017-11-21 2023-09-06 Neturen Co., Ltd. Manufacturing method for hollow rack bar
US11980929B2 (en) 2017-11-21 2024-05-14 Neturen Co., Ltd. Manufacturing method for hollow rack bar and hollow rack bar manufacturing apparatus

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