US 12,454,025 B2
Method and system for joining metal workpieces to provide a workpiece assembly
Paul Po Cheng, London (CA)
Appl. No. 18/278,108
Filed by Paul Po Cheng, London (CA)
PCT Filed Feb. 23, 2022, PCT No. PCT/CA2022/050255
§ 371(c)(1), (2) Date Aug. 21, 2023,
PCT Pub. No. WO2022/178627, PCT Pub. Date Sep. 1, 2022.
Claims priority of provisional application 63/152,989, filed on Feb. 24, 2021.
Prior Publication US 2024/0131616 A1, Apr. 25, 2024
Prior Publication US 2024/0227064 A9, Jul. 11, 2024
Int. Cl. B23K 20/00 (2006.01); B23K 20/14 (2006.01); B23K 20/16 (2006.01); B23K 20/24 (2006.01); B23K 20/26 (2006.01)
CPC B23K 20/16 (2013.01) [B23K 20/14 (2013.01); B23K 20/24 (2013.01); B23K 20/26 (2013.01)] 9 Claims
OG exemplary drawing
 
1. A method of forming a workpiece assembly (25), the method comprising:
(a) providing a first metal workpiece (22) defining a first longitudinal axis (26) thereof, the first workpiece having a first end (42) thereof
(b) providing a second metal workpiece (24) defining a second longitudinal axis (28) thereof, the second workpiece having a second end (44) thereof;
(c) positioning the first and second workpieces coaxially to locate the first and second ends facing each other and spaced apart from each other to define an opening between the first and second ends (42, 44);
(d) providing an intermediate element (30) defining an intermediate element axis (32) thereof, the intermediate element (30) having first and second contact surfaces (34, 36) on opposed first and second sides (38, 40) thereof respectively;
(e) positioning the intermediate element (30) in the opening (42, 44) to position the first and second contact surfaces (34, 36) facing the first and second ends (42, 44) respectively, to define first and second gaps (46, 48) therebetween respectively, the intermediate element (30) being located coaxial with the first and second workpieces (22, 24);
(f) providing a ring element assembly (56) for operatively connecting at least one motor to the intermediate element, the ring element assembly comprising a ring element (10) that is integrally formed with the intermediate element (30), the ring element extending radially outwardly from the intermediate element (30), for transmitting rotational motion to the intermediate element for rotation of the intermediate element about the intermediate element axis, the ring element (10) comprising a breakaway zone (64) between an inner portion (65) of the ring element (10) that is located proximal to the intermediate element (30) and a peripheral ring (15) thereof that extends radially outwardly from the breakaway zone (64), the breakaway zone (64) being configured for failure in shear upon at least partial fusion of the first end (42) and the first contact surface (34), and upon at least partial fusion of the second end (44) and the second contact surface (36);
(g) positioning at least one first heating element (50) and at least one second heating element (52) in the first and second gaps (46, 48) respectively;
(h) providing at least one non-oxidizing atmosphere covering the first and second ends (42, 44) and the first and second sides (38, 40) of the intermediate element (30);
(i) with the ring element (10), rotating the intermediate element (30) about the intermediate element axis (32);
(j) energizing said at least one first heating element (50), to heat the first end (42) and a first length portion (2) extending from the first end (42) into the first workpiece (22) to a predetermined hot working temperature, at which the first end (42) and the first length portion (2) are plastically deformable, and to heat the first contact surface (34) and a first intermediate element portion (6) extending from the first contact surface (34) into the intermediate element (30) to the predetermined hot working temperature, at which the first contact surface (34) and the first intermediate element portion (6) are plastically deformable;
(k) energizing said at least one second heating element (52), to heat the second end (44) and a second length portion (4) extending from the second end (44) into the second workpiece (24) to the predetermined hot working temperature, at which the second end (44) and the second length portion (4) are plastically deformable, and to heat the second contact surface (36) and a second intermediate element portion (8) extending from the second contact surface (36) into the intermediate element (30) to the predetermined hot working temperature, at which the second contact surface (36) and the second intermediate element portion (8) are plastically deformable;
(l) removing the first and second heating elements (50, 52) from the respective first and second gaps (46, 48);
while the intermediate element (30) is rotating about the intermediate element axis (32), and while the first end (42), the first length portion (2), the first contact surface (34), the first intermediate element portion (6), the second end (44), the second length portion (4), the second contact surface (36), and the second intermediate element portion (8) are at the predetermined working temperature, engaging the first end (42) with the first contact surface (34), to at least partially plastically deform the first end (42), the first length portion (2), the first contact surface (34), and the first intermediate element portion (6), and engaging the second end (44) with the second contact surface (36) to at least partially plastically deform the second end (44), the second length portion (4), the second contact surface (36), and the second intermediate element portion (8),
wherein the first end (42) and the first length portion (2), and the first contact surface (34) and the first intermediate element portion (6) are fused together, and wherein the second end (44) and the second length portion (4) and the second contact surface (36) and the second intermediate element portion (8) are fused together, to form the workpiece assembly (25),
and wherein the peripheral ring (15) is removable after failure of the breakaway zone (64).