JP6544508B2 - Welded joint - Google Patents

Description

  The present invention relates to a welding apparatus and a welded joint used to join a mandrel of a vehicle turbocharger and a turbine wheel.

  The above-described vehicle turbocharger includes a mandrel, a turbine wheel fixed to one end of the mandrel, and a compressor wheel fixed to the other end of the mandrel.

  The joint between the core and the turbine wheel of the turbocharger for a vehicle employs a welded joint which melts and joins the respective abutting portions to each other, and the welded joint includes the core and the turbine wheel relative to each other. In order to improve the centering accuracy of the shaft, an inlay structure is adopted in which a circular convex formed at the center of the end face of one end of the mandrel and a circular concave formed at the center of the end face of the turbine wheel (See, for example, Patent Document 1).

JP, 2010-096115, A

  However, in the welded joint between the mandrel of the turbocharger for a vehicle and the turbine wheel described above, an inlay structure is adopted in which the circular convex portion on the mandrel side and the circular concave portion on the turbine wheel side are mutually fitted. For example, when a core made of low alloy steel and a turbine wheel made of Ni-based superalloy which is a dissimilar metal are joined by welding, for example, the stress in the core radial direction at the time of rotation of the vehicle turbocharger There is a problem in that it concentrates on the root part of the convex part, and solving the problem has been a conventional problem.

  The present invention has been made focusing on the above-described conventional problems, and it is possible to improve the alignment accuracy between the mandrel and the turbine wheel, and then, for example, the mandrel made of low alloy steel and Ni being a dissimilar metal It is possible to join a turbine wheel made of a base superalloy without using an inlay structure, and as a result, the stress in the radial direction of the axle during rotation of the vehicle turbocharger can be suppressed to a low level. An object of the present invention is to provide a welding apparatus and a welded joint which can realize a long life.

A first aspect of a welding apparatus used for producing a welded joint according to the present invention is a welding apparatus for melting and joining together a mandrel of a turbocharger for a vehicle and a turbine wheel having a shaft, A centering mechanism for centering the shaft portion of the mandrel and the turbine wheel while a circular end surface having a circular end surface and a circular recess at the center of the shaft portion of the turbine wheel butt together; A welding portion is provided for melting and joining the circular end faces of the mandrel and the shaft portion of the turbine wheel, which are aligned by the centering mechanism.

According to a second aspect of the present invention, in a second aspect of the welding device used in the manufacturing of the welded joint , preferably, a welding portion for melting and joining respective circular end faces of the shaft portion of the stem and the turbine wheel is preferably a laser The laser processing head is configured to be capable of irradiating a laser beam having a beam diameter of 0.1 to 0.8 mm.

On the other hand, one aspect of the welded joint according to the present invention is a welded joint formed by fusing together a mandrel of a turbocharger for a vehicle and a shaft portion of a turbine wheel having a shaft portion , wherein the mandrel and the shaft A circular recess is formed at the center of each of the circular end surface of the mandrel and the circular end surface of the shaft portion of the turbine wheel, which are butted to each other in a state in which the shaft portions of the turbine wheel are aligned. The shaft and the turbine in a state in which the shaft-side recess in the circular end surface of the shaft of the turbine wheel is formed larger in diameter than the shaft-side recess in the circular end surface of the shaft, and centering is achieved. The circular end faces of the shaft portion of the impeller are fused together and formed.

Welding apparatus for use in the manufacture of a welded joint according to the present invention, after performing mutual alignment of the heart rod and the turbine wheel of the turbocharger vehicle, the mandrel and the circular end faces of the shaft portion of the turbine impeller Are fused to each other, so that, for example, even if the case of welding a core made of a low alloy steel and a turbine impeller made of a Ni-based superalloy which is a dissimilar metal by welding, a conventional inlay is obtained. As compared with a welded joint adopting a structure, the stress in the radial direction of the mandrel at the time of rotation of the turbocharger for a vehicle is suppressed to a low level, and the lifetime of the turbocharger for a vehicle can be extended.

  Under the present circumstances, if it is set as melt | dissolution and joining each circular end surfaces of a shaft and the axial part of the said turbine wheel by laser welding compared with the case where electron beam welding is used, the reduction of cost is reduced by the part which increases production speed. Will be

In the welded joint according to the present invention, for example, the core made of low alloy steel and the turbine impeller made of Ni-based super alloy which is a dissimilar metal are improved after the centering accuracy between the core and the turbine wheel is improved. It is possible to join without using the inlay structure, and as a result, it is possible to realize the longer life of the vehicle turbocharger by the amount that can suppress the stress in the radial direction of the stem during rotation of the vehicle turbocharger. It has a very good effect of being

Side view (a) showing in cross section a weld joint portion of a turbocharger for a vehicle in which a weld joint according to the present invention is adopted for joining a mandrel and a turbine wheel FIG. 1 b is an enlarged explanatory view (c) at a position equivalent to the inside of a circle in FIG. 1 (a) in a welded joint portion of a conventional vehicle turbocharger. BRIEF DESCRIPTION OF THE DRAWINGS It is schematic structure explanatory drawing (a) before welding which shows the welding apparatus used for manufacture of the weld joint which concerns on one Example of this invention, and schematic structure explanatory drawing (b) in welding. It is a graph which shows the effect of the welding joint concerning the present invention.

Hereinafter, the present invention will be described based on the drawings.
FIG. 1 shows a turbocharger for a vehicle in which a weld joint according to the present invention is adopted, and FIG. 2 shows an embodiment of a welding apparatus used for producing a weld joint according to the present invention.

  As shown in FIG. 1 (a), the turbocharger 1 for a vehicle includes, for example, a mandrel 2 made of low alloy steel, which is a steel material, and Ni fixed to a large diameter portion 2a which is one end of the mandrel 2. A turbine wheel 3 made of a base superalloy and a compressor wheel (not shown) fixed to the other end of the mandrel 2 are provided.

  The vehicle turbocharger 1 having such a configuration is mounted on an internal combustion engine of the vehicle, and is installed so that the turbine wheel 3 is located in the exhaust passage and the compressor wheel is located in the intake passage. By installing in this manner, the turbine wheel 3 is rotated by the exhaust flow, and the rotation of the turbine wheel 3 is transmitted to the compressor wheel via the mandrel 2 so that the compressor wheel is rotated and suctioned. Compress the air.

In joining of the axle 2 and the turbine wheel 3 of the turbocharger 1 for a vehicle, a welded joint is employed which melts and joins the mutually abutting portions . As shown also in FIG. 1 (b), the circular end faces 2b and 3b of the large diameter portion 2a of the mandrel 2 and the shaft portion 3a of the turbine impeller 3 are butted and joined by welding to form a welded joint 5 Thus, the vehicle turbocharger 1 is formed. At this time, circular recesses are respectively formed at the centers of the large diameter portion 2a of the mandrel 2 and the circular end surfaces 2b and 3b of the shaft portion 3a of the turbine impeller 3 which are butted to each other in a centered state. The shaft-side recess of the turbine wheel 3 is formed to have a diameter larger than that of the mandrel-side recess of the mandrel 2.

  The welding device 10 for joining the axle 2 of the vehicle turbocharger 1 and the turbine wheel 3 is in a predetermined state in which the axle 2 is vertically aligned as shown in FIGS. 2 (a) and 2 (b). The jig 11 to be fixed, the laser oscillator 12, and the laser beam LB supplied from the laser oscillator 12 are collected by the optical system 13 and the stem 2 on the jig 11 and the turbine wheel 3 mounted on the stem 2 The laser processing head (welding part) 14 which irradiates to the butt | matching site | part between between, and the control part 15 which controls welding conditions, such as a laser output and a spot diameter.

  Further, the welding device 10 abuts on the large diameter portion 2a of the mandrel 2 on the jig 11 and the respective circular end surfaces 2b and 3b of the shaft portion 3a of the turbine wheel 3 mounted on the large diameter portion 2a. A centering mechanism for centering the large diameter portion 2a of the stem 2 and the shaft portion 3a of the turbine wheel 3 is provided. This centering mechanism comprises a cylinder 20 and a curved support plate 22 fixed to the end of the rod 21 of this cylinder 20, and three sets (120 in FIG. 2) of 120 degrees around the mandrel 2 Only the set is shown).

  When joining the mandrel 2 and the turbine wheel 3 of the above-described turbocharger 1 for a vehicle, that is, when forming the welded joint 5 of the turbocharger 1 for a vehicle, first, the mandrel 2 is perpendicular to the jig 11 Next, after fixing in a predetermined state, the turbine wheel 3 is placed on the large diameter portion 2 a of the stem 2 on the jig 11.

  Then, the cylinder 20 of the centering mechanism performs the push-out operation of the rod 21 to press the curved support plate 22 across the large diameter portion 2 a of the mandrel 2 and the shaft portion 3 a of the turbine wheel 3 from three directions Thereby, the large diameter portion 2a of the mandrel 2 and the center of the shaft portion 3a of the turbine impeller 3 are abutted while the circular end surfaces 2b and 3b of the large diameter portion 2a of the mandrel 2 and the shaft portion 3a of the turbine impeller 3 are butted. Make a match.

  In this state, laser light LB is irradiated from the laser processing head 14 between the circular end surfaces 2b and 3b of the large diameter portion 2a of the mandrel 2 and the shaft portion 3a of the turbine impeller 3 to weld the circular end surfaces 2b and 3b Temporarily attach.

  Next, the cylinder 20 of the centering mechanism pulls in the rod 21 to separate the curved support plate 22 from the large diameter portion 2a of the stem 2 and the shaft portion 3a of the turbine wheel 3, and then again. The laser beam LB is irradiated from the laser processing head 14 between the circular end surfaces 2b and 3b of the large diameter portion 2a of the mandrel 2 and the shaft portion 3a of the turbine impeller 3 so that the circular end surfaces 2b and 3b melt together. Join.

  In the welding apparatus 10 of the above-described embodiment, the mandrel 2 and the shaft portion 3a of the turbine wheel 3 and the welded joint 5 of the large diameter portion 2a of the mandrel 2 of the turbocharger 1 for a vehicle and the shaft portion 3a of the turbine wheel 3 The respective circular end faces 2b and 3b of the large diameter portion 2a of the mandrel 2 and the shaft portion 3a of the turbine wheel 3 are fused together.

  In other words, an inlay structure in which a circular convex portion 102b formed at one end portion 102a of the mandrel as shown in FIG. 1C and a circular concave portion 103b formed at the shaft portion 103a of the turbine wheel are mutually fitted. In the weld joint 5 of the turbocharger 1 for a vehicle, the weld joint 5 of the turbocharger 1 of the vehicle is compared with a weld joint in which the stress P is concentrated at the root portion of the protrusion 102b on the stem side. The stress in the axial direction of the mandrel at the time of rotation is suppressed to a low level, and as a result, the life of the vehicle turbocharger 1 can be extended.

  Then, when each radial direction stress of the weld joint 5 formed of the welding apparatus 10 which concerns on the above-mentioned Example and the weld joint which employ | adopted the conventional inlay structure was compared, the result shown in FIG. 3 was obtained.

  As shown in FIG. 3, in the welded joint 5 according to the above-described embodiment (the shape of the present invention), the radial direction stress is small even when the axial position from the joint is close, while the conventional inlay structure is In the adopted welded joint (conventional shape), it can be seen that the radial stress is considerably large when the axial position is near from the joint.

  Therefore, in the welding device 10 according to this embodiment, it has been proved that the welded joint 5 can be obtained which has low stress in the axial direction of the mandrel when the turbocharger 1 for a vehicle is rotating.

Engaging Ru of welded joint structure in the present invention is not limited to the configuration of the above embodiment.

DESCRIPTION OF SYMBOLS 1 Turbocharger 2 Vehicle 2 Axle 2b Circular end face 3 part of large diameter part Turbine wheel 3a Shaft part 3b of turbine wheel A circular end face of shaft part 5 Weld joint 10 Welding apparatus 14 Laser processing head (welded part)
20 cylinders (alignment mechanism)
21 cylinder rod (centering mechanism)
22 Support board (alignment mechanism)

Claims (1)

A weld joint formed by fusing together an axle of a turbocharger for a vehicle and a shaft of a turbine wheel having the shaft,
A circular recess is provided at the center of the circular end face of the mandrel and the circular end face of the shaft of the turbine wheel, which are butted to each other in a state in which the shaft and the shaft of the turbine wheel are aligned. Are formed respectively,
The shaft-side recess in the circular end surface of the shaft portion of the turbine wheel is formed to have a diameter larger than that of the mandrel-side recess in the circular end surface of the mandrel;
A welded joint formed by fusing together the circular end faces of the mandrel and the shaft portion of the turbine wheel in an aligned state .

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