JP2002066767A - Hollow structural angle for friction stirring joining - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a hollow structural angle for friction stirring joining without deforming in the friction stirring joining of the hollow structural angle. SOLUTION: Face plates 11b and 12b of a hollow structural angle 10 and face plates 21b and 22b of a hollow structural angle 20 are butt-joined. A recess 16 is provided on the end face of the face plates 11b and 12b, and a projection 26 which fits in the recess is provided on the end face of the face plates 21b and 22b. Projections 15 and 25 are provided on the outside of the face plates 11b, 12b, 21b and 22b. In a rotary tool 50, a small diameter part 51 is provided in between large diameter parts 53 and 54. A screw is provided on the outer face of the small diameter part 51. A part to be joined is sandwiched in between the two large diameter parts 53 and 54, and brought into the friction stirring joining. Accordingly, since force toward the center part of the hollow structural angles 10 and 20 is not applied thereon, the structural angles 10 and 20 can be brought into the friction stirring joining without deforming.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to joining hollow members used for friction stir welding of a cylindrical portion.

[0002]

2. Description of the Related Art In a friction stir welding method, a round bar (referred to as a rotary tool) inserted into a joint is moved along a joining line while rotating, so that the joint is heated, softened, and plastically flows.
This is a solid-phase bonding method. The rotary tool has a large diameter part and a small diameter part. The small diameter portion is inserted into a member to be joined, and the end surface of the large diameter portion is brought into contact with the member. A screw is provided in the small diameter portion. In some cases, a member to be joined is positioned between two large-diameter portions of a rotary tool to perform friction stir welding. These are disclosed in Japanese Patent No. 2712838 (US Pat. No. 5,460,311).
7), Japanese Patent Publication No. 9-508073 (EP07529)
26B1).

[0003] Since the rotating tool must be inserted into the metal of the joint, a large force is applied to the joint. For this reason, when joining a hollow profile, the part of the connecting plate which connects the two face plates of the hollow profile is set to the friction stir welding position with the other hollow profile. In this method, the force is supported by the connection plate, and friction stir welding is performed while preventing deformation of the hollow profile. This is disclosed in JP-A-11-90655 (US Pat.
P6050474).

[0004]

SUMMARY OF THE INVENTION The above-mentioned Japanese Patent Application Laid-Open No. 11-90 is disclosed.
According to US Pat. No. 6,655,474 (US Pat. No. 6,050,474), friction stir welding can be performed while preventing deformation of a hollow profile. However, since a connecting plate is required at the friction stir welding position, there are restrictions on the friction stir welding position and the shape of the hollow member. For this reason,
As a result, the weight of the hollow profile increases. An object of the present invention is to provide a hollow profile for friction stir welding that does not deform in friction stir welding of a cylindrical portion such as a hollow profile.

[0005]

The present invention comprises a first face plate, a second face plate substantially parallel to the first face plate, and a connecting plate connecting the first face plate and the second face plate. Consisting of
The end of the first face plate and the end of the second face plate are
A protrusion or a protrusion is provided on the end face of the protruding end of the first face plate, the protrusion protruding beyond the connection between the connection plate and the first face plate or the second face plate. And a hollow member having a concave portion or a convex portion on an end surface of the second face plate on the side where the concave portion or the convex portion is located on the protruding end portion.

[0006]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIGS. In FIG. 4, the shape of the joint and the friction stir area indicated by hatching are schematically shown. The vehicle body 500 of the railway vehicle has a side structure 501 forming a side surface,
Roof structure 502 constituting the roof, underframe 50 constituting the floor
3. It is composed of a wife structure 504 constituting an end in the longitudinal direction.
The side structure 501, the roof structure 502, and the underframe 504 are formed by joining a plurality of extruded members 10 and 20, respectively. The longitudinal direction (extrusion direction) of the extruded members 10 and 20 is oriented in the longitudinal direction of the vehicle body 500. The extruded members 10 and 20 are hollow members made of an aluminum alloy.

The hollow members 10 and 2 forming the side structure 501
The structure of 0 will be described. The same applies to other hollow profiles. The hollow profile 10 (20) includes two substantially parallel face plates 11 (21) and 12 (22), and a plurality of connection plates 13 (23) connecting the two face plates. The connection plate 13 (23) is inclined with respect to the face plates 11 (21) and 12 (22). That is, the face plates 11 (21), 12
(22) The truss is constituted by the connection plate 13 (23).

The end of the hollow profile 10 (20) in the width direction projects beyond the connection between the connecting plate 13 (23) and the face plates 11, 12 (21, 22), and the face plates 11b, 12b (21b, 2).
2b). Face plates 11b, 12b (21b, 2
The outer surface of 2b) is flush with the outer surfaces of the face plates 11, 12 (21, 22). Face plates 11b, 12b (21b, 22b)
Is thicker than the plate thickness of the face plates 11 and 12 (21, 22).

At the ends of the face plates 11b, 12b (21b, 22b), there are convex portions 15 (25) protruding outward (outside in the thickness direction) of the hollow profiles 10, 20. The end faces of the face plates 11b and 12b have a concave portion 16. The recess 16 is provided on the end face of the face plate 21b, 22b of the other hollow profile 20.
There is a projection 26 that can enter. In order to facilitate the insertion of the projection 26 into the recess 16, the recess 16 and the projection 26 are trapezoidal. When inserted, the bottom surface of the concave portion 16 and the convex portion 26
There is a slight gap between it and the tip.

[0010] With the concave portion 16 and the convex portion 26 fitted together, the portion is friction stir welded. For this reason, it can be said that this joining portion is joining of the cylindrical portions composed of the face plates 11 and 21 (12 and 22) and the connecting plates 13 and 23. In addition, a cylinder does not need to comprise a complete cylinder. For example, even when a plate is joined to the end of the face plate 11 of the hollow profile 10, this joint can be said to be a joining of cylinders. In other words, a tube having no support member at the joint to support the insertion force of the rotary tool is called a tube.

The end faces 17 of the face plates 11 and 12 of the hollow profile 10 are on a line perpendicular to the plane of the face plates 11b and 12b (on a line along the thickness direction of the hollow profile). The two end faces 17 are on one line.

The end faces 27 of the face plates 21 and 22 of the hollow profile 20 are on a line perpendicular to the plane of the face plates 21b and 22b (on a line along the thickness direction of the hollow profile). The two end faces 27 are on one line. The protrusion allowance of the protrusion 26 is the same.

The overlap between the concave portion 16 and the convex portion 26 on the lower face plates 12b and 22b is determined by the upper face plates 11b and 2b.
It can be provided larger than the overlap between the concave portion 16 and the convex portion 26 on the 1b side. According to this, the recess 16 on the lower surface side
After the projections 26 are fitted with the concave portions 16 on the upper surface, the projections 26 are fitted with each other, so that the upper surface can be easily fitted.

The length of the face plate from the connection plate at the end of the hollow profile 10 to the connection plate 23 of the other hollow profile is longer than the length of the face plate constituting the truss of the other part. For this reason, the plate thickness of the face plates 11b, 12b, 21b, and 22b at the joint is slightly increased.

The rotary tool 50 has large diameter portions 53 and 54 on both sides of the small diameter portion 51 in the axial direction. The rotary tool 50 is rotated while the portion to be joined is sandwiched between the two large diameter portions 53 and 54 to perform friction stir welding. The outer surface of the small diameter portion 51 has a male screw. At the upper end of the rotary tool 50, there is a driving device for rotating and moving. Two large diameter portions 53,
Of the 54, the upper large-diameter portion 53 is referred to as a large-diameter portion 53 on the base shaft side (or the drive device side). The lower large-diameter portion 54 is referred to as a front-end large-diameter portion 54.

The member of the rotary tool 50 comprises a round bar 50b having a large diameter portion 53 and a small diameter portion 51, and a member 54b for the large diameter portion 54 at the tip. From the base end side, the round bar 50b has a large-diameter portion 53 having a circular outer diameter, a small-diameter screw portion 51b, and a large-diameter portion 5.
There is a small diameter shaft portion 51c for installing the fourth member 54b. The shaft portion 51c has a pin hole 57 for fixing the member 54b.

The member 54b corresponding to the large diameter portion 54 has a circular outer diameter, and has a hole 54c fitted into the shaft 51c and a pin hole 58. The end faces of the large diameter portions 53 and 54 on the screw portion 51b side have inclined depressions as shown in FIG. This depression is for holding the stirred metal inward and preventing it from flowing out to the part.

After the parts are manufactured as described above, the large-diameter portion 54
Is fitted to the shaft 51c, and the pin hole 5
The dowel pins 59 are fitted to 7, 58 to fix the member 54b. The member 54b becomes the large diameter portion 54. The length L (the distance from the end surface of the large diameter portion 53 to the end surface of the large diameter portion 54) L of the small diameter portion 51 is smaller than the plate thickness (including the convex portions 15, 25) t of the members to be joined. The diameter D of the large diameter portion 53 is smaller than the width W of the two convex portions 15 and 25 combined.

Next, a procedure for joining two hollow members will be described. Place two hollow profiles 10, 20 on bed 100,
The other hollow profile 2 is attached to the face plates 11b and 12b of the hollow profile 10.
The 0 face plates 21b and 22b are abutted. As a result, the convex portions 26 of the face plates 21b and 22b enter the concave portions 16 of the face plates 11b and 12b. In this state, the hollow members 10 and 20 are fixed to the bed 100. Also, arc welding is performed intermittently on the projections 15 and 25 on the upper surface.

In this state, the rotary tool 50 is moved from the longitudinal end surfaces of the hollow profiles 10 and 20 to the hollow profiles 10 and 20 while rotating, and the rotary tool 50 is moved between the two large diameter portions 53 and 54 (small diameter). The part to be joined is put in the part 51). Rotary tool 5
The portions to be joined are joined by the movement of 0.

When the joining of the face plates 11 and 21 is completed, the hollow members 10 and 20 are turned upside down and fixed to the bed 100 with the face plates 11 and 21 turned down. In the same manner as described above, the friction stir welding of the butted portion of the face plates 12b and 22b is performed.

At the time of friction stir welding, the rotary tool 50 is slightly inclined as is well known. In the moving direction of the rotary tool 50, the axis of the rotary tool is inclined rearward. The front end (the front in the moving direction) of the upper large-diameter portion 53 is located higher than the rear end (the rear in the moving direction).

The rear end of the upper large-diameter portion 53 has convex portions 15 and 25
Located within. The rear end of the large-diameter portion 53 has convex portions 15 and 25
Is located inside the face plate 11b except the convex portions 15 and 25,
This means that the rear end of the large-diameter portion 53 is located above the outer surface of 21b. According to this, the upper friction stir welding surface is higher than the upper surfaces of the face plates 11b and 21b (12b and 22b). When the upper surfaces of the face plates 11 and 21 are used as the outer surfaces of the vehicle, the remaining convex portions 15 and 25 are cut to remove the face plates 11b and 2b.
1b. The protrusions 15 and 25 on the inner surface side of the vehicle body are cut as necessary.

In the friction stir welding, a gap between portions to be joined (for example, a gap between the concave portion 16 and the convex portion 26, a gap between the end surfaces 17 and 27) is made of metal of the convex portions 15 and 25. And the gap is filled. The collected metal is blown off from around the large diameter portion 53. Since the length of the vehicle body 500 is about 20, the gap is easily formed. The large-diameter portion 54 at the tip is located below the face plates 11b and 21b. Large diameter part 54
The lower surfaces of the face plates 11b and 21b are slightly cut at the front end of the metal plate, but the metal slightly rises at the rear end of the large diameter portion 54. In FIG. 4, it is raised downward.

The vehicle body 500 has a length of about 20 m and the face plate 11
In many cases, b, 12b, 21b, and 22b are slightly distorted in the thickness direction of the hollow profiles 10 and 20. However, since the two face plates 11b and 21b are fitted with the concave portion 16 and the convex portion 26, the height position of the end portion of the face plate 11b and the height position of the end portion of the face plate 21b of the portion to be joined are different. There is no bump. When a level difference occurs, a gap is easily formed in the joint.
For this reason, friction stir welding with few defects can be performed by fitting.

At the time of friction stir welding, the two face plates are sandwiched between the two large-diameter portions 53, 54, so that the face plates 11b, 21
When joining the b side, no force is generated for inserting the rotary tool 50 into the face plates 12 and 22 side. For this reason, even if there is no support plate in a joining part, it can join, without deforming a hollow profile.

In the above embodiment, the face plate 11 of the hollow member 10 is used.
A concave portion 16 is provided in each of b and 12b, and a convex portion 26 is provided in the face plates 21b and 22b of the other hollow profile 20. However, the recesses 16 are provided in the face plates 11b and 22b,
Protrusions 26 may be provided on b and 21b. Further, it is also possible that the protruding portion 15 is provided only on one member of the butted portion.

The embodiment of FIG. 7 shows a cylinder 2 having a plate bent circularly.
This is a case where the end of No. 00 is friction stir welded to form a cylinder. The rotary tool uses the rotary tool 50 described above. When joining with a normal rotating tool, place a support member inside the cylinder,
Perform bonding. Alternatively, the joining portion is placed at the bottom, and a rotary tool is inserted into the cylinder to join. According to this, it is difficult to dispose the support member and the rotary tool, and in the case of a small-diameter cylinder, it is difficult to join. However, if joining is performed by positioning a portion to be joined between the two large-diameter portions, a small-diameter cylinder can be joined with a simple configuration.

The present invention can be applied not only to the joining of a cylinder but also to the joining of a cylinder bent into a square or the like. In addition, the present invention can be applied to a case where bonding is performed in the circumferential direction. For example, the present invention can also be applied to a case where the first cylinder and the second cylinder are butted in the axial direction and are joined in the circumferential direction. In this case, a hole for inserting the tip large-diameter portion 54 of the rotary tool is made at the welding start position, and welding is finished at the position of this hole. After completion, fill the hole with arc welding. Alternatively, the backing plate is arc welded.

The technical scope of the present invention is not limited to the language described in each claim or the language described in the section for solving the problem, and is easily replaced by those skilled in the art. It extends to a range.

[0031]

According to the present invention, friction stir welding can be performed without deforming a hollow profile.

[Brief description of the drawings]

FIG. 1 is a longitudinal sectional view of a pair of hollow profiles according to an embodiment of the present invention.

FIG. 2 is an enlarged vertical sectional view of a portion of the hollow profile shown in FIG. 1 to be joined.

FIG. 3 is a longitudinal sectional view of a main part at the time of joining in FIG. 1;

FIG. 4 is a vertical cross-sectional view of a main part after bonding in FIG. 1;

FIG. 5 is an exploded vertical sectional view of the rotary tool shown in FIG. 1;

FIG. 6 is a perspective view of a vehicle body of a railway vehicle.

FIG. 7 is a front view of another embodiment of the present invention.

[Explanation of symbols]

 10, 20 Hollow profile 11, 11b, 12, 12b, 21, 22 Face plate 15, 25 Convex part 16 Concave part 26 Convex part 50 Rotary tool 51 Small diameter part 53, 54 Large diameter part 200 Cylindrical 500 Body

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI Theme coat ゛ (Reference) B23K 103: 10 E04B 1/60 503N (72) Inventor Kazunari Fukuyose Hitachi Kasato Machinery Co., Ltd. 2E162 CB08 GB07 4E067 AA05 BG00 EB00

Claims (2)

[Claims] A first face plate, a second face plate substantially parallel to the first face plate, and a connection plate connecting the first face plate and the second face plate; The end of the face plate and the end of the second face plate are
A protrusion or a protrusion on the end face of the protruding end of the first face plate, the protrusion protruding beyond a connection portion between the connection plate and the first face plate or the second face plate. Having a concave portion or a convex portion on an end surface of the protruding end portion of the second face plate on the side where the concave portion or the convex portion is provided, wherein a hollow shape member for friction stir welding is provided. . 2. The hollow shape member for friction stir welding according to claim 1, wherein a second convex portion is provided on an outer surface side of each of the projecting first face plate and the second face plate. .