JP2005231576A5 - - Google Patents

Description

Railway vehicle structure

  The present invention relates to a railway vehicle structure formed by friction stir welding of an extruded profile or a hollow extruded profile.

The vehicle body of the railway vehicle, that is, the railway vehicle structure is configured as shown in FIG. In FIG. 4, a railway vehicle structure 1 includes a side structure 2 that forms both sides of the structure, a wife structure 3 that forms an end face in the traveling direction, a roof structure 4 that forms an upper surface, and a frame 5 that forms a lower surface. In recent years, the railway vehicle structure 1 is often manufactured by an extruded shape made of an aluminum alloy, and is formed by friction stir welding a plurality of the extruded shapes. The extruded shape member constituting the railway vehicle structure is composed of a flat plate portion forming the outer surface of the vehicle body and a rib serving as a reinforcing member for the flat plate portion. Further, the extruded shape is formed in a flat plate shape, but a hollow extruded shape having a shape in which two flat plate portions are connected by a truss is also used as a member constituting the railway vehicle structure.
A technique for manufacturing a structure for a railway vehicle using friction stir welding is described in Patent Document 1 below, for example.
FIG. 5 is an explanatory view showing a conventional joint structure for friction stir welding.
The two extruded shape members 10 and 20 to be friction stir welded have their joint ends abutted to form a joint surface 30 of the joint.

A protruding portion 12 that protrudes from the upper surface of the extruded shape member 10 is formed at the joining end portion of the first extruded shape member 10 on the side on which the friction stir welding tool 50 is inserted.
The upper surface 14 of the protrusion 12 is formed as a flat surface, and the side surface 13 of the protrusion 12 is connected to the upper surface 11 of the flat plate portion of the extruded shape member 10 by a small arc R ₁ .

Similarly, a protruding portion 22 that protrudes from the upper surface 21 of the flat plate portion is also formed at the joining end portion of the second extruded shape member 20. Upper surface 24 of the projecting portion 22 is formed into a flat surface, the side surface 23 of the projection 22, are connected by connecting portions having a small arc R ₁ with respect to the upper surface 21 of the flat plate portion of the extruded shape members 20.

The friction stir welding tool 50 has a small diameter portion 52 at the tip, and friction stir welding is performed with the center of the small diameter portion 52 aligned with the joining surface 30 (b).
Joint of the joined extruded shape members 10 and 20, the upper surface forms a flat surface 40, the burr B ₁ is left in its ends. The burr B ₁ is cut to remove the joint portion is completed (c).

The upper surface 42 of the joint portion protrudes from the upper surfaces 11 and 21 of the two extruded shape members 10 and 20 joined to form a stepped portion.
This stepped portion forms a notch 41.
JP 11-314173 A

In this joint part, it is advantageous to make the plate thickness thicker than the flat plate part in order to compensate for the strength reduction of the joint part. That is, the flat plate portion of the extruded shape member is configured to be as thin as possible in order to reduce the weight as a railway vehicle structure while ensuring the necessary strength. Therefore, if the thickness of the joined end portion of the extruded shape member is the same as the thickness of the flat plate portion, there is a concern that sufficient strength cannot be ensured due to the strength reduction of the joined portion. Therefore, it is conceivable to make the thickness of the joint portion thicker than that of the flat plate portion. Thus, in FIG. 5 (b), in removing the burr B ₁ of the joint portion, leaving a part of 12, 22 of the projecting portion, the thickness of該継hand portion as shown in FIG. 5 (c) Secure. However, the notch 41 of the protrusion remaining in the joint portion may cause stress concentration when bending stress or the like is applied to the extruded shape members 10 and 20.
An object of the present invention is to provide a railway vehicle structure that solves the above-described problems.

In order to achieve the above object, the railway vehicle structure of the present invention includes, as a basic means, a protrusion protruding from the upper surface of the flat plate portion of the extruded shape member to the side where the friction stir welding tool is inserted, and Between the side surface of the protrusion and the upper surface of the extruded shape member, it is constituted by an arc having a large radius formed on the surface side of the extruded shape member and an arc having a small radius formed on the side surface side of the protrusion. A connecting portion is provided, and the extruded shape member is used as an outer plate of a railway vehicle structure, and the protruding portion side of each extruded shape member is arranged on the vehicle inner side.

Since the railway vehicle structure of the present invention has the above-described configuration, it is possible to ensure a sufficient thickness of the joint portion and between the joint surface obtained by cutting burrs generated during friction stir welding and the upper surface of the extruded shape member. The steps are connected by an arc with a large radius . Therefore, concentration of stress on the step can be avoided.

  Examples of the present invention will be described below.

FIG. 1 is an explanatory view showing Embodiment 1 of the present invention.
The two extruded shapes 100 and 120 to be friction stir welded have their joint ends abutted to form a joint surface 140 of the joint.

The joining end portion of the first extruded shape member 100 has a protrusion 110 protruding from the upper surface of the flat plate portion of the extruded shape member 100 on the side where the friction stir welding tool 50 is inserted.
The upper surface 114 of the protrusion 110 is formed as a flat surface, and the side surface 112 of the protrusion 110 is a connecting portion having a first arc R ₂ and a second arc R ₃ with respect to the upper surface 102 of the extruded shape member 100. Tied. The first arc R ₂ has a small radius and the second arc R ₃ has a large radius .

Similarly, the joining end portion of the second extruded shape member 120 has a protrusion 130 protruding from the upper surface of the flat plate portion of the extruded shape member 120 on the side where the friction stir welding tool 50 is inserted.
The upper surface 134 of the protrusion 130 is formed as a flat surface, and the side surface 132 of the protrusion 130 has a first arc R ₂ and a second arc R ₃ with respect to the upper surface 122 of the flat plate portion of the extruded shape member 120. Connected at the connecting part. The first arc R ₂ has a small radius and the second arc R ₃ has a large radius . These extruded shape members 100 and 120 are used as outer plates of the railway vehicle structure, and are used so that the surface on which the protrusions 110 and 130 are formed is the inside of the vehicle.

The friction stir tool 50 has a small-diameter portion 52 at the tip, and friction stir welding is performed with the center of the small-diameter portion 52 aligned with the joining surface 140 (b).
Joint of the extruded shape members 100 and 120 are joined, the upper surface forms a flat surface 150, the burr _{B 1} is left in its ends. The burr B ₁ is cut to remove the joint portion is completed (c).

When the extruded shape members 100 and 120 are used as the outer plate of the railway vehicle structure, the surface having the protrusions 110 and 130 is used as the vehicle inner side. That is, the plate thickness T other than the joint portion of the extruded shape members 100 and 120 is formed to a predetermined thickness in order to ensure the strength required as the outer plate of the railway vehicle structure. Further, since the plate thickness T needs to secure the plate thickness Tc of the joint portion determined in consideration of the strength reduction of the friction stir welded portion, the outside of the vehicle where the protrusions 110 and 130 are not provided is a flat surface. In this case, it is unavoidable that the thickness is larger than that necessary to ensure the strength required for the outer plate. However, the projections 110, 130 as shown in FIG. 1 (c) by molding, leaving a portion of the arc R _3, be made thicker than the plate thickness T of the non-bonded portion the thickness Tc of the joint portion Therefore, it is possible to secure a plate thickness for making up for a decrease in strength of the joint portion. Therefore, since the plate thickness T other than the joint portion can be set to a necessary thickness as an outer plate of the railway vehicle structure, the extruded shape members 100 and 120 can be reduced in weight. That is, the weight of the entire railway vehicle structure can be reduced. In addition, when the surface provided with the protrusions 110 and 130 of the extruded shape members 100 and 120 is the inside of the vehicle, if the appearance of the outer surface of the friction stir welded portion is not good, each extruded shape member 100, A protrusion with a slight thickness is also provided on the opposite surface forming the protrusions 110 and 130 of the 120, that is, the outer surface of the vehicle. It ’s fine.
According to such a configuration, the thickness Tc of the joint portion, by finished leaving an arc R ₃ projections 110 and 130, without causing stress concentration, to sufficiently ensure the thickness Tc Can do. Therefore, since it is not necessary to make the plate thickness T other than the joint portion of the extruded shape members 100, 130 thicker than necessary as the outer plate of the railway vehicle structure, the weight of the entire railway vehicle structure can be reduced.

FIG. 2 is an explanatory view showing Embodiment 2 of the present invention.
The two extruded shape members 200 and 220 to be friction stir welded are joined together to form a joint surface 240 of the joint portion.

At the joining end portion of the first extruded shape member 200, a projection 210 is formed that protrudes from the upper surface of the flat plate portion of the extruded shape member 200 on the side where the friction stir welding tool 50 is inserted.
Upper surface 214 of the protrusion 210 is formed on the flat surface, the side surface 212 of the protrusion 210, the upper surface 202 of the flat plate portion of the extruded shape members 200 are connected by connecting portions having a portion _{D 1} of the ellipse . The ellipse part D ₁ has a large radius on the flat plate portion side and a small radius on the side surface portion 212 side of the protrusion 210.

Similarly, the joining end portion of the second extruded shape member 220 has a protrusion 230 protruding from the upper surface of the flat plate portion of the extruded shape member 220 on the side where the friction stir welding tool 50 is inserted.
The upper surface 234 of the protrusion 230 is formed as a flat surface, and the side surface 232 of the protrusion 230 is connected to the upper surface 222 of the extruded shape member 220 by a connecting portion having a part D ₁ of an ellipse. The ellipse part D ₁ has a large radius on the flat plate portion side and a small radius on the side surface portion 212 side of the protrusion 210.
These extruded shape members 200 and 220 are used as outer plates of the railway vehicle structure, and are used so that the surface on which the projections 210 and 230 are formed is the inside of the vehicle.

The friction stir tool 50 has a small-diameter portion 52 at the tip, and friction stir welding is performed with the center of the small-diameter portion 52 aligned with the joining surface 140 (b).
Joint of the extruded shape members 200, 220 which are joined, the upper surface forms a flat surface 250, the burr _{B 1} is left in its ends. The burr B ₁ is cut to remove the joint portion is completed (c).

According to such a configuration, the thickness of the joint portion, by finished leaving a portion D ₁ of the elliptical protrusion 210 and 230, without causing stress concentration, the thickness of sufficiently ensured be able to. Therefore, as in the first embodiment, it is not necessary to make the plate thickness other than the joint portions of the extruded shape members 210 and 230 more than necessary as the outer plate of the railway vehicle structure, so that the weight of the entire railway vehicle structure is reduced. Can do.

3A and 3B show the third embodiment of the present invention.
The present embodiment shows an example in which the side structure of the vehicle is made of an aluminum alloy hollow extruded shape.
The first hollow extruded shape member 400 constituting the joint portion has a hollow cross section, and has a structure in which two parallel flat plates 410 and 420 are connected by a truss 460.

  The second hollow extruded shape member 500 also has a hollow cross section, and has a structure in which two parallel flat plates 510 and 520 are connected by a truss 560.

First flat plate 410 of the first hollow extruded shape member 400 is disposed on the interior side S ₁ of the vehicle, projection 430 is formed on the mating end. The connecting portion between the protrusion 430 and the first flat plate 410 is connected by the arc R ₂ having a small radius and the arc R ₃ having a large radius described in the first embodiment.

First flat plate 510 of the second hollow extruded shape member 500 similarly is disposed in the interior side S ₁ of the vehicle, it is formed projections 530 at its mating end. The connecting portion between the protrusion 530 and the first flat plate 510 is connected by the arc R ₂ having a small radius and the arc R ₃ having a large radius described in the first embodiment.

Second flat plate 420 of the first hollow extruded shape member 400 is disposed in the vehicle outer side _{S 2} of the vehicle, with a projection 440. Projection 440 and the flat plate 420 are connected by the corner portion _{C 1.}

Second flat plate 520 of the second hollow extruded shape member 500 is also disposed in the vehicle outer side _{S 2} of the vehicle, with a projection 540. Projection 540 and the flat plate 520 are connected by the corner portion _{C 2.}

The ends of the first hollow extruded shape member 400 and the second hollow extruded shape member 500 are fitted with tapered surfaces T ₁ and T ₂ .
Therefore, gaps G ₁ and G ₂ are formed at the abutting portion between the first hollow member 400 and the second hollow member 500.

Friction stir welding is performed with the center of the small diameter portion 52 of the friction stir welding tool 50 approximately aligned with the centers of the gaps G ₁ and G ₂ .
At this time, the pressing force generated by the friction stir welding tool is mainly received by the truss 560 having high rigidity of the second hollow extruded shape member.

(B) in the figure shows a state where the joint surface 650 of the joint surface 600 of the interior side _{S 1} outdoor side _{S 2} is friction stir welding.
On both sides of both joint surfaces 600, 650, burr _{B 1} is left.

(C) in FIG removes burrs giving the process the joint surface 600 of the interior side S _1, showing a state in which to complete a joint surface 610.
The joint surface 610 forms a surface projecting from the flat plate 410 of the first hollow extruded shape member and the flat plate 510 of the second hollow extruded shape member as in the first embodiment, but this connecting portion has a large curvature. linked by an arc R ₃ having, stress concentration does not occur. The side structure of the vehicle interior side S _1, since the interior is subjected, not inconvenience in the state of being protruded joint surface 610. Further, the joint surface 610 forms a surface protruding from the flat plate 410 of the first hollow extruded shape member and the flat plate 510 of the second hollow extruded shape member, so that a sufficient thickness of the joint portion can be secured. Therefore, since it is not necessary to thicken the flat plates 410 and 510, the weight of the railway vehicle structure can be reduced.

(D) in the figure, by processing the joint surface 660 of the exterior S _2, joint surfaces 670 and flat plate 420 of the first hollow extruded shape member forming the same surface as the flat plate 520 of the second hollow extruded shape member Shows the completed state.
Exterior side S _2, so to form the same plane, stress concentration does not occur, also, it is possible to obtain a highly aesthetic side structure.
Incidentally, it is of course possible to apply the elliptical described protrusion of the joint surface of the interior side S ₁ in Example 2.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. Explanatory drawing of Example 2 of this invention. Explanatory drawing of Example 3 of this invention. Explanatory drawing of Example 3 of this invention. Explanatory drawing of a railway vehicle structure. Explanatory drawing of the conventional joint structure.

Explanation of symbols

50 Friction stir welding tool 52 Friction stir welding tool small diameter portion 100 Extruded profile 102 Extruded profile top surface 110 Extruded profile projection 120 Extruded profile 122 Extruded profile top surface 130 Extruded profile projection 140 Bonding surface 150 Bonded flat surface 152 Flat surface obtained by cutting burrs

Claims (4)

In a railway vehicle structure constituted by friction stir welding of a plurality of extruded shapes,
Each extruded shape member to be friction stir welded is composed of a flat plate portion and a rib,
A protrusion that protrudes from the surface of the flat plate portion to the side where the friction stir welding tool is inserted is provided at the joining end portion of the flat plate portion, and the flat plate portion is interposed between the side surface of the protrusion and the upper surface portion of the flat plate portion A connecting portion composed of an arc having a large radius formed on the surface side of the arc and an arc having a small radius formed on the side surface of the protrusion,
Using each extruded shape as an outer plate of a railway vehicle structure, the protrusion side of each extruded shape was disposed on the vehicle interior side,
A railway vehicle structure characterized by In a railway vehicle structure constituted by friction stir welding of a plurality of extruded shapes,
Each extruded shape member to be friction stir welded is composed of a flat plate portion and a rib,
A protrusion protruding from the surface of the flat plate portion to the side where the friction stir welding tool is inserted is provided at the joining end portion of the flat plate portion, and an ellipse is provided between the side surface of the protrusion and the upper surface portion of the flat plate portion. Comprising a connecting part,
Using each extruded shape as an outer plate of a railway vehicle structure, the protrusion side of each extruded shape was disposed on the vehicle interior side,
A railway vehicle structure characterized by In a railway vehicle structure constituted by friction stir welding of a plurality of hollow extruded shapes,
Each of the hollow extruded shapes to be friction stir welded is composed of two flat plate portions and a truss,
At the joining end portion of at least one flat plate portion of the two flat plate portions, a protrusion projecting from the surface of the flat plate portion to the side where the friction stir welding tool is inserted is provided. Between the upper surface portions of the flat plate portion is provided with a connecting portion composed of an arc having a large radius formed on the surface side of the flat plate portion and an arc having a small radius formed on the side surface side of the protrusion,
Using each of the hollow extruded shape members as the outer plate of the railway vehicle structure, the projecting side of each hollow extruded shape member was arranged on the vehicle interior side,
A railway vehicle structure characterized by In a railway vehicle structure constituted by friction stir welding of a plurality of hollow extruded shapes,
Each of the hollow extruded shapes to be friction stir welded is composed of two flat plate portions and a truss,
At the joining end portion of at least one flat plate portion of the two flat plate portions, a protrusion projecting from the surface of the flat plate portion to the side where the friction stir welding tool is inserted is provided. Between the upper surface portion of the, provided with a connecting portion made of an ellipse,
Using each of the hollow extruded shape members as the outer plate of the railway vehicle structure, the projecting side of each hollow extruded shape member was arranged on the vehicle interior side,
A railway vehicle structure characterized by