MOUNTING BOLT FOR SUB-FRAME

Abstract

A mounting bolt for a sub-frame is disclosed. A mounting bolt for a sub-frame that is configured to a sub-frame to a front side member of a vehicle according to one or a plurality of exemplary embodiments of the present invention may include a bolt body that is inserted into a through-hole of a mounting bracket that is fixed to the front side member and joined to the mounting bracket through a head portion, and a support body that has a cylindrical shape, is friction-welded to a center of an upper surface of a head portion of the bolt body along one line, and of which an upper end is joined to the front side member.

Claims

1. A mounting bolt for a sub-frame that is configured to a sub-frame to a front side member of a vehicle, comprising: a bolt body that is inserted into a through-hole of a mounting bracket that is fixed to the front side member and joined to the mounting bracket through a head portion; and a support body that has a cylindrical shape, is friction-welded to a center of an upper surface of a head portion of the bolt body along one line, and of which an upper end is joined to the front side member.

2. The mounting bolt for a sub-frame of claim 1, wherein the support body is friction-welded to be joined in a condition in which a front end thereof is inserted into a groove that is formed at a center of an upper surface of the head portion.

3. The mounting bolt for a sub-frame of claim 1, wherein the support body is friction-welded to the head portion in a condition in which a front end thereof is inserted into a protruded portion that is formed at a center of an upper surface of the head portion.

4. The mounting bolt for a sub-frame of claim 3, wherein the head portion has an insertion groove into which a front end of the support body is inserted at a circumference of the protruded portion.

5. The mounting bolt for a sub-frame of claim 4, wherein the support body is friction-welded to be joined in a condition in which a front end thereof is inserted into the insertion groove.

6. The mounting bolt for a sub-frame of claim 1, wherein the bolt body is joined by CO2 welding or projection welding to the mounting bracket through the head portion.

7. The mounting bolt for a sub-frame of claim 1, wherein the bolt body and the support body are formed by cold forging.

8. The mounting bolt for a sub-frame of claim 1, wherein an outside wall is formed along a circumference of the head portion, an undercut groove is formed along an inner circumference of the outside wall, and a front end portion of the support body is inserted into a center portion of the outside wall and is friction-stir welded on the head portion of the bolt body.

9. The mounting bolt for a sub-frame of claim 8, wherein an end portion of the support body is partially melted by friction-stir welding to be joined to a head portion of the bolt body, and a welding bead flows into the undercut groove to be fixed thereto.

10. The mounting bolt for a sub-frame of claim 1, wherein a protruded portion is formed at an upper center of the head portion, an undercut groove is formed along an exterior circumference of the protruded portion, and a front end portion of the support body is inserted into the protruded portion to be friction-stir welded.

11. The mounting bolt for a sub-frame of claim 10, wherein an end portion of the support body is partially melted by friction-stir welding to be fixed at an undercut groove of a head portion of the bolt body, and simultaneously a welding bead fills the undercut groove to be fixed therein.

12. The mounting bolt for a sub-frame of claim 1, wherein an insertion groove, into which a front end portion of the support body is inserted, is formed in the head portion, an undercut groove is formed in the insertion groove in a radial direction, and a front end portion of the support body is inserted into the insertion groove and is friction-stir welded on a head portion of the bolt body.

13. The mounting bolt for a sub-frame of claim 12, wherein an end portion of the support body is partially melted by friction-stir welding in an undercut groove that is formed on a head portion of the bolt body, and a welding bead fills the undercut groove to be fixed thereto.

14. A mounting bolt for a sub-frame that is used to engage a sub-frame to a front side member of a vehicle, comprising: a bolt body that is inserted into a penetration hole of a mounting bracket that is fixed on the front side member and is joined to the mounting bracket through a head portion; and a support body that is formed with a cylindrical shape to be joined to the front side member, wherein an end portion of the support body is partially melted by friction-stir welding in an undercut groove that is formed in a head portion of the bolt body, and a welding bead is simultaneously formed to be solidified therein such that the bolt body and the support body are joined.

15. The mounting bolt for a sub-frame of claim 14, wherein the undercut groove is formed along an interior circumference of an outside wall that is formed along an exterior circumference of the flange portion.

16. The mounting bolt for a sub-frame of claim 14, wherein the undercut groove is formed in the head portion along an exterior circumference of a protruded portion that is formed at an upper center of the head portion.

17. The mounting bolt for a sub-frame of claim 14, wherein the undercut groove is formed at an inner side and an outer side of the support body in an insertion groove that is formed in the head portion.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0034] FIG. 1 is a perspective view for describing a sub-frame that is assembled to a lower portion of a front side member for a conventional vehicle.

[0035] FIG. 2 is a perspective view showing a condition in which a mounting bolt for a sub-frame is applied according to a conventional art.

[0036] FIG. 3 is a cross-sectional view showing a condition in which a mounting bolt is applied according to an exemplary embodiment of the present invention.

[0037] FIG. 4 is an illustration showing a condition in which a bolt body and a support body are combined with each other according to an exemplary embodiment of the present invention.

[0038] FIG. 5 is a cross-sectional view showing a friction welding portion according to an exemplary embodiment of the present invention.

[0039] FIG. 6 is a cross-sectional view showing a friction welding portion according to another exemplary embodiment of the present invention.

[0040] FIG. 7 is a cross-sectional view showing a friction welding portion according to another exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0041] Hereinafter, an exemplary embodiment of the present invention will be described with reference to accompanying drawings.

[0042] FIG. 3 is a cross-sectional view showing a condition in which a mounting bolt is applied according to an exemplary embodiment of the present invention, and FIG. 4 is an illustration showing a condition in which a bolt body and a support body are combined with each other according to an exemplary embodiment of the present invention.

[0043] Referring to FIG. 3, a mounting unit for a sub-frame to which a mounting bolt 1 is applied according to an exemplary embodiment of the present invention is for engaging a sub-frame to a front side member of a vehicle and has a function of reducing damage to a passenger by guiding an engine or a transmission, which are assembled together, to a lower portion of a vehicle body when a front end of a vehicle crashes.

[0044] The mounting bolt 1 that is applied to the mounting unit for a sub-frame according to an exemplary embodiment of the present invention is generally fixed to a lower portion of a front side member through a mounting bracket 30 and is divided into a bolt body 10 and a support body 20.

[0045] The bolt body 10 has a head portion 11 that is integrally formed with an upper end thereof, is inserted into a through-hole (H) of the mounting bracket 30 from an upper side, and is joined to the mounting bracket in a condition in which the head portion 11 is supported by a circumference of the through-hole (H).

[0046] That is, the head portion 11 has a larger diameter than that of the through-hole (H), and is joined to the circumference of the through-hole (H) of the mounting bracket 30 by CO2 welding or projection welding.

[0047] Further, the support body 20 has a cylindrical shape with a hollow space therein, a lower end thereof is joined to the head portion 11 to form a straight line with the bolt body 10, and an upper end thereof is fixed to a front side member.

[0048] The support body 20 can be formed with a cylindrical shape by cold forging, but it is not limited thereto, and any method can be applied to form the support body 20 as long as strength and physical properties of the material satisfy rigidity when it is joined to the bolt body 10.

[0049] Hereinafter, referring to FIG. 4, three cases of joining methods of the bolt body 10 and the support body 20 will be described.

[0050] Firstly, referring to FIG. 4 (A), in a case 1, a lower end of the support body 20 is disposed on a center of an upper surface of the head portion 11 to form a straight line and is welded through rotation friction stirring.

[0051] Referring to FIG. 4 (B), in a case 2, a groove 13 with a predetermined depth of is formed at a center of an upper surface of the head portion 11, and a lower end of the support body 20 is inserted into the groove to be welded by rotation friction stirring, that is, friction welding.

[0052] Herein, the bolt body 10 and the support body 20 are disposed along a straight line to maintain a straight structure.

[0053] Referring to FIG. 4 (C), in a case 3, an insertion groove 17 with a predetermined depth is formed on a circumference of an upper surface center of the head portion 11, and a protruded portion 15 that protrudes upwardly is formed at an inner side of the insertion groove 17.

[0054] In a condition in which a lower end of the support body 20 is inserted into the insertion groove 17 of the head portion 11, they are welded by rotation friction stirring (friction welding).

[0055] In this case, the protruded portion 15 is inserted into an inner side of a lower end portion of the support body 10, maintains the straightness of the bolt body 10 and the support body 20, and improves assembly stiffness.

[0056] Here, the bolt body 10 and the support body 20 are welded by friction stirring, but it is not limited thereto, and any methods can be applied thereto as long as the bolt body 10 and the support body 20 are strongly joined.

[0057] Accordingly, in a mounting bolt 1 for a sub-frame according to an exemplary embodiment of the present invention as described above, the bolt body 10 and the support body 20 are separately formed by cold forging, they are joined by butt-welding, and the support body 20 is formed to have a cylindrical hollow space body such that weight is reduced, strength is secured, and cost can be saved, compared to a conventional embodiment.

[0058] FIG. 5 is a cross-sectional view showing a friction welding portion according to an exemplary embodiment of the present invention.

[0059] Referring to FIG. 5, in a friction welding portion 500, an end portion of a support body 110 is friction-stir welded to a first undercut groove 150 of an outside wall 145 that is formed on a head portion 140, and a bolt body 130 is joined to the support body 110.

[0060] That is, as shown in (a) of FIG. 5, the friction welding portion 500 forms the outside wall 145 along a circumference of the head portion 140 of the bolt body 130 and forms the first undercut groove 150 in the outside wall 145 along a lower end circumference thereof.

[0061] Further, as shown in (b) of FIG. 5, a lower end portion of the support body 110 is inserted into an inside of the outside wall 145. Next, as shown in (c) of FIG. 5, a lower end portion of the support body 110 is partially melted by friction-stir welding, a first welding bead 120 flows into the first undercut groove 150 to be fixed therein, and simultaneously the first welding bead 120 is joined to the head portion 140 of the bolt body 130.

[0062] FIG. 6 is a cross-sectional view showing a friction welding portion according to another exemplary embodiment of the present invention.

[0063] Referring to FIG. 6, a friction welding portion 500 forms an insertion groove 160 into which a lower end portion of the support body 110 is inserted in a head portion 140. The insertion groove 160 has the same shape as the support body 110. That is, the insertion groove 160 may have a cylinder shape. An interior diameter of the insertion groove 160 may be larger than an interior diameter of the support body 110.

[0064] The friction welding portion 500 has a second undercut groove 153 that is formed in the insertion groove 160 in a radial direction.

[0065] Further, a lower end portion of the support body 110 is inserted into the insertion groove 160 and is friction-stir welded. That is, the support body 110 is partially melded by friction-stir welding, a second welding bead 123 flows into the second undercut groove 153 to be fixed thereto, and the bead 123 is simultaneously joined to the head portion 140 of a bolt body 130. The second welding bead 123 may be formed at both sides of a lower end portion of the support body 110 along the second undercut groove 153.

[0066] FIG. 7 is a cross-sectional view showing a friction welding portion according to another exemplary embodiment of the present invention.

[0067] Referring to FIG. 7, a friction welding portion 500 has a protruded portion 147 that is formed at an upper center of a head portion 140. In this condition, the protruded portion is inserted into a lower end portion of a support body 110, can maintain straightness of a bolt body 130 and the support body 110, and can improve assembly reliability.

[0068] The friction welding portion 500 has a third undercut groove 155 that is formed in the head portion 140 along an exterior circumference of the protruded portion 147.

[0069] Further, a lower end portion of the support body 110 is inserted into the third undercut groove 155 that is formed on the head portion 140 of the bolt body 130, and is friction-stir welded. That is, a lower end portion of the support body 110 is partially melted by friction-stir welding, and a third welding bead 125 flows into the third undercut groove 155, and is simultaneously joined to the head portion 140 of the bolt body 130.

[0070] Accordingly, in a mounting bolt for a sub-frame according to the present invention as described above, a lower end portion of the support body 110 is partially melted by friction-stir welding and flows into the undercut groove 155 of the friction welding portion 500 to form a welding bead such that the support body 110 and the bolt body 130 are joined, and thus the support body 110 and the bolt body 130 can be firmly joined together.

[0071] While this invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

DESCRIPTION OF SYMBOLS

[0072] 1 . . . mounting bolt for a sub-frame [0073] 10, 130 . . . bolt body [0074] 11, 140 . . . head portion [0075] 13 . . . groove [0076] 15, 147 . . . protruded portion [0077] 17 . . . insertion groove [0078] 20, 110 . . . support body [0079] 30 . . . mounting bracket [0080] H . . . penetration hole [0081] 500: friction welding portion [0082] 145: outside wall [0083] 150, 153, 155 . . . first, second, third undercut grooves [0084] 120, 123, 125 . . . first, second, third welding beads [0085] 160: insertion groove