KR20150109173A - Rivet stud bolt and panel joint structure of the same - Google Patents

Abstract

A rivet stud bolt is disclosed. The disclosed rivet stud bolt is for bolt coupling a component on at least one sheet of a panel, and may comprise: i) a bolt unit coupling a panel and a component; ii) a circular flange unit integrally formed in an end portion of one side of the bolt unit; iii) a rivet unit integrally connected to the flange unit, forming at least two slits, being plastically deformed by a predetermined pressurization force, and bonded to a board; and iv) a rotation restriction unit provided in an edge of the flange unit, and providing a rotation restriction force corresponding to torque to the panel.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a ribbed stud bolt,

An embodiment of the present invention relates to a stud bolt, and more particularly, to a panel joint structure of a rivet stud bolt (RSB) and a rivet stud bolt thereof, which can be joined to a base material such as a panel by a mechanical joining method.

In the automobile industry, a mounting unit for mounting various kinds of components such as an engine, a transmission, and a steering system on a base such as a vehicle body panel and a frame includes a welding bolt, a weld nut, and a stud bolt And so on.

Among them, the stud bolt is welded to the base, and the bolt part is integrally formed on the flange part and can be welded to the base through the flange part.

For example, a stud bolt is welded to a base (hereinafter referred to as "base material") by arc discharge welding. In this welding method, the flange portion of the stud bolt is momentarily melted by using arc discharge, Welded to the base material.

However, in the method of welding the stud bolt to the base material using the arc discharge as described above, a lot of soot is generated around the welded portion of the base material and the flange portion, the positional dispersion of the stud bolt occurs, , The bonding strength of the stud bolts to the base material is weak, and the stud bolts can be easily separated by an external force.

In order to prevent this, a new joining method in which a stud bolt is joined to a base material as a mechanical joining method has been developed. In such a mechanical joining method, a stud bolt integrally formed with a bolt portion, a flange portion and a rivet portion is used.

In the mechanical joining method using the stud bolt, the stud bolt is bonded to the base material by plastic-deforming the rivet portion with a predetermined pressing force in a state where the hole for joining is formed in the base material and the rivet portion is inserted into the hole.

That is, in the joining method as described above, the hollow cylindrical rivet portion is plastically deformed in a riveting manner, and the stud bolt can be joined to the base material.

For example, in the rivet stud bolt, the rivet part passes through the hole of the base material by the punch of the setting tool, and the rivet part is expanded and deformed in the radial direction along the die of the die (also referred to as " Can be bonded.

However, when the rivet stud bolt is bonded to the base material, the plastically deformed portion of the rivet portion is bonded to the base material in a one spot bonding manner in the form of a ring, so that the rivet portion serves to restrain the base material to a certain strength I can not do everything.

This disadvantage is caused by the fact that the rivet stud bolt is rotated by the torque applied to the bolt part when the part is fastened to the base material by fastening the nut to the bolt part, which is disadvantageous in terms of bonding property and bonding strength between the rivet stud bolt and the base material have.

Also, since the above-mentioned joining method has the rivet portion of the stud bolt terminated at the annular edge, the joining load of the setting tool for plastic deformation of the rivet portion into a ring shape through the die can be increased.

The matters described in the background section are intended to enhance the understanding of the background of the invention and may include matters not previously known to those skilled in the art.

US Patent No. 7287944 (registered on October 30, 2007)

Embodiments of the present invention are directed to a rivet stud bolt and a rivet stud bolt which can increase the joint strength with the base material such as a panel or the like and increase the joint strength corresponding to the torque and reduce the joint load of the setting tool for plastic deformation of the rivet portion, To provide a bolt panel joining structure.

A rivet stud bolt according to an embodiment of the present invention is for bolting a component to at least one panel. The bolt part includes: i) a bolt part for fastening the panel and the component; and ii) A rivet portion integrally connected to the flange portion and having at least two slits formed therein and being plastically deformed by a predetermined pressing force and being joined to the plate member; iv) a flange portion integrally connected to the flange portion, And a rotation restraining unit that is provided at an edge of the panel and that provides rotation restraining force corresponding to the torque to the panel.

Further, in the rivet stud bolt according to the embodiment of the present invention, the rotation restricting unit may continuously form the protrusions and the grooves in the form of saw teeth along the edge of the flange portion.

Further, in the rivet stud bolt according to the embodiment of the present invention, the rotational restraint unit may form at least one straight portion at the edge of the flange portion.

Further, in the riveted stud bolt according to the embodiment of the present invention, the rotation restricting unit may form a plurality of protrusions perpendicular to the tangent line along the edge of the flange portion.

Further, in the rivet stud bolt according to the embodiment of the present invention, the rivet portion may be formed in a hollow cylindrical shape.

Also, in the rivet stud bolt according to the embodiment of the present invention, the slits may be formed to be long from the free end to the connection end side of the rivet portion.

Further, in the rivet stud bolt according to the embodiment of the present invention, the slits may have a length smaller than the entire length of the rivet portion.

Further, in the rivet stud bolt according to the embodiment of the present invention, the rivet stud bolt may be disposed at regular intervals along the arc direction with respect to the inner center of the rivet portion.

Further, in the rivet stud bolt according to the embodiment of the present invention, the rivet portion is integrally connected to the flange portion and has a first portion of a circular cross section and a second portion integrally connected with the first portion, And a plurality of second portions.

Further, in the rivet stud bolt according to the embodiment of the present invention, the slit may be provided with a triangular-shaped valley in the first portion, and the space between the second portions and the valley may be connected to each other.

The panel joint body of the riveted stud bolt according to the embodiment of the present invention has a structure in which the rivet stud bolt for bolt-connecting components to at least one panel is bonded to the panel, Wherein a rivet portion of the rivet stud bolt is inserted and the rivet portion is plastically deformed to be joined to the panel through the slits to the plurality of contacts, and the flange portion of the rivet stud bolt receives a rotational restraining force corresponding to the torque through the rotation restricting unit, As shown in FIG.

Further, in the panel assembly of the riveted stud bolt according to the embodiment of the present invention, the rivet part is plastically deformed through the joint hole of the panel, and may be stapled to the panel.

The panel joint body of the rivet stud bolt according to the embodiment of the present invention is characterized in that the rivet stud bolt for bolt-joining parts to at least one panel is joined to the panel, The flange portion of the rivet stud bolt can provide rotational restraining force corresponding to the torque to the panel through the rotation restraining unit.

Further, in the panel assembly of the rivet stud bolt according to the embodiment of the present invention, the rivet portion may integrally connect one portion of the panel corresponding to the inner space of the rivet portion and another portion of the panel corresponding to the slits.

The panel joint body of the rivet stud bolt according to the embodiment of the present invention is a structure in which the rivet stud bolt for bolting the component to one panel is bonded to the panel, Wherein the rivet portion integrally connects one portion of the panel corresponding to the inner space of the panel with another portion of the panel corresponding to the slits and the flange portion of the rivet stud bolt The rotation restraining force corresponding to the torque can be provided to the panel through the rotation restraining unit.

A panel assembly of a rivet stud bolt according to an embodiment of the present invention is a panel structure in which the rivet stud bolt for bolting a component to at least two panels is bonded to the panels, The rivet portion is plastically deformed while being pushed into the lowermost panel through the upper panel except for the lowermost panel so that a portion of the upper panel corresponding to the inner space and another portion of the upper panel corresponding to the slits are integrally formed And the flange portion of the rivet stud bolt can provide a rotational restraining force corresponding to the torque to the uppermost panel through the rotation restricting unit.

In the embodiment of the present invention, the plurality of slits are formed in the rivet portion of the stud bolt, and the rotational restraint unit is formed in the flange portion, so that the bonding strength of the stud bolt and the base material and the bonding strength corresponding to the torque can be increased.

Further, in the embodiment of the present invention, since the plurality of slits are formed in the rivet portion of the stud bolt, it is possible to reduce the joint load of the stud bolt joining system acting on the rivet portion, thereby making the stability of the operation of the stud bolt joining system And the material used for the entire stud bolt can be reduced.

Further, in the embodiment of the present invention, since the stud bolt can be firmly bonded to the base material without forming a separate bonding hole in the base material, productivity can be further improved, the number of bonding processes can be reduced, Can be saved.

These drawings are for the purpose of describing an exemplary embodiment of the present invention, and therefore the technical idea of the present invention should not be construed as being limited to the accompanying drawings.
1 is a perspective view illustrating a rivet stud bolt according to an embodiment of the present invention.
2 is a cross-sectional view illustrating a rivet stud bolt according to an embodiment of the present invention.
3 is a bottom view showing a rivet stud bolt according to an embodiment of the present invention.
4 is a view showing a first joint structure of a rivet stud bolt and a panel according to an embodiment of the present invention.
5 and 6 are views showing a second joint structure of the rivet stud bolt and the panel according to the embodiment of the present invention.
7 is a view showing a third joint structure of a rivet stud bolt and a panel according to an embodiment of the present invention.
8 and 9 are views showing a fourth bonding structure of the rivet stud bolt and the panel according to the embodiment of the present invention.
10 to 12 are views showing a modified example of the rivet stud bolt according to the embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

In order to clearly illustrate the present invention, parts not related to the description are omitted, and the same or similar components are denoted by the same reference numerals throughout the specification.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed.

In the following detailed description, the names of components are categorized into the first, second, and so on in order to distinguish the components from each other in the same relationship, and are not necessarily limited to the order in the following description.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

Also, the terms " part, "" means," and the like, which are described in the specification, refer to a unit of a comprehensive configuration that performs at least one function or operation.

FIG. 1 is a perspective view showing a rivet stud bolt according to an embodiment of the present invention, FIG. 2 is a cross-sectional view of FIG. 1, and FIG. 3 is a bottom view of FIG.

4 to 9) of the rivet stud bolt 100 according to the embodiment of the present invention and the rivet stud bolt 100 of the present invention ) As SRS (Sungwoo Rivet Stud-bolt).

On the other hand, the base material 1 (see Figs. 4 to 9 below) can be defined as a panel applied to the vehicle body. However, the base material 1 is not necessarily limited to including the body panel, and may include various body members, body structures such as frames, and the like.

Furthermore, it should be understood that the scope of protection of the present invention is not necessarily limited to those for assembling a car body, and the technical idea of the present invention can be applied to various types and uses of structures to which predetermined parts can be coupled.

1 to 3, the rivet stud bolt 100 according to the embodiment of the present invention includes at least one base material 1 and various kinds of design parts such as an engine, a transmission, and a steering system Bolt coupling.

Hereinafter, the following components will be described with reference to a case where the rivet stud bolt 100 is set upright in the up and down direction. The upper part and the lower part of the rivet stud bolt 100 are defined as an upper part and an upper part, Can be defined.

In addition, in the above-described two or more base materials 1, the base material (one or more base materials or more) positioned on the upper side is defined as the upper base material, and one base material positioned on the lower side of the upper base material is defined as the lower side It can be defined as base metal.

Since the direction is relative to the reference position of the rivet stud bolt 100 and the direction in which the rivet stud bolt 100 is joined with the base material 1, It is not.

Here, the rivet stud bolt 100 according to the embodiment of the present invention may be mechanically joined to the above-described base material 1 through a stud bolt joining system (not shown).

The stud bolt joining system is constructed such that the rivet stud bolt 100 is press-fitted into the base material 1 at a predetermined pressure so as to deform the rivet stud bolt 100 as a plastic deformation of the base material 1 and the rivet stud bolt 100, (1).

In the embodiment of the present invention, the base material 1 as described above may include a metal sheet material such as an aluminum sheet or a steel sheet (including a high-strength steel sheet), and may include a non-metallic material such as plastic, rubber, The base material 1 may include two or more sheets of the same kind of material, and may include plates of different materials.

The rivet stud bolt 100 according to the embodiment of the present invention may be made of an aluminum material or a steel material.

The stud bolt joining system for joining the rivet stud bolt 100 according to the embodiment of the present invention to the base material 1 includes a punch unit for applying a pressing force to the rivet stud bolt 100, And a die (also referred to in the art as "anvil") for supporting the base material 1.

For example, the punch unit may include a punch cylinder driven by a hydraulic pressure or a pneumatic pressure, and a punch operated by a punch cylinder to a portion to which the stud bolt is supplied.

That is, the punch unit uses a striking mechanism as a part of the tool to apply a continuous and rapid impact to the rivet stud bolt 100 or the base material 1.

Since the punch unit of such a stud bolt joining system is made of a punch assembly of a well-known technique well known in the art, a detailed description of its constitution will be omitted herein.

The above-described die is an envelope die for supporting the pressing force acting on the rivet stud bolt 100 from the punch unit, and may be a supporting structure capable of supporting the base material 1 separately from the punching unit. Here, the die is provided with a molding die for inducing plastic deformation of the rivet stud bolt 100.

The rivet stud bolt 100 according to the embodiment of the present invention to be described below can increase the joint strength corresponding to the bondability with the base material 1 and the torque and can reduce the joint load acting on the punch unit Structure.

To this end, the rivet stud bolt 100 according to the embodiment of the present invention basically includes a bolt portion 10, a flange portion 30, a rivet portion 50, and a rotation restricting unit 90.

The bolt portion 10 is used for fastening a vehicle component to a base material 1 such as a vehicle body panel and is provided as a bolt body having a thread 11 formed on the outer circumferential surface thereof.

The flange portion 30 is a portion receiving the pressing force of the punch unit through the bolt portion 10 and integrally formed at the lower end of the bolt portion 10 as viewed in the drawing and extends toward the outside of the lower end of the bolt portion 10 And supports the uppermost surface of the base material 1 in a circular shape.

In the embodiment of the present invention, the rivet portion 50 is integrally connected to the flange portion 30 as a portion that is deformed along the molding trough of the die by the pressing force of the punching unit, and has a hollow cylindrical shank do.

Hereinafter, the portion of the rivet portion 50 connected to the flange portion 30 is defined as a connection end, and the opposite end of the connection end can be defined as a free end.

Meanwhile, in the embodiment of the present invention, the rivet portion 50 has two or more slits 61 formed therein. The slits 61 are elongated from the free end of the rivet portion 50 toward the connection end side and can be interconnected with the inner space of the rivet portion 50.

The slits 61 are formed to have a length smaller than the entire length of the rivet portion 50 and are arranged at regular intervals along the arc direction with respect to the inner center of the rivet portion 50.

For example, the slits 61 may be formed along the circular arc with respect to the inner center of the rivet portion 50, and may be spaced apart from each other by 120 degrees along the circular arc.

The rivet portion 50 according to the embodiment of the present invention as described above has a first portion 71 integrally connected to the flange portion 30 and a second portion 71 integrally connected to the first portion 71, And a plurality of second portions 72 disposed between the first and second portions.

Here, the first portion 71 is integrally connected to the flange portion 30 and functions to support the second portions 72. The first portion 71 may have a circular cross-sectional shape rather than a hollow shape.

The second portion 72 is integrally connected to the first portion 71 and can be deformed by plastic deformation in the outward direction along the die forming bone by the pressing force of the above-mentioned punch unit.

The slits 61 may be provided with triangular prisms 73 and the spaces between the second portions 72 and the valleys 73 may be connected to each other. In this case, the troughs 73 may be formed by a mold projection for forming a slit 61 in the rivet portion 50 when the rivet portion 50 is forged by a metal mold.

The number and spacing of the slits 61 with respect to the rivet portion 50 are not necessarily limited to three and 120 degrees apart as mentioned above and the strength of the base material 1 and the strength and rigidity of the rivet stud bolt 100 And may be variously modified depending on the tightening torque.

In the embodiment of the present invention, the rotational restricting unit 90 is provided for increasing the joining strength of the rivet stud bolt 100 corresponding to the torque, and it is possible to provide the rotational restraining force corresponding to the torque to the base material 1 have.

That is, when the component is mounted on the base material 1 by fastening the nut to the bolt portion 10, the rotational restraint unit 90 can prevent the rivet stud bolt 100 from being caught by the torque applied to the bolt portion 10 So as to restrain rotation about the base material 1. The rotation restricting unit 90 may be configured on the edge side of the flange portion 30. [

For example, the rotation restricting unit 90 continuously forms the protrusions 91 and the grooves 92 in the form of a saw-tooth along the edge of the flange portion 30. The protrusions 91 are formed in a round shape and are spaced apart along the edge of the flange portion 30 at regular intervals and the grooves 92 may be formed between the protrusions 91.

The rotation restricting unit 90 compresses and deforms the upper surface of the base material 1 in the shape of the protrusions 91 and the grooves 92 when the rivet portion 50 is pressed by the punch unit to the base material 1, The rotation restraining force can be provided to the base material 1 through the projection 91. [

That is, when the rivet portion 50 is pressed against the base material 1, the rotation restricting unit 90 forms a concave-shaped deformed portion corresponding to the projection 91 at the top surface joining point of the base material 1, The rotational constraint force can be imparted to the base material 1 by forming the deformation portion that flows into the groove 92. [

Hereinafter, the joining structure in which the rivet stud bolt 100 according to the embodiment of the present invention is bonded to the base material 1 such as the vehicle body panel will be described in detail with reference to the drawings disclosed above and the accompanying drawings. .

4 is a view showing a first joint structure of a rivet stud bolt and a panel according to an embodiment of the present invention.

4, the rivet stud bolt 100 according to the embodiment of the present invention and the first joint body 200 of the base material 1 have at least one base material 1, for example, a joint hole 3, And the rivet stud bolt 100 is mechanically bonded to one base material 1 formed with the rivet stud bolt 100.

In order to realize such a first joint body 200, a rivet stud bolt 100 is firstly supplied to a punch unit of a stud bolt joint system in the embodiment of the present invention, and one piece of the base material 1 ) Between the punch unit and the die.

Then, in the embodiment of the present invention, the rivet portion 50 of the rivet stud bolt 100 is inserted into the joint hole 3 of the base material 1 by the punch unit, A pressing force is applied to the stud bolt 100.

The second portions 72 of the rivet portion 50 are supported by the first portion 71 and are plastically deformed in the outward direction along the die forming bone by the pressing force of the punch unit (Refer to the drawing) of the base material 1, that is, on the edge side of the bonding hole 3 through the slits 61 (see Figs. 1 to 3 below).

The second portions 72 of the rivet portion 50 are divided into three portions by the slits 61 so that the rivet portions 50 are formed on the bottom surface of the base material 1 with three contacts . ≪ / RTI >

The rivet portion 50 is plastically deformed through the joint hole 3 of the base material 1 and joined to the bottom surface of the base material 1 through the slits 61 by a plurality of contact points, And can be supported in the form of a staple.

In this process, the flange portion 30 compressively deforms the upper surface of the base material 1 by the pressing force of the punch unit, and the rotation restricting unit 90 of the flange portion 30 presses the projection 91 and the groove 92 The upper surface of the base material 1 is compressed and deformed in the shape of a groove 91 corresponding to the protrusion 91 at the upper surface bonding point of the base material 1 and a deformed portion introduced into the groove 92 is formed. The flange portion 30 is kept in a state of being stuck at the top surface joining point of the base material 1 in conformity with the shape of the rotation restricting unit 90. [

Therefore, according to the first joint body 200 according to the embodiment of the present invention, the slits 61 of the rivet portion 50 allow the second portions 72 to be spaced apart from each other As a result, the jointability and bond strength between the rivet stud bolt 100 and the base material 1 can be further increased.

In the embodiment of the present invention, the flange portion 30 compressively deforms the upper surface of the base material 1 in the shape of the projections 91 and the grooves 92 of the rotation restricting unit 90, It is possible to further improve the bonding strength corresponding to the torque.

In the embodiment of the present invention, the second portions 72 of the rivet portion 50 are joined to the base material 1 by a plurality of contacts spaced from each other and the base material 1 is bonded to the base material 1 through the rotation- The rivet stud bolt 100 can be prevented from rotating due to the tightening torque of the bolt 10 when the bolt 10 is fastened.

In addition, in the embodiment of the present invention, since the plurality of slits 61 are formed in the rivet portion 50 of the rivet stud bolt 100, it is possible to reduce the joint load of the punch unit acting on the rivet portion 50 This makes it possible to ensure the operational stability of the rivet stud bolt connection system and to reduce the material used for the entire rivet stud bolt 100.

5 and 6 are views showing a second joint structure of the rivet stud bolt and the panel according to the embodiment of the present invention.

5 and 6, the rivet stud bolt 100 according to the embodiment of the present invention and the second joint body 300 of the base material 1 are made of at least one base material 1, for example, The rivet stud bolt 100 is mechanically bonded to one base material 1 that is not formed.

In order to realize such a second joined body 300, in the embodiment of the present invention, the rivet stud bolt 100 is supplied to the punch unit of the stud bolt joining system, and one base material 1, Is positioned between the punch unit and the die.

The second portions 72 of the rivet portion 50 of the rivet stud bolt 100 penetrate the base material 1 and the die portions of the die And is joined to the bottom surface of the base material 1 through the slits 61 with a plurality of contact points.

The second portions 72 of the rivet portion 50 are divided into three portions by the slits 61 so that the rivet portions 50 are formed on the bottom surface of the base material 1 with three contacts . ≪ / RTI >

Here, in the embodiment of the present invention, since the slits 61 are formed in the rivet portion 50 and the plurality of second portions 72 are formed by the slits 61, the inner side of the rivet portion 50 One part of the base material 1 corresponding to the space and the other part of the base material 1 corresponding to the slits 61 can be integrally connected.

That is, when the second portions 72 of the rivet portion 50 penetrate and pass through the base material 1, a portion of the base material 1 corresponding to the inner space of the second portions 72 is completely completely sheared And can be interconnected with another part of the base material 1 corresponding to the slits 61. [

In the embodiment of the present invention, the rivet portion 50 is formed such that the second portions 72 of the rivet portion 50 are plastically deformed through the base material 1, And the bottom surface thereof can be supported in the form of a staple while being joined to the contact point.

In this process, the flange portion 30 compressively deforms the upper surface of the base material 1 by the pressing force of the punch unit, and the rotation restricting unit 90 of the flange portion 30 presses the projection 91 and the groove 92 The upper surface of the base material 1 is compressed and deformed in the shape of a groove 91 corresponding to the protrusion 91 at the upper surface bonding point of the base material 1 and a deformed portion introduced into the groove 92 is formed. The flange portion 30 is kept in a state of being stuck at the top surface joining point of the base material 1 in conformity with the shape of the rotation restricting unit 90. [

The second portions 72 of the rivet portion 50 are plastically deformed through the base material 1 and are deformed in the base material 1 The joining strength and bonding strength between the rivet stud bolt 100 and the base material 1 can be increased.

In the embodiment of the present invention, the second portions 72 of the rivet portion 50 are joined to a plurality of contacts spaced apart from each other on the base material 1 and correspond to the inner space of the second portions 72 A part of the base material 1 to be cut is not completely sheared but can form a mechanical interlock which is interconnected with another part of the base material 1 corresponding to the slits 61. [

That is, in the embodiment of the present invention, a part of the base material 1 corresponding to the inner space of the second portions 72 is not left as a dead metal completely sheared, The base material 1 is mechanically interlocked with another part of the base material 1 so that the base material 1 can be restrained with a predetermined strength through the second parts 72. [

In the embodiment of the present invention, the flange portion 30 compressively deforms the upper surface of the base material 1 in the shape of the projections 91 and the grooves 92 of the rotation restricting unit 90, It is possible to further improve the bonding strength corresponding to the torque.

Accordingly, in the embodiment of the present invention, the second portions 72 of the rivet portion 50 are joined to the base material 1 by a plurality of contacts spaced from each other, Since the base material 1 can be restrained with a predetermined strength through the rotation restricting unit 90 while forming the connected mechanical interlocks, the rivet stud bolts 100 Can be prevented from being rotated.

In the embodiment of the present invention, since the plurality of slits 61 are formed in the rivet portion 50 of the rivet stud bolt 100, the bonding load of the punch unit acting on the rivet portion 50 can be reduced . This makes it possible to secure the operational stability of the stud bolt joining system and to reduce the material used for the entire rivet stud bolt (100).

Further, in the embodiment of the present invention, since the rivet stud bolt 100 can be firmly bonded to the base material 1 without forming a separate bonding hole in the base material 1, the productivity can be further improved , The number of bonding processes can be reduced and manufacturing cost can be reduced.

7 is a view showing a third joint structure of a rivet stud bolt and a panel according to an embodiment of the present invention.

7, the rivet stud bolt 100 according to the embodiment of the present invention and the third joint body 400 of the base material 1 have at least one base material 1, for example, The rivet portion 50 of the rivet stud bolt 100 is joined to the base material 1 in a state where the rivet portion 50 is not penetrated.

In order to realize such a third joint body 400, first, in the embodiment of the present invention, the rivet stud bolt 100 is supplied to the punch unit of the stud bolt joint system, and one piece of the base material 1 ) Between the punch unit and the die.

When the pressing force is applied to the rivet stud bolt 100 by the punch unit, the second portions 72 of the rivet portion 50 of the rivet stud bolt 100 do not penetrate the base material 1 , It is press-fitted into the base material (1), and can be bonded to the base material (1) while being plastically deformed in the outward direction along the die forming bone.

Here, likewise, in the embodiment of the present invention, since the slits 61 are formed in the rivet portion 50 and the plurality of second portions 72 are formed by the slits 61, One part of the base material 1 corresponding to the inner space and another part of the base material 1 corresponding to the slits 61 can be integrally connected. In this case, a protruding portion 9 corresponding to the rivet portion 50 is formed on the bottom surface of the base material 1 with reference to the drawing.

According to the third joint body 400 according to the embodiment of the present invention as described above, the second portions 72 of the rivet portion 50 are pressed into the base material 1 and plastically deformed, It is possible to form a mechanical interlock which is interconnected with another part of the base material 1 corresponding to the slits 61 without a part of the base material 1 corresponding to the inner space of the slits 61 and 72 being completely sheared.

In the embodiment of the present invention, the flange portion 30 compressively deforms the upper surface of the base material 1 in the shape of the projections 91 and the grooves 92 of the rotation restricting unit 90, It is possible to further improve the bonding strength corresponding to the torque.

Accordingly, in the embodiment of the present invention, the second portions 72 of the rivet portion 50 are joined to the base material 1 by a plurality of contacts spaced from each other, Since the base material 1 can be restrained with a predetermined strength through the rotation restricting unit 90 while forming the connected mechanical interlocks, the rivet stud bolts 100 Can be prevented from being rotated.

In the embodiment of the present invention, since the plurality of slits 61 are formed in the rivet portion 50 of the rivet stud bolt 100, the bonding load of the punch unit acting on the rivet portion 50 can be reduced . This makes it possible to secure the operational stability of the stud bolt joining system and to reduce the material used for the entire rivet stud bolt (100).

Further, in the embodiment of the present invention, since the rivet stud bolt 100 can be firmly bonded to the base material 1 without forming a separate bonding hole in the base material 1, the productivity can be further improved , The number of bonding processes can be reduced and manufacturing cost can be reduced.

8 and 9 are views showing a fourth bonding structure of the rivet stud bolt and the panel according to the embodiment of the present invention.

8 and 9, the rivet stud bolt 100 according to the embodiment of the present invention and the fourth assembly 500 of the base materials 1 and 2 include at least two base materials 1 and 2, And the rivet stud bolt 100 is mechanically joined to the upper base material 1 and the lower base material 2 which are not provided with the holes for joining.

In order to realize such a fourth joined body 500, in the embodiment of the present invention, the rivet stud bolt 100 is supplied to the punch unit of the stud bolt joining system, and two superposed upper base materials (1) and the lower base material (2) are placed between the punch unit and the die.

Then, when a pressing force is applied to the rivet stud bolt 100 by the punch unit, in the embodiment of the present invention, the second portions 72 of the rivet portion 50 are supported by the first portion 71 The upper base material 1 is pierced by the pressing force of the punch unit and is fired in the outward direction along the molding tines of the die and press-fitted into the lower base material 2. [

That is, in the embodiment of the present invention, the second portions 72 of the rivet portion 50 pass through the upper base material 1 and are plastically deformed in a self-piercing manner through the molding cores of the die, The rivet portion 50 can be integrally joined to the upper and lower base materials 1 and 2 by being press-fitted into the base material 2.

The second portions 72 are pressed so as not to completely penetrate the lower base material 2 and the deformed ends are kept encapsulated in the lower base material 2 so that the upper and lower base materials 1, Mechanical interlocks can be formed and the upper and lower base materials 1 and 2 can be integrally fastened.

 Here, in the embodiment of the present invention, since the slits 61 are formed in the rivet portion 50 and the plurality of second portions 72 are formed by the slits 61, the second portions 72, One part 5 of the upper base material 1 and the other part 7 of the upper base material 1 corresponding to the slits 61 corresponding to the inner space of the upper base material 1 can be integrally connected.

That is, except for the through-holes of the upper base material 1 through which the second parts 72 are passed, the press-deformed portions of the upper base material 1 corresponding to the inner space of the second parts 72, The pressing and deforming portions of the upper base material 1 corresponding to the upper base material 61 can be interconnected.

In other words, when the second portions 72 pass through the upper base material 1, the pressing deformations corresponding to the inner spaces of the second portions 72 are not sheared, Can be interconnected with the press-deformed portion of the upper base material (1).

The press-deformed portion of the upper base material 1 corresponding to the slits 61 may be interconnected with the remaining portion except the bonding portion of the upper base material 1. [

Therefore, in the embodiment of the present invention, by the slits 61 of the rivet portion 50, a portion 5 of the upper base material 1 corresponding to the inner space of the second portions 72 and the slits 61 The other part 7 of the upper base material 1 corresponding to the upper base material 1 can be connected, so that the penetrating part of the upper base material 1 is not completely sheared.

This can be utilized to reinforce the bonding strength of the upper and lower base materials 1 and 2, since the penetrating portion of the upper base material 1 does not remain as a dead metal completely sheared.

In the embodiment of the present invention, the penetration portion of the upper base material 1 is formed by the second portions 72 of the rivet portion 50 in which the slits 61 are formed by the mechanical portions of the upper and lower base materials 1, It can also be utilized for interlocking and serves to restrain the upper and lower base metals 1 and 2 at a constant strength.

In the embodiment of the present invention, the flange portion 30 compressively deforms the upper surface of the upper base material 1 in the shape of the projections 91 and the grooves 92 of the rotation restricting unit 90, It is possible to further improve the bonding strength corresponding to the torque.

In the embodiment of the present invention, the upper and lower base materials 1 and 2 are fastened with a certain strength by the second portions 72 of the rivet portion 50, and the second portions 72 are fastened to the base material 1, And the upper base material 1 can be restrained with a constant strength through the rotation restricting unit 90. This prevents the bolt portion 10 from being damaged by the tightening torque of the bolt portion 10 when the bolt portion 10 is fastened with the nut, It is possible to prevent the rotating shaft 100 from rotating.

Further, in the embodiment of the present invention, since the slits 61 are formed in the rivet portion 50, it is possible to reduce the bonding load acting on the rivet portion 50, thereby improving the operational stability of the stud bolt joint system And the material used for the entire rivet stud bolt 100 can be reduced.

Furthermore, in the embodiment of the present invention, the rivet stud bolt 100 can be firmly joined to the upper and lower base materials 1 and 2 without forming separate joining holes in the upper and lower base materials 1 and 2 , Productivity can be further improved, the number of bonding processes can be reduced, and manufacturing costs can be reduced.

On the other hand, a protruding portion 9 corresponding to the rivet portion 50 is formed on the bottom surface of the lower base material 2 as shown in the drawing.

10 to 12 are views showing a modified example of the rivet stud bolt according to the embodiment of the present invention.

10, a first modification of the rivet stud bolt 100 according to the embodiment of the present invention includes a rotation restraining unit 190 that forms at least one straight line portion 191 at the edge of the flange portion 30, . ≪ / RTI >

For example, in the embodiment of the present invention, the rotation restricting unit 190 may form three straight line portions 191 at intervals of 120 degrees on the edge of the flange portion 30. [ The flat portion 191 is formed with a flat surface corresponding to the thickness of the flange portion 30.

The rotational restraint unit 190 compresses and deforms the upper surface of the base material in the shape of the three rectilinear sections 191 when the rivet section 50 is pressed by the punch unit to the base material, As shown in Fig.

11, a second modification of the rivet stud bolt 100 according to the embodiment of the present invention includes a rotation restraining unit 290 forming six linear portions 291 at the edge of the flange portion 30 Can be configured.

That is, the rotational restraint unit 290 can form six straight portions 291 at intervals of 60 degrees on the edge of the flange portion 30. [ A flat surface corresponding to the thickness of the flange portion 30 is formed in the straight portion 291.

When the rivet portion 50 is pressed by the punching unit to the base material, the rotation restraining unit 290 compressively deforms the upper surface of the base material in the shape of the six straight line portions 291, As shown in Fig.

12, a third modification of the rivet stud bolt 100 according to the embodiment of the present invention includes a rotational restraint 391 forming a plurality of protrusions 391 perpendicular to the tangent along the edge of the flange portion 30, Unit 390 can be configured.

In the embodiment of the present invention, the rotation restricting unit 390 is formed such that a plurality of protrusions 391 protrude in a direction perpendicular to the tangent line of the flange 30, And are spaced apart from each other at regular intervals along the edge direction.

These projections 391 are formed with a plane perpendicular to the edge surface of the flange portion 30. That is, the protrusions 391 may be formed by connecting an end of the protrusion 391 and a contact point of the edge of the flange portion 30.

Therefore, when the rivet portion 50 is pressed by the punch unit, the rotation restricting unit 390 compressively deforms the upper surface of the base material in the shape of the projections 391, As shown in Fig.

Since the rest of the structure and operation of the rivet stud bolt 100 according to the first, second, and third modified examples are the same as those described above, a detailed description will be omitted below.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And it goes without saying that the invention belongs to the scope of the invention.

1, 2 ... Base material 3 ... Bonding hole
5 ... part 7 ... other part
9 ... protruding portion 10 ... bolt portion
11 ... thread 30 ... flange portion
50 ... rivet portion 61 ... slit
71 ... first part 72 ... second part
73 ... Goals
90, 190, 290, 390 ... rotation restraining unit 91, 391 ... projection
92 ... grooves 191, 291 ... straight portion

Claims (14)

A rivet stud bolt for bolting a component to at least one panel,
A bolt for fastening the panel and the component;
A circular flange integrally formed at one end of the bolt;
A rivet portion integrally connected to the flange portion and having at least two slits formed therein and plastically deformed by a predetermined pressing force and joined to the plate material; And
A rotation restraining unit that is provided at an edge of the flange portion and that provides rotation restraining force corresponding to the torque to the panel;
The rivet stud bolt. The method according to claim 1,
The rotation restricting unit includes:
And protrusions and grooves are continuously formed in the form of teeth along the edge of the flange portion. The method according to claim 1,
The rotation restricting unit includes:
And at least one straight portion is formed at an edge of the flange portion. The method according to claim 1,
The rotation restricting unit includes:
And a plurality of protrusions are formed perpendicular to the tangent along the edge of the flange portion. The method according to claim 1,
The rivet portion is made of a shank having a hollow cylindrical shape,
Wherein the slits are elongated from a free end of the rivet portion to a connecting end side. 6. The method of claim 5,
The slits are,
The rivet portion is formed to have a length smaller than the entire length of the rivet portion,
And are arranged at regular intervals along a circular arc with respect to an inner center of the rivet portion. 6. The method of claim 5,
The rivet portion
A first portion of a circular cross-section integrally connected to the flange portion,
And a plurality of second portions integrally connected to the first portion and disposed between the slits. 8. The method of claim 7,
The slit
Wherein the first portion is provided with a triangular-shaped valley, and the space between the second portions and the valley are connected to each other. A panel assembly in which a rivet stud bolt of any one of claims 1 to 8 for bolting a component to at least one panel is bonded to the panel,
The rivet portion of the rivet stud bolt is inserted into the joint hole formed in the panel,
Wherein the rivet portion is plastically deformed and joined to the panel through a plurality of slits,
Wherein the flange portion of the rivet stud bolt provides rotation restraining force corresponding to the torque to the panel through the rotation restraining unit. 10. The method of claim 9,
The rivet portion
Wherein the panel is plastically deformed through the joint hole of the panel and is stapled to the panel. A panel assembly in which a rivet stud bolt of any one of claims 1 to 8 for bolting a component to at least one panel is bonded to the panel,
Wherein the rivet portion of the rivet stud bolt is joined to the panel with a plurality of contacts through slits while being plastically deformed through the panel,
Wherein the flange portion of the rivet stud bolt provides rotation restraining force corresponding to the torque to the panel through the rotation restraining unit. 12. The method of claim 11,
Wherein the rivet portion integrally connects one portion of the panel corresponding to the inner space of the rivet portion and another portion of the panel corresponding to the slits. A panel assembly in which a rivet stud bolt of any one of claims 1 to 8 for bolting a component to one panel is bonded to the panel,
The rivet portion of the rivet stud bolt is plastically deformed while being pressed into the panel without penetrating the panel,
The rivet portion integrally connects one portion of the panel corresponding to the inner space of the rivet portion and another portion of the panel corresponding to the slits,
Wherein the flange portion of the rivet stud bolt provides rotation restraining force corresponding to the torque to the panel through the rotation restraining unit. A panel assembly in which a rivet stud bolt of any one of claims 1 to 8 for bolting a component to at least two or more panels is bonded to the panels,
The rivet portion of the rivet stud bolt is plastically deformed while being pushed into the lowermost panel through the upper panel except for the lowermost panel so that a part of the upper panel corresponding to the inner space and another One part is integrally connected,
Wherein the flange portion of the rivet stud bolt provides rotational restraining force corresponding to the torque to the uppermost panel through the rotation restraining unit.

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