KR101887774B1 - Connection structure of different materials - Google Patents

Abstract

A first member of a composite material formed with through holes penetrating vertically; A first fastening member connected to a lower surface of the first member and having an end passing through the through hole and exposed upwardly of the first member and penetrating in the same direction as the through hole; A second fastener of a metal material connected to an upper surface of the first member and fastened to an end of the first fastener exposed outside the first member; A second member of a metal material having an upper surface connected to the first fastener at a position below the first member and a through hole formed at a position corresponding to a position where the through hole is formed; And a third fastening member connected to the lower surface of the second member and inserted into the insertion passage through the through hole to be fastened to the first fastening body, .

Description

[0002] CONNECTION STRUCTURE OF DIFFERENT MATERIALS [0003]

The present invention relates to a connection structure of a heterogeneous material composed of members of a composite material, members of a metal material, and fasteners connected to members of the metallic material to firmly connect the different material members.

A method of joining with a member made of a composite material including reinforcing fibers and resin and a member made of a metal such as steel by using a rivet or a screw connection is problematic because of the problem of fracture of the composite material Have been used.

In this case, when the connection is made using only the adhesive, the performance required for the connection between the members of different materials can not be satisfied. Therefore, a connection method of different materials using a fastener such as a bolt or a nut is required.

It should be understood that the foregoing description of the background art is merely for the purpose of promoting an understanding of the background of the present invention and is not to be construed as an admission that the prior art is known to those skilled in the art.

Published Patent Application No. 20-2011-0006026

It is an object of the present invention to provide a connecting structure of heterogeneous material composed of members of a composite material, members of a metal material and members, and fasteners which firmly connect the different material members.

According to an aspect of the present invention, there is provided a connecting structure of different materials, comprising: a first member of a composite material having through holes penetrating vertically; A first fastening member connected to a lower surface of the first member and having an end passing through the through hole and exposed upwardly of the first member and penetrating in the same direction as the through hole; A second fastener of a metal material connected to an upper surface of the first member and fastened to an end of the first fastener exposed outside the first member; A second member of a metal material having an upper surface connected to the first fastener at a position below the first member and a through hole formed at a position corresponding to a position where the through hole is formed; And a third fastening member connected to the lower surface of the second member and inserted into the insertion passage through the through hole and fastened to the first fastening body.

Wherein the first fastener includes a body portion having an insertion hole communicated with the insertion passage and having an upper surface connected to a lower surface of the first member; And an extension extending from the rim of the insertion hole to form the insertion passage, the extension extending through the through-hole.

Wherein a first screw thread is formed on an outer surface of an end portion of the extended portion exposed upward of the first member and a fastening hole is formed in the second fastening member to receive an end of the extended portion, A second screw thread corresponding to the first screw thread is formed so that the first fastener and the second fastener can be screwed together.

Wherein the third fastener has a body portion whose upper surface is connected to a lower surface of the second member; And a penetrating portion extending from the body portion and penetrating the insertion passage.

A third screw thread is formed on the inner surface of the insertion path and a fourth screw thread corresponding to the third screw thread is formed on the outer surface of the penetration portion so that the first fastener and the third fastener can be screwed together.

Wherein the second member is hollow and the through hole is formed on one side of the second member and is formed on the other side of the second member and connected to the third member, And a second through hole connected to the first fastener, the lower surface of the first fastener is connected to the other side surface, the third fastener is inserted from the first passage hole, And can be inserted into the insertion passage communicating with the second passage hole through the hole.

Wherein an upper surface of the main body portion is in contact with a lower surface of the first member in the vicinity of the through hole to form a first surface facing surface and an outer surface of the extending portion is in contact with an inner surface of the through hole to form a second surface facing surface, The lower surface of the fastener may be in contact with the upper surface of the first member in the vicinity of the through hole to form a third surface contact surface.

The first surface facing surface, the second surface facing surface, and the third surface facing surface are coated with an adhesive to provide an adhesive layer to prevent direct contact of the first member with the first fastening member and the second fastening member have.

A third screw thread is formed on an inner side surface of the insertion passage and a fifth screw thread having a continuous shape with the third screw thread is formed on the inner side surface of the through hole, And the fourth screw thread corresponding to the third screw thread and the fifth screw thread continuing to each other is formed on the outer side surface of the penetration portion so that the first fastener and the second member and the third fastener can be screwed together .

Wherein the third fastener body has an end portion passing through the insertion passage and exposed to the outside of the first fastener body, wherein the second fastener body has a fastening hole for fastening the end portion of the first fastener body; And a cover portion extending from an edge of the fastening hole and forming a fastening path with a closed end to receive the end portion of the third fastening member into the fastening path.

According to the connection structure of different materials according to the present invention as described above, the members of the composite material and the members of the metal material can be connected to each other to firmly connect the different material members.

In addition, it is possible to prevent potential corrosion due to a potential difference by applying an adhesive to a portion where a member made of a composite material and a fastener of a metal material are in contact with each other.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing a connection structure of dissimilar materials according to an embodiment of the present invention. FIG.
2 is a view showing a first member, a first fastener, a second fastener, a second member, and a third fastener according to an embodiment of the present invention.
Figure 3 illustrates a first member connected to a second member of the hollow type according to an embodiment of the present invention.
4 is a view illustrating a connection structure of different materials according to an embodiment of the present invention applied to a hinge-mounting portion of a vehicle.
5 illustrates a connection structure of different materials according to an embodiment of the present invention.
6 illustrates a connection structure of different materials according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

Referring to FIGS. 1 and 2, a connection structure of different materials according to the present invention includes a first member 100 of a composite material having through holes 101 penetrating vertically; The first member 100 is connected to the lower surface of the first member 100 and has an end passing through the through hole 101 exposed above the first member 100 and penetrating in the same direction as the through hole 101 A first fastener 200 of a metal material having an insertion passage 221 formed therein; A second fastener 300 connected to an upper surface of the first member 100 and fastened to an end of the first fastener 200 exposed to the outside of the first member 100; A second member 100 of a metal material having an upper surface connected to the first fastener 200 and a through hole 401 formed at a position corresponding to a position where the through hole 101 is formed, Member 400; And a third fastener body (200) connected to the lower surface of the second member (400) and inserted into the insertion passage (221) through the through hole (401) (500).

The first member 100 is formed of a composite material including reinforcing fibers and a resin, and the first member 100 is formed with a through hole 101 penetrating in a vertical direction. The reinforcing fiber may be composed of one or more kinds of fibers selected from carbon fiber, glass fiber, aramid fiber, and natural fiber. However, the present invention is not limited thereto. In the case of the resin, it may be composed of a thermoplastic resin such as polypropylene (PP), polyethylene (PE), polycarbide (PC) or the like or a thermosetting resin such as polyurethane (PU), phenol resin or the like.

In some cases, the first member 100 may be made of a plastic material formed by resin curing.

The first fastener 200 is formed of a metal material and includes a first fastener 200 having an elongated portion extending through the through hole 101 from below the through hole 101, Is exposed above the first member 100. On the other hand, an insertion passage 221 penetrating through the through hole 101 in the first fastener body 200 is formed so as to pass through the through hole 101 in the same direction as the through hole 101. The cross section of the through hole 101 and the portion penetrating the through hole 101 of the first fastener 200 is formed in a circular shape and penetrates through the through hole 101 of the first fastener 200 The outer diameter of the cross section cut vertically in the longitudinal direction of the portion is the same as the diameter of the through hole 101 so that the first member 100 and the first fastener 200 can be firmly coupled.

Here, the metal material may be a material formed of steel, an aluminum alloy, a magnesium alloy, or the like. However, the present invention is not limited thereto.

The second fastener 300 is formed of a metal and is connected to the end of the first fastener 200 passing through the through hole 101 of the first member 100, Lt; / RTI > The cross section of the through hole 101 and the portion penetrating through the through hole 101 of the first fastener 200 is formed in a circular shape and is formed so as to penetrate through the through hole 101 of the first fastener 200 The diameter of the portion of the second fastener 300 fastened to the first fastener 200 is larger than the diameter of the first fastener 200 when the outer diameter of the cross section cut perpendicularly in the longitudinal direction of the portion is configured to be the same as the diameter of the through hole 101, The first member 100, the first fastener 200, and the second fastener 200 are formed so as to have the same outer diameter as a cross section cut vertically in the longitudinal direction of a portion passing through the through hole 101 of the fastener 200. [ So that a rigid coupling of the base 300 can be achieved.

Here, the metal material may be a material formed of steel, an aluminum alloy, a magnesium alloy, or the like. However, the present invention is not limited thereto.

The second member 400 is formed of a metal material and is connected to the second member 400 through the first member 100 and is located at a position corresponding to the position where the through hole 101 of the first member 100 is formed A through hole 401 is formed. Accordingly, the through hole 401 has a structure communicating with the insertion passage 221.

Here, the metal material may be a material formed of steel, an aluminum alloy, a magnesium alloy, or the like. However, the present invention is not limited thereto.

In the case of the third fastener 500, the elongated portion is formed of a metal material and extends from the lower portion of the second member 400 through the through hole 401 and through the through hole 101 And is inserted into the insertion passage 221. The cross section of the portion inserted into the insertion path 221 of the insertion passage 221 and the third fastener 500 is formed into a circular shape and is inserted into the insertion path 221 of the third fastener 500 The diameter of the cross section cut vertically in the longitudinal direction of the part is equal to the diameter of the insertion path 221 so that the first fastener 200 and the third fastener 500 can be firmly coupled.

The first member 100 and the second member 300 are connected to each other by the first member 100 and the second member 300 so that the first member 100 and the second member 300 are press- And the first fastener 200 and the third fastener 500 are connected to the second member 400 so as to squeeze the second member 400 up and down by fastening them to each other, The first member 100 and the second member 400 can be connected by fastening the fastener 200, the second fastener 300, and the third fastener 500 together.

A method of connecting the first member 100 and the second member 400 using the first fastener 200, the second fastener 300 and the third fastener 500 will be described. First, a through hole 101 The first member 100 and the first fastener 200 are connected by inserting the first fastener 200 from below the through hole 101 in the first member 100 having the first member 100 formed thereon. The first fastener 200 and the second fastener 300 are connected to the upper and lower sides of the first member 100 by fastening the second fastener 300 to the protruded portion through the through hole 101 .

Next, the second member 400 having the through-hole 401 formed therein is placed below the first fastener 200, and the insertion passage 221 is disposed so as to communicate with the through-passage. The first fastener 200, the second fastener 300, and the third fastener 500 are inserted into the insertion hole 221 by inserting the third fastener 500 from the through hole 401, The connection between the first member 100 and the second member 400 is completed.

Preferably, the first fastener 200 includes a body 210 having an insertion hole 211 communicating with the insertion passage 221 and having an upper surface connected to a lower surface of the first member 100; And an extension 220 extending from the rim of the insertion hole 211 to form the insertion path 221 and penetrating the through hole 101.

The first fastener 200 may be formed in the shape of a bolt provided with an insertion passage 221 which penetrates vertically. Accordingly, the main body 210 is a portion where the upper surface is connected to the lower surface of the first member 100 and is in contact with the lower surface. An insertion hole 211 is formed at a position corresponding to a position where the through hole 101 is formed in the first member 100. The extension part 220 integrally formed with the body part 210 extends in the longitudinal direction from the body part 210 and penetrates the through hole 101. The extension part 220 extends from the edge of the insertion hole 211 of the body part 210 And the insertion hole 211 and the insertion passage 221 communicate with each other.

As described above, the shape of the cross section cut perpendicularly in the longitudinal direction of the extended portion 220 inserted into the through hole 101 and the through hole 101 is formed in a circular shape, and the outer diameter of the cross section of the extended portion 220 The diameter of the through-hole 101 may be the same, so that the first member 100 and the first fastener 200 can be firmly coupled to each other.

The extended length of the extended portion 220 is greater than the thickness of the first member 100 so that the end of the extended portion 220 passing through the through hole 101 protrudes outside the first member 100 .

More preferably, a first thread 222 is formed on the outer surface of the end of the extension 220 exposed above the first member 100, and the second fastener 300 is extended A second thread 311 corresponding to the first thread 222 is formed on an inner surface of the fastening hole 301 so as to receive the first thread 311, The fastener 200 and the second fastener 300 can be screwed together.

The first screw thread 222 is formed on the outer surface of the end of the extended portion 220 exposed upward of the first member 100 to firmly fasten the first fastener 200 and the second fastener 300 A second thread 311 corresponding to the first thread 222 may be formed on the inner side surface of the fastening hole 301 of the second fastener 300 which receives the end of the extension 220. [ The end of the extension 220 and the fastening hole 301 are screwed together.

The first thread 222 may be formed of male thread and the second thread 311 may be formed of a female thread.

Therefore, the compressive force of the first fastener 200 and the second fastener 300 compressing the first member 100 in the up and down directions can be adjusted by tightening the screw.

The diameter of the fastening hole 301 and the outer diameter of the end surface of the extending portion 220 are formed to be equal to each other, So that the fastener 200 and the second fastener 300 can be firmly coupled to each other.

Preferably, the third fastener 500 includes a body 510 having an upper surface connected to a lower surface of the second member 400; And a penetration part 520 extending from the body part 510 and passing through the insertion path 221.

The third fastener 500 may be formed in a bolt shape. Accordingly, the upper surface of the body 510 is connected to the lower surface of the second member 400 and is in contact with the lower surface of the second member 400. The penetration part 520 integrally formed with the body part 510 extends into the shape protruding from the body part 510 and is inserted into the insertion passage 221 to be inserted into the first and second fasteners 200, 500 are connected.

As described above, the cross section cut perpendicularly in the longitudinal direction of the penetration part 520 inserted into the insertion path 221 and the insertion path 221 is formed in a circular shape, and the diameter of the cross- The diameter of the insertion passage 221 may be the same so that the first fastener 200 and the third fastener 500 can be firmly coupled.

The extended length of the penetrating portion 520 is made thicker than the length of the insertion passage 221 so that the end of the penetrating portion 520 penetrating the insertion passage 221 can protrude outside the insertion passage 221 .

A third thread 223 is formed on the inner surface of the insertion path 221 and a fourth thread 521 corresponding to the third thread 223 is formed on the outer surface of the penetration portion 520 So that the first fastener 200 and the third fastener 500 can be screwed together.

A third screw thread 223 is formed on the inner surface of the insertion passage 221 formed in the first fastener 200 to securely fasten the first fastener 200 and the third fastener 500, A fourth thread 521 corresponding to the third thread 223 may be formed on the outer surface of the penetration portion 520 of the third fastener 500 passing through the second thread portion 221. The insertion passage 221 and the penetration portion 520 are screwed together.

The third thread 223 may be formed of a female thread and the fourth thread 521 may be formed of a male thread.

Therefore, the compressive force of the first fastener 200 and the third fastener 500 compressing the second member 400 in the up and down directions can be adjusted by tightening the screw.

3 and 4, it is preferable that the second member 400 is hollow, the through hole 401 is formed on one side of the second member 400, A first passage hole connected to the fastener body 500 and a second passage hole formed on the other surface of the second member 400 and connected to the first fastener 200, And the third fastener body 500 is inserted from the first passage hole and is inserted through the second passage hole and communicated with the second passage hole, As shown in FIG.

When the second member 400 made of a metal is formed in a hollow shape having a space therein, the first member 200, the second member 300, and the first member 300 through the third member 500 A first passage hole 401 is formed in one side of the second member 400 and a second passage hole 401 is formed in the other side of the second member 400 for connection with the first member 100. The lower surface of the first fastener 200 is connected to the other side of the first member 100 so that the first member 100 is connected to the other side of the second member 400.

Preferably, the direction in which the first passage hole and the second passage hole are formed may be the same.

The third fastener 500 is inserted from one lateral direction of the second member 400 and is first passed through the first passage hole and then through the inner space of the second member 400 to pass through the second passage hole The first member 100 and the hollow second member 400 are connected to each other by being inserted into the insertion path 221 communicated with the second through hole and connected to the first fastener 200.

The upper surface of the main body 210 is in contact with the lower surface of the first member 100 in the vicinity of the through hole 101 to form the first surface 10, The side surface of the first member 100 is in contact with a side surface of the through hole 101 to form a second surface 20 of the first member 100, The third surface-facing surface 30 can be formed in contact with the upper surface.

The upper surface of the body 210 is brought into contact with the lower surface of the through hole 101 of the first member 100 in a state where the first fastener 200 passes through the through hole 101 of the first member 100 . By this contact, the first surface 10 is formed. On the other hand, the outer surface of the extended portion 220 is in contact with the inner surface of the through hole 101. By this contact, the second surface-facing surface 20 is formed. The lower surface of the second fastener 300 is brought into contact with the upper surface of the first member 100 in the vicinity of the through hole 101 in a state where the second fastener 300 is engaged with the end of the first fastener 200. By this contact, the third surface-facing surface 30 is formed.

More preferably, an adhesive is applied to the first surface 10, the second surface 20, and the third surface 30 to provide an adhesive layer 600, So that direct contact with the first fastener 200 and the second fastener 300 can be prevented.

An adhesive may be applied to the first surface 10 and the second surface 20 to prevent direct contact between the first member 100 and the first fastener 200. [ In addition, an adhesive may be applied to the third surface 30 to prevent direct contact between the first member 100 and the second fastener 300. When carbon fiber is included in the first member 100 made of a composite material, potential corrosion may occur due to a potential difference due to contact with the first fastener 200 and the second fastener 300 made of a metal material.

The first surface 100 of the first member 100 and the first surface 100 of the first member 100 are in contact with each other so that the first member 100 and the second member 100 are in contact with each other Since the adhesive is applied to the third surface 30 to prevent the direct contact from occurring, the potential corrosion can be prevented in advance.

Preferably, the adhesive layer 600 is formed to a thickness of about 0.5 mm to increase the effect of preventing dislocation corrosion.

5, a diameter of the insertion passage 221 is equal to a diameter of the through hole 401, and a third thread 223 is formed on the inner surface of the insertion passage 221 A fifth thread 402 having a continuous shape with the third thread 223 is formed on the inner side surface of the through hole 401 and the fifth thread 402 is formed on the outer surface of the through hole 520, And the fourth screw thread 521 corresponding to the fifth screw thread 402 are formed so that the first fastener 200 and the second member 400 and the third fastener 500 Can be screwed together.

The diameter of the insertion passage 221 and the diameter of the through hole 401 are formed to be equal to each other and a third thread 223 is formed on the inner surface of the insertion path 221 formed in the first fastener 200, A fifth thread 402 is formed in the through hole 401 formed in the second member 400. The fifth thread 402 formed in the through hole 401 communicating with the insertion passage 221 is connected to the third thread 223 while the first fastener 200 and the second member 400 are connected .

A fourth thread 521 having a shape corresponding to the third thread 223 and the fifth thread 402 is formed on the outer surface of the through portion 520 of the third fastener 500, The second member 400 and the third fastener 500 are screwed together. The third fastener 500 is fastened not only to the second member 400 but also to the second member 400 at the same time, so that a more rigid connection can be expected.

6, the third fastener 500 is extended through the insertion passage 221 to expose an end of the first fastener 200 and the second fastener 300 A body 310 having a fastening hole 301 to be fastened to an end of the first fastener 200; And a cover part (320) extending from a rim of the fastening hole (301) and forming a fastening path with a closed end to receive the end of the third fastening body (500) into the fastening path have.

The body 310 is a portion that is fastened to the end of the first fastener 200 by receiving the first fastener 200 with a fastener hole 301 formed therein. The cover 320 integrally formed with the body 310 is formed in a shape in which the end of the cover 320 is formed to extend from the rim of the fastening hole 301 and is connected to the fastening hole 301.

The third fastener 500 inserted into the insertion passage 221 is longer than the insertion passage 221 and penetrates the insertion passage 221 and protrudes outside the first fastener 200. The first fastener 200, the second fastener 300, the third fastener 500, and the third fastener 500 by being received inside the fastener by the end of the third fastener 500 protruding outside the first fastener 200, Can be accomplished simultaneously.

While the present invention has been particularly shown and described with reference to specific embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the following claims It will be apparent to those of ordinary skill in the art.

10: First surface facing surface 20: Second surface facing surface
30: Third surface facing
100: First member 101: Through hole
200: first fastener 210:
211: insertion hole 220: extension part
221: Insertion by 222: First thread
300: second fastener 301: fastening hole
310: body portion 311: second thread
320: cover part 400: second member
401: through hole 402: fifth thread
500: Third fastener 510: Body part
520: penetration part 521: fourth thread
600: adhesive layer

Claims (10)

A first member of a composite material formed with through holes penetrating vertically;
A first fastening member connected to a lower surface of the first member and having an end passing through the through hole and exposed upwardly of the first member and penetrating in the same direction as the through hole;
A second fastener of a metal material connected to an upper surface of the first member and fastened to an end of the first fastener exposed outside the first member;
A second member of a metal material having an upper surface connected to the first fastener at a position below the first member and a through hole formed at a position corresponding to a position where the through hole is formed; And
And a third fastening body of a metal material fastened to the first fastening body, the fastening body including a body portion having an upper surface connected to a lower surface of the second member, and a penetrating portion penetrating the insertion path,
A third screw thread is formed on an inner side surface of the insertion passage and a fifth screw thread having a continuous shape with the third screw thread is formed on the inner side surface of the through hole, And the fourth screw thread corresponding to the third screw thread and the fifth screw thread continuing to each other is formed on the outer side surface of the penetration portion so that the first fastener and the second member and the third fastener are screwed together A connection structure of different materials. The method according to claim 1,
Wherein the first fastener comprises:
A main body portion having an insertion hole communicated with the insertion path and having an upper surface connected to a lower surface of the first member; And
And an extension extending from a rim of the insertion hole to form the insertion passage, the extension extending through the through hole. The method of claim 2,
A first screw thread is formed on an outer surface of the end portion of the extended portion exposed upward of the first member,
Wherein the second fastening member is formed with a fastening hole for receiving an end portion of the extended portion therein and a second screw thread corresponding to the first screw thread is formed on an inner side surface of the fastening hole, And the body is threaded. delete The method according to claim 1,
A third screw thread is formed on the inner surface of the insertion passage,
And a fourth screw thread corresponding to the third screw thread is formed on an outer side surface of the penetration portion so that the first fastener and the third fastener are screwed together. The method according to claim 1,
Wherein the second member is hollow,
Wherein the through hole is formed on one side surface of the second member and has a first passage hole connected to the third fastener body and a second passage formed on the other side surface of the second member and connected to the first fastener body, Holes,
A lower surface of the first fastener is connected to the other surface,
And the third fastener is inserted into the insertion passage inserted from the first passage hole and communicated with the second passage hole through the second passage hole. The method of claim 2,
Wherein an upper surface of the main body portion is in contact with a lower surface of the first member around the through hole to form a first surface contact surface,
The outer surface of the extended portion is in contact with the inner surface of the through hole to form a second surface facing surface,
And the lower surface of the second fastener is in contact with the upper surface of the first member in the vicinity of the through hole to form a third surface contact surface. The method of claim 7,
The first surface facing surface, the second surface facing surface, and the third surface facing surface are coated with an adhesive to provide an adhesive layer, thereby preventing direct contact of the first member with the first fastening member and the second fastening member Features a heterogeneous connection structure. delete The method according to claim 1,
Wherein the third fastener is exposed to the outside of the first fastener through the insertion passage,
And the second fastener body
A body portion having a fastening hole to be fastened to an end portion of the first fastening body; And
And a cover portion extending from an edge of the fastening hole and forming a fastening path with a closed end to receive the end portion of the third fastening member into the fastening path.

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