KR101840742B1 - Fiber reinforced composite panel with horizontally inserted connector - Google Patents

Abstract

A metal panel in which a coupling hole is formed in a part of the outer rim; A connecting portion composed of a pipe-shaped coupling portion extending in the longitudinal direction and a flange protruding from both sides of the coupling portion; A fixing part for fixing the metal panel and the flange to each other at the edge of the flange; And a plurality of reinforcing fiber sheets formed of a plurality of layers laminated on the metal panel and having through holes formed at the same positions as the coupling holes of the metal panel are horizontally inserted.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a reinforced fiber composite panel,

The present invention can stably insert a connecting port such as a nut into a composite panel in which a metal panel and a reinforcing fiber sheet are laminated, secure a bonding strength effectively even in an inserted state, To a horizontally inserted reinforced fiber composite panel.

Recently, as interest in lightweight materials has increased, research on composites using carbon fiber has been actively carried out. Carbon fiber has higher tensile strength and light weight than metal, but it has weak point of bending strength.

Techniques for joining such composite materials with other parts by inserting a nut or bolt or the like are also introduced.

In the conventional case, a method of making a stirrer bar is introduced as an example. This is because a wire is inserted into a groove formed in the longitudinal direction of the lower mold, a joint nut is inserted into both ends of the groove, the end of the wire is inserted into the groove formed in the rear surface of the joint nut, A first step of foaming the polyurethane surrounding the joint nut and covering the upper mold on the lower mold to form a polyurethane core; A second step of braiding carbon fibers on the outer circumferential surface of the polyurethane core; A third step of infiltrating the resin into the braided carbon fibers, and a fourth step of fastening the joint bolts to the joint nuts.

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.

KR 2015-0012512 A

SUMMARY OF THE INVENTION The present invention has been proposed in order to solve the above problems, and it is an object of the present invention to stably insert a connection port such as a nut into a composite panel in which a metal panel and a reinforcing fiber sheet are laminated, And to provide a reinforced fiber composite panel in which a connector is horizontally inserted so that an insert process can be performed relatively easily.

According to an aspect of the present invention, there is provided a reinforced fiber composite panel having a connector and a connector, the connector comprising: a metal panel having a coupling hole formed in a part of an outer edge thereof; Like connecting portion extending in the longitudinal direction and a flange protruding from both sides of the connecting portion, the connecting port being flush with the metal panel in a state where the flange is inserted into the fitting hole when the fitting hole is inserted into the fitting hole; A fixing part for fixing the metal panel and the flange to each other at the edge of the flange; And a plurality of reinforcing fiber sheets which are composed of a plurality of layers laminated on the metal panel and in which through holes are formed at the same positions as the coupling holes of the metal panel and the connecting holes pass through the through holes when stacked on the metal panel do.

The connector can be coupled with the metal panel such that the central axis of the pipe shape is parallel to the metal panel.

The engaging hole is open to the outside of the metal panel and is angled, and the flange is angled like the engaging hole, so that the engaging hole can be in contact with the engaging hole when the engaging hole is inserted into the engaging hole.

The engagement hole may comprise a first portion in contact with the engagement portion of the connector and a second portion in contact with the flange.

The connecting portion of the connector may be formed of a circular portion having a circular cross section and a rectangular portion having a rectangular cross section, and flanges may be formed on both sides of the rectangular portion.

The connector may be arranged so that the circular portion faces the outside of the metal panel and the square portion faces the inside of the metal panel.

The through hole of the reinforcing fiber sheet is formed at a position corresponding to the square portion of the connector and is penetrated by the rectangular portion at the time of lamination to the metal panel and the reinforcing fiber sheet can be formed with a cutting line cut along the circular portion to one side of the through hole have.

The reinforcing fiber sheet may be laminated such that the through hole is penetrated by the rectangular portion when the laminate is laminated on the metal panel, and the portion where the incision line is formed extends on both sides of the incision line.

The rectangular portion of the connector may further extend upwardly and downwardly than the circular portion and may not be formed in the reinforcing fiber sheet laminated on the outermost portion.

The fixing portion may be a spot welding portion connecting the metal panel and the flange.

The metal panel and the flange may be the same in thickness.

The metal panel and the connector may be formed of the same material.

The extended length of the connector is formed to be equal to the length of the coupling hole of the metal panel so that the end of the connector can be positioned on the side surface of the composite panel in which the reinforcing fiber sheet is laminated on the metal panel.

A thread may be formed on the inner circumferential surface of the connector to insert the bolt.

According to the reinforced fiber composite panel in which the connector is horizontally inserted, the connection port such as a nut is stably inserted into the composite panel in which the metal panel and the reinforcing fiber sheet are laminated, and the coupling strength can be effectively secured even in the inserted state So that the insert process can be performed relatively easily.

1 is a perspective view of a connector of a reinforced-fiber composite panel in which a connector is inserted horizontally according to an embodiment of the present invention;
2 is a view illustrating a metal panel of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention.
3 is a view illustrating a state in which a connector is coupled to a metal panel of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention.
4 is a view illustrating a reinforced fiber sheet of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention.
5 to 6 are cross-sectional views of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention.

FIG. 1 is a perspective view of a connection hole of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention, and FIG. 2 is a cross- FIG. 3 is a view illustrating a state in which a connector is coupled to a metal panel of a fiber-reinforced composite panel in which a connector is horizontally inserted according to an embodiment of the present invention, and FIG. 4 is a cross- 5 to 6 are cross-sectional views of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention.

5 to 6 are cross-sectional views of a reinforced fiber composite panel in which a connector is horizontally inserted according to an embodiment of the present invention. The reinforced fiber composite panel in which a connector according to the present invention is inserted horizontally has a coupling hole 120 in a part of an outer frame, A metal panel (100) formed with the metal plate (100); And a flange 360 protruding from both sides of the coupling portion 320. The flange 360 is inserted into the coupling hole 120 when the coupling hole 120 is inserted into the coupling hole 120. [ (300) which is flush with the metal panel (100) in a state of being fitted to the metal panel (100). A fixing portion S for fixing the metal panel 100 and the flange 360 to each other at the edge of the flange 360; And a plurality of layers laminated on the metal panel 100. A through hole 520 is formed at the same point as the coupling hole 120 of the metal panel 100 and a connection hole And a plurality of reinforcing fiber sheets (500) penetrating through the through holes (520).

In the case of the present invention, the metal panel 100 is provided and has a sandwich structure in which the reinforcing fiber sheet 500 is laminated on one surface or both surfaces thereof. Thereby fusing the advantages of the metallic panel 100 and the advantages of the reinforcing fiber sheet 500. As the reinforcing fiber, a variety of fibers such as carbon fiber, aramid, and Kevlar can be utilized.

In addition, in order to secure the strength of the coupling of the composite panel having such a sandwich structure with other parts, a metal connection port 300 is required. In the case of the present invention, the connection port 300 is relatively easily mounted, And has a structure capable of maintaining the maximum strength when used.

FIG. 2 is a view illustrating a metal panel 100 of a reinforced fiber composite panel in which a connector 300 is inserted horizontally according to an embodiment of the present invention. In the metal panel 100, . The engaging hole 120 is open to the outside of the metal panel 100 and has an angled shape and the flange 360 is angled like the engaging hole 120 so that when the engaging hole 120 is inserted into the engaging hole 120, And can be in contact with the coupling hole 120. Since the coupling hole 120 and the flange 360 are coupled with each other in the angled shape, the coupling hole 120 and the flange 360 are regulated to an initial assembling position without being warped.

5, the connector 300 includes a pipe-shaped coupling portion 320 extending in the longitudinal direction and a flange 360 protruding from both sides of the coupling portion 320, The flange 360 is flush with the metal panel 100 in a state where the flange 360 is inserted into the coupling hole 120. 1, a flange 360 is formed on both sides of the coupling portion 320 and the flange 360 is fitted into the coupling hole 120 of the metal panel 100 As shown in FIG. So that the reinforcing fiber sheet 500 can be laminated in a plane around the flange 360 without step differences, and the flange 360 is supported on the metal panel 100 laterally.

The connector 300 may be coupled to the metal panel 100 such that the central axis of the pipe shape is parallel to the metal panel 100. Accordingly, the connector 300 is coupled toward the side of the composite panel, and the other ends of the composite panel and the composite panel are in contact with each other.

The coupling hole 120 of the metal panel 100 is composed of a first portion 122 contacting the coupling portion 320 of the connection port 300 and a second portion 124 contacting the flange 360, . The engaging portion 320 of the connector 300 includes a circular portion 320 having a circular cross section and a rectangular portion 340 having a rectangular cross section and has flanges 360 on both sides of the rectangular portion 340, As shown in Fig. The connector 300 may be disposed so that the circular portion faces the outside of the metal panel 100 and the rectangular portion faces the inside of the metal panel 100. The engaging portion 320 and the flange 360 of the connector 300 are located in the first portion 122 and the second portion 124 of the engaging hole 120 and can be regulated in position laterally . In addition, since they are combined with a rectangular shape, their position is regulated even if the torque acts in the rotating direction.

The reinforcing fiber sheet 500 is composed of a plurality of layers laminated on the metal panel 100. The reinforcing fiber sheet 500 has through holes 520 formed at the same positions as the coupling holes 120 of the metal panel 100, (300) penetrates through the through hole (520) when stacked on the substrate (100). 4, the through-hole 520 of the reinforcing fiber sheet 500 is formed at a position corresponding to the rectangular portion 340 of the connector 300. When the metal sheet 100 is stacked on the metal panel 100, the through- And the reinforcing fiber sheet 500 may be formed with a cutting line 540 cut along the circular portion to one side of the through hole 520. [

5, the reinforcing fiber sheet 500 penetrates through the through hole 520 when the metal panel 100 is laminated to the metal panel 100, and the portion where the incision line 540 is formed passes through the incision line 540 And the circular portion 320 may be laminated so as to surround the circular portion 320. 5 illustrates a configuration in which the cutout line 540 surrounds the circular portion 320 of the connector 300. The reinforced fiber sheet 500 that is laminated in this manner is formed such that the cut portions are spaced apart from each other, And the reinforcing fiber sheet 500 'formed with only the through holes 520 without the incision line as shown in FIG. 6 is laminated on the upper surface of the reinforcing fiber sheet 500' 'Are completely flat, and the connector 300 is enclosed in the inside and is stably supported without any empty space.

Accordingly, the reinforcing fiber sheet 500 stably surrounds the connector 300, and is completely flattened so that there is no step on the surface. The rectangular portion 340 of the connector 300 is further extended upward and downward than the circular portion 320 so that the reinforcing fiber sheet 500 'without the cut line can be stacked as a plurality of layers as shown in FIG. 6 I have a room to spare. Through this clearance, the connector 300 is supported so as not to be separated to the outside.

3, the fixing portion S fixes the metal panel 100 and the flange 360 at the edge of the flange 360, and the fixing portion S fixes the metal panel 100 and the flange 360 360 that are connected to each other. Accordingly, the assembly position between the connector 300 and the metal panel 100 can be ensured through a single welding process, and the metal panel 100 and the flange 360 have the same thickness, So that there is no difference in level.

The metal panel 100 and the connector 300 are made of the same material, so that the selection range of the welding type and the material can be widened.

The length of the connector 300 is equal to the length of the coupling hole 120 of the metal panel 100 so that the end of the connector 300 is stacked on the metal panel 100, Sectional view of the composite panel. As shown in FIG. 1, a screw thread N is formed on the inner circumferential surface of the coupling hole 300 so as to be inserted into the bolt, This is possible.

According to the reinforced fiber composite panel in which the connector 300 of the present invention is horizontally inserted, the connector 300 such as a nut is stably inserted into the composite panel in which the metal panel 100 and the reinforcing fiber sheet 500 are laminated, The joint strength can be effectively secured even in the inserted state, and the insert process can be performed relatively easily.

While the invention has been shown and described with respect to the 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.

100: metal panel 300: connector
500: reinforced fiber sheet

Claims (14)

A metal panel in which a coupling hole is formed in a part of the outer rim;
Like connecting portion extending in the longitudinal direction and a flange protruding from both sides of the connecting portion, the connecting port being flush with the metal panel in a state where the flange is inserted into the fitting hole when the fitting hole is inserted into the fitting hole;
A fixing part for fixing the metal panel and the flange to each other at the edge of the flange; And
A plurality of reinforcing fiber sheets which are composed of a plurality of layers laminated on a metal panel and in which through holes are formed at the same positions as the coupling holes of the metal panel and the connecting holes pass through the through holes when stacked on the metal panel ,
Wherein the coupling hole comprises a first portion in contact with the coupling portion of the coupling and a second portion in contact with the flange. The method according to claim 1,
Wherein the connection port is coupled to the metal panel such that the center axis of the pipe shape is parallel to the metal panel. The method according to claim 1,
Wherein the flange is angled in the same manner as the coupling hole, and the edge of the flange is in contact with the coupling hole when the coupling hole is inserted into the coupling hole, wherein the coupling hole is horizontally inserted Fiber composite panels. delete The method according to claim 1,
Wherein the connecting portion of the connector has a circular portion having a circular cross section and a rectangular portion having a rectangular cross section and flanges are respectively protruded on both sides of the rectangular portion. The method of claim 5,
Wherein the connecting portion is arranged such that the circular portion faces the outside of the metal panel and the rectangular portion faces the inside of the metal panel. The method of claim 5,
The through hole of the reinforcing fiber sheet is formed at a position corresponding to the rectangular portion of the connecting hole and is penetrated by the rectangular portion when laminated on the metal panel and the reinforcing fiber sheet is formed with a cut line cut along the circular portion to one side of the through hole Reinforced fiber composite panel having a horizontal insert inserted therein. The method of claim 7,
Wherein the reinforcing fiber sheet is laminated so that the through hole is penetrated by the rectangular portion when the laminate is laminated on the metal panel and the cut portion is formed so as to surround the circular portion with the divided sides opened on the basis of the incision line. Inserted reinforced fiber composite panel. The method of claim 8,
Wherein the reinforcing fiber sheet laminated on the outermost periphery is formed with no incision line, and the reinforcing fiber sheet laminated on the outermost reinforcing fiber sheet is horizontally inserted. The method according to claim 1,
Wherein the fixing portion is a spot welding portion connecting the metal panel and the flange. The method according to claim 1,
Wherein the metal panel and the flange have the same thickness. The method according to claim 1,
Wherein the metal panel and the connection port are formed of the same material. The method according to claim 1,
Wherein the length of the connector is formed to be the same as the length of the coupling hole of the metal panel so that the end of the connector is positioned on the side surface of the composite panel in which the reinforcing fiber sheet is laminated on the metal panel. Composite panel. The method according to claim 1,
Wherein a thread is formed on an inner circumferential surface of the connection port to insert a bolt into the reinforcing fiber composite panel.

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