KR102240927B1 - Sandwich type CFRP structure inserted with UHSS - Google Patents

Abstract

The present invention relates to a processed steel for a frame, and more particularly, to a sandwich-type carbon fiber reinforced plastic structure into which ultra-high strength steel is inserted. The sandwich-type carbon fiber reinforced plastic structure in which the ultra-high strength steel of the present invention is inserted is a sandwich-type structure that is laminated in face contact with each other, and is provided on an inner layer including an ultra-high strength steel sheet and upper and lower portions of the inner layer, and a carbon fiber-reinforced plastic plate It is configured to include a pair of outer layers made of, and accordingly, the structure is dense, so that the rigidity is high compared to the thickness, and there is an effect of preventing corrosion of the ultra-high strength steel.
In addition, since it is possible to manufacture an ultra-high-strength steel sheet without molding, there is an effect of making the manufacturing process efficient.

Description

Sandwich type CFRP structure inserted with UHSS}

The present invention relates to a processed steel for a frame, and more particularly, to a reinforced plastic sandwich-type structure into which high-strength steel is inserted.

Materials to be applied to the aerospace industry or other means of transportation had to be light in weight and high in strength.To satisfy this, conventional frames include carbon fiber reinforced plastic (CFRP), aluminum, and UHSS (Ultra High Strength Steel) has been widely used. Accordingly, a vehicle center floor using a method of bonding ultra-high strength steel to carbon fiber reinforced plastic has been disclosed in Korean Patent Laid-Open Publication No. 10-2018-0066286 "Composite Material Center Floor" (hereinafter, prior art).

1 is a representative diagram of the prior art, and briefly describing the prior art with reference to this, the prior art is a center floor composed of various types of materials, including CFRP 100 and steel (ultra-high strength steel) 400 do. At this time, it is suggested that it is desirable to manufacture the composite center floor 10 by pre-fabricating various types of materials to suit the design of each part and then rivet bonding them. However, manufacturing the steel (ultra-high-strength steel) 400 serving as a reinforcing material to have a specific shape may reduce manufacturing efficiency due to the characteristics of the ultra-high-strength steel, which is difficult to process. In addition, in the prior art, the steel (ultra-high strength steel) 400 is assembled at a position exposed to the outside air, but since the ultra-high strength steel is easily corroded, there is a possibility that a defect in stiffness may occur in the future.

Republic of Korea Patent Publication No. 10-2018-0066286 "Composite material center floor"

The present invention was conceived to solve the above problems, and an object of the present invention is to make the structure compact by sandwiching and bonding an ultra-high-strength steel sheet between two or more carbon fiber-reinforced plastic plates, thereby increasing the stiffness compared to the thickness. It is to provide a sandwich-type carbon fiber reinforced plastic structure in which ultra-high-strength steel is inserted that can prevent corrosion of high, ultra-high-strength steel.

In addition, by forming a carbon fiber reinforced plastic plate to fit an ultra high strength steel sheet, the ultra high strength steel sheet can be inserted, thereby providing a sandwich-type carbon fiber reinforced plastic structure with ultra high strength steel inserted that can be manufactured without molding the ultra high strength steel sheet. Is in.

The sandwich-type carbon fiber-reinforced plastic structure into which the ultra-high strength steel of the present invention is inserted is a sandwich-type structure laminated in surface contact with each other, comprising: an inner layer including an ultra-high strength steel sheet; It is provided on the upper and lower portions of the inner layer and characterized in that it comprises a pair of outer layers made of a carbon fiber reinforced plastic plate.

In addition, the inner layer is divided into a reinforced region (S1) and an unreinforced region (S2),

The reinforcement region S1 is characterized in that it is made of the ultra-high strength steel sheet.

In addition, the unreinforced region (S2) is the carbon fiber reinforced plastic plate, characterized in that it is made of a plate having the same thickness as the ultra-high strength steel sheet.

In addition, the thickness b of the inner layer is ~ to ~, and the thickness a of the outer layer is ~ to ~.

In addition, the outer layer and the inner layer may be bonded with an adhesive.

It characterized in that the corrosion prevention means is applied to the portion where the high-strength steel sheet is exposed to the outside.

The reinforcement region S1 is characterized in that it has a lattice shape.

In addition, the manufacturing method of the sandwich-type carbon fiber reinforced plastic structure in which the ultra-high strength steel is inserted may include: an arrangement step of arranging the ultra-high strength steel sheet in the reinforcement region S1 on the outer layer;

An interpolation step of arranging a carbon fiber reinforced plastic plate in the unreinforced region S2 on the outer layer;

A bonding step of covering the outer layer on an upper portion of an inner layer comprising the reinforced region S1 and the unreinforced region S2 and bonding the inner layer and the outer layer;

A molding step of molding the sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel is inserted according to the purpose;

A corrosion prevention step of applying a corrosion prevention means to the sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel is inserted;

It characterized in that it comprises a.

The sandwich-type carbon fiber reinforced plastic structure in which the ultra-high strength steel of the present invention is inserted according to the configuration as described above is made by sandwiching and bonding an ultra-high strength steel sheet between two or more carbon fiber-reinforced plastic plates, thereby densifying the structure and reducing the thickness. Compared to that, it has high rigidity and has the effect of preventing corrosion of ultra-high strength steel.

In addition, since the carbon fiber reinforced plastic plate is molded to fit the ultra-high strength steel sheet so that the ultra-high strength steel sheet can be inserted, it is possible to manufacture the ultra-high strength steel sheet without molding, thereby making the manufacturing process efficient.

1 is a representative diagram of the prior art.
2 is a conceptual diagram schematically showing a combination of an inner layer and an outer layer of the present invention.
3 is a conceptual diagram showing an embodiment of a combination of an inner layer and an outer layer of the present invention.
Figure 4 is a conceptual diagram showing an embodiment of the corrosion preventing means of the present invention.
5 is a perspective view showing a reinforced region S1 and an unreinforced region S2 of the present invention.
6 is a plan view showing an embodiment of the reinforced region S1 and the unreinforced region S2 of the present invention.
7 is a flow chart showing a method of manufacturing a sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel of the present invention is inserted.

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. Prior to this, terms or words used in the specification and claims should not be construed as being limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to explain their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, so that they can be replaced at the time of the present application. It should be understood that there may be various variations.

Hereinafter, the technical idea of the present invention will be described in more detail using the accompanying drawings. The accompanying drawings are only an example illustrated to describe the technical idea of the present invention in more detail, so the technical idea of the present invention is not limited to the form of the accompanying drawings.

Hereinafter, a combination of a carbon fiber reinforced plastic and an ultra-high strength sheet will be described with reference to FIGS. 2 to 5.

As shown in FIG. 2, the sandwich-type carbon fiber-reinforced plastic structure into which the ultra-high strength steel of the present invention is inserted may be formed in the form of a sandwich-type structure that is laminated in surface contact with each other. The sandwich-type structure may include an inner layer 100 including a high-strength steel sheet, and a pair of outer layers 200 provided on the upper and lower portions of the inner layer 100 and formed of a reinforced plastic plate. The inner layer 100 and the outer layer 200 may be bonded with an adhesive, and may be bonded by a rivet or screw method. As shown in FIG. 3, the inner layer 100 and the outer layer 200 may be formed on the surfaces of the inner layer 100 and the outer layer 200. It can be combined in a manner that forms the unevenness and fits each other with the formed unevenness.

In addition, in order to prevent corrosion of the ultra-high-strength steel sheet, which is easily corroded, when the ultra-high-strength sheet is exposed to the outside surface due to the hole formed in the side or the side of the sandwich-type carbon fiber reinforced plastic structure in which the ultra-high-strength steel is inserted, corrosion on the exposed outer surface. Prevention measures can be applied. This may be a corrosion-preventing chemical, and as shown in FIG. 4, a carbon fiber reinforced plastic may be added. However, any means capable of preventing corrosion can be applied without being limited to the above-described example.

As described above, by sandwiching and bonding an ultra-high-strength steel sheet between carbon fiber reinforced plastics, the structure can be denser than in the prior art. That is, it can have high rigidity compared to the total thickness. In addition, it is possible to prevent corrosion of the ultra-high strength steel, thereby increasing the durability.

Hereinafter, the configuration of the inner layer will be described with reference to FIG. 5.

The inner layer 100 is divided into a reinforced area (S1) and an unreinforced area (S2), and the reinforced area (S1) is an area made of an ultra-high-strength steel sheet, and a specific range of the reinforced area (S1) is determined in advance. It is preferable that it is specifically determined according to the area of the area requiring reinforcement and the shape of the ultra-high-strength steel sheet corresponding thereto. This is to overcome the difficulty of forming an ultra-high strength steel sheet.

The unreinforced region S2 is a region made of a carbon fiber reinforced plastic plate. It is preferable that the unreinforced area (S2) is made of carbon fiber reinforced plastic having the same thickness as the ultra-high strength steel sheet, and by applying this, there is no height difference between the reinforced area (S1) and the unreinforced area (S2), so that each layer is combined. It is to make it harder. The carbon fiber-reinforced plastic plate forming the unreinforced area S2 may be molded small, and thus, even if the ultra-high strength steel sheet is in a form with a hole or a variety of forms, it can be easily applied.

In an embodiment of the present invention, as shown in FIG. 6, the ultra-high strength steel sheet may be a grid type. When a grid-type ultra-high strength steel sheet having a size spanning the entire area of the area requiring reinforcement is applied, the reinforcement area (S1) Is the lattice area of the lattice type ultra high strength steel sheet, and the plurality of holes formed inside the lattice type ultra high strength steel sheet corresponds to the unreinforced area S2. In this unreinforced area S2, a carbon fiber-reinforced plastic plate having the same thickness as the thickness of the existing grid-type ultra-high strength steel sheet, which is molded so as to be fitted thereto, is disposed in the unreinforced area S2.

Hereinafter, a method of manufacturing a sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel of the present invention is inserted will be described with reference to FIG. 7.

The method of manufacturing a sandwich-type carbon fiber-reinforced plastic structure into which the ultra-high strength steel disclosed in claim 1 is inserted may be manufactured through the following steps.

First of all, it is preferable to determine an area to increase the strength, and then select an ultra-high strength sheet corresponding thereto. Thereafter, an arrangement step of disposing the ultra-high strength steel sheet in the reinforcement region S1 on the outer layer 200 may be performed. Thereafter, the interpolation step of arranging the carbon fiber reinforced plastic plate in the unreinforced region S2 on the outer layer 200 is performed, and the inner layer 100 consisting of the reinforced region S1 and the unreinforced region S2 A bonding step of covering the outer layer 200 on the top of the outer layer 200 and bonding the inner layer 100 and the outer layer 200 to each other may be performed.

Thereafter, if it is necessary to mold the of the present invention according to each use case, a molding step of molding a sandwich-type carbon fiber reinforced plastic structure with an ultra-high strength steel inserted according to the purpose may be performed, and then the ultra-high strength steel A corrosion prevention step of applying a corrosion prevention means to the inserted sandwich-type carbon fiber reinforced plastic structure may be performed. The corrosion prevention step may be to apply a corrosion inhibitor to the surface, and may be fastening the corrosion prevention means to the surface. This could be a carbon fiber reinforced plastic padding.

As described above, in the present invention, specific matters such as specific elements, etc., and limited embodiments have been described, but this is provided only to help a more general understanding of the present invention, and the present invention is limited to the above one embodiment. It is not, and a person of ordinary skill in the field to which the present invention belongs can make various modifications and variations from this description.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be determined, and all things that have equivalent or equivalent modifications to the claims as well as the claims to be described later belong to the scope of the spirit of the present invention. .

100: inner layer
200: outer layer
S1: reinforcement area
S2: Unreinforced area

Claims (9)

In the sandwich-type structure laminated in face contact with each other
An inner layer comprising an ultra-high strength steel sheet;
Includes; a pair of outer layers provided on the upper and lower portions of the inner layer and made of a carbon fiber reinforced plastic plate,
The inner layer is divided into a reinforced region (S1) and an unreinforced region (S2), and the reinforced region (S1) is made of the ultra-high strength steel sheet,
The unreinforced area (S2) is made of the carbon fiber reinforced plastic, but has the same thickness as the ultra-high strength steel sheet, and is made of a plate that is a separate entity from the outer layer,
Ultra-high strength steel-inserted sandwich, characterized in that protrusions are formed on both surfaces of the inner layer, grooves are formed on the inner surfaces of each of the pair of outer layers, and the protrusions and the grooves are meshed and fitted Type carbon fiber reinforced plastic structure.
delete delete delete The method of claim 1,
A sandwich-type carbon fiber-reinforced plastic structure with ultra-high-strength steel inserted, characterized in that a corrosion-preventing means is applied to a portion where the ultra-high-strength steel sheet is exposed to the outside.
The method of claim 1,
The reinforcing region (S1) is a sandwich-type carbon fiber reinforced plastic structure into which ultra-high-strength steel is inserted, characterized in that the lattice shape.
The method of manufacturing a sandwich-type carbon fiber reinforced plastic structure in which ultra-high strength steel is inserted disclosed in claim 1,
An arrangement step of disposing an ultra-high strength steel sheet in the reinforcement region S1 on the outer layer;
An interpolation step of arranging a carbon fiber reinforced plastic plate in the unreinforced region S2 on the outer layer;
A bonding step of covering the outer layer on an upper portion of an inner layer comprising the reinforced region S1 and the unreinforced region S2 and bonding the inner layer and the outer layer;
A molding step of molding the sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel is inserted according to the purpose;
A corrosion prevention step of applying a corrosion prevention means to the sandwich-type carbon fiber reinforced plastic structure into which the ultra-high strength steel is inserted;
A method of manufacturing a sandwich-type carbon fiber-reinforced plastic structure into which ultra-high-strength steel is inserted, comprising a.
The method of claim 7, wherein the corrosion prevention step,
A method of manufacturing a sandwich-type carbon fiber reinforced plastic structure in which ultra-high strength steel is inserted, in which a corrosion inhibitor is applied to the surface. The method of claim 7, wherein the corrosion prevention step,
A method of manufacturing a sandwich-type carbon fiber reinforced plastic structure in which ultra-high strength steel is inserted by fastening a corrosion prevention means.

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