KR101657798B1 - Tailor blank manufacturing method - Google Patents

Abstract

One embodiment of the present invention provides a method of manufacturing a tailor blank in which different molding characteristics can be realized for each part without using welding or different materials. The method for manufacturing a tailor blank according to one aspect of the present invention is a method for manufacturing a tailor- A method of manufacturing a tailor blank for processing an intermediate stage welded material to improve moldability during molding of the finished product, the method comprising the steps of: providing at least one blanket having a relief pattern to form a relief pattern A forming tool preparing step of preparing a forming tool; A molding tool mounting step of mounting the molding tool by adjusting an embossing pattern arrangement direction of the molding tool so that a relief pattern to be formed on the workpiece is formed in a direction to suppress or improve tension of the workpiece; A material supplying step of supplying a material to the molding tool installed in the molding tool installing step; A shaping step of pressing the material supplied in the material supply step to the shaping tool so as to have a shape corresponding to the relief pattern of the shaping tool and to perform shaping with a tail blank for the final product shaping; And a drawing step of drawing a material made of the Taylor blank in the forming step.

Description

{TAILOR BLANK MANUFACTURING METHOD}

The present invention relates to a method of forming a tailblank, which is provided at the initial stage of manufacturing a thin plate component, and more particularly, to a method of manufacturing a tailblank will be.

In general, the thin plate parts are manufactured in the form of finished products through press working and the like.

These thin plate parts are manufactured as a blank which is an intermediate-stage welding material which is not formed in the form of an end product at the initial stage of the manufacturing process before the final product is manufactured.

The blank is a form in which the material of the initial coil state is cut to a certain size. The material and thickness are selected according to the required characteristics of each part, and the shape of the blank is also determined according to the shape of the part.

Further, the thin plate part has a complicated shape according to various required characteristics, and therefore it is very important to determine an appropriate blank shape in order to form a part having a complicated shape. Particularly, it is very important to design the blank to optimize the blank used in the manufacturing process in order to prevent lighter parts and wasted materials in the coil state.

Thus, recent blanks are manufactured in the form of a customized welded steel sheet such as a tailor blank 10, as shown in Fig. 1, so as to have different properties for each part.

The tailor blank 10 of the customized welded steel plate uses a plurality of steel plates 12, 14 and 16 which impart different characteristics to the respective portions of the tailor blank 10 by using materials of different thicknesses or materials of different strengths. The steel plates 12, 14, and 16 are cut according to the shape of each part and welded to produce a finished product.

However, the conventional Taylor blank is not easy to manufacture because different materials must be cut and welded, so that much time and effort are required for manufacturing, and the cost is also increased. In addition, there is a concern that defects may occur in the welding process of each material in the past, which may cause a decrease in productivity. In addition, the blank may change the physical properties of the welded part during the welding process of each material, which may cause the increase of the strength and the decrease of the elongation, resulting in the deterioration of the formability.

It is an object of the present invention to provide a method of manufacturing a tailor blank in which different molding characteristics can be realized for each part without using welding or different materials.

The method of manufacturing a tailor blank according to one aspect of the present invention is a method of manufacturing a tailor blank in which the intermediate material is processed to improve the formability during molding of the final product before the finished product is manufactured, A forming tool having at least one forming tool having an embossing pattern for forming an embossing pattern on the workpiece; A molding tool mounting step of mounting the molding tool by adjusting an embossing pattern arrangement direction of the molding tool so that a relief pattern to be formed on the workpiece is formed in a direction to suppress or improve tension of the workpiece; A material supplying step of supplying a material to the molding tool installed in the molding tool installing step; A shaping step of pressing the material supplied in the material supply step to the shaping tool so as to have a shape corresponding to the relief pattern of the shaping tool and to perform shaping with a tail blank for the final product shaping; And a drawing step of drawing a material made of the Taylor blank in the forming step.

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In addition, the forming tool may be installed in the forming tool so that a positive pattern is arranged in a direction parallel to the tensile growth direction at a portion where tensile is required in the process of forming the tailblank.

In addition, the forming tool may be installed in the forming tool so that a relief pattern is arranged in a direction orthogonal to the tensile direction of the portion where the tensile suppression is required in the process of forming the tailblank.

According to an embodiment of the present invention, there is no need to perform a welding operation for connection of each material during manufacture of the tailor blank, thereby improving workability, preventing defects due to welding, Reducing losses, reducing manufacturing costs, and overall cost savings and productivity. The present invention is advantageous in that the contact with the tool is changed due to the relief pattern formed on the tailblank, so that the initial frictional characteristics can be controlled and optimization for improving the molding characteristics is facilitated.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a plan view of a Taylor blank produced by a Taylor blank manufacturing method according to the prior art; FIG.
2 is a plan view showing a position where a forming tool is placed in a work in a method of manufacturing a tailor blank according to an embodiment of the present invention;
3 is a perspective view illustrating a molding tool utilized in a method of manufacturing a Taylor blank according to an embodiment of the present invention.
4 is a stress distribution diagram for deformation behavior of a Taylor blank which is pressed against a forming tool in a method of manufacturing a Taylor blank according to another embodiment of the present invention.
5 is a perspective view of a tailor blank produced by the method of making a tailor blank according to another embodiment of the present invention.
6 is a plan view of a Taylor blank produced by a method of making a Taylor blank according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. The shape and the size of the elements in the drawings may be exaggerated for clarity and the same elements are denoted by the same reference numerals in the drawings.

FIG. 2 is a plan view showing a position where a forming tool is disposed in a work in a method of manufacturing a tailor blank according to an embodiment of the present invention. FIG. 3 is a cross- Fig. 4 is a stress distribution diagram for the deformation behavior of the Taylor blank which is pressed onto the forming tool in the method of manufacturing the Taylor blank according to another embodiment of the present invention.

Referring to FIGS. 2 to 4, the method of manufacturing a tailor blank according to the present embodiment may include a forming tool preparing step, a forming tool setting step, a material supplying step, a molding step, and a drawing step.

This method of producing a tailor blank is a method of manufacturing a tailor blank 100, which is a customized welding material that is used as an intermediate stage before processing a material to be supplied in a coil state, for example, a thin plate material, into an end product part form .

The method of manufacturing the tailor blank 100 of the present embodiment is utilized for preforming a material manufactured by the tailor blank 100 so that molding characteristics are imparted to the tailor blank 100 by the position of the material when the tailorrant blank 100 is manufactured.

For this, in the present embodiment, the forming tool 130 forming step is a step of providing at least one forming tool 130 having an embossed pattern to be formed on a work.

The forming tool 130 may be provided with a plurality of forming tools 130 having different heights of the boss pattern corresponding to the strength of the tailblank 100 to be formed. For example, in the tailor blank 100, a strength change occurs with deformation, and the more the deformation is, the more the strength tends to increase.

Therefore, when the height of the relief pattern 132 is increased in the forming tool 130, the amount of deformation increases in the process of forming the blank. Thus, The strength of the portion where the deformation is caused by the pattern 132 is increased as compared with the peripheral portion. As described above, in this embodiment, the partial strength of the tailer blank 100 can be adjusted by adjusting the height of the relief pattern 132 of the forming tool 130.

In addition, the forming tool 130 provided in the forming tool preparing step may be provided so as to form the frictional force of each part of the tailblanket 100 differently.

Here, the tailblanks 100 generate frictional force corresponding to the area, but the frictional force also tends to increase as the area increases.

Accordingly, when the protruding width of the relief pattern 132 is widened in the forming tool 130, the frictional force is increased in the process of forming the blank. Thus, by the relief pattern 132 of the forming tool 130, The frictional force is increased as compared with the portion having the narrow area of the peripheral portion. As described above, in this embodiment, the partial frictional force of the tailer blank 100 can be adjusted by adjusting the width of the relief pattern 132 of the forming tool 130.

Further, when the forming tool 130 corresponding to the characteristics of the Taylor blank 100 is provided in the forming tool preparing step, the step of installing the forming tool 130 can be performed.

The molding tool installation step is a step of installing the molding tool 130 so as to be arranged in a direction to give characteristics to the material by using the molding tool 130 provided in the molding tool preparation step.

6 is a plan view showing a position where a forming tool is placed in a work in a method of manufacturing a tailor blank according to an embodiment of the present invention.

Referring to FIG. 6, the forming tool mounting step is performed by adjusting the arrangement direction of the forming tool 130 so that fracture does not occur during a process of being pulled at a portion H where tensile is required in the process of forming the tailblank 100 .

That is, the tailer blank 100 comes into contact with the mold during the molding process, and at this time, the tailer blank 100 may be broken in the direction of being pulled by the mold.

The forming tool mounting step may be performed by a molding tool (not shown) so that the relief pattern 132 is arranged in a direction parallel to the tensile progressing direction P1 in the portion H where the tensile is required in the work, 130 may be installed.

Accordingly, a pattern corresponding to the relief pattern 132 can be formed in the tensile direction P1 of the material. In the process of being formed into the finished product part after being manufactured with the tailblank 100 of the finished product, The deformation due to the vibration is minimized and no breakage occurs.

On the other hand, the molding tool mounting step may be affected by the peripheral tensile during the tensile process in the portion (L) where tensile suppression is required in the process of forming the tailblank 100, L may occur, and the arrangement direction of the forming tools 130 may be adjusted to prevent the wrinkles.

In other words, the tailblank 100 comes into contact with the mold during the molding process. If there is little movement of the mold, the tensile is suppressed. However, the tailblank 100 is stretched by the mold at the peripheral portion, have.

In order to prevent the wrinkles of the tailblank 100 from being formed, the molding tool mounting step is performed so that the positive pattern 132 is arranged in a direction orthogonal to the tensile traveling direction P2 on the portion (L) The tool 130 can be installed.

Accordingly, a pattern corresponding to the positive pattern 132 can be formed on the material in a direction orthogonal to the tensile progressing direction P2. In the process of being formed into the finished product part after being manufactured with the tailblank 100 of the finished product, So that the wrinkles are not generated.

On the other hand, if the forming tool 130 is properly installed in the forming tool mounting step, a material supplying step of supplying a material to the forming tool 130 may proceed.

When the material is supplied in this way, the forming step can proceed.

In the forming step, the material supplied in the material supplying step may be pressed to mold the material so that a shape corresponding to the relief pattern 132 of the forming tool 130 is formed in the material.

At this time, the material to be formed may be formed in a shape corresponding to the relief pattern 132 of the forming tool 130 disposed at the forming tool installation stage, and molding characteristics may be different in the portion where the pattern is formed .

Further, when the forming step is completed, the drawing step is performed, and the material made of the Taylor blank 100, which is an intermediate form before being manufactured as a final part through the drawing step, can be taken out.

As described above, in the method of manufacturing the tailor blank according to the present embodiment, a difference in strength can be given according to the shape of the relief pattern 132 in the process of being formed by the forming tool 130 for each part, And thus a tailor welded steel sheet, such as a tailor blank 100, having characteristics suitable for the characteristics of the finished part, can be produced.

5, which is a perspective view of a tailor blank produced by a method of manufacturing a tailor blank according to another embodiment of the present invention, and FIG. 6 is a plan view of a tailor blank produced by the method of manufacturing a tailor blank according to another embodiment of the present invention. As you can see. In the method of manufacturing a tailor blank according to the present embodiment, the portions having different characteristics can be formed in one tailblane, thereby completing the final part having various shapes and molding characteristics.

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 appended claims and their equivalents. It will be clear to those who have knowledge.

100: Taylor Blank 130: Molding tool
132: Embossed pattern

Claims (5)

A method of manufacturing a tailor blank, comprising the steps of processing an intermediate-stage welded material before manufacturing the finished product so as to improve moldability in molding the finished product,
A forming tool preparing step of preparing at least one forming tool having a relief pattern for forming a relief pattern on the workpiece to suppress or improve tension of the workpiece;
A molding tool mounting step of mounting the molding tool by adjusting an embossing pattern arrangement direction of the molding tool so that a relief pattern to be formed on the workpiece is formed in a direction to suppress or improve tension of the workpiece;
A material supplying step of supplying a material to the molding tool installed in the molding tool installing step;
A shaping step of pressing the material supplied in the material supply step to the shaping tool so as to have a shape corresponding to the relief pattern of the shaping tool and to perform shaping with a tail blank for the final product shaping; And
A drawing step of drawing a material made of a Taylor blank in the forming step;
≪ / RTI > delete delete The method of claim 1, wherein the forming tool installation step
Wherein the shaping tool is installed in a portion where tensile is required in a process of forming the tailblank, so that a positive pattern is arranged in a direction parallel to the tensile progressing direction. The method of claim 1, wherein the forming tool installation step
Wherein the shaping tool is installed in a region where tension suppression is required in a process of forming the tailblank, so that a positive pattern is arranged in a direction orthogonal to a tensile growth direction.

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