KR101116634B1 - Method for fabricating shock absorber housing of vehicle and shock absorber housing produced by the same - Google Patents

Abstract

The present invention is to produce a two-thick boron steel sheet made of TWB to correspond to the cover portion and the housing portion, respectively, to form the shock absorber housing molded part first through hot forming in a hot stamping mold, and then to quench the martensite structure. Provided is a method for fabricating a shock absorber housing for a vehicle manufactured from a strength shock absorber housing.

Shock absorber housing, manufacturing method, TWB, high strength, hot stamping

Description

Method for manufacturing shock absorber housing for vehicle {METHOD FOR FABRICATING SHOCK ABSORBER HOUSING OF VEHICLE AND SHOCK ABSORBER HOUSING PRODUCED BY THE SAME}

The present invention relates to a method for manufacturing a shock absorber housing for a vehicle, and more particularly, to fabricate a shock absorber housing molded product through hot forming in a hot stamping mold by manufacturing a TWB from a different thickness boron steel plate, and then performing a quenching process. It relates to a vehicle shock absorber housing manufacturing method for manufacturing a high-strength shock absorber housing of the site organization.

Generally, as shown in FIG. 1, a shock absorber housing 103 is provided at an upper portion of a section in which a dash panel (not shown) is provided on the front side member 101 to partition an engine room and an interior of a cabin. housing) is welded, and the engine mounting bracket 105 is welded to the front side of the shock absorber housing 103.

As shown in FIG. 2, the shock absorber housing 103 is composed of a housing portion 111 and a cover portion 113 and assembled to each other by spot welding. Spot welded back to the fender apron upper member 107 is assembled.

The shock absorber housing 103 is a portion in which the upper end of the shock absorber (not shown) is fastened to the cover portion 113 and a suspension spring (not shown) is supported around the shock absorber, so that rigidity is required compared to other parts. to be.

Therefore, the conventional shock absorber housing 103 is a press-molded product which is difficult to use a high strength steel sheet due to formability problems, and has a thickness or a material to further reinforce the rigidity of the cover part 113 based on a steel-based steel sheet. The cover part 113 and the housing part 111 were each formed using this different steel sheet, and then assembled by spot welding in a separate welding process.

Nevertheless, the conventional shock absorber housing 103 is weak in the welded part rigidity of the housing part 111 and the cover part 113, so that an additional reinforcement (not shown) is added or the thickness of the material is made thicker. It has a problem that there is a limit to satisfy at the same time and light weight.

Accordingly, in recent years, research has been focused on new molding methods and high strength ultra-light weight new materials that can satisfy both rigidity and light weight at the same time.

Therefore, the present invention has been invented to solve the problems of the prior art through the new molding method and high strength ultra-lightweight new material research and development to satisfy the rigidity and light weight of the body parts at the same time, the problem to be achieved by the present invention is a cover Boron steel plates of different thicknesses are made of TWB to correspond to the parts and the housing parts, respectively. It is to provide a shock absorber housing manufacturing method for manufacturing a vehicle.

In the vehicle shock absorber housing manufacturing method of the present invention for realizing the technical problem as described above in the vehicle shock absorber housing manufacturing method for manufacturing a shock absorber housing consisting of a housing portion and a cover portion,

Preparing by cutting the boron steel sheets having different thicknesses into blanks corresponding to the housing and cover portions, respectively; Fabricating the housing blank and the cover blank by laser welding along a taylor weld line into a custom blank; Molding the custom blank into a shock absorber housing molded article through hot press forming at a high temperature above the transformation point temperature; Cooling the hot-formed shock absorber housing molded article by rapid cooling to have a metal structure of high strength; And laser cutting the shock absorber housing molded article having the high-strength metal structure along the trim line and the hole processing line.

The cover part blank is formed of a disc of a predetermined thickness having a circular opening in the center, and the housing part blank has a circular hole having the same inner diameter as the outer diameter so that the cover part blank is fitted and welded on one side thereof, and the cover part blank It is characterized by consisting of a thinner rectangular plate material.

The press hot forming is characterized in that the custom blank is directly molded in a press mold having a high temperature above the transformation point temperature.

In the press hot forming, the custom blank is heated and heated to a temperature equal to or higher than the transformation point temperature on an electric furnace.

The rapid cooling is characterized by forming a cooling passage in which the refrigerant circulates in the press die to quench water cooling at a cooling speed of a predetermined speed or more.

The high strength metal structure is characterized in that the martensite structure.

As described above, according to the method of manufacturing a vehicle shock absorber housing according to the present invention, a boron steel sheet having a different thickness is manufactured by using a custom blank (TWB) so as to correspond to the cover portion and the housing portion, respectively. The absorber housing molded part is first molded and then quenched to produce a high strength shock absorber housing of martensite structure.

That is, the shock absorber housing manufactured by the fabrication method according to the present embodiment has the high strength of the martensite structure due to the heat treatment of the material itself, and thus it is not necessary to thicken the overall thickness, thereby making it possible to manufacture the light weight. have.

Hereinafter, the preferred configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

3 is an assembled perspective view of a shock absorber housing and a front side member manufactured by a vehicle shock absorber housing manufacturing method according to an embodiment of the present invention, Figure 5 and Figure 6 is a vehicle shock absorber housing manufacturing according to an embodiment of the present invention Process block diagram and process diagram of the method.

As shown in FIG. 3, the shock absorber housing 1 manufactured by the vehicle shock absorber housing manufacturing method according to the present embodiment has a dash panel (not shown) that partitions the engine room and the interior of the cabin on the front side member 3. Spot welded to the upper part of the section where the si) is installed and the fender apron upper member 5 is assembled.

In the manufacturing method according to the present embodiment of the shock absorber housing 1, a boron steel sheet is used as the material.

The boron steel sheet is a steel sheet to which a small amount of boron (B) is added. In the present embodiment, the boron-added steel, commonly known as 22MnB5, is a USIBOR 1500P material coated with Al + Si to prevent oxide film generation. use.

This boron steel sheet, as can be seen from the TTT (Time Temperature Transformation) showing the effect of the addition of boron shown in Figure 4 to delay the formation of martensite metal structure according to the temperature conditions by the addition of boron It works.

In the boron steel sheet, the boron is segregated in the austenite grain boundary at the temperature condition of 900 ° C. in the atomic state, thereby reducing the free energy of the austenite grain boundary, thereby suppressing the formation of the cornerstone ferrite nucleus, thereby significantly improving the hardenability of the steel.

On the other hand, the boron steel sheet has a tensile strength of about 500 ~ 800MPa in the ferrite structure before the heat treatment, the internal hardness is formed in and out of Hv200. The ferritic boron steel sheet is austenitic at a high temperature of 900 ° C. or higher and rapidly cooled to obtain martensite structure having a high tensile strength of about 1300 to 1600 MPa and an internal hardness of about Hv500.

Boron steel sheet after the heat treatment obtained here is 4 to 5 times higher in strength than the general steel sheet, but the weight can be reduced by up to 40% compared to the conventional, there is an advantage that can achieve the weight reduction and strength improvement of the body parts at the same time.

The manufacturing method of the vehicle shock absorber housing according to the present embodiment by using the physical properties of the boron steel sheet, as shown in Figs. 5 and 6, the shock absorber based on the boron steel sheet 20 of 1.2t and 1.8t as a material The heterogeneous blank material preparation step S1 of preparing the housing part blank B1 and the cover part blank B2 of different thicknesses for manufacturing the housing part 11 and the cover part 13 of the housing 1 is performed. .

At this time, the boron steel sheet 20 has a state of the ferrite metal structure of the internal hardness Hv200.

In this case, the cover blank (B2) is formed of a disc of a predetermined thickness having a circular opening (OP) in the center, the housing blank (B1) is welded with the cover blank (B2) is fitted on one side. It has a circular hole (H) having the same inner diameter as the outer diameter, and, as described above, is made of a rectangular plate material thinner by 0.6t than the cover blank (B2).

Subsequently, as described above, the laser beam LB is irradiated along the taylor welding line TW by laser welding while the cover part blank B2 is inserted into the circular hole H of the housing part blank B1. The custom blank fabrication step (S2) of manufacturing the blank 30 is performed.

In this case, the cover part blank B2 having a thick thickness with respect to the housing part blank B1 is laser-welded in a state where the upper part of the cover part blank B1 coincides with each other.

As such, when the custom blank 30 is manufactured, a hot stamping step of forming the custom blank 30 into the shock absorber housing molded part 40 through hot stamping molding, that is, press hot forming, at a high temperature of 900 ° C. or more, which is a transformation point temperature. Proceed to (S3).

In this case, the press hot forming is a direct molding method in which the custom blank 30 is directly injected into a press mold 7 having a high temperature of 900 ° C. or more, which is a transformation point temperature, or molded, or the transformation blank temperature 900 is transformed on the electric furnace. After heating up to (° C.), a method of putting into the press die 7 to be molded may be applied.

In this way, the shock absorber housing molded article 40 formed by press hot forming of the custom blank 30 undergoes a rapid cooling step S4 for rapidly cooling the metal structure to have a high strength martensite structure.

Here, the rapid cooling is preferably formed in the press hot forming die (7) to form a cooling passage (9) through which the refrigerant circulates to quench water (Quenching) at a cooling rate of a predetermined speed or more.

Thus, the shock absorber housing molded article 40 is formed in a ferrite structure having a strength of about 500 to 800 MPa before forming, and is formed by austenizing at a high temperature of 900 ° C. or higher to form a high temperature. It has a martensitic structure having a high strength of about 1600 MPa.

In this case, the rapid cooling rate is ideally a cooling rate of 57 ° C / sec or more, in addition to water cooling quenching (Quenching) may be applied to the method such as oil cooling or forced air cooling.

Trim step (S5) for cutting the high-strength shock absorber housing molded article 40 of martensite metal structure produced through these steps using a laser beam (LB) along the trim line (TL) and the hole processing line (HL). Proceed.

Thus, by processing the unnecessary portion (T) and the hole (H) for fastening with the shock absorber from the above-described high strength shock absorber housing molded article (40) to ensure high strength and light weight of the material itself at the same time (1) ).

Therefore, the method for manufacturing a vehicle member as described above is to produce a custom blank (30) from the housing blank (B1) and cover blank (B2) made of a boron steel plate of thickness 1.2t, 1.8t, press hot forming mold (7) Hot forming in the hot stamping die) through the quenching process to transform the martensite structure to produce a shock absorber housing (1) of high strength itself.

As described above, according to the method for manufacturing the shock absorber housing for a vehicle according to the present embodiment, the shock absorber housing 1 having the high rigidity of the material itself is manufactured, thereby securing the collision performance without additional reinforcing material. High strength and light weight can be achieved at the same time.

While the present invention has been described above with reference to embodiments which are considered to be practical at present, the present invention is not to be understood as being limited to the above embodiments. Rather, the present invention belongs to the above-described embodiments of the present invention. It should be construed as including all modifications that are easily changed by those skilled in the art to be considered equivalent.

1 is an assembled perspective view of a general front side member and a shock absorber housing.

Figure 2 is an exploded perspective view of the shock absorber housing according to the prior art.

Figure 3 is an assembled perspective view of the shock absorber housing and the front side member produced by the vehicle shock absorber housing manufacturing method according to an embodiment of the present invention.

Figure 4 is an isothermal cooling transformation curve (TTT: Time Temperature Transformation) showing the effect of the addition of boron.

5 is a process block diagram of a method for manufacturing a shock absorber housing for a vehicle according to an embodiment of the present invention.

6 is a process diagram of a method for manufacturing a shock absorber housing for a vehicle according to an embodiment of the present invention.

Claims (7)

In the method for manufacturing a shock absorber housing for a vehicle for manufacturing a shock absorber housing comprising a housing portion and a cover portion, A cover part blank formed of a disk having a predetermined thickness having a circular opening in the center of the boron steel sheet corresponding to the cover part, and the cover part blank fitted to one side of the boron steel sheet corresponding to the housing part to be welded. Cutting and preparing each of the housing part blanks each having a circular hole having the same inner diameter as the outer diameter and having a thickness thinner than the cover part blank; Fabricating the housing blank and the cover blank by laser welding along a taylor weld line into a custom blank; Forming the custom blank into a shock absorber housing molded part by performing hot press forming directly from the press mold having a high temperature above the transformation point temperature; Cooling the hot-formed shock absorber housing molded article by rapid cooling to have a high strength martensite metal structure; And a laser cutting of the shock absorber housing molded article having the high strength martensite metal structure along a trim line and a hole processing line. delete delete delete delete delete delete

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