KR20130070387A - Forming method of bumper beam for vehicles - Google Patents

Abstract

PURPOSE: A molding method of a vehicle bumper beam is provided to improve crashworthiness by using a bead unit to increase strength of a bumper beam and to uniformalize a welded part even when various parts are welded onto the welded part, thereby improving welding quality. CONSTITUTION: A molding method of a vehicle bumper beam comprises the steps of uncoiling, straightening, piercing, roll forming, welding, and bending. A regular bead unit(B) is formed onto a plane of a steel sheet panel preliminary to the initial roll molding to correspond to the inner cross section of the radius curvature of a molding beam which is molded in the step of bending. The regular bead unit is included in the step of bending.

Description

FORMING METHOD OF BUMPER BEAM FOR VEHICLES

The present invention relates to a method for forming a bumper beam for a vehicle, and more particularly, to prevent the occurrence of non-uniform dents due to the movement of the bumper beam formed in the closed cross-section in the inner end surface of the curvature radial direction. It relates to a molding method of a bumper beam for a vehicle.

In general, a bumper beam for a vehicle is manufactured by molding a closed cross-section beam formed by a roll forming method with a predetermined curvature.

The roll forming method is to be formed by bending the coil to form a variety of shapes by passing through a roll former unit arranged in a row in a multi-stage roll former constituting a pair of the upper forming roll and the lower forming roll, the specific system and process As follows.

1 is a schematic view of a general roll forming system and its steps.

Referring to FIG. 1, in a general roll forming system and a process thereof, an uncoiler 1 for releasing a coil 10 to be supplied is configured in front of a process line to perform an uncoil step S1.

At the rear of the uncoiler 1 in the process direction, a straightener 2 is provided to straighten the strip-shaped steel sheet released from the uncoiler 1 to the flat steel plate panel 20 to proceed with the straightening step S2. .

At the rear of the straightener 2 in the process direction, a brake press 3 for forming holes for various uses is provided in the steel plate panel 20 supplied from the straightener 2, and the piercing step S3 is performed.

At the rear of the brake press 3 in the process direction, a roll forming unit 4 composed of at least 10 stages of roll formers R1 to R7 (some not shown) is disposed, so that the uncoiler 1 and the straightener 2 are disposed. And a roll forming step (S4) of forming a roll into a shape of a forming beam 30 having a closed section to be obtained by sequentially bending and forming the steel sheet panel 20 supplied through the brake press 3. .

A laser welding machine 5 is provided at the rear of the roll forming unit 4 in the process direction to irradiate the welding portion of the forming beam 30 with the laser beam output from the laser oscillator 5a to perform a welding step S5. .

In addition, a round bender 6 is provided at the rear of the laser welding machine 5 in the process direction to pass the forming beam 30 through a multi-stage bending roll unit arranged along a radius of curvature to be formed, thereby forming a forming beam having a predetermined curvature. Proceeding with the bending step (S6) to form a (40).

2 is a side view of a general round vender.

Referring to FIG. 2, the round bender 6 includes five bending roll units.

The first stage bending roll unit BR1 is constituted by a pair of bending rolls vertically in front of the process direction on the roll frame 6a so as to be formed from the forming roll of the last roll former (R7 in FIG. 1) of the roll forming unit 4. Guide the forming beam 30 is supplied through the welding step (S5).

In addition, the second stage bending roll unit BR2 is constituted by a pair of bending rolls vertically and vertically behind the process direction of the first stage bending roll unit BR1 on the roll frame 6a, thereby forming the forming beam 30. Curvature supports the rolling in the radial direction.

Further, the third, fourth, and fifth stage bending roll units BR3, BR4, BR5 have a radius of curvature to be formed behind the process direction of the second stage bending roll unit BR2 on the roll frame 6a. They are arranged one after the other, and each of them is also composed of a pair of bending rolls up and down to form a forming beam 40 having a predetermined curvature by passing through the forming beam (30).

And a cutting press 7 is provided at the rear of the round bender 6 in the process direction to perform the cutting step S7 of cutting the standard of the finished product for forming the forming beam 40.

3 is a perspective view of an example of a vehicle bumper beam produced through a general roll forming system and process.

Referring to FIG. 3, the above-described roll forming system and a vehicle bumper beam 50 according to one example produced through the process are illustrated, and the bumper beam 50 according to one example is bent to have a closed cross section up and down. Both ends are laser welded and molded to a constant curvature.

However, the conventional bumper beam 50, as shown in Figure 3, when forming the curvature through the round bender (6), the depth and the position generated by moving along the wide inner cross section of the radius of curvature radial direction There is a problem in that the collision stiffness of the bumper beam 50 is lowered by generating a large number of non-uniform dents (D; Dent).

In addition, one side of the bumper beam 50 to process the hole (H) to weld the CO ₂ with a towing hook pipe (not shown), at this time, the non-uniform dent (D) on the bumper beam 50 is a towing hook There is a problem that a non-uniform step is generated between the pipe and the welded portion of the bumper beam 50 to cause a welding defect.

That is, in order to secure the welding quality of the bumper beam 50 and the towing hook pipe (not shown) from the prior art, an additional welding process must be performed through a full inspection of the weld, which causes a decrease in productivity in an automated process. .

According to an embodiment of the present invention, in the curvature forming of the bumper beam formed in the closed section through a roll forming process, in the roll forming step, the bead part is formed in advance along the inner cross section of the radius of curvature in the curvature forming, The present invention provides a method for forming a bumper beam for a vehicle that prevents generation of non-uniform dents by inducing a portion to absorb the phenomena.

In one or more embodiments of the present invention, an uncoil step of releasing coils, a straightening step of straightening the coils into a steel plate panel, a piercing step of forming holes for various uses in the steel plate panel, and the steel plate panel Roll-forming step of forming a closed beam formed into a closed beam by bending forming sequentially, a welding step of laser welding both ends of the forming beam, a bending step of bending the forming beam curvature for a vehicle bumper beam forming method In the bending step of forming a bead in advance in the initial stage of the roll forming with respect to the plane of the steel sheet panel of the roll forming step corresponding to the inner cross section of the curvature of the forming beam formed in the bending step, the bending step It is possible to provide a method for forming a vehicle bumper beam, characterized in that the input.

In addition, the bead portion may be formed of a plurality of neighboring grooves formed at regular intervals along the longitudinal direction of the steel sheet panel corresponding to the inner end surface of the curvature radial direction.

In addition, the plurality of grooves may have a predetermined length.

According to an embodiment of the present invention, in the curvature forming of the bumper beam formed in the closed section through a roll forming process, in the roll forming step, the bead part is formed in advance along the inner cross section of the radius of curvature in the curvature forming, It is effective to prevent the occurrence of non-uniform dent (Dent) by inducing the absorption of the phenomena in the wealth.

Accordingly, the bead part increases the stiffness of the bumper beam to improve collision performance, and even when welding various parts, the weld part may be uniform to improve welding quality.

1 is a schematic view of a general roll forming system and its steps.
2 is a side view of a general round vender.
3 is a perspective view of an example of a vehicle bumper beam produced through a general roll forming system and process.
4 is a conceptual view illustrating a roll forming step according to a method for forming a bumper beam for a vehicle according to an exemplary embodiment of the present disclosure.
5 is a perspective view of a vehicle bumper beam manufactured according to a method for forming a vehicle bumper beam according to an embodiment of the present invention.

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

However, since the size and thickness of each component shown in the drawings are arbitrarily shown for convenience of description, the present invention is not necessarily limited to those shown in the drawings.

In addition, in order to clearly describe the embodiments of the present invention, parts irrelevant to the description are omitted.

1 is a general roll forming system and a step conceptual process diagram, FIG. 2 is a side configuration diagram of a general round bender, and FIG. 4 is a process conceptual diagram of a roll forming step according to a method for forming a bumper beam for a vehicle according to an exemplary embodiment of the present invention. to be.

Referring to FIG. 1, a molding method for forming a bumper beam for a vehicle according to an exemplary embodiment of the present invention is performed through a roll forming process. The roll forming process, as shown in FIG. 1, in front of a process line, includes an uncoiler ( The uncoil step S1 of releasing the coil 10 supplied through 1) is performed.

Following the uncoiling step S1, a straightening step S2 is performed in which the strip-shaped steel sheet released from the uncoiler 1 is straightened through the straightener 2 to the flat steel plate panel 20.

Following the straightening step (S2), the piercing step (S3) for forming a hole for various uses in the steel sheet panel 20 supplied from the straightener (2) through the brake press (3).

Following the piercing step (S3), the steel sheet panel 20 supplied from the brake press 3 through a roll forming unit 4 including at least 10 stages of roll formers R1 to R7 (some not shown). The roll forming step (S4) of sequentially bending and forming a roll into a shape of the forming beam 30 having a closed cross section is performed.

Further, following the roll forming step S4, the laser output from the laser oscillator 5a through the laser welder 5 to the welding portion of the forming beam 30 having the closed cross-section supplied from the roll forming unit 4. The beam is irradiated to proceed with the welding step S5.

In the process direction rear of the welding step S5, a forming beam having the closed cross section is formed through a round bender 6 in which five bending roll units BR1, BR2, BR3, BR4, and BR5 are disposed along a radius of curvature. A bending step S6 of curvature forming 30 is performed.

Referring to FIG. 2, the round bender 6 includes five bending roll units BR1, BR2, BR3, BR4, and BR5.

The first stage bending roll unit BR1 is constituted by a pair of bending rolls vertically in front of the process direction on the roll frame 6a so as to be formed from the forming roll of the last roll former (R7 in FIG. 1) of the roll forming unit 4. Guide the forming beam 30 is supplied through the welding step (S5).

In addition, the second stage bending roll unit BR2 is constituted by a pair of bending rolls vertically and vertically behind the process direction of the first stage bending roll unit BR1 on the roll frame 6a, thereby forming the forming beam 30. Curvature supports the rolling in the radial direction.

Further, the third, fourth, and fifth stage bending roll units BR3, BR4, BR5 have a radius of curvature to be formed behind the process direction of the second stage bending roll unit BR2 on the roll frame 6a. They are arranged one after the other, and each of them is also composed of a pair of bending rolls up and down to form a forming beam 40 having a predetermined curvature by passing through the forming beam (30).

Subsequent to the bending step S6, the cutting step S7 is performed to cut the shaping beam 40 according to the specifications of the finished product through the cutting press 7.

During the step-by-step roll forming process, the molding method of the vehicle bumper beam according to the embodiment of the present invention, as shown in Figure 4, the inner side of the curvature radial direction of the forming beam 40 formed in the bending step (S6) Corresponding to the cross section F, the bead portion B is regularly formed in advance of the initial roll forming with respect to the plane of the steel sheet panel 20 of the roll forming step S4, and then the welding step S5 is performed. It is to be introduced into the bending step (S6).

The bead part B is formed of two or three adjacent grooves G formed at regular intervals along the longitudinal direction of the steel plate panel 20 corresponding to the inner end face F of the curvature radial direction. do.

That is, two or three grooves G forming the bead portion B are formed to have a predetermined length, and the roll of the roll forming unit 4 at the beginning of the roll forming step S4 of the roll forming process. The bead projection 43a formed on the upper forming roll 43 is pressed against the steel sheet panel 20 with respect to the bead groove 41a formed on the lower forming roll 41 by the former. (B) is molded.

Referring to FIG. 5, the vehicle bumper beam 100 manufactured by the method for forming the vehicle bumper beam according to the embodiment of the present invention as described above may include a plurality of roll formers R1 to R7 in a roll forming step S4; In the process of sequentially bending the panel to have at least one or more closed cross-sections through some, not shown), the curvature is formed in the bending step S6 in advance, at a position to be the inner end face F in the radius of curvature in advance. By forming the bead portion (B) to finish the roll forming step (S4) is produced.

Then, the vehicle bumper beam 100 according to the embodiment of the present invention, when bending the curvature in the bending step (S6), the stress caused by the movement generated in the inner end surface (F) of the radius of curvature in the bead portion (B) It is absorbed and no irregular dent D is generated.

As such, the vehicle bumper beam 100 according to the embodiment of the present invention improves the collision stiffness against the front collision by the reinforcing characteristics of the bead portion B, and by forming the bead portion B regularly towing hook pipe ( When welding with a correlated part such as not shown), the welding line of the welded portion can be made constant, thereby improving the welding quality.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and is easily changed by those skilled in the art to which the present invention pertains. It includes all changes to the extent deemed acceptable.

1: Uncoiler 2: Straightener
3: Brake press 4: Roll forming unit
5: Laser welder 6: Round bender
7: cutting press
BR1, BR2, BR3, BR4, BR5: Bending Roll Unit
D: Dent 100: Bumper Beam
B: Bead part G: Groove

Claims (3)

Uncoil step of releasing coil, straightening step of unfolding the coil into a steel plate panel of flat plate, piercing step of forming a hole for various uses in the steel plate panel, sequentially bending the steel plate panel is formed into a closed cross-section In the method for forming a bumper beam for a vehicle comprising a roll forming step of forming a forming beam, a welding step of laser welding both ends of the forming beam, and a bending step of curvature forming the forming beam,
Forming the bead part prior to the initial roll forming with respect to the plane of the steel sheet panel of the roll forming step corresponding to the inner end surface of the curvature radial direction of the forming beam to be formed in the bending step, and then entering into the bending step Forming method for a bumper beam for a vehicle, characterized in that. The method of claim 1,
The bead part
Forming a bumper beam for a vehicle, characterized in that made of a plurality of neighboring grooves formed at regular intervals along the longitudinal direction of the steel sheet panel corresponding to the inner end surface of the curvature radial direction. The method of claim 1,
The plurality of grooves
Forming method of a bumper beam for a vehicle, characterized in that it has a certain length.

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