KR100822544B1 - Light weight lower arm reinforcing intensity and reducing welding region - Google Patents

Abstract

A lightweight lower arm with improved strength and reduced welded portion is provided to reduce manufacturing cost by forming a groove along longitudinal direction of a lower arm body and to reduce deformation degree caused by heat by coating the lower arm body with zinc and attaching an A type bracket without welding process. A lightweight lower arm with improved strength and reduced welded portion comprises a lower arm body(1), a G type bush pipe(3), an A type bracket(5), an insert member(7), and an assembling member. The lower arm body has a connect unit(1-1) at one end. The connect unit has a pressed-shaped through hole which is directing to an inner part. The cross section of the streamline lower arm body is shaped as an oval. The cylindrical G type bush pipe is welded to the other end of the lower arm body. A G type bush is inserted to the G type bush pipe. The A type bracket wherein an A bush to be inserted, is integrally formed with the lower arm body. An inner part of the A type bracket is processed with a flange's shape. The external of the bending direction of the lower arm body is projected, and allow the A bush to be inserted. The insert member is pressed fit to the through hole of the connect unit, and allow a ball joint to be inserted. The insert member guides an upper part of the lower arm body to be bended inward. The assembling member fixes the ball joint.

Description

LIGHT WEIGHT LOWER ARM REINFORCING INTENSITY AND REDUCING WELDING REGION}

1 is a perspective view showing a conventional lightweight lower arm,

Figure 2 is an exploded perspective view of a conventional lightweight lower arm according to Figure 1,

Figure 3 is a perspective view showing a lighter lower arm reinforcing strength and reducing the welding portion according to an embodiment of the present invention,

Figure 4 is a perspective view showing the state of the lower arm body according to an embodiment of the present invention,

5 is a perspective view showing a state in which the ball joint is coupled to a lightweight lower arm that reinforces the strength according to FIG. 3 and reduces the welding area;

6 is a cross-sectional view showing a state in which a ball joint, an insert member, and a fastening member are coupled to a through hole of a connect portion according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: lower arm body 101: connect portion

102: through hole 103: reinforcing hole

200: G bush pipe 300: A bracket

400: insert member

1: Lower arm body 1-1: Connect portion

1-2: Through Hole 1-3: Lower Arm Body Groove

3: G type bush pipe 5: A type bracket

5-1: inside of the bent part of the A-type bracket processed into the flange shape

7: insert member 9: fastening member

11: ball joint

The present invention relates to a lightweight lower arm, and in particular, to improve the shape of the lower arm body and the A-type bracket to reinforce the strength and to reduce the welding area by attaching the A-type bracket by galvanizing the lower arm body. The present invention relates to a lighter lower arm having reinforced strength and reduced welded area.

In general, the suspension of the vehicle is called a suspension and is a device that connects the wheel of the vehicle body, a spring that absorbs the impact on the road surface, a shock absorber that controls the action of the spring, and a wheel It consists of an arm that controls the operation of the arm and a stabilizer that prevents the rolling of the link and the vehicle.

Among them, the suspension arm serves to control the movement of the wheel, also called a control arm, and is attached to the body or axle of the vehicle by a ball joint, a pillow ball, a rubber bush, or the like.

Such suspension arms are classified into A-shaped A-arms and I-shaped I-arms according to their shape.The upper arm is installed on the upper arm and the lower arm is installed on the bottom. It can also be divided into:

1 is a perspective view showing a conventional lightweight lower arm, Figure 2 is an exploded perspective view of a conventional lightweight lower arm according to FIG.

Recently, a lightweight lower arm using heterogeneous materials has been developed to reduce the lower arm as described above. Referring to FIGS. 1 and 2, the conventional lightweight lower arm has a connecting part having a through hole 102 formed at one end thereof. A lower arm body 100 having a steel material having a circular cross section and having a plurality of reinforcing holes 103 formed therein; A G-shaped bush pipe 200 fixed to the other end of the lower arm body 100; An A-type bracket 300 made of aluminum formed integrally with the lower arm body 100; A pipe cap (not shown) welded to the reinforcing hole 103 to firmly couple the lower arm body 100 and the A-type bracket 300 to each other; It comprises an insert member 400 which is inserted into the connect portion 101.

However, such a conventional lightweight lower arm needs to be strengthened at the joint in order to catch the torsional load acting on the joint portions of the lower arm body 100 and the A-type bracket 300 of different materials.

In addition, the conventional lightweight lower arm is welded using a separate part called a pipe cap (not shown) in consideration of different thermal expansion coefficients when connecting the lower arm body 100 and the A-type bracket 300 which are different materials. By fixing the solution, it is firmly bonded regardless of the thermal expansion rate. In this case, there is a problem in that the welding area is increased and the number of parts is increased to increase the manufacturing cost.

Accordingly, an object of the present invention is to provide a lightweight lower arm that can improve the cross section of the lower arm body to elliptical shape and increase the strength by processing the inside of the curved direction of the A-type bracket into a flange shape.

In addition, another object of the present invention, by attaching the A-type bracket without welding by galvanizing the lower arm body can reduce the welding area to reduce the amount of heat deformation, thereby minimizing the tolerance, thereby reducing the wheel alignment tolerance Adjustment stability can be improved.

In addition, another object of the present invention, regardless of the coefficient of thermal expansion simply by forming a groove along the longitudinal direction in the lower arm body without using a separate component when connecting the lower arm body and the A-type bracket It is to provide a lightweight lower arm that can be manufactured by reducing the number of parts by enabling a rigid coupling.

As a means for achieving the above object, the constitution of the present invention comprises: a streamlined lower arm body having a through-hole connected to the inside in a flat shape by being compressed up and down at one end and having an elliptical cross section; A G-shaped bush pipe that is cylindrically welded to the other end of the lower arm body opposite to the connect portion and into which a G-shaped bush is inserted; An A-type bracket formed integrally with the lower arm body, the inner side of the lower arm body being curved in a flange shape, and the outer side of the lower arm body being protruded to be formed with an A bushing inserted therein; An insert member press-fitted into the through hole of the connect portion to insert a ball joint, and guide the upper portion of the lower arm body to bend inwardly; It includes a fastening member for fixing the ball joint.

Here, the lower arm body is provided with a steel material, characterized in that the groove is formed along the longitudinal direction to the outside to secure the connection with the A-type bracket.

The lower arm body is galvanized, and the A-type bracket is made of aluminum.

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

3 to 6, the lightweight lower arm that reinforces the strength and reduces the welded portion according to the exemplary embodiment of the present invention has a through hole (1-2) toward the inside in a flat shape compressed up and down at one end. A streamlined lower arm body 1 which forms a formed connect portion 1-1 and has an elliptical cross section; A G-shaped bush pipe (3) cylindrically welded to the other end of the lower arm body (1) opposite the connect portion (1-1) and into which a G-shaped bush is inserted; It is formed integrally with the lower arm body 1, the inner side in the curved direction of the lower arm body 1 is processed into a flange shape, the outer side in the curved direction of the lower arm body 1 is formed protruding A bush A type bracket (5) is inserted; An insert member press-fitted into the through hole 1-2 of the connect portion 1-1 to insert the ball joint 11 and guide the upper portion of the lower arm body 1 to be bent inwardly. (7); It comprises a fastening member (9) for fixing the ball joint (11).

Hereinafter, each configuration will be described in detail.

The lower arm body 1 is compressed up and down at one end to form a connect portion 1-1 having a through hole 1-2 toward the inside in a flat shape, and a cross section AA forms an ellipse, This is because the cross-sectional secondary moment, which is the resistance to the load along the cross-section, is larger than when the cross-section AA is circular, so that the load that can withstand is increased and the strength is increased.

The lower arm body 1 is provided in a streamlined form of a steel pipe, and is provided such that grooves 1-3 are formed along the longitudinal direction to the outside in order to firmly connect the A-type bracket 5. .

The lower arm body 1 is made of steel to prevent galvanic corrosion (GALVANIC CORROSION: corrosion caused by dislocations between dissimilar metals) when metal of different materials comes into contact with the A-shaped bracket 5 made of aluminum. In order to be galvanized to serve as an insulator between steel and aluminum.

In addition, when the lower arm body 1 is galvanized, zinc and aluminum react to attach the A-type bracket 5 made of aluminum to the lower arm body 1 without welding, thereby reducing thermal deformation. Since the tolerance can be minimized, the wheel alignment tolerance can be reduced, thereby improving the stability of the adjustment.

The G-shaped bush pipe (3) is welded to the other end of the lower arm body (1) opposite to the connect portion (1-1), is made of a pipe of cylindrical steel material, so that the G-shaped bush is inserted Prepared.

The A-type bracket 5 is formed integrally with the lower arm body 1 by injecting molten aluminum into the mold, and the overall shape is approximately triangular, and the portion corresponding to the base of the triangle is the lower arm body 1. The portion corresponding to the vertex is provided to protrude outward in the curved direction of the lower arm body 1 so that the A bush is inserted.

In addition, the A-type bracket 5 is provided to increase the torsional and buckling strength of the curved portion by processing the inner side 5-1 of the lower arm body 1 in the curved direction in a flange shape.

The A-type bracket 5 inserts the lower arm body 1 into a mold and injects the molten aluminum into a molten aluminum, thereby forming the lower arm body 1 by hardening the aluminum molten metal. It is formed integrally with, and part of the molten aluminum is hardened in a state flowing into the groove (1-3) formed in the longitudinal direction of the lower arm body (1) the lower arm body (1) and the A-type bracket ( The combination of 5) becomes more robust.

The RHEO FORMING method is a new phase conversion molding process that can take advantage of the existing casting and forging process by forming a metal material in a region where a liquid phase and a solid phase coexist. The description will be omitted.

Applying the reaction solidification method to the molten aluminum has the effect of improving the rigidity and strength.

The insert member 7 is press-fitted into the through hole 1-2 of the connect portion 1-1 so that the ball joint 11 is inserted therein, and an upper portion of the lower arm body 1 is provided. It is provided for guiding to be bent inward.

The fastening member 9 may be provided with a bolt to fix the ball joint 11, it can withstand a load of 5 to 7 tons or more by tightening the bolt.

On the other hand, the present invention is not limited to the above-described embodiment, and any person having ordinary skill in the art to which the present invention pertains without departing from the gist of the invention claimed in the claims may be variously modified. Of course, such changes are intended to be within the scope of the claims set forth.

As described above, the lightweight lower arm that reinforces the strength according to the present invention and reduces the welded area improves the cross section of the lower arm body to elliptical shape, and processes the inner side of the A-type bracket in a curved shape to increase the strength. You can increase it.

In addition, the lightweight lower arm that reinforces the strength and reduces the welded portion is galvanized the lower arm body to attach the A-type bracket without welding, thereby reducing the welded portion to reduce the heat deformation, thereby minimizing the tolerance. The wheel alignment tolerances can be reduced to improve the stability of the adjustment.

In addition, the lightweight lower arm that reinforces the strength and reduces the welding portion does not use a separate part when connecting the lower arm body and the A-type bracket, and only forms a groove along the length direction in the lower arm body. As a result, it is possible to reduce the manufacturing cost by reducing the number of parts by enabling a firm coupling regardless of the thermal expansion coefficient.

Claims (5)

A streamlined lower arm body formed at one end thereof with a connecting portion having a through hole formed toward the inside in a flat shape by being compressed up and down, and having an elliptical cross section; A G-shaped bush pipe that is cylindrically welded to the other end of the lower arm body opposite to the connect portion and into which a G-shaped bush is inserted; An A-type bracket integrally formed with the lower arm body, the inner side of the lower arm body being processed in a flange shape, and the outer side of the lower arm body being protruded to be formed with an A bushing inserted therein; An insert member press-fitted into the through hole of the connect portion to insert a ball joint, and guide the upper portion of the lower arm body to bend inwardly; Reinforcement of the strength characterized in that it comprises a fastening member for fixing the ball joint and reduced weight of the lower arm. The method of claim 1, The lower arm body is a lightweight lower arm that reinforces the strength and reduces the welding portion, characterized in that the steel material is provided. The method of claim 1, The lower arm body is a lightweight lower arm that reinforces the strength and reduces the welding portion, characterized in that the groove is formed along the longitudinal direction to the outside to secure the connection with the A-type bracket. The method of claim 1, The lower arm body is a lightweight lower arm reinforcing the strength, characterized in that the galvanized and reduced the welding portion. The method of claim 1, The A-type bracket is a lightweight lower arm that reinforces the strength and reduces the welding portion, characterized in that the aluminum material.

Images