KR100889000B1 - Welding method of knuckle bracket - Google Patents

Abstract

The present invention relates to a welding method of a knuckle bracket, which is fixed to the outer peripheral surface of the lower end of the shock absorber, but fixed while wrapping a portion in the circumferential direction of the outer circumferential surface of the outer cylinder; A method of welding a knuckle bracket including a pair of left and right flanges protruding toward the body and integrally formed with the reinforcing portion to the shock absorber, the step of press-fitting a base cap to a lower end of an outer cylinder of the shock absorber; Seam-welding the lower end of the outer cylinder of the absorber and the base cap, and fitting the knuckle bracket to the lower outer peripheral surface of the outer cylinder of the shock absorber, and only at a portion where the knuckle bracket and the lower outer peripheral surface of the outer cylinder of the shock absorber are adjacent to each other. Local welding.

Shock absorber, knuckle bracket, main body, flange, local welding

Description

Welding method of knuckle bracket {METHOD FOR WELDING KNUCKLE BRACKET}

1 is a perspective view of one embodiment of a knuckle bracket configured to reinforce the rigidity of the flange portion without installing a separate reinforcing member between the flange portions on both sides.

2 is a cross-sectional view taken along the line A-A of FIG.

<Description of Signs of Major Parts of Drawings>

1: Knuckle Bracket 2: Shock Absorber

10: main body 20: flange

30: reinforcement groove 40: outer right angle bent portion

The present invention relates to a welding method of a knuckle bracket, and more particularly, to a method of welding the knuckle bracket used to connect the shock absorber to the wheel side to the lower outer peripheral surface of the outer cylinder of the shock absorber.

In general, the suspension system of a car uses a coil spring and a shock absorber to adjust the up and down movement of the body and the wheel to secure a comfortable ride, and to maintain adjustment stability by appropriate stiffness in directions other than up and down.

The shock absorber has one end connected to the vehicle body and the other end connected to the wheel to absorb and cushion the shock transmitted from the road surface. In the case of the McPherson shock absorber, a knuckle bracket for coupling with a wheel is installed at a lower end of the shock absorber connected to the vehicle body, and the knuckle bracket is coupled to a knuckle arm connected to the wheel.

In general, the knuckle bracket includes a main body portion which is fixed to a lower outer peripheral surface of the outer cylinder of the shock absorber, and a pair of left and right flange portions protruding radially outward from both sides of the main body portion.

A fastening hole for fastening the bolt with the knuckle arm is formed in the flange portion, and a fastening hole for fastening the bolt with the flange portion is formed in the knuckle arm. The knuckle bracket is engaged with the knuckle arm by inserting a bolt through the knuckle arm between the flange portion and inserting a bolt and tightening a nut at the end of the bolt.

In this knuckle bracket, it is necessary to reinforce the rigidity of the flange portion. In the related art, in order to reinforce the rigidity of the flange portion, a separate reinforcement member having a cross-section c-shaped is provided between the flange portions on both sides.

This reinforcing member is attached by welding between the flange portions of the knuckle bracket. The knuckle bracket is attached to the lower circumferential surface of the shock absorber's outer cylinder by welding. The knuckle bracket with reinforcement member covers the entire outer circumferential surface of the shock absorber's outer cylinder so that the welding pole is welded over the entire circumference of the reinforcement member. It was possible.

However, if a separate reinforcing member is installed between the flanges, there is a problem that the material cost and processing cost increase and the assembling work is cumbersome.

Therefore, the present applicant intends to develop a knuckle bracket configured to integrally form a reinforcement part in the flange part so as to reinforce the rigidity of the flange part without installing a separate reinforcing member between the flange parts on both sides. When the reinforcing member is deleted between the branches, the welding heat is excessively generated at the portion where the reinforcing member is deleted when welding the outer portion of the shock absorber outer cylinder of the knuckle bracket. In electric pole welding, welding is performed by setting the same welding capacity across the outer cylinder of the shock absorber and the entire circumference of the reinforcing member. However, since the base material does not exist in the portion where the reinforcing member is deleted, excessive welding heat is generated. Therefore, when excessive heat of welding is generated in the portion where the reinforcing member is removed, that is, the outer cylinder portion of the shock absorber on which the knuckle arm is mounted, excessive weld melt occurs in the outer cylinder portion of the shock absorber on which the knuckle arm is mounted. Since the weld melt is attached to the outer cylinder portion of the shock absorber on which the knuckle arm is mounted, it protrudes, and thus there is a problem in that the assemblability is reduced when the knuckle arm is mounted.

On the other hand, the base cap is press-fitted to the lower inner circumferential surface of the outer cylinder of the shock absorber to be sealedly welded over the entire circumference of the outer cylinder. It was. However, when welding the knuckle bracket and the base cap with the reinforcement member removed at the same time, excessive welding heat is generated at the portion where the reinforcement member is deleted, and excessive welding heat is applied to the base cap, so that the outer cylinder of the base cap and the shock absorber is applied. There is a high possibility of leakage between the inner circumferential surface of the bottom.

Accordingly, the present invention is to solve the problems of the prior art, a knuckle bracket configured to reinforce the rigidity of the flange portion without installing a separate reinforcing member between the flange portions on both sides of the outer cylinder of the shock absorber When welding to the lower outer circumference, the knuckle arm between the flanges on both sides prevents the welding melt from adhering to it and at the same time prevents leakage between the base cap and the lower inner circumference of the outer cylinder of the shock absorber. It aims at providing the welding method.

In order to achieve the above object, the welding method of the knuckle bracket according to the present invention is fixed to the outer peripheral surface of the lower end of the outer cylinder of the shock absorber, but the main body portion is fixed while wrapping a portion in the circumferential direction of the outer peripheral surface of the outer cylinder, and A method of welding a knuckle bracket to the shock absorber, wherein the knuckle bracket includes a pair of left and right flange portions which protrude radially outwardly from both sides of the main body portion and in which the reinforcement portion is integrally formed. Press-fitting, seam welding the bottom inner circumferential surface of the outer cylinder of the shock absorber and the base cap, and fitting the knuckle bracket to the lower circumferential surface of the outer cylinder of the shock absorber, and the knuckle bracket and the shock absorber. Local welding only to a portion adjacent to the bottom outer circumferential surface of the outer cylinder do.

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

1 is a perspective view of a knuckle bracket according to an embodiment of the present invention, Figure 2 is a cross-sectional view along the line A-A of FIG. As shown, the knuckle bracket 1 according to one embodiment of the present invention is provided for coupling to the wheel at the other end of the shock absorber 2, one end of which is connected to the vehicle body and the other end of which is connected to the wheel. And a body portion 10 and a flange portion 20.

Body portion 10 is fixed to the outer peripheral surface of the lower end of the outer cylinder of the shock absorber 2, is fixed while wrapping a portion in the circumferential direction of the outer peripheral surface of the outer cylinder of the shock absorber (2). More specifically, the main body portion 10 has a C-shaped cross-section that excludes a portion in the circumferential direction of the lower circumferential surface of the outer cylinder of the shock absorber 2, and the edge of the main body portion 10 is welded by the shock absorber. It is fixed to the outer peripheral surface of the bottom of the outer cylinder of (2).

The flange portion 20 has a form in which a pair of left and right protrudes outward from the both ends of the main body portion 10 in the radial direction.

The flange portion 20 is provided with a fastening hole 21 for fastening the bolt with a knuckle arm (not shown) mounted on the wheel of the vehicle.

In the knuckle bracket 1 according to the present embodiment, a reinforcement groove 30 is formed by pressure molding at the boundary bent portion between the main body portion 10 and the flange portion 20.

The reinforcing groove 30 is formed by pressing a portion of the boundary bent portion from the outside of the knuckle bracket 20 to the inside.

In the present embodiment, the reinforcement grooves 30 are illustrated as one each formed at the upper and lower ends of the boundary bent portion between the body portion 10 and the flange portion 20.

The reinforcement groove 30 reinforces the rigidity of the flange portion 20. In addition, the area where the bottom outer circumferential surface of the outer cylinder of the shock absorber 2 and the flange portion 20 of the knuckle bracket 1 are increased by the reinforcing groove 30 is increased with respect to the lower outer circumferential surface of the outer cylinder of the shock absorber 2. The weldability at the time of welding the flange part 20 of the knuckle bracket 1 increases.

The upper and lower ends of the main body portion 10 and the flange portion 20 of the knuckle bracket 1 are bent at an outer right angle by pressure molding.

The outer right angled bent portion 40 of the upper and lower ends of the knuckle bracket 1 reinforces the rigidity of the flange portion 20. In addition, since the outer peripheral surface of the outer cylinder of the shock absorber 2 and the main body portion 10 of the knuckle bracket 1 are increased by the outer right angle bent portion 40, the lower outer peripheral surface of the outer cylinder of the shock absorber 2 is increased. The weldability of the body portion 10 of the knuckle bracket 1 against the weld is increased.

In the welding method of the knuckle bracket of the present invention, as described above, the knuckle bracket 1 configured to reinforce the rigidity of the flange portion 10 without installing a separate reinforcing member between the flange portions 10 on both sides. Is a method of welding to the shock absorber (2).

In the present invention, a circular base cap (not shown) is press-fitted into the lower end inner circumferential surface of the outer cylinder of the shock absorber 2.

Next, the lower inner peripheral surface of the outer cylinder of the shock absorber 2 and the circular base cap (not shown) are seam welded. Such seam welding is to maintain airtightness, and by this seam welding, a circular base cap is hermetically attached to the lower inner peripheral surface of the outer cylinder of the shock absorber 2.

Next, insert the knuckle bracket (1) to the lower outer peripheral surface of the outer cylinder of the shock absorber (2).

Next, local welding is carried out only to the part where the outer peripheral surface of the lower end of the outer cylinder of the knuckle bracket 1 and the shock absorber 2 adjoins. Local welding of only the portion where the outer peripheral surface of the outer cylinder of the knuckle bracket 1 and the shock absorber 2 is adjacent to each other is not carried out for airtightness but is attached to the shock absorber 2 of the knuckle bracket 1. Since it is carried out to reinforce the strength, it is possible to set a lower welding capacity. For example, it is preferable that the welding temperature at the time of local welding is 270 degreeC-300 degreeC.

In the present invention, since the knuckle bracket 1 is welded to the outer cylinder of the shock absorber 2 locally, only the portion where the outer circumferential surface of the outer cylinder of the knuckle bracket 1 and the shock absorber 2 is adjacent to each other is welded. No excessive welding heat is generated by welding the knuckle bracket 1 with its member removed, and therefore, no excessive weld melt occurs in the outer cylinder portion of the shock absorber on which the knuckle arm is mounted, and the knuckle arm is mounted. Since the weld melt adheres to the outer cylinder portion of the absorber and does not protrude, the assemblability is not deteriorated when the knuckle arm is mounted.

Further, in the present invention, since the knuckle bracket 1 is not fitted to the lower outer peripheral surface of the outer cylinder of the shock absorber 2, seam welding is performed by fitting only the base cap to the lower inner peripheral surface of the outer cylinder of the shock absorber 2. Excessive welding heat is not generated due to the knuckle bracket (1) in which is removed, and therefore, no leakage occurs between the base cap and the lower inner peripheral surface of the outer cylinder of the shock absorber (2).

While the invention has been described above with reference to specific embodiments, various modifications, changes, or modifications may be made in the art within the spirit and scope of the appended claims, and thus, the foregoing description and drawings It should be construed as illustrating the present invention rather than limiting the technical spirit of the present invention.

As described above, according to the knuckle bracket of the present invention, a knuckle bracket configured to reinforce the rigidity of the flange portion without installing a separate reinforcing member between the flange portions on both sides is welded to the outer peripheral surface of the lower end of the outer cylinder of the shock absorber. This prevents the welding melt from adhering to the parts where the knuckle arms between the flanges on both sides are assembled, and also prevents leakage between the base cap and the lower inner circumferential surface of the outer cylinder of the shock absorber, thereby reducing material and processing costs. While the operation is simple, the assembly is improved and there is an effect of preventing the occurrence of welding failure.

Claims (5)

A pair of left and right body parts fixed to the outer peripheral surface of the outer cylinder of the shock absorber and being fixed while wrapping a portion in the circumferential direction of the outer circumferential surface of the outer cylinder and protruding radially outward from both sides of the main body, wherein the reinforcement is integrally formed. In the method for welding a knuckle bracket including a flange portion of the shock absorber, Press-fitting the base cap to the lower inner circumferential surface of the outer cylinder of the shock absorber; Seam welding the lower inner circumferential surface of the outer cylinder of the shock absorber and the base cap; Fitting the knuckle bracket to a lower outer circumferential surface of the outer cylinder of the shock absorber; And welding the knuckle bracket only to a portion where the outer circumferential surface of the outer cylinder of the shock absorber is adjacent to the knuckle bracket. The method according to claim 1, The boundary bending portion between the main body portion and the flange portion is a welding method of knuckle bracket, characterized in that the reinforcement groove formed by the pressure forming. The method according to claim 2, The reinforcing groove is a welding method of the knuckle bracket, characterized in that formed by pressing a portion of the boundary bent portion pressed inward from the outside of the knuckle bracket. The method according to claim 2, The reinforcement grooves are welded to the knuckle bracket, characterized in that formed at the top and bottom of each of the boundary bending portion between the body portion and the flange portion. The method according to claim 2, The upper and lower end portions of the main body portion and the flange portion are bent at an outer right angle by pressure molding.

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