KR20180012497A - The manufacturing method and tool of hollow-shaft-type stabilizer bar including adhesive sealing process and hollow-shaft-type stabilizer bar manufactured by using this method - Google Patents

Abstract

The present invention relates to an apparatus for sealing a hollow part of a stabilizer bar using an adhesive, comprising: a lower sealing part (95); an adhesive supply device (50); an upper sealing part (37); and a compressed air supply device (30). Production costs and labor power are reduced.

Description

[0001] The present invention relates to a method and a device for sealing a hollow stabilizer bar using an adhesive, and a hollow stabilizer bar manufactured by using the method and a hollow stabilizer bar including an adhesive sealing process and a hollow-shaft-type stabilizer bar manufactured by using this method}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a hollow stabilizer bar and a hollow stabilizer bar manufactured using the method, and more particularly, to a manufacturing process of sealing a working surface of an end portion of a hollow stabilizer bar in the form of a pipe using an adhesive In order to prevent the inflow of external moisture and to improve sealing quality, And a hollow stabilizer bar manufactured by using the method.

In general, the stabilizer bar is mounted on the front and rear wheels of the vehicle body, and is used to reduce the inclination of the vehicle body.

A conventional stabilizer bar is manufactured using a bar-shaped material filled with a hollow. However, recently, a hollow stabilizer bar is manufactured using a hollow pipe material in consideration of a reduction in manufacturing cost and a reduction in vehicle weight, The weight of the stabilizer bar itself can be greatly reduced and the fuel consumption of the vehicle can be improved.

However, both end portions of the hollow stabilizer bar are generally formed by heating both end portions of the pipe in a press form and pressing the same into a plate shape, and after drilling a hole in the center portion of the end portion of the plate shape, And then finished.

In addition, since the end portion of a conventional hollow stabilizer bar manufactured by such a general end portion manufacturing method is a shape in which both ends are pressed by a press and are overlapped with each other and pressed, A gap is generated between the lower portions.

When the hollow stabilizer bar is soaked in the quenching tank or the hollow stabilizer bar is immersed in the zinc phosphate pretreatment tank for the surface treatment in the course of heat treatment in order to change the properties of the hollow stabilizer bar, There is a problem that the inside of the hollow stabilizer bar is corroded due to the infiltration of water into the inside of the bar so that the bar is prematurely cut during use.

After the heat treatment of the hollow stabilizer bar as described above and the cold peening (cold working method of hardening the surface of the workpiece by multiplying the surface of the workpiece with a speed of 20 to 50 cm / s) The low-temperature powder coating is performed on the outer surface of the hollow stabilizer bar. At this time, water penetrated into the hollow stabilizer bar through the gap at the end portion may leak, or the coating liquid may boil. There is a problem that a coating failure occurs.

Therefore, Korean Patent Registration No. 10-1219881 discloses a method for closing the end portion of a hollow material for a hollow stabilizer bar so as to close or fill the gap at the end portion in order to solve the above problems.

According to the disclosed method of sealing the end portion of the hollow material for a hollow stabilizer bar, the end portion of the hollow material is thermally fused by rotational friction with the rolling jig to seal the end portion of the hollow stabilizer bar.

In addition, even if the manufactured stabilizer bar is immersed in the quenching tank, water is not penetrated into the hollow stabilizer bar through both end portions of the hollow stabilizer bar, thereby preventing the inside of the hollow stabilizer bar from being corroded, It is possible to prevent the leakage of water from the inside of the hollow stabilizer bar and to prevent the coating failure due to the combination of the powder coating and the water, thereby improving the overall corrosion resistance of the hollow stabilizer bar and improving the life of the hollow stabilizer bar, There is an effect that the torque can be improved.

However, in the method of closing the end portion of the hollow material for the hollow stabilizer bar, the mechanical stabilization work step such as the operation of the rolling jig when the hollow stabilizer bar is mass-produced is added to increase the cost, There is a problem that the closed surface of the end portion of the hollow stabilizer bar is opened again and exposed to the air due to external impact or repeated temperature change.

In order to seal the end portion of the hollow stabilizer bar, an adhesive is applied to the boundary of the compression face formed in the hollow portion and the end portion by using a brush. However, an adhesive is applied only to the boundary of the compression face, There is a problem in that there is a limit to the complete sealing of the hollow stabilizer bar since the adhesive is not applied to itself.

Korean Patent Registration No. 10-1219881 (Method of sealing end portion of hollow material for hollow stabilizer bar)

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above-mentioned problems of the prior art by providing a hollow stabilizer bar, To thereby improve the quality of parts of the hollow stabilizer bar.

In addition, in order to mass-produce the hollow stabilizer bar by sealing the end portion of the hollow stabilizer bar, the process is simplified so as to avoid complicated machining process, thereby reducing the production cost and the labor force.

It is to be understood, however, that the intent of the invention is not to be limited to the above-mentioned objects, and that the following means or other objects according to the specific constructions of the embodiments may be clearly understood by those skilled in the art will be.

According to one embodiment of the present invention, in the method of manufacturing the hollow stabilizer bar 10, the hollow portion sealing method of the hollow stabilizer bar using the adhesive is a method of sealing the hollow portion of the hollow stabilizer bar with the pedestal 90 Securing the hollow portion 15 of the hollow stabilizer bar 10 and sealing the lower portion of the hollow portion 15 on the lower sealing portion 95 of the hollow stabilizer bar 10; Supplying an adhesive to the inner space of the hollow portion 15 using the adhesive supply nozzle 59 of the adhesive supply device 50; Sealing the upper portion of the hollow portion (15) with the projected upper sealing portion (37) of the compressed air supply device (30); A step of supplying high pressure air through the compressed air supply part 33 of the compressed air supply device 30 and injecting the adhesive existing in the hollow part 15 into the gap of the compression face 17 of the hollow part 15 .

Further, the adhesive is mixed with a dye so that the operator can visually confirm that the adhesive is injected into the gap between the compression face 17 of the hollow portion 15.

Further, the adhesive is characterized by containing cyanoacrylate and cyanoacrylate as the main components.

A hollow sealing device for a hollow stabilizer bar using an adhesive includes a lower sealing portion 95 for sealing the lower portion of the hollow portion 15 of the hollow stabilizer bar 10; An adhesive supply device (50) for supplying an adhesive to the hollow portion (15) of the hollow stabilizer bar (10) through an adhesive supply nozzle (59); An upper closure part (37) which is lowered to the upper part of the hollow part (15) of the hollow stabilizer bar (10) to seal the upper part of the hollow part (15); And a compressed air supply device 30 for supplying high-pressure air into the closed hollow part 15 through the compressed air supply part 33 to seal the hollow part 15 of the hollow stabilizer bar 10 .

In addition, the adhesive agent supplied from the adhesive supply nozzle 59 is uniformly supplied to the inner wall of the hollow part 15 formed at the center of the bottom sealing part 95, and the conical pressure resistant And a surface (93).

And a rotation support 70 for adjusting the angle of the adhesive supply device 50. [

And a transfer support 73 for advancing and retracting the adhesive supply device 50. [

The upper sealing part 37 is circular in shape to protrude downward to completely seal the upper surface of the hollow part 15.

The hollow stabilizer bar manufactured by the manufacturing method including the method of sealing the hollow portion of the hollow stabilizer bar using the adhesive is manufactured using the adhesive.

According to an embodiment of the present invention, in the method of manufacturing a hollow stabilizer bar including an encapsulating process using an adhesive, an end portion of a pipe-shaped material is press-formed by a press and forged to form a flat end portion, So that the end portion of the hollow stabilizer bar can be completely closed by pressing the inside of the hollow portion by pushing the adhesive into the gap between the pressing surfaces inside the hollow portion, It is possible to prevent the inside of the bar from being corroded.

Further, since the press-working portion as the end portion of the hollow stabilizer bar is completely sealed, the zinc phosphate pretreating solution, which is a rust preventive solution, does not flow into the hollow stabilizer bar when the rustproofing operation is performed outside the hollow stabilizer bar to prevent corrosion It is possible to prevent the inside of the hollow stabilizer bar from being corroded.

In addition, as disclosed in Korean Patent Publication No. 10-1219881, when the hollow stabilizer bar end sealing method of the present invention using an adhesive is used in comparison with a sealing method by a mechanical working operation such as operating a rolling jig, It can be effectively sealed while being lowered.

Fig. 1 is a perspective view showing the appearance of the hollow stabilizer bar 10. Fig.
Fig. 2 is an enlarged partial perspective view of the end portion 13 of the hollow stabilizer bar 10. Fig.
3 is a sectional view of the end portion 13 of the hollow stabilizer bar 10 after cutting the end portion 13 so that the end surface 13 of the hollow stabilizer bar 10 can be seen after the pressing portion 17 is pressed.
4 is a view showing a hollow portion sealing apparatus of the hollow stabilizer bar 10 according to an embodiment of the present invention.
5 shows a state in which the hollow portion 15 of the hollow stabilizer bar 10 is sealed by the upper sealing portion 37 of the compressed air supply device 30 and the lower sealing portion 95 of the pedestal 90 FIG.
6 is a cross-sectional view of a hollow 15 sealing apparatus of a hollow stabilizer bar 10 according to an embodiment of the present invention.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of a term in order to describe its invention in the best possible way It is to be understood that the technical terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention, It should be based on the contents of

Also, the technical terms used herein should be interpreted in a sense generally understood by a person skilled in the art to which the present invention belongs, unless otherwise defined in this specification, and it should be understood that an overly comprehensive It should not be construed as a meaning or an overly reduced meaning.

Furthermore, the singular forms " a " as used herein include plural referents unless the context clearly indicates otherwise. In the present application, the term "comprising" or "comprising" or the like should not be construed as necessarily including the various elements or steps described in the specification, and some of the elements or portions thereof Or may include additional elements or steps, and should be construed as meaning and concept consistent with technical thought.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience.

2 is an enlarged partial perspective view of the end portion 13 of the hollow stabilizer bar 10; Fig. 3 is a perspective view of the end portion 13 of the hollow stabilizer bar 10; Fig. 4 is a sectional view of the hollow stabilizer bar 10 according to an embodiment of the present invention. FIG. 4 is a cross-sectional view of the hollow stabilizer bar 10 according to an embodiment of the present invention. 5 shows the hollow portion 15 of the hollow stabilizer bar 10 in a state in which the upper sealing portion 37 of the compressed air supply device 30 and the lower sealing portion 95 of the pedestal 90 FIG. 6 is a cross-sectional view of a hollow 15 sealing apparatus of a hollow stabilizer bar 10 according to an embodiment of the present invention. Referring to FIG.

In general, a hollow stabilizer bar 10 used for a steering shaft of an automobile has a shape similar to that of FIG. 1, and the end portion 13 is bent so as to be mounted on a steering shaft lower arm of an automobile. At the end portion 13, A hollow portion 15 into which a bolt is inserted is formed.

2 shows an enlarged view of the end portion 13 and shows the inside of the hollow portion 15 and the pressing face 17 outside the hollow portion 15 of the end portion 13 of the hollow stabilizer bar 10, The gap can be seen from the cross-sectional view of FIG. 3, which shows the cut-away side of the end portion 13.

Description of the method and apparatus for sealing the hollow portion of the hollow stabilizer bar using the adhesive is as follows.

6, the hollow portion 15 of the hollow stabilizer bar 10, which has been manufactured by a conventional method, is inserted into the lower sealing portion (not shown) of the pedestal 90 located at the lower portion of the hollow portion sealing device of the hollow stabilizer bar using the adhesive 95).

The lower sealing part 95 provided on the pedestal 90 serves to fix the hollow part 15 of the hollow stabilizer bar 10 and seal the space of the hollow part 15.

The lower sealing portion 95 of the pedestal 90 abuts against the flat end portion 13 formed around the hollow portion 15 so as to seal the lower portion of the hollow portion 15, A conical pressure-bearing surface 93 having the same size as the outer diameter of the hollow portion 15 is provided at the center of the hollow portion 15.

The conical pressure bearing surface 93 is conical and can withstand the strong pressure generated in the space of the hollow portion 15 when the hollow portion 15 is mounted on the lower sealing portion 95.

The hollow stabilizer bar 10 is provided on the lower sealing portion 95 such that the conical pressure bearing surface 93 provided on the pedestal 90 is positioned inside the hollow portion 15 of the hollow stabilizer bar 10, The adhesive is supplied to the vertex formed at the center of the conical pressure-receiving surface 93 by using the adhesive supply nozzle 59 of the adhesive supply device 50 after the hollow portion 15 is placed.

The adhesive used in the present invention is an adhesive mainly composed of cyanoacrylate and cyanoacrylate, and is rapidly cured by moisture in the air.

When it is applied to the adherend and pressed, it is polymerized and solidified within 1 to 2 minutes and adhered. When it comes into contact with air, it is polymerized by moisture in the air and becomes a polymer.

The adhesive can bond almost all kinds of metal, plastic, rubber, glass, and ceramics.

The adhesive supply device 50 is located next to a pedestal 90 on which the hollow stabilizer bar 10 is placed and fixed and the compressed air supply device 30 is moved downward to be placed on the hollow portion 15 to operate And is moved by the conveying support 73 to retract backward.

The adhesive supply device 50 is positioned such that the adhesive supply nozzle 59 can be positioned just above the conical pressure-bearing surface 93 at the same angle as in Fig. 6 so as to supply the adhesive onto the vertex of the conical pressure-bearing surface 93 .

The angle of the adhesive supply device 50 can be adjusted by using the rotation support 70 so that the adhesive supply nozzle 59 of the adhesive supply device 50 can be directly above the center of the conical pressure-

When the adhesive is supplied to the adhesive supply device 50 through the adhesive supply part 55 and air is supplied through the adhesive supply air supply part 57, the adhesive is supplied through the adhesive supply nozzle 59 to the center of the conical pressure- And the adhesive is filled up to the level of the flat surface around the hollow portion 15 of the hollow stabilizer bar 10, the adhesive supply device 50 is withdrawn backward by the conveyance support 73.

The compressed air supply device 30 located at the upper portion of the apparatus for sealing the hollow portion of the hollow stabilizer bar using the adhesive of the present invention is lowered toward the pedestal 90 and the upper closed portion 37 protruding in a circular shape is inserted into the hollow portion 15 ).

The compressed air supply device 30 functions to seal the upper portion of the hollow portion 15 of the hollow stabilizer bar 10 and to supply compressed air.

The lower sealing portion 95 of the pedestal 90 and the upper sealing portion 37 of the compressed air supply device 30 seal the hollow portion 15 of the hollow stabilizer bar 10 filled with the adhesive.

Pressure air is supplied through the compressed air supply part 33 to supply the compressed air to the hollow part 15 sealed by the upper sealing part 37 and the lower sealing part 95, The pressure inside the hollow part 15 filled with the adhesive is increased.

Generally, since the fluid is incompressible, when the high-pressure air is supplied through the compressed air supply unit 33, the adhesive, which is an incompressible material, escapes into the gap space.

The upper end of the hollow portion 15 is formed in the hollow portion 15 by the upper sealing portion 37. The upper end portion of the hollow portion 15 is in contact with the upper portion of the hollow portion 15, 15 are completely closed by the lower sealing portion 95, a space where the adhesive can escape becomes a gap between the pressing surfaces 17 of the hollow portion 15. [

The adhesive remaining in the hollow portion 15 by the high pressure air escapes into the space between the pressing surfaces 17 formed in the hollow portion 15 and the adhesive is compressed and compressed at the end portions 13 And then escapes to the outer region of the hollow portion 15 over the entire surface 17.

It is possible to automate by using a method in which the adhesive is applied to the gap between the pressing surfaces 17 through the process as described above in comparison with the method of applying the adhesive to the inside of the hollow portion 15 and the end portion of the end portion 13 with a brush The adhesive can be pushed into not only the surface of the gap of the pressing face 17 but also the inside of the pressing face 17 so that the end portion 13 of the hollow stabilizer bar 10, The effect of sealing is great.

The adhesive can be escaped to the outside of the end portion 13 through the gap of the pressing surface 17 of the hollow portion 15 of the hollow stabilizer bar 10 and the adhesive can be adhered It is possible to add a coloring matter.

Through the above process, the hollow stabilizer bar 10 can be manufactured by using the hollow portion sealing method of the hollow stabilizer bar using the adhesive.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the exemplary embodiments and constructions. It will be possible.

It is therefore to be understood that the above-described embodiments are illustrative and not restrictive in all aspects and that the scope of the invention described in the foregoing specification is defined by the appended claims, And all equivalents and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

10: Hollow stabilizer bar
13:
15:
17:
30: Compressed air supply
33: Compressed air supply part
35: compressed air supply pipe
37: Upper sealing
50: adhesive supply device
55:
57: Air supply unit for adhesive supply
59: Adhesive supply nozzle
70:
73: Feed support
90: Stand
93: Conical pressure face
95: Lower sealing

Claims (9)

A method of manufacturing a hollow stabilizer bar (10)
The hollow portion 15 of the hollow stabilizer bar 10 is fixed on the lower sealing portion 95 of the pedestal 90 located at the lower portion of the hollow sealing portion of the hollow stabilizer bar and the lower portion of the hollow portion 15 is closed ;
Supplying an adhesive to the inner space of the hollow portion 15 using the adhesive supply nozzle 59 of the adhesive supply device 50;
Sealing the upper portion of the hollow portion (15) with the projected upper sealing portion (37) of the compressed air supply device (30);
Supplying high-pressure air through a compressed air supply unit (33) of the compressed air supply device (30) to inject an adhesive existing in the hollow part (15) into a gap between the compression surface (17) of the hollow part (15);
Wherein the hollow stabilizer bar is made of an adhesive.
The method according to claim 1,
Wherein a dye is mixed with the adhesive so that an operator can easily visually confirm that the adhesive is injected into the gap between the pressing surfaces (17) of the hollow part (15). The hollow part sealing method of a hollow stabilizer bar .
The method according to claim 1,
Wherein the adhesive contains cyanoacrylate and cyanoacrylate as the main components. The method for sealing a hollow stabilizer bar hollow body using the adhesive according to claim 1,
A lower sealing portion 95 for sealing the lower portion of the hollow portion 15 of the hollow stabilizer bar 10;
An adhesive supply device (50) for supplying an adhesive to the hollow portion (15) of the hollow stabilizer bar (10) through an adhesive supply nozzle (59);
An upper sealing portion 37 which is lowered to the upper portion of the hollow portion 15 of the hollow stabilizer bar 10 to seal the upper portion of the hollow portion 15;
A compressed air supply device 30 for supplying high-pressure air into the hermetically sealed hollow part 15 through the compressed air supply part 33 to seal the hollow part 15 of the hollow stabilizer bar 10;
Wherein the hollow portion of the hollow stabilizer bar is sealed by a sealant.
5. The method of claim 4,
A conical pressure-resistant face (not shown) formed in the center of the lower sealing part 95 and having a conical shape capable of withstanding a high pressure, an adhesive supplied from the adhesive supply nozzle 59 is uniformly supplied to the inner wall of the hollow part 15, 93). ≪ RTI ID = 0.0 > 11. < / RTI >
5. The method of claim 4,
And a rotation support (70) for adjusting the angle of the adhesive supply device (50).
5. The method of claim 4,
And a transfer support (73) for advancing and retracting the adhesive supply device (50). ≪ Desc / Clms Page number 20 >
5. The method of claim 4,
Wherein the upper sealing part (37) is circular in a downward direction to completely seal the upper surface of the hollow part (15).
A hollow stabilizer bar produced by a manufacturing method comprising a hollow portion sealing method of a hollow stabilizer bar using the adhesive of Claims 1 to 3.

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