KR101465368B1 - Flexible Tube for Automobile Exhaust System - Google Patents

Abstract

The present invention relates to a flexible tube disposed in a vehicle exhaust system, which equally secures uniform elasticity and high stiffness to extend a service life. According to the present invention, the flexible tube of the vehicle exhaust system includes a bellows having a wrinkle part, an interlock pipe (200) disposed inside the bellows (100) while maintaining an interval in a radial direction, and an outer blade (300) covering the bellows (100), wherein the bellows (100) includes a plurality of wrinkle parts (110) each having a concave portion (112) and a convex portion (114), which are repeatedly arranged in the longitudinal direction thereof, and straight parts (120) disposed on both ends of the wrinkle part (110) in the longitudinal direction of the bellows, to overlap and be connected with the interlock pipe (200) and the outer blade (300). A cross-section of the wrinkle part (110) is shaped such that the cross-section has a smaller width in a horizontal axis (X) direction and a larger width in a vertical axis (Y) direction, wherein left and right outmost lines crossing the horizontal axis (X) are formed by left and right circular arcs (C3, C2) which have a first radius (R/3) and of which the centers are positioned on the horizontal axis (X), and an upper and lower outmost lines crossing the vertical axis (Y) are formed by upper/lower circular arcs (TTC, TTC) which are greater in radius than the left/right circular arcs (C3, C2) and have the centers positioned on the vertical axis (Y) to tangentially contact the left and right circular arcs (C3, C2) and thus have a convex shape in the vertical direction (Y).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flexible tube for an automobile exhaust system,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a flexible tube provided in an exhaust system of an automobile, and more particularly, to a flexible tube provided in an automobile exhaust system having a structure capable of uniformly stretching, Tube.

The flexible tube of the exhaust system of an automobile is interposed at an intermediate point of the exhaust pipe to absorb the vibration of the engine by expansion and contraction, thereby preventing the vibration of the engine from being transmitted to the exhaust pipe on the downstream side.

In the flexible tube, an outer blade made of a knitting tube is arranged outside the bellows having a wrinkle portion, an interlock pipe is disposed inside the bellows, and an outer blade and a bellows are in close contact with the outer periphery of the interlock pipe at the inlet and the outlet. And they are overlapped with each other and joined together by welding.

The bellows and the interlock pipe of such a flexible tube are in the form of a bellows shown in the left side of Fig. 1 and a cylindrical shape in cross section as disclosed in Patent Documents 1 to 4, As shown in the right side of FIG. 1, and the cross-section is of a similar elliptical shape, as disclosed in Patent Document 5. FIG.

The bellows and interlock pipes of the one-sided circular type are the most commonly used types. However, since the package of the automobile becomes compact, it is necessary to reduce the outer diameter of the flexible tube and to easily secure a clearance to the transmission, oil pan, It is a elliptical flexible tube which was developed in the form of reducing the width in the vertical direction.

The bellows of the elliptic flexible tube does not have an actual elliptical cross section, but has a circular arc shape in both sides in cross section, and has a shape in which the ends of opposing side arcs are connected by a straight line (see Figs. 5 and 6 of Patent Document 5) . In other words, in the conventional bellows, compared to the ellipse in the prior art, both ends of the right and left sides intersecting with the extension of the major axis are formed by arcs, whereas both ends of the bellows intersecting the extension line of the minor axis are composed of straight sections. The size of the diameter in the major axis direction (lateral direction - left and right direction) is substantially the same as that of the conventional circle, and the width in the minor axis direction (vertical direction - vertical direction) is reduced. Therefore, such a elliptical bellows has a durability life almost equal to that of the circular type in the uniaxial direction. However, since the bellows is weak in the major axis direction and has a durability life of about 35%, the overall durability is shortened . In addition, in order to compensate for the durability of the engine, it is necessary to increase the length of the engine or to change the position of the engine, which reduces the applicability and efficiency of the entire exhaust system.

In addition, the cross-sectional shape of the conventional interlock pipe disposed inside the bellows is not a round shape drawn smoothly but a straight line of 12 angles (see Patent Literature 5).

The interlock pipe plays a role of allowing relative displacement and bending by interposing ends of a plurality of materials divided in an axial direction, holding the gap, and bending and engaging with each other.

However, since the conventional interlock pipe has an elliptical shape having 12 angles as a whole, the gap between the materials is narrower than the other portions at the angled portion, so that the angular portion has a greater resistance against the warp than the non- There is little room for warping.

Therefore, the angled portion and the flat portion can not uniformly absorb the impact, so that an uneven wear occurs. Such a uneven wear causes a phenomenon that the engaged portion becomes harder or looser. If the engagement of the interlock pipe is partially tightened or loosened, the durability life is shortened, as well as noise (eg, booming or rattle).

Patent Registration No. 10-0735940 Patent Registration No. 10-0602770 Published Patent Publication No. 10-2005-003936 Japanese Patent Application Laid-Open No. 2004-052180 Published Patent Publication No. 10-2010-0120871

It is an object of the present invention to provide a flexible tube of an automobile exhaust system capable of uniformly stretching over an entire section and a length and uniformly securing high rigidity to prolong the durability life of the same. .

In order to achieve the above object, a flexible tube of an automobile exhaust system according to the present invention includes a bellows having a corrugated portion, an interlock pipe 200 disposed inside the bellows 100 in a radial direction, The bellows 100 includes a plurality of wrinkles 110 having a valley 112 and a mountain 114 repeatedly formed in the longitudinal direction of the bellows 100, And both ends in the longitudinal direction of the corrugated portion 110 consist of a straight line portion 120 for overlapping and bonding with the interlock pipe 200 and the outer blade 300; The outline of the left and right lines intersecting with the horizontal axis X is the horizontal axis X and the horizontal line X is the vertical line X. The width of the wrinkle part 110 is wide in the X axis direction and narrow in the Y axis direction, Left and right arc C3 and C2 having a first radius R / 3 centered on the vertical axis Y and the upper and lower outermost lines intersecting the vertical axis Y are formed by the left and right two arcs C3 (TTC, TTC) which are convex in the Y-axis direction while being drawn so as to touch the two left and right circular arcs C3 and C2 with a larger radius than the center axis Y ).

In the flexible tube of the automobile exhaust system according to the present invention, the first radius (R / 3) of the left and right arcs C3 and C2 is a radius of the base circle C1 along the outermost side in the lateral axis (R); The upper and lower arc (TTC, TTC) are formed by a point X2 spaced by 0.3R to 0.4R from the center X1 where the horizontal axis X and the vertical axis Y intersect each other in the vertical axis Y direction, It is preferable that it is made of an arc drawn so as to touch both of the right circular arc C3 and the right circular arc C2.

In the flexible tube of the automobile exhaust system according to the present invention, the corrugated portion 110 of the bellows 100 has a height (height) of the first corrugation 114-1 nearest to the straight portion 120 at both longitudinal ends thereof And the height of the mountain 114-2 of the second corrugation is higher than the height of the mountain 114-1 of the first corrugation and the height of the mountain 114-3 of the third corrugation is the highest .

In the flexible tube of the automobile exhaust system according to the present invention, the width (w) of the corrugation 110 of the bellows 100 having a height of 'h' is preferably 0.35h to 0.45h Do.

In the flexible tube of the automotive exhaust system according to the present invention, the interlock pipe 200 includes an intermediate portion 210 that maintains a predetermined length in the middle in the longitudinal direction, a joint portion 210 that forms both ends in the longitudinal direction of the intermediate portion 210 The cross section of the intermediate portion 210 may be configured to resemble the cross-sectional shape of the corrugated portion 110 of the bellows 100, or may be configured as an actual ellipse.

According to the flexible tube according to the present invention, the conventional elliptic bellows has a straight section at the upper and lower portions and has a weak durability in the transverse direction (the longitudinal direction). However, the present invention is applicable to the upper and lower portions of the conventional elliptical bellows By treating the straight section with an arc of an appropriate ratio, the maximum clearance can be ensured, while the rigidity is increased and the durability life can be improved.

In addition, the cross-sectional shape of the interlock pipe can be formed by a structure in which the upper and lower arc in the left, right arc and short axis direction in the long axis direction in the conventional twelve ellipse shape naturally come into contact with each other to form a convex and smooth curved line as a whole, It is possible to improve the durability life and the noise characteristic by inducing the absorption and suppressing the uneven wear.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a view showing two types of bellows of a conventional flexible tube, that is, a circle and an ellipse.
2 is a view showing a bellows according to the present invention.
Fig. 3 is a cross-sectional view taken along the line AA in Fig. 2, for explaining an example of a cross-sectional configuration of the bellows.
Fig. 4 is a cross-sectional view taken along the line BB in Fig. 2, illustrating the cross-sectional configuration of the inlet and outlet of the bellows.
5 is a view showing the configuration of the corrugated portion of the bellows according to the present invention in comparison with the conventional one.
FIG. 6 is an enlarged view of the portion 'C' in FIG. 2, illustrating the configuration of the corrugation of the end portion of the bellows.
7 is a longitudinal sectional view of the interlock pipe of the present invention.
FIG. 8 is a cross-sectional view taken along the line DD of FIG. 7, illustrating a cross-sectional configuration of the intermediate portion of the interlock pipe. FIG.
9 is a cross-sectional view taken along the line EE in Fig. 7, illustrating the cross-sectional configuration of the inlet and outlet portions of the interlock pipe.
10 is a cross-sectional view of a flexible tube according to the present invention.

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

2 and 3 show a bellows which is a component of the flexible tube according to the present invention. FIG. 2 is a front view of the outer tube, and FIG. 3 is a cross-sectional view taken along line AA of FIG. A view for explaining the shape is shown.

2 and 3, the bellows 100 according to the present invention includes a plurality of wrinkles 110 having a valley 112 and a mountain 114 repeatedly formed in the longitudinal direction, Both end portions in the longitudinal direction of the body 110 consist of a straight line portion 120 for overlapping and bonding with the interlock pipe 200 (see FIG. 20) and the outer blade 300 (see FIG. 10).

In this bellows 100, the cross-sectional shape of the corrugated portion 110 is a smooth curved line near the ellipse, and the width (height) in the up-down direction is shorter than the actual ellipse.

3 shows only the outer periphery of the trough 112 of the corrugated portion 110 for the sake of convenience of explanation. The outer periphery of the trough 112, the outer periphery of the trough 114, 3 is formed by the same method and structure as described in Fig.

Referring to FIG. 3, the cross-sectional shape of the bellows 110 according to the present invention has a wide width in the X-axis direction and a narrow width in the Y-axis direction. Even when mounted on an actual vehicle, a clearance about the transmission, oil pan, ground, and the like is easily secured by disposing the narrow vertical axis Y in the vertical direction.

The intersection of the horizontal axis X and the vertical axis Y is the center of the cross section X1 of the bellows 100. The left and right outermost lines intersecting the horizontal axis X are the first The outermost line of the upper and lower lines intersecting with the longitudinal axis Y is composed of left and right circular arc C3 and C2 having a radius R / 3 and has a larger radius than the two left and right circular arcs C3 and C2 (TTC, TTC) having a convex shape in the Y-axis direction while being drawn in contact with the two left and right arc (C3, C2) centering on the vertical axis (Y).

here. The symbol 'R / 3' representing the first radius is a simple reference number, not '1/3 of R'.

The cross sectional shape of the bellows 100 is such that the upper and lower arcs TTC and TTC are formed in the direction of the long axis X in the direction of the long axis X in the two arcs C2 and C3 in the left and right direction and in the direction of the short axis Y It is natural to meet and connect smooth curve. Therefore, the upper and lower outer lines of the bellows 100 intersecting the short axis (Y) D form a convex curve, so that the load-bearing capacity is improved as compared with the conventional linear shape.

More preferably, the first radius R / 3 of the left and right circular arcs C3 and C2 is the radius R of the base circle C1 formed along the outermost side in the horizontal axis X direction, / RTI >

The upper and lower arcs TTC and TTC are arranged such that a point X2 separated by 0.3R to 0.4R from the center X1 where the horizontal axis X and the vertical axis Y cross each other in the vertical axis Y direction, And an arc (three arcs tangent to each other) drawn so as to touch both of the right arc (C3, C2).

That is, the outermost circle C1 drawn with the outermost rim of the bellows as the radius R from the center X1 intersects the horizontal axis X at a point Y1 The left and right circular arcs C3 and C2 are drawn centering on the center line Y2 and the center line Y2 and then the point X2 separated by 0.3R to 0.4R in the vertical axis direction Y and the left and right circular arcs C3 and C2 (TTC, TTC) when the center is drawn on a circle formed on the vertical axis (Y).

By setting the radius of the left and right circular arc C3 and the circular arc C2 to R / 3 and limiting the widths of the upper and lower arcs TTC and TTC to 0.3R to 0.4R, A bellows (not shown) which can easily achieve a clearance with respect to a transmission, an oil pan, a ground, and the like by narrowing the width in the upward and downward directions (100) is implemented.

Fig. 4 is a cross-sectional view taken along the line B-B in Fig. 2 and is a view for explaining an example of the cross-sectional configuration of the inlet and the outlet of the bellows 100. As shown in Fig.

4, the inlet and outlet of the bellows 100, that is, the cross-sectional shape of the rectilinear section 120, is configured the same as the cross-sectional shape of the exhaust pipe, which is a relative part connected thereto. 4, the upper and lower portions of the rectilinear section 120 are formed in a straight line, and the left and right sides of the rectilinear section Both sides are made of arcs. There is no limitation on the cross-sectional shape of the exhaust pipe to be connected. For example, there may be a case where the cross-sectional shape of the corrugated portion 110 described in FIG. 3, the actual elliptical shape or the rectangular shape, ) May have the same shape as the sectional shape of the exhaust pipe to be connected.

5 shows a preferred configuration of the corrugated portion 110 of the bellows 100 according to the present invention compared with the prior art.

5, the wrinkle portion 11 on the left side shows the shape of the wrinkle portion of the conventional bellows, and the wrinkle portion 110 on the right side shows the shape of the wrinkle portion according to the preferred embodiment of the present invention.

The conventional wrinkle portion 11 is an acid form of a so-called thick type having a mountain width w1 which is thicker than the mountain height h1 (w1 0.53h). In contrast, the corrugated portion 110 according to the present embodiment can be made of a so-called "thin type" in which the ratio of the width of the acid to the height of the mountain is reduced, thereby improving durability. That is, when the height of the mountain of the wrinkle portion 110 is 'h', the width (w) of the mountain is 0.35h to 0.45h. The width (w) of the acids whose height is smaller than 'h' may be 0.35h to 0.45h or may be made wider (see FIG. 6).

FIG. 6 is an enlarged view of the portion 'C' in FIG. 2, showing a preferred configuration example of the wrinkle portion 110 at the longitudinal end portion of the bellows 100.

6, the corrugated portion 110 of the bellows 100 according to the present invention is configured such that three mountains are tapered to gradually expand in diameter from the straight portion 120, Thereby increasing the rigidity of the corrugated portion 110 located at the end portion.

Specifically, the height of the mountain 114-1 of the first wrinkle closest to the straight line portion 120 at both longitudinal ends of the wrinkle portion 110 of the bellows 100 is the lowest, and the mountain 114-1 of the second wrinkle -2 is higher than the height of the mountain 114-1 of the first wrinkles and the mountain 114-3 of the third wrinkles is the highest. The third wrinkle mountain 114-3 is the same height (h) as the height of the mountain 114 of the remaining wrinkles 110. [

In this case, the height of the mountain 114-1 of the first wrinkle is 0.55h and the height of the mountain 114-2 of the second wrinkle is 0.73h.

7 shows a longitudinal section of the interlock pipe 200 according to the present invention.

The interlock pipe 200 includes an intermediate portion 210 that maintains a predetermined length in the middle in the longitudinal direction and a joint portion 220 that forms both end portions in the longitudinal direction of the intermediate portion 210. The joining portion 220 is a portion joined to the straight portion 120 of the bellows 100 or connected to the exhaust pipe.

Fig. 8 is a cross-sectional view taken along the line D-D in Fig. 7, showing an example of the cross-sectional configuration of the intermediate portion of the interlock pipe.

The cross-sectional shape of the intermediate portion 210 of the interlock pipe 200 is preferably constructed as an actual elliptical shape as shown in Fig. 8 to solve the disadvantages of the conventional 12-elliptical cross-sectional shape.

Further, the cross-sectional shape of the intermediate portion 210 of the interlock pipe 200 may be similar to the cross-sectional shape of the corrugated portion 110 of the bellows 100. In the case of a resemblance to the cross-sectional shape of the corrugated portion 110 of the bellows 100, the left and right arc in the major axis direction and the upper and lower arc in the minor axis direction are naturally connected and connected to form a convex and smooth curve as a whole.

Fig. 9 is a cross-sectional view taken along the line E-E in Fig. 7, showing an example of the cross-sectional shape of the joint portion 220 constituting the inlet and outlet portions which are both ends in the longitudinal direction of the interlock pipe 200. Fig.

9, since the joint 220 of the interlock pipe 200 is joined to the straight portion 120 of the bellows 100 or connected to the exhaust pipe, the straight portion 120 of the bellows 100, Sectional shape of the exhaust pipe 120 or a sectional shape of the exhaust pipe. For example, as shown in FIG. 9, if the straight line portion 120 or the exhaust line of the bellows 100 to be connected has a sectional shape of upper and lower surfaces and an arc is formed on both sides of the straight line portion 220, The upper and lower parts of the cylinder are made of straight lines, and the left and right sides are formed by arcs.

10 is a cross-sectional view of a flexible tube using a bellows 100 and an interlock pipe 200 according to the present invention.

10, an interlock pipe 200 is disposed at an inner side of the bellows 100 while maintaining a gap therebetween in a radial direction, and an outer blade 300 formed of a knitting tube is provided on the outer side of the bellows 100 Loses.

The straight portion 120 of the bellows 100 is overlapped with the straight portion 302 of the outer blade 300 and joined together by welding or the like at the inlet and outlet portions of the flexible tube.

The joint 220 of the interlock pipe 200 directly overlaps with the straight line 120 of the bellows 100 and is joined by a method such as welding or a separate connecting member 500 is additionally joined.

Meanwhile, a fixing cap 400 may be provided on the outer side of the straight line 302, which is an end of the outer blade 300, to reinforce the joint.

The foregoing is a description of certain preferred embodiments of the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, .

100: Bellows
110:
112: Goals
114: Mountain
120: Straight line
200: interlock pipe
210: Middle part
220:
300: Outer blade
302:
400: fixed cap
500: connecting member

Claims (6)

A bellows 100 having a corrugated portion and an interlock pipe 200 disposed at an inner side of the bellows 100 in a radial direction and an outer blade 300 covering the outer side of the bellows 100, As a tube,
The bellows 100 has a plurality of wrinkles 110 having a valley 112 and a mountain 114 repeatedly formed in the longitudinal direction and both longitudinal ends of the wrinkle 110 are connected to the interlock pipe 200 and a straight line portion 120 for overlapping and bonding with the outer blade 300,
The outline of the left and right lines intersecting with the horizontal axis X is the horizontal axis X and the horizontal line X is the vertical line X. The width of the wrinkle part 110 is wide in the X axis direction and narrow in the Y axis direction, Left and right arc C3 and C2 having a first radius R / 3 centered on the vertical axis Y and the upper and lower outermost lines intersecting the vertical axis Y are formed by the left and right two arcs C3 (TTC, TTC) which are convex in the Y-axis direction while being drawn so as to touch the two left and right circular arcs C3 and C2 with a larger radius than the center axis Y ). ≪ / RTI > The method according to claim 1,
The first radius R / 3 of the left and right circular arcs C3 and C2 is 1/3 of the radius R of the base circle C1 along the outermost side in the horizontal axis X direction,
The upper and lower arc (TTC, TTC) are formed by a point X2 spaced by 0.3R to 0.4R from the center X1 where the horizontal axis X and the vertical axis Y intersect each other in the vertical axis Y direction, And the arc is drawn so as to contact both of the two circular arc (C3, C2) of the right. The method according to claim 1,
The corrugated portion 110 of the bellows 100 may be formed by,
The height of the mountain 114-1 of the first wrinkle closest to the straight portion 120 at both longitudinal ends is the lowest and the height of the mountain 114-2 of the second wrinkle is the height of the mountain 114- 1), and the height of the mountain 114-3 of the third corrugation is the highest. The method of claim 3,
Wherein the width (w) of the corrugations (110) of the bellows (100) having a height of 'h' is 0.35h to 0.45h. 3. The method according to claim 1 or 2,
The interlock pipe 200 includes an intermediate portion 210 that maintains a predetermined length in the longitudinal direction and a joint portion 220 that forms both end portions in the longitudinal direction of the intermediate portion 210, Wherein the cross-sectional shape of the bellows (100) is similar to the cross-sectional shape of the wrinkle (110) of the bellows (100). 3. The method according to claim 1 or 2,
The interlock pipe 200 includes an intermediate portion 210 that maintains a predetermined length in the longitudinal direction and a joint portion 220 that forms both end portions in the longitudinal direction of the intermediate portion 210, Wherein the cross-sectional shape of the flexible tube is an actual ellipse.

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