KR20040054192A - Flexible tube - Google Patents

Abstract

PURPOSE: A flexible tube for absorbing large displacement vibration is provided to mount additional springs outside an outer blade for absorbing the vibration of a large scale beyond the vibration absorption limit of a bellows. CONSTITUTION: A flexible tube for absorbing large displacement vibration includes a stopper(25), a spring supporting plate(27) and a plurality of springs(30). The stopper is provided to an outer peripheral surface of a cap(23) at an emission introducing part for a bellows(22). The stopper is formed of a plate having a larger area than an outer diameter of an outer blade(21), and a through hole(26) is formed in the center of the plate with an inner diameter larger than an outer diameter of the cap. The spring supporting plate is fixed to an emission discharge part and has an area larger than the outer diameter of the outer blade. The springs are mounted between the stopper and the spring supporting plate.

Description

Flexible Displacement Vibration Absorption Flexible Tube

The present invention relates to a flexible tube capable of absorbing large displacement vibration, and more particularly, a separate spring is mounted on the outside of the outer braid so that a large displacement exceeding the vibration absorption limit of the bellows provided in the existing flexible tube can be absorbed. It relates to a flexible tube capable of absorbing a large displacement vibration.

The engine of the vehicle burns fuel and air introduced into the combustion chamber through the intake manifold through four strokes to generate driving force for driving the vehicle. In this process, exhaust gas is generated according to combustion of the fuel. The exhaust gas thus generated is discharged into the atmosphere through an exhaust manifold and exhaust pipe connected to each exhaust port of the engine.

On the other hand, since the exhaust gas flowing from the exhaust manifold to the exhaust pipe is at a high temperature, shrinkage and expansion due to high heat are generated at the connection portion between the thick exhaust manifold and the thin exhaust pipe. Therefore, as shown in FIG. 3 by such a heat deformation, in the middle of the exhaust pipe flanged to one side of the exhaust manifold, a flexible tube (10) capable of responding to the expansion and contraction according to the thermal deformation of the exhaust pipe (Flexible tube, 10) Is formed.

The flexible tube 10 has a cylindrical bellows 14 having a sinusoidal cross-sectional shape inserted into a cylindrical outer braid 12 having a predetermined diameter as shown in the drawing. Both ends of the bellows 14 are fixed to inner peripheral surfaces of both ends of the outer braid 12, and caps 16 and 18 are mounted to outer peripheral surfaces of both ends of the outer braid 12.

Therefore, the vibration transmitted along with the exhaust gas at the exhaust manifold side of the engine is absorbed by the bellows 14 in the course of passing through the flexible tube 10.

In addition, a constant stress is applied to the bellows by the displacement caused by the displacement of the engine, the displacement caused by the vehicle's driving conditions, and the exhaust system's own weight. Guaranteed.

The bellows 'strength is most vulnerable when there is a sudden braking, deep pits on the road, or a displacement beyond the bellows' durability limit. Therefore, in order to prevent the design of the vehicle exhaust system, it is necessary to increase the diameter or length of the bellows, thereby increasing the cost and weight of the flexible tube. This increase in the diameter or length of the bellows is also subject to layout constraints upon flexible mounting, which limits the large displacement that the bellows can absorb. On the other hand, in the case of a high-power engine, the size of the silencer is also relatively large in order to secure NVH and back pressure performance, so that both the displacement of the engine body and the displacement caused by the exhaust system weight are large, which makes it difficult to secure the durability of the flexible tube. There was this.

Therefore, the present invention has been made to solve the above problems, a large displacement equipped with a separate spring on the outside of the outer braid so that the large displacement exceeding the vibration absorption limit of the bellows provided in the existing flexible tube can be absorbed It is an object to provide a flexible tube capable of absorbing vibration.

The present invention as a means for achieving the above object,

In order to absorb the vibration transmitted from the exhaust system of the engine to the exhaust pipe side, a bellows having a sinusoidal cross-sectional shape is mounted inside the cylindrical outer braid, and a cap is mounted on both sides of the outer braid.

A stopper having a through hole having an inner diameter larger than the outer diameter of the cap is formed on a plate of an area larger than the outer diameter of the outer braid at a cap outer circumferential surface of the side where the exhaust gas flows into the bellows, and on the side from which the exhaust gas flows out The spring support plate having an area larger than the outer diameter of the braid is fixed, but a plurality of springs are connected between the stopper and the spring support plate.

1 is a cross-sectional view of a flexible tube according to the present invention.

Figure 2 is an operating state of the flexible tube according to the present invention.

3 is a view for explaining a conventional technology.

※ Explanation of code for main part of drawing

20: flexible tube 21: outer braid

22: bellows 23, 24: cap

25: stopper 26: through hole

27: spring support plate 30: spring

G: gap

Hereinafter, a preferred embodiment according to the configuration and operation of the flexible tube according to the present invention will be described in detail with the accompanying drawings.

1 is a cross-sectional view of a flexible tube according to the present invention, Figure 2 is an operating state of the flexible tube according to the present invention.

Reference numeral 30 indicated in the drawing indicates a flexible tube according to the present invention, and reference numeral 30 indicates a spring.

The flexible tube 20 has a bellows 22 having a sinusoidal cross-sectional shape inside the cylindrical outer braid 21 like the conventional flexible tube, and has inner peripheral surfaces at both ends of the outer braid 21 described above. The outer peripheral surface of both ends of the bellows 22 is fixed to. In addition, caps 23 for protecting the outer braid 21 are formed on outer peripheral surfaces of both ends of the outer braid 21.

As described above, the general structure of the flexible tube 20 according to the present invention is formed in the same manner as the conventional flexible tube, in particular, in the flexible tube 20 according to the present invention, the stopper 25 on both sides of the outer braid 21. And a spring support plate 27 are formed.

The spring support plate 27 is formed in a plate shape fixed to the side on which the exhaust gas is discharged, the area of the spring support plate 27 is formed with an area larger than the outer diameter of the outer braid (21). In particular, the spring support plate 27 may be directly connected to the rear end of the outer braid 21 without the cap 24 is mounted.

The stopper 25 is formed on the outer circumferential surface of the cap 23 on the side where the exhaust gas is introduced, and the area thereof is larger than the outer diameter of the outer braid 21, and the cap 23 is located at an intermediate position thereof. Through hole 26 having an inner diameter of a diameter larger than the outer diameter of the) is formed. Therefore, a predetermined cap G is secured between the outer diameter of the cap 23 and the inner diameter of the through hole 26 provided in the stopper 25.

In particular, the stopper 25 is mounted in a state corresponding to each other with the spring support plate 27, the plate of both sides is connected by a plurality of springs 30 having a strong elastic modulus. At this time, the spring support plate 27 is fixed to the flexible tube 20 itself, the stopper 25 is to be supported by the spring support plate 27 as a spring 30, A predetermined gap G is maintained between the inner diameter of the through hole 26 of the stopper 25 and the outer diameter of the cap 23. The elastic modulus of the spring 30 is set to be larger than the elastic modulus of the bellows 22.

It is preferable that the formation position of the spring 30 is formed at 90 ° intervals at the positions of the top, bottom, left and right of the circle when viewed from the side.

Referring to the operating state of the flexible tube configured as described above are as follows.

When the engine is started and the vehicle is driven, the displacement according to the vibration of the engine itself and the displacement according to the driving conditions of the vehicle are transmitted to the flexible tube 20.

The displacement generated while driving the vehicle under general conditions is absorbed by the bellows 22 of the flexible tube 20 so that vibration generated in the engine is not transmitted to the exhaust pipe side.

However, when the vehicle shakes in a lot of poor conditions, the displacement caused by the shake of the vehicle is primarily absorbed by the bellows 22. Since the phase of the cap 23 on the side where the exhaust gas flows in and the phase of the cap 24 on the side where the exhaust gas flows out are changed, the outer circumferential surface of the cap 23 is provided through the stopper 25. It contacts the inner peripheral surface of the ball 26. Therefore, the phase of the cap 23 on the side of the exhaust gas is not changed any more, and the spring 30 on the side of the plurality of springs 30, which is subjected to the force, is compressed and absorbs the remaining displacement secondarily. . At this time, since the elastic modulus of the spring 30 is set higher than the elastic modulus of the bellows 22, the stress due to the displacement is concentrated on the spring 30.

Therefore, in the general driving condition where NVH is important, displacement is absorbed by the bellows 22, and the large displacement in the driving condition that occurs intermittently such as the rapid starting and braking of the vehicle and the poor road condition is the spring 30. Is absorbed by. In other words, even when the displacement of the exhaust system is large, the durability of the exhaust system is secured and the NVH performance is also satisfied.

In addition, the flexible tube 20 according to the present invention does not need to increase the diameter and size of the flexible tube in order to absorb the large displacement of the exhaust system, thereby reducing the cost and weight in comparison with the related art.

The present invention configured as described above does not have to increase the diameter and size of the flexible tube in order to absorb the large displacement transmitted to the exhaust system, thereby reducing the cost and weight of manufacturing the flexible tube, and reducing the exhaust system according to the operating conditions. The large displacement is effectively absorbed to ensure the durability of the exhaust system and the NVH performance is also satisfied.

Claims (3)

In order to absorb the vibration transmitted from the exhaust system of the engine to the exhaust pipe side, a bellows having a sinusoidal cross-sectional shape is mounted inside the cylindrical outer braid, and a cap is mounted on both sides of the outer braid. The through hole 26 having an inner diameter larger than the outer diameter of the cap 23 on a plate of an area larger than the outer diameter of the outer braid 21 on the outer circumferential surface of the cap 23 on the side where the exhaust gas flows into the bellows 22. ) Is provided with a stopper (25), and the spring support plate (27) having a larger area than the outer diameter of the outer braid (21) is fixed to the side where the exhaust gas flows out, the stopper (25) and the spring support plate ( 27) a flexible tube capable of absorbing large displacement vibration, characterized in that a plurality of springs 30 are connected between. The method of claim 1, The spring 30 is a flexible tube capable of absorbing large displacement vibration, characterized in that formed in the upper, lower, left and right at intervals of 90 °. The method of claim 1, The elastic modulus of the spring (30) is a flexible tube capable of absorbing vibration, characterized in that it is set larger than the elastic modulus of the bellows (22).