KR200226509Y1 - An exhaust pipe appendage for vehicles - Google Patents

Abstract

The present invention draws out the exhaust pipe of the flue gas generated from the engine of the automobile to form a double to form an air layer between the double pipe to reach the converter that the temperature of the smoke gas generated in the engine by the air layer is part of the exhaust pipe. It is designed to increase the efficiency of removing toxic gas from the converter by maintaining it until the noise generated by the exhaust gas exploded by combustion in the engine is partially exhausted by the double pipe, but is increased by the air layer between the double pipes. will be.

Description

An exhaust pipe appendage for vehicles}

The present invention relates to a vehicle exhaust pipe member, and more specifically, to keep the temperature of the soot gas generated in the engine of the vehicle until it reaches the converter which is a part of the exhaust pipe and the heat generated by the generation of smoke in the exhaust pipe The present invention relates to a vehicle exhaust pipe member which is intended to prevent noise and the entire exhaust pipe from vibrating by the noise.

In general, the vehicle is driven by the piston operation of the engine basically, the smoke generated by the operation of the engine is discharged to the outside through the exhaust pipe.

The exhaust pipe is configured to be directly connected to the engine bar, the part directly connected to the engine has an exhaust pipe member, at the rear there is a bellows pipe configured to be corrugated in consideration of the engine's play, while connecting the exhaust pipe member in conjunction with the engine There is a converter for filtering the toxic fumes of the smoke generated from the, the rear of the converter is connected to the silencer so that the exhaust gas is discharged to the outside.

In this way, the converter configured in the exhaust pipe filters out toxic gases contained in the exhaust gas discharged to the outside, so when the temperature of the soot gas reaching the converter drops without being maintained at the temperature generated by the engine, the smoke is due to the characteristics of the converter. Since it does not filter out toxic gases contained in, the soot gas must be maintained at the temperature generated by the engine until it reaches the converter.

Therefore, since the temperature of the soot gas generated in the engine must be maintained until it reaches the converter, the temperature is maintained in the same way as the exhaust pipe member is doubled, but the material of the exhaust pipe member is made of metal, so the heat transfer power is high. For this reason, it was difficult to maintain the temperature of the soot gas generated in the engine until the internal temperature of the soot gas was transferred to the outside due to a severe temperature difference with the outside.

Due to these difficulties, the efficiency of the exhaust pipe member was doubled, but the efficiency increased slightly. However, since the internal temperature is higher than the temperature of the outside air, there is a loss of heat, so that the engine does not maintain the temperature until it reaches the converter. There is a considerable difficulty, and there is an urgent need for a device that prevents heat loss.

In addition, the noise is severely generated by the emission of the soot gas generated from the engine, and the noise is gradually reduced as it reaches the final exhaust pipe from the engine, but it is not completely exhausted. As a result, cracks are generated in the part where the exhaust pipe is installed, and even the entire exhaust pipe needs to be replaced. Therefore, the noise is reduced by minimizing the noise from the part directly connected to the engine and the exhaust pipe member adjacent to the engine. There is an urgent need for a device capable of maintaining a part having an exhaust pipe for a long time so that vibration does not occur.

The present invention is devised to solve the above conventional problems, the exhaust pipe member connected to the engine and the exhaust pipe member adjacent to the engine is formed of a double pipe, the air layer so that the insulation and sound insulation effect between the inner and outer pipes To maintain the temperature of the soot gas generated in the engine until it is delivered to the converter, the noise generated by the soot is to be exhausted in the air layer,

In order to achieve the above object in the configuration of the exhaust pipe member is connected to the exhaust gas exhaust gas exhaust, the exhaust pipe member is inserted into the outer pipe outer diameter to the outer diameter of the inner pipe, the inner and outer diameter of the inner pipe It is to implement an exhaust pipe member in which an air layer is formed by mesh grooves or protrusions between the inner and outer tubes by forming mesh grooves or protrusions.

1 is a perspective view of a part of the exhaust pipe member constituted by one embodiment of the present invention

Figure 2 is a cross-sectional view taken a part of the exhaust pipe member configured by one embodiment of the present invention

Figure 3 is an example use state of the exhaust pipe constructed by the present invention

Figure 4 (a) is a perspective view of a part of the exhaust pipe member configured by another embodiment of the present invention, (b) is a cross-sectional view

<Code Description of Main Parts of Drawing>

1. Exhaust pipe 2. Engine of automobile

3. Bellows 4. Converter

5. Silencer 10. Exhaust pipe member

11. Inner tube 12. Outer tube

13. Mesh groove 14. Protrusion

20. Air layer

Exhaust pipe member implemented by the object of the present invention as described above is installed between the engine of the vehicle and the converter of the exhaust pipe, that is installed on both sides of the bellows therebetween is a three-way catalytic converter converter By maintaining it until it reaches to to be able to efficiently remove the toxic gas contained in the soot gas.

Hereinafter, the configuration of the present invention in detail with reference to the accompanying drawings by the embodiment as follows.

Figure 1 is a perspective view of a part of the exhaust pipe member configured by one embodiment of the present invention, Figure 2 is a cross-sectional view of a part of the exhaust pipe member configured by an embodiment of the present invention, Figure 3 It is an example use state diagram of the exhaust pipe comprised by this. And (a) of Figure 4 is a perspective view of a part of the exhaust pipe member configured by another embodiment of the present invention, (b) is a cross-sectional view, will be described together.

As shown, the exhaust pipe member 10 installed between the engine 2 of the vehicle and the converter 4 of the exhaust pipe 1 is drawn to fit the outer pipe 12 by the inner pipe 11 outer diameter.

However, before drawing the outer tube 12 to the inner tube 11, the mesh groove 13 is formed on the surface of the inner tube 11 or a predetermined protrusion 14 is formed. Then, a predetermined gap is formed by the mesh groove 13 by drawing the outer tube 12 in the inner tube 11, or the inner and outer tubes 11 and 12 by the plurality of protrusions 14. The surface of the surface is dropped to maintain the gap. In this way, the air layer 20 in which air is formed is formed in the gap.

The mesh groove 13 formed in the inner tube 11 may be formed in a spider web shape on the surface of the inner tube 11 by using a separate device, and the protrusions 14 may be formed in the inner tube 11. What is necessary is just to form the predetermined process | protrusion 14 by punching in internal and external diameter.

Referring to the operation and effect of the exhaust pipe member constituted by one embodiment of the present invention as described above are as follows.

Exhaust pipe member 10 of the present invention configured as described above is installed between the engine 2 and the converter 4 of the exhaust pipe 1, as shown in Figure 3, the part directly connected to the engine (2) And, it is installed between the rear of the bellows (3) installed in order to prevent the shaking of the silencer (5) by the vibration of the engine 2 and the converter (4) which is a three-way catalyst device.

When the present invention is installed, the soot gas generated from the engine 2 reaches the converter 4 via the bellows 3 via the exhaust pipe member 10 and again through the exhaust pipe member 10. The soot gas reached in (4) is filtered by the converter 4, and the soot gas contained in the soot gas is discharged to the outside through the silencer 5.

The soot gas generated in the engine 2 is discharged at a considerably high temperature because it is an exhaust gas according to an explosion stroke in the cylinder, and the soot gas must be moved to the converter 4 while maintaining its temperature until the converter 4 ) Will filter out toxic gases contained in soot gas.

Therefore, before the soot gas generated in the engine 2 reaches the converter 4, the exhaust pipe member 10 of the present invention maintains its temperature.

In other words, the high temperature soot gas passing through the inner tube 11 of the exhaust pipe member 10 of the present invention is primarily blocked by the inner tube 11 to maintain the high temperature temperature, which is then doubled. The high temperature is maintained by the outer tube 12, but the inner tube 11 is formed by the air layer 20 formed by the mesh groove 13 and the projection 14 between the inner tube 11 and the outer tube 12. In order to block the radiant heat to be transmitted to the outer tube 12 in the heat loss is almost eliminated.

In this way, the heat of the soot gas to be transmitted from the inner tube 11 to the outer tube 12, the atmospheric temperature to be transmitted from the outer tube 12 to the inner tube 11, and the like to block the transmission. In addition, since the air layer 20 is blocked by the air itself, heat loss is further prevented, thereby increasing the toxic gas removal rate in the converter 4.

Meanwhile, the air layer 20 is formed between the inner tube 11 and the outer tube 12 to form a wavelength of noise generated while the soot gas generated in the engine 2 passes through the inner tube 11 of the exhaust pipe member 10. Since the exhaustion is gradually exhausted by), not only the noise is reduced to the minimum, but also the vibration caused by the noise does not occur, so that the subsidiary materials used for mounting the exhaust pipe 1 can be kept intact for a long time without the occurrence of cracks.

As described above, the exhaust pipe member of the present invention increases efficiency in removing toxic gases contained in the soot gas generated from the engine, and noise generated from the exhaust pipe of the vehicle is reduced by minimizing the noise caused by the explosion of the soot gas. There is a feature that reduces the minimum and thereby there is no vibration.

The present invention described above is possible to those skilled in the art to which the present invention belongs, various substitutions, modifications and changes can be made within the scope without departing from the technical spirit of the present invention described above and attached It is not limited to drawing.

As described above, the present invention forms an air layer by means of mesh grooves or protrusions in the exhaust pipe member formed of the double pipe, so that the heat of the soot gas generated from the engine is kept warm to the converter, thereby removing the toxic gas of the soot emitted to the outside. There is a characteristic that the efficiency is increased,

In addition, the noise generated by the exhaust gas exploded by the combustion in the engine is partially exhausted by the double pipe, but the characteristics of increasing the exhaust rate by the air layer between the double pipe and the characteristics of the exhaust pipe vibration caused by the noise is eliminated.

Claims (3)

In constructing an exhaust pipe member connected to an exhaust part through which exhaust gas of an automobile is discharged, The exhaust pipe member is inserted into the outer tube inner diameter by the outer tube, the mesh groove is formed in the inner and outer diameter of the inner tube to form an air layer formed by the mesh groove between the inner and outer tubes. Exhaust pipe member. The method of claim 1, Automobile exhaust pipe member, characterized in that formed by forming a projection on the inner tube to form an air layer between the inner and outer tubes. The method according to claim 1 or 2, Mesh grooves or protrusions formed in the inner tube is an exhaust pipe member for an automobile, characterized in that formed on one side or both sides of the inner tube.