KR200183245Y1 - exhaust pipe construction of car - Google Patents

Abstract

The present invention allows the first exhaust gas to be exhausted at a high temperature to pass through the converter 6 with minimal heat loss, so that all harmful gases contained in the exhaust gas can be oxidized and reduced to reduce air pollution. The purpose is to allow the vibration generated by the engine operation to be attenuated upon reaching the exhaust pipe a (4) so that the riding comfort can be further improved. An exhaust manifold 2 for collecting the exhaust gas is provided on the exhaust port side, and an exhaust pipe a 4 through which the exhaust gas passes is provided on the outlet side of the exhaust manifold 2, and after the exhaust pipe a 4. At the end is provided a converter (6) for oxidizing and reducing the harmful substances contained in the exhaust gas to harmless substances, the exhaust pipe a (4) is an inlet pipe (14) for guiding the flow of the exhaust gas, In the exhaust pipe structure for automobiles, which is installed on the outer periphery of the inlet pipe 14 and has a mesh structure to form an air insulation layer, and an outlet pipe 18 coupled to the outside of the mesh 16. It is about.

Description

Exhaust pipe construction of car

The present invention relates to an exhaust pipe structure for automobiles, and in particular, by realizing a structure capable of attenuating vibrations transmitted from the engine, the riding comfort can be improved, and also the converter is heated at the same time as the engine is driven to exhaust the exhaust gas The present invention relates to an exhaust pipe structure for automobiles in which air pollutants are reduced by oxidizing and reducing.

In general, when the mixed gas is burned in the combustion chamber of the engine and passed through the exhaust manifold, the temperature of the exhaust gas is generally maintained at about 600 ° C., so that the exhaust gas maintaining the temperature reaches the converter. In this case, the harmful gases CO, HC, and NOx contained in the exhaust gas are exhausted to the outside while being converted into harmless CO ₂ , H ₂ O, and N ₂ .

At this time, since the exhaust pipe is cooled in the initial state in which the engine is driven, the heat of the high temperature exhaust gas exhausted from the combustion chamber is radiated to the outside while being absorbed by the exhaust pipe. When passing through the converter, the converter, which is only partially heated, does not perform its original function, so that a part of the exhaust gas is exhausted to the outside without being oxidized and reduced.

Therefore, when the exhaust gas is exhausted to the outside in an unstable state as described above, it is a major cause of air pollution.

In the related art, an exhaust manifold is installed at a combustion chamber exhaust port side of a cylinder block constituting an engine, and the exhaust manifold is coupled with an exhaust pipe for guiding combustion gas to the outside, wherein the exhaust pipe is normally It has a structure consisting of a single layer.

One end of the exhaust pipe is coupled with a converter for oxidizing and reducing harmful gases contained in the exhaust gas, and an outlet of the converter is coupled with another exhaust pipe to reduce the noise of the exhaust gas. .

Referring to the operation of the conventional technology configured as described above is as follows.

First, when the engine is driven, the mixed gas supplied into the combustion chamber is combusted to reach the converter while sequentially moving the exhaust manifold and the exhaust pipe in the form of exhaust gas.

In the first state in which the engine is driven as described above, since the exhaust pipe is cooled, the high-temperature exhaust gas exhausted from the combustion chamber passes through the pipe and loses heat to become a low temperature state.

As described above, the exhaust gas converted to low temperature is reached while heating only a part of the inside of the converter. Thus, the exhaust gas reaching the converter is a harmless gas as CO, HC, and NOx contained in the harmful gas are oxidized and reduced. ₂ , H ₂ O, N _{2 It} is converted.

At this time, the converter is in a heated state to perform its original function, and as the exhaust gas reached at a low temperature heats only a part of the converter, only the part of the harmful gas contained in the exhaust gas is oxidized and reduced, and the rest is harmful. Passes in the form of gases CO, HC, NOx.

Subsequently, the exhaust gas passes through the muffler, and the noise is reduced to exhaust to the atmosphere.

If the engine continues to operate as described above, the exhaust pipe located between the exhaust manifold and the converter is heated by the high temperature exhaust gas, whereby the exhaust gas after a predetermined time has elapsed. The heat dissipation at is negligible and reaches the converter.

Therefore, the harmful gas contained in the exhaust gas is converted into a harmless gas while being oxidized and reduced normally and exhausted to the outside.

On the other hand, a part of the vibration generated with the operation of the engine is transmitted to the vehicle body through the exhaust pipe, thereby reducing the ride comfort.

The conventional technique described above has a single-layered exhaust pipe structure, in which the first exhaust gas exhausted at a high temperature passes through a cooled exhaust pipe and loses heat to become a low temperature state. As a result, all exhaust gases passing through the converter are oxidized. And by being exhausted in a state containing harmful gas not reduced, there is a problem that acts as a major factor of air pollution.

Another problem is that when the vibration generated while the engine is operating reaches a single-layered exhaust pipe, the driving feeling is deteriorated by the vibration phenomenon without decreasing.

The present invention allows the first exhaust gas to be exhausted at a high temperature to pass through the converter with minimal heat loss, thereby reducing the air pollution by allowing all the harmful gases contained in the exhaust gas to be oxidized and reduced. There is a purpose.

Another purpose is to allow the vibration generated by the engine to reach the exhaust pipe and to be attenuated to improve ride comfort.

The present invention for realizing this is provided with an exhaust manifold for collecting the exhaust gas on the exhaust port side of the cylinder block, and an exhaust pipe a through which the exhaust gas passes is provided on the outlet side of the exhaust manifold, A converter is provided to oxidize and reduce harmful substances contained in exhaust gas to harmless substances. The exhaust pipe a includes an inlet pipe for guiding the flow of the exhaust gas and an air insulation layer formed on the outer periphery of the inlet pipe. It consists of a mesh which makes a mesh structure possible, and the outlet pipe couple | bonded outside this mesh.

1 is a state diagram in which the first embodiment of the present invention is installed.

Figure 2 is a perspective view partially cut in the first embodiment of the present invention.

3 is a partial cross-sectional view of FIG. 2;

4 is a perspective view partially cut away a second embodiment of the present invention;

5 is a partial cross-sectional view of FIG. 4.

6 is a perspective view partially cut away a third embodiment of the present invention;

7 is a partial cross-sectional view of FIG. 6.

8 is a perspective view partially cut away a fourth embodiment of the present invention;

9 is a partial cross-sectional view of FIG. 8.

Figure 10 (a) (b) is a graph showing the vibration state of the engine passing through the present invention.

* Explanation of symbols for the main parts of the drawings

2: Exhaust manifold 4, 20, 28, 36: Exhaust pipe a 6: Converter

8: Exhaust pipe b 10: Muffler 12: Exhaust pipe c

14,22,30,38: Inlet Pipe 16: Mesh 18,26,34,42: Outlet Pipe

24: groove 32: knob 40: insulation

In the first embodiment of the present invention, an exhaust manifold (2) for collecting combustion gas is installed in a cylinder head of an engine (not shown), and the exhaust manifold (2) is exhausted as shown in FIGS. Exhaust pipe a (4) tip is coupled to absorb and reduce vibration of the engine while minimizing heat loss of the gas.

At the rear end of the exhaust pipe a (4), a converter 6 is provided for oxidizing and reducing CO, HC, and NOx, which are harmful gases, to convert to CO ₂ , H ₂ O, and N _{2, which} are harmless gases.

The exhaust pipe b 8, the muffler 10, and the exhaust pipe c 12, which guide the flow of the exhaust gas, are sequentially connected to the rear end of the converter 6.

Referring to the structure of the exhaust pipe a (4) in Figures 2 and 3, first, the inlet pipe 14 for guiding the flow while contacting the exhaust gas is configured, the air insulator layer on the outer periphery of the inlet pipe 14 By forming the mesh 16, which cuts off heat transfer and attenuates vibration, a coil is installed around the perimeter.

The outlet pipe 18 is coupled to the outside of the mesh 16.

Referring to the operation of the first embodiment of the present invention configured as described above are as follows.

First, when the engine operates, the mixed gas supplied into the cylinder is combusted to reach the exhaust manifold 2 in the form of exhaust gas. Thus, the high temperature exhaust gas reaching the exhaust manifold 2 is exhaust pipe a ( Pass 4).

At this time, when the hot exhaust gas is guided and moved by the inlet pipe 14 constituting the exhaust pipe a (4), the heat of the exhaust gas is absorbed by the inlet pipe 14 at a low temperature state and moves outward to the mesh ( 16) is delivered to the side.

As described above, the heat reached to the mesh 16 side is blocked by the air insulation layer so that the heat of the exhaust gas is not transmitted to the outside because the mesh 16 forms the air insulation layer, so that only a part of the heat reaches the outside. Will be moved to.

Subsequently, the heat is radiated through the air insulation layer and passed through the outlet pipe 18 to the atmosphere, and part of the heat is radiated to the outside while heat is transferred directly from the mesh 16 to the outlet pipe 18.

Therefore, the exhaust gas passing through the exhaust pipe a (4) flows into the converter 6 without showing any change compared to the initial heat when exhausted because the heat radiated to the outside is insignificant.

The high-temperature exhaust gas moving as described above is oxidized and reduced inside while rapidly heating the inside of the cooled converter 6, whereby CO, HC, and NOx, which are harmful gases contained therein, are harmless gases such as CO ₂ and H. ₂ O, N ₂ is converted to the muffler 10 along the exhaust pipe b (8).

As the exhaust gas passes through the muffler 10, noise is reduced and exhausted to the atmosphere through the exhaust pipe c 12.

Meanwhile, referring to FIG. 4 and FIG. 5, a second embodiment of the present invention is as follows.

First, the exhaust pipe a (20) forms an inlet pipe (22) for guiding the flow of the exhaust gas, and is installed in the exhaust manifold (2). The outer periphery of the inlet pipe (22) is formed so that an air insulating layer can be formed. (24) is formed while having a network structure.

The outlet pipe 26 is closely coupled to the outer circumference of the inlet pipe 22.

Referring to the operation of the second embodiment of the present invention configured as described above are as follows.

First, when the engine operates as described above, the exhaust gas is moved while the flow is guided by the inlet pipe 22 of the exhaust pipe a 20 through the exhaust manifold 2, wherein the heat of the exhaust gas is inlet Heat is absorbed into the pipe 22 to move outward.

The heat moving as described above reaches the air insulation layer formed in the groove 24 of the inlet pipe 22, and this heat is partially transferred to the outside through the outlet pipe 26 while the heat transfer is blocked by the air insulation layer. Heat dissipation.

In addition, the heat is radiated to the outside while being transferred directly from the inlet pipe 22 to the outlet pipe 26.

At this time, the heat radiated to the atmosphere is radiated to a small amount of heat to the outside compared to the temperature of the exhaust gas moving inside the inlet pipe 22, so that the converter 6 without significant change compared to the initial exhaust gas temperature Will move.

As described above, the exhaust gas introduced into the converter 6 passes at high temperature while rapidly cooling the converter 6, and thus the converter 6 heated to a high temperature is the same as described above. The harmful gas contained in the exhaust gas is oxidized and reduced to be converted into a harmless gas.

6 and 7, the exhaust pipe a 28 coupled to the outlet side of the exhaust manifold 2 as described above is an inlet guiding the flow of exhaust gas. The inlet pipe 30 is formed to protrude a plurality of knobs 32 punched from the inner side to the outer side in the inlet pipe 30.

The outlet pipe 34 is coupled to the outer circumference of the inlet pipe 30.

At this time, the upper end of the knob 32 is in close contact with the inner circumferential surface of the outlet pipe 34, the air insulation layer is formed between the inlet pipe 30 and the outlet pipe 34.

Referring to the operation of the third embodiment of the present invention configured as described above are as follows.

As described above, when the engine operates, the exhaust gas passes through the exhaust pipe a 28 while reaching the exhaust manifold 2 in a high temperature form.

The exhaust gas is moved while the flow is guided by the inlet pipe 30, wherein the heat of the exhaust gas is moved to the outside while the heat is absorbed by the inlet pipe 30 in a low temperature state.

The heat moved as described above reaches the air insulation layer formed between the inlet pipe 30 and the outlet pipe 34 by the knob 32, in which the heat is blocked from being transferred to the outside. In this case, a part of the heat remaining in the air insulation layer is radiated to the outside through the outlet pipe 34.

In addition, part of the heat transferred from the inlet pipe 30 is directly transferred to the outlet pipe 34 in contact with the upper end of the knob 32, so that the heat of the exhaust gas is partially lost. .

As described above, the exhaust gas moving through the inlet pipe 30 is rapidly heated as it flows into the cooled converter 6, thereby toxic gas contained in the exhaust gas is oxidized and reduced to harmless gas, thereby passing the above-described gas. As released to the atmosphere.

8 and 9, the exhaust pipe a 36 installed in the exhaust manifold 2 provides an inlet pipe 38 for guiding the flow of exhaust gas, as described above. The inlet pipe 38 is provided on the outer circumference of the inlet pipe 38 so as to be wound along the circumference of the heat insulating material 40 which blocks heat transmitted from the exhaust gas to the outside.

And the outer pipe 42 is coupled to the outer heat insulating material (40).

Referring to the operation of the fourth embodiment of the present invention configured as described above is as follows.

As described above, when the engine operates, the exhaust gas passes through the exhaust pipe a 36 while reaching the exhaust manifold 2 in a high temperature form.

The exhaust gas is moved while the flow is guided by the inlet pipe 38. At this time, the heat of the exhaust gas is moved to the outside while being absorbed by the inlet pipe 38 in a low temperature state.

The heat moved as described above is in a state in which the flow of heat is almost blocked while reaching the heat insulating material 40, and a part of the heat is transferred to the outlet pipe 42 in the heat insulating material 40 to radiate heat into the atmosphere.

As described above, the exhaust gas moving through the inlet pipe 38 is rapidly heated as it flows into the cooled converter 6, thereby oxidizing and reducing the harmful gas contained in the exhaust gas into a harmless gas. As released to the atmosphere.

On the other hand, when the vibration transmitted from the engine reaches the exhaust pipe a (4, 20, 28, 36) as shown in the graph shown in FIG. Unlike the exhaust pipe, it appears in a reduced state.

At this time, the air insulation layer formed on the exhaust pipe a (4, 20, 28) of the first, second, and third embodiments absorbs vibrations while exhibiting a resonance effect, and the thermal insulation material constituting the exhaust pipe a (36) of the fourth embodiment ( In the case of 40), the vibration is absorbed and blocked.

The present invention has a structure that allows the converter to heat up quickly and improves efficiency, thereby reducing the air pollution by allowing the harmful gases contained in the exhaust gas to be oxidized and reduced even when the engine is first driven. It can be effective.

Another effect is to attenuate the vibration caused by the operation of the engine, thereby reducing the degree of noise felt by the driver inside the vehicle, thereby improving the riding comfort.

Claims (4)

An exhaust manifold 2 for collecting the exhaust gas is provided on the exhaust port side of the cylinder block, and an exhaust pipe a 4 through which the exhaust gas passes is provided on the outlet side of the exhaust manifold 2, and an exhaust pipe a ( 4) At the rear end, a converter 6 for oxidizing and reducing harmful substances contained in exhaust gas into harmless substances is provided. The exhaust pipe a (4) is an inlet pipe 14 for guiding the flow of the exhaust gas, the mesh 16 having a mesh structure to form an air insulation layer while being installed on the outer periphery of the inlet pipe 14, Exhaust pipe structure for an automobile, characterized in that consisting of an outlet pipe (18) coupled to the outside of the mesh (16). The method of claim 1, The exhaust pipe a 20 is an inlet pipe 22 for guiding the flow of exhaust gas and a groove 24 formed integrally with the inlet pipe 22 and pressed inward to form an air insulation layer. And an outlet pipe (26) coupled to the outer circumference of the inlet pipe (22). The method of claim 1, The exhaust pipe a 28 is an inlet pipe 30 for guiding the flow of the exhaust gas, and a knob 32 which is formed integrally with the inlet pipe 30 and punched outward to form an air insulation layer. And an outlet pipe (34) coupled to the outer circumference of the inlet pipe (30) while the inner circumference is in close contact with the upper end of the knob (32). The method of claim 1, The exhaust pipe a (36) is an inlet pipe (38) for guiding the flow of the exhaust gas, and a heat insulating material that is installed as wound around the periphery of the inlet pipe (38) to block heat from the heat of the exhaust gas to the outside. 40 and the exhaust pipe structure of the vehicle, characterized in that composed of an outlet pipe (42) coupled to the outer insulation (40) outside.