1. Field of the Invention
The present invention relates to an exhaust purification device structured by providing a catalyst in an exhaust pipe of a vehicle or the like.
2. Description of the Related Art
In a vehicle such as a two-wheeled motor vehicle and a four-wheeled automobile, a catalyst is provided in an exhaust pipe in order to remove hydrocarbon (HC), nitrogen oxides (NOx), and the like included in exhaust gas. In Japanese Patent Application Laid-open No. 60-17220, there is disclosed a technique in which a catalyst is provided in a muffler of the exhaust pipe of the two-wheeled motor vehicle.
In fixing the catalyst 100 to the exhaust pipe 101, if an outer face of the outer cylinder 102 positioned on an outer periphery side of the catalyst main body 103 is subjected to welding, the brazed portion between the outer cylinder 102 and the catalyst main body 103 is susceptible to heat. Therefore, an end portion 102A of the outer cylinder 102 is caused to protrude from the catalyst main body 103 along a direction of an axial center O1 of the catalyst 100 and welding W5 is applied to this protruding portion, thereby preventing heat from affecting the brazed portion between the outer cylinder 102 and the catalyst main body 103.
However, if the end portion 102A of the outer cylinder 102 is caused to protrude from the catalyst main body 103, there is a useless area that does not contribute to purification of the exhaust gas in the outer cylinder 102. Therefore, this catalyst is inferior in purification performance to a catalyst in which a catalyst main body is provided throughout an inside of the outer cylinder 102 by an amount corresponding to the useless area.
The present invention addresses the above described condition, and an object of the present invention is to provide an exhaust purification device in which an entire length of an outer cylinder of a catalyst can be used effectively for exhaust purification and it is possible to prevent heat in fixing of the catalyst to an exhaust pipe from affecting the catalyst.
According to the invention, there is provided an exhaust purification device structured by providing a catalyst in an exhaust pipe, wherein the catalyst includes an outer cylinder and a plurality of catalyst main bodies provided in the outer cylinder in a state of being spaced each other in an axial direction of the outer cylinder, and an outer face of the outer cylinder positioned between the plurality of catalyst main bodies is a fixed face to be fixed to an inside of the exhaust pipe.
As described above, if the plurality of catalyst main bodies are disposed in a state of being spaced each other in the outer cylinder, the exhaust gas which has passed through one of the catalyst main bodies is once mixed in the space between the catalyst main bodies and then passes through the other catalyst. Therefore, it is possible to uniformly purify the exhaust gas with the entire catalyst main bodies. Therefore, the catalyst formed by providing the plurality of catalyst main bodies at intervals in the outer cylinder can exert substantially the same performance in spite of smaller amounts of catalyst main bodies as compared with a catalyst formed by providing one catalyst main body throughout an outer cylinder of the same length.
Therefore, in the present invention, the entire length of the outer cylinder can be utilized for purifying the exhaust gas and can exert substantially the same performance as the catalyst formed by providing one catalyst main body throughout the outer cylinder. Moreover, because the catalyst is fixed to the exhaust pipe through the fixed face positioned on the outer periphery side of the space between the plurality of catalyst main bodies, it is possible to prevent heat in fixing of the catalyst to the exhaust pipe from affecting a connection portion between the outer cylinder and the catalyst main bodies.
Preferably, a mounting bracket may be fixed to an inner face of the exhaust pipe and the fixed face may be fixed to the mounting bracket.
In accordance with this structure, a difference between a shape of the inner face of the exhaust pipe and a shape of the outer face of the catalyst can be accommodated by the mounting bracket, thereby properly fixing the catalyst irrespective of an inside shape of the exhaust pipe.
Preferably, the plurality of catalyst main bodies may have different axial lengths and the catalyst main body of the shorter axial length may be disposed upstream side from the longer catalyst main body in an exhaust gas flowing direction.
In accordance with this structure, because the exhaust gas of higher temperature circulates through the shorter catalyst main body, it is possible to further promote increase in temperature of the catalyst main body to activate the catalyst main body, thereby enhancing purification efficiency.
These and other objects and features of the present invention will become more clear from the following description taken in conjunction with a preferred embodiment thereof with reference to the accompanying drawings.
A coupling pipe body 21 is attached to the first expansion chamber 18. A front portion of the coupling pipe body 21 protrudes forward from the first expansion chamber 18 and is connected to the first pipe portion 13 (
Between the first expansion chamber 18 and the second expansion chamber 19, a first partition 35 is provided. A catalyst 30 is provided in such a manner as to penetrate the first partition 35. The exhaust gas flows from the first expansion chamber 18 through the catalyst 30 into the second expansion chamber 19. The catalyst 30 will be described later.
Between the second expansion chamber 19 and the third expansion chamber 20, a second partition 24 is provided. A rear end portion of the third expansion chamber 20 is closed with a rear end wall 25. An intermediate pipe body 26 extending in the front-rear direction is provided to penetrate the second partition 24 and the rear end wall 25. In the third expansion chamber 20, the intermediate pipe body 26 is closed with a third partition 27. A plurality of second circulation holes 26A are formed in an outer peripheral face of the intermediate pipe body 26 positioned in front of the third partition 27 and in the second expansion chamber 19. A plurality of third circulation holes 26B are formed in the outer peripheral face of the intermediate pipe body 26 positioned in front of the third partition 27 and in the third expansion chamber 20. A plurality of fourth circulation holes 26C are formed in the outer peripheral face of the intermediate pipe body positioned behind the third partition 27 and in the third expansion chamber 20.
The exhaust gas that has flowed into the second expansion chamber 19 flows into the intermediate pipe body 26 through the second circulation holes 26A and flows into the third expansion chamber 20 through the third circulation holes 26B. Then, the exhaust gas flows into the intermediate pipe body 26 through the fourth circulation holes 26C and is emitted outside through a rear end opening of the intermediate pipe body 26.
As shown in
[Structure of Catalyst]
As shown in
The two catalyst main bodies 32, 33 are arranged side by side along the direction of the axial center O1 (axial direction) of the outer cylinder 31 and a space S is formed between them. The catalyst main body 32 on the front side (upstream side of the exhaust flowing direction X) is formed to be shorter than the catalyst main body 33 on the rear side (downstream side). A front end of the front catalyst main body 32 is substantially aligned with a front end of the outer cylinder 31 and a rear end of the rear catalyst main body 33 is substantially aligned with a rear end of the outer cylinder 31.
The catalyst 30 is fixed inside the muffler 14 through the first partition 35. In other words, the first partition 35 also functions as a mounting bracket for fixing the catalyst 30 to the muffler 14.
A plurality of through holes 17A are formed in a portion of the inner cylinder body 17 which the outer cylinder portion 35A of the mounting bracket 35 overlaps. By applying plug welding W1 into the through holes 17A, the outer cylinder portion 35A is fixed to the inner face of the inner cylinder body 17.
The outer face of the outer cylinder 31 of the catalyst 30 is fixed to the rear end of the inner cylinder portion 35B of the mounting bracket 35 by fillet welding W2 in a plurality of positions in the circumferential direction. A portion (fixed face) 31A of the outer face of the outer cylinder 31 where the welding W2 is applied is positioned on an outer periphery side of the space S between the front and rear catalyst main bodies 32, 33.
Therefore, the present embodiment performs and exerts the following functions and effects.
(1) The space S is formed between the two catalyst main bodies 32, 33 and the portion (fixed face) 31A of the outer face of the outer cylinder 31 positioned on the outer periphery side of the space S is fixed to the inner face of the muffler 14 through the mounting bracket 35. Therefore, heat of welding W2 is less likely to be transferred to the brazed portion between the outer cylinder 31 and the catalyst main bodies 32, 33 and it is possible to reduce the influence of the heat on the brazed portion.
(2) Because the catalyst 30 is fixed to the muffler 14 through the mounting bracket 35, a shape of the catalyst 30 does not necessarily require to be adapted to an inside shape of the muffler 14 and the mounting bracket 35 is adaptable to the inside shape of the muffler 14. Therefore, the catalyst 30 can be fixed properly irrespective of the inside shape of the muffler 14.
(3) If one catalyst main body is provided in the outer cylinder as in the prior art, the exhaust gas flows through the same cell of the honeycomb from start to finish. Therefore, depending on temperature distribution, gas distribution, and the like in the catalyst main body, unevenness may develop in such a manner that purification is finished in one cell of the honeycomb while little progress has been made with purification in another cell of the honeycomb. In the catalyst 30 of the present embodiment, because the two catalyst main bodies 32, 33 are disposed with a clearance (space S) between them, the exhaust gas which has passed through the front catalyst main body 32 and has been purified is once mixed in the space S and then flows into the rear catalyst main body 33 and is purified again. Therefore, it is possible to purify the exhaust gas without causing unevenness by using the two catalyst main bodies 32, 33, thereby enhancing purification efficiency.
In general, in the outer cylinders of the same length, one of which is provided with one catalyst main body throughout the length of the outer cylinder and the other of which is provided with two catalyst main bodies 32, 33 with the space S between them exert substantially the same performance. Therefore, in the catalyst 30 of the present embodiment, it is possible to reduce amounts of the catalyst main bodies 32, 33 by an amount corresponding to the space S, thereby reducing the cost.
(4) Because the catalyst 30 is disposed in the front portion of the muffler 14, it is possible to circulate the exhaust gas of relatively high temperature, thereby promoting increase in temperature of the catalyst 30 so as to activate the catalyst 30.
(5) In the catalyst 30, because the front catalyst main body 32 is formed to be shorter than the rear catalyst main body 33, it is possible to further promote increase in temperature of the front catalyst main body 32 through which the exhaust gas of the higher temperature circulates to activate the catalyst main body 32, thereby enhancing the purification efficiency.
A catalyst 30 is disposed in each of the catalyst pipes 43. The catalyst 30 of the present embodiment is also formed of an outer cylinder 31 and two catalyst main bodies 32, 33 provided in the outer cylinder 31. However, two catalyst main bodies 32, 33 have substantially the same length and a space S is formed in a central portion in an axial direction of the outer cylinder 31. The respective catalyst main bodies 32, 33 are brazed to the outer cylinder 31 through brazing foils 77 disposed at substantially central portions of outer peripheral faces of the catalyst main bodies 32, 33 in the direction of the axial center O1.
A first communicating pipe 63 for communicating with the first expansion chamber 56 and the second expansion chamber 59 penetrates the first, second, and third partitions 60, 61, and 62. A second communicating pipe 64 for communicating with the third expansion chamber 58 and the fourth expansion chamber 57 penetrates the second partition 61. Moreover, a discharge pipe 65 penetrates the second and third partitions 61, 62, and the rear end wall 54. An end portion of the discharge pipe 65 opens in the fourth expansion chamber 57 and the other end portion opens in the rear end wall 54. The third partition 62 is formed with a communicating hole (not shown) for communicating with the second expansion chamber 59 and the third expansion chamber 58.
A catalyst 30 is provided in the inner cylinder body 52. The catalyst 30 is provided in such a manner as to penetrate the first, second, and third partitions 60, 61, and 62 and is directly supported by the partitions 61, 62, and 63. One end portion of the catalyst 30 is disposed in the first expansion chamber 56. A delivery pipe 70 having a large number of circulation holes 70A on an outer peripheral face thereof is mounted to the one end portion of the catalyst 30. The other end portion of the catalyst 30 is disposed in the second expansion chamber 59 and one end of a curved pipe 71 curved into a U shape is connected to the other end portion. The other end of the curved pipe 71 is connected to an inflow pipe 72. The inflow pipe 72 is provided in such a manner as to penetrate the front end wall 53, the first, second, and third partitions 60, 61, and 62.
Into the muffler 11 of the present embodiment, the exhaust gas flows from the one end of the inflow pipe 72. Then, the exhaust gas passes from the curved pipe 71 through the catalyst 30 and flows into the first expansion chamber 56 through the circulation holes 70A in the delivery pipe 70. Then, the exhaust gas flows from the first expansion chamber 56 into the second expansion chamber 59 through the first communicating pipe 63, flows from the second expansion chamber 59 into the third expansion chamber 58 through the communicating hole (not shown), flows from the third expansion chamber 58 into the fourth expansion chamber 57 through the second communicating pipe 64, and is discharged outside from the fourth expansion chamber 57 through the discharge pipe 65.
The catalyst 30 is formed of an outer cylinder 31 and two catalyst main bodies 32, 33. Between the two catalyst main bodies 32, 33, a space S is formed. In this point, the embodiment is similar to the above-described first and second embodiments. The catalyst main body 32 on an upstream side of an exhaust flowing direction X is formed to be shorter than the catalyst main body 33 on the downstream side. A portion 31A of an outer face of the outer cylinder 31 positioned on an outer peripheral side of the space S between the two catalyst main bodies 32, 33 is used as a fixed face of the outer cylinder 31 and fixed to the second partition 61 by welding.
The present embodiment also performs and exerts the same functions and effects as the first embodiment. By providing the catalyst 30 in such a manner that the catalyst 30 penetrates the partition 61 separating the plurality of expansion chambers in the muffler 11 as in the present embodiment, it is possible to fix the catalyst 30 by using the partition 61 as a mounting bracket.
(1) Although the two catalyst main bodies 32, 33 are provided in the outer cylinder 31 in the catalyst 30 in the above embodiments, three or more catalyst main bodies may be provided.
(2) The plurality of catalyst main bodies 32, 33 may have the same or different purification performance (such as size of cells of the honeycomb).
(3) The present invention can be utilized effectively as an exhaust purification device of vehicles such as a two-wheeled motor vehicle and a four-wheeled automobile, a working machine, industrial machine, or the like.
Although the invention has been described in its preferred embodiments with a certain degree of particularity, obviously many changes and variations are possible therein. It is therefore to be understood that the present invention may be practical otherwise than as specifically described herein with out departing from the scope and spirit thereof.
Number | Date | Country | Kind |
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P2005-268821 | Sep 2005 | JP | national |