SE536756C2 - Arrangement for installation of exhaust gas cleaning unit - Google Patents

Abstract

The invention relates to an arrangement for mounting an exhaust gas cleaning unit in an exhaust passage, the arrangement comprising a wedge-shaped unit adapted to be mounted between the exhaust cleaning unit and a wall surface delimiting the exhaust passage to keep the exhaust cleaning unit in a fixed state in the exhaust passage. The exhaust gas purifying unit is then held in place in the fixed state by friction between at least some of the surfaces of the exhaust gas purifying unit, the exhaust passage and the wedge-shaped unit. (Figure 1)

Description

536,756 US-2009/0235623-A1 discloses an apparatus for purifying exhaust gases from a thermal engine. The device comprises a catalytic cleaning element and two annular joints defining an axial distance from a shoulder axis. A particle filter comprises a substrate and another annular joint defining an axial distance from another shoulder axis. In order to be able to clean the upper part of the particle filter, two parts are connected via a detachable stop ring.

The construction is thus relatively complicated and is not intended to be able to replace the substrates.

The substrates used in the filters and catalysts have different tolerances during manufacture due to tool wear, variations in process parameters, etc.

The substrates thus have varying outer dimensions, and when mounting the substrates this must be taken into account.

The object of the invention is to provide an improved arrangement for enabling assembly and disassembly of an exhaust gas purifying element in an exhaust passage.

Summary of the invention The object described above is achieved by an arrangement for mounting an exhaust gas purifying unit in an exhaust passage according to the first independent claim.

The arrangement comprises a wedge-shaped unit which is adapted to be mounted between the exhaust gas cleaning unit and a wall surface delimiting the exhaust gas passage to keep the exhaust gas cleaning unit in a fixed state in the exhaust passage. The exhaust gas cleaning unit is then held in place in the exhaust passage in both radial and axial directions. The wedge-shaped unit enables easy installation and disassembly of the exhaust gas cleaning unit, which is independent of the installation of other filters in the exhaust system. Exhaust gas cleaning units are manufactured with different tolerances, and the wedge-shaped unit enables an installation of the exhaust gas cleaning unit that is independent of the tolerance within a certain range. 536 756 The exhaust passage can for example be a passage in an exhaust muffler. As the exhaust gas cleaning unit is replaceably mounted, you do not need to replace the entire exhaust muffler as the exhaust gas cleaning unit needs to be replaced.

Preferred embodiments are described in the dependent claims and in the detailed description.

Brief Description of the accompanying Figures The invention will be described below with reference to the accompanying figures, of which: Fig. 1 shows a truck with an exhaust system.

Fig. 2 shows an arrangement and further parts for mounting an exhaust gas purifying unit in an exhaust passage according to an embodiment of the invention.

Fig. 3 shows a side view of an exhaust gas purifying unit mounted in an exhaust passage with an arrangement according to an embodiment of the invention.

Fig. 4A shows an example of a wedge-shaped unit.

Fig. 4B shows an example of an arrangement according to an embodiment of the invention.

Fig. 5 shows a side view of an exposed wedge-shaped unit according to an embodiment of the invention.

Fig. 6 shows a side view of a detail of an exhaust after-treatment system according to an embodiment of the invention.

Detailed Description of Preferred Embodiments of the Invention Fig. 1 schematically shows a truck 1 with an internal combustion engine 2, in this case a diesel engine. Exhaust gases from the internal combustion engine 2 are led away from the engine 2 via an exhaust system 3. The exhaust system 3 comprises a first exhaust line 5 and an exhaust gas silencer 4 connected thereto with an exhaust inlet 8 and an exhaust outlet 9, and a second exhaust line extending from the exhaust silencer 4. 5, the exhaust gases are led from an exhaust outlet 7 on the engine 2 to the exhaust inlet 8 of the exhaust silencer 4 and through the other exhaust line 6 the exhaust gases from the exhaust outlet 9 of the exhaust silencer 4 are led out to the atmosphere surrounding the vehicle 1. The vehicle 1's exhaust system 3 may include mufflers and exhaust after-treatment systems which are suitably but not necessarily placed upstream of the exhaust muffler 4, or which are integrated in the exhaust muffler 4. Fig. 2 shows an exhaust after-treatment system 10 in more detail.

The exhaust after-treatment system 10 comprises a pipe 11 which delimits an exhaust passage 12 with an inlet opening and an outlet opening for the exhaust gases.

The exhaust gases are led to the inlet opening or from the outlet opening via so-called reversing chambers. A reversing chamber is a type of pipe or conduit which carries the exhaust gases, for example from an exhaust inlet 8 shown in Fig. 1 to an inlet opening on the exhaust passage 12. Another reversing chamber for the purified exhaust gases from the outlet opening to an exhaust outlet 9 (Fig. 1) alternatively to a other exhaust passage. The pipe 11 is adapted to receive an exhaust gas purifying unit 13. The exhaust gas purifying unit 13 comprises, for example, a catalyst or a particulate filter unit. The catalyst may be, for example, an oxidation catalyst or an SCR catalyst. The oxidation catalyst oxidizes nitrogen monoxide NO to nitrogen dioxide NO2. The particulate filter unit usually comprises a substrate which is designed to remove particles, or soot, from the exhaust gases of the vehicle. Both catalysts and particulate filter units are clogged over time and then need to be replaced. The substrate is sensitive, and is protected by a casing 29 which may be made of heat-resistant steel. The exhaust after-treatment system 10 may be, for example, an exhaust muffler 4. An exhaust muffler 4 in an exhaust system 3 contains an empty space which can be used to receive one or more exhaust cleaning units 13. According to one embodiment, the exhaust cleaning unit 13 is provided with one or more gripping means 26 at a end of the exhaust gas purifying unit 13 and attach at a suitable distance from each other around the periphery of the exhaust gas purifying unit 13. The gripping means 26 are intended to be gripped with a tool when the exhaust gas cleaning unit 13 is to be mounted and disassembled in the pipe 11. According to one embodiment, a plurality of different exhaust cleaning units 13 are mounted in the exhaust passage 12 with arrangement 14 as described herein. An arrangement 14 comprising a wedge-shaped unit 15 is used to mount the exhaust gas cleaning unit 13 in the pipe 11. According to one embodiment, the exhaust gas cleaning unit 13 is placed in the exhaust passage 12 against a stop 16, and the wedge-shaped unit 15 is then pressed down between the exhaust cleaning unit 13 and a wall surface 17 defining the exhaust passage 12. The stop 16 may be a part or parts of the wall surface 17 projecting inwards from the inward center of the exhaust passage 12. In Fig. 2 the stop 16 is shown as an annularly projecting part of the wall surface 17 as an inward center of the exhaust passage 12. Sufficient force to hold the exhaust gas cleaning unit 13 in place is obtained by correct dimensioning of the wedge-shaped unit 15, correct dimensioning of the pipe 11, and suitable pressing force of the wedge-shaped unit 15. A mounting hatch 18 and any gasket, clamp and surface protection plate (not shown ) is then placed on the outside of the exhaust gas purifying unit 13 to prevent leakage of exhaust gases out of the exhaust gas the after-treatment system 10. However, there is space for, for example, a reversing chamber between the exhaust gas cleaning unit 13 and the mounting door 18, etc. to direct exhaust gases to the desired location. The exhaust after-treatment system 10 illustrated thus comprises an exhaust passage 12 with at least one exhaust purifying unit 13 mounted in the exhaust passage 12 with an arrangement 14 described herein. According to one embodiment, the wall surface 17 delimiting the exhaust passage 12 has an at least partially conical design adapted to the design of the wedge-shaped unit 15. In this way, the wedge-shaped unit 15 can remain in a position between the exhaust gas cleaning unit 13 and the wall surface 17 and fix the exhaust cleaning unit 13 where the wall surface 17 has narrowed sufficiently. Fig. 3 shows a cross section of an arrangement 14 for mounting an exhaust gas cleaning unit 13 in an exhaust passage 12. The arrangement 14 comprises a wedge-shaped unit which is adapted to be mounted between the exhaust cleaning unit 13 and the wall surface 17 delimiting the exhaust passage 12 for holding it. the exhaust gas purifying unit 13 in a fixed state in the exhaust passage 12. Fig. 3 shows an example of a wedge-shaped unit 15 pressed in between the exhaust gas purifying unit 13 and a pipe 11, the exhaust gas purifying unit 13 being kept in a fixed state in the pipe 11. The 536 The 756 wedge-shaped unit 15 is designed to have a first surface 19 which is adapted to be at least partially in contact with an outer wall surface 20 of the exhaust gas cleaning unit 13 in the fixed condition. The wedge-shaped unit 15 further has a second surface 21 which is adapted to be at least partially in contact with the wall surface 17 which delimits the exhaust passage 12 in the fixed state. The exhaust gas cleaning unit 13 is held in place in the fixed condition by friction between at least some of said surfaces 17, 19, 20, 21. Fig. 6 also shows the stop 16 as projecting parts of the wall surface 17.

In Fig. 3 it can be seen that the wedge-shaped unit 15 has a substantially triangular cross-section in which the first 19 and the second 21 surface form an acute angle d.

According to one embodiment, the wedge-shaped unit 15 has the shape of a right-angled triangle, in which the hypotenuse is constituted by the second surface 21. The second surface 21 thus constitutes the surface abutting the wall surface 17 delimiting the exhaust passage 12 in the fixed state. The wedge-shaped unit 15 may be formed as a truncated triangle, as illustrated in Fig. 3. According to one embodiment, the wedge-shaped unit 15 has an angle α which is adapted to an angle β on the wall surface 17 which delimits the exhaust passage 12. A third side 22 in the triangle opposite the acute angle u has according to one embodiment a size of between 0.1-2 cm.

According to one embodiment, the arrangement 14 also comprises an annular gasket 28 which is adapted to extend around the exhaust gas cleaning unit 13 to close tightly against the wall surface 17 when the exhaust gas cleaning unit 13 is mounted in the exhaust passage 12. In this way it is possible to seal against exhaust gases even if the wedge-shaped unit 15 is for example divided into modules 23 (Figs. 4A-4B) and does not close tightly everywhere to the wall surface 17 delimiting the exhaust passage 12. The gasket 28 can be placed on a calibrated surface in the exhaust-cleaning unit 13 to ensure a predetermined distance between the exhaust gas cleaning unit 13 and the wall surface 17 so that the gasket 28 closes tightly between the exhaust gas cleaning unit 13 and the wall surface 17. 536 756 The exhaust gas cleaning unit 13 is preferably releasably mounted in the fixed condition. By actuating the wedge-shaped unit 15 and / or the exhaust gas cleaning unit 13 with a force, the exhaust gas cleaning unit 13 can be disassembled from its fixed state.

The wedge-shaped unit 15 can be designed in a number of different ways. Fig. 2 shows an embodiment in which the wedge-shaped unit 15 is formed as a conical tube 11. The wedge-shaped unit 15 in Fig. 2 also has a substantially triangular cross-section. The wedge-shaped unit 15 is here a composite unit which, when mounted, can also be adapted to function as a seal for fluid between the exhaust gas cleaning unit 13 and the wall surface 17 which delimits the exhaust passage 12. In this way it can be ensured that no exhaust gases leak between it the exhaust gas cleaning unit 13 and the wall surface 17. According to one embodiment, the wedge-shaped unit has a homogeneous shape. The unit 15 then has, for example, substantially the same extent in radial direction around its entire circumference. In this way, a centered fixed mounting of the exhaust gas purifying unit 13 in the exhaust passage can be ensured.

According to the embodiments shown in Figs. 4A and 4B, the wedge-shaped unit may be divided into a plurality of wedge-shaped modules 23. The wedge-shaped modules 23 are preferably of an odd number, for example 3, 5, 7, 9, 11, 13, 15 or 17, and evenly spaced around the circumference of the exhaust gas purifying unit 13 shown schematically in Fig. 4A as a broken line. The wedge-shaped modules 23 are according to an embodiment of the same size. In this way it is possible to ensure a centered fixed mounting of the exhaust gas cleaning unit 13. The wedge-shaped modules 23 in Fig. 4A and Fig. 4B also have the substantially triangular cross-sections. According to the embodiment shown in Fig. 4B, the arrangement 14 comprises an annular element 24 which is adapted to the circumference of the outer wall surface 20 of the exhaust gas cleaning unit 13. On the annular element 24 the wedge-shaped modules 23 can then be attached, in order to obtain a predetermined placement of the modules 23. 536 756 The wedge-shaped unit 15 may be made of an at least partially compressible material. The wedge-shaped unit 15 can, for example, be built up of a support structure in the form of a net of steel wire which is filled with graphite.

The compressible material can instead consist of a non-metallic material or plastic material that can withstand high temperatures, or alternatively a ceramic material.

This ensures that the space between the exhaust gas cleaning unit 13 and the wall surface 17 is securely sealed. The compressible material can also provide increased friction between the surfaces 17, 19, 20, 21, which is advantageous as the exhaust gas cleaning unit 13 is then better held on place with an increased holding force. According to another embodiment illustrated in Figs. 5, at least one of the first 19 and second 21 sides of the wedge-shaped unit comprises an at least partially toothed surface, which provides an increased holding force. Both the first 19 and the second 21 sides can thus each comprise a partially toothed surface 25. The described embodiments can also be combined, so that the wedge-shaped unit 15 is made of a compressible material with one or more at least partially toothed first 19 and second 21 pages. In this way, additional holding force can be ensured. The wedge-shaped unit 15 is according to a design made of a non-metallic material, for example graphite or heat-resistant plastic, or another ceramic material.

The material must withstand temperatures up to about 600 °. However, metallic materials are also conceivable.

The invention also relates to an exhaust aftertreatment system 10 comprising an exhaust passage 12 having at least one exhaust purifying unit 13 mounted in the exhaust passage 12 with an arrangement 14 according to any of the embodiments described herein. According to one embodiment, the wall surface 17 delimiting the exhaust passage 12 has an angle ß which is adapted to an angle d of the wedge-shaped unit 15. The delimiting wall surface 17 of the exhaust passage 12 can thus be constituted by the inside of a conical tube 11 having its largest diameter at the opening of the exhaust passage. to then taper to a smaller diameter further into the exhaust passage 12. The wedge-shaped unit 15 is then inserted into the space between the conical tube 11 and the exhaust gas cleaning unit 13 with its smallest surface first, and then the wedge-shaped unit 15 is inserted into the space so 536 756 the space decreases due to the increasing size of the wedge-shaped unit 15 and the decreasing diameter of the conical tube 11. After sufficient pressing of the wedge-shaped unit 15, the exhaust gas cleaning unit 13 is fixed in the exhaust passage 12. According to another embodiment shown in Fig. 6, the wall surface 17 comprises a bulge 27 inwards of the center of the exhaust passage 12 which is adapted to match the wedge-shaped unit 15 when pressed. . When the wedge-shaped unit 15 is introduced into the space, the exhaust gas cleaning unit 13 is pressed firmly against the wedge-shaped unit 15 when it in turn is pressed against the indentation 27. The indentation 27 may be a circular indentation around the entire circumference of the wall surface 17, or be a plurality of individual indentations 27. which matches a plurality of wedge-shaped modules 23.

The present invention is not limited to the embodiments described above. Various alternatives, modifications and equivalents can be used.

Therefore, the above-mentioned embodiments do not limit the scope of the invention, which is defined by the appended claims.

Claims (11)

10 15 20 25 30 536 756 Patent claims An arrangement (14) for mounting an exhaust gas cleaning unit (13) in an exhaust passage (12), the arrangement (14) comprising a wedge-shaped unit (15) adapted to be mounted between the exhaust gas cleaning unit (13) and a wall surface (17). ) defining the exhaust passage (12) to keep the exhaust purifying unit (13) in a fixed condition in the exhaust passage (12), the wedge-shaped unit (15) is further formed to have a first surface (19) adapted to be at least partially in contact with an outer wall surface (20) of the exhaust gas purifying unit (13) in said fixed condition, and a second surface (21) adapted to be at least partially in contact with the wall surface (17) defining the exhaust passage (12) in said fixed condition, wherein the exhaust gas cleaning unit (13) is held in place in the fixed condition by friction between at least some of said surfaces (17, 19, 20, 21) characterized in that the exhaust gas cleaning unit (13) is releasably mounted in the fixed condition. , that the wedge-shaped unit n (15) is adapted to form a seal for fluid between the exhaust gas purifying unit (13) and the wall surface (17) delimiting the exhaust passage (12) and that at least one of the first (19) and second (21) sides of the wedge-shaped unit comprises a at least partially toothed surface. Arrangement according to claim 1, wherein the wedge-shaped unit (15) is designed as a cone-shaped tube (11). The arrangement of claim 1, wherein the wedge-shaped unit (15) is divided into a plurality of wedge-shaped modules (23). An arrangement according to any one of the preceding claims, wherein said wedge-shaped unit (15) is made of an at least partially compressible material. An arrangement according to any one of the preceding claims, wherein said wedge-shaped unit (15) has a substantially triangular cross-section in which the first (19) and the second (21) surface form an acute angle d. 10 10 15 20 25 536 756 An arrangement according to claim 5, wherein said wedge-shaped unit (15) has the shape of a right-angled triangle, in which the hypotenuse is constituted by the second surface (21). An arrangement according to any one of the preceding claims, wherein said wedge-shaped unit (15) has an angle α which is adapted to an angle β on the wall surface (17) delimiting the exhaust passage (12). An arrangement according to any one of the preceding claims, wherein said exhaust gas purifying unit (13) is a catalyst (13). An arrangement according to any one of the preceding claims, wherein said exhaust gas purifying unit (13) is mounted in an exhaust passage (12) in an exhaust muffler (4). Exhaust after-treatment system comprising an exhaust passage (12) with at least one exhaust purifying unit (13) mounted in the exhaust passage (12) with an arrangement (14) according to any one of claims 1 to 9. Exhaust after-treatment system according to claim 10, wherein the wall surface (17) delimiting the exhaust passage (12) has an angle ß which is adapted to an angle α of the wedge-shaped unit (15). 11