JP3130587B2 - Honeycomb filter of exhaust gas purification device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a honeycomb filter for a device for purifying exhaust gas of an internal combustion engine.

[0002]

2. Description of the Related Art In recent years, a honeycomb filter for an exhaust gas purifying device manufactured from a porous sintered body has been proposed. In this type of honeycomb filter, a plurality of cells are formed so as to open on the gas inflow side and the gas outflow side, respectively, and have a structure in which exhaust gas is purified when passing through inner walls between the cells. Such a cell has, for example, a hollow portion having a quadrangular cross section or a regular triangular cross section, and the cross sectional areas of the hollow portions are formed substantially the same on the gas inflow side and the gas outflow side. Further, the opening ratios of the filter on the gas inflow side and the gas outflow side are both about 30 to 43%.

[0003]

In such a conventional filter, when the amount of soot collected on the inner wall of the cell reaches a certain amount, the soot is burned and the filter is regenerated to its original state.
However, when the size of the entire filter is increased in order to secure a required filtering capacity, that is, a specific surface area of the inner wall of the cell, the risk of cracks occurring in the filter when burning soot increases.
In other words, when the size of the filter is increased, a temperature difference is likely to occur between the parts of the filter during combustion, whereby the stress acting on the filter increases, and the probability of occurrence of cracks increases. Therefore, in order to avoid the occurrence of cracks, it is necessary to ensure a required filtration capacity without increasing the size of the filter.

[0004] For example, in another conventional filter disclosed in Japanese Unexamined Utility Model Publication No. 58-92409, that the shape of the cells on the gas inlet side to the hexagonal cross section, the shape of the cells of the outflow side in a triangular cross section Thus, the opening ratio on the inflow side is set to be larger than the opening ratio on the outflow side, thereby avoiding an increase in size while securing a required filtering capacity.

However, Japanese Utility Model Application Laid-Open No. 58-92409
In the honeycomb filter disclosed in the publication , the cell pitch on the inflow side is relatively small, such as about 1.0 to 2.5 mm, so that the pressure loss when gas passes through the filter cannot be sufficiently reduced. For this reason, the filter is not practical, and further improvement for reducing pressure loss has been desired.

The present inventors have conducted various studies on a suitable combination of the opening ratio on the exhaust gas inflow side and the outflow side and the cell pitch on the inflow side. As a result, the opening ratio of the honeycomb filter on the exhaust gas inflow side was found. Is 60 to 70%, the opening ratio on the outflow side is set to 20 to 30%, and the cell pitch of each cell opened on the inflow side is 2.5 to 5.0 mm.
It was found that the pressure loss can be reduced more than before by setting to, and the present invention was completed based on the knowledge.

[0007]

According to the present invention, there is provided a plurality of cells disposed in a casing communicating with an exhaust side of an internal combustion engine and extending in an axial direction, and each cell has at least an exhaust gas inflow. Filter which is opened on one of the side and the exhaust gas outlet side and purifies exhaust gas of the internal combustion engine by the inner wall of each cell, the honeycomb filter has a specific surface area of 1.7 to 2.3.
formed in cm ² / g porous silicon carbide sintered body, when the exhaust gas inlet side of the opening ratio of the honeycomb filter is 60% to 70%, it sets the opening ratio of the outlet-side to 20-30%, the inflow The cell pitch of each cell opened on the side is 2.5 to 5.0.
It is set to mm.

When the specific surface area, the opening ratio on the gas inflow side and the outflow side, and the cell pitch are within the above-mentioned set ranges, the pressure loss when the exhaust gas passes through the filter is low, and the exhaust gas flows into the cell. Can be easily introduced.
In addition, the entire filter can be reduced to a size smaller than half of the conventional size while maintaining a predetermined filtration capacity (specific surface area of the inner wall of the cell). Therefore, the rate of occurrence of cracks is reliably reduced, the filter can be used for a long time, and the whole system can be made compact.

In the above filter, when the opening ratio on the exhaust gas inflow side is less than 60% or when the opening ratio on the outflow side is 2%.
If it is less than 0%, the gas passage resistance at the time of inflow and at the time of outflow becomes large. Further, since the inner wall of the cell becomes thicker, the pressure decreases when the gas passes through the inner wall.

On the other hand, when the opening ratio on the exhaust gas inflow side exceeds 70% or when the opening ratio on the outflow side exceeds 30%, the resistance when passing through the filter decreases, but
As the thickness of the inner wall of the cell decreases, the strength of the filter decreases.

The cell pitch of the cell on the inflow side is 2.
If it is less than 5 mm, the pressure loss increases, and the practicability decreases. On the other hand, if the cell pitch exceeds 5.0 mm, the soot collection rate deteriorates, so that the practicality also decreases.

Each of the cells opened on the inflow side preferably has an inner wall thickness of 0.15 to 0.5 mm and a pore diameter of 1 to 50 μm. If the thickness of the inner wall is less than 0.15 mm, it becomes very difficult to manufacture a filter.
If it exceeds 5 mm, a predetermined filtration area cannot be secured in the filter, and the practicality is inferior. Further, when the pore diameter is less than 1 μm, the pressure loss increases, and
If it exceeds μm, the soot collection rate deteriorates.

It is preferable that each cell opened on the exhaust gas inflow side has a hollow portion having a hexagonal cross section, and each cell opened on the exhaust gas outflow side has a hollow portion having a triangular cross section. The reason why the hollow portion of each cell is formed in the above-described shape is that the filters can be further compacted by efficiently arranging the cells, and the filter can have sufficient strength.

Further, in such a filter, it is preferable that the specific surface area of the filter is in the range of 1.7 to 2.3 cm ² / g. If the specific surface area of the filter is less than 1.7 cm ² / g, the filter cannot have a predetermined filtering ability. On the other hand, if it exceeds 2.3 cm ² / g, the pressure loss at the time of inflow can be reduced and the filtration ability can be improved, but on the other hand, the entire filter becomes large and cracks easily occur.

[0015]

Examples and Comparative Examples Examples of the present invention will be described below in detail with reference to the drawings.

As shown in FIG. 1, the exhaust gas purifying apparatus 1 includes a casing 2 made of a metal pipe.
Is connected to an exhaust pipe Ea of the internal combustion engine E. In the casing 2, a honeycomb filter 3 for purifying exhaust gas emitted from the internal combustion engine E is provided. Further, a burner 4 for regeneration processing is mounted in the exhaust pipe Ea.

As shown in FIGS. 2 to 4, the honeycomb filter 3 has a columnar shape (having a length of 130 mm and a diameter of 140 mm).
mm), and is formed in a honeycomb shape by a porous sintered body such as a silicon carbide sintered body. A plurality of hollow portions 5a and 5b are formed in the axial direction of the honeycomb filter 3. A sealing piece 6 made of a porous sintered body is disposed at one end of each of the hollow portions 5a and 5b on the exhaust gas inflow side and the outflow side. The sealing pieces 6 form cells 7a and 7b that open to either the inflow side or the outflow side. Therefore, the exhaust gas introduced into the cell 7a opening on the inflow side is discharged to the adjacent cell 7b opening on the outflow side via the inner wall 8 located between the cells 7a and 7b. At this time, only the soot is trapped on the inner wall 8 of the cell 7a that opens to the inflow side, so that the exhaust gas is purified.

Next, the regeneration processing in the honeycomb filter 3 as described above will be described. Honeycomb filter 3
When a predetermined amount of soot is trapped in the honeycomb filter 3, the burner 4 is ignited, and the heating of the honeycomb filter 3 is started. And
The soot in the honeycomb filter 3 is burned, and the filter 3 is regenerated to its original state.

Here, the structure of the honeycomb filter 3 of the present embodiment will be described in detail with reference to FIGS.
As shown in FIG. 2, the hollow portion 5a of each cell 7a opened on the exhaust gas inflow side is formed in a regular hexagonal cross section with a side of about 1.7 mm, and the opening ratio ((hollow) on the exhaust gas inflow side) The total sectional area / filter sectional area) × 100 (%)) is 68%. On the other hand, as shown in FIG. 3, the hollow portion 5b of each cell 7b opened on the exhaust gas outflow side has a side of about 1.45 mm.
Is formed in an equilateral triangular cross section, and the outflow side aperture ratio is 30%.
It is. Therefore, the opening ratio on the exhaust gas inflow side is larger than the opening ratio on the outflow side, and the specific surface area of the filter at this time, that is, the total area of the inner wall 8 per unit weight is about 2.0 cm ² / g.
It is.

Further, Serupi' Ji of each cell 7a which opens at the honeycomb filter 3, the inflow side of the present embodiment is set to 3 mm. The thickness of the inner wall 8 between the cells 7a and 7b is set to 0.2 mm, and the pore diameter is set to 15 μm.

Using the honeycomb filter 3 formed as described above in the exhaust gas purifying apparatus 1 for a diesel engine, 10 g of soot was collected, and the above-mentioned regeneration treatment was repeated. The pressure loss before and after soot collection (mma
q) was measured. Further, the material, the shape, and the size (130 mm × 140 mm) of the filter 3 of this embodiment are the same, and the cell pitch of the cells 7 a on the inflow side is 2.4 mm, 5.1.
Comparative Example 1 and Comparative Example 2
And Table 1 shows the results of a comparative study of these.

[0022]

[Table 1]

As apparent from Table 1 above, in the honeycomb filters of Examples and Comparative Examples 1 and 2, the difference from the pressure loss before soot collection was 50 mmaq, 110 mmaq, and 110 mmaq, respectively.
The exhaust gas pressure was 130 mmaq, and a large decrease in the exhaust gas pressure as in Comparative Examples 1 and 2 was not observed in the examples.

[0024]

As described above in detail, according to the honeycomb filter of the exhaust gas purifying apparatus of the present invention, it is possible to reduce the size of the entire filter while securing the required filtration performance without increasing the pressure loss. be able to. Therefore, an excellent effect that the rate of occurrence of cracks is reduced and the device can be used for a long time is exhibited.

[Brief description of the drawings]

FIG. 1 is a partial front sectional view showing a mounted state of a honeycomb filter according to an embodiment of the present invention.

FIG. 2 is an enlarged left side view of the honeycomb filter of FIG.

FIG. 3 is an enlarged right side view of the honeycomb filter of FIG.

FIG. 4 is a side view of the honeycomb filter of FIG. 2 taken along line AA.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Exhaust gas purification device, 2 casing, 3 honeycomb filters, 5a, 5b hollow part, 7a, 7b cell, 8
Inner wall, E internal combustion engine.

Continuation of the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) B01D 46/00 302 B01J 35/04 301 F01N 3/02 301

Claims (3)

(57) [Claims] 1. A plurality of cells (7a, 7b) arranged in a casing (2) communicating with the exhaust side of an internal combustion engine (E) and extending in the axial direction.
b) is opened on at least one of the exhaust gas inflow side and the exhaust gas outflow side, and each cell (7a,
7b) The honeycomb filter (3) for purifying exhaust gas of the internal combustion engine (E) by the inner wall (8) of the honeycomb filter (3) has a specific surface area of 1.7 to 2.0.
The honeycomb filter (3) is formed of a 3 cm ² / g porous silicon carbide sintered body, and the opening ratio of the honeycomb filter (3) on the exhaust gas inflow side is 60 to
The exhaust system is characterized in that when 70%, the opening ratio on the outflow side is set to 20 to 30%, and the cell pitch of each cell (7a) opening on the inflow side is set to 2.5 to 5.0 mm. Honeycomb filter for gas purification equipment. 2. Each cell (7a) opened on the inflow side.
Has an inner wall (8) with a thickness of 0.15 to 0.5 mm and a pore diameter of 1
The honeycomb filter of the exhaust gas purifying apparatus according to claim 1, wherein the thickness of the honeycomb filter is from 50 to 50 m. 3. Each cell (7a) opening on the exhaust gas inflow side has a hollow portion (5a) having a hexagonal cross section, and each cell (7b) opening on the exhaust gas outflow side has a triangular cross section. The honeycomb filter for an exhaust gas purifying apparatus according to claim 1 or 2, further comprising a hollow portion (5b).