KR100721824B1 - Honeycomb cell plugging apparatus and the method thereof - Google Patents

Abstract

The present invention relates to a plugging of a honeycomb filter, and more particularly, to an apparatus and a method for plugging a cell of a honeycomb filter to facilitate cell plugging of a honeycomb filter and to improve a plugging effect.

Cell plugging device of the honeycomb filter of the present invention for achieving the above object,

A mask having perforated holes in which the open cells of the honeycomb filter formed so as to have a honeycomb-shaped open cell in cross section by the filter member; And a seal material pressed into the open cell through the perforated hole on the mask.

Honeycomb Filter, Plugging, Mask, Sealant, Open Cell, Plugging Cell

Description

Honeycomb cell plugging apparatus and method thereof

1 is a view showing the structure of a honeycomb filter plugging effect measuring apparatus of the prior art as described above,

FIG. 2 is a view showing a cross section of a conventional plugging method and a plugged honeycomb filter,

3 is a view showing a mask and a filter of the cell plugging device of the honeycomb filter of the present invention,

Figure 4 is a flow chart showing the processing of the plugging method of the honeycomb filter of the present invention.

Description of the main symbols in the drawings

20: honeycomb filter

1: honeycomb filter cell 2: mask

3: mask hole 4: filter member

5: indentation direction 6: sealing material

7: stator 8: plugged honeycomb filter

9: open cell 10: plugging cell

11: carbon particles 12: euro

13: Collecting Carbon Particles 14: Carbon Particle Collecting Filter

30: plugging effect measuring device

The present invention relates to a plugging of a honeycomb filter, and more particularly, to an apparatus and a method for plugging a cell of a honeycomb filter to facilitate cell plugging of a honeycomb filter and to improve a plugging effect.

Particulate matter contained in the exhaust gas of diesel vehicles or thermal power plants is unburned carbon particles having an average diameter of 0.3 μm. The techniques for treating the same are methods of reducing particulate matter emissions by improving combustion performance and using fuel additives. A method of removing particulate matter in exhaust gas by using a post-treatment device such as a filtration device as exhaust gas discharged has been applied.

In the aftertreatment technology, the filter material for filtering particulate matter in the exhaust gas is the core, and the conventional structure of the filter material has a multi-channel structure in which the channels of the honeycomb structure are alternately filtered out one by one. 1 is a view showing the structure of the honeycomb filter plugging effect measuring apparatus of the prior art as described above, Figure 2 is a view showing a cross section of the plugging method and the plugged honeycomb filter of the prior art.

As shown in FIG. 1, the honeycomb filter plugging effect measuring device 30 has a tubular configuration, a honeycomb filter 20 is mounted inside, and a carbon particle collecting filter 14 is mounted on a gas exhaust side. . As shown in FIG. 2, the honeycomb filter 20 has a filter member 4 sequentially arranged and coupled to form a checkerboard honeycomb filter cell 1 at both ends, and a checkerboard honeycomb filter cell at both ends. (1) has a structure in which the open cell 9 and the plugging cell 10 are alternately plugged with a sealing material so as to intersect. That is, the conventional honeycomb filter 20 is formed by having the filter member 4 having the head plate type open cell 9, and then sealing part of the open cell 9 by press-sealing with a sealing material to seal the end portion thereof. 10) form.

As a method of forming the plugging cell 10 in the honeycomb filter 20 as described above, in Korean Patent Laid-Open Publication No. 2005-0023341, the end face of the honeycomb structure is immersed in a container in which a slurry is stored, and the structure is pressed into the inner bottom of the container. A method of plugging selected cells is presented.

In Korean Patent Laid-Open Publication No. 2005-0023341, a film is coated on an upper surface of a structure, a hole is formed at a position selected by laser drilling, and a slurry is press-fitted, and a method of removing the film through post-heat treatment is proposed. In addition, US 6627123 discloses a plugging method in which the sealing material is solidified and solidified only in the selected cell by injecting the sealing powder into the whole honeycomb cell and then heating the laser to the selected cell to generate the bonding force between the sealing powder.

However, the cell plugging method of the honeycomb filter of the prior art as described above has a problem that the honeycomb structure is likely to be damaged because the honeycomb structure is pressurized to inject a sealing material. In addition, when the heat treatment of the honeycomb structure after the heat treatment to prevent damage has a problem that increases the price of the process is added. In addition, when attaching a film and drilling with a laser, the process is complicated and additional manufacturing costs are included.

Therefore, the present invention is to solve the above-mentioned problems of the prior art, by inserting a sealing material having a limited viscosity range in a press-fit method by using a perforated mask (Mask) in a dry honeycomb structure not subjected to post-heat treatment. It is an object of the present invention to provide a device and method for plugging a honeycomb filter cell to seal a selected cell.

The honeycomb filter cell plugging apparatus of the present invention for achieving the above object comprises: a honeycomb structure in a dry state formed by a filter member to have a honeycomb-shaped open cell and not subjected to post-heat treatment; A mask having perforated holes attached to the cross section of the honeycomb structure and alternately opened to correspond to the open cells of the honeycomb filter ; And a sealant having a viscosity value measured at a shear rate of 33 sec ⁻¹ in a range of 10 to 20 poise and press-fitted into the open cell through the perforated hole on the mask.

Cell plugging method of the honeycomb filter of the present invention for achieving the above object is, of the honeycomb filter formed of a honeycomb structure in a dry state formed by the filter member so as to have a honeycomb-shaped open cell cross-section is not subjected to post-heat treatment A mask attaching step of attaching a mask having perforated holes in which open cells are alternately opened to an end of the honeycomb filter; The sealing process of the open-cell press fitting the mask seal attachment process of a shear rate of 33sec ^-1 the viscosity value of 10 to 20's and profile (poise) range measured from over the mask after the perforation through the hole and; And a sintering step of sintering in a calcination furnace after calcining after the sealing process.

In the above-described present invention, the mask is characterized in that the thickness of 2 ~ 5mm. The sealant is characterized in that the viscosity value measured at the shear rate of 33 sec ^-1 is 10 to 20 poise and the indentation depth of the sealant is 5 to 10 times the thickness of the filter member.

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings.

The sealing material used for plugging uses the raw material powder used for manufacturing the honeycomb structure, and the viscosity of the sealing material should be controlled by changing the moisture content and the binder composition. If the viscosity of the sealant is lower than 10 poise, it is difficult to be intimately attached to the cell wall, so there is no plugging effect. If the sealant viscosity is higher than 20 poise, the pressure input required to inject the sealant increases, resulting in damage to the cell wall of the honeycomb structure or intimate attachment to the cell wall. it's difficult.

The mask used for plugging filters out the cells of the honeycomb structure one by one. A honeycomb structure in which cells are alternately sealed can be obtained by injecting a sealing material through holes formed every other in the mask. 3 is a diagram illustrating a mask 2 and a honeycomb filter 20 in the cell plugging device of the honeycomb filter of the present invention.

As shown in Fig. 3, the mask is formed with a plurality of perforation holes 3 for injecting sealing material through the cells of the honeycomb filter.

The material of the mask 2 may be variously used, such as steel, stainless steel, plastic, etc., unless it is worn or corroded by the sealing material, and is not particularly limited. And it is preferable that the thickness of the mask 2 is 2-5 mm. This means that if the thickness of the mask 2 is less than 2 mm, deformation occurs during the press-fitting of the sealing material, and a plugging defect occurs. If the thickness is larger than 5 mm, the pressure input required for the sealing material increases, thereby damaging the cell wall of the honeycomb structure. There is no effect of plugging. It is also uneconomical because more than necessary seals are used.

And the shape of the perforation hole 3 formed in the mask 2 can be applied in various ways, such as circular, square, regular hexagon. However, it is preferable that the piezoelectric input has a circular shape because the honeycomb structure may be damaged. And the diameter of the perforation hole 3 formed in the mask is limited to the diagonal size of the honeycomb filter 20 cell 1. If the honeycomb filter 20 is smaller than the diagonal size of the cell 1, there is no plugging effect because there is a gap between the injected sealing material and the cell wall of the honeycomb filter. not. In addition, damage to the honeycomb structure occurs because the pressing force acts on the cell wall.

The injection depth of the sealing material is limited to 5 to 10 times the thickness of the filter member constituting the honeycomb filter. If the injection depth is less than 5 times the thickness of the filter member, the exhaust gas flows through the sealing material, and thus there is no plugging effect.

Figure 4 is a flow chart showing an embodiment of the process of the plugging method of the honeycomb filter of the present invention.

As shown in FIG. 4, first, dry mixing a raw material powder and a binder such as silicon carbide (SiC), cordierite, mullite, and the like for the present invention and then adding water to shear rate 33 sec ⁻ The viscosity value measured in ¹ produces a sealant of 10 to 20 poise (S1).

Next, a mask 3 as shown in FIG. 3 is attached to the cross section of the honeycomb filter 20 (S2).

After that, the sealing material is press-fitted into the cell of the honeycomb filter 20 on the mask so as to be 5 to 10 times the thickness of the filter member 4 of the honeycomb filter 20 (S3).

Subsequently, the mask is removed and then calcined (S4), and the honeycomb filter plugging, which sinters in a kiln and alternately forms an open cell and a plugging cell in the cross section of the honeycomb filter, is terminated (S5).

<Example>

Dry mixing raw material powders such as silicon carbide (SiC), cordierite, mullite, etc. with a binder and mixing them first with water, followed by kneader Sealant slurry was prepared by mixing. A mask was then placed on the cross section of the honeycomb filter and the sealant slurry was press-fitted from the mask top surface to plug selected cells 1 of the honeycomb structure. The plugged honeycomb filter 20 was heat-treated at 600 ° C. for 3 hours to remove moisture and binder components. The calcined honeycomb filter was heat-treated at 1500 ° C. for 1 hour in a high-temperature atmosphere baking furnace to obtain a sintered honeycomb filter as an example.

In order to compare the plugging state, the sintered honeycomb structure was installed in the honeycomb filter plugging measuring device 30 as shown in FIG. 1. Fine carbon particles (carbon black (average particle diameter: 0.3㎛)) was suspended in Ar (g) and then injected into one end of the honeycomb filter 20. The carbon collecting filter 14 was installed in the pipe through which the gas discharged to the opposite end of the honeycomb filter 20 was collected to collect the carbon particles in the exhaust gas.After the experiment, the carbon collecting filter 14 was collected to measure the weight increase amount. It was. When the plugging state is good, most of the carbon particles are collected by the honeycomb filter 20, so that almost no carbon particles are collected by the carbon collecting filter 14.

Table 1 below shows the plugging conditions and test results used in the above examples.

As shown in Table 1, in the case of Comparative Examples 1 to 9 manufactured under conditions outside the scope of the present invention, it is understood that the plugging effect is low and the collection efficiency of the carbon particles is low. On the other hand, in Examples 10 to 14 manufactured under the condition range of the present invention, the plugging effect was excellent, and the collection efficiency of the fine carbon particles in the exhaust gas was very excellent.

The present invention described above provides the effect of facilitating the manufacture of honeycomb filters by making it easy to plug the honeycomb filter cells.

In addition, the present invention described above significantly improves the collecting efficiency of the fine carbon particles present in the exhaust gas by remarkably improving the plugging effect of the honeycomb filter, and thus is applied to dust collectors and soot filtration devices used in thermal power plants and diesel vehicles. It provides the effect of significantly reducing contamination.

Claims (6)

A honeycomb structure in a dry state formed by the filter member so as to have a honeycomb-shaped open cell and not subjected to post-heat treatment; A mask having perforated holes attached to the cross section of the honeycomb structure and alternately opened to correspond to the open cells of the honeycomb filter ; Honeycomb filter, comprising: a sealant having a viscosity value measured at a shear rate of 33 sec ⁻¹ and having a range of 10 to 20 poises and press-fitted into the open cell through the perforated hole on the mask Cell plugging device. 2. The cell plugging device of a honeycomb filter according to claim 1, wherein the mask has a thickness of 2 to 5 mm. delete The honeycomb filter has a mask having perforated holes in which the open cell of the honeycomb filter , which is formed by the filter member so as to have a honeycomb-shaped open cell and which is not subjected to post-heat treatment, is alternately opened. A mask attaching process attached to the end; The sealing process of the open-cell press fitting the mask seal attachment process of a shear rate of 33sec ^-1 the viscosity value of 10 to 20's and profile (poise) range measured from over the mask after the perforation through the hole and; And a sintering step of sintering in a sintering furnace after calcining after the sealing process. The method of claim 4, wherein the mask has a thickness of 2 ~ 5mm cell plugging method of the honeycomb filter. The method of claim 4, wherein the indentation depth of the sealing material in the sealing process is 5 to 10 times the thickness of the filter member , characterized in that the cell plugging method of the honeycomb filter.

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