1. Field of the Invention
The present invention relates to a manufacturing apparatus of a plugged honeycomb structure for forming plugging portions at opening ends of cells of a honeycomb structure, and a manufacturing method of the same.
2. Description of the Related Art
There is an increasing need to remove, from an exhaust gas, fine particles and harmful substances included in the exhaust gas from an internal combustion engine, a boiler or the like, in consideration of an influence on the environment. In particular, a regulation on the removal of the fine particles (hereinafter sometimes referred to as the particulate matter (PM)) exhausted from a diesel engine tends to be strengthened in Europe, the United States and Japan, and a honeycomb structure is used in a collecting filter for removing the PM.
Examples of the filter used for such a purpose include a honeycomb filter using a plugged honeycomb structure in which a plurality of cells constituting flow paths of a fluid is partitioned by partition walls. The structure includes plugging portions which alternately plug one opening end and the other opening end of the plurality of cells. According to such a honeycomb filter, when an exhaust gas G1 is allowed to flow into the cells from the end face of the filter on an exhaust gas inflow side and the exhaust gas G1 passes through the partition walls, particulates in the exhaust gas are collected by the partition walls, so that it is possible to discharge a purified gas G2 from which the particulates have been removed, from the end face of the filter on a purified gas outflow side.
Moreover, as a manufacturing method of the above plugged honeycomb structure, there is suggested, for example, a method including the steps of attaching an adhesive sheet or the like to one end face of a honeycomb structure (an unfired dried ceramic article); making holes only in portions of the adhesive sheet or the like corresponding to the cells to be plugged (plugged cells) by laser processing or the like using image processing to form a mask; immersing, into a slurry (a ceramic slurry), the end face of the honeycomb structure to which the mask has been attached; filling the slurry into the plugged cells of the honeycomb structure to form the plugging portions; subjecting the other end face of the honeycomb structure to a step similar to the above step; and performing drying and firing to obtain the plugged honeycomb structure (e.g., see JP-A-2001-300922).
However, according to the above method of making the holes in the adhesive sheet and immersing, into the slurry, the honeycomb structure provided with this adhesive sheet as the mask, an operation time is required for leveling the slurry for the immersion, which is a factor for cost increase. Moreover, the leveling is a very delicate step, the outer peripheral portion of the structure thickens or thins owing to even slight deviation, and it is therefore difficult to obtain a uniform plugging depth. A leveling precision agrees with a depth precision, and hence much labor and time are necessary for the leveling step. Moreover, the film needs to be bent so that the immersed end is not made dirty, but it is not easy to appropriately bend the film. Moreover, it is not easy to peel the bent film attached to the side surface of the structure after the plugging, which disturbs automation.
An object of the present invention is to provide a manufacturing apparatus of a plugged honeycomb structure capable of shortening a manufacturing time to decrease a manufacturing cost, and a manufacturing method of the plugged honeycomb structure.
To achieve the above object, the present inventors have found that when inserting the end face of a honeycomb structure covered with a film into a table portion having a through hole so that the end face appears on the side of the first face of the table portion, holding the film on the side of the second face of the table portion on an opposite side to bring the film into close contact with the end face, and forming holes in the film, a plugging material can be filled into cells of the honeycomb structure. That is, according to the present invention, the following manufacturing apparatus of a plugged honeycomb structure, and the manufacturing method of the plugged honeycomb structure can be provided.
[1] A manufacturing apparatus of a plugged honeycomb structure, comprising: a table portion having a through hole into which the end of a honeycomb structure is inserted, the honeycomb structure having porous partition walls and a plurality of cells partitioned by the partition walls to extend through the honeycomb structure from one end face of the honeycomb structure to the other end face thereof; positioning means for moving the table portion or the honeycomb structure to position and hold the honeycomb structure in the through hole of the table portion so that the end face of the honeycomb structure covered with a film appears on the side of the first face of the table portion; and a film holding portion which fixes the remaining portion of the film covering the end face of the honeycomb structure on the side of the second face of the table portion to constitute the film as a mask.
[2] The manufacturing apparatus of the plugged honeycomb structure according to the above [1], further comprising: plugging material supply means for supplying a plugging material having fluidity onto the mask provided with holes or onto the table portion; and filling means for filling the plugging material supplied onto the mask or the table portion into the cells.
[3] The manufacturing apparatus of the plugged honeycomb structure according to the above [1] or [2], further comprising: hole making means for forming holes corresponding to openings of a part of the cells in the film covering the end face of the honeycomb structure.
[4] The manufacturing apparatus of the plugged. honeycomb structure according to any one of the above [1] to [3], wherein the diameter of the through hole of the table portion on the side of the second face is larger than that on the side of the first face.
[5] The manufacturing apparatus of the plugged honeycomb structure according to the above [4], wherein the through hole of the table portion is formed into a tapered manner so that the diameter of the through hole on the side of the second face is larger than that on the side of the first face.
[6] The manufacturing apparatus of the plugged honeycomb structure according to the above [4], wherein the through hole of the table portion is formed into a stepped manner to have a stepped portion so that the diameter of the through hole on the side of the second face is larger than that on the side of the first face.
[7] The manufacturing apparatus of the plugged honeycomb structure according to any one of the above [1] to [6], wherein a height from the first face of the table portion to the tip face of the film holding portion on the side of the first face in a thickness direction is in a range of 0 to 20 mm.
[8] The manufacturing apparatus of the plugged honeycomb structure according to any one of the above [1] to [7], wherein the film holding portion on an inner diameter side to position the honeycomb structure is provided with a protruding portion which protrudes on the side of the table portion.
[9] The manufacturing apparatus of the plugged honeycomb structure according to any one of the above [1] to [8], wherein the film holding portion is formed into a shape matched with the second face of the table portion, and the film is sandwiched and fixed between the film holding portion and the second face.
[10] The manufacturing apparatus of the plugged honeycomb structure according to any one of the above [1] to [9], wherein the positioning means positions the honeycomb structure at a first position where the end of the honeycomb structure is inserted into the through hole of the table portion, and positions the honeycomb structure at a second position where the honeycomb structure is relatively moved to the side of the first face so that the film fixed on the side of the second face of the table portion is brought into close contact with the end face of the honeycomb structure.
[11] A manufacturing method of a plugged honeycomb structure to plug cells of a honeycomb structure having porous partition walls and a plurality of cells partitioned by the partition walls to extend through the honeycomb structure from one end face of the honeycomb structure to the other end face thereof, the method comprising the steps of: inserting the end of the honeycomb structure into a through hole of a table portion having the through hole to position the honeycomb structure so that the end face of the honeycomb structure covered with a film appears on the side of the first face of the table portion; fixing the remaining portion of the film which does not cover the end face on the side of the second face of the table portion to hold the film, and constituting the film provided with holes corresponding to openings of a part of the cells as a mask or making holes in the film to constitute the film as the mask; supplying a plugging material having fluidity onto the mask or the same plane as the mask; and filling the plugging material into the cells of the honeycomb structure.
[12] The manufacturing method of the plugged honeycomb structure according to the above [11], further comprising the steps of: sandwiching the film between the second face of the table portion and a movable film holding portion to fix the film on the side of the second face of the table portion.
[13] The manufacturing method of the plugged honeycomb structure according to the above [11] or [12], further comprising the steps of: fixing the film on the side of the second face of the table portion; and relatively moving the honeycomb structure to the side of the first face to bring the film into close contact with the end face of the honeycomb structure.
The positioning means can position the honeycomb structure and the table portion while the end of the honeycomb structure is inserted into the through hole of the table portion. Moreover, the film holding portion can fix the remaining portion of the film covering the end face of the honeycomb structure on the side of the second face of the table portion. In consequence, the plugging material can be filled through the film holes into the cells of the honeycomb structure, to manufacture the plugged honeycomb structure. The cells can be plugged without folding the film, and hence the film can easily be peeled later. This step can be automated. Moreover, the shape of the through hole of the table portion or the protruding portion of the film holding portion is contrived and provided with a tapered portion or the like, whereby the amount of the plugging material for use can be decreased as compared with a conventional technology. Therefore, the use ratio of the plugging material can be improved, and the number of replenishing times of the plugging material into the apparatus can be decreased. Furthermore, since the plugging material can be supplied onto the film, the plugging material hardly leaks to the apparatus or the like, and dirt on the apparatus or the like can be prevented. Plugging fluctuations are not easily generated, the generation of defective products is decreased, and the ratio of satisfactory products can be increased.
1: honeycomb structure, 2: partition wall, 3: cell, 8: end face, 10: manufacturing apparatus, 11: table portion, 11a: first face, 11b: second face, 11h: through hole, 11s: tapered face, 12: support base, 13: film holding portion, 13a: tip face, 13h: through hole, 13s: tapered face, 13t: protruding portion, 14: guide portion, 15: imaging apparatus, 16: laser, 23: plugging material supply apparatus, 24: filling apparatus, 24s: pressurizing face, 25: film, 31: plugging material, and 32: plugging portion.
Hereinafter, embodiments of the present invention will be described with reference to the drawings. The present invention is not limited to the following embodiments, and can be changed, modified or improved without departing from the scope of the present invention.
The table portion 11 is formed into a plate-like shape, and is provided with the through hole 11h for inserting the honeycomb structure 1. The diameter of the through hole 11h on the side of the second face 11b is larger than that on the side of the first face 11a. Specifically, as shown in
As the positioning means, in the embodiment shown in
The film holding portion 13 is provided with a protruding portion 13t and formed into a shape matched with the second face 11b (the lower surface) of the table portion 11. The film holding portion is vertically movable, and has a function of sandwiching the remaining portion of the film 25 covering the end face 8 of the honeycomb structure 1 positioned on the table portion 11 between the film holding portion and the second face 11b of the table portion 11, whereby the film 25 is brought into close contact with and fixed to the end face 8 of the honeycomb structure 1. Specifically, as shown in
While the film 25 is sandwiched between the table portion 11 and the film holding portion 13, a height from a tip face 13a of the film holding portion 13 on the side of the first face 11a in a thickness direction to the first face 11a of the table portion 11 (see
On the other hand, as shown in
A horizontal clearance (see
The material of at least one of the faces of the film holding portion 13 and the table portion 11 for sandwiching the film 25 is preferably urethane having a hardness of 60 to 90° (JIS K 6253 (Durometer Type A)). Moreover, the corresponding resin may be used. In a case where the film holding portion 13 or the table portion 11 is made of a metal, urethane or the like may be attached to the face of the portion which comes in contact with the film 25. When the material having this hardness is used, the film 25 can be fixed without any gap, and the sufficient pressure can be applied. When the hardness is 90° or more or the portions are both made of the metal, the film 25 breaks down or partially contacts, and cannot sufficiently be fixed. When the hardness is 60° or less, a deformation amount is excessively large, a holding force comes short, and hence any sufficient pressure cannot be applied.
The film 25 has a thickness of preferably 15 to 100 μm. In this range, the pressure can sufficiently be applied to the plugging material when filled. When the thickness is larger than 100 μm, the film to be fixed creases owing to the shortage of flexibility, and the plugging material 31 leaks. When the thickness is smaller than 15 μm, any sufficient pressure cannot be applied owing to the shortage of strength.
Next, another embodiment of the shapes of the table portion 11 and the film holding portion 13 will be described. As shown in
Moreover, as shown in
The manufacturing apparatus 10 of the plugged honeycomb structure of the present invention may include plugging material supply means for supplying the plugging material 31 having the fluidity onto the mask provided with holes or the table portion 11; and filling means for filling the plugging material 31 supplied onto the mask or the table portion 11 into the cells 3. According to such a constitution, a manufacturing line can be automated.
As the plugging material supply means, the manufacturing apparatus includes a plugging material supply apparatus 23 which supplies the plugging material 31 having the fluidity onto the mask or the table portion 11 (see
As the filling means, the manufacturing apparatus includes a filling apparatus 24 having a pressurizing face 24s which is arranged at an acute angle with respect to the surface of the mask to pressurize the plugging material 31, whereby the plugging material 31 is filled into the cells 3 through mask holes, while the filling apparatus moves on the table portion 11 or the mask (see
Furthermore, the manufacturing apparatus 10 of the plugged honeycomb structure includes hole making means for forming holes corresponding openings of a part of the cells 3 in the film 25 covering the end face 8 of the honeycomb structure 1 to constitute the film 25 as the mask. It is to be noted that the hole making means is not disposed in the manufacturing apparatus 10 but the holes may be made in another manufacturing line.
As the hole making means, the manufacturing apparatus includes an imaging apparatus 15 for picking up the image of the end face 8 of the honeycomb structure 1, and a laser 16 for forming the holes in the film based on image data picked up the imaging apparatus 15 (see
As shown in, for example,
Moreover, a binder, an organic pore former, a surfactant, water and the like are added to the above raw material to prepare a kneaded clay having plasticity, and the clay is, for example, extrusion-formed into the columnar honeycomb structure 1 having a large number of cells 3 partitioned by the partition walls 2 to extend through the honeycomb structure in an axial direction.
Next, a manufacturing method of the plugged honeycomb structure by use of the manufacturing apparatus 10 of the plugged honeycomb structure of the present invention will be described with reference to
Next, as shown in
Then, the film holding portion 13 is raised to sandwich and fix the film between the film holding portion 13 and the table portion 11 (a step 5). That is, the remaining portion of the film 25 which does not cover the end face 8 is fixed on the side of the second face 11b of the table portion 11, whereby the film 25 is brought into close contact with and held by the end face 8 of the honeycomb structure 1. More specifically, the film 25 is sandwiched between the second face 11b of the table portion 11 and the movable film holding portion 13.
It is to be noted that in the steps 4 and 5, after raising the honeycomb structure 1 (the support base 12), the film holding portion 13 may be raised, but the honeycomb structure 1 (the support base 12) is more preferably raised simultaneously with the film holding portion 13. When the support base 12 is raised to insert the honeycomb structure 1 into the through hole 11h of the table portion 11, the film 25 is deformed. When the film holding portion 13 is raised later, the end of the film 25 cannot correctly be caught sometimes.
After fixing the film 25 on the side of the second face 11b of the table portion 11, as shown in
Moreover, the plugging material 31 having the fluidity is supplied onto the mask or the same plane as the mask, and then the plugging material 31 is filled into the cells 3 of the honeycomb structure 1. Specifically, as shown in
Next, the plugging material 31 supplied onto the mask or the table portion 11 is filled into the cells 3 by the filling apparatus 24 as the filling means (a step 8). An enlarged diagram is shown in
Another embodiment of the film holding portion will be described with reference to
Hereinafter, the present invention will be described in more detail based on examples, but the present invention is not limited to these examples.
A ceramic material as a main raw material selected from the group consisting of cordierite, mullite, alumina, silicon carbide and a combination of them was blended with water and a binder, dispersed, mixed and kneaded to obtain a formed material. The material was extruded into a columnar shape by a clay kneader, and extrusion-formed by an extrusion forming machine to obtain a honeycomb structure having a cell dimension of 2 mm×2 mm and a pitch of 3 mm.
Next, a plurality of cells of both end faces of the resultant honeycomb structure were alternately plugged by use of a manufacturing apparatus having a film holding portion 13 described above with reference to
When the filling was performed on the above conditions, the average value of the depths of the plugging portions 32 was 4.2 mm, and a depth fluctuation σ at that time could be suppressed to a low value of 0.32 mm.
The manufacturing apparatus and manufacturing method of the honeycomb structure according to the present invention can preferably be utilized as means for preparing the plugged honeycomb structure for use as a carrier for a catalyst apparatus or a filter such as a DPF.
Number | Date | Country | Kind |
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2008-080451 | Mar 2008 | JP | national |