Patent Publication Number: US-7722791-B2

Title: Method for manufacturing honeycomb structure and manufacturing apparatus thereof

Description:
BACKGROUND OF THE INVENTION AND RELATED ART STATEMENT 
   The present invention relates to a method for manufacturing a honeycomb structure having plugging portions formed in at least a part of the opening end portions of the cells of the honeycomb structure, and it also relates to a manufacturing apparatus of the structure. 
   A requirement for removing particulate matter and toxic substances contained in exhaust gas discharged from internal combustion engines, boilers and the like has grown in light of influence on environment. In particular, regulations on removal of particulate matter (hereinafter sometimes referred to as particulate matter (PM)) discharged from diesel engines tend to be strengthen in Europe and the United States as well as Japan, and a honeycomb structure is used in a trapping filter for removing the PM. 
   Examples of the filter used for such a purpose include a honeycomb filter utilizing a plugged honeycomb structure including a honeycomb structure in which a plurality of cells constituting fluid passages are partitioned and formed by porous partition walls by the partition walls and plugging portions which alternately plug one opening end and the other opening end of each of the cells. According to such a honeycomb filter, an exhaust gas G 1  is allowed to flow into cells from the exhaust gas inflow side end face of the filter, whereby particulates contained in the exhaust gas are trapped by the partition walls when the exhaust gas G 1  passes through the partition walls. In consequence, a purified gas G 2  from which the particulates have been removed can be discharged from the purified gas outflow side end face of the filter. 
   Moreover, as a method for manufacturing the above-mentioned plugged honeycomb structure, for example, there is proposed a method which includes the steps of attaching an adhesive sheet or the like to one end face of a honeycomb structure (a non-fired dried ceramic body); making holes in only the portions corresponding to the cells to be plugged (plugged cells) in the adhesive sheet or the like by laser processing or the like using image processing to form a mask; immersing, in slurry (ceramic slurry), the end face of the honeycomb structure to which the mask is attached to fill the slurry into the cells to be plugged, thereby forming plugging portions; subjecting the other end face of the honeycomb structure to the same steps; and drying and firing the honeycomb structure to obtain the plugged honeycomb structure (e.g., see Patent Document 1). 
   [Patent Document 1] JP-A-2001-300922 
   However, according to the method of making the holes in the adhesive sheet and immersing, in slurry, the honeycomb structure provided with this adhesive sheet as the mask as described above, operation time is required for leveling the slurry in which the structure is to be immersed, and this is a factor for cost increase. Moreover, the leveling is very delicate, and an outer peripheral portion becomes thick or thin owing to slight displacement, so that it is difficult to obtain a uniform plugging depth. A leveling accuracy matches a depth accuracy, so that considerable amounts of labor and time are required for the leveling step. In particular, when a large-sized honeycomb structure is subjected to plugging in the same manner, it is more difficult. Moreover, a film attached to the structure needs to be folded in a large amount so that a side face portion of the immersed honeycomb structure is not made dirty, but it is not easy to appropriately fold the film. In addition, peeling off requires great care. 
   SUMMARY OF THE INVENTION 
   An object of the present invention is to provide a method for manufacturing a honeycomb structure having plugging portions, which is capable of shortening manufacturing time to decrease manufacturing cost regardless of the size of the honeycomb structure, and a manufacturing apparatus of the honeycomb structure having plugging portions. In addition, another object of the present invention is to provide method for manufacturing a high-performance honeycomb structure having a plugged portion, which hardly causes change in local pressure loss by realizing a uniform plugging depth and a manufacturing apparatus of the honeycomb structure. 
   It has been found that the above object can be achieved by applying a mask on a honeycomb structure and moving a pressurizing member disposed on the surface of the mask at an acute angle with respect to the surface of the mask and having a pressurizing face for pressurizing a plugging material to fill the plugging material into cells of the honeycomb structure. That is, according to the present invention, a method for manufacturing a honeycomb structure having plugging portions and a manufacturing apparatus of the honeycomb structure having plugging portions are provided as follows. 
   According to a first aspect of the present invention, a method for manufacturing a honeycomb structure having plugging portions is provided, the honeycomb structure having porous partition walls and a plurality of cells partitioned by the partition walls and formed so as 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: attaching a mask having openings corresponding to openings of at least a part of the cells to the end faces of the honeycomb structure; supplying a plugging material having fluidity on the mask or on the same plane as a surface of the mask; and moving a pressurizing member disposed at an acute angle with respect to the surface of the mask and having a pressurizing face for pressurizing the plugging material to fill the plugging material into the cells of the honeycomb structure by pressurizing the plugging material with the pressurizing face. 
   According to a second aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to the first aspect is provided, wherein the pressurizing face is a flat face and disposed at an angle of 2° or more and 55° or less with respect to the surface of the mask. 
   According to a third aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to the first aspect is provided, wherein the pressurizing face is a curved face protruding toward the mask side. 
   According to a fourth aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to any one of the first to third aspects is provided, wherein the mask is moved with a part of the pressurizing face being brought into contact with the mask via the plugging material to pressurize the plugging material toward the cell side and to push out an extra plugging material in the direction of movement of the mask, and the plugging material is filled into the cells with forming a region of face contact. 
   According to a fifth aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portion according to any one of the first to fourth aspects is provided, wherein the honeycomb structure and the plugging material of the honeycomb structure contain a ceramic selected from the group consisting of cordierite, mullite, alumina, silicon carbide, and a combination thereof. 
   According to a sixth aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to any one of the first to fifth aspects is provided, wherein the mask is obtained by forming holes in the film by a laser after attaching the film to the end faces of the honeycomb structure. 
   According to a seventh aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to any one of the first to sixth aspects is provided, wherein, upon positioning a table portion having a through-hole where the end face portion of the honeycomb structure is to be inserted and the honeycomb structure by inserting the end face portion of the honeycomb structure, the mask is provided on the end face, a remaining portion of the mask is folded on the side face portion, an end portion on the end face side of the side face portion of the honeycomb structure where at least a part of the mask adheres to the side face portion is held with a sealing member to seal a gap between the side face portion of the honeycomb structure and the table portion with the sealing member, and a plugging material having fluidity is supplied onto the mask or the table portion on the same plane as the surface of the mask to fill the plugging material into the cells. 
   According to an eighth aspect of the present invention, the method for manufacturing the honeycomb structure having plugging portions according to the seventh aspect is provided, wherein the sealing member is a hollow elastic ring, and sealing is performed by expanding the hollow elastic ring by air pressure. 
   According to a ninth aspect of the present invention, a manufacturing apparatus for a honeycomb structure having plugging portions is provided, the apparatus comprising: a table portion having a through-hole into which an end face portion of a honeycomb structure is to be inserted, the honeycomb structure having porous partition walls and a plurality of cells partitioned by the partition walls and formed so as to extend through the honeycomb structure from one end face of the honeycomb structure to the other end face thereof; a positioning means for positioning and holding the table portion and the honeycomb structure in a state that the end face portion of the honeycomb structure is inserted into the through-hole of the table portion; a plugging material supply means for supplying a plugging material having fluidity onto the mask or onto the table portion in a state that the mask having openings corresponding with openings of at least a part of the cells is disposed on the end face of the honeycomb structure; and a pressurizing means having a pressurizing face disposed at an acute angle with respect to a surface of the mask and applying pressure to the plugging material and a moving means for moving the honeycomb structure on the table; wherein, after supplying the plugging material on the mask of the honeycomb structure positioned with respect to the table portion or on the table portion, the pressurizing means moves on the table portion, thereby pressurizing the plugging material supplied on the mask by the pressurizing face to fill the plugging material into the cells of the honeycomb structure. 
   According to a tenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to the ninth aspect is provided, wherein the pressurizing face is a flat face and has an angle of 2° or more and 55° or less with respect to the surface of the mask. 
   According to an eleventh aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to the ninth aspect is provided, wherein the pressurizing face is a curved face protruding toward the mask side. 
   According to a twelfth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to ninth to eleventh aspects is provided, wherein the pressurizing face is capable of elastic deformation and a part of the pressurizing face is brought into surface contact with the mask via the plugging material, moves on the mask to pressurize the plugging material toward the cell side and to push out an extra plugging material in a moving direction, and further pressurizing and filling the plugging material into the cells with forming a region of surface contact. 
   According to a thirteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to twelfth aspects is provided, wherein the plugging material supply means is provided on the pressurizing means and moves unitarily with the pressurizing means. 
   According to a fourteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to thirteenth aspects is provided, wherein the mask is a film attached so as to cover the end face of the honeycomb structure. 
   According to a fifteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to fourteenth aspects is provided, wherein the pressurizing means includes a pressurizing mechanism for moving the pressurizing face in a direction perpendicular to the surface of the mask and a driving mechanism for moving the pressurizing face along the surface of the mask. 
   According to a sixteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to fifteenth aspects is provided, wherein the table portion has side wall portions formed to protrude from the surface in parallel with the moving direction of the pressurizing means on both sides of the through-hole on the surface of the table portion and inhibiting the plugging material from leaking out from the surface of the table portion. 
   According to a seventeenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to sixteenth aspects is provided, wherein the apparatus has a sealing mechanism for inhibiting the extra plugging material pushed out by the pressurizing face by sealing the gap between the side face portion of the honeycomb structure and the table portion with a sealing member by holding an end portion on the end face side of the side face portion of the honeycomb structure where the mask is provided on the end face in the state that the remaining portion of the mask is folded toward the side face portion and that at least a part of the mask is adhered to the side face portion with the sealing member whose contact portion with the side face portion of the honeycomb structure is constituted to be movable upon positioning the table portion and the honeycomb structure by inserting the end face portion of the honeycomb structure into the through-hole of the table portion. 
   According to an eighteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to the seventeenth aspect is provided, wherein the sealing member is a hollow elastic ring, and sealing is performed by expanding the hollow elastic ring by air pressure. 
   According to a nineteenth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to any one of the ninth to eighteenth aspects is provided, wherein the pressurizing means has the first pressurizing face and the second pressurizing face as two slant faces, the lower ends of the first pressurizing face and the second pressurizing face are connected with each other to form a joint portion, a cross section is formed in a protruding shape by the first pressurizing face and the second pressurizing face with the joint portion as a tip portion, the pressurizing means moves in a forward direction on the table portion to fill the plugging material by the first pressurizing face and a backward direction to fill the plugging material by the second pressurizing face. 
   According to a twentieth aspect of the present invention, the manufacturing apparatus for a honeycomb structure having plugging portions according to the nineteenth aspect is provided, wherein a plugging material supply hole for supplying the plugging material having fluidity on the mask or on the table portion is formed on the first pressurizing face and the second pressurizing face. 
   A mask is applied on the honeycomb structure, a plugging material having fluidity is supplied on the mask or on the same plane as the mask, a pressurizing member disposed at an acute angle with respect to the surface of the mask and having a pressurizing face for pressurizing a plugging material and on the surface of the mask, and the plugging material is pressurized by the pressurizing face to fill the plugging material into the cells of the honeycomb structure. Unlike a conventional method where the end face of the honeycomb structure is immersed in the leveled plugging material, manufacturing time can be shortened. Further, since the plugging material is filled under pressurization by the pressurizing member, plugging can be conducted securely, and plugging depth can be stabilized. Therefore, faulty plugging is hardly caused with high reliability, and improvement in performance can be promoted. 
   Furthermore, effects will specifically be described. According to the first and ninth aspects, since a practical pressurized area is small with respect to the work (honeycomb structure) size to make uniformalization of pressure distribution easy, plugging having high controllability and less fluctuation of plugging depth can be realized. A manufacturing method of a honeycomb structure having plugging portions of the present invention is particularly suitable for shallow plugging and can be used advantageously as a manufacturing method of a diesel particulate filter (DPF) or the like having a large effective area to be capable of filtering more effectively. 
   According to the second and tenth aspects, pressurization is possible with securing the plugging material amount required for the plugging. By adjusting the angle within the range from 2° to 55°, plugging depth can intentionally be controlled. 
   According to the third and eleventh aspects, surface contact is possible even with a pressurizing member which is not elastic, and effective plugging can be realized with securing the plugging material amount. By adjusting the setting angle and the curvature, the depth can be controlled more precisely. 
   According to the fourth aspect, an end face of a product can be made clean at the same time by effectively forming the pressurizing portion and scraping off the plugging finish portion. 
   According to the fifth aspect, by using these ceramic materials, a DPF or the like having good filtering efficiency can be manufactured by the use of these ceramic materials. 
   According to the sixth and fourteenth aspects, high-speed and precise hole-making can be realized by using a laser (not needle or the like). In addition, tooling change is not required at the same time, which is advantageous from the viewpoint of steps. Further, a thin mask is realized at low cost, and there is an effect in reducing wasteful plugging material corresponding with the thickness of the mask. 
   According to the seventh, eighth, seventeenth and eighteenth aspects, since the sealing mechanism has a sealing member in a portion which is brought into contact with the honeycomb structure, the gap between the sealing mechanism and the honeycomb structure is infilled, leakage of the plugging material to the lower face of the honeycomb structure is inhibited, and the plugging material can be used effectively. In addition, holding force of the honeycomb structure is enhanced, and therefore inclining and moving of the honeycomb structure upon pressurization can be inhibited. Therefore, uniform pressurization is possible, and fluctuations of plugging depth can be reduced. Further, since the elastic ring follows the shape of the honeycomb structure, the honeycomb structure can have an arbitrary shape. 
   According to the twelfth aspect, the surface contact is realized by using an elastic body, and plugging can be performed effectively and deeply. 
   According to the thirteenth aspect, the time required for supply can be minimized by unitarily moving a supply means. 
   According to the fifteenth aspect, the pressurizing means can be moved with plugging under pressure. 
   According to the sixteenth aspect, leakage of the plugging material from the side portion of the pressurizing face, and utilization efficiency of the plugging material can be enhanced. In addition, since pressure does not escape from the side of the pressurizing face, pressure can be applied uniformly, and plugging having little fluctuations can be realized. 
   According to the nineteenth aspect, the plugging material can be filled in the forward direction and in the backward direction. 
   According to the twentieth aspect, the plugging material having fluidity can be supplied on the mask or on the table portion by the plugging material supply hole. 

   
     BRIEF DESCRIPTION OF THE DRAWINGS 
       FIG. 1  shows one embodiment of a honeycomb structure to be plugged. 
       FIG. 2  is a diagram schematically showing filling under pressure. 
       FIG. 3A  is a diagram showing a through-hole in a table portion. 
       FIG. 3B  is a diagram showing another embodiment of a through-hole in a table portion. 
       FIG. 4  is a diagram showing a plugging step of Embodiment 1. 
       FIG. 5  is a diagram showing the plugging step of Embodiment 1, subsequent to  FIG. 4 . 
       FIG. 6  is a diagram showing the plugging step of Embodiment 1, subsequent to  FIG. 5 . 
       FIG. 7  is a diagram showing the plugging step of Embodiment 1, subsequent to  FIG. 6 . 
       FIG. 8  is a diagram showing the side wall portion of the table portion. 
       FIG. 9  is a diagram showing a notch portion in the table portion. 
       FIG. 10  is a diagram showing a plugging step of Embodiment 2. 
       FIG. 11  is a diagram showing another embodiment of a plugging apparatus. 
       FIG. 12  is a diagram showing pressurization and filling by surface contact. 
       FIG. 13  is a diagram showing another embodiment of film application. 
       FIG. 14  is a diagram showing Embodiment 3, where both the end faces of the honeycomb structure is plugged simultaneously. 
       FIG. 15  is a diagram showing Embodiment 4, which uses a manufacturing apparatus of a honeycomb structure having plugging portions provided with a sealing member. 
       FIG. 16  is a diagram showing a modified example 1 of Embodiment 4. 
       FIG. 17  is a diagram showing a modified example 2 of Embodiment 4. 
       FIG. 18  is a diagram showing a modified example 3 of Embodiment 4. 
       FIG. 19A  is a diagram showing a modified example 4 of Embodiment 4. 
       FIG. 19B  is a diagram showing an overhead view of the table portion of the modified example 4. 
       FIG. 20  is a diagram showing a plugging apparatus provided with a gap between elastic bodies. 
       FIG. 21  is a diagram showing an end face of a honeycomb structure having a plugged portion formed therein. 
       FIG. 22  is a cross-sectional view of a cross section cut along an axial direction. 
       FIG. 23  is a diagram showing a plugging step of Embodiment 5. 
       FIG. 24  is a diagram showing a plugging step following  FIG. 23  of Embodiment 5. 
       FIG. 25  is a diagram showing a plugging step following  FIG. 24  of Embodiment 5. 
       FIG. 26A  is a diagram showing an embodiment of a V-shaped plugging apparatus. 
       FIG. 26B  is a diagram showing a modified example 1 of a V-shaped plugging apparatus. 
       FIG. 26C  is a diagram showing a modified example 2 of a shaped plugging apparatus. 
       FIG. 26D  is a diagram showing a modified example 3 of a V-shaped plugging apparatus. 
       FIG. 26E  is a diagram showing a modified example 4 of a V-shaped plugging apparatus. 
       FIG. 26F  is a diagram showing a modified example 5 of a shaped plugging apparatus. 
       FIG. 27  is a diagram showing a plugging step of Embodiment 6. 
       FIG. 28  is a diagram showing a plugging step following  FIG. 27  of Embodiment 6. 
       FIG. 29A  is a diagram showing an embodiment of a V-shaped plugging apparatus having a plugging material supply hole formed therein. 
       FIG. 29B  is a diagram showing a modified example 1 of a V-shaped plugging apparatus having a plugging material supply hole formed therein. 
       FIG. 29C  is a diagram showing a modified example 2 of a shaped plugging apparatus having a plugging material supply hole formed therein. 
       FIG. 29D  is a diagram showing a modified example 3 of a V-shaped plugging apparatus having a plugging material supply hole formed therein. 
       FIG. 29E  is a diagram showing a modified example 4 of a V-shaped plugging apparatus having a plugging material supply hole formed therein. 
       FIG. 29F  is a diagram showing a modified example 5 of a V-shaped plugging apparatus having a plugging material supply hole formed therein. 
   

   DESCRIPTION OF REFERENCE NUMERALS USED IN THE DRAWINGS 
     1 : honeycomb structure;  1   s : side face portion;  2 : partition wall;  3 : cell;  8 : end face;  11 : table portion;  11   h : through-hole;  11   k : notch portion;  11   w : side wall portion;  12 : support base;  15 : image-picking apparatus;  16 : laser;  21 : roller;  22 : motor;  23 : plugging material supply apparatus;  24 : plugging apparatus;  24   a : main body portion;  24   b : elastic body;  24   c : second elastic body;  24   g : gap;  24   h : plane joint portion;  24   k : plugging material supply hole;  24   r : R tip portion;  24   s : pressurizing face;  24   v : V-shaped plugging apparatus;  24 W: flat plugging apparatus;  25 : film;  27 : peeling apparatus;  28 : plate-like member;  29 : drying apparatus;  31 : plugging material;  35 : sealing member;  40 : depression;  41 : stopper member. 
   DETAILED DESCRIPTION OF THE INVENTION 
   Embodiments of the present invention will hereinafter be described with reference to the drawings. However, the present invention is not limited to the following embodiments and can be changed, modified or improved without deviating from the scope of the present invention. 
   As shown in, for example,  FIG. 1 , a honeycomb structure  1  to be plugged has porous partition walls  2 , and a plurality of cells  3  are partitioned and formed by the partition walls  2  and formed so as to extend through the structure from one end face  8  of the structure to the other end face  8  thereof. The structure is formed of a ceramic material. More specifically, the honeycomb structure contains a ceramic material preferably selected from the group consisting of cordierite, mullite, alumina, silicon carbide and a combination of them from viewpoints of strength, thermal resistance and the like. 
   Then, a plastic clay is prepared by adding a binder, an organic pore former, a surfactant, water and the like to the above raw material, and the clay is subjected to, for example, extrusion forming to form the columnar honeycomb structure  1  having a large number of cells  3  which are partitioned by the partition walls  2  and which extend through the structure in an axial direction. 
   The outline of a method for plugging the honeycomb structure  1  of the present invention will be described with reference to  FIG. 2 . To plug the cells  3  of the honeycomb structure  1 , in a state where the honeycomb structure  1  is positioned in a table portion  11  (see  FIG. 3A ) having a through-hole  11   h  into which the end face portion of the honeycomb structure  1  is to be inserted as shown in  FIG. 2 , a film  25  is attached to the end face  8  so that a side surface portion is of the honeycomb structure  1  is not covered. Moreover, in a state where a remaining portion of the film  25  which is not attached to the end face  8  is attached to the table portion  11 , the film  25  is held in a flat state. Then, holes opened so as to correspond to the openings of a part of the cells  3  are formed in the film  25  to form the film  25  as a mask, a plugging material  31  (slurry or paste) having fluidity is supplied onto the mask or the same plane as the mask, and the plugging apparatus  24  as a pressurizing member disposed at an acute angle with respect to the surface and having a pressurizing face  24   s  for pressurizing a plugging material  31  to pressurize the plugging material  31  by the pressurizing face  24   s , thereby filling the plugging material  31  into the cells  3  of the honeycomb structure  1 . 
   As shown in  FIG. 2 , when the pressurizing face  24   s  is a flat face, the angle θ of the pressurizing face  24   s  with respect to the surface of the mask (film  25 ) is made acute. Further, it is preferable that the pressurizing face  24   s  is formed of an elastic body so as to deform by being pressed against the mask and that a part of the pressurizing face  24   s  is brought into surface contact with the mask. Specifically, as shown in  FIG. 12 , the plugging apparatus  24  has a three-layered structure having a main body portion  24   a  formed of a rigid body, an elastic body  24   b  having a thickness of 2 to 4 mm and attached to the main body portion  24   a , and the second elastic body  24   c  having a hardness higher than that of the elastic body  24   b  and a thickness of 50 to 400 μm further on the outside thereof. For example, the main body portion  24   a  of the plugging apparatus  24  is formed of metal, and a rubber plate and a polyester film are attached on the metal so that the rubber plate and the polyester film may form a pressurizing face  24   s . Further, as shown in  FIG. 20 , a gap  24   g  may be formed between the elastic bodies. By such a three-layered structure, there can be obtained an effect in reducing fluctuations of plugging depth and an effect in inhibiting damages in the honeycomb structure  1  due to improvement in following capability. Further, there can be obtained an effect in improving plugging speed due to reduction in friction. 
   The elastic body  24   b  having a thickness of 2 to 4 mm has an effect in reducing fluctuations of plugging depth and an effect in inhibiting damages in a sample due to mainly improvement in following capability. When it is less than 2 mm, following capability is insufficient, and the angle of the pressurizing face  24   s  is changed by fluctuations of height of the honeycomb structure  1 , which is not preferable. When it is more than 4 mm, the deformation amount is large, and the effect of the angle of the pressurizing face  24   s  is not sufficiently obtained. The second elastic body  24   c  having a thickness of 50 to 400 μm mainly has an effect in improving the printing speed. When it is less than 50 μm, the body is too thin to obtain a sufficient friction-reducing effect. When it is more than 400 μm, sample roughness cannot be absorbed to increase fluctuations of plugging depth. 
   For the elastic body  24   b , for example, urethane, butyl rubber, natural rubber, and silicon rubber may be used. For the second elastic body  24   c , for example, a PET film and MC nylon may be used. Further, by providing a gap  24   g , a deformed elastic body plays a role of a guide to make rolling of the paste appropriate. Incidentally, though the sealing apparatus  24  can reduce fluctuation even with a two-layered structure having the main body portion  24   a  formed of a rigid body and the elastic body  24   b  attached to the main body portion  24   a , a three-layered structure is preferable from the viewpoint of improvement in printing speed. 
   Then, as shown in  FIG. 12 , a part of the region of the pressurizing face  24   s  is moved on the mask with subjecting the pressurizing face  24   s  to surface contact with the mask via the plugging material  31  to pressurize the plugging material  31  toward the cells  3  side and to push out the extra plugging material  31  in the moving direction, and further the plugging material  31  is pressurized and filled into the cells  3  with forming the region of surface contact. The angle of the plugging apparatus  24  can be adjusted by the main body portion  24   a , and by adjusting the angle of the plugging apparatus  24 , the plugging depth of the honeycomb structure  1  can be controlled even when the material composition of the plugging material  31  is changed. 
   Heretofore, the plugging material  31  has been put into a container and leveled, and the honeycomb structure  1  has been immersed into the material to plug the cells. However, the cells are plugged as in the present application, whereby time required for plugging the cells can be shortened, and manufacturing cost can be decreased. In addition, since filling is conducted with surface contact, fluctuations of depth for filling can be reduced. Further, since the plugging material  31  is securely filled by the pressurizing face  24   s  even for shallow plugging, filling fault is hardly caused. 
   Embodiment 1 
   A specific plugging method will be described with reference to  FIGS. 2 to 9 . A manufacturing apparatus of a plugged honeycomb structure  1  for use in a plugging method of the present invention includes a table portion  11  having a through-hole  11   h  where an end face portion of a honeycomb structure  1  is to be inserted, the honeycomb structure having porous partition walls  2  and a plurality of cells extending from one end face  8  to the other end face  8  and formed and partitioned by the partition walls  2 ; a positioning means for positioning the table portion  11  and the honeycomb structure  1  in a state that an end face portion is inserted into the through-hole  11   h  of the table portion  11  and holding the table portion  11  and the honeycomb structure  1 ; a plugging material supply means for supplying a plugging material  31  having fluidity onto the mask or onto the table portion  11  in a state that the mask provided with the holes opened so as to correspond with openings of at least a part of the cells  3  is disposed on an end face  8  of the honeycomb structure  1 ; and a pressurizing means having a pressurizing face  24   s  disposed at an acute angle with respect to a surface of the mask and pressurizing the plugging material  31  and having a moving means which moves on the table portion  11 . 
   Then, after the plugging material  31  is supplied on the mask of the honeycomb structure  1  positioned with respect to the table portion  11  or on the table portion  11 , the pressurizing means moves on the table portion  11 , thereby pressurizing the plugging material  11  supplied on the mask by the pressurizing face  24   s  to fill the plugging material  31  into cells  3  of the honeycomb structure  1 . 
   The pressurizing means has a pressurizing mechanism for moving the pressurizing face  24   s  in a direction perpendicular to the surface of the mask and a driving mechanism for moving the pressurizing face  24   s  along the surface of the mask (film  25 ). Specifically, the pressurizing means is provided with a plugging apparatus  24 , and the plugging apparatus moves vertically and horizontally to fill the plugging material  31  into the cells  3  under pressure. 
   The plugging material supply apparatus  23  may be constituted separately from the plugging apparatus  24  as shown in  FIG. 2 . However, it is arranged in the plugging apparatus  24 , which is a pressurizing means, as shown in  FIG. 11  and can be constituted so as to move unitarily with the pressurizing means. 
   As shown in  FIG. 2 , in the case that the pressurizing face  24   s  is constituted as a flat face, it is preferable to constitute the pressurizing face  24   s  in such a manner that the pressurizing face  24   s  forms an acute angle, more specifically, 2° or more and 55° or less, more preferably 10° or more and 55° or less with respect to the surface of the mask (film  25 ). Such a constitution enables to pressurize and fill the plugging material  31  into the cells. Though the plugging depth can be changed by changing the angle of the pressurizing face  24   s , fluctuations of the plugging depth increase when the angle is more than 55°. 
   Alternatively, the pressurizing face  24   s  can be constituted as a curved face having a protruding shape toward the mask side as shown in  FIG. 11 . Such a constitution makes pressurizing and filling of the plugging material  31  into the cells  3  easy. 
   In more detail, the manufacturing apparatus for a honeycomb structure  1  having plugging portions includes a roller  21  as the film-attaching means, and the film  25  can be attached to the table portion  11  and the end face  8  of the honeycomb structure  1  by the use of the roller  21  (see  FIG. 4 ). Moreover, as the positioning means for positioning the table portion  11  and the honeycomb structure  1 , a motor  22  is connected to the table portion  11  to lift up and down the table portion  11 . Alternatively, the motor  22  is connected to a support base  12  to lift up and down the support base  12  on which the honeycomb structure  1  is mounted. The apparatus includes a laser  16  as the hole making means for making the holes in the film  25  (see  FIG. 5 ). 
   First, as shown in the step  1  of  FIG. 4 , dust adhering to the end face  8  of the honeycomb structure  1  having porous partition walls  2  and a plurality of cells  3  extended from one end face  8  to the other end face  8  and separated and formed by the partition walls  2  is blown away by air blow, and the dust is collected to clean the end face  8 . 
   Then, as shown in the step  2  of  FIG. 4 , a film  25  is attached to the end face  8  of the honeycomb structure  1  in a state that the side face portion is of the honeycomb structure  1  is not covered in a state that a part of the honeycomb structure  1  is inserted into the through-hole  11   h  of the table portion  11 . At this time, specifically, the film  25  may be pressurized by a roller  21  or the like to bring the film  25  into close contact with the end face  8 . 
   Next, as shown in the step  3   a  of  FIG. 4 , the table portion  11  is raised by a motor  22  in a state that the honeycomb structure  1  having the film  25  attached thereto is inserted into a through-hole  11   h . The table portion  11  and the honeycomb structure  1  are positioned and held in order to attach the remaining portion of the film  25  in such a manner that the film  25  becomes flat. 
     FIGS. 3A and 3B  show a plan view of the table portion  11 . As described above, by covering the table portion  11  and the honeycomb structure  1  with the same film  25 , a mask can be applied without problem even on the honeycomb structure  1  having a shape suitable for the shape of the through-hole  11   h  as shown in  FIG. 3B , not to mention the cylindrical honeycomb structure  1  suitable for the shape of the through-hole  11   h  as shown in  FIG. 3A . As shown in  FIG. 2 , by covering the table portion  11  and the honeycomb structure  1  with the same film  25  in a flat state, a rumple is hardly caused in the film  25 , and difficulty is hardly caused in image processing during a hole-forming step. 
   Alternatively, as shown in the step  3   b  of  FIG. 4 , there may be employed a constitution where the support base  12  on which the honeycomb structure  1  is mounted is lowered so that the film  25  attached to the end face  8  can be attached in a flat state also to the table portion  11 . 
   Subsequently, as shown in the step  4  of  FIG. 5 , the end face  8  of the honeycomb structure  1  is photographed with an image pickup apparatus  15  to acquire image data capable of specifying the shapes and positions of the cells  3  to be plugged and the cells  3  which are not to be plugged. There is no special restriction on the image pickup apparatus  15  for photographing the end face  8  of the honeycomb structure  1 . However, for example, a charge-coupled apparatus (CCD) camera, an X-ray computed tomography (CT) scanner or the like may preferably be used. 
   Subsequently, as shown in the step  5  of  FIG. 5 , based on the image data acquired in the previous step, the holes opened so as to correspond with the openings of at least a part of the cells  3  are formed in the film  25  by the use of the laser  16  to form a mask. Therefore, the image pickup apparatus  15  and the laser  16  constitute the hole making means. 
   Then, as shown in the step  6  of  FIG. 5 , the honeycomb structure  1  is positioned in a predetermined position by the use of a sensor  17  (e.g., an infrared sensor) so that the flat upper surface of the table portion  11  is on the same plane as the end face  8  of the honeycomb structure  1 . 
   Subsequently, as shown in the step  7  of  FIG. 6 , the plugging material  31  (a slurry) having fluidity is supplied onto the mask (the film  25 ) provided with the holes or onto the table portion  11  by the use of a plugging material supply apparatus  23  as the plugging material supply means. Examples of the plugging material  31  for use in plugging the cells include a mixture obtained by mixing a ceramic powder, a bonding agent and a deflocculant and water added as a dispersion medium thereto. Specifically, the material is preferably a ceramic selected from the group consisting of cordierite, mullite, alumina, silicon carbide, and a combination thereof. 
   Then, as shown in the step  8  of  FIG. 6 , by a plugging apparatus  24  as a pressurizing member, the plugging material  31  supplied onto the mask or the table portion  11  is filled into the cells  3 . Specifically, the plugging apparatus  24  has a pressurizing face  24   s  which is arranged at an acute angle with respect to the surface of the mask to pressurize the plugging material  31  and moving means which moves along the table portion  11 . After supplying the plugging material  31  onto the mask of the honeycomb structure  1  positioned with respect to the table portion  11  or onto the table portion  11 , the plugging apparatus  24  moves along the table portion  11 , whereby the plugging material  31  supplied onto the mask is pressurized by the pressurizing face  24   s  to fill the plugging material  31  into the cells  3  of the honeycomb structure  1 . At this time, as described above, it is preferable that a part of a region of the pressurizing face  24   s  is moved on the mask in a state that the region is brought into surface contact with the mask via the plugging material  31  to pressurize the plugging material  31  to the cell side, to push out the extra plugging material  31  in the moving direction, and to further pressurize and fill the material into the cells with forming the region of the surface contact. By the surface contact of a part of the region of the pressurizing face  24   s  with the mask, the plugging material  31  can securely be filled into the cells. On the other hand, if the material is not pressurized, it is difficult to fill the plugging material  31  at a certain amount or more into the cells to cause insufficient plugging. 
   As shown in  FIG. 8 , it may be constituted that the table portion  11  has side wall portions  11   w  protruding from the surface of the table portion and formed in parallel on opposite sides of the through-hole  11   h  on the surface of the table portion. By such a constitution, the plugging material  31  can be prevented from leaking from the surface of the table portion  11 . 
   Further, after filling the plugging material  31  into the cells  3 , as shown in the step  9  of  FIG. 6 , the plugging apparatus  24  is moved off the table portion  11  to remove the extra plugging material  31  from the table portion  11 . 
   Subsequently, as shown in the step  10  of  FIG. 7 , the table portion  11  is lowered by the moving means to peel the film  25  from the table portion  11 . Then, as shown in the step  11  of  FIG. 7 , the mask attached to the end face  8  is peeled by a peeling apparatus  27 . As shown in  FIG. 9 , when notch portions  11   k  are formed in both the ends of the table portion  11 , the film can be peeled without lowering the table portion  11 . As shown in the step  12  of  FIG. 7 , the honeycomb structure  1  is dried by a drying apparatus  29  as the drying means, whereby the honeycomb structure  1  provided with plugging portions  32  is completed.  FIG. 21  shows an end face of a honeycomb structure  1  having plugging portions  32  formed therein. In addition,  FIG. 22  shows a cross-sectional view of a cross section cut along the axial direction. By the formation of the plugging members  32 , the exhaust gas flowing into the structure from the inlet port passes through the partition walls  2  and discharged from the outlet port. When the exhaust gas passes through the partition walls, particulate matter in the exhaust gas is trapped by the partition walls  2  to purify the exhaust gas. 
   Embodiment 2 
   Another plugging method will be described with reference to  FIG. 10 . A manufacturing apparatus of a honeycomb structure  1  having a plugged portion according to Embodiment 2 for use in the plugging method of the present invention includes a table portion  11  having a through-hole  11   h  into which the end face portion of the honeycomb structure  1  is to be inserted; a film attaching means for attaching a film  25  on the surface side of the table portion  11 ; a positioning means for positioning and holding the table portion  11  and the honeycomb structure  1  so as to attach the film  25  to the end face  8  of the honeycomb structure in a state where the end face portion of the honeycomb structure  1  is inserted into the through-hole  11   h  of the table portion  11  provided with the film  25  attached to the surface side including a region of the through-hole  11   h  and where a side surface portion  1   s  of the honeycomb structure  1  is not covered; a hole making means for forming, in the film  25  attached to the end face  8  of the honeycomb structure  1 , holes opened so as to correspond with the openings of at least a part of the cells  3 , thereby forming a mask; a plugging material supply means for supplying a plugging material  31  having fluidity onto the mask provided with the holes or onto the table portion  11 ; and a pressurizing means for filling the plugging material  31  supplied onto the mask or the table portion  11  into the cells  3 . 
   As shown in the step  1  of  FIG. 10 , the film  25  is attached to the upside of the table portion  11  by the film attaching means. At this time, specifically, the film  25  may be pressed with a roller  21  or the like, and brought into close contact with the surface of the table portion  11 . 
   After attaching the film  25  to the region of the surface of the table portion  11  including the through-hole  11   h , as shown in the step  2  of  FIG. 10 , a support base  12  is lifted by a motor  22 , whereby the end face portion of the honeycomb structure  1  is inserted into the through-hole  11   h , and the film  25  is attached to the end face  8  of the honeycomb structure  1 . That is, in a state where the honeycomb structure  1  is inserted into the through-hole  11   h  of the table portion  11  to which the film  25  is attached, the honeycomb structure  1  is positioned and held with respect to the table portion  11  by the motor  22  as the positioning means so as to attach the remaining portion of the film to the honeycomb structure  1  so that the film  25  attached to the end face  8  is in a flat state. 
   Then, in the same manner as in Embodiment 1, the end face  8  of the honeycomb structure  1  is photographed to acquire image data, and the holes are formed in the film  25  by a laser  16  to form a mask. 
   Subsequently, the plugging material  31  is supplied by a plugging material supply apparatus  23  to fill the plugging material  31  into the cells  3  by a plugging apparatus  24 . That is, the plugging apparatus  24  moves along the table portion  11 , whereby the plugging material  31  supplied onto the mask is pressurized by a pressurizing face  24   s  to fill the cells  3  of the honeycomb structure  1  with the plugging material  31 . Then, the slurry of the plugging material  31  is removed from the table portion  11 . 
   Then, the table portion  11  is lowered to peel the film  25  from the table portion  11 . The honeycomb structure  1  which has been plugged is dried to complete the honeycomb structure having a plugged portion. 
   Embodiment 3 
     FIG. 14  shows an embodiment 3, where both the end faces  8  are plugged simultaneously. As shown in  FIG. 14 , the honeycomb structure  1  is disposed horizontally in such a manner that the axial direction (height direction) of the honeycomb structure  1  becomes almost horizontal, the plugging material  31  having fluidity is supplied on the mask or on the table portion  11 , and the plugging apparatus  24  is moved from above to the downward to fill the plugging material  31  into the cells  3 . Such a constitution enables to plug both the end faces  8  simultaneously to halve the time for plugging. 
   In the above, an embodiment where the film  25  is attached to the end faces  8  of the honeycomb structure  1  and the table portion  11  in a flat state. However, the film  25  may be attached only to the end faces  8  of the honeycomb structure  1  as shown in  FIG. 13 . That is, as shown in the step  1  of  FIG. 13 , in the first place, the film  25  is attached to the end faces  8  of the honeycomb structure  1 , and the film  25  is folded as shown in the step  2  of  FIG. 13  to attach at least a part of the film  25  to the side face portion is of the honeycomb structure  1 . Then, as shown in the step  3  of  FIG. 13 , the honeycomb structure  1  and the table portion  11  are positioned in such a manner that an end face  8  of the honeycomb structure  1  is in the same level as the surface of the table portion  11 . Then, in the same manner as described above, the hole-making step and the plugging step are conducted. 
   Embodiment 4 
   Next, an embodiment using a manufacturing apparatus of a honeycomb structure  1  having a sealing mechanism. The sealing mechanism has a sealing member  35  for sealing the gap between the side face portion is of the honeycomb structure  1  and the table portion  11  with holding the end portion on the end face  8  side of the side face portion is of the honeycomb structure  1  where a mask is provided on the end face  8  in the state that the remaining portion of the mask is folded toward the side face portion  1   s  and that at least a part of the mask is adhered to the side face portion. The sealing member  35  is a hollow elastic ring, and sealing is performed by expanding the elastic ring by air pressure. Alternatively, the elastic ring may be expanded using liquid. 
   As a tube material of the elastic ring, rubber may be used, and elastomer may also be used. An elastic ring having, for example, an inner diameter of 50 mm to 400 mm, an outer diameter of 75 mm to 425 mm, a thickness of 10 mm and 40 mm may be used. 
   As shown in  FIG. 15 , an end portion on the end face  8  side of the side face portion  1   s  of the honeycomb structure  1  where a mask or a film  25  serving as the mask is attached to the end face  8  thereof in the state that the remaining portion of the mask or the film  25  is folded toward the side face portion  1   s  and that at least a part is attached to the side face portion is inserted into the through-hole  11   h  of the table portion  11  to position the table portion  11  and the honeycomb structure  1 . The sealing member  35  is constituted in such a manner that the contact portion with the side face portion  1   s  of the honeycomb structure  1  is movable. By expanding the sealing member  35  by air pressure, the gap between the side face portion  1   s  of the honeycomb structure  1  and the table portion  11  is sealed to inhibit the extra plugging material pushed out by the pressurizing face  24   s  from flowing into the through-hole  11   h  in the table portion  11 . That is, the honeycomb structure  1  is inserted into the sealing member  35  in the state that the film  25  is folded, and, by expansion of the elastic ring of the sealing member  35  disposed on the appropriate position, the gap between the honeycomb structure  1  and the elastic ring is filled up, and the honeycomb structure  1  is fixed, thereby inhibiting leakage of the plugging material. This enables to use the plugging material and to reduce the fluctuations of depth. 
   In addition, it is desired to perform positioning in such a manner that the end face  8  of the honeycomb structure  1  and the upper surface of the elastic ring (sealing member  35 ) is on the same plane. Alternatively, the end face  8  of the honeycomb structure  1  may be higher by 0 to 1 mm than the upper surface of the elastic ring. When the end face  8  of the honeycomb structure  1  is lower than the upper surface of the elastic ring, it is not preferable because pressurization is insufficient. When the end face  8  of the honeycomb structure  1  is higher by 1 mm than the upper surface of the elastic ring, plugging can be performed because of the following capability of a squeegee and because the plugging material  31  can be pushed out in the direction of movement. However, in order to push out sufficient plugging material in order to reduce the fluctuations of the plugging depth to 0.3, it is preferable that the end face  8  of the honeycomb structure  1  is 0.5 mm or less higher than the upper surface of the elastic ring and that the end face  8  of the honeycomb structure  1  is 0 to 0.5 mm higher than the upper surface of the elastic ring. 
   As described above, by the expansion of the elastic sealing member  35 , the gap with the honeycomb structure  1  is filled up to inhibit leakage of the plugging material to the lower face of the honeycomb structure  1 . The force for holding the honeycomb structure  1  can be improved, and inclination and movement of the honeycomb structure  1  during pressurization can be inhibited. This enables uniform pressurization to reduce fluctuations of the plugging depth. Since the elastic ring follows the honeycomb structure  1 , the honeycomb structure  1  may have an arbitrary shape. The pressure for expanding the elastic ring is preferably 1 to 5 atmospheres. When the pressure is low, adherence is bad, and it may cause leakage of the plugging material. When the pressure is high, the elastic ring excessively expands, and movement of the plugging material to the end face  8  of the honeycomb structure  1  may be hindered, or the honeycomb structure  1  may be damaged. In addition, even when the film is folded, a peeling operation can easily be performed because there is a portion not attached to the side face. 
   The sealing member  35  may have a square cross section as the modified example 1 shown in  FIG. 16 . In addition, as the modified example 2 shown in  FIG. 17 , the sealing member  35  may be provided so as to engage with the groove-like depressed portion  40  formed on the inner peripheral face of the table portion  11 . Alternatively, the honeycomb structure  1  may be fixed by providing the sealing member  35  in the groove-like depressed portion  40  on the inner peripheral face of the table portion  11  and a stopper member  41  for fixing the honeycomb structure  1  on the inner peripheral side thereof to press the stopper member  41  by the sealing member  35 . Further, as the modified example 4 shown in  FIGS. 19A and 19B , there may be employed a constitution where the table portion  11  can move, the sealing member  35  moves together with the table portion  11 , and the sealing member  35  hold the honeycomb structure  1  for fixation. In this case, the sealing member  35  may be a solid elastic body and is not required to have a hollow tube-like shape because it is not required to expand itself. 
   Example 5 
   The embodiment 5 has two slant faces, which are the first pressurizing face and the second pressurizing face. The lower end of the first slant face and the lower end of the second slant face are joined with each other to form a joint portion, and a pressurizing means where the cross section is formed in a protruding shape by the first pressuring face and the second pressurizing face with the joint portion as the tip portion is used. By the movement of the pressurizing means in the forward direction on the table portion  11 , the plugging material  31  is filled by the first pressurizing face, and, by the movement of the pressurizing means in the backward direction, the plugging material  31  is filled by the second pressurizing face. 
   As the pressurizing means, specifically, a V-shaped plugging apparatus  24   v  shown in  FIG. 26A  is used. The V-shaped plugging apparatus  24  shown in  FIG. 26A  has a squeegee where the two pressurizing faces  24   s  are disposed in a V shape to have an angle of 2° or more and 55° or less with respect to the surface of the mask. By using the V-shaped plugging apparatus  24   v , reciprocating movement is possible, and the plugging material  31  can be filled thicker and precisely. In addition, by disposing the supply apparatus of the plugging material  31  of different paste, different kinds of plugging material  31  can be filled in multi layers in the continuous reciprocating movement. By using the above V-shaped plugging apparatus  24   v , optimal depth and materials can be selected widely. 
   Next, the plugging step of Embodiment 5 is described. As shown in the step  1  of  FIG. 23 , the plugging material  31  having fluidity (slurry or paste) is supplied on the mask (film  25 ) provided with holes and disposed on the end face  8  of the honeycomb structure  1  positioned with respect to the table portion  11 . Then, as shown in the steps  2  and  3 , with moving the V-shaped plugging apparatus  24   v  in the forward direction, the plugging material  31  supplied on the mask is pressurized by the first pressurizing face of the pressurizing face  24   s  of the V-shaped plugging apparatus  24   v  to fill the plugging material  31  into the cells  3  of the honeycomb structure  1 . 
   Next, the V-shaped plugging apparatus  24   v  is raised as shown in the step  4  of  FIG. 24  and moved to the place more apart from the honeycomb structure  1  than the plugging material  31  as shown in the step  5 . Then, the V-shaped plugging apparatus  24   v  and the flat plugging apparatus  24   w  are moved down as shown in the step  6 . With the V-shaped plugging apparatus  24   v  and the flat plugging apparatus  24   w  being moved in the backward direction as shown in the step  7  of  FIG. 25 , the plugging material  31  is filled by the second pressurizing face of the V-shaped plugging apparatus  24   v  and the flat plugging apparatus  24   w . Next, the V-shaped plugging apparatus  24   v  and the flat plugging apparatus  24   w  are raised as shown in  FIG. 8  and moved to the place more apart from the honeycomb structure  1  than the plugging material  31  as shown in  FIG. 9  to complete plugging, followed by the plugging step for the next honeycomb structure  1 . 
     FIGS. 26B to 26E  show modified examples of the V-shaped plugging apparatus  24   v  capable of being used in Embodiment 5. As shown in  FIG. 26B , the joint portion where the two pressurizing faces  24   s  are joined with each other may be an R joint portion  24   r  having an R shape. As shown in  FIG. 26C , the joint portion where the two pressurizing faces  24   s  are joined with each other may be a flat joint portion  24   h  having a flat shape. As shown in  FIG. 26D , the joint portion where the two pressurizing faces  24   s  are joined with each other may have an arc shape in such a manner that the slant on the end portion side with respect to the surface of the mask is mild. Further, as shown in  FIG. 26E , the two pressurizing faces  24   s  and the joint portion where the pressurizing faces are joined with each other are curved in an arc shape. As shown in  FIG. 26F , the constitution having a gap  24   g  between the plugging apparatus  24   v  and the elastic body may be employed. 
   Embodiment 6 
   In Embodiment 6, there is used a pressurizing means having the two slant faces, ie., the first pressurizing face and the second pressurizing face, where the lower end of the first pressurizing face and the lower end of the second pressurizing face are joined with each other to form a joint portion, the cross section is formed in a protruding shape by the first pressurizing face and the second pressurizing face with the joint portion as the tip portion, and a plugging material supply hole for supplying the plugging material having fluidity on the mask or on the table portion is formed on each of the first pressurizing face and the second pressurizing face. 
   As a pressurizing means, specifically, a V-shaped plugging apparatus  24   v  provided with plugging material supply holes  24   k  as shown in  FIG. 29A  is used. The V-shaped plugging apparatus  24   v  shown in  FIG. 29A  is formed in a V shape by disposing two pressurizing faces  24   s  with an angle of 2° or more and 55° or less with respect to the surface of the mask. Further, the pressurizing faces  24   s  are provided with the plugging material supply holes  24   k  in order to supply the plugging material on the mask. 
   Next, the plugging step of Embodiment 6 will be described. As shown in the step  1  of  FIG. 27 , the plugging material  31  having fluidity (slurry or paste) is supplied on the mask (film  25 ) having holes and disposed on the end face  8  of the honeycomb structure  1  positioned with respect to the table portion  11  from the plugging material supply hole  24   k . Then, the plugging material  31  supplied on the mask is pressurized by the pressurizing face  24   s  of the V-shaped plugging apparatus  24   v  to fill the plugging material  31  into the cells  3  of the honeycomb structure  1 . 
   Next, as shown in the step  3 , the V-shaped plugging apparatus  24   v  is raised to be moved more apart from the honeycomb structure  1  than the plugging material  31  and moved down, and the plugging material  31  is supplied on the mask from the plugging material supply port  24   k.    
   Next, as shown in the step  4  of the  FIG. 28 , the plugging material  31  is filled by the V-shaped plugging apparatus  24   v . Next, as shown in the step  5 , the V-shaped plugging apparatus  24   v  is moved more apart from the honeycomb structure  1  than the plugging member  31  to complete plugging, followed by the plugging step for the next honeycomb structure  1 . 
     FIGS. 29B to 29E  show modified examples of the V-shaped plugging apparatus  24   v  usable in Embodiment 6. As shown in  FIG. 29B , the joint portion where the two pressurizing faces  24   s  are joined with each other may be an R joint portion  24   r  having an R shape. As shown in  FIG. 29C , the joint portion where the two pressurizing faces  24   s  are joined with each other may be a flat joint portion  24   h  having a flat shape. As shown in  FIG. 29D , the joint portion where the two pressurizing faces  24   s  are joined with each other may have an arc shape in such a manner that the slant on the end portion side with respect to the surface of the mask is mild. Further, as shown in  FIG. 29E , the two pressurizing faces  24   s  and the joint portion where the pressurizing faces are joined with each other are curved in an arc shape. As shown in  FIG. 29F , the constitution having four pressurizing faces continuing to form a W shape may be employed. 
   Example 
   Hereinbelow, the present invention will be described in more details on the basis of Examples. However, the present invention is by no means limited to these Examples. 
   A honeycomb structure having a cell size of 2 mm×2 mm and a pitch of 5 mm was obtained by employing, as the main raw material, a ceramic selected from the group consisting of cordierite, mullite, alumina, silicon carbide, and a combination thereof, mixing water and a binder in the material, dispersion-mixing and kneading the material with a kneader, extruding the material into a cylindrical shape, and extrusion-forming the material by an extrusion-forming apparatus. 
   Next, a plurality of cells on both the end faces of the honeycomb dried body obtained above were alternately plugged according to the plugging step of the aforementioned Embodiment 4 ( FIG. 15 ). The elastic ring used had an inner diameter of 188 mm, an outer diameter of 213 mm, and a thickness of 25 mm. At that time, printing pressure, plugging apparatus speed, and plugging apparatus angle were changed to investigate plugging depth. 
   The depth in the case of changing the plugging apparatus angle is shown in Table 1. Plugging was performed under a printing pressure of 0.4 MPa and a plugging apparatus of 50 mm/sec with using a plugging apparatus including urethane having a thickness of 3 mm and polyethylene having a thickness of 80 μm as shown in  FIG. 20 . 
   
     
       
         
             
           
             
               TABLE 1 
             
           
          
             
                 
             
             
               Relation between plugging apparatus angle and depth 
             
          
         
         
             
             
             
          
             
               Plugging apparatus angle 
               Depth 
               Fluctuation 
             
             
               (°) 
               avg (mm) 
               σ (mm) 
             
             
                 
             
          
         
         
             
             
             
          
             
               1 
               — 
               — 
             
             
               2 
               1.8 
               0.36 
             
             
               9 
               4.3 
               0.35 
             
             
               10 
               4.5 
               0.32 
             
             
               30 
               2.4 
               0.21 
             
             
               45 
               1.8 
               0.24 
             
             
               55 
               1.2 
               0.30 
             
             
               60 
               1.1 
               0.50 
             
             
                 
             
          
         
       
     
   
   The fluctuations in Table 1 were calculated out by measuring the plugging depth in 50 points. The plugging depth was measured by a length from the opposite side of the direction of plugging to the bottom face of the plugging, and the length was deducted from the entire size. 
   As shown in Table 1, the plugging apparatus angle was changed to change the plugging depth. In the case of the plugging apparatus angle of 1°, the measurement was impossible because a discharge amount required for plugging was not secured. However, in the range from 2° to 55°, the plugging could be performed with high accuracy. In the case of 60°, a large fluctuation was found in the plugging depth. In the range from 2° to 9°, plugging was possible with the depth of 1.8 to 4.3 mm and the fluctuation of 0.35 to 0.36. However, since the angle of 10° or more could give improved accuracy with a fluctuation of 0.32 or less, an angle of 10° to 55° was preferable. 
   Incidentally, though plugging was performed under a printing pressure of 0.1 MPa to 0.5 MPa and at a plugging apparatus speed of 10 mm/sec. to 300 mm/sec., the effect of the plugging apparatus angle was large in comparison with the printing pressure and the plugging apparatus speed, and there was no large change in plugging depth even by changing the printing pressure or the plugging apparatus speed. 
   The method for manufacturing a honeycomb structure and the manufacturing apparatus of the present invention can suitably be used as a means for manufacturing a honeycomb structure having plugging portions and being used as a carrier for a catalyst apparatus or as a filter for DPF or the like. In addition, it can suitably be used for via hole-filling or the like of a multilayered printed circuit board or the like.