JP5840896B2 - Method for manufacturing hemispherical shell dies for extrusion granulation - Google Patents
Method for manufacturing hemispherical shell dies for extrusion granulation Download PDFInfo
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Description
本発明は、多数の小孔から湿潤原料粉体を押し出して錠剤成形用顆粒を製造するための半球殻ダイとその製造方法に関する。 The present invention relates to a hemispherical shell die for producing wet granulated powder by extruding wet raw material powder from a large number of small holes and a method for producing the same.
近年、医薬品分野において科学的根拠に基づいた品質保証を展開し易いという理由から連続プロセスが注目されている。連続プロセスは、さらに生産量の調整を運転時間の変更により容易に行うことができるためバッチプロセスとは異なり生産量に見合った大きさの機械を複数用意する必要がないという利点を有している。 In recent years, a continuous process has attracted attention because it is easy to develop quality assurance based on scientific grounds in the pharmaceutical field. The continuous process has the advantage that, unlike the batch process, it is not necessary to prepare multiple machines of a size suitable for the production volume because the production volume can be easily adjusted by changing the operation time. .
さて固形製剤の剤形の主流は錠剤である。原料粉体から良好な品質の錠剤を製造するためには、まず原料粉体を成形型へ均一に充填させることが不可欠である。しかし、粉体は一般に付着性を有しており流動性が悪いため均一充填を行うことが困難である。そこで成形の前工程として粉体を顆粒とし、粒子の見掛け上の質量を増加させて流動性の改善を図る造粒が採用されている。 The mainstream of solid dosage forms is tablets. In order to produce tablets of good quality from the raw material powder, it is indispensable to first uniformly fill the raw material powder into the mold. However, powders generally have adhesiveness and poor fluidity, making it difficult to perform uniform filling. Therefore, as a pre-molding process, granulation is used in which the powder is made into granules and the apparent mass of the particles is increased to improve fluidity.
錠剤成形用顆粒は適正な薬剤含量の均一度、硬度、崩壊時間、摩損度を有する錠剤が得られるものでなければならない。その平均粒子径は、良好な流動性を示す下限界に近い100〜600μm程度のもので粒度分布が狭いものが好ましいとされている。また、造粒にはこれまでバッチ式の攪拌造粒機や流動層造粒機が多用されてきたが、バッチ式造粒機と容易に置換可能な連続式の造粒機は現状、見当たらない。 The tableting granules should yield tablets with proper drug content uniformity, hardness, disintegration time, and friability. The average particle diameter is preferably about 100 to 600 μm close to the lower limit showing good fluidity and narrow in particle size distribution. In addition, batch-type agitation granulators and fluidized bed granulators have been widely used for granulation, but there are no continuous granulators that can be easily replaced with batch-type granulators. .
押出造粒機は連続処理が可能であり、特に細粒用前押出式スクリュー型押出造粒機(特許文献1参照)は粒子径が300〜600μmの顆粒を製造することができるため、錠剤成形用顆粒を製造する連続式の造粒機としての可能性を秘めている。しかし、得られる顆粒は硬度が高く、良好な品質の錠剤を得ることが困難であり、成形向きではない。 The extrusion granulator is capable of continuous processing. In particular, the pre-extrusion screw-type extrusion granulator for fine granules (see Patent Document 1) can produce granules having a particle size of 300 to 600 μm, so that tablet formation is possible. It has the potential as a continuous granulator to produce granules for use. However, the obtained granule has high hardness, it is difficult to obtain a tablet of good quality, and it is not suitable for molding.
顆粒の硬度が高くなる原因は、前記造粒機に使用される半球殻ダイに明けられた孔の数が少なく、すなわち開孔率が小さく、押出圧力が高くなるためである。ここで開孔率とは半球殻ダイに明けられた多数の孔の全開孔面積とダイの表面積の比であり、百分率で表した値である。 The reason why the hardness of the granule is high is that the number of holes opened in the hemispherical die used in the granulator is small, that is, the opening ratio is small and the extrusion pressure is high. Here, the aperture ratio is the ratio of the total aperture area of a large number of holes opened to the hemispherical shell die to the surface area of the die, and is a value expressed as a percentage.
従来、孔径が0.6mm以下の多数の孔を設けた半球殻ダイは、製造コストを抑制するため、図1に示すような等間隔に少なくとも3ヶ所に切欠き部2を設けた薄板のブランク材1に両面エッチング加工により孔明けを行って平板状の展開多孔板を製作し、プレス成形により平板状の展開多孔板を半球殻状とし、図2に示すように溶接により突合せ接合部6を接合して製造されている(特許文献2参照)。突合せ接合部6の溶接には、接合部6に部分的に1mm程度の隙間が発生することがあるため、溶加棒を使用して隙間を埋めることができるTIG溶接が採用されている。 Conventionally, a hemispherical die provided with a large number of holes having a hole diameter of 0.6 mm or less is a thin plate blank provided with
また、板厚よりも小さい孔径の孔を多数明けた金属平板を製作する方法として目的の板厚よりも薄い数枚の金属平板にエッチング加工を施して孔を明け、次にこの数枚の金属平板を重ねて拡散接合し、目的の板厚の金属平板とする方法が知られている(特許文献3参照)。 In addition, as a method of manufacturing a metal flat plate with a large number of holes having a diameter smaller than the plate thickness, several metal flat plates thinner than the target plate thickness are etched to make holes, and then these several metal plates are made. A method is known in which flat plates are stacked and diffusion-bonded to form a metal flat plate having a target thickness (see Patent Document 3).
半球殻ダイの製造においてエッチング加工では“最小孔径および孔の最小間隔は板厚と同寸法”であることが基本となっている。しかし、TIG溶接時の不良品の発生率を考慮した場合、展開多孔板の板厚は孔径が0.4mm未満でも板厚を0.4mmとしなければならばかった。すなわち孔の間隔は板厚の0.4mmを基準としなければならなかった。ちなみに板厚、孔の間隔が0.4mm、孔径が0.3mmの従来の半球殻ダイにおける開孔率の最大値は16.7%である。 In the manufacturing of a hemispherical shell die, the basic process is that the “minimum hole diameter and the minimum space between holes are the same as the plate thickness”. However, considering the incidence of defective products during TIG welding, the plate thickness of the developed perforated plate must be 0.4 mm even if the hole diameter is less than 0.4 mm. That is, the hole interval had to be based on the plate thickness of 0.4 mm. Incidentally, the maximum value of the aperture ratio in a conventional hemispherical die having a plate thickness, a hole interval of 0.4 mm, and a hole diameter of 0.3 mm is 16.7%.
さらに開孔率を増加させるために孔の形状を多角形、たとえば正六角形としたい場合、板厚が厚ければ長いエッチング時間が必要であり、結局、孔の形状は角が取れて円形に近い状態となってしまい、多角形の孔を製作することは不可能であった。 In order to further increase the hole area ratio, the hole shape needs to be a polygon, for example, a regular hexagon. If the plate thickness is large, a long etching time is required. As a result, the hole shape is rounded and nearly circular. As a result, it was impossible to produce a polygonal hole.
そこで本発明の目的は、前押出式スクリュー型押出造粒機に取り付けて平均粒子径が100〜600μm程度の錠剤成形用顆粒を製造するための安価な半球殻ダイを提供することにある。 Therefore, an object of the present invention is to provide an inexpensive hemispherical shell die for producing granules for tableting having an average particle diameter of about 100 to 600 μm by being attached to a pre-extrusion screw type extrusion granulator.
上記目的を達成するための本発明における第一の押出造粒用半球殻ダイの製造方法は、等間隔に少なくとも3ヶ所に切欠き部を有し、切欠き部の1辺に張出し部分を設けたブランク材から製造される半球殻ダイの製造方法であって、両面エッチング加工により多数の孔の孔明けと同時に上記張出し部分の板厚の半分、および上記張出し部分とプレス成形時に重複する部分の板厚の半分の除去を行って上記ブランク材から平板状の展開多孔板を製作し、上記展開多孔板をプレス成形して、上記張出し部分の板厚の半分を除去した部分と、上記張出し部分とプレス成形時に重複する部分の板厚の半分を除去した部分を重ね合わせた半球殻状とし、レーザ溶接により上記張出し部分と上記重複する部分との接合部を接合して製造するものである。
Manufacturing method of the first extrusion granulating hemispherical shell die in the present invention for achieving the above object, equidistantly has a notch in at least three places, Zhang out portion on one side of the notch A method of manufacturing a hemispherical die manufactured from a provided blank material, which is a half of the plate thickness of the overhang portion simultaneously with the drilling of a large number of holes by double-sided etching, and a portion overlapping with the overhang portion during press molding A plate-shaped developed perforated plate is manufactured from the blank material by removing half of the plate thickness, and the developed perforated plate is press-molded to remove the half of the plate thickness of the overhang portion, and the overhang A hemispherical shell is formed by superimposing a portion obtained by removing half of the plate thickness of the portion and the overlapping portion at the time of press molding, and is manufactured by joining the joint portion of the overhanging portion and the overlapping portion by laser welding. .
ここで上記本発明の押出造粒用半球殻ダイの製造方法は、前記ブランク材の板厚が0.4mm未満、前記多数の孔の形状が円形でその直径が0.4mm未満であり、開孔率が16.7%以上であることが好ましい。また、前記ブランク材の板厚が0.4mm未満、前記多数の孔の形状が多角形でその内接円の直径が0.4mm未満であり、開孔率が18.3%以上であることが好ましい。
Here, in the method for producing the hemispherical shell die for extrusion granulation according to the present invention, the blank material has a plate thickness of less than 0.4 mm, the numerous holes have a circular shape, and a diameter of less than 0.4 mm. It is preferable that the porosity is 16.7% or more. Moreover, the plate | board thickness of the said blank material is less than 0.4 mm, the shape of the said many holes is a polygon, the diameter of the inscribed circle is less than 0.4 mm, and a hole area ratio is 18.3% or more. Is preferred.
上記目的を達成するための本発明における第二の押出造粒用半球殻ダイの製造方法は、等間隔に少なくとも3ヶ所に切欠き部を有し、切欠き部の1辺に張出し部分と他辺に引込み部分を設けた少なくとも1枚のブランク板と、等間隔に少なくとも3ヶ所に張出し部分と引込み部分のない切欠き部を有する少なくとも1枚のブランク材から製造される半球殻ダイの製造方法であって、両面エッチング加工により多数の孔の孔明けを行ってそれぞれの上記ブランク材から平板状の展開多孔板元板を製作し、拡散接合により孔位置を合わせて上記展開多孔板元板を一体化して平板状の展開多孔板を製作し、上記展開多孔板をプレス成形して、上記張出し部分及び上記引込み部分を設けた上記ブランク材の接合部と、上記張出し部分及び上記引込み部分のない上記ブランク材の接合部をずらした半球殻状とし、レーザ溶接により上記接合部を接合して製造するものである。
The second process for producing an extrusion granulating hemispherical shell die in the present invention for achieving the above object, equidistantly has a notch in at least three places, and Zhang out portion on one side of the notch at least one blank plate provided with a pull-inclusive portion other side, equally spaced hemispherical shell die produced from at least one blank having at least three notches with no overhang and retractable part office It is a manufacturing method , drilling a large number of holes by double-sided etching processing, producing a flat plate-shaped developed porous plate base plate from each of the above-mentioned blank materials, aligning the hole positions by diffusion bonding, and the above-mentioned developed porous plate base A plate-shaped developed perforated plate is manufactured by integrating the plates, the developed perforated plate is press-molded, and the blank material joining portion provided with the overhanging portion and the drawing-in portion, the overhanging portion, and the drawing-in portion And without the blank hemispherical shifted the junction, in which is prepared by joining the joint portions by laser welding.
ここで上記発明の押出造粒用半球殻ダイの製造方法は、前記ブランク材の板厚が0.3mm以下、前記多数の孔の形状が円形でその直径が0.6mm以下であり、開孔率が22.7%以上であることが好ましい。また、上記本発明の押出造粒用半球殻ダイの製造方法は、前記ブランク材の板厚が0.3mm以下、前記多数の孔の形状が多角形でその内接円の直径が0.6mm以下であり、開孔率が25.0%以上であることが好ましい。
Here, the manufacturing method of the hemispherical shell die for extrusion granulation according to the present invention is such that the blank material has a plate thickness of 0.3 mm or less, the shape of the numerous holes is circular, and the diameter thereof is 0.6 mm or less. The rate is preferably 22.7% or more. Further, in the method for producing the hemispherical shell die for extrusion granulation according to the present invention, the blank material has a plate thickness of 0.3 mm or less, the numerous holes are polygonal, and the diameter of the inscribed circle is 0.6 mm. The open area ratio is preferably 25.0% or more.
上記目的を達成するための本発明における押出粒用半球殻ダイの第一の製造方法は、等間隔に少なくとも3ヶ所に切欠き部を有し、切欠き部の1辺に若干の幅の張出し部分を設けたブランク材を製作する工程、両面エッチング加工により多数の孔の孔明けと同時に上記張出し部分の板厚の半分と、上記張出し部分とプレス成形時に重複する部分の板厚の半分の除去を行い、平板状の展開多孔板を製作する工程、上記展開多孔板をプレス成形して、上記張出し部分の板厚の半分を除去した部分と、上記張出し部分とプレス成形時に重複する部分の板厚の半部を除去した部分を重ね合わせた半球殻状とする工程、レーザ溶接により上記張出し部分と上記重複する部分との接合部を接合する工程からなるものである。
In order to achieve the above object, the first method for producing a hemispherical shell die for extruded grains according to the present invention has at least three notches at equal intervals, and has a slightly overhang on one side of the notch. Process of manufacturing blank material with a part, removal of half of the thickness of the overhanging part at the same time as the drilling of a large number of holes by double-sided etching and half of the thickness of the overhanging part and the overlapping part during press molding was carried out, the step of fabricating a flat expansion perforated plate and the upper Symbol expanded porous plate by press molding, a thickness half was removed portion of the overhang portion, the portions overlapping at the projecting portion and the press-molding It consists of a step of forming a hemispherical shell by superimposing the portions from which the half of the plate thickness is removed, and a step of joining the joint between the overhanging portion and the overlapping portion by laser welding.
上記目的を達成するための本発明における押出造粒用半球殻ダイの第二の製造方法は、等間隔に少なくとも3ヶ所に切欠き部を有し、切欠き部の1辺に若干の幅の張出し部分と他辺に若干の幅の引込み部分を設けた少なくとも1枚のブランク材と、等間隔に少なくとも3ヶ所に張出し部分と引込み部分のない切欠き部を有する少なくとも1枚のブランク材を製作する工程、両面エッチング加工により多数の孔の孔明けを行ってそれぞれの上記ブランク材から平板状の展開多孔板元板を製作する工程、拡散結合により孔位置を合わせて上記展開多孔板元板を一体化して平板状の展開多孔板を製作する工程、上記展開多孔板をプレス成形して、上記張出し部分及び上記引込み部分を設けた上記ブランク材の接合部と、上記張出し部分及び上記引込み部分のない上記ブランク材の接合部をずらした半球殻状とする工程、レーザ溶接により上記接合部分を接合する工程からなるものである。
In order to achieve the above object, the second production method of the hemispherical shell die for extrusion granulation in the present invention has at least three notches at regular intervals, and has a slight width on one side of the notch. Produced at least one blank material with at least one blank part with a protruding part and a retracting part with a slight width on the other side, and at least one blank part having notched parts with no protruding part and a retracting part at equal intervals. to process, a step of fabricating a flat expanded porous plate original plate from each of the blank carried out drilling of multiple holes by means of a double-sided etching, the expanded porous Hanmoto plate combined hole positions by a diffusion bond process integrated to fabricate a flat expansion perforated plate, the upper Symbol deployment perforated plate by press molding, and the junction of the blank provided with the overhanging portion and the retraction portion, the overhang portion and the pull Step of the partial without the blank hemispherical shifted the joint, is made of a step of joining the joining portions by laser welding.
上記発明における第一の押出造粒用半球殻ダイの製造方法によれば、平板状の展開多孔板を半球殻状とする際に接合部に重複する部分を設けることにより接合部に隙間が発生することを防止することができる。そこで隙間を埋める溶接作業が必要でなくなり、レーザ溶接を採用することができる。さらに孔径に合わせたブランク材の板厚を選択することができるため孔の間隔を小さくすることができ、開孔率を増加させることができる。その結果、押出造粒において顆粒の硬度を低減することができ、平均粒子径が100〜400μm程度の錠剤成形用顆粒を製造することができる。
According to the first method for producing a hemispherical shell die for extrusion granulation in the above invention, a gap is generated in the joint portion by providing an overlapping portion in the joint portion when the flat plate-shaped development perforated plate is formed into a hemispherical shell shape. Can be prevented. Therefore, welding work for filling the gap is not necessary, and laser welding can be employed. Furthermore, since the plate | board thickness of the blank material matched with the hole diameter can be selected, the space | interval of a hole can be made small and a hole area ratio can be increased. As a result, it is possible to reduce the hardness of the granules in extrusion granulation, and it is possible to produce granules for tableting having an average particle diameter of about 100 to 400 μm.
上記発明における第二の押出造粒用半球殻ダイの製造方法によれば、平板状の展開多孔板を半球殻状とする際に接合部に重複する部分を設けることにより接合部に隙間が発生することを防止することができる。そこで隙間を埋める溶接作業が必要でなくなり、レーザ溶接を採用することができる。さらに孔径に関係なくブランク材の板厚を選択することができるため孔の隙間を小さくすることができ、開孔率を増加させることができる。その結果、押出造粒において顆粒の硬度を低減することができ、平均粒子径が100〜600μm程度の錠剤成形用顆粒を製造することができる。さらに半球殻ダイ強度を増加させたい場合や顆粒の硬度を逆に高くしたい場合にはブランク材の板厚および開孔率を一定として積層する枚数を増加させ、展開多孔板の板厚を増加させればよい。
According to the second method for producing a hemispherical shell die for extrusion granulation in the above invention, a gap is generated in the joint portion by providing an overlapping portion in the joint portion when the flattened perforated plate is formed into a hemispherical shell shape. Can be prevented. Therefore, welding work for filling the gap is not necessary, and laser welding can be employed. Furthermore, since the plate | board thickness of a blank material can be selected irrespective of a hole diameter, the clearance gap between holes can be made small and an opening rate can be increased. As a result, it is possible to reduce the hardness of the granules in extrusion granulation, and it is possible to produce granules for tableting having an average particle diameter of about 100 to 600 μm. If you want to increase the strength of the hemispherical shell die or increase the hardness of the granules, increase the number of sheets to be laminated while keeping the plate thickness and open area ratio of the blank material constant, and increase the thickness of the expanded perforated plate. Just do it.
上記本発明における押出造粒用半球殻ダイの第一の製造方法によれば、平板状の展開多孔板を半球殻状とする際に接合部に重複する部分を設けることにより接合部に隙間が発生することを防止することができる。そこで隙間を埋める溶接作業が必要でなくなり、レーザ溶接を採用することができる。その結果、接合部を溶接する工程での半球殻ダイの不良品の発生率を低減することができ、製造コストを低減することができる。 According to the first manufacturing method of the hemispherical shell die for extrusion granulation according to the present invention, when the flat plate-shaped developed perforated plate is formed into a hemispherical shell, there is a gap in the joint by providing an overlapping portion in the joint. Occurrence can be prevented. Therefore, welding work for filling the gap is not necessary, and laser welding can be employed. As a result, the incidence of defective hemispherical shell dies in the process of welding the joints can be reduced, and the manufacturing cost can be reduced.
上記本発明における押出造粒用半球殻ダイの第二の製造方法によれば、平板状の展開多孔板を半球殻状とする際に接合部に重複する部分を設けることにより接合部に隙間が発生することを防止することができる。そこで隙間を埋める溶接作業が必要でなくなり、レーザ溶接を採用することができる。その結果、接合部を溶接する工程での半球殻ダイの不良品の発生率を低減することができる。また、ブランク材の板厚を展開多孔板の板厚に関係なく選択することができるためこれまで不可能であった大きな開孔率の半球殻ダイを製造することができる。さらに、たとえば半球殻ダイ強度を増加させたい場合や顆粒の硬度を逆に高くしたい場合にはブランク材の板厚および開孔率を一定として積層する枚数を増加させ、展開多孔板の板厚を増加させればよく、ブランク材の板厚、展開多孔板の板厚および開孔率を原料粉体の特性の変化に合わせることができる柔軟性を有している。 According to the second method for producing a hemispherical shell die for extrusion granulation in the present invention, a gap is formed in the joint portion by providing an overlapping portion in the joint portion when the flat plate-shaped developed perforated plate is formed into a hemispherical shell shape. Occurrence can be prevented. Therefore, welding work for filling the gap is not necessary, and laser welding can be employed. As a result, it is possible to reduce the incidence of defective hemispherical shell dies in the process of welding the joint. Further, since the thickness of the blank material can be selected regardless of the thickness of the developed perforated plate, a hemispherical die having a large open area which has been impossible until now can be manufactured. Furthermore, for example, if you want to increase the strength of the hemispherical shell die or increase the hardness of the granules, increase the number of sheets to be laminated while keeping the plate thickness and open area ratio of the blank material constant, and increase the plate thickness of the expanded perforated plate. What is necessary is just to increase, and it has the softness | flexibility which can match the board | plate thickness of a blank material, the board | plate thickness of an expansion | deployment perforated board, and the aperture ratio to the change of the characteristic of raw material powder.
次に本発明を実施するための形態を、図面を参照して説明する。 Next, embodiments for carrying out the present invention will be described with reference to the drawings.
図3に示すような等間隔に3ヶ所に設けられた切欠き部2に張出し部分40を設けたブランク材10に両面エッチング加工を施し、孔明け領域3に多数の孔を明けると同時に板厚tの半分を除去した部分5を設けた展開多孔板を製造する。次に展開多孔板をプレス成形し、板厚tの半分を除去した部分5が重なり合った半球殻状とし、重なり合った接合部6をレーザ溶接する。最後に内面を平滑に仕上げて半球殻ダイを完成させる。 As shown in FIG. 3, double-side etching is performed on the blank 10 in which the
展開多孔板の板厚をたとえば0.3mmとし、孔の配列を正三角形配列として孔径および孔の間隔をたとえば0.3mmとすれば、22.7%の開孔率の半球殻ダイが得られる。また、エッチング技術の進歩により孔の最小間隔は板厚以下とすることが可能になってきており、孔の間隔をたとえば0.25mmとすれば、27.0%の開孔率の半球殻ダイが得られる。半球ダイの材質は、たとえばSUS316である。 If the plate thickness of the expanded perforated plate is 0.3 mm, the hole arrangement is an equilateral triangle arrangement, and the hole diameter and hole interval is 0.3 mm, for example, a hemispherical die having a hole area ratio of 22.7% can be obtained. . Further, with the progress of etching technology, the minimum interval between holes can be made smaller than the plate thickness. If the interval between holes is 0.25 mm, for example, a hemispherical shell die having an aperture ratio of 27.0%. Is obtained. The material of the hemispherical die is, for example, SUS316.
図5に示すような等間隔に3ヶ所に設けられた切欠き部2に張出し部分400と引込み部分700を設けたブランク材100に両面エッチング加工を施し、孔明け領域3に多数の孔を明けた展開多孔板元板を少なくとも1枚製作する。さらに図6に示すような、従来のブランク材1と同様の外形を有するブランク材1‘に両面エッチング加工を施し、孔明け領域3に多数の孔を明けた展開多孔板元板を少なくとも1枚製作する。次にこれらの展開多孔板元板を、それぞれの孔位置を正確に合わせて拡散接合し、一体化して展開多孔板を製作する。この後、展開多孔板をプレス成形し、張出し部分400と引込み部分700が突き合わさった半球殻状とし、図7に示すように接合部6をレーザ溶接する。最後に内面を平滑に仕上げて半球殻ダイを完成させる。 As shown in FIG. 5, double-side etching is performed on the blank material 100 in which the overhanging
また、図6に示すような、従来のブランク材1と同様の外形を有するブランク材1‘に両面エッチング加工を施し、孔明け領域3に多数の孔を明けた展開多孔板元板を少なくとも2枚製作する。次にこれらの展開多孔板元板を、それぞれの孔位置を正確に合わせて拡散接合し、一体化して展開多孔板を製作する。この後、展開多孔板をプレス成形し、接合部6が突合わさった半球殻状とし、図8に示すように接合部6を従来の技術を使用してTIG溶接する。最後に内面を平滑に仕上げて半球殻ダイを完成させる。 Further, as shown in FIG. 6, at least two developed perforated plate base plates in which a
展開多孔板元板の板厚をたとえば0.3mmとしてそれぞれ1枚の構成とし、孔の配列を正三角形配列として孔径をたとえば0.6mm、孔の間隔をたとえば0.3mmとすれば、40.3%の開孔率の半球殻ダイが得られる。また、エッチング技術の進歩により孔の最小間隔は板厚以下とすることが可能になってきており、孔の間隔をたとえば0.25mmとすれば、45.2%の開孔率の半球殻ダイが得られる。展開多孔板の板厚が0.6mmの従来品では最大開孔率は22.7%である。同様に展開多孔板元板の板厚をたとえば0.15mmとしてそれぞれ1枚の構成とし、孔の配列を正三角形配列として孔径をたとえば0.2mm、孔の間隔をたとえば0.15mmとすれば、29.6%の開孔率の半球殻ダイが得られる。半球ダイの材質は、たとえばSUS316である。 If the plate thickness of the developed perforated plate is 0.3 mm, for example, one plate is formed, the hole arrangement is an equilateral triangle arrangement, the hole diameter is 0.6 mm, and the hole interval is 0.3 mm, for example, 40. A hemispherical shell die with an open area of 3% is obtained. Further, with the progress of etching technology, it is possible to make the minimum hole interval less than the plate thickness. If the hole interval is, for example, 0.25 mm, a hemispherical shell die having a hole area ratio of 45.2%. Is obtained. In a conventional product having a developed perforated plate thickness of 0.6 mm, the maximum aperture ratio is 22.7%. Similarly, if the plate thickness of the developed perforated plate base plate is 0.15 mm, for example, each is configured as one piece, the hole arrangement is an equilateral triangle arrangement, the hole diameter is 0.2 mm, and the hole interval is 0.15 mm, A hemispherical shell die with an opening rate of 29.6% is obtained. The material of the hemispherical die is, for example, SUS316.
また、展開多孔板元板の板厚をたとえば0.15mmとしてそれぞれ1枚の構成とし、孔の配列を正三角形配列として孔の形状を、内接円の直径がたとえば0.25mmの正六角形とし、孔の間隔をたとえば0.15mmとすれば、30.9%の開孔率の半球殻ダイが得られる。また、板厚が薄くなれば、エッチング時間を短縮することができるため、六角形の角部Rをより小さくすることができ、正確な正六角形に近づけることができる。 Further, the thickness of the developed perforated plate base plate is set to be, for example, 0.15 mm, each is configured as a single plate, the hole arrangement is a regular triangle arrangement, and the hole shape is a regular hexagon having an inscribed circle diameter of, for example, 0.25 mm. If the hole interval is 0.15 mm, for example, a hemispherical die having a hole area ratio of 30.9% can be obtained. Further, if the plate thickness is reduced, the etching time can be shortened, so that the corner R of the hexagon can be made smaller, and it can be approximated to an accurate regular hexagon.
1、1‘、10、100 半球殻ダイのブランク材
2 切欠き部
3 孔明け領域
6 接合部
40、400 張出し部
50 エッチングにより板厚の半分を除去する部分
700 引込み部
800 拡散接合部
t ブランク材の板厚1, 1 ′, 10, 100 Hemispherical die blank 2
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| JPH0622669B2 (en) * | 1990-12-17 | 1994-03-30 | 不二パウダル株式会社 | Pre-extrusion screw type extrusion granulator |
| JPH06115545A (en) * | 1992-09-18 | 1994-04-26 | Hitachi Ltd | Long tubular container and laser welding device used for manufacturing the same |
| JPH0729038B2 (en) * | 1992-06-16 | 1995-04-05 | 不二パウダル株式会社 | Pre-extrusion screw type extrusion granulator for fine granules |
| JPH0761443B2 (en) * | 1993-02-03 | 1995-07-05 | 不二パウダル株式会社 | Dome-shaped die, manufacturing method thereof, and die material used in the method |
| JPH07284971A (en) * | 1994-04-14 | 1995-10-31 | Nippon Steel Corp | Three-dimensional product for press molding and manufacturing method thereof |
| JPH09225663A (en) * | 1996-02-19 | 1997-09-02 | Toyoda Suchiirusentaa Kk | Laser welding method |
| JP3349920B2 (en) * | 1997-05-29 | 2002-11-25 | 不二パウダル株式会社 | Pre-extrusion granulator |
| US6060682A (en) * | 1997-11-13 | 2000-05-09 | Westbroek; Wido | Overlapping joint for laser welding of tailored blanks |
| JP2002505961A (en) * | 1998-03-10 | 2002-02-26 | イー・アイ・デュポン・ドウ・ヌムール・アンド・カンパニー | Method of manufacturing a dome shaped extrusion die |
| JP3409153B2 (en) * | 1998-10-05 | 2003-05-26 | オーイーエム株式会社 | Method of forming fine holes smaller than the plate thickness by etching means |
| JP2003081686A (en) * | 2001-09-07 | 2003-03-19 | Tanaka Sangyo Kk | Pellet fertilizer |
| JP2003306783A (en) * | 2002-04-18 | 2003-10-31 | Takayasu Okubo | Method of etching metallic thin plate and etched article |
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