| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 121 | Verfahren zum Entgraten von aus körnigem Material gefertigten Sandkernen | EP83100035.1 | 1983-01-04 | EP0086321A1 | 1983-08-24 | Frech, Karl; Tölle, Hans; Lüdke, Hartmut |
Die Erfindung betrifft ein Verfahren zum Entgraten von aus körnigem Material gebundenen Formteilen, z.B. Sandkernen (19) der Gießereitechnik, und schlägt vor, diese im gleichen Arbeitsgang mit einer Oberflächenschicht zu überziehen dadurch, daß die Formteile in einem Ringvibrator (1) zusammen mit einem ein pulverförmiges Überzugsmittel enthaltenden Schleifkörpermedium umgewälzt werden, welches vorzugsweise durch einen ca. 50%igen Anteil an Hartschaumkörpern (13) aufgelockert ist. |
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| 122 | Dispositif de préhension et de transport de pièces et procédé d'ébavurage de noyaux de fonderie en sable | EP82400480.8 | 1982-03-16 | EP0063966A1 | 1982-11-03 | Chamdru, Jacques |
Dispositif de préhension et de transport de pièces comprenant, pour saisir une pièce, au moins une paire de pastilles souples (6) montées face à face sur un support commun (2) mobile par rapport à la pièce à saisir en étant gonflables l'une en direction de l'autre de manière à laisser subsister entre elles, à l'état non gonflé, un intervalle légèrement supérieur à la distance séparant deux faces opposées de la pièce ou d'une partie en relief (4) de la pièce, et à serrer lesdites faces entre elles à l'état gonflé. Application: notamment à la préhension de noyaux de fonderie en sable dans la boîte à noyaux et à l'ébavurage des noyaux pour la coulée de pièces de sécurité pour véhicules automobile. |
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| 123 | TOOL FOR MANUFACTURING A FOUNDRY CORE FOR A TURBINE ENGINE BLADE AND PRODUCTION METHOD THEREOF | PCT/FR2013051028 | 2013-05-07 | WO2013167847A3 | 2014-07-03 | TRUELLE FRANCK EDMOND MAURICE; BARIAUD CHRISTIAN; BOUTHEMY PHILIPPE; POURFILET PATRICK; VERGER JEAN-LOUIS MARTIAL; GRANDIN ALAIN; QUACH DANIEL |
| The invention relates to a tool for manufacturing a foundry core for producing a cooling circuit for a turbine engine blade, including a mould (40) for injecting a paste, which comprises cavities (42, 44) for a first portion and at least one other portion of the core, and means (50, 54) for supporting and/or fitting end portions of at least one ceramic rod which connects the abovementioned portions of the core and which passes through the cavity for the first portion of the core, characterised in that it includes, in the cavity for the first portion of the core, a means (58) for supporting a medial portion of the rod. | ||||||
| 124 | 金型の表面処理方法及び前記方法で処理された金型 | JP2015072793 | 2015-08-11 | JPWO2017026056A1 | 2018-07-05 | 間瀬 恵二; 石橋 正三; 近藤 祐介 |
| 如何なる材質の金型に対し適用した場合であっても大幅な離型性の向上を得ることのできる金型の表面処理方法を提供する。本発明は,金型の表面に対し略球状の噴射材を噴射すると共に衝突させて,前記表面に次式で規定する条件を満たす径(W)及び深さ(D)を備えたディンプルを形成する。 1+3.3e-H/230 ≦ W ≦ 3+13.4e-H/1060 ・・・(式1) 0.01+0.2e-H/230 ≦ D ≦ 0.01+1.1e-H/500・・・(式2) ここで, Wは,ディンプルの相当径(μm) Dは,ディンプルの深さ(μm) Hは,金型の母材硬度(Hv) |
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| 125 | 鋼の鋳造用耐火物,及びスライディングノズル装置用のプレート,並びに鋼の鋳造用耐火物の製造方法 | JP2016505261 | 2015-02-25 | JP6279068B2 | 2018-02-14 | 牧野 太郎; 伊藤 和男; 赤峰 経一郎 |
| 126 | 鋼の鋳造用耐火物,及びスライディングノズル装置用のプレート,並びに鋼の鋳造用耐火物の製造方法 | JP2016505261 | 2015-02-25 | JPWO2015129745A1 | 2017-03-30 | 太郎 牧野; 和男 伊藤; 経一郎 赤峰 |
| 本発明の課題は、金属アルミニウムを含有する耐火物の破壊を抑制することにある。本発明の耐火物は、フリーの炭素を1質量%以上10質量%以下,金属アルミニウムを1質量%以上15質量%以下含有し,残部が金属酸化物を含む耐火材料からなる鋼の鋳造用耐火物であって,当該耐火物内の金属アルミニウム含有量をAl質量%,見掛気孔率をP%,かさ比重をDとするときに,式1を満たすことを特徴とする,鋼の鋳造用耐火物である。0.31×Al≦(P−4)/D ・・・式1 | ||||||
| 127 | タービンエンジンブレード用の鋳物用中子を製造するための工具およびその製造方法 | JP2015510863 | 2013-05-07 | JP2015520677A | 2015-07-23 | トリュエル,フランク・エドモン・モーリス; バリオー,クリスチャン; ブトゥミ,フィリップ; プールフィレ,パトリック; ベルジェ,ジャン−ルイ・マルシャル; グランダン,アラン; カシュ,ダニエル |
| タービンエンジンのブレードの冷却用の回路を作製するための鋳物用中子を製作するためのツーリングにして、ツーリングが、ペーストを注入し、かつ第1の部分のための、および中子の少なくとも1つの他の部分のためのへこみ(42、44)を有するための金型(40)と、中子の上述の部分を相互に接続させかつ中子の第1の部分のためのへこみを通過する少なくとも1つのセラミックロッドの端部に当接しており、かつ/またはそれを係合するための手段(50、54)とを備えるツーリングであって、そのまたは各ロッドの実質的な中央部分を支持するように中子の第1の部分のためのへこみに支持手段(58)を含むことを特徴とする、ツーリング。 | ||||||
| 128 | 無機鋳型及び中子のためのコーティング組成物及びその使用方法及びサイジングのための方法 | JP2014532247 | 2012-10-01 | JP2014527915A | 2014-10-23 | クロスコウスキー、ミハエル; ヴァハターチク、ペーター; ヴァレンホルスト、カロリン |
| 本発明の目的は、ある種の粘土素材、水性担体流体及び粒子状耐火材を含有するコーティング組成物と、バインダーとして水ガラスを用いて製造される中子及び鋳型における該コーティング組成物の使用方法とを提供することである。本発明の目的はさらに、サイジング剤の製造方法と、該サイジング剤の無機粘結鋳型及び中子への塗布方法を提供することである。【選択図】なし | ||||||
| 129 | Surface-treated mold in the surface treatment method and the method of mold | JP2010183110 | 2010-08-18 | JP5606824B2 | 2014-10-15 | 恵二 間瀬 |
| 130 | Loss model for the press molding die casting | JP2012554601 | 2011-01-28 | JP5527437B2 | 2014-06-18 | 晋 岡部; 正則 佐藤; 将志 高橋; 剛志 難波 |
| 131 | Manufacturing of mold casting purpose | JP2010538487 | 2008-12-19 | JP2011506148A | 2011-03-03 | クリスチャン ゲッベルト; グンター シャッフェル; ラルフ ノンニンガー; ミハエル ハーニッシュ; クリスチャン プリーベ; フォルカー ホフマン; フランク マイアー; マークヌス ユント; ヘニング レーゼ |
| A process for producing a mold includes introducing a composition including a particulate, refractory material and a binder into a hollow model having an interior cavity which determines contours of all surfaces of the mold or a mold part, wherein the model includes at least two separate parts to permit removal of the mold, and applying a second composition containing at least one organosilicon component and at least one solvent to at least one of the separable parts before use. | ||||||
| 132 | Cleaning and finishing of ceramic mold | JP51330494 | 1993-11-22 | JP3361524B2 | 2003-01-07 | カーヌジャ,サトビル; サックス,エマニュエル・エム; シマ,マイケル・ジェイ; ブレット,ジェームズ・エフ |
| 133 | Directional solidified casting method and reinforced core for the method | JP24438798 | 1998-08-14 | JPH11123528A | 1999-05-11 | NAIK RAJEEV V; CORRIGAN JOHN |
| PROBLEM TO BE SOLVED: To reduce the deformation of a core caused by high temp. at the time of casting and to enable the simplification of removal of the core with chemical leaching after casting by using the reinforcing core material arranging carbon base reinforcing material in the inside of a tubular sheath consisting essentially of a qualtz or the other silica and forming the bent core. SOLUTION: The sheaths at the outside forming the core material are formed to about 0.010-0.015 inch wall thickness by etching with hydrofluoric acid water solution to remove the surface defect. This shape can be used as triangle columnar shape, etc., besides a round columnar shape and is decided so as to match to the prescribed shape of a casting together with a pipe diameter and length. Further, the carbon base reinforcing material 4 inserted along the inside and the longitudinal direction of the sheaths 1, 2 is made of graphite rod or carbon fiber flux, and the shape and size, etc., are decided with the shape of the sheaths 1, 2. At the time of forming to the desired bent shape by jointing the complex core material, after joining the carbon base reinforcing material 4 at the joining point 3 by using carbon joining material etc., the sheaths 1, 2 are melt-joined and the continuation of the inner part passages 1a, 2a is held. COPYRIGHT: (C)1999,JPO | ||||||
| 134 | Casting core, in particular, an apparatus and method for clove individual core | JP50320195 | 1994-05-18 | JPH08508936A | 1996-09-24 | ランデュア、ヴェルナー |
| (57)【要約】 鋳造用コア、特に、個別コア(1)を張持する装置であって、この装置は、張持手段(2)を具備する張持装置(3)を有する。 本発明の対象となるコアには、張持手段(2)を具備する張持装置(3)が係止する少なくとも1つの凹部、開口、通路等が設けられている。 この装置はコアを自動搬送、特に、自動組立するために構成されており、簡単な構造でありながら、搬送中のコアの損傷を防止する。 前記張持手段(2)は、好ましくは輪郭に対応して前記コア(1)の内壁(9)を押圧する掴持顎部(2)として構成されている。 | ||||||
| 135 | Deflashing device for core | JP28987986 | 1986-12-05 | JPS63144844A | 1988-06-17 | YAMAGUCHI HIROSHI; YAMAUCHI MANABU |
| PURPOSE:To obtain an efficient core deflashing device which decreases surface roughening by hanging many chains to a holding plate to which reciprocating vertical and horizontal movements are given and using twisted metallic wires or metallic wires having circular sections planed at both side faces to form the respective links of the chains. CONSTITUTION:A lifting frame 15 which is pivotally supported by the links 16-20 of a supporting frame 9 is vertically moved by means of a connecting bar 14 of a crank 13 for lifting. While the timing with the vertical movement is controlled, a slide frame 12 is horizontally moved by a connecting rod 3 of an oscillation crank 27 on the frame 15. The core is thus deflashed by the plural chains 10 mounted to the supporting plate 11 of the frame 12. The respective links of the chains 10 consist of the twisted wires of the fine metallic strands or the metallic wires having nearly the circular sections, both opposed side faces of which are cut away and are formed with flat parts A. The efficient deflashing of the core with the decreased surface roughening is thereby executed. | ||||||
| 136 | Deflashing device for casting core | JP7511385 | 1985-04-09 | JPS61232041A | 1986-10-16 | NAKABAYASHI SHIGEMITSU; SAKAKIBARA MASAKI; IMURA TAKESHI; SUGANUMA HIROMITSU |
| PURPOSE:To reduce a deflashing operation and to make possible the efficient removal without damaging cores by moving upward and downward flash removing members relative to the cores and providing belt-like elastic materials which contact under pressure with the cores along the surface shape thereof to the removing members. CONSTITUTION:The cores, of which two pieces each are paired, are set to attaching bases 4, 4 of a deflashing device 1 and are clamped 5, 5. A cylinder unit 9 is driven to lower the 1st and 2nd removing members 15, 16 and a cylinder unit 23 is driven to rise the 3rd removing member 24. The belt-like elastic materials 18, 22, 26 of the removing members 15, 16, 24 are easily deformed along the surface shape of the cores and the members 15, 16, 24 move upward and downward in the state of maintaining the press contact with the core 6 surfaces. The flashes 6a on the surface of the cores 6 are uniformly removed by moving upward and downward the above-mentioned members by, for example, about two reciprocations. | ||||||
| 137 | JPS6020112B2 - | JP9580682 | 1982-06-04 | JPS6020112B2 | 1985-05-20 | KATO JUJI; OGIWARA KATSUHIKO |
| 138 | Fettling device for core | JP19915881 | 1981-12-09 | JPS58100942A | 1983-06-15 | SASAKI MISAO; OOTSUKA KENJI |
| PURPOSE:To make fettling installations simple by disposing plural shafts which contact linearly the outside circumferential surfaces of shaftlike cores in parallel and freely rotatably, placing the cores among the shafts and rotating the shafts thereby removing fins. CONSTITUTION:When four pieces of shaftlike cores are placed among three pieces of shafts 1, 2, 3, and an air motor 5 is operated, the shafts 1, 2, 3 revolve in the same direction. The cores roll as well in this time, and the fins on the outside surfaces thereof contact repeatedly linearly the outside circumferential surfaces of the shafts 1, 2, 3 whereby the fins are chipped off. Over chipping of the cores or the imperfect chipping off of the fins is obviated by a preset timer. Upon stopping of the revolution, air cylinders 9 are operated and the shafts 1, 3 on both sides move to the right and left thereby dropping the cores. The dropped cores are carried out by a chute 10. | ||||||
| 139 | JPS5541856B2 - | JP10507078 | 1978-08-28 | JPS5541856B2 | 1980-10-27 | |
| 140 | Trimming method of shell core | JP10507078 | 1978-08-28 | JPS5533820A | 1980-03-10 | FUJII FUJIO; YAMADA MINORU; CHINO TOSHIYUKI; KAJIYAMA YOSHINORI |
| PURPOSE:To trim efficiently without damaging the core surface, by causing the shots of specified size made of Fe, Al and other metal to drop naturally in parallel form like raindrops, and disposing the shell core of sand mold having horizontal split surface, using resin as binder, in the specified distance from the shop dropping position. CONSTITUTION:A shell core 1 of sand mold, using resin as binder, of the shell mold method or hot box method is transferred on a belt conveyor 2. At this time, metal shots 5 of Fe, Al, etc. of 0.3 to 2mm size are caused to drop naturally almost in parallel form like raindrops from a shot hopper 4 having a screen 3 with 200 to 600mm drop head H. In the lower dropping range of these shots 5, the core 1 is sent in, and the conveyor 2 is stopped for several seconds in this position, and fins occurring on the split surface of the core 1 are removed. | ||||||
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