| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | Mechanical coin feed for a souvenir penny press | US964742 | 1997-11-05 | US5950475A | 1999-09-14 | Alexander D. Penny |
| A coin feed for a souvenir coin elongation machine having a housing, a coin slot formed in the top of the housing, a pair of embossing rolls having a predetermined number (N) of embossing plates spaced equally around the outer circumferential surface of at least one embossing roll, and a gravity fed coin chute connecting the coin slot to the embossing rolls. The coin feed has a coin feed housing and a pair of stops. Each of the stops is movable between a first limit position traversing the coin chute and a second limit position retracted out of said coin chute. Each stop is mechanically linked to said embossing rolls by a cam and a gear train. The mechanical coin feed is located intermediate the coin chute and advancees only one coin at a time to the embossing rolls each time the embossing rolls are rotated 1/N revolutions. | ||||||
| 42 | Process for manufacturing galvanized concrete reinforcement ribbon | US603752 | 1990-11-06 | US5154534A | 1992-10-13 | Georges J. M. Guerin; Michel Temenides |
| According to a process for the manufacture of a framework (1) for reinforcing concrete structures and, in particular, concrete slab or shell structures in the form of a steel strip (3) with notched or goffered surfaces, a hot laminated sheet is used as a basis material having a width of between 1.5 and 6 mm, whereby said sheet is made of steel with a carbon content of less than 0.9%, and elastic limit of approximately 500 MPa. Said sheet is subjected to a cold lamination process at a strength-hardening level greater than 40% in order to obtain a sheet having, on the one hand, a thickness of between 0.8 and 2.5 mm, and on the other hand, an elastic limit greater than 700 MPa whereby the sheet is cut again so as to obtain a steel strip (3) which is then continuously notched or goffered. The application also concerns the framework obtained according to the process. | ||||||
| 43 | Integrally stiffened rings | US649596 | 1991-02-01 | US5115655A | 1992-05-26 | James R. Martin; James P. Kuchma; David U. Furrer |
| A method for preparing rings having an integral stiffening geometric pattern on its outer surface is disclosed. The method employs a variation of the drum rolling process, but it incorporates unique tooling for providing the pattern, preferably comprising a plurality of segments which fit together to define a ring, the inner surface of which presents the desired pattern toward the center of the ring. A unique drum arrangement includes inner and outer components for locking the segments in place and for providing the structural integrity required for the final drum rolling operation. A cylinder, for example an aluminum or aluminum alloy cylinder, is placed in the drum, the cylinder being preformed and presized to fit concentrically within the segment defining ring. Following heating of the assembly to forming temperature, the cylinder is radially expanded using a sizing tool, and the assembly is then placed over a mandrel in preparation for drum rolling. In the illustrated embodiment, an isogrid pattern of recesses is formed in the segments, so that upon completion of drum rolling and disassembly of the drum and segments, a raised, integral isogrid stiffening pattern is provided on the outer ring cylinder surface. | ||||||
| 44 | Apparatus and method for roll forming and marking sheet metal | US610337 | 1990-11-05 | US5009093A | 1991-04-23 | F. Dillard Quinn, Jr.; Anthony W. Quinn |
| Method and apparatus for roll forming and marking sheet metal. Sheet metal is embossed with an identifying relief pattern as the sheet metal moves through the nip between first and second forming rollers of a roll-forming machine. More particularly, sheet metal is embossed with first and second embossing rollers juxtaposed so that there is a nip therebetween. Sheet metal moves through the nip between the first and second embossing rollers as the sheet metal moves through the nip between first and second forming rollers. Sheet metal products are easily and economically marked with permanent identifying relief patterns. | ||||||
| 45 | Wear-resistant ceramic, cermet or metallic embossing surfaces, methods for producing same, methods of embossing articles by same and novel embossed articles | US894199 | 1986-08-07 | US4787837A | 1988-11-29 | Norman D. Bell |
| Wear- and corrosion-resistant ceramic, cermet or metallic patterned embossing surfaces, e.g., as a coating bonded to an embossing roll, containing an average of 50 to 2,000 peaks per inch covering said patterned embossing surface. Also, methods of producing a patterned, wear-resistant embossing surface by bonding a ceramic, cermet or metallic coating to a patterned embossing surface, e.g., of an embossing roll, providing an average of about 50 to about 2,000 peaks on the external surface of said coating covering said embossing surface. In addition, methods of embossing articles having surfaces embossable by pressure contact to provide an embossed design and matte finish by pressure contacting the embossable surface with a ceramic, cermet or metallic embossing surface having an embossing pattern and an average of about 50 to 2,000 peaks covering said embossing pattern, wherein the embossed surface of said article is covered with an average of 50 to 2,000 indentations providing a matte finish; the range of gloss provided by the matte finishes produced by a number of similar ceramic, cermet or metallic embossing surfaces is much narrower than that provided by matte finishes produced by a number of similar conventional embossing surfaces; and the level of gloss resulting from use of ceramic, cermet or metallic embossing surfaces is much less dependent on line speed and temperatures of the embossing or embossable surfaces than gloss resulting from conventional embossing surfaces. Additionally, novel embossed articles produced by the novel embossing surfaces and processes are characterized by surprising increases in impact strength and scuff-resistance and a decrease in gloss. | ||||||
| 46 | Apparatus for manufacturing a slat for a shutter | US154128 | 1980-05-29 | US4343171A | 1982-08-10 | Tokiyoshi Kagawa |
| A cold roll forming apparatus for forming a slat for a shutter having forming rolls successively disposed along a path line of the material and a pattern embossing roll disposed along the path line is shown. Metal band sheet fed through the apparatus is formed into a predetermined slat configuration and simultaneously repeated patterns are embossed on the flat surface of the slat.BACKGROUND OF THE INVENTION | ||||||
| 47 | Method of making an embossed composite sheet | US3769129D | 1968-03-29 | US3769129A | 1973-10-30 | WILLIAMS A |
| Method of making an embossed composite sheet including the steps of making an assembly of a base layer and a face layer with a layer of adhesive therebetween, heating the assembly to a temperature at which the adhesive is plastic, placing an embossing sheet having the desired pattern thereon on the face layer, and then exerting sufficient pressure on the embossing sheet while the assembled layers are so heated to impress the pattern on said face layer.
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| 48 | Tread plate and manufacture | US3627502D | 1968-10-01 | US3627502A | 1971-12-14 | REES WILLIAM H; SOLOMON NORMAN |
| TREAD PLATE HAS ANTISKID PROTUBERANCE COMPRISING FLATTOPPED CIRCULAR PROTRUSINS, AND ELONGATED CONVEX PROJECTIONS RADIATING FROM THE CIRCULAR PORTRUSIONS. THE TREAD PLATE HAS IMPROVED WALKING COMFORT AND ANTSKID PROPERTIES, AND ITS CONSTRUCTION FACILITATES MACHING OF THE ROLLS WHICH PRODUCE THE TREAD PLATE. IN ROLL MACHING ANTISKID PROTUBERANCE-FORMING RECESS ARE MAHCINED IN THE ROLLS BY CUTTING A GROOVE HAVING A CONCAVE BOTTOM SURFACE, THEN ALIGINGIN A DRILL OVER THE GROOVE AND DRILLING A FLAT-BOTTOMED HOLE, THE BOTTOM OF WHICH IS CONTIGUOUS TO THE DEEPEST PORTION OF THE GROOVE.
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| 49 | Method and apparatus for surface treatment of workpiece | US3491566D | 1967-11-01 | US3491566A | 1970-01-27 | HURD YORICK G |
| 50 | Hand facing machine for rule, type and border | US29525263 | 1963-07-15 | US3273370A | 1966-09-20 | OWENS JAMES M |
| 51 | Treadway and method of forming | US17915062 | 1962-03-12 | US3172343A | 1965-03-09 | JACOBS ROBERT C L |
| 52 | Method of producing surfaceroughened metal strips | US85641159 | 1959-12-01 | US3082517A | 1963-03-26 | HOLOWATY MICHAEL O |
| 53 | Method of pressing by rolling by means of an embossed wheel and pressing machine for carrying out the said method | US3381660 | 1960-06-03 | US3019723A | 1962-02-06 | ALFRED BAUER |
| 54 | Reinforced sheet metal | US45666942 | 1942-08-29 | US2443170A | 1948-06-08 | SMITH RICHARD S |
| 55 | Machine and method for forming projections on metal stock | US16538037 | 1937-09-23 | US2250542A | 1941-07-29 | ALVIN LODGE |
| 56 | オーステナイト系TWIPまたはTRIP/TWIP鋼からなる部材の製造方法 | JP2018502169 | 2016-07-08 | JP2018530428A | 2018-10-18 | フレーリヒ、 トーマス; リンドナー、 シュテファン |
| 本発明は、オーステナイト系TWIPまたはTRIP/TWIP鋼からなる部材の製造方法に関する。平面製造物(1)の少なくとも1つの面に少なくとも1つのくぼみ(16)を設けて平面製造物(1)を変形させる。また、本発明は、延性材料の母材に埋め込まれた高強度の鋼の領域を同一部材中に必要とする部材の使用に関する。 |
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| 57 | 熱交換器のための板部品を作成するための方法及び装置 | JP2017549791 | 2016-04-11 | JP2018516174A | 2018-06-21 | コントゥ,マウリ; ピトゥカネン,パーヴォ |
| 本発明は、熱交換器のための板部品ブランク材を作成するための方法及び装置に関する。連続シートの形状のシート材料(2)が、反対向きの表面パターン(7,7’,8)を有する2個のロール(5,6)の間で加工され、シート材料(2)中にプロファイル付き板部品ブランク材(3,3’,3’’)を形成する。ロール(5,6)は、共通の同期ギヤ(9)で相互の間の回転に関して制御されることで、実質的に同じ速度で回転するように同期される。このギヤは、ディスクパック又はギヤカップリングを備えた軸部(10,11)を介して、ロール(5,6)に連結されている。 | ||||||
| 58 | 平らな金属ブランクのエンボス加工(方法、器具、および対象物) | JP2015522235 | 2013-07-18 | JP6223447B2 | 2017-11-01 | アントニ・フォント・アンゲラ; アントニオ・コントレーラス・ロペス; ダニエル・ヒメネス・ドンセル; ラモン・マルティン・ロハス |
| 59 | Method for forming a surface improvement wall for use in processing apparatus for performing, surface improvement walls, and an apparatus incorporating the surface improved wall | JP2012548924 | 2010-08-27 | JP2013517140A | 2013-05-16 | サード、リチャード、エス. スミス、ザ; フラー、ケヴィン; ククルカ、デイヴィッド、ジェイ. |
| 処理を行うための表面改善壁部を形成する方法が開示されている。 この方法は、両側に初期表面を有する1本の材料を用意するステップであって、前記材料が、その表面の間の実質的に中ほどに位置する長手方向中心線を有し、前記初期表面の各々が初期面密度を有する、ステップと、面密度を有する2次模様を前記初期表面の各々に型押しして、前記材料をゆがめるステップと、面密度を有する1次模様をこのようなゆがめられた表面の各々に型押しして、前記材料をさらにゆがめ、且つ、各々の前記表面の面密度をさらに増大させるステップとを広く含む。 | ||||||
| 60 | Method of providing a holographic image on the outer surface of the hollow aluminum cylindrical body | JP2008299769 | 2008-11-25 | JP4437159B2 | 2010-03-24 | シャーファー、マーク、ダブリュ; シュー、サイモン; ホイットル、ネビル、シー; ラーセン、ロバート、ビー; ルベンダスキイ、トマス、エル |
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