序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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101 | Plastic leaf spring | US537270 | 1983-09-29 | US4688778A | 1987-08-25 | Herbert Woltron |
A plastic leaf spring for motor vehicles comprising a plurality of cured durometic plastic strips reinforced with high strength fibers aligned substantially in the direction of the maximum elongation or compression of the fibers occurring under spring load at least in essential resilient regions of the spring, the resilient regions being the strips bonded together by an adhesive and eventually also being bonded to another element and a process for its preparation. | ||||||
102 | Composite twine structure | US716565 | 1985-03-27 | US4680923A | 1987-07-21 | Charles E. Kaempen |
A composite structure comprises at least one ply comprising approximately parallel unidirected twines comprising helically-configured matrix-impregnated continuous strands of filament reinforcements to provide a flanged composite cantilever spring which serves as the principal constituent of a coupling structure. An interior ply of a coupling structure body member comprises unidirected longitudinal twines configured at a body member extremity to provide a flange member connected to a cantilever spring. An exterior ply is disposed transversely of and superimposed upon the interior ply to provide the cantilever spring hinge line. The composite cantilever spring can be constructed to deflect about either a straight or curved hinge line. A preferred tubular form of the coupling structure comprises at least one end configured as a polygonal array of flanged cantilever springs which serve as the socket end of a spring-lock coupling used to connect mating flanged spigot-end structures. A preferred segmented form of coupling structure comprises two semi-circular flanged cantilever spring members assembled and deflected by an encircling retaining sleeve.The method and apparatus for making a composite in the form of a preferred coupling structure comprises placing first ply loops of longitudinal twines upon a pin-ended forming surface, transversely placing a second ply of twines upon the first ply twines to deflect them into flange-forming cavities, hardening the twine-impregnating matrix, removing and slotting the flanged spring members to provide the desired coupling structure. | ||||||
103 | Extrusion-fill method of producing an elastomeric spring | US532417 | 1983-09-15 | US4541978A | 1985-09-17 | J. Robert Dieckmann; Michael L. Lauber; Mark R. Roodvoets |
An elastomeric spring is formed by extruding a rubbery material into a reinforcing sleeve in a mold during relative motion between the mold and nozzle, and thereafter vulcanizing. | ||||||
104 | Method for forming reinforced plastic composite articles | US567647 | 1984-01-03 | US4469541A | 1984-09-04 | William B. Goldsworthy |
Reinforced plastic composite articles which have a non-constant cross-sectional shape over their length, such that a first portion of the article has a different cross-sectional shape than a second portion of the article, and which portions may be integral with each other. In one embodiment, the article may have a non-constant cross-sectional shape with a constant cross-sectional volume over its length. In another embodiment, the article may have a non-constant cross-sectional shape and non-constant cross-sectional volume over its length. An apparatus and a method which utilizes a die having a die channel of non-constant cross-sectional shape is employed. In the apparatus, a pair of first and second die-forming members are used, and form in one or both of the die-forming members a die channel having a first portion of a cross-sectional shape which is different than a cross-sectional of a second die channel portion over the length of the die channel. One of the die-forming members may move relative to the other or both may move together at a constant speed in order to effectively pultrude a reinforced plastic composite article. | ||||||
105 | Bending spring made of fiber compound material | US372562 | 1982-04-28 | US4457500A | 1984-07-03 | Franz Drachenberg; Walter Oefner |
A bending spring or similar component made of fiber compound material is soonstructed that the stress on the fiber reinforcing strands is optimized while the stress on the matrix of resinous impregnating material is reduced. For this purpose fiber inserts divide the matrix of suitable binder material which holds unidirectionally extending reinforcing fibers embedded in the matrix. The fiber inserts have a main fiber orientation extending about radially to the longitudinal bending axis of the spring. The fiber inserts may comprise layers of fiber webbings, for example double layers, whereby the fiber orientation in one webbing may differ from the fiber orientation in the other webbing. | ||||||
106 | Reinforced plastic composite articles and apparatus and method for producing same | US329757 | 1981-12-11 | US4440593A | 1984-04-03 | William B. Goldsworthy |
Reinforced plastic composite articles which have a non-constant cross-sectional shape over their length, such that a first portion of the article has a different cross-sectional shape than a second portion of the article, and which portions may be integral with each other. In one embodiment, the article may have a non-constant cross-sectional shape with a constant cross-sectional volume over its length. In another embodiment, the article may have a non-constant cross-sectional shape and non-constant cross-sectional volume over its length. An apparatus and a method which utilizes a die having a die channel of non-constant cross-sectional shape is employed. In the apparatus, a pair of first and second die-forming members are used, and form in one or both of the die-forming members a die channel having a first portion of a cross-sectional shape which is different than a cross-sectional of a second die channel portion over the length of the die channel. One of the die-forming members may move relative to the other or both may move together at a constant speed in order to effectively pultrude a reinforced plastic composite article. | ||||||
107 | Manufacture of springs of fibre reinforced composite material | US358594 | 1982-03-16 | US4420450A | 1983-12-13 | Barry J. Marsh |
A method of making leaf springs from fibre reinforced resin composite material, wherein a resin impregnated fibre assembly of a number of individual springs adjacent one another is moulded and treated to cure the resin and then cut into individual springs. The assembly is formed with depressions in the surface thereof along the lines where it is to be cut so the surface fibres remain undisplaced by the moulding process and hence undisturbed by cutting. The invention also provides a mould for treatment of the assembly of resin impregnated fibres including elements which form the surface depressions therein. | ||||||
108 | Method of forming a flexible seal connection between large diameter shafts | US52291066 | 1966-01-25 | US3347726A | 1967-10-17 | WALTER WILKINSON SAMUEL CLIFFO |
109 | Vibratory spring of embedded filaments | US64002457 | 1957-02-13 | US2829881A | 1958-04-08 | MORRIS JOHN M |
110 | Manufacturing method for molded rubber, and metal mold for use in transfer molding | JP2010134277 | 2010-06-11 | JP2011255646A | 2011-12-22 | FUJIMOTO KENJI; MATSUURA HIROYOSHI; TSUJIMOTO MASAMI |
PROBLEM TO BE SOLVED: To provide a manufacturing method for a molded rubber allowing excellent maintenance of rubber properties after vulcanization molding, while allowing filling of unvulcanized rubber into a metal mold while suppressing bubbles or incomplete filling.SOLUTION: In this method for manufacturing the molded rubber 7, the unvulcanized rubber filled inside the metal mold 1 is unmolded from the metal mold 1 after heating and vulcanization. A space inside the metal mold 1 is divided into a plurality of regions 18a-18h, block bodies 19 are respectively fitted into residual regions except one region of the plurality of regions to fill the unvulcanized rubber into the one region in a state that the residual regions are filled with the block bodies 19 without any gaps, and thereafter a process of removing one of the block bodies 19 and filling unvulcanized rubber into the region having becoming empty is repeated to fill the unvulcanized rubber into all the regions. | ||||||
111 | Cushioning element with a writing instrument | JP2006507156 | 2004-03-12 | JP4733016B2 | 2011-07-27 | リチャード オーブライアン; アンドリュー キャンデロラ |
112 | Cushioning element with a writing instrument | JP2006507156 | 2004-03-12 | JP2006520281A | 2006-09-07 | リチャード オーブライアン; アンドリュー キャンデロラ |
筆記先端部を有する筆記具であって、筆記先端部が筆記具の別の部分と一体に形成された緩衝要素の使用により筆記中に加えられる圧力に応動する筆記具。 好ましい実施形態では、筆記具は、軸と、筆記先端部を備えたカートリッジと、緩衝要素が一体に形成された端栓とを有する。 カートリッジを、軸の近位端部に取り付けられた緩衝要素により軸内に保持するのがよい。 端栓は、射出成形法により形成されたものであるのがよい。 緩衝要素の所定の度合いの圧縮後における緩衝要素の圧縮を妨害し又は阻止する停止要素を設けるのがよい。 緩衝要素は、可変ばね定数を有するのがよい。 | ||||||
113 | Apparatus and method for continuously producing a reinforcing material reinforced hose-like structure | JP2004516449 | 2003-05-14 | JP2005531429A | 2005-10-20 | ヴィルマー・ローラント; エール・ライナー; ビンダー・クラウス; ベルガー・マルクス |
送り方向(X)へと連続的に互いに連結されたシリンダ状のマンドレル(5)の列を連続的に前進させ、かつ製造開始点へと個別化されたマンドレル(5)を返還するためのコンベヤ装置と、マンドレル(5)の周囲にゴム又は合成物質層(2)を塗布するための少なくとも1つの押出し成形ユニット(4)と、少なくとも1つの補強材層(3)を塗布するための少なくとも1つの装置と、互いに隣接するマンドレル(5)の接続位置で補強材補強されたホース状の構造物(1)を切断するための分離装置(13)と、個別化されたマンドレル(5)から切断された補強材補強されたホース状の構造物(1)を剥ぎ取るための剥ぎ取り装置(14)とを有する、補強材補強されたホース状の構造物(1)を連続的に製造するための装置。
マンドレル(5)は、高剛性であり、マンドレル(5)とは異なった材料から成るそれぞれ1つの囲繞する切断ゾーン(S)が、互いに隣接するマンドレル(5)の突合せ面の間に設けられているように、互いに連結されている。 補強材補強されたホース状の構造物(1)の加硫が、剥ぎ取り後初めて行なわれるように、装置は配列されている。 |
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114 | Long coagulation hollow thermoplastic resin products, including a short aramid fiber | JP2002582137 | 2002-04-11 | JP2004526037A | 2004-08-26 | ヤコブ ジーン−ピエール; フィリッポズ ジーン−ミシェル; パトリッツオ ベルセシ ジョルジオ; ボイデル フリップ |
アラミド短繊維を含む少なくとも1つの熱可塑性組成物から製造される凝固中空の、好ましくは長い吹込成形品。 このような成形品の製造のための方法および組成物。 有効量のアラミド短繊維を中に導入することによってポリマー組成物の溶融強度を改良する方法。 吹込成形に適していないポリマー組成物からの吹込成形品の製造方法。 | ||||||
115 | Composite transverse leaf spring and method and apparatus for manufacturing the same | JP2002119940 | 2002-03-18 | JP2003039453A | 2003-02-13 | LAWSON ROBERT C |
PROBLEM TO BE SOLVED: To provide an inexpensive composite transverse leaf spring having good bending rigidity and a manufacturing method therefor. SOLUTION: The leaf spring (100) is formed using a preformed tubular fiberglass fabric (400) comprising longitudinally aligned and braided fiberglass fibers. This fabric is installed over an interior form, such as one or more inflatable bladders (405) and positioned within a forming mold (420). After the resin is applied and cured to an appropriate stiffness within the mold, the mold is removed. The interior form is then removed from the composite leaf spring. | ||||||
116 | According to the method of manufacturing a reinforced fiber resin plate spring | JP15870591 | 1991-06-28 | JP2929774B2 | 1999-08-03 | NUMAZAKI IKUO; SASA NAOMICHI; NAKAGAWA EIICHI; UOSATO SUSUMU; KOSHIZAWA TOSHIBUMI; MASUKO TATSUO |
117 | Air spring | JP28643387 | 1987-11-12 | JPH07103918B2 | 1995-11-08 | マイケル・エル・クラブトゥリー |
118 | JPH0319045B2 - | JP19187484 | 1984-09-14 | JPH0319045B2 | 1991-03-14 | JEI ROBAATO DEIIKUMAN; MAIKERU ERU ROOBAA; MAAKU AARU RUUDOBOOTSU |
119 | JPH0261667B2 - | JP24049683 | 1983-12-20 | JPH0261667B2 | 1990-12-20 | MISUMI ATSUSHI |
120 | JPS6358298B2 - | JP9945482 | 1982-06-11 | JPS6358298B2 | 1988-11-15 | JOSEFU NOOMAN EPERU; JON JEEMUZU MOOSU ZA SAADO; TERII NEIRU TOREBIRUKOTSUKU |