| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 制造透明封壳的方法 | CN88101873 | 1988-03-31 | CN88101873A | 1988-10-19 | 森敬 |
| 利用一个具有几乎是半球形内表面的下铸塑模和一个具有几乎是半球形外表面的上铸塑模来制造透明封壳。上铸塑模的半径略微小于下铸塑模的半径。在所述下铸塑模和所述上铸塑模之间的空间中的透明树脂被均匀地、逐渐地加热,随后再使之冷却,以便使该透明树脂硬化。此后,将上铸塑模同下铸塑模分开并取出已制成球面形状的透明树脂。 | ||||||
| 2 | Rigid, one-piece, biaxially stretched shaped body of synthetic resin and method for making the same | US264300 | 1981-05-18 | US4371575A | 1983-02-01 | Klaus Kerk; Dieter Mueller; Bernd Oleiko |
| What is disclosed is a rigid, one-piece, shaped body, made of a biaxially stretched synthetic resin in the form of a sheet at least 1 mm thick, the edge of which does not lie in a single plane, and the surface of which is smaller than a flat initial surface enclosed by the edge and preferably approximates the mathematically minimum surface enclosed by the edge, is suitable according to the invention as a lightweight building element having high resistance to buckling. The new shaped bodies are made by shaping a flat sheet of biaxially stretched synthetic resin at least 1 mm thick, while in the thermoelastic state, so that the edge of the sheet is brought into a configuration which does not lie in one plane, and the surface enclosed by the edge is allowed to shrink back partially while in the thermoelastic state, whereby a shrinkage of the edge of the sheet is prevented by clamping the edge, and the resulting shaped body is cooled below the softening temperature before the edge clamping is loosened. | ||||||
| 3 | Aircraft fluted core radome and method for making the same | US3795559D | 1971-10-01 | US3795559A | 1974-03-05 | HORN V; KANGAS H |
| A COMPLEX CONTOURED FLUTED CORE RADOME STRUCTURE FOR AIRCRAFT UTILIZING A RELATIVELY HIGH TEMPERATURE AND HIGH PRESSURE CURE CYCLE FOR LAMINATED FIBER MATERIAL. THE METHOD FURTHER INCLUDES THE UTILIZATION OF REMOVABLE AND REUSABLE FLEXIBLE SILICONE RUBBER MANDRELS ADAPTABLE TO COMPLEX CONTOUR CONFIGURATIONS. THE USE OF THE FLEXIBLE SILICONE RUBBER MANDRELS PERMITS THE USE OF HIGH CURING PRESSURES TO COMPLETELY AND UNIFORMLY FILL THE FLUTES OF THE FLUTED CORE PANEL STRUCTURE AND PRODUCE A STRUCTURAL PRODUCT WITH VERY LOW VOID CONTENT WHICH IS NECESSARY FOR MEETING THE RADAR ELECTRICAL REQUIREMENTS COMBINED WITH IMPROVED MECHANICAL PROPERTIES FOR THE STRUCTURAL REQUIREMENTS.
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| 4 | Extrusion apparatus | US3764043D | 1970-12-10 | US3764043A | 1973-10-09 | WRIGHT D |
| A lightweight plastics extruder is disclosed which can be used with particular benefit in the preparation of structures wherein a foamable plastic is extruded in a desired location and the extruder moved as foam material is deposited.
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| 5 | Walled structure and method for making the same | US8147361 | 1961-01-09 | US3206899A | 1965-09-21 | WRIGHT DONALD R |
| 6 | Method of producing a filament wound curved product and product obtained thereby | US14016848 | 2013-09-03 | US10112356B2 | 2018-10-30 | Roelof Marissen; Lucas Van Den Akker; Sotiris Koussios; Hen Hoefnagels |
| The invention relates to a curved product, and in particular an armor product. The armor product is produced by a filament winding process in which a plurality of reinforcing elements in the form of fibers and/or tapes are impregnated with a polymer matrix and wound onto a mandrel. The polymer matrix comprises a solution and/or dispersion of a polymer in a carrier fluid, which carrier fluid is at least partly evaporated during and/or after winding. The armor product comprises a high amount of reinforcing elements with respect to the total mass of the product. | ||||||
| 7 | METHOD OF PRODUCING A FILAMENT WOUND CURVED PRODUCT AND PRODUCT OBTAINED THEREBY | US12595910 | 2008-04-17 | US20100166994A1 | 2010-07-01 | Roelof MARISSEN |
| The invention relates to a curved product, and in particular an armor product. The armor product is produced by a filament winding process in which a plurality of reinforcing elements in the form of fibers and/or tapes are impregnated with a polymer matrix and wound onto a mandrel. The polymer matrix comprises a solution and/or dispersion of a polymer in a carrier fluid, which carrier fluid is at least partly evaporated during and/or after winding. The armor product comprises a high amount of reinforcing elements with respect to the total mass of the product. | ||||||
| 8 | Extrusion apparatus | US34235473 | 1973-03-19 | US3841812A | 1974-10-15 | WRIGHT D |
| A lightweight plastics extruder is disclosed which can be used with particular benefit in the preparation of structures wherein a foamable plastic is extruded in a desired location and the extruder moved as foam material is deposited.
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| 9 | Process for the manufacture of artifacts comprising a supporting structure of reinforced thermosetting plastics | US20325571 | 1971-11-30 | US3830899A | 1974-08-20 | PICCIOLI D; SCHMID C |
| A process for the manufacture of load bearing plastics material structures is disclosed. The process allows small products to be made by mass production methods or large articles to be made in situ. by using, in both cases, the essential steps of the invention. A layer of plastics material is formed to the shape of the article to be manufactured and onto it is formed an intermediate layer having spaces which are subsequently filled with a material which will bond to the plastics material layer to form interconnecting strengthening ribs. The intermediate layer may be formed by a plurality of suitably spaced blocks or strips, or by a helically wound strip in the manufacture of a tubular article, or by forming a continuous layer and subsequently cutting out the spaces required for the strengthening ribs. After the material forming the strengthening ribs has been put into the spaces provided therefor a further plastics material layer is formed over the intermediate layers and the structure is bonded by polymerizing the two said plastics material layers to the strengthening ribs. In an alternative described in the specification the intermediate layer may be formed first, provided with strengthening ribs, then the two plastics material layers formed on the inner and outer faces of the intermediate layer, and finally the whole structure is bonded by polymerization of at least the two plastics material layers, and possibly of the strengthening ribs if these are formed of a thermosetting plastics material.
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| 10 | Method of making high temperature bodies | US3574805D | 1966-01-17 | US3574805A | 1971-04-13 | HATCH DONALD M; WOOD WALTER W |
| LARGE UNITARY ABLATIVE PARTS ARE PREPARED BY MOLDING A PLURALITY OF INDIVIDUAL SEGMENTS COMPRISING GENERALLY RANDOMLY ORIENTED FIBERS DISPOSED WITHIN A SETTABLE AND CURABLE RESIN MATRIX AT ELEVATED TEMPERATURES AND PRESSURES TO PARTIALLY CURE AND DENSIFY THE SEGMENTS, FOLLOWED BY ASSEMBLING THE SEGMENTS INTO THE DESIRED FINAL CONFIGURATION AND THEREAFTER HEAT CURING AND DENSIFYING THE PLURALITY OF SEGMENTS AT ELEVATED TEMPERATURES AND PRESSURES SUFFICIENT TO JOIN THE SEGMENTS INTO A FINALLY CURED UNIFIED STRUCTURALLY STABLE ABLATIVE PART.
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| 11 | Apparatus for making walled structures | US33598464 | 1964-01-06 | US3337384A | 1967-08-22 | WRIGHT DONALD R |
| 12 | Method and apparatus for forming bubble | JP13027789 | 1989-05-25 | JPH0225320A | 1990-01-26 | AARU GIRUBAADO MUUA |
| PURPOSE: To automatically reposition a bubble mounting line as a bubble size is increased by providing a windable torus shape member at a periphery of an annular axis and having the axis. CONSTITUTION: In the case of forming bubbles for manufacturing a large-sized structure in space, a torus shape member 14 is formed of an elastomer material with an annular axis 22 and rotatable around the axis. Accordingly, its bubble mounting line 22 is moved from an inward position of the axis to an outward position as the size of the bubble 12 is increased. A fluid supply unit such as a container 36, a hose 38, a valve 40 or the like supplies fluid such as optically fixable prepolymer for forming the bubbles 12 mounted at the bubble mounting line 20 via openings 50 of the member 14. A compressed gas supply unit such as a gas container 32, a hose 30, a valve 34 or the like provides compressed gas for expanding the bubbles such as N 2 gas via holes 28 of an impermeable film 24 provided at a lower surface of the member 14. COPYRIGHT: (C)1990,JPO | ||||||
| 13 | JPS56501531A - | JP50246580 | 1980-11-04 | JPS56501531A | 1981-10-22 | |
| 14 | AN IN-MOULD LABELLED CONTAINER | EP11741604.0 | 2011-08-11 | EP2605896B1 | 2016-09-21 | FABOZZI, Thierry Jean Robert; HENTZEL, Stéphane |
| 15 | Apparatus and methods for bubble and other thin film constructions | EP89305266.2 | 1989-05-24 | EP0344965A2 | 1989-12-06 | Moore, Gilbert R. |
Apparatus and methods for thin film formation from which structures may be constructed for use in space. In accordance with one embodiment, an elastic expandable torus (14) is rolled upon itself about its circular axis (22) as a bubble (12) is formed so that the bubble attachment line (20) may be repositioned to maintain an optimal ratio of attachment diameter to bubble diameter and to maintain an appropriate bubble contact angle and to provide a pre-wetted surface for the bubble at the bubble attachment line. In accordance with an alternative embodiment, a frame composed of memory metal is compacted for immersion in thin film forming fluid and heated to its transition temperature for self-erecting to a predetermined thin film shape whereby the need for pressurized gas for formation of the thin film is eliminated. |
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| 16 | STARRER, EINSTÜCKIGER, BIAXIAL GERECKTER KUNSTSTOFFFORMKÖRPER UND VERFAHREN ZU SEINER HERSTELLUNG | EP80902114.0 | 1980-11-04 | EP0039700A1 | 1981-11-18 | OLEIKO, Bernd J.; MÜLLER, Dieter; KERK, Klaus |
| Le corps faconne rigide, etire biaxialement, selon l'invention, consiste en un element de construction leger, a haute resistance aux distorsions. Il est forme par une plaque en matiere synthetique d'au moins 1 mm d'epaisseur, dont le bord n'est pas situe dans un plan et dont la surface est plus petite que la surface plane de sortie entouree par le bord. De preference, cette surface entouree par le bord est proche du minimum mathematique. Le nouveau corps est fabrique par transformation d'une plaque plane en matiere synthetique, mise en etat thermo-elastique, etiree biaxialement, d'une epaisseur d'au moins 1 mm. Le bord de la plaque est mis dans une position ou il n'est pas dans un plan. Dans l'etat thermo-elastique, la surface entouree par le bord se contracte partiellement de facon que, par fixation du bord de la plaque, un retrecissement du bord soit evite. Puis le corps obtenu est refroidi au-dessous de la temperature de ramollissement avant l'enlevement de la fixation du bord. | ||||||
| 17 | AN IN-MOULD LABELLED CONTAINER | EP11741604.0 | 2011-08-11 | EP2605896A1 | 2013-06-26 | FABOZZI, Thierry Jean Robert; HENTZEL, Stéphane |
| The present invention concerns an injection-molded capsule for use in a food preparation machine, said capsule for use in a food preparation machine comprising: (i) a structure (1) with a lower side (2), at least three pillars (3) extending from the lower side and linked to a circular upper frame (4) which defines the surroundings of the capsule top side, the pillars (3) having cross-sections S1, S2 and S3, the lower side (2) being a solid wall that comprises a dispensing opening (5) and is centered across the vertical symmetry axis VSA of said capsule, and (ii) a label (6) attached to the outer surface of the lower side (2), pillars (3) and upper circular frame (4), thus forming an envelope that defines capsule side walls, characterized in that the injection point IP of the capsule is off-centered in the vicinity of said dispensing opening (5), opposed the pillar (3) having a cross-section S3 relatively to the axis VSA, and in that S1=S2 and S3>S1. | ||||||
| 18 | An in-mould labelled container | EP10173498.6 | 2010-08-20 | EP2420374A1 | 2012-02-22 | Fabozzi, Thierry Jean Robert; Hentzel, Stéphane |
The present invention concerns an injection-molded capsule for use in a food preparation machine, said capsule for use in a food preparation machine comprising: |
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| 19 | METHOD OF PRODUCING A FILAMENT WOUND CURVED PRODUCT AND PRODUCT OBTAINED THEREBY | EP08748970.4 | 2008-04-17 | EP2146597A1 | 2010-01-27 | MARISSEN, Roelof; van den AKKER, Lucas; KOUSSIOS, Sotiris; HOEFNAGELS, Hen |
| The invention relates to a curved product, and in particular an armor product. The armor product is produced by a filament winding process in which a plurality of reinforcing elements in the form of fibers and/or tapes are impregnated with a polymer matrix and wound onto a mandrel. The polymer matrix comprises a solution and/or dispersion of a polymer in a carrier fluid, which carrier fluid is at least partly evaporated during and/or after winding. The armor product comprises a high amount of reinforcing elements with respect to the total mass of the product. | ||||||
| 20 | STARRER, EINSTÜCKIGER, BIAXIAL GERECKTER KUNSTSTOFFFORMKÖRPER UND VERFAHREN ZU SEINER HERSTELLUNG | EP80902114.0 | 1980-11-04 | EP0039700B1 | 1983-05-25 | OLEIKO, Bernd J.; MÜLLER, Dieter; KERK, Klaus |
| The rigid shaped body, biaxially drawn, is comprised of a lightweight construction element, with high resistance characteristics to distortions. It is formed by a synthetic material plate of at least 1 mm of thickness, of which the edge is not contained in one plane and of which the surface is smaller than the plane output surface surrounded by the edge. Preferably, this surface surrounded by the edge is close to the mathematical minimum. The new body is manufactured by transformation of a plane plate of synthetic material, brought to a thermo-elastic state, drawn biaxially, of at least 1 mm of thickness. The edge of the plate is brought into a position where it is not contained in a plane. In the thermo-elastic state, the surface surrounded by the edge shrinks partially so that, by securing the edge of the plate, a shrinkage of the edge is avoided. The body thus obtained is cooled at a temperature under the softening temperature before removing the clamping of the edge. | ||||||
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