| 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 | 包装材料、包装垫料及用于制造包装材料的机器 | CN95194004.X | 1995-07-05 | CN1152274A | 1997-06-18 | 詹姆斯·亨利·爱德华·鲍恩; 约翰·克雷格; 丹尼尔·罗伊·弗里尔 |
| 包装材料包括由诸如为纸的不可胀开材料的基层片材(4;148a,148b)和由诸如为纸的可胀开材料的第二片材(6或8;112a,112b或112c),所述第二片材设有多排纵向间隔的狭缝,其一排上的狭缝相对相邻一排的狭缝偏置,所述第二片材在其处于胀开状态时固定在所述基层片材上。包装垫料可包括数层不可胀开片状材料的外层,而至少一层已胀开的片状材料位于所述外层之间。本发明提供了用于制造上述材料的机器。 | ||||||
| 2 | 新型骈合噻唑衍生物,其制备方法及其医药组合物 | CN93116959.3 | 1993-09-14 | CN1087635A | 1994-06-08 | 岩冈清; 古盐裕之; 伊东洋行; 宫田桂司; 太田光昭 |
| 作为5-HT3受体激动剂有用的通式(I)所示的骈合噻唑衍生物或其制药学上允许的盐、其制造方法及其医药组合物。式中,R、A、L、Im、L1和L2的意义与说明书中相同。 | ||||||
| 3 | Anti-explosion pads and their method of use | JP2004310186 | 2004-09-27 | JP2005120823A | 2005-05-12 | ALHAMAD SHAIKH GHALEB MOHAMMAD |
| PROBLEM TO BE SOLVED: To provide an anti-explosion pad used for protecting a structure susceptible to damage due to explosion. SOLUTION: This high-performance anti-explosion pad includes a multi-layer of expanded metal nets 3, 4 separated by a core layer 5 of porous material such as fiber glass, cotton batting or an assembly of miniature ellipsoids or balls formed by expanded metal nets. A wall or the other structural elements are covered with the above pad, whereby the shock waves or thermal effect of a close range bomb explosion can be effectively dissipated. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 4 | Extensible metallic product by pulling | JP31739189 | 1989-12-06 | JPH02249563A | 1990-10-05 | SHIYAIKU GAREBU MOHAMATSUDO YA; SAMI AI ARUTEIKAN |
| PURPOSE: To extinguish fire and prevent explosion effectively by extending extensible slit-processed metallic foil by pulling in a longitudinal direction to deform into a three-dimensional wirenet. CONSTITUTION: A front fringe of a metallic foil 66 in a continuous sheet form is removed from a feeding roll 34, passed between a stabilizing roller 64 in a horizontal direction and a stabilizing roller 65 in a vertical direction, then passed between knife rollers 43, 44, furthermore, passed between a stabilizing roller in an additional horizontal direction and stabilizing rollers 64, 65 in a vertical direction, and finally wound on a winding roller 53. When one portion of a foil 66 is separated from knife rollers 43, 44, a lateral line of a non- continuous slit is formed on the portion; thus, if desired, it is drawn to make a prismatic wirenet extended in honeycomb form by pulling. Thereby, the metallic foil is wound in a non-drawn state on a compact roll, transported to an upper position of surface firing by an airplane and airdropped. The foil is drawn by gravity during dropping and covers a quite wide area. | ||||||
| 5 | JPS4948489A - | JP1332973 | 1973-02-01 | JPS4948489A | 1974-05-10 | |
| 6 | JPS4947476A - | JP1333073 | 1973-02-01 | JPS4947476A | 1974-05-08 | |
| 7 | 拡張梱包製品を形成するためにスリットシート材を拡張するための装置及び方法 | JP2017525851 | 2015-11-13 | JP6422578B2 | 2018-11-14 | チェイチ ロバート; デマース レイモンド; ユベールトゥス カル; アーバン ピーター |
| 8 | Anti-explosive pad and methods of use thereof | JP50796593 | 1992-10-23 | JP3711142B2 | 2005-10-26 | アルハマド,シャイク・ガハレブ・モハマド・ヤシン |
| 9 | Fire of material, explosion and oxidation, as well as the configuration of the object to stop the accumulation of static charge | JP50130397 | 1996-06-05 | JPH11506667A | 1999-06-15 | アルハマド,ガレブ・モハマド・ヤシン |
| (57)【要約】 消火及び爆発に対する予防又は保護に用いる拡張可能な金属製品(10)。 製品は、互いに平行に離隔しているが、シートの長手方向に横断するライン内の断続的なスリット(11)を有する材料の連続シート(10)である。 本発明は、さらに、火災又は爆発を防止するために用いられるシート(10)、又は火炎防止器、耐爆発性バリア、及び機械的衝撃に対するシールドとして、燃料タンクの消極的な不活性システム(passive inerting system)に用いられる楕円体(18)のいずれかの形態に、拡張された製品の形態にも向けられる。 | ||||||
| 10 | Pulling expandable metal products | JP31739189 | 1989-12-06 | JP2650447B2 | 1997-09-03 | SHAIKU GAREBU MOHAMATSUDO YASHIN ARUHAMADO; SAMI AI ARUTEIKAN |
| 11 | JPH07504004A - | JP50796593 | 1992-10-23 | JPH07504004A | 1995-04-27 | |
| 12 | Honey comb structure of thermostructural composite material and its production | JP13438893 | 1993-06-04 | JPH06134319A | 1994-05-17 | DELAGE ANDRE; GEORGES JEAN-MICHEL; MAUMUS JEAN-PIERRE |
| PURPOSE: To enlarge application extent of honey comb structure of a thermostructural composite material by forming a three-dimensional fiber fabric by means of superposed two-dimensional plies, making slit-shaped cuts in a staggered configuration through the entire thickness of the fabric and further making cuts parallel to the plies, stretching the fabric so as to densify the fabric by a matrix while holding the cut texture in a stretched state. CONSTITUTION: Two-dimensional plies 40 of carbon or a carbon precursor are superposed and are seamed together. Then the slit-shaped cuts 42 are formed in the staggered configuration through the entire thickness of the fabric 41. In this case, the slit-shaped cuts 42 are directed parallel to an extending directions X of warp or an extending directions Y of weft in the fiber of the plies 40. Then the fabric 41 is stretched in a direction of the arrow F, a direction perpendicular to the cut surfaces, to pull apart lips of the cuts 42 to form cells 46. While holding in the stretched state, the fabric is densified by using the matrix-constituting material to obtain the objective rigid honey comb structure. | ||||||
| 13 | DUNNAGE CONVERSION SYSTEM AND METHOD FOR EXPANDING PRE-SLIT SHEET STOCK MATERIAL | US15541414 | 2016-02-09 | US20180079161A1 | 2018-03-22 | Robert C. Cheich |
| A dunnage conversion system (20) for expanding an unexpanded slit sheet stock material (23) to form an expanded dunnage product (26). The dunnage conversion system includes a converging chute (28) to inwardly gather laterally-extending edges of sheet stock material towards one another, causing random crumpling of the sheet stock material to form a modified ply. The conversion system also includes feed wheels (120) that advance the modified ply through the converging chute and pinch rollers (122) that cooperate with the feed wheels to expand the modified ply traveling between the feed wheels and the pinch rollers to form a dunnage product. The expanded dunnage product is expanded both in a longitudinal feed direction and in thickness as compared to the unexpanded slit sheet stock material, and thus is a three-dimensional product having increased volume and lower density per unit of length as compared to the unexpanded slit sheet stock material. | ||||||
| 14 | Flame arrester | US09825644 | 2001-04-03 | US20010042628A1 | 2001-11-22 | Shaikh Ghaleb Mohammad Yassin Alhamad |
| A highly efficient flame arrester adapted for use in preventing an external flame from backflashing upstream in a pipe, or a conduit, or a stream carrying a flammable substance. The flame arrester comprises a contained layer of nested ellipsoids formed from expanded metal sheets made from magnesium alloy foil. The arrester is useful in fuel tanks, combustion systems, sea-going tankers, hot water or space heaters, and the like. | ||||||
| 15 | Prevention of corrosion, fire and explosion in oil wells | US857697 | 1997-05-16 | US6116347A | 2000-09-12 | Shaikh Ghaleb Mohammad Yassin Alhamad |
| A highly effective module for preventing corrosion of oil well pipes and equipment and for preventing resulting fires and explosions. The module is a collar formed from slitted and expanded metal net and is adapted to fit in the annular space between the oil production pipe and the outer casing of the oil well, to prevent oxygen from the atmosphere from entering the annular space at the top of the well, and to exclude hydrocarbon vapors from the subterranean production zone from entering the annular space at the bottom of the well. The invention also relates to methods for extinguishing a burning oil well. | ||||||
| 16 | Compositions of matter for stopping fires, explosions and oxidations of materials and build up of electrostatic charges | US103687 | 1998-05-22 | US6062316A | 2000-05-16 | Shaikh Ghaleb Mohammad Yassin Alhamad |
| An expandable metal product for use in extinguishing fires and in the prevention of or protection against explosions. The product is a continuous sheet of material having discontinuous slits in spaced apart lines parallel to each other but transverse to the longitudinal dimension of the sheet. The invention is also directed to the expanded form of the product, either in sheets which may be used for preventing fires or explosion or in the form of shaped ellipsoids for use in a passive inerting system for fuel tanks, as flame arresters, as anti-explosion barriers, and as shields against mechanical impact. | ||||||
| 17 | Impact absorber | US467863 | 1995-06-06 | US5638662A | 1997-06-17 | Shaikh Ghaleb Mohammad Yassin Alhamad |
| A highly efficient impact absorber for protecting articles against destructive mechanical impact. The invention has special applicability to containers for flammable materials, scientific instruments, or other fragile mechanisms or articles which may be damaged or become hazardous when ruptured. The impact absorber comprises a layer or layers of expanded metal net made from magnesium alloy foil having a thickness in the range from about 0.02 to 0.50 mm. A preferred embodiment comprises a contained layer or layers of nested spheroids formed from expanded metal sheets made from magnesium foil. | ||||||
| 18 | Fuel containment medium | US270814 | 1994-07-05 | US5540285A | 1996-07-30 | Shaikh G. M. Y. Alhamad |
| A highly efficient fuel containment medium which is adapted to protect neighboring facilities against fire or explosion of flammable materials accidentally released from above-ground storage tanks. The fuel containment medium has special applicability for use in diked areas surrounding fuel storage tanks. The medium effectively suppresses flame heights and spread rates in pool fires in said diked areas. The containment medium comprises a mineral aggregate mixed with a flame-effects modifier such as fragments of expanded metal net made from magnesium alloy foil. In a preferred embodiment, the aggregate is sand or gravel, and the flame-effects modifier comprises ellipsoids formed from expanded metal sheets made from magnesium alloy foil. | ||||||
| 19 | Method of manufacturing a honey comb structure of thermostructural composite material | US68738 | 1993-05-28 | US5415715A | 1995-05-16 | Andre Delage; Jean-Michel Georges; Jean-Pierre Maumus |
| A method of manufacturing a honeycomb structure of thermostructural composite material comprising a fiber reinforcing fabric densified by a matrix, the fibers of the reinforcing fabric being of a material selected from carbon and ceramics, as is the matrix, the method comprising the following steps:making a three-dimensional fiber fabric by means of superposed two-dimensional plies that are bonded together by means of fibers passing through the plies;making slit-shaped cuts in a staggered configuration through the plies, and through the entire thickness of the fabric;stretching the cut fabric in a direction that is not parallel to the cuts but that is parallel to the plies so as to form cells whose walls are constituted by the lips of the cuts; andwhile the cut texture is held in the stretched state, densifying it using the matrix-constituting material to obtain a rigid honeycomb structure of thermostructural material. | ||||||
| 20 | Composition of matter for stopping fires, explosions and oxidations of materials and build up of electrostatic charges and method and apparatus for making same | US674277 | 1991-03-19 | US5097907A | 1992-03-24 | Shaikh G. M. Y. Alhamad; Sami I. Altikan |
| A method of extinguishing surface fires wherein, alternatively unexpanded, slit sheets of magnesium alloy foil are transported to the site of the fire and expanded while unrolling to provide coverage of the fire by the greatly expanded surface area of the sheets, which may be laid down from an aircraft and which may be made floatable; where applying ellipsoidal balls of the metal nets by means of containers thereof, rupturable by heat of fire, thereby releasing the balls to form a continuous fire extinguishing layer over the fire. | ||||||
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