子分类:
- F16L59/02: .绝热材料的形状或形式,有或没有和绝热材料成一体的覆盖(化学方面见有关类)
- F16L59/04: .使用干填料的装置,如用矿渣棉 {通过浇注,散布,喷雾或类似方法加入到被隔绝的物体中}
- F16L59/06: .使用空气层或真空的装置
- F16L59/08: .预防辐射的方法,如用金属箔
- F16L59/10: .用于绝热保护的扎带或覆盖物,如抵制环境的影响或机械破坏的影响(与绝热材料成一体的入F16L 59/02)
- F16L59/12: .把绝缘层支持在被绝热的壁上或体上的装置,如借助于管子和绝热材料之间的衬垫;专门用于支持被绝热体的装置 {(允许轴向运动的管子支架入F16L 3/18)}
- F16L59/14: .用于管子或管系绝缘的装置(F16L 59/02至F16L 59/12优先)
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 101 | Thermal insulating body and a process for making the same | US196171 | 1980-10-14 | US4394337A | 1983-07-19 | Hans Kummermehr |
| A thermal insulating body or shape is made up of highly dispersed insulating material together with mineral fiber wool and of opacifier together with a binder for curing. The binder, which is evenly distributed in a first-stage mix with a dispersant, is present in a finely dispersed condition in the insulating material, the corners and edges of the insulating material being able to undergo cross-linking with the binder by heat processing. | ||||||
| 102 | Method of manufacturing a protective skirt for a tabular iceberg | US823679 | 1977-08-11 | US4172751A | 1979-10-30 | Georges E. Mougin |
| Panels of cloth or sheet material are reeled out in parallel plane layers and joined in pairs along alternate edges to form a folded structure which can be deployed around at least a part of a tabular iceberg and then allowed to extend concertina-fashion to provide a protective jacket next to the flanks of the iceberg. The upper part of the skirt can be of more robust material in order to stand up to the action of waves and swell, while the submerged portion (deployed concertina-fashion) serves to keep warm water from coming in contact with the iceberg. The skirt is intended to protect icebergs being towed from antartic seas to the tropics. | ||||||
| 103 | Thermoplastic multi-walled pipes | US800427 | 1977-05-25 | US4157194A | 1979-06-05 | Keiichi Takahashi |
| Thermoplastic multi-walled pipe which has at least two tubular members different in inside diameter and concentrically arranged, these tubular members being spaced and supported by a plurality of ribs so as to provide hollow portions therebetween. The bond strength between the inner end surface of the rib and the tubular member supported thereby is less than that between the outer end surface of the rib and the tubular member supported thereby, so the exposure of the inner tubular member is easily achieved by means of an external force. After exposing the inner tubular member these multi-walled pipes are conveniently connected together by using a joint composed of a tubular part having the same inside diameter as the inner tubular member of the multi-walled pipe and a flange provided at one end of the tubular part concentrically therewith and having the same outside diameter as the multi-walled pipe, and in addition the hollow portion of the thermoplastic multi-walled pipe is kept sealed by the action of the flange. | ||||||
| 104 | Load bearing structural element | US533453 | 1974-12-16 | US4090340A | 1978-05-23 | Otto Alfred Becker |
| A structural element is provided which is preferably made of metal or plastic and which is useful as load-bearing element of high bending strength for various structures, supports, bridges, vehicles, as load-bearing foundation, and for many other purposes. Such structural element consists of two or more shells or plates which surround at least one cavity. Said cavities are equipped with load-bearing supporting elements, shells, panels, and the like which are associated with pressure plates, preferably honeycomb or grid-like plates. The ribs or ridges of said honeycombs or grids are relatively small, i.e. very narrow. The structural element, furthermore, comprises at least one flexible or movable plate which exerts a pressure onto the elements inserted into the cavity or cavities. Said pressure is equal to or greater than atmospheric pressure and higher than the pressure in the support cavity. The structural element of this invention may also be of tubular shape. It can be provided with fire protecting or extinguishing means. The structural element has an excellent sound- and heat-insulating capacity. | ||||||
| 105 | Construction unit | US701180 | 1976-06-30 | US4071992A | 1978-02-07 | Otto A. Becker |
| A loadbearing construction unit which is compression-resistant and bending-resistant and formed of at least one shell and associated support elements. The support elements comprise at least two plate or rodlike elements which are tensioned with respect to each other to obtain a compressive or tensile stress on the elements. | ||||||
| 106 | Insulation system | US562765 | 1975-03-27 | US4037751A | 1977-07-26 | Robert C. Miller; Harold E. Lemont |
| An all metal, low conductivity, high performance and relatively lightweight, composite structure, in the form of an insulation blanket is operably disposed to be exposed to a high temperature zone, e.g., a high temperature fluid, or on a supporting surface exposed to high temperature. The composite includes two metal skin members spaced from each other by a metallic member functioning as a spacing member. The spacing member is preferably deformed to contact the spaced skin sheets at spaced positions, the space between the skin sheets forming a fluid space which defines a zone of substantially reduced heat transfer by convection. When deformed, the spacing member, or an array of spacers, also provides an elongated path for conduction of heat, and defines a plurality of cavities of limited volume forming stagnant gas pockets. The skin sheets may be perforated to vent the cavities and to provide expansion space for absorbing thermal growth by the metal components of the composite. The spacing member also operates as a shield against the transfer of heat by radiation with the effect that the composite has a heat transfer coefficient substantially dictated by the thermal conductivity of the fluid in the space between the skin members. Use of metal components, principally of commercially available materials, permits fabrication of composites having various shapes and structural strengths, e.g., vibration, compaction, fatigue, etc., good chemical stability and easily repaired. Various different forms and alternate arrangements are described. | ||||||
| 107 | Method and apparatus for filling spacing core | US473008 | 1974-05-24 | US3964527A | 1976-06-22 | Robert L. Zwart |
| Spacing core materials, such as honeycomb, may be filled with fiberous insulation batting by placing the spacing core on a vibrator over the batting. The lower edges of the core cut through the fiberous material and permit it to fill the core. Additionally, a vacuum from the top side uniformly distributes the material in the core cells in an expanded condition. | ||||||
| 108 | Form composite structures | US39314673 | 1973-08-30 | US3922414A | 1975-11-25 | OSHIMA KEISUKE; YASUMOTO TAKAYA; HIGASHIKUZE MICHIAKI; KAWAMOTO MASANARI |
| A foam composite structure possessing the characteristics needed for use in constructions is obtained at low cost by heat foaming a piled up formation of an alkaline silicate layer and metal sheet or a metal sheet/alkaline silicate layer/metal sheet configuration.
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| 109 | Insulation retaining plates for pressure vessels | US31388072 | 1972-12-11 | US3907151A | 1975-09-23 | GILDEN JOHN RICHARD |
| A pressure vessel such as for a nuclear reactor which is provided with a thermal insulation lining retained by a plurality of cover plates, the cover plates being connected to the wall of the pressure vessel and adjacent plates being interconnected by a spring member which is designed and arranged so as to provide resilient flexibility in the plane of the cover plate but relative stiffness in the other orthogonal planes.
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| 110 | Thermally insulated composite article | US3709772D | 1971-07-16 | US3709772A | 1973-01-09 | RICE H |
| A THERMALLY INSULATED FLUID CONDUCTING COMPOSITE ARTICLE INCLUDING A RIGID INNER CORE MEMBER OF EROSION RESISTANT MATERIAL DEFINING A FLUID PASSAGE AND BEING CUSHIONED FROM AN OUTER METALLIC SHELL BY AN INTERMEDIATE LAYER OF RESILIENT MATERIAL. THE CORE MEMBER THERMALLY INSULATES THE OUTER METAL SHELL FROM THE FLUID FLOWING THERETHROUGH WHILE TH CUSHIONING LAYER ABSORBS SHOCK LOADS BETWEEN THE CORE AND THE SHELL THEREBY REDUCING THE POSSIBILITYOF FRACTURE OF THE SOMEWHAT FRAGILE RIGID CORE MEMBER.
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| 111 | Fibrous thermal insulation and method for preparing same | US3702279D | 1971-04-07 | US3702279A | 1972-11-07 | ARDARY ZANE L; STURGIS DAVID H |
| A LOW-DENSITY THERMAL INSULATION USABLE AT HIGH TEMPERATURES IN OXIDIZING ATMOSPHERES IS PREPARED BY PULP MOLDING A SLURRY OF INORGANIC FIBERS, IMPREGNATING THE MOLDED FIBROUS MASS WITH A BINDER OF AN INORGANIC SOL, GELATINIZING THE SOL, CURING THE GELATINIZED BINDER, DRYING THE COMPOSITE, AND THEREAFTER FIRING THE COMPOSITE FOR SINTERING THE BINDER.
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| 112 | Thermal shield | US3675711D | 1970-04-08 | US3675711A | 1972-07-11 | BILINSKI DONALD J; GALOWIN LAWRENCE S; NAPOLITANO MICHAEL |
| A thermal shield consisting of a pair of walls forming an enclosed space. A heat exchange fluid is disposed in the space between the walls and is maintained at a working temperature whereby it changes in phase in response to changes in temperature along one of the walls.
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| 113 | Method and apparatus for maintaining uniform insulation density | US3627164D | 1970-01-09 | US3627164A | 1971-12-14 | WILSON ROBERT A |
| A process and apparatus for maintaining uniform density of granular-type insulation which is subject to packing. Short gas blasts, from strategically disposed jets fluff the insulation when packing occurs to restore original density. The gas blasts can be triggered by automatic-type control devices which indicate a packed condition.
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| 114 | Fibrous thermal insulation and method of making same | US3577344D | 1969-01-29 | US3577344A | 1971-05-04 | ARDARY ZANE L; MAXEY ANDREW W; REYNOLDS CARL D |
| LIGHWEIGHT, HIGH-TEMPERATURE, THERMAL INSULATING MATERIAL IS PREPARED BY MOLDING AN ADMIXTURE OR WATER SLURRY OF SMALL-DIAMETER FIBERS OF A REFRACTORY OR CARBONACEOUS MATERIAL AND A CARBONIZABLE BINDER CONSISTING OF STARCH PARTICULATES. THE MOLDED ADMIXTURE IS HEATED SUFFICIENTLY TO GELATINIZE THE STARCH, THEN DRIED, AND THEREAFTER HEATED SUFFICIENTLY IN AN INERT ATMOSPHERE TO PYROLYZE THE STARCH FOR EFFECTIVELY BONDING TOGETHER THE FIBERS. THE THERMAL INSULATING MATERIAL IS OF A DENSITY LESS THAN 10 LBS./FT.3 AND HAS A THERMAL CONDUCTIVITY OF LESS THAN ABOUT 1 B.T.U.-IN./ HR.-*F.-FT.2 AT A TEMPERATURE OF 1400*F.
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| 115 | Pyrotechnic heating device | US3551223D | 1968-05-06 | US3551223A | 1970-12-29 | DEAL ROBERT S; EVANS JOSEPH H |
| 116 | Thermal insulation structures | US32593163 | 1963-11-26 | US3302358A | 1967-02-07 | GLOVER JACKSON ROBERT |
| 1,036,144. Liquefied gas containers. CONCH INTERNATIONAL METHANE Ltd. May 6, 1963, No. 17834/63. Addition to 981,732. Heading F4P. An extensible sheet of material 1, Fig. 1 (not shown), e.g. stainless steel having an area 6 bounded by non-intersecting corrugations 2-5 extending linearly beyond the enclosed area 6 as claimed in parent Specification 981,732, is thermally insulated by load-bearing material 10, e.g. blocks of open-cell polyvinyl chloride contained in one or more evacuated chambers bounded by the sheet of material 1 and by a further sheet or sheets of material each having a base and spacing walls secured to the sheet 1. Said further sheets form trays 8, 9 having bases 8b, 9b, Fig. 2 (not shown) and sides 8a, 8c, 9a, 9c. Fibre glass and polyurethane foam may constitute the insulation media. | ||||||
| 117 | Method and construction for protecting heat sensitive bodies from thermal radiation ad convective heat | US37977164 | 1964-07-01 | US3279193A | 1966-10-18 | WEBB JAMES E |
| 118 | Mounting for electrical resistance elements and method for preparing the same | US6214060 | 1960-10-12 | US3053727A | 1962-09-11 | ADOMSHICK GEORGE J; QUINN ROBERT G |
| 119 | Quaternary ammonium salts of alkyl (hydroxyalkyl) aminoalkyl benzilates and esters thereof | US33151353 | 1953-01-15 | US2752385A | 1956-06-26 | CUSIC JOHN W; ROBINSON RICHARD A |
| 120 | Insulation material | US63459645 | 1945-12-12 | US2618817A | 1952-11-25 | GAMES SLAYTER |
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