| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 161 | MINERAL WOOL BOARD | EP92914369.0 | 1992-07-13 | EP0637356A1 | 1995-02-08 | SWALES, Steven |
| A board (19) for use in a sandwich element (36) used in walls, ceilings, floors or roofs of buildings or ships or other structures comprises mineral wool lamellae (14, 15) arranged side by side so that the fibres (28) of the mineral wool lie perpendicular to the plane of the board and so that the longitudinal length of the lamellae is at an angle in the range 25 to 65° to a side edge of the board. The board can comprise the lamellae held together, optionally in compression, by a scrim (36, 30, 32, 33) arranged across one or both the planar surfaces formed by the lamellae and adhered to the underlying lamellae. Several boards (19, 26, 27) may be arranged to form a board (29) having facing layers (34, 35) on each planar surface. | ||||||
| 162 | Method for fabricating a flat panel | EP88202150.4 | 1988-09-29 | EP0310198A3 | 1992-03-04 | Veldhoen, George Gustaaf |
The present invention provides a novel panel for ceiling assemblies, wall assemblies or the like. The panel comprises a self-supporting core (1) of a soft filling material and reinforcement elements (2), preferably plastic strips, for defining the shape of the panel after a film (7) is applied surrounding said core (1) and reinforcement elements (2). Moreover the present invention relates to a novel method of fabricating such a panel. |
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| 163 | Pipe insulation sleeve, a method of making same, and arrangement for carrying out the method | EP82303459 | 1982-07-01 | EP0069543A3 | 1984-11-21 | Lauren, Henning John Emil |
The invention relates to a pipe insulation sleeve made of mineral wool bound by a thermosetting binder and comprising an outer insulating layer (1) consisting of a slab of mineral wool hardened all through, said outer layer (1) featuring a number of radial slits (2) taken out from its inwards-turned surface, which slits (2) run axially and are essentially closed and originally of V-shaped form, and an inner layer (3) of mineral wool bonded to said outer layer by a thermosetting binder and of such thickness and density that it is in itself rigid and at the same time imparts rigidity to said outer layer. A method and arrangement for production of the pipe insulation sleeve is also described. |
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| 164 | Pipe insulation sleeve, a method of making same, and arrangement for carrying out the method | EP82303459.0 | 1982-07-01 | EP0069543A2 | 1983-01-12 | Lauren, Henning John Emil |
The invention relates to a pipe insulation sleeve made of mineral wool bound by a thermosetting binder and comprising an outer insulating layer (1) consisting of a slab of mineral wool hardened all through, said outer layer (1) featuring a number of radial slits (2) taken out from its inwards-turned surface, which slits (2) run axially and are essentially closed and originally of V-shaped form, and an inner layer (3) of mineral wool bonded to said outer layer by a thermosetting binder and of such thickness and density that it is in itself rigid and at the same time imparts rigidity to said outer layer. A method and arrangement for production of the pipe insulation sleeve is also described. |
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| 165 | METHOD OF APPLYING A HEAT REFLECTIVE COATING TO A SUBSTRATE SHEET | PCT/US2005017052 | 2005-05-16 | WO2005113228A2 | 2005-12-01 | PRITCHETT JOSEPH |
| The method of applying a heat reflective coating 28 to a substrate sheet of construction material is directed to the coating of insulation material, such as fiberglass batts 10, at the time of manufacture. However, it may be applied to virtually any flat, planar sheet of material to provide insulating qualities as well as structural value to the material. Economies of scale are achieved by coating the materials at the time of manufacture, or at least at some centralized location. By completely encapsulating fibrous insulation 12 with an impervious coating 28, the emission of irritant fiber particles from the insulation 12 and corresponding health hazards are eliminated. Also, the efficiency of the insulation 12 is improved by sealing out moisture when the insulation 12 is completely encapsulated by the coating 28. | ||||||
| 166 | MINERAL WOOL PANEL COMPRISING A WEB WHICH COVERS BOTH FACES THEREOF | PCT/FR2004000269 | 2004-02-04 | WO2004072393A3 | 2004-10-07 | SORIANO HOYUELOS ESTHER; NAVARRO NIEDERCORN GABRIEL; COLOMA ALBERTO |
| The invention relates to a mineral wool panel with increased structural stiffness, of the type used in the production of air ducts, particularly for conditioned air, comprising a central core which is made from mineral wool, such as glass wool. According to the invention, coatings are disposed on both of the faces of the aforementioned core. Moreover, said core comprises a web which is located on the inner face of the duct obtained. The inventive panel is characterised in that the two surface faces, i.e. the inner face and the outer face, of the core (1) each comprise a respective web (2) which extends over the entire surface, said two webs (2) being connected to the surfaces of the core (1) by means of heat-polymerisable binders. | ||||||
| 167 | A DUAL LAYER ACOUSTICAL CEILING TILE HAVING AN IMPROVED SOUND ABSORPTION VALUE | PCT/US0149368 | 2001-12-19 | WO02053510A3 | 2002-12-27 | BAIG MIRZA A |
| An acoustical ceiling tile having an improved sound absorption value and having a dual layer of acoustical materials. The base mat layer has either no mineral wool or a low mineral wool content. The surface layer has a high mineral wool content which provides improved sound absorption values with or without perforating or fissuring the tile. The dual layer acoustical ceiling tile has a noise reduction coefficient (NCR) value of at least about 0.50. | ||||||
