- E04B7/02: .具有平坡式表面,例如,鞍形屋顶{(遮蓬入E04F10/00)}(E04B7/12优先)
- E04B7/08: .穹窿屋顶(E04B7/14优先;一般的穹窿结构入E04B1/32;一般可充气的帐篷或天篷入E04H15/20;现场成型用的可充气模壳入E04G11/04)
- E04B7/12: .多跨结构,例如,锯齿形屋顶(E04B7/10优先)
- E04B7/14: .悬索屋顶(一般的悬挂式帐篷或天篷入E04H15/04)
- E04B7/16: .带可移动部件的屋顶结构(特殊用途的建筑物入E04H)
- E04B7/18: .屋顶内或屋顶上的特殊结构,例如,老虎窗(与屋顶覆盖层相结合的入E04D 13/00;特别是圆屋顶入E04D13/03)
- E04B7/20: .由自支撑板构成的屋顶,例如,能够承重的
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | 베어링이 장착되지 않은 벽용 접는 텔레스코프식 조립식 틀 유니트 | KR1019997002955 | 1997-09-05 | KR1020000048923A | 2000-07-25 | 캠벨로날드더블유 |
| PURPOSE: A field of prefabricated partition framing and more particularly prefabricated framing units is provided to construct non-load-bearing interior and exterior walls which are telescopic and fold for easy shipment and installation. CONSTITUTION: A prefabricated framing unit for constructing non-load-bearing walls and partitions is disclosed. The framing units have vertical studs which both pivot in respect to the horizontal members, to allow collapsing of the unit, and telescope to allow the unit to be raised to fit the space between ceiling and floor without measuring and cutting to height. | ||||||
| 82 | 트러스보,트로스보를 사용한 지붕골조 및 트러스보를 사용한 지붕골조의 건설방법 | KR1019860006571 | 1986-08-09 | KR1019910008082B1 | 1991-10-07 | 오꾸다슈우지; 시모무라히데오; 혼다구스오; 가와구찌마사또; 구노야스오; 구마가이다께노리; 가또오노부오 |
| 내용 없음. | ||||||
| 83 | LICHTDURCHLÄSSIGE WAND, GEWÄCHSHAUS, FENSTER, FASSADE UND DACH | EP11719166.8 | 2011-03-30 | EP2553504A1 | 2013-02-06 | BLESSING, Kurt |
| The invention relates to a transparent wall, comprising at least one transparent wall substrate having a light-guiding structure, wherein the light-guiding structure is imprinted directly or indirectly on the wall substrate. | ||||||
| 84 | WOOD STRAND BOARD | EP03762917.7 | 2003-07-03 | EP1546483B1 | 2012-11-21 | Van Elten, Gerrit Jan |
| 85 | TOITURE DE BÂTIMENT INDUSTRIEL | EP10713486.8 | 2010-03-23 | EP2411590A1 | 2012-02-01 | HUGUES, Michel |
| The invention relates to a roof for an industrial building, including alternating ridges and valleys, characterized in that the valleys are angled relative to the horizontal with an angle of between 1 and 5%. | ||||||
| 86 | FOLIE FÜR DEN BAUBEREICH UND FOLIENVERBUND | EP08802559.8 | 2008-09-24 | EP2193022A1 | 2010-06-09 | SCHRÖER, Jörn |
| The invention illustrates and describes a sheet material (1) for the building sector, having at least one functional layer (2) and, if appropriate, at least one further layer, in particular a carrier layer and/or reinforcing layer (3), the functional layer (2) having a resistance to water-vapour diffusion (Sd value) which is dependent on the ambient humidity. According to the invention, it is provided that the functional layer (2) has at least one material (4) which can be obtained from a renewable raw material, in particular at least one polymer based on a renewable raw material. | ||||||
| 87 | Informationsvorrichtung für Bauwerke | EP08009692.8 | 2008-05-28 | EP1998152A2 | 2008-12-03 | Terlinden, Joachim |
Die Erfindung betrifft eine Informationsvorrichtung für Bauwerke, insbesondere Gebäude wie beispielsweise Massivbauten, Glasbauten sowie Stahl- bzw. Holzkonstruktionen, z. B. in Form von Hallen oder dergleichen. Um eine Vorrichtung anzugeben, mit der eine äußere Belastung festgestellt und zugänglich gemacht werden kann, so dass durch Vergleich mit einem individuell vorzugebenden Maximalwert bevorstehendes Versagen frühzeitig festgestellt werden kann, so dass durch Räumung des Gebäudes Personenschaden vermeidbar ist bzw. durch Verminderung und insbesondere Beseitigung der äußeren Belastung Sach- und/oder Personenschaden verringerbar oder sogar vermeidbar ist, soll die Informationsvorrichtung zur Ausgabe einer Information über eine Last, insbesondere Dachlast, mit zumindest einer Erfassungseinrichtung für zumindest eine auf einen Gebäudeteil, insbesondere auf zumindest einen Teil des Dachs, wirkende Last versehen sein, wobei die Erfassungseinrichtung mit einer Anzeigeeinrichtung zur Ausgabe der Anzeige der gemessenen aktuell wirkenden Last verbunden ist. |
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| 88 | Method and device for monitoring roof loads | EP07100106.9 | 2007-01-04 | EP1806461A1 | 2007-07-11 | Visser, Hermanus Johannes |
A method for monitoring the load which is exerted on a roof comprises the following steps: |
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| 89 | Prefabricated building unit with a fascia | EP01104724.8 | 2001-02-26 | EP1130187B1 | 2006-04-19 | Hoggarth Christopher John,; Norris Stuart Ian, |
| 90 | WOOD STRAND BOARD | EP03762917.7 | 2003-07-03 | EP1546483A1 | 2005-06-29 | Van Elten, Gerrit Jan |
| The present invention relates to a mineral bonded Wood Strand Cement (Magnesite, Gypsum) Board which is produced from a mixture of wood strands or a similar fibre material, water, a suitable binder like cement, magnesite or gypsum, and possibly additives, which mixture is cured under pressure to form a board with a practically entirely closed surface. For the boards according to the invention, wood strands are being used that are broader and wider than used until presently in acoustic Wood Wool Cement (Magnesite, Gypsum) Boards. Moreover, the invention relates to the production process for the production of such Wood Strand Cement (Magnesite, Gypsum) Boards. | ||||||
| 91 | FLAT SOFFIT, DOUBLY PRESTRESSED, COMPOSITE, ROOF-CEILING CONSTRUCTION FOR LARGE SPAN INDUSTRIAL BUILDINGS | EP01978682.1 | 2001-10-02 | EP1346111A1 | 2003-09-24 | SKENDZIC, Milovan; SMRCEK, Branko |
| The roof-ceiling construction comprises a wide and thin concrete plate (1) and a two-part upper steel construction (2), interconnected by means of vertical elements (3). The construction is twice prestressed by two independent methods. The concrete plate (1) is centrally prestressed in the mould (86) and after the plate (1) concrete has hardened, the upper steel construction (2) is prestressed by pushing apart, at the midspan, the steel separated halves (2) which are then connected. Prestressing of the concrete plate (1) is applied to eliminate or reduce cracks in its concrete while prestressing of the upper construction by pushing apart the steel halves (2) is used to control the deflections. | ||||||
| 92 | FOLDING TELESCOPIC PREFABRICATED FRAMING UNITS FOR NON-LOAD-BEARING WALLS | EP97939891.4 | 1997-09-05 | EP0950142B1 | 2002-08-21 | CAMPBELL, Ronald, W. |
| A prefabricated framing unit (10) for constructing non-load-bearing walls and partition is disclosed. The framing units have vertical studs (14) which both pivot in respect to the horizontal members (12), to allow collapsing of the unit (10), and telescope to allow the unit to be raised to fit the space between ceiling and floor without measuring and cutting to height. | ||||||
| 93 | Fascia | EP01104724.8 | 2001-02-26 | EP1130187A3 | 2001-11-14 | Hoggarth Christopher John,; Norris Stuart Ian, |
A fascia in or for a structure, the fascia comprising an elongate part having an outer surface and connection means to engage a part of said building. |
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| 94 | Fascia | EP01104724.8 | 2001-02-26 | EP1130187A2 | 2001-09-05 | Hoggarth Christopher John,; Norris Stuart Ian, |
A fascia in or for a structure, the fascia comprising an elongate part having an outer surface and connection means to engage a part of said building. |
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| 95 | Structural support | EP00309896.9 | 2000-11-07 | EP1099805A1 | 2001-05-16 | Burns, Roy John |
An apparatus and a method for supporting a structural support assembly, for supporting an existing roof structure, from an existing I-beam of the roof structure. The apparatus comprises a first clamp (21) having a first jaw member (22) arranged to engage one face of the web (12) of the I-beam (11), a second jaw member (23) arranged to engage the opposite face of the web (12) of the I-beam, and, securing means (24) joining the first and second jaw members (22,23) and extending, in use, through an existing aperture (13) in the web of the I-beam, the jaw members (22,23) being shaped to span said aperture (13) of the web (12) of the I-beam (11), a second similar clamp (21a) the securing means of which extends through the same, or an adjacent, aperture of the I-beam, and an elongate angle member (25) extending parallel to the I-beam and secured to the first jaws (22) of the first and second clamps (21,21a) such that one limb (25a) of the angle member (25) is substantially horizontal in use so as to be able to form a support ledge for one end of a subsidiary, roof supporting beam of the structural support assembly in use. |
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| 96 | Vordachkonstruktion | EP99118657.8 | 1999-09-22 | EP0989249A3 | 2001-02-07 | Burkart, Andreas |
Für die Gestaltung einer Vordachkonstruktion (1) zur Überdachung einer Fläche (2), die sich an einer Fassade oder Seitenwand eines Gebäudes (50) anschließt, wird eine Konstruktion vorgesehen, die den Vorteil hat, daß das von der Dachfläche (10) des Vordaches ablaufende Wasser so abgeführt wird, daß technisch bedingte gestalterische Einschränkungen vermieden werden. Dazu wird die Dachfläche (10), die sich von der Fassade oder Seitenwand (5,61) weg über eine zu überdachende Fläche (2) erstreckt, im Bereich der Fassade oder Seitenwand (5,61) tragend unterstützt und im Bereich des Endes der Dachfläche (10) mit Säulen (4) gehalten. Das von der Dachfläche (10) ablaufende Wasser wird von einer von der Säule (4) oder der Dachfläche (10) getragenen Sammeleinrichtung (3) aufgenommen und über eine vertikale Leitung, die der Säule (4) zugeordnet ist, abgeleitet. |
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| 97 | BUILDING SYSTEM | EP97910167.0 | 1997-10-21 | EP0885332A1 | 1998-12-23 | ROBINSON, Gerald |
| A building system and/or an erected building is based on a kit of parts including portable, prefabricated wall sections (12) of a width of 4 feet and a height dependent on the room height desired. The sections (12) include a metal frame (18) having parallel members (90) to be vertical in the erected building. These members (90) are provided with a thermal break (94, 94A) along their length. The thermal break (94, 94A) may also serve as a water resistant connector between sections (12). Sections (12) are aligned with abutting side edges to form walls (12A) of the building. Parallel abutting vertical members (90) of adjacent sections (12) form composite load bearing members (32) for roof trusses (10) which may be spaced apart by the width of a wall section (12). A hinged template (72) for interior partitions may be provided which can be folded for transport. Ceiling panels (48) may be connected to roof trusses (10) through an adjustable linkage (58) so that compensation for movement of the roof trusses (10) is possible. | ||||||
| 98 | Improvements in security enclosures | EP92305198.1 | 1992-06-05 | EP0540139B1 | 1998-09-09 | MacPherson, Hugh |
| A security enclosure comprises a flexible sheet (60) of insulating material extending over the whole of the area of the enclosure and carrying lines (62, 64) of electrically-responsive material on each side. The lines on one side of the sheet (60) extend obliquely relative to the lines on the other side of the sheet and are connected thereto at edge portions of the sheet to form a plurality of conductors so dividing the sheet into a number of relatively small areas so that attempted opening of the enclosure changes an electrical characteristic of the conductors. Connectors (70) are provided at an edge portion of the sheet (60) for individually connecting the conductors to a detector (88) for detecting the changes in the electrical characteristic of the lines (62, 64). The connectors (70) include a switch arrangement which is selectively configured to connect further connectors (72) associated with the detector (88) with selected conductors. One edge portion of the sheet includes a plurality of line switches (66a - d) which are selectively configured to connect each one of the lines (62a - d) on one side of the sheet with a selected one of a plurality of lines (64a - d) on the other side of the sheet. | ||||||
| 99 | FREITRAGENDE ABDECKUNG FÜR BAUWERKE | EP94927504.0 | 1994-08-26 | EP0670940A1 | 1995-09-13 | NIEMANN, Horst |
| The invention concerns a self-supporting convering for building constructions, in particular for rectangular basins in sewage-treatment plants, the covering being made up of shaped-section fibre-reinforced-plastic load-bearing elements (2, 3) of two types: main load-bearing elements which are spaced parallel to each other a certain distance apart and supported at their ends and secondary load-bearing elements which are arranged flush against each other to connect the main load-bearing elements together. In order to provide a rational, lightweight structure which requires the minimum amount of material, gives a high degree of manufacturing flexibility and is easy to store and transport, the covering is designed using, as the load-bearing elements, lengths of continously fabricated linear plastic extrusions with the reinforcement material oriented in the direction of extrusion. | ||||||
| 100 | Improvements in security enclosures | EP92305198.1 | 1992-06-05 | EP0540139A2 | 1993-05-05 | MacPherson, Hugh |
A security enclosure comprises a flexible sheet (60) of insulating material extending over the whole of the area of the enclosure and carrying lines (62, 64) of electrically - responsive material on each side. The lines on one side of the sheet (60) extend obliquely relative to the lines on the other side of the sheet and are connected thereto at edge portions of the sheet to form a plurality of conductors so divid - ing the sheet into a number of relatively small areas so that attempted opening of the enclosure changes an electrical characteristic of the conductors. Con - nectors (70) are provided at an edge portion of the sheet (60) for individually connecting the conductors to a detector (88) for detecting the changes in the electrical characteristic of the lines (62, 64). The connectors (70) include a switch arrangement which is selectively configured to connect further connec - tors (72) associated with the detector (88) with se - lected conductors. One edge portion of the sheet includes a plurality of line switches (66a - d) which are selectively configured to connect each one of the lines (62a - d) on one side of the sheet with a selected one of a plurality of lines (64a - d) on the other side of the sheet. |
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