序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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121 | VERFAHREN UND ANLAGE ZUM KONTINUIERLICHEN HERSTELLEN VON BAUELEMENTEN | EP99947081.8 | 1999-10-05 | EP1124656B1 | 2003-05-02 | RITTER, Klaus; RITTER, Gerhard; SCHMIDT, Gerhard |
The invention relates to a method and plant for continuously producing construction elements. According to said method, two parallel, flat wire lattice mats (M, M') consisting of intersecting longitudinal and transversal wires (L, Q) and which are welded together at their intersecting points are advanced in a production line. An insulating body (K) is inserted between the wire lattice mats (M, M'). The straight wire webs (S, S') are guided through the insulating body (K) and are welded with their ends to the wire lattice mats (M, M') so that said mats are spaced apart at a predetermined distance. A continuous coherent length of insulating material is produced from individual insulating sheets (I) and is advanced. The insulating body (K) can then be cut off from said strip of insulating material at a desired length. | ||||||
122 | MULTI WIDTH PANEL FABRICATING MACHINE | EP00974695.9 | 2000-11-13 | EP1237676A1 | 2002-09-11 | GOULD, TomStructherm Ltd.; DICKINSON, MichaelStructherm Ltd. |
An apparatus for manufacturing a building panel, which panel comprises a plurality of truss elements (1), the apparatus comprising an alignment mechanism adapted to align the truss elements with respect to one another, an indexing mechanism for moving the truss elements through the apparatus, a welding station adapted to weld the truss elements to one another to form a panel and a cutter for removing excess wire from the panel. The alignment mechanism comprises a plurality of rollers (10, 12) arranged in two groups, the position of a first group of rollers (10) comprising two groups of spatially separated rollers, the position of which is adjustable in the horizontal plane and the position of a second group (12) being adjustable in the vertical plane. | ||||||
123 | DRAHTEINBRINGVORRICHTUNG | EP94926056.6 | 1994-09-16 | EP0671986B1 | 1998-06-03 | RITTER, Klaus; RITTER, Gerhard |
The invention concerns a device for inserting wire into an intermittently advanced insulating element (I) in a component (B), the device having a wire-feed device (6, 7) mounted on a rotatable baseplate (1) and a device (15, 16, 21) designed to form a channel designed to house the wire. The channel-forming device is located in front of the wire-feed device in the direction of advance of the components, on the same side of the insulating element and disposed at the same angle as the wire-feed device, as well as being securely linked to the wire-feed device so that it can be moved together with the wire-feed device towards and away from the insulating element and can be rotated together with the wire-feed device. | ||||||
124 | GITTERBLOCKMATERIAL | EP96913524.0 | 1996-04-25 | EP0842000A1 | 1998-05-20 | PRILUCK, Jonathan |
The description relates to a structural material having the configuration or form of a wire grid. The structural material can be made by first winding a continuous wire on a loom structure. Once the wire has been wound into an array of parallel wires, it is secured in place and separated into segments. The segments are then arranged in a frame. The frame arranges the segments at relative angles so that they form a matrix or network or sieve. In the final production step, the wires are welded together, e.g. in a forging press. Alternatively, the material may also be produced by first securing wire segments in a pair of frames and then welding them together. The structural material of the invention can be used alone or in layers to form a multi-layer material. | ||||||
125 | Apparatus for manufacturing building panels | EP88115284.7 | 1988-09-16 | EP0308837B1 | 1992-08-19 | Candiracci, Angelo |
126 | Apparatus for manufacturing panels | EP83302725.3 | 1983-05-13 | EP0094809B2 | 1991-07-31 | Monzon Indave, Martin |
127 | Apparatus for manufacturing building panels | EP88115284.7 | 1988-09-16 | EP0308837A1 | 1989-03-29 | Candiracci, Angelo |
The apparatus, for manufacturing building panels for constructing walls with antiseismic and thermoacoustic insulation characteristics, includes a horizontal table (6) for assembling a panel (2) formed by at least one layer (3) of insulating material and by a pair of metal grids (4, 5) associated with the opposite faces of said insulating layer, means (10, 11) for advancing said panel step by step to a station for inserting, cutting and welding connecting elements (8) of said metal grids (4, 5). The inserting, cutting and welding station includes means (17) adapted to insert the connecting elements transversely to the insulating layer, lower welding means (19) adapted to weld the connecting elements, which pass through the insulating layer, to the lower metal grid of the panel, means (18) for cutting the connecting elements at the upper metal grid of the panel, and upper welding means (51) adapted to weld the cut connecting elements to the upper metal grid of the panel. |
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128 | Apparatus for manufacturing panels | EP83302725.3 | 1983-05-13 | EP0094809B1 | 1988-01-07 | Monzon Indave, Martin |
129 | Apparatus for manufacturing panels | EP83302725 | 1983-05-13 | EP0094809A3 | 1985-05-22 | Monzon Indave, Martin |
An installation for manufacturing panels used in building construction which panels comprise a metal framework of two parallel meshes joined by connector wires which obliquely pass through a core of lighweight material between the two parallel meshes to which latter said connector wires are welded, the installation including a conveyor device for entry into the machine, a first section of an intermittent traction and advancing device within the machine, a dispensing device for feeding connector wires to a fastening device for inserting them in the lightweight core, a second section of the intermittent traction and advancing device, a column of electrodes for welding the connector wires, a third section of the intermittent traction and advancing device, a saw device for shaping the resulting panels and automated mechanisms and systems for controlling all these elements. |
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130 | Verfahren und Vorrichtung zum Herstellen geschweisster Gittermatten | EP82890061.3 | 1982-04-29 | EP0069108A2 | 1983-01-05 | Schmidt, Gerhard, Dipl.-Ing.; Ritter, Klaus, Dipl.-Ing.; Ritter, Gerhard, Dipl.-Ing. Dr. |
57 Gitterkörper, die aus zwei parallelen, ebenen Gittermatten aus einander kreuzenden und an den Kreuzungspunkten verschweissten Längs- und Querdrähten und aus als Abstandhalter dienenden Stegdrähten bestehen, die an jedem Ende mit einem Draht einer der beiden Gittermatten verschweisst sind, sollen in einem kontinuierlichen Verfahren und auf solche Weise hergestellt werden, dass gegebenenfalls in den Gitterkörper während seiner Herstellung ein fsolierkem eingebracht werden kann. Zu diesem Zweck werden zwei Gitterbahnen (3, 4) schrittweise von Vorratsspulen (1, 2) abgezogen, geradegerichtet und in gegenseitigem Abstand angeordnet; gleichzeitig werden mehrere Drähte (22, 23) schrittweise von Vorratsspulen (20, 21) abgezogen, geradegerichtet und von der Seite her durch eine (3) der Gitterbahnen (3, 4) in den Zwischenraum zwischen den Gitterbahnen eingeführt, mit je einem Gitterbahndraht verschweisst und vom Drahtvorrat abgetrennt. |
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131 | METHOD AND SYSTEM FOR BENDING SPACERS | EP13717980.0 | 2013-03-05 | EP2822714B1 | 2018-05-23 | Anagnostopoulos, Antonios |
Systems and methods for producing spacers (2) from meshes (1) of wire or rods or tubes or other materials of prismatic cross section, or wires or rods or other materials of prismatic cross section. In end use, the spacers (2) are positioned inside molds for defining the position of the reinforcement of concrete plates. The spacer meshes are produced from a starting mesh (1). The formation of the starting mesh into a spacer is made by positioning the starting mesh, along its longitudinal direction, inside a mechanism that includes grippers (3, 4, 5, 6, 7) seated on carriers (8, 11, 16, 17) so as to move freely in the longitudinal direction. A central gripper (3) is stationary, while every movable second gripper (4, 5) may also be moved perpendicular to the longitudinal direction by a cylinder (22, 23). Thus, by the action of these cylinders (22, 23), from the starting product the final product is formed, and the carriers (8, 11, 16, 17) of the grippers (4, 5, 6, 7) are repositioned as a result of the pull of the longitudinal wires of the starting product during deformation. | ||||||
132 | APPARATUS FOR THE REALISATION OF REINFORCEMENT MEANS USABLE FOR THE REALISATION OF A BUILDING CONSTRUCTION | EP11739182.1 | 2011-06-10 | EP2580008B1 | 2017-08-09 | Candiracci, Angelo |
133 | METHOD OF FABRICATING A 3-DIMENSIONAL STRUCTURE, MESH FORMWORK ELEMENT FOR FABRICATING A 3-DIMENSIONAL STRUCTURE, AND METHOD OF FABRICATING THE SAME | EP14842848 | 2014-09-04 | EP3042008A4 | 2017-05-17 | HACK NORMAN PETER; LAUER WILLI VIKTOR; GRAMAZIO FABIO MATTEO; KOHLER MATTHIAS; BLANK NORMAN |
Method of fabricating a 3-dimensional structure, mesh formwork element for fabricating a 3-dimensional structure, and method of fabricating the same. The method of fabricating a 3-dimensional structure comprises providing a mesh formwork element such that a cavity bound by at least two opposing portions of the mesh formwork is formed; accumulating a material in the cavity; and allowing the material to harden; wherein apertures in the at least two opposing portions of the mesh formwork element are adapted to the hydro-static pressure of the accumulated material or vice versa such that at least two surfaces of the hardened material substantially take on the respective shapes defined by the two opposing portions of the mesh formwork element. | ||||||
134 | GABION | EP13720568 | 2013-03-07 | EP2828437B1 | 2017-05-03 | FERRAIOLO FRANCESCO |
135 | METHOD OF FABRICATING A 3-DIMENSIONAL STRUCTURE, MESH FORMWORK ELEMENT FOR FABRICATING A 3-DIMENSIONAL STRUCTURE, AND METHOD OF FABRICATING THE SAME | EP14842848.5 | 2014-09-04 | EP3042008A1 | 2016-07-13 | HACK, Norman Peter; LAUER, Willi Viktor; GRAMAZIO, Fabio Matteo; KOHLER, Matthias; BLANK, Norman |
Method of fabricating a 3-dimensional structure, mesh formwork element for fabricating a 3-dimensional structure, and method of fabricating the same. The method of fabricating a 3-dimensional structure comprises providing a mesh formwork element such that a cavity bound by at least two opposing portions of the mesh formwork is formed; accumulating a material in the cavity; and allowing the material to harden; wherein apertures in the at least two opposing portions of the mesh formwork element are adapted to the hydro-static pressure of the accumulated material or vice versa such that at least two surfaces of the hardened material substantially take on the respective shapes defined by the two opposing portions of the mesh formwork element. | ||||||
136 | METAL WIRE SUPPLYING MACHINE | EP13750268.8 | 2013-06-14 | EP2741872B1 | 2015-12-30 | Candiracci, Angelo |
137 | DEVICE AND METHOD FOR INSERTING, SECTIONING AND FIXING METAL WIRE ELEMENTS IN PLASTIC LAYERS ENCLOSED BETWEEN TWINNED METAL NETTINGS | EP13728126.7 | 2013-05-14 | EP2741871A1 | 2014-06-18 | CANDIRACCI, Angelo |
Device and method for inserting, sectioning and fixing wire-like metal elements (6) into plastic materials enclosed between twinned metal nettings, particularly for introducing, defining and welding crosspieces in automatic "sewing" machines for producing sandwich prefabricated panels made of metal grids and expanded plastic material. The welding operation takes place by at least one pair of electrodes (9, 10) wherein a cutting insert (15) is embedded in one electrode (9) such the said electrodes serve also for sectioning the metal wire (6)and welding its apex with the weft wire (16) in a single station for the advancement of the product. | ||||||
138 | Exhaust connection member with preformed braided cover | EP11188342.7 | 2011-11-08 | EP2450545A1 | 2012-05-09 | Stalcup II, Robert, Franklin; Swank, Scott, Robert |
An exhaust connection coupler and a method for manufacturing a braid cover incorporated therein are provided. The coupler may include an inner flexible bellows member and an outer braid cover surrounding the bellows member. The braid cover may be formed into a predetermined shape prior to assembly with the coupler. The braid member can include a generally cylindrical body section and two end sections each forming necks having diameters that are smaller than the diameter of the body section. The body section of the braid cover is self-supporting and is positioned an appreciable distance from the bellows member in order to avoid any friction and to create a thermally insulating air gap therebetween. The braid cover may be constructed of braided wire filaments that are formed into shape with forming dies. The braid cover may be pressed between two forming dies in order to create its desired shape. |
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139 | ANLAGE ZUM KONTINUIERLICHEN HERSTELLEN VON BAUELEMENTEN | EP02778866.0 | 2002-06-13 | EP1395378B1 | 2010-09-08 | RITTER, Klaus |
140 | ANLAGE ZUM HERSTELLEN VON BAUELEMENTEN | EP04735846.0 | 2004-06-03 | EP1635971B1 | 2007-08-01 | RITTER, Klaus |
The invention relates to a method for continuously producing structural elements (B) comprising two flat and parallel wire netting mats (M, M') consisting of crossing longitudinal and transversal wires which are welded at the points where they are jointed to each other by straight web wires (S, S') maintaining said wire netting mats at a predefined space from each other and of insulating elements arranged therebetween and crossed by the web wires. The inventive method consists in placing in parallel two wire netting mats in a production channel (2) at a distance with respect to each other corresponding to a desired thickness of the structural element. An insulation plate (I, I') made of a heat insulating material is arranged in the space between the parallel wire netting mats and several web wires are simultaneously inserted through at least one of the wire netting mats and a the insulating element from at least one alternate side in a an opposite direction to the diagonal on the planes which are perpendicular to the planes of the wire netting mats, said web wires being then welded to the wires (L, L'; Q, Q') of the netting mats. A device for carrying out said method and the thus produces structural element are also disclosed. |