| 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 | Apparatus for manufacturing prefabricated sandwiched building panels | US11447809 | 2006-06-06 | US20060283913A1 | 2006-12-21 | Angelo Candiracci |
| Machine for producing prefabricated sandwiched building panels having upper and lower grids and insulating material between the grids. The machine has a pair of transversely movable insertion devices suitable for inserting sections of metal wire into the panel, a pair of transversely movable cutting devices vertically coaxial with the insertion devices and interposed between the insertion devices and the panel for cutting the wire at the surface of the upper grid of the panel, a pair of transversely movable welding devices positioned below the panel and vertically coaxial to the insertion devices and the cutting devices for welding the lower end of the wires to the lower metal grid, and a pair of transversely movable upper welding devices one production step behind the cutting devices and positioned axially parallel to the cutting devices for welding the upper end of the wires to the upper metal grid. | ||||||
| 102 | Truss core sandwich panels and methods for making same | US09860703 | 2001-05-18 | US06644535B2 | 2003-11-11 | Jeremy C. Wallach; Lorna J. Gibson |
| A structural material includes a plurality of discrete, interwoven wires disposed between and fastened to two solid face sheets. Each of the plurality of wires further includes at least two points of contact with each of the two face sheets. Methods for fabricating the aforementioned structural material include an automated methodology for fabricating a relatively inexpensive truss core sandwich panel. | ||||||
| 103 | Truss core sandwich panels and methods for making same | US09860703 | 2001-05-18 | US20020170941A1 | 2002-11-21 | Jeremy C. Wallach; Lorna J. Gibson |
| A structural material includes a plurality of discrete, interwoven wires disposed between and fastened to two solid face sheets. Each of the plurality of wires further includes at least two points of contact with each of the two face sheets. Methods for fabricating the aforementioned structural material include an automated methodology for fabricating a relatively inexpensive truss core sandwich panel. | ||||||
| 104 | Lattice block material | US946522 | 1997-10-07 | US5962150A | 1999-10-05 | Jonathan Priluck |
| Disclosed is a structural material having a lattice configuration. In one embodiment of the invention, the structural material is manufactured by weaving a continuous wire filament on a loom assembly. In an alternative embodiment of the invention, the structural material is formed using substrate sheets that are machined or molded into a desired configuration. The structural material of the invention can be used alone or layered to form a multi-laminate material. | ||||||
| 105 | System for the continuous production of building elements | US617857 | 1996-03-14 | US5647110A | 1997-07-15 | Klaus Ritter; Gerhard Ritter; Gerhard Schmidt |
| Plant for the continuous production of building elements which consist of two parallel flat grid meshes made from welded longitudinal and transverse wires, of straight web wires holding the grid meshes at a predetermined mutual spacing and of an insulating body which is arranged between the grid meshes and through which the web wires penetrate, with a production channel (2), on both sides of which supply reels (3, 3') and straightening devices (5, 5'), each for an endless grid sheet (G, G') standing on edge, and push-in devices (7, 7') are provided for drawing off the grid sheets in steps and for introducing these into grid-sheet lead devices (14, 14'), two cutting devices (11, 11') for severing grid meshes (M, M') of predetermined length being arranged upstream of the lead devices, and the grid meshes being capable of being advanced in the lead devices and in the production channel in steps to web-wire feeding and cutting devices (26, 26') by means of a grid-mesh conveying device (18) and downstream welding devices (30, 30') being capable of being advanced for the simultaneous welding of the two ends of all the web wires (S) to corresponding longitudinal wires (L, L') of the grid meshes, furthermore an insulating-body guide device (22) and an insulating-body conveying device (24) being provided for advancing the insulating bodies in steps, synchronously with the grid meshes and a building-element conveying device (32) being provided for conveying the building elements in steps to web-wire trimming devices (35, 35') and for conveying the building elements out of the production channel, and the push-in devices and all the conveying devices, coupled to one another, being capable of being driven jointly by means of drive shafts (38, 38'). | ||||||
| 106 | Quick-adjustment slewing device for inserting and cutting cross wires in automatic equipment for prefabricating building panels | US263122 | 1994-06-21 | US5547118A | 1996-08-20 | Angelo Candiracci |
| A slewing device having a quickly adjustable drive is available for inserting and cutting cross wires in automated equipment for the prefabrication of building panels. The device includes a bridge that may be selectively tilted to planes transverse to the line of conveyance of the panels supported by a bank of electronically-controlled electric motor drives. Each drive motor operates a corresponding device for pulling at least one metal wire so as to push and insert the wire at substantially any angle through a layer of plastic material sandwiched between sheets of wire netting to form the panel after passing through coaxial cutting devices for trimming the wire after its insertion. | ||||||
| 107 | Machine for manufacturing construction panels | US7846 | 1993-01-22 | US5403985A | 1995-04-04 | Se-Hong Ahn |
| The machine for manufacturing a construction panel has a plurality of clamping mechanisms (32) for holding fixed a subassembly including a plate-shaped heat insulating core (12) and upper and lower wire meshes (18,24) with predetermined gaps between them; a reciprocating carriage (44) mounted slidably in a longitudinal direction on a main frame (30); carriage driving mechanism (46) for moving the carriage (44) on the main frame (30) including a driving motor (140), an electromagnetic clutch (142) and a ball screw (144); a subassembly guide (34) for maintaining the predetermined gaps; first and second supporting member feeding and inserting mechanisms (36,38), each of which include feeding units (82) having hoppers (86) for discharging one-by-one a plurality of pre-cut first and second supporting members (26,28) and a plurality of inserting units (84), each of the inserting units including a pneumatic cylinder (92) having a piston rod (94) and a plunger (96) connected to the piston rod (94); and upper and lower electric welding mechanisms (4) for spot welding the longitudinal wires of the upper and lower wire meshes (18,24) with the first and second supporting members (26,28) to form a finished construction panel (10). | ||||||
| 108 | Method and apparatus for guiding wire sections through an insulating body of a component | US507245 | 1990-03-15 | US5167360A | 1992-12-01 | Gerhard Ritter; Klaus Ritter |
| Process and device for guiding wire sections through an intermittently advanced insulating body, consisting at least partially of non-pliable material, of a component; wherein, between successive advancing steps a channel for receiving the wire is initially formed in the insulating body and only then is the wire advanced by a wire supply guided through the reception channel from one of the two sides of the insulating body. | ||||||
| 109 | Construction panel | US121819 | 1987-11-23 | US4785602A | 1988-11-22 | Marco O. Giurlani |
| A construction panel with improved physical properties is disclosed. This panel is comprised of a wire-mesh framework, an insulating core disposed within the framework, and means for disposing the insulating core within the framework and connecting the core to the framework. The wire-mesh framework is a closed, four-sided structure with a front side, a back side, a left side, a right side, a first alignment guide, and a second alignment guide. Cross-tie separators pass through the insulating core and are attached to the wire mesh framework at spaced points. | ||||||
| 110 | Installation for the manufacture by a continuous process of compound panels for building construction | US493786 | 1983-05-12 | US4541164A | 1985-09-17 | Martin Monzon Indave |
| 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 lightweight 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. | ||||||
| 111 | Device for the purpose of pushing sections of a wire through a solid body consisting of yielding material | US470637 | 1983-02-28 | US4506818A | 1985-03-26 | Gerhard Ritter; Klaus Ritter; Josef Ritter; Edgar Pollhammer |
| In order to be able to remove the wire from its supply source and in order to be able to prevent a bending of the wire, a wire-feed-clamp (3) can be moved along an alignment element (2) which, in a fixed position, is arranged on a carrier (1), whereby the wire-feed-clamp (3) produces a one-sided gripping effect and whereby a hollow needle (8) is affixed on the front side of the wire-feed-clamp (3), for the purpose of penetration of the solid body; at the rear extremity of the alignment element (2), a return-motion stopping-element (11) for the wire is arranged which, in the same sense as the wire-feed-clamp (3), produces a one-sided gripping effect and is aligned with the hollow needle (8) and whereby in front of the alignment element (2), a cutting element (20, 21) is arranged for the purpose of cutting-off the wire section which, at any given time, had been pushed through the solid body. | ||||||
| 112 | Method of forming construction panel | US471494 | 1983-03-02 | US4505019A | 1985-03-19 | Dietrich F. Deinzer |
| A method and associated device for forming reinforced panels including providing a first panel of insulation having two major surfaces, piercing the insulation panel with rod like members so that portions of the rod members extend out from both major surfaces, superimposing on each major surface a grid formed from a plurality of longitudinally and latitudinally extending bar members which are formed by attaching the bar like members at intersections thereof and orienting the grid and additionally the rod like members so that some of the rod like members contact different bar like members which are thereafter welded to form a reinforced panel. | ||||||
| 113 | Welded grid, primarily for securing underground cavities, cavity systems, as well as process for making the grid | US906779 | 1978-05-17 | US4245926A | 1981-01-20 | Csaba Asszonyi; Istvan Klausz; Istvan Kmety; Nandor Meitzen; Rezso Pasztor |
| Welded grid structure for securing underground cavities such as mine roads, consisting of two sets or grid systems of parallel straight bars disposed in parallel planes and connected by welding to a third set of bars that extend perpendicular to the first two sets of bars. The bars of the third set are bent to enable them to intersect the planes of the first and second sets but not all intersection points are welded. The non-welded points are in accordance with a predetermined scheme as a result of which the grid system is rigid in the principal direction along the straight bars of the first two sets but is flexible along a direction perpendicular thereto. A process for making the grid structure is also disclosed. | ||||||
| 114 | Method for manufacturing a wire matrix | US794376 | 1977-05-06 | US4120330A | 1978-10-17 | Victor P. Weismann |
| A wire matrix for a construction panel has a plurality of parallel longitudinal trusses, each truss having a pair of parallel longitudinal wire runners and a plurality of transverse wire struts in which the struts associated with one truss are all parallel to each other and extend diagonally between the parallel runners, with the struts in alternate ones of the trusses being parallel and the struts in adjacent trusses being skewed. The trusses are formed by making a grid of parallel longitudinal runners joined by diagonal cross wires which are then cut between adjacent pairs of runners to form separate trusses. The trusses are then joined by transverse wire runners forming a three-dimensional matrix. | ||||||
| 115 | Wire truss and apparatus for manufacturing a wire truss | US794378 | 1977-05-06 | US4079560A | 1978-03-21 | Victor Paul Weismann |
| A wire matrix for a construction panel has a plurality of parallel longitudinal trusses, each truss having a pair of parallel longitudinal wire runners and a plurality of transverse wire struts in which the struts associated with one truss are all parallel to each other and extend diagonally between the parallel runners, with the struts in alternate ones of the trusses being parallel and the struts in adjacent trusses being skewed. The trusses are formed by making a grid of parallel longitudinal runners joined by diagonal cross wires which are then cut between adjacent pairs of runners to form separate trusses. The trusses are then joined by transverse wire runners forming a three-dimensional matrix. | ||||||
| 116 | Exhaust connection member with preformed braided cover | EP11188342.7 | 2011-11-08 | EP2450545B1 | 2018-07-11 | 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. | ||||||
| 117 | METAL WIRE SUPPLYING MACHINE | EP13750268.8 | 2013-06-14 | EP2741872A1 | 2014-06-18 | Candiracci, Angelo |
| Metal wire supply machine especially connected to devices for inserting, defining and welding metal wires into plastic material enclosed between twinned metal nettings, particularly for introducing, defining and welding crosspieces in automatic "sewing" machines for producing sandwich prefabricated panels made of metal nettings and expanded plastic material. Said devices (2) comprise at least one pair of branches (6, 7) arranged adjacent to the trajectory of moving at least one metal wire (3), one of which branches is fixed (6) and the other constituting a lever of first type (7) actuated pneumatically (10). The branches (6, 7) carry at one end, corresponding to the resistance for the lever (7), at least one gear (11, 12), one of which is driven (11). Both gears (11, 12) are coaxially integral to symmetric wheels (13, 14) circumferentially carrying at least one groove (15), adapted to engage said at least one metal wire (3), drawing it from a storage reel and moving it according to a rectilinear trajectory. | ||||||
| 118 | MULTI WIDTH PANEL FABRICATING MACHINE | EP00974695.9 | 2000-11-13 | EP1237676B1 | 2008-01-09 | GOULD, Tom Structherm Ltd.; DICKINSON, Michael Structherm 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. | ||||||
| 119 | Simplified automatic machine for the production of prefabricated sandwich building panels made up of metal grids and foamed plastic material | EP05112910.4 | 2005-12-23 | EP1733820A1 | 2006-12-20 | Candiracci, Angelo |
Simplified automatic machine for the production of prefabricated sandwich building panels made up of metal grids and foamed plastic material, comprising: |
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| 120 | VERFAHREN UND EINE ANLAGE ZUM KONTINUIERLICHEN HERSTELLEN VON BAUELEMENTEN | EP02778866.0 | 2002-06-13 | EP1395378A1 | 2004-03-10 | RITTER, Klaus |
| The invention relates to a method and device for continuously producing components (B), whereby two wire mesh mats (M, M') are placed in a parallel position at a distance from one another that corresponds to the desired thickness of the component (B). In order to form an insulating body (W) of the component, a plate (I, I1, I1', I2, I2') made of a heat-insulating material is inserted into the space between the parallel wire mesh mats while being situated at a distance from each wire mesh mat. In addition, a number of connecting wires (S, S') are, at the same time, inserted into the space between the wire mesh mats whereby passing through at least one of the two wire mesh mats. These connecting wires start from at least one side while running in a diagonal manner that alternates in opposite directions and in planes extending perpendicular to the planes of the wire mesh mats. The free ends of the connecting wires are pushed through the insulating body, whereby each connecting wire comes to rest near a wire (L, L', L1, L1'; Q, Q', Q1, Q1') of both wire mesh mats, and the connecting wires are welded to these wires. The ends of the connecting wires projecting beyond the wires are then cut off. | ||||||
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