81 |
Panel for building, etc. |
JP19202994 |
1994-07-21 |
JPH0835273A |
1996-02-06 |
ITOU TATSUKI |
PURPOSE:To obtain a panel for building, etc., promoting thermal insulation and sound insulation efficiency. CONSTITUTION:Grid wire nets 3a and 3b formed by welding intersections of vertical and horizontal metal lines are arranged at a specific interval, solid wire nets 2a and 2b connected with joint metal lines 5 fixing the wire nets in a constructional state are overlapped on every face of a plastic foam panel 1. A recessed bearing wire net 6 overlapped to the outside of the ends is connected to the solid wire nets 2a and 2b with connection metal lines 7 to form a panel 8 for building, etc. |
82 |
Apparatus for manufacturing a box-shaped welded wire mesh |
JP4336193 |
1993-02-09 |
JPH07112587B2 |
1995-12-06 |
章三 堀内; 盛雄 村山; 俊之 石黒 |
|
83 |
JPH04740B2 - |
JP14821783 |
1983-08-12 |
JPH04740B2 |
1992-01-08 |
KITAGAWA YOSHIO; KANAYAMA YOSHIO |
|
84 |
JPH0140699B2 - |
JP8030482 |
1982-05-14 |
JPH0140699B2 |
1989-08-30 |
GERUHARUTO SHUMITSUTO; KURAUSU RITSUTAA; GERUHARUTO RITSUTAA |
|
85 |
Apparatus for producing three-dimensional welded wire net board |
JP15692283 |
1983-08-26 |
JPS6049823A |
1985-03-19 |
KITAGAWA YOSHIO |
PURPOSE:To provide a titled apparatus which produces a three-dimensional wire net board having a good shape without distortion by forming plural lengths of longitudinal wires welded with transverse wires to a wave shape, welding the longitudinal wires to the ridge parts of the wave shape while maintaining the good wave shape to form a three-dimensional wire net and loading a perforated body therein. CONSTITUTION:Longitudinal wires 7 delivered from many coil stands 9 are welded at specified intervals with transverse wires 8 by a multipole electric resistance welding machine 34 and are supplied via a loop part 10 to a corrugating device 11. Wave-shaped longitudinal wires 3 are fed in the good wave shape having no distortion and twist to a succeeding welding machine 12 for welding longitudinal wires 2 to the upper and lower ridge parts by a device 15 for maintaining and feeding the wave shape having wave shape ribbons 16. A three- dimensional wire net 4 with which welding is completed is loaded 5 with a porous material in the internal space by a device 20 for loading the porous body and is delivered to be cut 21 to a standard length. The board having a good shape without distortion and twist is formed by the part 10 and the device 15. |
86 |
Method and apparatus for producing welded grid member |
JP8030482 |
1982-05-14 |
JPS5825831A |
1983-02-16 |
GERUHARUTO SHIYUMITSUTO; KURAUSU RITSUTAA; GERUHARUTO RITSUTAA |
|
87 |
Method and apparatus for frame enclosing safety securing means for effective lining wall of underground hollow system |
JP5868478 |
1978-05-17 |
JPS549103A |
1979-01-23 |
KUSABA ASUSUZONII; ISUTOBAN KURAUSUZU; ISUTOBAN KUMETSUTEI; NANDOORU MEITSUEN; RENZUSO PASUTSUOORU |
|
88 |
JPS523208B2 - |
JP3450272 |
1972-04-07 |
JPS523208B2 |
1977-01-26 |
|
|
89 |
EXHAUST CONNECTION MEMBER WITH BRAIDED COVER AND METHOD OF MAKING THE SAME |
US14880419 |
2015-10-12 |
US20160032813A1 |
2016-02-04 |
Robert F. Stalcup, II; Scott R. Swank |
An exhaust connection coupler and a method for manufacturing a braid cover incorporated therein are provided. The method of manufacturing comprises the steps of providing a tubular sleeve formed of braided wire filaments and forming at least one end of the sleeve into shape using a forming die such that the at least one end of the cover includes a circumferential neck portion having a diameter smaller than the diameter of a body portion of the cover. In the method, the sleeve may be pressed between male and female forming dies in order to create the cover's desired shape, which can include a shoulder extending radially outwardly from the cover's neck portion and meeting the cover's body portion at a corner. |
90 |
Method for manufacturing exhaust connection member with preformed braided cover |
US13690122 |
2012-11-30 |
US09009972B2 |
2015-04-21 |
Robert Franklin Stalcup, II; Scott Robert Swank |
An exhaust connection coupler and a method for manufacturing a braid cover incorporated therein are provided. The method of manufacturing comprises the steps of providing a tubular sleeve formed of braided wire filaments and forming at least one end of the sleeve into shape using a forming die such that the at least one end of the cover includes a circumferential neck portion having a diameter smaller than the diameter of a body portion of the cover. In the method, the sleeve may be pressed between male and female forming dies in order to create the cover's desired shape, which can include a shoulder extending radially outwardly from the cover's neck portion and meeting the cover's body portion at a corner. |
91 |
METHOD FOR PRODUCING A FIBROUS METAL STRUCTURE BY MEANS OF WEAVING |
US13878657 |
2011-10-10 |
US20130186507A1 |
2013-07-25 |
Thierry Godon; Bruno Jacques Gérard Dambrine; Alain Robert Yves Perroux |
A method for the production of a fibrous metal structure by weaving with metal weft yarns and metal warp yarns. The method includes weaving the fibrous structure by successive weaving of metal clasps that are used as weft yarns. For the purpose of weaving, each of the arms of each of the metal clasps is introduced into at least one shed, each shed being formed by two warp yarns. |
92 |
METHOD FOR MANUFACTURING EXHAUST CONNECTION MEMBER WITH PREFORMED BRAIDED COVER |
US13690122 |
2012-11-30 |
US20130087243A1 |
2013-04-11 |
Robert Franklin Stalcup, II; Scott Robert Swank |
An exhaust connection coupler and a method for manufacturing a braid cover incorporated therein are provided. The method of manufacturing comprises the steps of providing a tubular sleeve formed of braided wire filaments and forming at least one end of the sleeve into shape using a forming die such that the at least one end of the cover includes a circumferential neck portion having a diameter smaller than the diameter of a body portion of the cover. In the method, the sleeve may be pressed between male and female forming dies in order to create the cover's desired shape, which can include a shoulder extending radially outwardly from the cover's neck portion and meeting the cover's body portion at a corner. |
93 |
INSTALLATION AND PROCESS FOR MAKING PANELS |
US13388339 |
2010-06-24 |
US20120193032A1 |
2012-08-02 |
Angelo Candiracci |
Described are an installation (1) and a process for making panels (A), in particular panels (A) used for the construction of a building; including elements adapted for making a longitudinal body (B) of material for panels; and elements for making from the body (B) of panel material panels (A) whose length (L) is selectively predetermined. |
94 |
Method for manufacturing a three dimensional frame structure for use as a core structure in a sandwich construction |
US12197037 |
2008-08-22 |
US08220155B2 |
2012-07-17 |
Hans-Jürgen Weber; Gregor Christian Endres |
A method is provided for manufacturing a three dimensional frame structure that can be used as a core structure in a sandwich construction. Furthermore, a frame structure is provided for a sandwich construction, which frame structure has been manufactured in accordance with the method. In the method, a two dimensional lattice structure is made from bar-shaped linear semi finished products, in which structure the semi finished products intersect at defined points of intersection; the bar-shaped linear semi finished products are connected at the points of intersection and are softened by locally applying heat to the lattice structure in each case along three non-intersecting (imaginary) straight lines. In order to impart a three dimensional shape to the lattice structure a force (F) is introduced into the lattice structure along the middle one of the (imaginary) straight lines to which heat has been applied, wherein, as a result of deformation of the lattice structure, the introduced force F is deflected into pairs of tensile forces acting in the semi finished products, as a result of which the lattice structure is pulled into a third dimension, along the middle (imaginary) straight line to which heat has been applied. |
95 |
3-DIMENSIONAL LATTICE TRUSS STRUCTURE COMPOSED OF HELICAL WIRES AND METHOD FOR MANUFACTURING THE SAME |
US13391719 |
2010-08-25 |
US20120151868A1 |
2012-06-21 |
Ki Ju Kang; Seung Chul Han; Jai Hwang Joo |
Disclosed are three-dimensional porous light-weight structures composed of helical wires and the manufacturing method of the same. Continuous helical wire groups in three or six directions having a designated angle (for example, 60 degrees or 90 degrees) with respect to one another in a space cross and are then assembled, and thus new truss-shaped three-dimensional lattice truss structures having high strength and stiffness to weight ratio and a large surface area and method of mass-producing the structures at low costs are provided. The three-dimensional porous light-weight structures are manufactured by a method in which helical wires are three-dimensionally assembled through a continuous process rather than a method in which net-shaped wires are simply woven and stacked, and thus have a configuration similar to the ideal hexahedron truss, Octet truss, or truss in which regular octahedrons and cuboctahedrons are combined, thereby having excellent mechanical properties or thermal or aerodynamic properties. |
96 |
Tools and methods for designing a structure using prefabricated panels |
US11707645 |
2007-02-16 |
US07835810B2 |
2010-11-16 |
Vincent D. Mifsud; Giuseppe Corrado Aprile; Michael J. Churchill; Michele Tancredi |
The disclosed technology enables manufacturers to efficiently design and manufacture structural wall panels, floor panels and roof panels from cold-formed steel for use in residential and commercial construction. The panels are individual components that can be installed at a building site to form a structure that includes walls, floor and a roof. Structures may be manufactured in a manufacturing facility and delivered to a construction site for installation. |
97 |
Tools and methods for designing a structure using prefabricated panels |
US11707645 |
2007-02-16 |
US20070271073A1 |
2007-11-22 |
Vincent Mifsud; Giuseppe Aprile; Michael Churchill; Michele Tancredi |
The disclosed technology enables manufacturers to efficiently design and manufacture structural wall panels, floor panels and roof panels from cold-formed steel for use in residential and commercial construction. The panels are individual components that can be installed at a building site to form a structure that includes walls, floor and a roof. Structures may be manufactured in a manufacturing facility and delivered to a construction site for installation. |
98 |
Information technology process for prefabricated building panel assembly |
US11707765 |
2007-02-16 |
US20070265724A1 |
2007-11-15 |
Vincent Mifsud; Giuseppe Aprile; Michael Churchill; Michele Trancredi |
The disclosed technology enables manufacturers to efficiently design and manufacture structural wall panels, floor panels and roof panels from cold-formed steel for use in residential and commercial construction. The panels are individual components that can be installed at a building site to form a structure that includes walls, floor and a roof. Structures may be manufactured in a manufacturing facility and delivered to a construction site for installation. |
99 |
Bi-directional roller table |
US11707563 |
2007-02-16 |
US20070264108A1 |
2007-11-15 |
Vincent Mifsud; Giuseppe Aprile; Michael Churchill; Michele Tancredi |
The disclosed technology enables manufacturers to efficiently design and manufacture structural wall panels, floor panels and roof panels from cold-formed steel for use in residential and commercial construction. The panels are individual components that can be installed at a building site to form a structure that includes walls, floor and a roof. Structures may be manufactured in a manufacturing facility and delivered to a construction site for installation. |
100 |
Overhead gantry for use in building panel construction |
US11707555 |
2007-02-16 |
US20070262040A1 |
2007-11-15 |
Vincent Mifsud; Giuseppe Aprile; Michael Churchill; Michele Tancredi |
The disclosed technology enables manufacturers to efficiently design and manufacture structural wall panels, floor panels and roof panels from cold-formed steel for use in residential and commercial construction. The panels are individual components that can be installed at a building site to form a structure that includes walls, floor and a roof. Structures may be manufactured in a manufacturing facility and delivered to a construction site for installation. |