| Entries |
| Document | Title | Date |
|---|
| 20090049693 | METHOD FOR MANUFACTURING A THREE DIMENSIONAL FRAME STRUCTURE FOR USE AS A CORE STRUCTURE IN A SANDWICH CONSTRUCTION - 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. | 02-26-2009 |
| 20090077808 | MODULAR ASSEMBLY - The invention is a modular assembly of modular objects for autonomously executing a variety of tasks. The modular assembly consists of a modular object called a platform, one or more modular objects called modules which are mounted to the platform in accordance with a modular assembly system, and a modular bus system for distributing electrical power and electrical signals among the modular objects in the modular assembly. The modular assembly system utilizes modular object fasteners (MOFs) and MOF-accommodating features of modular objects for facilitating the attachment of a plurality of modular objects to one another thereby creating a modular assembly in any one of a variety of configurations, an MOF being activatable when object attachment surfaces associated with two modular objects are superimposed and two object attachment points on the object attachment surfaces coincide. | 03-26-2009 |
| 20090144983 | WINDOW COMPONENT NOTCHING SYSTEM AND METHOD - A system and method for producing window components using polymer based, metallurgy based, extruded, injection molded, or wooden lineal material. The lineal material is notched at intervals calculated to include a stretch treatment and folded to form window components such as window sashes, frames, and the like. Internal reinforcing members may be welded within the joints formed by folding at the notches. The notching system and method provide low cost, highly reliable, low defect production of multi-sided window components from a continuous piece of lineal material. | 06-11-2009 |
| 20090288296 | METHOD FOR MAKING BACKLIGHT MODULE FRAME - An exemplary method for making a backlight module frame includes: providing a pair of metallic strips that are spaced apart, and a plurality of elongated metallic sheets; continuously welding the elongated metallic sheets to connect with the pair of the metallic strips one by one to form a plurality of connected semi-manufactured frames corresponding to the subsequent backlight module frame; and pressing the connected semi-manufactured frames one by one to form a plurality of backlight module frames continuously. It is convenient for the backlight module frames to be mass-produced. | 11-26-2009 |
| 20110179647 | LIGHTWEIGHT STRUCTURAL BUILDING ELEMENT - A system and method of manufacture providing reinforced structurally functional load-bearing members, including but not limited to using thermoplastic materials, such as High Density Polyethylene (HDPE), reinforced such as with an aluminum alloy or carbon fiber core element. Among its possible uses, the present invention has application for provision of structural support members, such as an illustrative I-joist product having a vertical center member preferably comprising HDPE, and top and bottom flanges having structurally meaningful reinforcement. The center member and flanges preferably comprising HDPE provides a relatively hard, durable, substantially weather-resistant structure. | 07-28-2011 |
| 20120240406 | METHOD OF ASSEMBLING A PORTABLE SUPPORT STRUCTURE - A method of assembling a portable support structure is disclosed. The method includes positioning a first platform member, then securing a first support member to the first platform member, and then securing a second platform member to the first platform member to form a continuous platform surface. The method includes positioning a plurality of platform members to form a first continuous platform surface, then securing a support member to at least one of the plurality of platform members. The method includes forming a continuous surface from a plurality of platform members, the plurality of platform members including one or more female connectors, aligning one or more male connectors with the one or more female connectors, and engaging the one or more male connectors with the one or more female connectors. | 09-27-2012 |
| 20130199045 | EQUIPMENT FOR USE IN CORROSIVE ENVIRONMENTS AND METHODS FOR FORMING THEREOF - A method for forming structural equipment employed in sulfur containing environments such as oil refineries and the like. In one embodiment, the method comprises: providing a steel composition containing up to 0.35% of C, 0.30 to 3.5% Si, up to 1.2% Mo, up to 1.35% Mn, up to 5% Al, less than 12.0% Cr, balance of Fe and unavoidable impurities; forming a structural component conforming to prevailing industry standards with respect to design, fabrication, inspection and testing, metallurgical and mechanical properties. The structural equipment has a corrosion rate of less than 15 mpy. In one embodiment, the equipment is formed from a steel composition has a carbon equivalent of less than 0.63, requiring no post weld heat treatment (“PWHT”). In another embodiment, the CE is less than 0.45, requiring no preheat nor PWHT. | 08-08-2013 |
| 20130276308 | METHOD FOR MANUFACTURING SANDWICH PANEL HAVING CORE OF TRUSS STRUCTURE - Provided is a method for manufacturing a panel including a core having a truss structure between upper and lower face sheets. The manufacturing method includes disposing the upper and lower face sheets in parallel to each other at a predetermined distance, repeatedly performing, several times, a process in which a plurality of flexible wires vertically pass through the upper and lower face sheets to reciprocation-connect the upper and lower face sheets to each other, thereby sewing the upper and lower face sheets after the upper and lower face sheets horizontally move in parallel to each other, and maximally spacing both face sheets in a vertical direction while being maintained in a parallel to each other after a relative displacement of the upper and lower face sheets is solved, and fixing the face sheets and the wires to each other. | 10-24-2013 |
| 20140041229 | FABRICATION MEMBER - A method of making a composite tube-shaped fabrication member by providing in coils a first planar member suitable to form a flange of a tube-shaped fabrication member, two second planar members suitable to form web portions of a tube-shaped frame member, and two third planar members suitable to form a portion of a flange of the tube-shaped member, uncoiling the coils for first, second, and third planar members and passing them through accumulators, aligning the first, second, and third planar members adjacent respective side portions and attaching side portions of each planar member to respective side portions of adjacent planar members to form a composite intermediate product, and cold-forming to form a composite fabrication member of a desired shape. | 02-13-2014 |
| 20140041230 | FABRICATION MEMBER - A method of making a composite tube-shaped fabrication member by providing in coils a first planar member suitable to form a flange of a tube-shaped fabrication member, two second planar members suitable to form web portions of a tube-shaped frame member, and two third planar members suitable to form a portion of a flange of the tube-shaped member, uncoiling the coils of first, second, and third planar members and passing them through accumulators, aligning the first, second, and third planar members adjacent respective side portions and attaching side portions of each planar member to respective side portions of adjacent planar members to form a composite intermediate product, and cold-forming to form a composite fabrication member of a desired shape. | 02-13-2014 |
| 20140283385 | X-RAY DEVICE, X-RAY IRRADIATION METHOD, AND MANUFACTURING METHOD FOR STRUCTURE - Provided is an x-ray device capable of suppressing reduction in detection precision. The X-ray device irradiates x-rays on an object and detects X-rays that pass through the object. The X-ray device comprises: an X-ray source that emits X-rays; a stage that holds the object; a detection device that detects at least some of the x-rays that have been emitted from the X-ray source and have passed through the object; a chamber member that forms an internal space wherein the X-ray source, the stage, and the detection device are arranged; and a partitioning section that separates the internal space into a first space wherein the X-ray source is arranged and a second space wherein the detection device is arranged. | 09-25-2014 |
| 20140298656 | STRUCTURE REINFORCEMENT PARTIAL SHELL - A method and an article of manufacture are disclosed for reinforcing various structures with only partially accessible circumference, such as columns closely adjacent to or protruding out of a wall or beams holding a ceiling. Some of these structures may be partly or completely submerged in water, such as retaining walls on the sides of rivers and water-ways. In some embodiments a prefabricated shell will fully or partly cover the exposed and reachable part of the structure and will be secured in place by various means. The shell may hug the structure tightly or loosely and the space between the shell and the structure may be filled with such curable materials as glue, epoxy, grout, concrete and the like. In various embodiments additional reinforcement such as rebar may be placed in the space between the shell and the structure. | 10-09-2014 |
| 20140298657 | Systems and Methods for Splicing Solar Panel Racks - The invention provides systems and methods for splicing solar panel racks. Solar panel racks may include one, two, or more solar rack sections that may be connected to one another with an internal splice. The internal splice may internally support the adjoining solar racks. The solar rack may be secured to a support surface using one or more feet. The solar panel racks may be configured to support the weight of one or more solar modules. One or more solar module securing component may be used to secure the solar modules to a solar rack surface. | 10-09-2014 |
| 20140373357 | Method for Securing a Structural System - A structural system and method of assembly comprising structural members with slots, and interior structural members. Specific structural members are sequentially interconnected in rigid alignment. A first structural member is positioned with two upward facing slots. Additional structural members are added by engaging downward facing slots of the additional structure members with upward facing slots of the prior structural member. The structural members further include engagement features in cooperating slots. A protruding features engages a recess to retain the engaged structural members. The features may be a partial sphere and a matching recess which may be disassembly, or a tapered protrusion having a squared-off rear edge which resists disassembly, or one of a variety of shapes. | 12-25-2014 |
| 20150059182 | APPARATUS FOR FABRICATION OF A STRUCTURAL MEMBER AND RELATED FABRICATION METHODS - A fabrication machine is disclosed herein. In various aspects, the fabrication machine includes a brake adapted to mechanically cooperate with a wrapper to impart a longitudinal tension to the wrapper by controlling the force required to advance the wrapper, the wrapper comprised of a cellulose-based material. The brake is adjustable to allow selection of longitudinal tension in the wrapper, in various aspects. Various aspects may include a wrapper roll in mechanical cooperation with the brake, the wrapper being drawn from the wrapper roll as the wrapper is advanced. The fabrication machine secures the wrapper at the selected tension about the core to form a structural member, in various aspects. Methods of use of the fabrication machine are disclosed herein. This Abstract is presented to meet requirements of 37 C.F.R. §1.72(b) only. This Abstract is not intended to identify key elements of the apparatus and methods disclosed herein or to delineate the scope thereof. | 03-05-2015 |
| 20150089813 | METHOD OF HYDROFORMING OF HOLLOW STRUCTURAL COMPONENT - Hydroforming into a hollow structural component by pressing a joined plate member outwardly. A largest width is set to an area of a blank portion of the joined plate member extending to between outer peripheral portions of the recessed spaces from a longest constant portion of an internal space formed by the recessed spaces, the longest constant portion being constant in its inner circumferential length and extending the longest in the internal space. A width of an area of the blank portion extending to between the outer peripheral portions from a portion shorter than the longest constant portion is set such that the smaller the length of the portion which is shorter than the longest constant portion is compared to the longest constant portion. The smaller the width of the area extending from the shorter portion is compared to the width of the area extending from the longest constant portion. | 04-02-2015 |
| 20150344155 | Positioning Fixture and Method of Using the Fixture - A fixture for positioning an object relative to a beam, wherein the beam includes a web, is disclosed. The fixture includes a first portion including a first positioning face, a first contact face, and a first clamping face. Each of the first positioning face, the first contact face, and the first clamping face is movable in a first working direction. The fixture also includes a second portion including a second positioning face, a second contact face, and a second clamping face. Each of the second positioning face, the second contact face, and the second clamping face is movable in a second working direction opposite to the first working direction. When the fixture is installed on the beam, the first contact face and the second contact face abut each other, and the first clamping face and the second clamping face engage the web. | 12-03-2015 |
| 20160059433 | Apparatus and Method for Making Corner Boards for Container Assemblies - An apparatus and method for manufacturing a notched corner board is disclosed. The method includes cutting bent board stock into fixed lengths; forming a slit in or near an end of the corner board; and bending/folding a part of the corner board between the end and the slit to create a notch or flap in the corner board. The apparatus includes one or more cutting tools configured to form a slit in or near a first end of the corner board, a support block configured to support the corner board as the slit is formed, one or more rollers configured to move the corner board towards the cutting tool(s), a frame to which the cutting tool(s), the support block, and the roller(s) are directly or indirectly attached, a motor, and a punch. The motor controls movement of the punch to form the notch in the corner board. | 03-03-2016 |
