Patent application number | Description | Published |
20120288694 | RESIN PANELS WITH LARGE DECORATIVE OBJECTS AND METHODS OF MAKING SAME - Implementations of the present invention relate to systems, methods, and apparatus for manufacturing aesthetically pleasing architectural resin panels having a thick three-dimensional interlayer. In particular, at least one implementation includes a layup assembly that includes a decorative interlayer, positioned between resin sheets, that decorative interlayer comprising one or more three-dimensional decorative objects and one or more resin blocks. At least one implementation also includes a single-step lamination or pressing process that uses a combination of heat and pressure to melt the resin sheets and the resin blocks together, forming a decorative resin panel which includes the three-dimensional objects. | 11-15-2012 |
20130149484 | PANELS WITH DECORATIVE OBJECTS AND METHODS OF MAKING THE SAME - Implementations of the present invention relate to systems, methods, and apparatus for embedding objects within thermoplastic resin material and decorative thermoplastic panels resulting therefrom. Implementations include fusing thermoplastic resin particles together to form a decorative resin panel. Furthermore, a manufacturer can place decorative objects within the bed of thermoplastic resin particles to fabricate a decorative resin panel that encapsulates the decorative objects therein. | 06-13-2013 |
20140013691 | STRUCTURED-CORE LAMINATE PANELS AND METHODS OF FORMING THE SAME - A structured-core laminate panel can be made in an efficient, structurally sound manner without the use of adhesives (film or liquid forms) using materials with different melt or glass transition temperatures. In one implementation, a manufacturer positions one or more resin substrates about a structured core, which comprises a relatively high melt or glass transition temperature compared with that of the one or more resin substrates. The manufacturer heats the assembly to at least the glass transition temperature of the resin substrates, but not to the melt or glass transition temperature of the structured core. This allows the one or more resin substrates to melt and bond (mechanically, chemically, or both) to the structured core on one side (or inner surface), while maintaining a substantially planar or original conformation on an opposing side (or outer surface). | 01-16-2014 |
20140065341 | ARCHITECTURAL PANELS INCLUDING ELONGATED THERMOPLASTIC MEMBERS AND METHODS OF MAKING THE SAME - Implementations of the present invention relate to for incorporating virgin or recycled thermoplastic resin materials into architectural thermoplastic panels that have ordered and reproducible geometric patterns. More specifically, at least one implementation provides a method for fusing thermoplastic elongated members, such as circular rods and rectangular bars, sourced from recycled thermoplastic resin to form the architectural thermoplastic panels. | 03-06-2014 |
20140072732 | LAMINATE PANELS PRODUCED FROM BIOPOLYMERS - A method for manufacturing the biopolymer panel may include positioning a plurality of biopolymer sheets adjacent to one another, and subjecting them to a laminating temperature that exceeds the glass-transition temperature of the sheets for a time period sufficient to achieve lamination. The laminate panel is then quenched at a quenching temperature that is below the glass-transition temperature. The time period during lamination, as well as any “rest” period between lamination and quenching, is sufficiently short so as to prevent clouding or hazing as a result of crystallization of the biopolymer resin materials. In addition, the panel exhibits sufficient flame retardency to meet applicable building codes, exhibits sufficient impact resistance for use as a decorative or structural panel building material, and exhibits no substantial thermally induced degradation as a result of subjection to the laminating temperature. The panels may be used as decorative or structural building materials. | 03-13-2014 |
20140199525 | STRUCTURED-CORE LAMINATE PANELS AND METHODS OF FORMING THE SAME - A structured-core laminate panel can be made in an efficient, structurally sound manner, even without the use of adhesives (film or liquid forms) using materials with different melt or glass transition temperatures. In one implementation, a manufacturer positions one or more resin substrates about a structured core member, which comprises a relatively high melt or glass transition temperature compared with that of the one or more resin substrates. The manufacturer heats the assembly to at least the glass transition temperature of the resin substrates, but not to the melt or glass transition temperature of the structured core member. This allows the one or more resin substrates to melt and bond (mechanically, chemically, or both) to the structured core member on one side (or inner surface), while maintaining a substantially planar or original conformation on an opposing side (or outer surface). | 07-17-2014 |
20140215964 | STRUCTURED-CORE LAMINATE PANELS AND METHODS OF FORMING THE SAME - A structured-core laminate panel can be made in an efficient, structurally sound manner without the use of adhesives (film or liquid forms) using materials with different melt or glass transition temperatures. In one implementation, a manufacturer positions one or more resin substrates about a structured core, which comprises a relatively high melt or glass transition temperature compared with that of the one or more resin substrates. The manufacturer heats the assembly to at least the glass transition temperature of the resin substrates, but not to the melt or glass transition temperature of the structured core. This allows the one or more resin substrates to melt and bond (mechanically, chemically, or both) to the structured core on one side (or inner surface), while maintaining a substantially planar or original conformation on an opposing side (or outer surface). | 08-07-2014 |
20140272294 | DECORATIVE PANELS WITH RECESSED PATTERNS AND METHODS OF MAKING THE SAME WITH A FLEXIBLE DIE - Implementations of the present invention relate to decorative thermoplastic resin panels, which can include one or more recesses. The recess of the thermoplastic resin panels can have texture or texture patterns that differ from the texture or texture patterns of non-recessed portions or other recesses of the decorative thermoplastic resin panel. Additionally, the present invention relates to a method for forming recesses in thermoplastic panels with a flexible die. | 09-18-2014 |
20140283472 | RESIN PANELS WITH EMBEDDED STRUCTURED-CORES AND METHODS OF MAKING THE SAME - An architectural panel comprises a structured core embedded in a resin material such that the resin material fills the cells of the structured core. In at least one implementation, a method of making the panel comprises pressing two or more resin substrates about the structured core at a pressure and temperature such that the resin substrates flow into and fill the cells of the structured core. In at least one other implementation, a method of making the panel comprises placing the structured core into a form, pouring a liquid resin material into the form, and allowing the resin material to harden. | 09-25-2014 |
20140314896 | PRINTED MOLD AND TEXTURED PANELS FORMED USING THE SAME - Implementations of the present disclosure relate to systems, methods, and apparatus for finishing polymer products and producing one or more designs, textures, and/or embossment patterns on the surface thereof. At least one implementation includes a printed mold that a manufacturer can produce quickly and inexpensively by producing a three-dimensional representation of a two-dimensional image on the surface of a substrate material. The printed mold also can allow the manufacturer to customize designs, textures, and/or embossment patterns on polymer products, while reducing manufacturing costs. | 10-23-2014 |
Patent application number | Description | Published |
20080278355 | INTRUSION DETECTION USING A CAPACITANCE SENSITIVE TOUCHPAD - A capacitance sensitive proximity and touch-sensitive detection device having an XY electrode grid sensor, wherein a compensation matrix is created when the capacitance sensitive touchpad is installed within a PIN Entry Device (PED), wherein the compensation matrix enables the capacitance sensitive touchpad to compensate and be balanced for the operating environment of the PED, and wherein physical keys of a keypad can be also be individually identified as an actuated key by using a unique “key profile” for each key, and wherein the insertion of a foreign conductive and/or dielectric material such as an intruding sensor in proximity of the XY electrode grid sensor of the touchpad will cause an imbalance in the electrodes on the capacitance sensitive proximity and touch-sensitive detection device, thereby alerting detection circuitry that tampering has occurred with the PED. | 11-13-2008 |
20080283310 | SYSTEM FOR USING A GROUND ELECTRODE TO AMPLIFY SIGNALS ON A CAPACITANCE SENSITIVE TOUCHPAD - A capacitance sensitive touchpad having a ground electrode disposed on top of but not in electrical contact with an XY grid of electrodes, wherein a plurality of mechanical keys are disposed above but not in electrical contact with the ground electrode, wherein each of the plurality of mechanical keys includes a conductive material generally disposed on an underside that makes contact with the ground electrode when any of the plurality of keys are pressed in order to indicate actuation, wherein a signal generated by the conductive material that is in electrical contact with the ground electrode is amplified by the ground electrode and therefore detectable by the XY grid of electrodes disposed underneath the ground electrode. | 11-20-2008 |
20140279565 | SYSTEM FOR SECURE AUTOMOTIVE IN-VEHICLE WIRELESS PAYMENTS - A system and method for providing a touch sensor disposed in a vehicle, wherein the touch sensor may be a portable device that is removable from the vehicle such as a tablet computer or it may be a built-in device, wherein the touch sensor may store account information in a secure element in order to make a secure payment by wirelessly communicating with a merchant terminal from within the vehicle in order to make a financial transaction without giving a physical credit or debit card to the merchant. | 09-18-2014 |
Patent application number | Description | Published |
20090143823 | Transverse connector system for spinal rods - A transverse connector system for coupling elongate elements to each other in a spinal fixation system. An upper arm member and a lower arm member are connected by a washer and locking bolt to form a transverse plate. The distal ends of the upper arm member and the lower arm member each include a swivel rod connector and may be attached to a locking rod connector using a locking bolt to secure an elongate fixation element therein. The upper arm member and lower arm member are laterally adjustable and pivotably adjustable with respect to one another due to the washer and slot connection, and thus accommodate divergences and convergences in the attached rods. | 06-04-2009 |
20090171395 | Dynamic spinal rod system - A dynamic spinal rod system for semi-restrained holding of the vertebrae with respect to each other in a corrected position while providing varying degrees of vertebral body freedom of movement. A first or “male” component has an enlarged proximal end with a bio-compatible elastic polymer insert through which an anchoring component, such as a pedicle screw, may be placed for attachment, and a cylindrical distal end. A second or “female” component includes a similar enlarged proximal end with a bio-compatible elastic polymer insert through which an anchoring component may be placed for attachment, but has a distal end with a colleted portion into which the distal end of the first component may be inserted and retained to form a joined system. A third “interconnector” component may be used to attach to the proximal end of either of the first two components. | 07-02-2009 |
20090192548 | Pedicle-laminar dynamic spinal stabilization device - Apparatus, systems and methods for decompression and dynamic stabilization of the vertebrae. A flexion construct is formed from a medial loop of a cylindrical member in a first plane that is generally parallel to the long axis of the member, and two outlying loops, generally residing in a common second plane that is generally parallel to the long axis of the member and generally perpendicular to the first plane formed by the medial loop. The medial loop and outlying loops of the flexion construct may aid in controlling distraction, compression and flexion of the assembly. Multiple level constructs may include multiple sets of loops, one set for each spinal level. The member may also include two legs that terminate in hooks or include a straight portion for attachment by another attachment means. A protective sleeve may be used between the member and any attachment means. | 07-30-2009 |
20090194206 | Systems and methods for wrought nickel/titanium alloy flexible spinal rods - Dynamic, flexible wrought Nickel/Titanium alloy spinal rods for spinal fusion or dynamic stabilization vertebral implants and methods and processes related to their manufacture. The dynamic and flexibility properties of the wrought Nickel/Titanium alloy spinal rod may be varied by altering processing parameters during manufacture that develop the shape memory characteristics, mechanical properties, and product workability characteristics to achieve custom manufacture of spinal rods having desired flexion in desired lengths. Such a custom manufactured spinal rod may be affixed to an inferior vertebral body at a standard lamina or pedicle location and to one superior vertebral body at a standard lamina or pedicle location using pedicle screws, lamina hooks, or pedicle hooks to provide dynamic stabilization between superior and inferior vertebrae in connection with a spinal fusion procedure. | 08-06-2009 |
Patent application number | Description | Published |
20090323898 | THERMIONIC EMITTER DESIGNED TO CONTROL ELECTRON BEAM CURRENT PROFILE IN TWO DIMENSIONS - An electron emitter assembly for use in an x-ray emitting device or other electron emitter-containing device is disclosed. In one embodiment, an x-ray tube is disclosed, including a vacuum enclosure that houses both an anode having a target surface, and a cathode positioned with respect to the anode. The cathode includes an electron emitter assembly for emitting a beam of electrons during tube operation. The electron emitter assembly comprises a refractory metal foil with a plurality of shaped rung structures for emitting an electron beam that maximizes flux while simultaneously focusing the electron beam in two dimensions. Focusing occurs primarily through an electrical field shaped by the electron emitter assembly and through balancing current density, electrical resistance, and heat loss through thermal conduction to control the regions that emit electrons. Furthermore, the refractory metal foil can be configured with a modified work function for preferential electron emission. | 12-31-2009 |
20100278307 | Thermionic Emitter Designed To Provide Uniform Loading and Thermal Compensation - An electron emitter assembly for use in an x-ray emitting device or other electron emitter-containing device is disclosed. In one embodiment, an x-ray tube is disclosed, including a vacuum enclosure that houses both an anode having a target surface, and a cathode positioned with respect to the anode. The cathode includes an electron emitter having a plurality of substantially parallel emission surfaces that collectively emit a beam of electrons for impingement on the target anode. In one aspect, the plurality of substantially parallel emission surfaces are angled relative focusing region so as to provide a substantially uniform thermal load on the target anode. In another aspect, the electron emitter includes a plurality of cut-outs that accommodate thermal expansion in the plane of the emitter. Accommodating thermal expansion in the plane of the emitter prevents distortions to the emitter that would tend to alter the focusing of the electrons on the target anode. Providing a substantially uniform thermal load on the target anode and preventing thermal distortion of the emitter lead to higher x-ray flux and better focusing for higher quality x-ray images. | 11-04-2010 |
20100284519 | Electron Emitter Apparatus and Method of Assembly - An electron emitter assembly, and methods of assembly, is disclosed. The emitter assembly includes an electron emitter that is secured to a support device in a manner such that the emitter is substantially thermally isolated from the support device. | 11-11-2010 |
20110051898 | ELECTRON EMITTER AND METHOD OF MAKING SAME - One example embodiment includes an electron emitter. The electron emitter comprises a conductive member that defines a plurality of filament segments that are integral with each other. Each filament segment includes an intermediate portion and an interconnecting portion attached to an adjacent filament segment. The intermediate portions are substantially coplanar with each other and each intermediate portion includes a substantially planar electron emission surface. | 03-03-2011 |
20120217231 | ELECTRON EMITTER AND METHOD OF MAKING SAME - One example embodiment includes methods for making electron emitters. The electron emitter comprises a conductive member that defines a plurality of filament segments that are integral with each other. Each filament segment includes an intermediate portion and an interconnecting portion attached to an adjacent filament segment. The intermediate portions are substantially coplanar with each other and each intermediate portion includes a substantially planar electron emission surface. | 08-30-2012 |