| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 264152000 | Cutting and uniting cut parts | 14 |
| 20090072429 | METHOD FOR MANUFACTURING A REINFORCED PANEL OF COMPOSITE MATERIAL - A method for manufacturing rigid panels made of a composite material requires a caul sheet having a smooth surface that is formed with a plurality of grooves. A first layer of the composite material is laid on the caul sheet, and is cut to create flaps that extend into the respective grooves. Strips of composite material are then placed along the edges of the groove to extend and overlap each other in the groove. Next, a unidirectional ply is placed along the length of the groove, and this combination is then covered with a second layer of the composite material. Together, the combination of the first and second layers, the strips and the unidirectional ply are co-cured to create a rigid panel with integral stiffening members. | 03-19-2009 |
| 20090085241 | Device for the separation of a plastic clay strand, having a notching device effective to all sides - The invention relates to a device for the separation of a plastic clay strand ( | 04-02-2009 |
| 20100230847 | Golf club grip and manufacturing method thereof - A golf club grip includes a first grip member and a second grip member. The first grip member has a dark color and a first material density. The second grip member which has a light color and a second material density which is greater than the first material density, wherein the first grip member is integrated with the second grip member in an edge-to-edge manner to form an elongated tubular structure. When the first grip member and the second grip member is heated to integrate with each other, particles of the second grip member crosses over the first grip member to form a predetermined amount of light color at the first grip member, while the light color formed at the first grip member is adapted to be overlaid by the dark color so as to render the light color and the dark color sharply distinguishable on the gold club grip. | 09-16-2010 |
| 20100244304 | STENTS FABRICATED FROM A SHEET WITH INCREASED STRENGTH, MODULUS AND FRACTURE TOUGHNESS - Methods of fabricating a polymeric stent from a polymer sheet with improved strength, modulus and fracture toughness are disclosed. The methods include stretching the polymer sheet along one or more axesto increase the strength, fracture toughness, and modulus of the polymer along the axis of stretching. The methods further include forming a tubular stent from the stretched sheet. The stent can include a slide-and-lock mechanism that permits the stent to move from a collapsed diameter to an expanded diameter and inhibiting radial recoil from the expanded diameter. | 09-30-2010 |
| 20110057347 | Process of manufacturing a plastic product with decorated surfaces - A process of manufacturing a plastic product includes selecting natural or synthetic fiber as a material; adhering a thermoplastic resin onto surfaces of the material to form a thin film thereon by soaking or heating; heating the thin film; forming two releasable films on upper and lower surfaces of the thin film respectively; cutting the thin film into thin film units; heating and pressing the thin film units to form cured thin film units; applying one of the cured thin film units onto an inner surface of a first mold; further heating and pressing the cured thin film unit to form a thin film structure; placing the thin film structure inside a second mold; and injecting a thermoplastic material into the second mold to adhere onto an outer surface of the thin film structure to produce the finished plastic product. | 03-10-2011 |
| 20110254192 | Structural Components fabricated from waste materials and method of making same - The structural component and fabrication to form a cable, cords or other structural component may be formed by mechanically cutting, waste-reinforced used tires, waste-reinforced used fan belts, waste-reinforced used conveyor belts into strips and attaching them end to end with metal staples or a bonding agent to create a reinforced rubber cable or cord. To be used as structural strength when encapsulated with virgin and or recycled thermoplastics, or rubber. Said strips would be used as reinforcement in concrete, cement, adobe or asphalt. The process when used with thermoplastics or rubber will incorporate an extruder to obtain a molten state of the thermoplastics or rubber to form the structural component thru a crosshead die or molds for injection molding. The process when using concrete, cement, adobe or asphalt to create a structural component will use the waste-reinforced rubber strips placed into forms, or molds for reinforcement when drying has occurred. The strips from the sidewalls of reinforced tires can be used as tie-down cords with “S” hooks or other attachment devices. It is emphasized that this abstract is provided to comply with the rules requiring an abstract that will allow a search or other reader to quickly ascertain the subject matter of the technical disclosure. It is submitted with the understanding that it will not be used to interpret or limit the scope or meaning of the claims. | 10-20-2011 |
| 20110254193 | Method for manufacturing thermoplastic resin pre-impregnated fiber structure - A process of manufacturing a fibrous article includes submerging a fiber substrate in a bath of first thermoplastic resin to impregnate the fiber substrate with the first thermoplastic resin; heating the fiber substrate until the fiber substrate becomes a thick continuous fiber substrate; cutting the thick continuous fiber substrate into units; stacking the fiber substrate units; pressing and heating the stacked fibrous structure units until a stacked fibrous structure is formed; heating a mold; conveying the stacked fibrous structure to the mold to melt; cooling the mold to shape the molten fibrous structure into a half-finished article; removing the half-finished article out of the mold; eliminating burrs and sharp edges of the half-finished article; conveying the half-finished article to the mold; and uniformly applying a molten second thermoplastic resin on an inner surface of the half-finished article by injection molding to produce the finished fibrous article. | 10-20-2011 |
| 20110272845 | PROCESS FOR MANUFACTURING A LOOPED MATERIAL BAND - A process of manufacturing a looped material band for use as a conveyor belt, a conveyor, a transmission belt or the like in which the ends of the band are assembled by fitting together two serrations that have complementary shapes and are connected by at least one transverse locking rod that is inserted through transverse openings arranged in the teeth of the serrations. The process comprises the steps of producing the transverse openings by machining the ends of the band to remove material in an area corresponding at least to the transverse openings to be produced, placing a transverse core pin in each machined area, overmolding material in the machined areas to restore the ends of the band, and one removing, after polymerization of the material, the transverse core pins that form the transverse openings. | 11-10-2011 |
| 20120261856 | METHOD FOR MANUFACTURING PRODUCTS MADE OF COMPOSITE MATERIAL WITH A CLOSED-SECTION SANDWICH STRUCTURE - A matched mold curing apparatus defining a molding cavity has two sets of layers of curable, fiber-reinforced, thermosetting composite material laminated on a lower forming tool and upper forming tool. Closed-cell foam core segments are provided and placed adjacent to each other on the layers. The core segments are oversized with respect to the nominal size determined by the molding cavity in the closed condition, minus the thickness of the layers of composite material. A controlled temperature is applied firstly to allow plastic deformation of the core segments, but without closing completely the matched mold. The temperature and pressure are then applied to cause complete closure of the matched mold and curing of the laminated layers. | 10-18-2012 |
| 20130285278 | PATCH ANTENNA AND METHOD OF MAKING THE SAME - A patch antenna includes: a dielectric layer made of an insulation material, and having upper and lower surfaces, and a through hole; a radiation metal layer disposed on the upper surface of the dielectric layer, and having a first plate body, a first aperture aligned with the through hole, and a first protruding portion extending from a peripheral edge of the first aperture into the through hole; and a grounding metal layer disposed on the lower surface of the dielectric layer, and having a second plate body, a second aperture aligned with the through hole, and a second protruding portion extending from a peripheral edge of the second aperture into the through hole. The first and second protruding portions contact each other in the through hole so that the radiation and grounding metal layers are electrically connected. A method of making a patch antenna is also disclosed. | 10-31-2013 |
| 20140001670 | COMPOSITE STRUCTURE MANUFACTURING METHOD AND APPARATUS | 01-02-2014 |
| 20150343717 | METHOD AND INSTALLATION FOR PRODUCING A FIBER-REINFORCED PLASTIC COMPONENT - A method for producing a fiber-reinforced plastic component including: cutting individual fiber mats to size; stacking multiple fiber mats to form a fiber semifinished product outside or inside a molding tool, which comprises at least two tool parts; performing a preform process to produce a fiber preform of the plastic component; and performing an RTM process to produce a main form of the plastic component. The method is distinguished by application and/or introduction, which is before, simultaneous, and/or after, of an at least partially circumferential sealant material, which is suitable for use as a sealant, to individual, multiple, and/or all fiber mats and/or the fiber semifinished product; wherein the application and/or the introduction of sealant material is performed such that at latest before the performance of the RTM process in a particularly completely circumferential edge region of the fiber preform, all fiber pores and intermediate spaces therein are closed by the sealant material. | 12-03-2015 |
| 20160114545 | Tire Manufacturing Method - The present technology provides a tire manufacturing method comprising: positioning a cutting edge cradle on an elastomer layer side of the sheet laminate; pressing a circular blade, which dependently rotates from the sheet side of the sheet laminate comprising a thermoplastic resin or a thermoplastic resin composition, against the sheet laminate placed on the cutting edge cradle so as to cut the sheet laminate; and forming end sections of the sheet laminates to be superimposed. | 04-28-2016 |
| 20160176086 | MANUFACTURING METHOD OF A SOUND PLAYING ASSEMBLY | 06-23-2016 |
