Class / Patent application number | Description | Number of patent applications / Date published |
425468000 | CORE AND POSITIONING MEANS THEREFOR | 13 |
20090104303 | THREADED CORE, INJECTION MOLDED APPARATUS METHOD FOR MAKING LENS BARREL - A threaded core includes a first half core and a second half core. The first half core includes a core body and a movable core portion. The core body has a body surface and an end face adjacent to the body surface. An outside threaded portion is defined in the end face. The core body defines a recess on the body surface. The recess communicates with the groove. The movable core portion is movably mounted in the recess. The movable core portion has a front end face. An inside threaded portion is defined in the front end face and configured for forming part of the screw thread cooperatively with the first outside threaded portion. The second half core has an identical structure with the first half core. The inside and outside threaded portions of the first and second cores cooperatively define a screw hole. | 04-23-2009 |
20100068327 | Two-stage SNAP cam pin for casting and molding systems - A two-stage cam pin for use in a molding or casting system comprises a head, a first shank portion and a second shank portion. The head secures with a first die half and extends through a transverse axis of the cam pin. The first shank portion extends from the head at a first oblique angle with respect to the transverse axis. The second shank portion extends from the first shank portion to a tip of the cam pin at a second oblique angle with respect to the transverse axis. The first shank portion and the second shank portion each displace the tip laterally from the head to define a stroke. | 03-18-2010 |
20100297284 | CASTING MOLD DEVICE - A metal mold device for casting that is adapted to prevent a casting sleeve from falling and that keeps even spacing between an inner circumferential wall of the casting sleeve and an outer circumferential wall of a bore pin. Ball plungers are provided at regular intervals in a circumferential direction on an outer circumferential portion of the bore pin in the vicinity of a distal end of the bore pin and on an outer circumferential portion in the vicinity of a basal end thereof, respectively, with respect to the axial direction of the bore pin. Three distal ball plungers are provided on the outer circumferential portion in the vicinity of the distal end of the bore pin and three basal ball plungers are provided on the outer circumferential portion in the vicinity of the basal end thereof. The distal ball plungers are 60° out of phase with the basal ball plungers when viewed in the axial direction. Further, the distal ball plungers are provided in an area where a piston ring, in the vicinity of a top dead center position of a piston, is located. | 11-25-2010 |
20110318447 | Angled Core-Pulling Mechanism of Mold - An angled core-pulling mechanism of mold includes a core insert, a shaping core and a slide block of which a rear end longitudinally defines a slide passage having a bottom side slanted downward from front to rear. The core insert defines a shaping cavity, a slide hole extending downward and slanting forward with a top communicating with the shaping cavity, and a receiving fillister having a level bottom face and with a top being connected with a bottom of the slide hole. One end of the shaping core is slantwise slidably disposed in the slide passage, and the other end is slantwise slidably disposed in the slide hole. The slide block can longitudinally move along the bottom face to drive the shaping core to slide slantwise upward and downward along the slide hole so that the shaping core can be inserted into or withdrawn out of the shaping cavity. | 12-29-2011 |
20120040042 | Composite Mold with Expandable Boot - An improved mold for molding composite structures inside the closed cavity of the mold that uses a projecting tool member, a compression plate and at least two side plates located inside an expansion cavity formed in the mold. The mold includes a base made up of two mold sections that when jointed form a partially enclosed mold cavity. Located over the mold cavity are two side plates each with an inside beveled edge. The side parts are aligned inside the expansion cavity so that the two beveled edges are adjacent a form a large V-shape void. The compression plate includes a V-shaped projection that fits into the V-shaped void. The improvement includes a U-shaped, heat expandable boot located between the inside surfaces of the projecting tool member, the inside surfaces of the two side plates, and the inside surfaces of the mold that evenly distributes the external forces and evenly distributes the forces created by expansion during the curing stage to product structures with uniform side walls. | 02-16-2012 |
20120076887 | MOULD HAVING CORE-PULLING MECHANISM - A mould having core-pulling mechanism includes a core plate, a core insert, a cavity plate, a cavity insert, a guide dowel and a slide block. The cavity insert and the core insert define a mould cavity. A sliding groove of the core plate and a recess of the core insert are communicated with the mould cavity. The guide dowel is received in a dowel-receiving hole of the cavity plate and tiltedly extending out of the cavity plate. The slide block has an inserting block and a forming block. A lower portion of the slide block is slideably located in the sliding groove. The guide dowel can be inserted into an angle guiding hole of the slide block. The inserting block can be inserted into the recess. The forming block may enter into the mould cavity. The mould produces plastic products on the inner surface of which the groove is formed. | 03-29-2012 |
20120164262 | MOLD FOR FORMING A PRODUCT WITH A THROUGH HOLE - A mold includes a female mold defining a receiving space and a male mold including a body and a core protruding from the body. The male mold and the female mold cooperatively define a molding cavity for forming a molding product. The core includes a distal end portion inserted into the receiving space. The distal end portion is configured for forming a through hole of the molding product. The female mold includes two protruding ribs arranged at a parting line between the female mold and the core. The protruding ribs of the female mold is located on opposite sides of the distal end portion, and extend around the distal end portion. The core includes two protruding ribs formed on the distal end portion at the parting line between the female mold and the core. The protruding ribs of the core extend around the distal end portion. | 06-28-2012 |
20130344191 | INSERTION BLOCK FOR THE FORMATION OF A HOOK FIELD ON AN INJECTION-MOULDED OBJECT, AND A MOULDED OBJECT COMPRISING A HOOK FIELD OF THIS TYPE - Object moulded in thermoplastic material in any shape having an outer surface from which protrudes at least one hook in one piece with the moulded object, in particular a hook field, the moulded object and the hook(s) having been formed by injection moulding, each hook comprising a base part and a head or hooking part protruding from the base part and being delimited by first and second lateral surfaces each extending on the outer surface of the moulded object, being separated from each other by an intermediate surface forming the edge of the hook, the curve sections, defined by the intersections of at least one of the first and/or second lateral surfaces with planes which are in parallel with the base plane from which the hook protrudes and which are at given distances h from this base plane, have a curvature which varies as a function of the distance h, the curvature of the curve section for h=0 (the base plane and said parallel plane merging) being greater than the curvature of at least one curve section for a distance h substantially corresponding to a level of the head of the hook. | 12-26-2013 |
20140170257 | MOLD - A mold includes a bottom portion defining a receiving chamber, a top plate located on a top of the bottom portion, and a mold core received in the receiving chamber. The mold core has a core plate and a removable plate that are fixed to the bottom portion. The removable plate is located under the core plate and supports the core plate. The core plate, the top plate, and sidewalls of the receiving chamber cooperatively define a mold cavity. | 06-19-2014 |
20150132429 | PLASTIC PUMP HOUSING AND MANUFACTURE THEREOF - A method of making a pump housing that is net-molded and immediately assumes its final shape and design specification without requiring more than de minimis secondary machining processes. The method utilizes molds and cores configured such that none of the fluid ports of the housing produced using the molds and cores have any intersecting geometry. | 05-14-2015 |
20150147429 | MOLD FOR FORMING LENS - Embodiments of the invention provide a mold for forming a lens including a first core coupled with a first core hole of a first mold, and a second core coupled with a second core hole of a second mold to face the first core. In accordance with at least one embodiment, the first core and the second core are made of a material having a coefficient of thermal expansion larger than that of the first mold and the second mold, and outer diameters of the first core and the second core are each formed to be smaller than diameters of the first core hole and the second core hole. | 05-28-2015 |
20150343718 | MANUFACTURE OF A ROOT SECTION - A supporting rod holding arrangement for manufacturing a root section of a rotor blade of a wind turbine is provided. The supporting rod holding arrangement includes an assembly of a plurality of supporting rods, each having an interface section for connecting to a hub interface of the wind turbine in an essentially circular shape such that there are gaps between the supporting rods, a plurality of first fibres in the gaps which plurality of first fibres are physically and/or chemically compatible with an injection material, and a holding device which holds the supporting rods in the essentially circular shape. | 12-03-2015 |
20160176072 | Contact Lens Mold Parts, Contact Lens Mold Assemblies, And Methods Of Making Contact Lenses | 06-23-2016 |