Class / Patent application number | Description | Number of patent applications / Date published |
264328800 | With multiple injectors, mold cavities, or multiple steps of injection of material | 24 |
20080290561 | APPARATUS AND METHODS FOR MODULAR PREFORM MOLD SYSTEM - Apparatus and methods for a preform mold system include multiple preform core side modules having preform mold cores, a core side clamp plate connectable to a moving platen of an injection mold machine and operable to receive the preform core modules, multiple preform cavity side modules having preform mold cavities, each of the preform cavity side modules operable to matingly engage a respective core side module to form multiple preform molds having a respective preform design, and multiple ejector housing assemblies for connecting the core side modules to an ejector platen of the mold machine, each of the ejector housing assemblies corresponding to a respective core side module. The preform mold system may also include a manifold and valve gate assembly connectable to a stationary platen of an injection mold machine and operable to receive the cavity side modules and place the mold cavities in fluid communication with an injector of the mold machine to control the injection of fluidized plastic in a uniform flow into the preform molds, simultaneously. | 11-27-2008 |
20080303190 | METHOD OF MANUFACTURING A GOLF BALL - The present invention provides a method of manufacturing golf balls having a rubber core of at least one layer and a cover of at least one layer which encloses the rubber core, which method includes the step of molding at least one layer of the rubber core by directly injecting a rubber composition into a spherical cavity and vulcanizing the injected composition. This process enables the sphericity of the rubber core to be enhanced, the rubber materials to be used without waste, and balls of an excellent scuff resistance to be obtained. | 12-11-2008 |
20090051080 | Individual Cavity Shut-Off Valve For An Injection Molding Apparatus - An injection molding apparatus includes a first nozzle having a first nozzle melt channel in fluid communication with a manifold melt channel, and a second nozzle having a second nozzle melt channel in fluid communication with the first nozzle melt channel. A nozzle link is provided between the first nozzle and the second nozzle and includes a nozzle link melt passage for fluidly coupling the first nozzle melt channel and the second nozzle melt channel. The second nozzle includes a plurality of outwardly extending melt passages in fluid communication with the second nozzle melt channel. The outwardly extending melt passages deliver melt to a plurality of mold cavities through a plurality of respective gate seals and mold gates. At least one shut-off valve is disposed within the second nozzle. The shut-off valve is associated with an outwardly extending melt passage and switchable between an open position and a closed position. | 02-26-2009 |
20090236774 | Melt Distribution Apparatus for Use in a Hot Runner and a Related Method for a Balancing of Melt Flow - Disclosed, amongst other things, is a melt distribution apparatus of a hot runner and a related method for balancing melt flow to a plurality of drops. The melt distribution apparatus includes a plurality of chokes with each choke of the plurality of chokes being associated with a corresponding one of a drop of a plurality of drops. Each choke of the plurality of chokes being configured to contribute, during an injection of a molding material therethrough, a choke melt-pressure loss such that the plurality of chokes contribute an aggregate choke melt-pressure loss that is generally between 10% and 75% of an aggregate hot runner melt-pressure loss. | 09-24-2009 |
20090256282 | Multi-Material Injection Molding Apparatus and Method - A multi-material injection molding machine includes stationary and moving platens holding cores and first and second injection units for delivering first and second molding materials. The moving platen is slidable towards and away from the stationary platen. Further provided is a rotational distribution unit movable between the stationary platen and the moving platen and defining first cavities on one side and second cavities on an opposite side. The first cavities are for mating with cores to define first mold cavities and the second cavities are for mating with cores to define second mold cavities. Also provided are a rotational actuator for rotating the rotational distribution unit and a molding material delivery apparatus for delivering one or more of the first molding material to the first cavities and the second molding material to the second cavities. | 10-15-2009 |
20100007057 | INJECTION MOLD MANIFOLD AND METHOD OF USING SAME - A manifold for delivering molten plastic material into a mold cavity for forming generally cylindrical parts such as food and beverage containers having large aspect ratios. The manifold includes a manifold block, an inlet, and at least two outlets in fluid communication with the inlet. The outlets are configured for injecting molten plastic material into a single mold cavity in order to ensure that the molten plastic material reaches the outermost portions of the mold cavity prior to setting up. The manifold can also be configured to be attached to a second manifold in place of a single outlet on the second manifold. | 01-14-2010 |
20100013124 | Mold and Method for Producing Two-Color Injection-Molded Parts - A mold and a method for producing two-color injection-molded parts involves simultaneous injection of two kinds of molding material, in which a pressure difference between two kinds of molding materials is induced so that one of the molding materials is infiltrated into and bonded to the other molding material during solidification. The method for producing two-color injection-molded parts may include simultaneously injecting a first material and a second material to a first gate and a second gate to be filled in a first cavity and a second cavity, and closing the second gate such that the first molding material, which is not solidified, pushes a slide mold provided between a first mold block and a second mold block using a holing pressure of the first gate and is infiltrated into an unsolidified layer of the second molding material and solidified. | 01-21-2010 |
20100140845 | MODULAR MOLD SYSTEM AND RELATED METHOD - A modular mold system includes a hot half and a cold half. The hot half has a heated distributor assembly to receive molding material from an injection molding machine. The distributor assembly has a forward side that is opposite a side of the distributor assembly that faces the injection molding machine. A plurality of heated multi-nozzle units may also be provided. Each multi-nozzle unit has a manifold and a plurality of forward-extending nozzles. Each multi-nozzle unit is individually forwardly removably fastened to the forward side of the distributor assembly and removable from the distributor assembly while the distributor assembly is fastened to the first platen. The cold half includes a mounting plate and a plurality of cold-side units associated with the multi-nozzle units. Each cold-side unit is removably fastened to the mounting plate and engagable with one of the multi-nozzle units to define the one or more mold cavities. | 06-10-2010 |
20100225025 | PROCESS AND DEVICE FOR CASCADE INJECTION MOLDING - A cascade injection molding system includes a plurality of nozzles each having a valve rod driven by a piston cylinder drive, for injecting melt into the mold cavity. A throttle check valve is located within a pressurizing medium line to regulate nozzle operation. The method includes injecting the melt at feed orifice using a needle valve-controlled needle valve nozzle associated with each feed orifice into the cavity of the molding tool. The needle valve nozzles is opened at different times by controlling the opening speed and the injection pressure at the feed orifices, via the corresponding piston-cylinder drives for the needle valve nozzles. The pressurizing medium discharge from the piston cylinder is throttled for at least one of the piston-cylinder drives when the nozzle is opened. | 09-09-2010 |
20110001269 | DEVICE FOR PRODUCING PIN-SHAPED END PRODUCTS BY THE INJECTION-MOLDING PROCESS - The invention relates to an injection-molding tool and to a process for producing pin-shaped blanks as end products, a two-dimensional skin cavity and blank cavities connected to said skin cavity being provided at a runner, in order to be able to form a molding, including a sprue, a skin and the blanks formed on said skin via defined predetermined breaking points. In this case, the injection-molding tool makes it possible before and at the beginning of the injecting operation to create a negative pressure in the cavities and makes it easier after the molding material has solidified to demold the molding obtained by introduced compressed air. In this case, the injection-molding tool is constructed in such a way that the demolding of the blanks is performed separately from the demolding of the skin and the sprue, the demolding also being accompanied by detachment of the blanks from the skin by the lifting movement during the opening of the injection-molding tool, and the blanks being discharged with preference without being acted upon by a manipulator, on account of the loss of form fit and under the action of gravitational force, and the injection-molding tool being made operationally ready again at the end of the cycle by a closing operation. | 01-06-2011 |
20120025425 | INJECTION MOULDING OF PLASTICS ARTICLES - An injection moulding apparatus includes an openable mould ( | 02-02-2012 |
20120211922 | DEVICE FOR PROCESSING RAPID POLYMERIC REACTION SYSTEMS - The invention relates to a device for machine-based processing of rapid polymeric reaction systems, particularly polyurethane systems, wherein a rapid formula change is possible with simultaneously low raw material consumption. The device according to the invention further requires little space, allowing for operation in a standing flue, for example. | 08-23-2012 |
20120274000 | SYSTEMS AND METHODS FOR MOBILE AND/OR MODULAR MANUFACTURING - Systems and methods for manufacturing that are scaleable and de-scaleable based upon the production requirements of the customer's manufacturing facility. Systems and methods for mobile and/or modular manufacturing positioned at or near a customer's production facility that are scaleable and de-scaleable based upon the production requirements of the customer's manufacturing facility. The systems and methods of manufacturing may include identifying a customer's production requirements at the customer's production facility, designing a manufacturing cell based upon the identified production requirements, delivering components for the manufacturing cell to a location at or near the customer's production facility, assembling the components to form the manufacturing cell at the location, and training operational personnel to operate the manufacturing cell. The systems and methods may comprise using a modular preform mold system. | 11-01-2012 |
20130175735 | INJECTION TOOL FOR PRODUCING COMPONENTS BY INJECTION MOULDING - An injection tool for the production of components by an injection-molding method, the injection tool including several cavities for shaping one respective product, an injection nozzle for injecting plastic materials for each cavity, and an actuating device. The injection nozzle has an injection channel which can be closed by a nozzle needle in order to control the injection process. The actuating device is arranged to move the nozzle needle in an axial direction between a first end position and a second end position, with an adjustable stop being provided which defines the first end position. | 07-11-2013 |
20130249144 | MOLDING APPARATUS - A method and apparatus for low pressure molding are disclosed. The molding apparatus comprises a frame, a mold assembly and a transmission assembly. The mold assembly may comprise a first mold and a second mold, the second mold being coupled to the frame. The transmission assembly may be coupled to the frame and to the first mold. A motor may be coupled to the transmission assembly for moving the first mold relative to the second mold. A pneumatic actuator may also be coupled to the transmission assembly for increasing clamping pressure between the first mold and the second mold. | 09-26-2013 |
20140070459 | SCALABLE INJECTION MOLDING SYSTEMS - Scalable injection molding systems comprise a molding press and at least one delivery system. Each delivery system comprises an injection unit and a manifold. The scalable injection molding system further comprises at least one molding face pair having a cavity face and an opposing core face. Each scalable injection molding system comprises at least one scalable system selected from the group consisting of a scalable face-number system with respect to numbers of active mold face pairs in the scalable injection molding system and a scalable cavitation system with respect to numbers of functional mold cavities on each mold face pair. Both the scalable face-number system and the scalable cavitation system allow the output of the scalable injection molding system to be increased or decreased according to needs of the operator, without requiring costly reconfiguration, retooling, replacement, or unnecessary duplication of standard mold components. | 03-13-2014 |
20140183789 | SMALL FOOTPRINT APPARATUS, METHOD, AND TOOLING FOR MOLDING LARGE THERMOPLASTIC PARTS - A molding system includes a plurality of injection heads each configured to inject molten polymer into a mold cavity. Each injection head has an outer body, a piston disposed within the outer body and defining a polymer chamber on a first side of the piston and a pressure chamber on an opposite second side of the piston. The piston moves from a retracted position to an extended position responsive to pressurization of the pressure chamber. Molten polymer is injected from the polymer chamber into the mold cavity as the piston moves from the retracted position to the extended position. Such systems may be used to mold relatively large articles of manufacture. | 07-03-2014 |
20140232044 | DISTRIBUTION SYSTEM FOR INJECTION MOULDING - A distribution system | 08-21-2014 |
20150014887 | HOT RUNNER SYSTEM - A valve gated hot runner system that includes a single movable plate (or movable frame) that retains multiple valve pins. A linear actuator is coupled to rigid transmission elements that convey a linear motion from the actuator to several rotary components via a direct or indirect contact between at least a portion of the rigid transmission elements and the rotary components. The rigid transmission elements and the rotary components are connected to a common plate. The rotary components are further coupled to the movable plate (frame) and through their full rotation or turning lift or translate the movable plate (frame) with the valve pins to open and close the communication between hot runner nozzles and corresponding mold cavities. The actuator can be electrical, electro-magnetic, pneumatic or hydraulic. | 01-15-2015 |
20150360403 | System for Controlling the Closing Speed of Valve Gated Nozzles - Systems and methods for controlling the closing speed of valve gated nozzles are disclosed. In one embodiment, a hot runner have a valve gated nozzle including a valve stem movable between an open position and a closed position is provided. The valve stem is moved at a first speed for a first portion of valve stem closure and a second speed for a second end portion of the valve stem closure. | 12-17-2015 |
20160059456 | Reduced Size Runner for an Injection Mold System - A runner system for a multi-cavity injection molding system, the runner system having runners of reduced size. | 03-03-2016 |
20160090481 | HALOGEN-FREE FLAME-RETARDANT THERMOPLASTIC POLYESTERS - The present invention relates to halogen-free flame-retardants for thermoplastic polyesters with UL 94 V-0 classification and with particularly good mechanical properties and high tracking resistance. | 03-31-2016 |
20160167264 | MOLDING APPARATUS AND METHOD FOR PRODUCING ARTICLES MOLDED THROUGH SEQUENTIAL INJECTION | 06-16-2016 |
20220134620 | INJECTION MOLDING MACHINE FOR MOLDING PREFORMS - An injection molding machine includes a machine base extending along a horizontal machine axis; a stationary platen fixed to the base; a moving platen supported by the base; a center section supported by the base axially intermediate the stationary and moving platens; at least one mold stroke actuator for translating the moving platen and the center section along the machine axis between a mold-open position and a mold-closed position; a two-stage first injection unit supported by the base behind the stationary platen for injecting a first resin through the stationary platen; and a two-stage second injection unit supported by the base behind the moving platen for injecting a second resin through the moving platen. The second injection unit is translatable along the machine axis to accommodate translation of the moving platen during movement between the mold-open and mold-closed positions. | 05-05-2022 |