Patent application number | Description | Published |
20090269430 | INJECTION MOLDING APPARATUS HAVING EDGE-GATED RUNNERLESS NOZZLE AND RELATED METHOD OF TIP REMOVAL - A nozzle body defines an upstream channel. A downstream bracing portion has a lateral bore. A nozzle tip extends laterally through the lateral bore of the bracing portion and has a sealing surface for engaging a gate component that defines a mold gate. The runnerless nozzle further includes a securing component inserted into the bracing portion to hold the nozzle tip against the bracing portion. The bracing portion or the securing component defines a lateral channel in communication with the upstream channel for delivering molding material to the nozzle tip. The nozzle tip can be removed by removing the securing component. | 10-29-2009 |
20100092601 | Injection Molding Valve Gated Hot Runner Nozzle - A valve gated hot runner nozzle with at least two transition members made of different materials located between a nozzle tip and a mold gate component to provide a thermal transition region. A first transition member in contact with the nozzle tip is less thermally conductive than a second transition member in contact with the mold gate component. The valve pin when in the closed position makes sealing contact with at least the second transition member such that cooling from the mold gate component is transferred to the valve pin to cool the melt in the mold gate area. | 04-15-2010 |
20100159062 | Injection Molding Apparatus Having Rotating Vane And Method Of Operating Same - An injection molding apparatus includes a manifold defining a manifold channel for receiving pressurized molding material from an upstream source and a nozzle defining a nozzle channel in communication with the manifold channel to define a flow channel. The nozzle is associated with a mold gate of a mold cavity and delivers molding material to the mold gate. A vane, such as that of an impeller or screw, is rotatably disposed in the flow channel upstream of a mold gate. A motor is coupled to the vane and rotates the vane in either direction. Rotation of the impeller or screw can be automatically adjusted by a controller and a sensor that measures pressure, temperature, or other property of the molding material. | 06-24-2010 |
20100215791 | INJECTION MOLDING APPARATUS HAVING EDGE-GATED RUNNERLESS NOZZLE AND RELATED METHOD OF TIP REMOVAL - A nozzle body defines an upstream channel. A downstream bracing portion has a lateral bore. A nozzle tip extends laterally through the lateral bore of the bracing portion and has a sealing surface for engaging a gate component that defines a mold gate. The runnerless nozzle further includes a securing component inserted into the bracing portion to hold the nozzle tip against the bracing portion. The bracing portion or the securing component defines a lateral channel in communication with the upstream channel for delivering molding material to the nozzle tip. The nozzle tip can be removed by removing the securing component. | 08-26-2010 |
20110106284 | SYSTEM FOR USE IN PERFORMANCE OF INJECTION MOLDING OPERATIONS - There is provided a system for use in performance of injection molding operations, wherein the system can include a plurality of injection molding assembly components. In one embodiment, the system can be operative so that various information respecting components of the system can be recorded within a component database. The component database can be a computer implemented database and in one embodiment can be utilized to output information that indicates past and/or present conditions prevailing within the system. | 05-05-2011 |
20110106285 | SYSTEM FOR USE IN PERFORMANCE OF INJECTION MOLDING OPERATIONS - There is provided a system for use in performance of injection molding operations, wherein the system can include a plurality of injection molding assembly components. In one embodiment, the system can be operative so that various information respecting components of the system can be recorded within a component database. The component database can be a computer implemented database and in one embodiment can be utilized to output information that indicates past and/or present conditions prevailing within the system. | 05-05-2011 |
20110106288 | SYSTEM FOR USE IN PERFORMANCE OF INJECTION MOLDING OPERATIONS - There is provided a system for use in performance of injection molding operations, wherein the system can include a plurality of injection molding assembly components. In one embodiment, the system can be operative so that various information respecting components of the system can be recorded within a component database. The component database can be a computer implemented database and in one embodiment can be utilized to output information that indicates past and/or present conditions prevailing within the system. | 05-05-2011 |
20110233238 | INJECTION MOLDING APPARATUS HAVING EDGE-GATED RUNNERLESS NOZZLE AND RELATED METHOD OF TIP REMOVAL - A nozzle body defines an upstream channel. A downstream bracing portion has a lateral bore. A nozzle tip extends laterally through the lateral bore of the bracing portion and has a sealing surface for engaging a gate component that defines a mold gate. The runnerless nozzle further includes a securing component inserted into the bracing portion to hold the nozzle tip against the bracing portion. The bracing portion or the securing component defines a lateral channel in communication with the upstream channel for delivering molding material to the nozzle tip. The nozzle tip can be removed by removing the securing component. | 09-29-2011 |
20110240687 | INJECTION MOLDING APPARATUS HAVING EDGE-GATED RUNNERLESS NOZZLE AND RELATED METHOD OF TIP REMOVAL - A nozzle body defines an upstream channel. A downstream bracing portion has a lateral bore. A nozzle tip extends laterally through the lateral bore of the bracing portion and has a sealing surface for engaging a gate component that defines a mold gate. The runnerless nozzle further includes a securing component inserted into the bracing portion to hold the nozzle tip against the bracing portion. The bracing portion or the securing component defines a lateral channel in communication with the upstream channel for delivering molding material to the nozzle tip. The nozzle tip can be removed by removing the securing component. | 10-06-2011 |
20110304075 | Breakable Mechanical Connection Between Injection Molding Valve Pin Plate and Valve Pins - Breakable mechanical connections connect valve pins to an actuated valve pin plate of an injection molding apparatus. The valve pin plate can move the valve pins between opened positions and closed positions of associated mold gates. Each breakable mechanical connection can be independently or singularly destroyed or broken to free a respective valve pin from the valve pin plate. | 12-15-2011 |
20120217668 | CLOSED LOOP CONTROL OF AUXILIARY INJECTION UNIT - A method and apparatus of controlling commencement of an injection of a melt stream of moldable material from an auxiliary injection unit. A sensor is placed in an injection molding system to sense a condition related to an injection of a first melt stream of a first moldable material provided by a primary injection unit. Commencement of a second melt stream of a second moldable material from the auxiliary injection unit is initiated upon the sensed condition related to the injection of the first melt stream being detected at a preselected value. The sensed condition may be a pressure, velocity or temperature of the first melt stream as provided by a direct sensor, a force or strain on a hot runner component as provided by an indirect sensor or the occurrence of a function of the injection molding system as provided by a functional sensor. | 08-30-2012 |
20120231103 | CYCLE COUNTING SYSTEM FOR INJECTION MOLDING ASSEMBLY - There is set forth herein a system having an injection molding assembly mold including a stationary section and moveable section, the stationary section having a channel assembly, one or more nozzle and a mold cavity, the mold further having a sensor unit array, the sensor unit array comprising one or more sensor unit. The system can include one or more processing circuit that utilizes an output of the one or more sensor unit for determining a condition prevailing within the injection molding assembly. | 09-13-2012 |
20120231111 | Valve Pin for Accommodating Side Loading - A valve pin that accommodates side loading for use in a valve-gated nozzle of a hot runner injection molding system is disclosed. The valve pin is operably coupled at a rearward end to an actuating mechanism and includes a shaft that extends through the system such that a forward end thereof engages with a mold gate of a mold cavity. The valve pin shaft has a region forward of the rearward end thereof that accommodates side loading under operating conditions. The region may be a slidable or rotatable interface configured to provide lateral or angular movement between upstream and downstream portions of the valve pin shaft under side loading conditions or may be configured to provide increased flexibility to the valve pin shaft within the region to permit deflection of the valve pin under side loading conditions. | 09-13-2012 |
20120263823 | INJECTION MOLDING NOZZLE HAVING A BRACING COMPONENT AND A SECURING COMPONENT - A runnerless nozzle for an injection molding apparatus includes a bracing component having an internal space and a lateral bore, a nozzle tip extending from the internal space through the lateral bore of the bracing component, and a securing component installable in the internal spaced of the bracing component. At least one of the bracing component and the securing component defines a lateral channel in communication with and upstream channel for delivering molding material to the nozzle tip. The securing component includes an angled surface for wedging a likewise angled surface of the nozzle tip to engage the nozzle tip with the bracing component when the securing component is installed in the bracing component. | 10-18-2012 |
20120277900 | INJECTION MOLDING ASSEMBLY HAVING PROCESSING CIRCUIT - There is set forth a system comprising an injection molding assembly mold and a processing circuit. The mold can have a stationary section and a moveable section. The stationary section can have a channel assembly and one or more nozzle. The processing circuit can comprise one or more processor, a communication interface, and a memory including a volatile memory and a non-volatile memory. The processing circuit can be mounted to the stationary section or the moveable section in a manner that the processing circuit can be supported in a fixed position relative to the stationary section or the moveable section. The mold can further comprise one or more sensor unit, each sensor unit including one or more sensor. The system can be configured to transmit via the communication interface at least a portion of data outputted by the one or more sensor unit responsive to a request from an external computer, a change in at least one sensor reading, expiration of a pre-defined timeout, or completion of a reading cycle of the one or more sensor unit. | 11-01-2012 |
20130191259 | AMOUNT DETERMINING USING MOLDING SYSTEM SENSOR - There is set forth herein in one embodiment a method performed on a computer comprising a processor, the method comprising receiving, via the processor, output of one or more sensor located on a mold of a molding system. The method can further include determining, via the processor, an invoice amount based on the output of one or more sensor. The method can further include generating, via the processor, an invoice based on the determining. | 07-25-2013 |
20140203466 | CLOSED LOOP CONTROL OF AUXILIARY INJECTION UNIT - A method and apparatus of controlling commencement of an injection of a melt stream of moldable material from an auxiliary injection unit. A sensor is placed in an injection molding system to sense a condition related to an injection of a first melt stream of a first moldable material provided by a primary injection unit. Commencement of a second melt stream of a second moldable material from the auxiliary injection unit is initiated upon the sensed condition related to the injection of the first melt stream being detected at a preselected value. The sensed condition may be a pressure, velocity or temperature of the first melt stream as provided by a direct sensor, a force or strain on a hot runner component as provided by an indirect sensor or the occurrence of a function of the injection molding system as provided by a functional sensor. | 07-24-2014 |