Patent application number | Description | Published |
20110308853 | Harness Retaining Means and Harness Wiring Structure - There is disclosed a harness retaining device for retaining a harness and causing the harness together with a connection element for an electric/electronic circuit to be supported with respect to a portion of a frame of a vehicle seat. The harness retaining device includes a support arm having first and second end portions, the first end portion of the support arm being configured so as to be engagingly connectable with the connection element, an anchor-like clip provided on the first end portion of the support arm, and a locking member provided on the second end portion of the support arm for fastening the harness. When the first end portion of the support arm is connected to the connection element and the anchor-like clip is fitted through the portion of the seat frame of the vehicle seat, the connection element and the harness are supported with respect to the portion of the frame of the vehicle seat through the support arm. | 12-22-2011 |
20120267930 | SEATING APPARATUS ADJUSTMENT SYSTEM - A seat adjustment system for a seat assembly in a vehicle is provided and includes a seat locking device attached to a forward suspension rod of the seat assembly, a first seat adjustment mechanism cooperating with the seat locking device to facilitate a sliding motion of a seat assembly, and a second seat adjustment mechanism cooperating with the seat locking device to facilitate a pivoting motion of the seat assembly. | 10-25-2012 |
20120286553 | VEHICLE SEATING SYSTEM WITH PIVOTING STOP MECHANISM AND METHOD - A vehicle seat system and method in which a seat belt assembly is secured directly to the seat is provided. The vehicle seat system includes a first stop operating at rear portions of a base and a seat frame to couple the base and seat frame and to limit forward pivoting movement of the seat frame upon sudden deceleration. The first stop includes two distinct rod ends each fixedly attached to opposite portions of a seat frame. The system may also include another stop to limit rearward pivoting movement of the seat frame. The coupling of the base and seat frame provides the seat system with strength to satisfy load testing requirements and to provide comfort to the occupant. The vehicle system may include a mechanism that allows tilting of the seat frame and that may also form part of a cushion slide function. | 11-15-2012 |
20140138152 | Harness Retaining Means and Harness Wiring Structure - There is disclosed a harness retaining device for retaining a harness and causing the harness together with a connection element for an electric/electronic circuit to be supported with respect to a portion of a frame of a vehicle seat. The harness retaining device includes a support arm having first and second end portions, the first end portion of the support arm being configured so as to be engagingly connectable with the connection element, an anchor-like clip provided on the first end portion of the support arm, and a locking member provided on the second end portion of the support arm for fastening the harness. When the first end portion of the support arm is connected to the connection element and the anchor-like clip is fitted through the portion of the seat frame of the vehicle seat, the connection element and the harness are supported with respect to the portion of the frame of the vehicle seat through the support arm. | 05-22-2014 |
Patent application number | Description | Published |
20090277979 | CARTRIDGE SPREADER SYSTEM - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 11-12-2009 |
20110042493 | Cartridge Spreader System - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 02-24-2011 |
20120205471 | CARTRIDGE SPREADER SYSTEM - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 08-16-2012 |
20130020417 | CARTRIDGE SPREADER SYSTEM - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 01-24-2013 |
20130168464 | Cartridge Spreader System - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 07-04-2013 |
20150136880 | CARTRIDGE SPREADER SYSTEM - The cartridge spreader system includes a mobile cartridge spreader with a cartridge station configured to engage a cartridge and includes a locking controller for locking the cartridge securely into the cartridge station. The cartridge station includes an activator mechanism for activating and deactivating an engaged cartridge. The cartridge spreader includes an activation controller for activating and deactivating the cartridge. Activation of the cartridge allows the granular product contained in the cartridge to flow out of the container, through a granular chute on the cartridge station, and onto a granular product launcher which launches or impels the granular product over terrain or other surface. When the cartridge is deactivated, the flow path is sealed stopping the flow of granular product. The cartridge itself includes a fitment that engages with the cartridge station. The cartridge fitment includes an appropriately sized metering gate. | 05-21-2015 |
Patent application number | Description | Published |
20090295863 | CONTINUOUS INKJET PRINTHEAD NOZZLE CAP - A printhead includes a jetting module, a catcher, a drop deflection mechanism, and a capping mechanism. The jetting module includes an array of nozzles and is operable to form liquid drops from liquid emitted through the nozzles of the nozzle array. The catcher collects some of the liquid drops. The drop deflection mechanism deflects the liquid drops such that some of the liquid drops contact the catcher while other liquid drops are allowed to contact a print media. The capping mechanism includes a capping member located between the nozzle array of the jetting module and the drop deflection mechanism. The capping member has a first position covering the nozzle array and a second position removed from the nozzle array. | 12-03-2009 |
20090295878 | JETTING MODULE INSTALLATION AND ALIGNMENT APPARATUS - A mechanism for aligning the jetting module in a continuous inkjet printhead and for making fluid and electrical connections to the jetting module without compromising the alignment is disclosed. A mechanism to aid in installing the jetting module is also disclosed. | 12-03-2009 |
20090295879 | CONTINUOUS PRINTHEAD CONTOURED GAS FLOW DEVICE - A continuous liquid printing system gas flow device includes a gas flow duct structure including a first wall and a second wall. The first wall and the second wall are positioned spaced apart and opposite each other to form an opening. The first wall is contoured such that a distance between the first wall and the second wall varies when viewed in a direction perpendicular to the opening. | 12-03-2009 |
20100309255 | FIELD REPLACEABLE JETTING MODULE - A jetting module for installation in a printhead of a printer is provided. The printhead includes a set of mounting features, a set of fluid and electrical connections, and at least a portion of a drop deflection mechanism. The jetting module includes a nozzle plate, a set of mounting features, and a set of fluid and electrical connections. The set of mounting features of the jetting module is configured to engage the set of mounting features of the printhead. The set of fluid and electrical connections of the jetting module corresponds to the set of fluid and electrical connections of the printhead. The set of fluid and electrical connections of the jetting module are located relative to the set of mounting features of the jetting module such that a force applied to couple the set of fluid and electrical connections of the jetting module and the set of fluid and electrical connections of the printhead provides force to maintain contact between the set of mounting features of the jetting module and the set of mounting features of the printhead. | 12-09-2010 |
20110199434 | JETTING MODULE INSTALL MECHANISM - A printer includes a plurality of jetting modules each including a first alignment feature, a plurality of nozzles through which fluid may be jetted and fluid and electrical connections; a printhead frame having a plurality of jetting-module receiving receptacles each of which receives one of the jetting modules, each receiving receptacle having a second alignment feature corresponding to the first alignment feature of a jetting module: a jetting module installation device having a pocket for receiving a jetting module, wherein the jetting module installation device includes a latch mechanism that, in a first position, is latched to the printhead frame securing the jetting module in a jetting module receiving receptacle with the first alignment feature engaging a corresponding second alignment feature of the printhead frame; the latch mechanism that, in a second position, is unlatched from the printhead frame so that the jetting module is not secured in the jetting module receiving receptacle; and wherein the jetting module installation device includes a coupling frame having fluid and electrical connections that correspond to the fluid and electrical connections of the jetting module, and the installation device includes a mechanism move the coupling frame relative to the jetting module to cause the fluid and electrical connections of the coupling frame to mate to the fluid and electrical connections of the jetting module. | 08-18-2011 |
Patent application number | Description | Published |
20080253086 | Thermal cooling of industrial electronic module by conductive structure - An electronic module and chassis/module installation and cooling method are disclosed. The installation comprises a chassis including a metallic heat input region. An electronic module including an electronic component is adapted to be connected to the chassis. An uninterrupted thermal pathway thermally connects the electronic component of the module to the heat input region of the chassis. The thermal pathway comprises a chimney, a heat channel thermally connected to the chimney, and a heat output block thermally connected to the heat channel. A first electrically insulative non-metallic layer thermally couples the chimney to the electronic component. A second electrically insulative non-metallic layer thermally couples the heat output block to the chassis heat input region. | 10-16-2008 |
20090125156 | ENERGY STORAGE MODULE - An industrial automation controller module includes a main module and an energy storage module (ESM) releasably connected to the main module. The ESM includes a back-up electrical power source such as a battery or a capacitor that is electrically connected to processor circuitry of the main module when the ESM is physically connected to the main module. In case of interruption of operating power to the processor circuitry of the main module, the back-up power source of the ESM supplies back-up power to the main module to allow for completion of an emergency save operation to save data to non-volatile memory in the main module. If the ESM includes a capacitor back-up power source, it is charged by the main module and the capacitor charge is dissipated if the ESM is separated from the main module. In all cases, the ESM can include one or more configuration parameters stored therein that allow the main module to validate (or not) the ESM for the requirements of the main module, with respect to type of back-up power source, product code or model, capacity of back-up power source, and the like. The main module can also initiate periodic testing of the back-up power source of the ESM. | 05-14-2009 |
20090132059 | INDUSTRIAL CONTROLLER USING SHARED MEMORY MULTICORE ARCHITECTURE - A multicore processor for industrial control provides for the execution of separate operating systems on the cores under control of one of the cores to tailor the operating system to optimum execution of different applications of industrial control and communication. One core may provide for a reduced instruction set for execution of industrial control programs with the remaining cores providing a general-purpose instruction set. | 05-21-2009 |
20090210069 | INDUSTRIAL CONTROLLER USING SHARED MEMORY MULTICORE ARCHITECTURE - A multicore processor for industrial control provides for the execution of separate operating systems on the cores under control of one of the cores to tailor the operating system to optimum execution of different applications of industrial control and communication. One core may provide for a reduced instruction set for execution of industrial control programs with the remaining cores providing a general-purpose instruction set. | 08-20-2009 |
20090210070 | INDUSTRIAL CONTROLLER USING SHARED MEMORY MULTICORE ARCHITECTURE - A multicore processor for industrial control provides for the execution of separate operating systems on the cores under control of one of the cores to tailor the operating system to optimum execution of different applications of industrial control and communication. One core may provide for a reduced instruction set for execution of industrial control programs with the remaining cores providing a general-purpose instruction set. | 08-20-2009 |
20110173354 | Hardware Based Connection State Machine With Built In Timers - The present invention provides a hardware implemented connection monitoring system. A timer array establishes an input timer and an output timer for each connection between the processor and each I/O connection. A state machine periodically steps through the timer array to update the accumulated values of the timers and to monitor if any of the timers has reached a preset, timer done value. If a timer reaches the timer done value, the state machine loads the timer status into an event buffer and generates an interrupt for the processor. The processor reads the event buffer, identifies whether the expired timer was an input timer or an output timer, and takes action accordingly. | 07-14-2011 |
20130018484 | Industrial Controller Using Shared Memory Multicore Architecture - A multicore processor for industrial control provides for the execution of separate operating systems on the cores under control of one of the cores to tailor the operating system to optimum execution of different applications of industrial control and communication. One core may provide for a reduced instruction set for execution of industrial control programs with the remaining cores providing a general-purpose instruction set. | 01-17-2013 |