Patent application number | Description | Published |
20090045219 | Overcap and system for spraying a fluid - A volatile material dispenser includes a housing adapted to be releasably mounted on a container having a tilt-activated valve stem. The housing includes a discharge orifice. A drive unit is disposed within the housing, wherein the drive unit is activated in response to a signal from at least a sensor, and wherein the drive unit is adapted to radially displace the tilt-activated valve stem in response to the signal. | 02-19-2009 |
20090114110 | DUAL FAULT SAFE AND ARM DEVICE, ADAPTIVE STRUCTURES THEREWITH AND SAFETY AND RELIABILITY FEATURES THEREFOR - A safe and arm device includes a booster base assembly having a booster base housing and a rotatable barrier. The booster base housing includes a shaft port extending substantially inline with a longitudinal axis, at least three initiator ports disposed about the axis, and a matching number of explosive transfer paths in respective communication with the at least three initiator ports. The barrier includes a matching number of fire-train transfer ports and a drive shaft. The drive shaft of the barrier is coupled within the shaft port of the booster base housing allowing the barrier to be selectively rotationally positioned about the axis into at least one of a safe position and an arm and fire position, allowing the fire-train transfer ports to be substantially aligned with the explosive transfer paths when the barrier is positioned in the arm and fire position. A booster basket assembly is also provided. | 05-07-2009 |
20100243673 | Compact Spray Device - A method of operating a dispensing unit includes the step of providing a power source to a dispensing unit that includes a housing having an aerosol container disposed therein and an actuator arm. Other steps include activating the dispensing unit in response to a minimum threshold of light being sensed by a light sensor and selecting a sleep period interval between spray operations. Yet another step comprises moving the actuator arm after completion of a startup delay period from a pre-actuation position to a discharge position along a path substantially parallel to an axial length of the container to actuate a nozzle of the container to discharge a fluid from the container. The method also includes the step of alternating automatically between the sleep period having a duration commensurate with the selected sleep period interval and a discharge period during which the fluid is dispensed from the container. | 09-30-2010 |
20100243674 | Compact Spray Device - A power source is provided to a dispensing unit that includes a housing having an aerosol container disposed therein. A sleep period interval between spray operations is selected and a motion sensor is activated to detect motion within a sensory path of the sensor after completion of the sleep period interval. If no motion is detected by the motion sensor a fluid is automatically discharged from the aerosol container and the sleep interval is reset and if motion is detected by the motion sensor a delay time interval is initiated and fluid is not discharged from the aerosol container. The dispensing unit alternates between activating the sensor to detect motion and resetting the delay time interval until no motion is detected by the motion sensor at the expiration of the delay time interval, which results in the automatic discharge of fluid and a resetting of the sleep period interval. | 09-30-2010 |
20110005421 | DUAL FAULT SAFE AND ARM DEVICE, ADAPTIVE STRUCTURES THEREWITH AND SAFETY AND RELIABILITY FEATURES THEREFOR - A safe and arm device includes a booster base assembly having a booster base housing and a barrier. The booster base housing includes a shaft port extending substantially in line with a longitudinal axis, at least three initiator ports disposed about the axis, and a matching number of explosive transfer paths in respective communication with the at least three initiator ports. The barrier includes a matching number of fire-train transfer ports and a drive shaft. The drive shaft of the barrier is coupled within the shaft port of the booster base housing allowing the barrier to be selectively rotationally positioned about the axis into at least one of a safe position and an arm and fire position, allowing the fire-train transfer ports to be substantially aligned with the explosive transfer paths when the barrier is positioned in the arm and fire position. A booster basket assembly is also provided. | 01-13-2011 |
20120000932 | Compact Spray Device - An automatic discharge device includes a housing having a top portion and a base portion, wherein surfaces defining a recess are provided therebetween for securely holding a container. At least one gear is disposed substantially between the recess and a rear panel of the housing. A drive motor is in association with the at least one gear. An actuator arm is also provided. Activation of the drive motor and the at least one gear provides for movement of the actuator arm between at least one of a pre-actuation position and a discharge position along a path that is substantially parallel to a longitudinal axis of the container. | 01-05-2012 |
20120061420 | Compact Spray Device - A method of operating a dispensing unit includes the step of providing a power source to a dispensing unit that includes a housing having at least two aerosol containers disposed therein and an actuator arm. The dispensing unit activates in response to a minimum threshold of light being sensed by a light sensor. The method also includes the step of providing a means for selecting a sleep period interval between spray operations. | 03-15-2012 |
20130026181 | Compact Spray Device - An automatic discharge device includes a housing retaining two containers therein. An actuator arm is attached to the housing and movable between first and second positions. A drive unit is provided for automatically moving the actuator arm into one of the first and second positions in response to a signal from at least one of a timer, a sensor, and a manual switch. The movement of the actuator arm actuates a valve stem of one of the two containers in one of the first and second positions. The actuator arm is adapted to spray fluid disposed in an interior of the two containers. | 01-31-2013 |
20130068787 | COMPACT SPRAY DEVICE - An automatic discharge device includes a housing retaining two containers therein and an actuator arm attached to the housing and movable between first and second positions. The automatic discharge device also includes a drive unit for automatically moving the actuator arm into one of the first and second positions in response to a signal from at least one of a timer, a sensor, and a manual switch. The movement of the actuator arm actuates a valve stem of one of the two containers in one of the first and second positions and the actuator arm is adapted to spray the contents of the two containers. | 03-21-2013 |
20130174755 | CONNECTORS FOR SEPARABLE FIRING UNIT ASSEMBLIES, SEPARABLE FIRING UNIT ASSEMBLIES, AND RELATED METHODS - Connection cables for separable firing unit assemblies comprise a first mating connector at a first end and a second mating connector at a second, opposing end. A stripline cable electrically connects the first mating connector to the second mating connector. Separable firing unit assemblies comprise an initiation device. An electronics assembly is configured to transmit a firing pulse to the initiation device. One of a first mating connector and a second mating connector is coupled to the initiation device and the other of the first mating connector and the second mating connector is coupled to the electronics assembly. A second housing of the second mating connector is configured to receive a portion of a first housing of the first mating connector therein. | 07-11-2013 |
20130277389 | OVERCAP AND SYSTEM FOR SPRAYING A FLUID - A volatile material dispensing system includes a housing retaining a container having a tilt-activated valve stem. A displacement member is disposed on the tilt-activated valve stem. A drive unit is disposed within the housing. The drive unit includes a gear mechanically associated with an actuating cam mounted on a transfer shaft to displace the displacement member. The transfer shaft is not parallel to a longitudinal axis of the container. The actuating cam rotates in a plane not parallel to the longitudinal axis of the container. | 10-24-2013 |
20140069289 | DISTRIBUTED ORDNANCE SYSTEM, MULTIPLE STAGE ORDNANCE SYSTEM, AND RELATED METHODS - A distributed ordnance system comprises a plurality of ordnance controllers and a plurality of firing units. Each ordnance controller of the plurality of ordnance controllers may be operably coupled with at least one firing unit of the plurality of firing units. Each ordnance controller may be configured to provide power signals to the at least one firing unit coupled therewith, and communicate with the at least one firing unit for initiation of an ordnance event. A multiple-stage ordnance system may comprise a first stage and a second stage that each include an ordnance controller configured to control operation of an ordnance event, and at least one firing unit to initiate the ordnance event. Related methods for constructing a multiple-stage ordnance control system and controlling initiation of an energetic material are also disclosed. | 03-13-2014 |
20150028062 | COMPACT SPRAY DEVICE - An automatic discharge device includes a housing having a recess for receipt of a container. Further, a first compartment for receipt of a first battery and a second compartment for receipt of a second battery are provided. An actuator is disposed above the recess and the first compartment and the second compartment are disposed on opposing sides of the recess. | 01-29-2015 |
20150192397 | HIGH VOLTAGE FIRING UNIT, ORDNANCE SYSTEM, AND METHOD OF OPERATING SAME - A high voltage firing unit may comprise a high voltage converter, a capacitive discharge unit, and a control unit. The high voltage converter may be configured to generate a high voltage output signal from a lower voltage input signal. The capacitive discharge unit may be configured to store energy from the high voltage output signal across an energy storage device, and to discharge energy from the energy storage device in response to a fire control signal. The control unit operably may be configured to communicate with an external ordnance controller and control internal operations of the high voltage firing unit. An ordnance system, may comprise a high voltage firing unit and an ordnance controller configured to communicate data with the control unit and at least one power signal to the high voltage converter. A method for operating a high voltage firing unit is also disclosed. | 07-09-2015 |
Patent application number | Description | Published |
20110108189 | AUTOMATED COMPOSITE ANNULAR STRUCTURE FORMING - Method and apparatus for forming an annular composite structure is provided. In one embodiment an apparatus for forming annular composite structures is provided. The apparatus includes an annular shaped tool and a forming head. The annular shaped tool includes a forming surface of a select cross-sectional geometry. The forming head is configured to form continuous ply layers one ply at a time circumferentially about the forming surface of the tool. | 05-12-2011 |
20110111148 | RADIALLY EXTENDING COMPOSITE STRUCTURES - A composite structure having at least one radially extending part is provided. The composite structure is formed with ply layers. At least one of the ply layers used to form the radially extending part has fibers oriented at 17.5 to 27.5 degrees in relation to an edge of the ply layer. | 05-12-2011 |
20110247743 | AUTOMATED BIAS-PLY PREPARATION DEVICE AND PROCESS - A material preparation device is provided. The material preparation device includes a bias-ply assembly, a feedstock assembly and an application head. The bias-ply assembly is configured to pass a bias-ply backing material along a first path. The feedstock assembly is configured to pass a feedstock along a second path that crosses the first path at a select angle. The feedstock includes resin pre-impregnated fiber reinforced material (pre-preg) having the fibers at a first orientation relative to an edge of the feedstock. The application head is configured to transfer the pre-preg from the feedstock to the bias-ply backing material at a location where the first path crosses the second path to form a bias-ply with the fibers of the pre-preg having a second different orientation relative to an edge of the formed bias-ply. | 10-13-2011 |
20130000825 | AUTOMATED COMPOSITE ANNULAR STRUCTURE FORMING - Method and apparatus for forming an annular composite structure is provided. In one embodiment an apparatus for forming annular composite structures is provided. The apparatus includes an annular shaped tool and a forming head. The annular shaped tool includes a forming surface of a select cross-sectional geometry. The forming head is configured to form continuous ply layers one ply at a time circumferentially about the forming surface of the tool. | 01-03-2013 |
20130193607 | AUTOMATED MATERIAL DELIVERY SYSTEM - An automated material delivery system including a material handling assembly, a compaction member, a handling actuator, and a cutting actuator is provided. The material handling assembly is configured and arranged to guide material. The material handling assembly includes a tacking member that is configured and arranged to selectively press the material over a forming surface of a tool. The compaction member is spaced a select distance from the tacking member. The compaction member is further configured to selectively press the material over at least a portion of the forming surface of the tool. The handling actuator is coupled to selectively move at least one of the material handling assembly and the compaction member to move the material handling assembly in relation to the compaction member. The cutting assembly is positioned between the tacking member and the compaction member. The cutting assembly is configured and arranged to selectively cut the material. | 08-01-2013 |
Patent application number | Description | Published |
20120218289 | ANCESTOR-TO-ANCESTOR RELATIONSHIP LINKING METHODS AND SYSTEMS - Methods, devices and systems for implementing an interactive display of ancestor-to-ancestor relationships are presented. The method includes displaying on a display device of a computer system, a user interface for displaying one or more genealogical charts including one or more nodes. The method further includes receiving, from an input device of the computer system, a selection of a first node and a second node. Then, in response to receiving the selection of the first and second nodes, the method includes calculating a sequence of relationships connecting the first node to the second node. Finally, the method includes organizing the sequence of relationships into one or more steps, wherein each step contains a sequential subset of nodes and relationships that can be displayed at the same time, and sequentially displaying the nodes and relationships in each step on the display device. | 08-30-2012 |
20120221977 | METHODS AND SYSTEMS FOR IMPLEMENTING ANCESTRAL RELATIONSHIP GRAPHICAL INTERFACE - According to the invention, a method for displaying genealogical records may include providing a plurality of genealogical records, providing a plurality of icons, and associating each genealogical record with an icon. The method may also include providing a genealogical display and positioning a first icon in a docking field of the genealogical display. The method may further include displaying on a display device the first icon in the docking field, information about the genealogical record associated with the first icon, and other icons that represent genealogical records linked to the genealogical record represented by the first icon, where the other icons are arranged according to their relationship with the first icon. The method may additionally include replacing the first icon in the docking field with a second icon representing a different genealogical record and updating the icons displayed on the display device without shifting focus from the displayed icons. | 08-30-2012 |