Patent application number | Description | Published |
20090217925 | METHOD AND APPARATUS FOR DRIVING A TRANSDUCER OF AN INHALATION DEVICE - An inhaler is disclosed wherein medicament in a flat-bottomed container is aerosolized with a vibrator piezoelectric transducer. The transducer is driven by a signal that excites multiple harmonic frequencies to create a complex pattern of oscillations. A circuit for generating the drive signal to the transducer is also disclosed. | 09-03-2009 |
20100037818 | METHOD AND APPARATUS FOR PRODUCING UNIFORM SMALL PORTIONS OF FINE POWDERS AND ARTICLES THEREOF - Uniform portions of fine powders are deposited on a substrate by electrostatic attraction in which the charge of the electric field and polarity of the charged particles are varied repeatedly to form a buildup of powder on the carrier surface. | 02-18-2010 |
20100229860 | SYNTHETIC JET BASED MEDICAMENT DELIVERY METHOD AND APPARATUS - A dry powder inhaler consisting of first chamber having an orifice for holding a dry powder and a gas, and a second chamber for receiving a deaggregated form of the dry powder and for communicating the deaggregated dry powder to a user. A synthetic jet drives the dry powder from the first chamber to the second chamber. | 09-16-2010 |
20130291864 | DIRECTIONAL FLOW SENSOR INHALER - An fluid sensor to activate and control various components of an inhalation device. The fluid sensor includes an acoustic element, such as a microphone, positioned within said inhalation device to detect fluid within the device and output signals representative of the frequency, direction and/or amplitude of the fluid. These signals control and activate an electrostatic plate and/or a high frequency vibrator. | 11-07-2013 |
Patent application number | Description | Published |
20080234990 | COMPUTATION OF MULTIPLE BODY INTERACTIONS - Distributed computation of multiple body interactions in a region uses multiple processing modules, where each of the processing modules is associated with a respective corresponding portion of the region. In some examples, the approach includes establishing multiple coordinate frames of reference, each processing module corresponding to one the coordinate frames of reference. In some examples, efficient techniques are used for selecting elements for computation of interactions according at least in part to a separation-based criterion. | 09-25-2008 |
20080243452 | Approaches and architectures for computation of particle interactions - A generalized approach to particle interaction can confer advantages over previously described method in terms of one or more of communications bandwidth and latency and memory access characteristics. These generalizations can involve one or more of at least spatial decomposition, import region rounding, and multiple zone communication scheduling. An architecture for computation of particle interactions makes use various forms of parallelism. In one implementation, the parallelism involves using multiple computation nodes arranged according to a geometric partitioning of a simulation volume. | 10-02-2008 |
20100280806 | COMPUTATION OF MULTIPLE BODY INTERACTIONS - Distributed computation of multiple body interactions in a region uses multiple processing modules, where each of the processing modules is associated with a respective corresponding portion of the region. In some examples, the approach includes establishing multiple coordinate frames of reference, each processing module corresponding to one the coordinate frames of reference. In some examples, efficient techniques are used for selecting elements for computation of interactions according at least in part to a separation-based criterion. | 11-04-2010 |
20120116737 | ZONAL METHODS FOR COMPUTATION OF PARTICLE INTERACTIONS - A generalized approach to particle interaction can confer advantages over previously described method in terms of one or more of communications bandwidth and latency and memory access characteristics. These generalizations can involve one or more of at least spatial decomposition, import region rounding, and multiple zone communication scheduling. An architecture for computation of particle interactions makes use various forms of parallelism. In one implementation, the parallelism involves using multiple computation nodes arranged according to a geometric partitioning of a simulation volume. | 05-10-2012 |
Patent application number | Description | Published |
20080197178 | PACKAGING DESIGN WITH SEPARATE COMPARTMENTS - A gum packaging design that utilizes two separate compartments, an upper compartment and a lower compartment. Each of the compartments may be formed from a separate paperboard blank. The blanks are folded to form the compartments and then the lower compartment is adhered to the upper compartment in a fashion that allows the lower compartment to be later separated therefrom by tearing along a perforation after the lower compartment is emptied. A cover flap on the upper compartment can be used to hold the package in a compact, closed position by folding the compartments to face each other and tucking an end into a receiving slot formed in the back panel of the lower compartment. Once the lower compartment is separated from the upper compartment, the same cover flap can be used to close the remaining package by tucking the same end of the cover flap into a receiving slot formed in a front panel of the upper compartment. | 08-21-2008 |
20090145800 | RUPTURABLE SUBSTRATE - The package supports a plurality of consumable products. The package is a blister package having a plurality of consumable products housed in a blister tray and covered with a rupturable sheet. The sheet overlies the open surfaces of the blister tray and includes rupturable locations formed thereon for permitting passage of the product therethrough. | 06-11-2009 |
20090283581 | PACKAGING AND DISPLAY TRAY FORMED FROM INTERLOCKED BLANKS - The present invention provides a tray for accommodating and dispensing a stacked plurality of consumable product packages and a method for forming the tray. The tray includes a housing having a bottom wall, opposed front and back walls, and opposed side walls extending upwardly from the bottom wall. The housing defines an open upper end. The side walls include an undulating upper extent defined by space apart upwardly opening recesses. The recesses extend below the stacked packages for permitting manual grasping of the individual stacked packages through the side walls. | 11-19-2009 |
20100147934 | PACKAGING DESIGN WITH SEPARATE COMPARTMENTS - A gum packaging design that utilizes two separate compartments, an upper compartment and a lower compartment. Each of the compartments may be formed from a separate paperboard blank. The blanks are folded to form the compartments and then the lower compartment is adhered to the upper compartment in a fashion that allows the lower compartment to be later separated therefrom by tearing along a perforation after the lower compartment is emptied. A cover flap on the upper compartment can be used to hold the package in a compact, closed position by folding the compartments to face each other and tucking an end into a receiving slot formed in the back panel of the lower compartment. Once the lower compartment is separated from the upper compartment, the same cover flap can be used to close the remaining package by tucking the same end of the cover flap into a receiving slot formed in a front panel of the upper compartment. | 06-17-2010 |
20110101079 | PACKAGING DESIGN WITH SEPARATE COMPARTMENTS - A gum packaging design that utilizes two separate compartments, an upper compartment and a lower compartment. Each of the compartments may be formed from a separate paperboard blank. The blanks are folded to form the compartments and then the lower compartment is adhered to the upper compartment in a fashion that allows the lower compartment to be later separated therefrom by tearing along a perforation after the lower compartment is emptied. A cover flap on the upper compartment can be used to hold the package in a compact, closed position by folding the compartments to face each other and tucking an end into a receiving slot formed in the back panel of the lower compartment. Once the lower compartment is separated from the upper compartment, the same cover flap can be used to close the remaining package by tucking the same end of the cover flap into a receiving slot formed in a front panel of the upper compartment. | 05-05-2011 |
20120241347 | SOFT-SIDED FLEXIBLE BLISTER PACKAGE - A flexible package ( | 09-27-2012 |
20130112592 | SPLIT CASE SYSTEM FOR DISPLAY CONTAINERS - This invention pertains to a U-board split case assembly ( | 05-09-2013 |
20140216977 | RUPTURABLE SUBSTRATE - The package supports a plurality of consumable products. The package is a blister package having a plurality of consumable products housed in a blister tray and covered with a rupturable sheet. The sheet overlies the open surfaces of the blister tray and includes rupturable locations formed thereon for permitting passage of the product therethrough. | 08-07-2014 |