| Patent application number | Description | Published |
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| 20100219273 | AGITATION SYSTEM FOR BLOWING WOOL MACHINE - A machine for distributing blowing wool from a bag of compressed blowing wool is provided. The machine includes a chute having an inlet end. The inlet end is configured to receive the bag of compressed blowing wool. A shredding chamber is positioned downstream from the chute and is configured to shred and pick apart the blowing wool. The shredding chamber includes a plurality of shredders configured for rotation. The shredding chamber further includes a plurality of guide shells positioned partially around the plurality of shredders. The plurality of shredders seal against the plurality of guide shells and direct the blowing wool in a downstream direction as the plurality of shredders rotate. | 09-02-2010 |
| 20100219274 | AGITATION SYSTEM FOR BLOWING WOOL MACHINE - A machine for distributing blowing wool from a bag of compressed blowing wool is provided. The machine includes a shredding chamber configured to shred and pick apart the blowing wool. The shredding chamber includes a plurality of shredders and an agitator. The plurality of shredders and the agitator are configured for rotation. The plurality of shredders and the agitator are configured to rotate at different speeds. | 09-02-2010 |
| 20100230441 | ENTRANCE CHUTE FOR BLOWING INSULATION MACHINE - A machine for distributing loosefill insulation is provided. The machine includes a chute having an inlet end configured to receive the loosefill insulation and a lower unit associated with the chute. The lower unit includes a first and second shredder configured to shred and pick apart the loosefill insulation and an agitator configured for final shredding of the loosefill insulation. The lower unit further includes a first shredder guide shell positioned partially around the first shredder, a second shredder guide shell positioned partially around the second shredder and an agitator guide shell positioned partially around the agitator. A discharge mechanism is positioned in the lower unit and is configured to discharge loosefill insulation from the lower unit. The position of a second end of the first shredder guide shell is offset in a vertical direction from the position of a second end of the second shredder guide shell. | 09-16-2010 |
| 20100230522 | ENTRANCE CHUTE FOR BLOWING INSULATION MACHINE - A machine for distributing insulation from a bag of insulation having a cross-sectional shape is provided. The machine includes a chute having an inlet end and an outlet end. The inlet end is oriented in a substantially vertical plane and is configured to receive the bag of insulation. The inlet end has opposing longitudinal sides configured to be substantially horizontal in orientation. The inlet end also has opposing lateral sides connected to the longitudinal sides. The opposing lateral sides are configured to be shorter than the opposing longitudinal sides and further configured to be substantially vertical in orientation. A plurality of shredders is mounted at the outlet end of the chute and is configured to shred and pick apart the insulation. A discharge mechanism is provided for distributing the insulation into an airstream. The chute has a cross-sectional shape that approximates the cross-sectional shape of the bag of insulation. | 09-16-2010 |
| 20110000990 | ENTRANCE CHUTE FOR BLOWING WOOL MACHINE - A machine for distributing insulation from a bag of insulation is provided. The machine includes a chute having an inlet end and an outlet end. The chute is configured to receive the bag of insulation. The inlet end of the chute has a cross-sectional shape that is substantially vertical and the outlet end of the chute has a cross-sectional shape that is substantially horizontal. A plurality of shredders is mounted at the outlet end of the chute and is configured to shred and pick apart the insulation. A discharge mechanism is configured for distributing the insulation into an airstream. The chute has a cross-sectional shape that approximates the cross-sectional shape of the bag of insulation and the plurality of shredders and the discharge mechanism are positioned beneath the outlet end of the chute. | 01-06-2011 |
| Patent application number | Description | Published |
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| 20090050144 | ADHESIVE NASAL RESPIRATORY DEVICES - Whole-nose nasal respiratory devices and methods of making and using whole-nose nasal respiratory devices are described and illustrated herein. These devices are typically configured to be adhesively secured to a subject so that they engage both of the subject's nostrils and allow airflow from both nostrils to communicate with an airflow resistor. The airflow resistor is configured so that it inhibits exhalation through the nostrils more than it inhibits inhalation through the nostrils. | 02-26-2009 |
| 20090145441 | DELAYED RESISTANCE NASAL DEVICES AND METHODS OF USE - Delayed resistance nasal devices include an airflow resistor that is configured to normally have a higher resistance to exhalation than inhalation, but the higher resistance to exhalation may be suspended, or delayed by activation of an airflow resistor bypass. Activation of an airflow resistor bypass bypasses or decreases the effect of the airflow resistor on nasal airflow through the nasal device, decreasing the resistance to exhalation. Methods of decreasing, suspending, or delaying the onset of the inhibition of the exhalation through such nasal respiratory devices are described. | 06-11-2009 |
| 20090145788 | PACKAGING AND DISPENSING NASAL DEVICES - Described herein are packaging systems for nasal devices, and methods of packaging and/or dispensing nasal devices. A packaging system may include one or a plurality of nasal devices removably secured to a support backing, and a dispenser. In some variations an applicator may also be included. Methods of using and methods of assembling packaging systems and dispensers are also described. | 06-11-2009 |
| 20090188493 | NASAL DEVICES - Described herein are adhesive nasal devices. In particular, the adhesive nasal respiratory devices described herein are configured to be worn in communication with a subject's nasal cavity and may include a rim body having a passageway therethrough, an airflow resistor in communication with the passageway of the rim body, and a flexible, adhesive holdfast layer extending outward from the periphery of the rim body. The rim body region may be formed from multiple parts (e.g., a first and a second rim body region), and the airflow resistor may be secured between the parts forming the rim body. Methods of manufacturing and assembling these adhesive nasal devices are also described. | 07-30-2009 |
| 20090241965 | NASAL DEVICES WITH NOISE-REDUCTION AND METHODS OF USE - Described herein are nose-reduced nasal devices configured to reduce or eliminate the unwanted noises associated with use of a nasal device. These noise-reduced nasal devices include a flap-valve airflow resistor and a noise-reduction feature that is a noise-reduction element, a noise-reduction flap valve, or both. The noise-reduction feature typically prevents the flap valve from oscillating or vibrating and producing an audible sound during use, particularly during inhalation through the device. The method and devices described herein may prevent the flap, and particularly the edge region of the flap face or tip of the flap, from oscillating during inhalation. | 10-01-2009 |
