Patent application number | Description | Published |
20090031759 | Gas Supply Assembly For Mineral Fiber Apparatus - An apparatus for making mineral fibers is provided. The apparatus comprises a rotary fiberizer capable of receiving molten mineral material and centrifuging the molten mineral material into mineral fibers. A fiberizer burner is connected to the rotary fiberizer. The fiberizer burner is configured to receive a first flow of combustion gas and burn the first flow of combustion gas to support the making of the mineral fibers. A gas supply assembly is configured to supply the fiberizer burner with the first flow of combustion gas. The gas supply assembly comprises a pilot assembly having a pilot burner. The pilot burner is operable to burn a pilot flame from a second flow of combustion gas. The pilot flame is operable to ignite the first flow of combustion gas flowing to the fiberizer burner. A flame sensor is operable to detect a change in the pilot flame and communicate the change in the pilot flame. A controller is configured to communicate with the flame sensor and control the first flow of combustion gas to the fiberizer burner and the second flow of combustion gas to the pilot assembly. | 02-05-2009 |
20090193761 | Low Profile Packaging Assembly For Loose Fill Insulation Material - A packaging assembly for insulation material has a compression chamber and a surge hopper vertically mounted above the compression chamber. An air drawing assembly positioned beneath the compression chamber draws air through the surge hopper and the compression chamber. | 08-06-2009 |
20090257833 | BLOWING WOOL MACHINE FLOW CONTROL - A machine is provided for distributing blowing wool from a source of compressed blowing wool. The machine is configured to discharge the blowing wool into distribution hoses. The machine comprises a shredding chamber having an outlet end. The shredding chamber includes a plurality of shredders configured to condition the blowing wool. A discharge mechanism is mounted at the outlet end of the shredding chamber. The discharge mechanism is configured for distributing the conditioned blowing wool from a discharge mechanism outlet end into an airstream provided by a blower. A choke is positioned between the outlet end of the shredding chamber and the discharge mechanism. The choke is configured to direct heavier clumps of blowing wool to the shredding chamber for further conditioning and configured to allow conditioned blowing wool to enter the discharge mechanism. | 10-15-2009 |
20090314672 | Loosefill Package For Blowing Wool Machine - Packages of compressed blowing wool are provided. The packages include at least two partial packages of compressed blowing wool. The partial packages have a body of compressed blowing wool encapsulated by a bag. The partial packages include an open end and a closed end. The open ends of the partial packages are configured to expose the body of compressed blowing wool. A joining mechanism is configured to join the partial packages into the package. The partial packages are joined such that the exposed bodies of compressed blowing wool in the open ends are substantially in contact with each other. The package is configured for separation into the partial packages and the partial packages are configured for loading into a blowing wool machine. | 12-24-2009 |
20100147983 | Non-Symmetrical Airlock 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 having an outlet end. The shredding chamber includes a plurality of shredders configured to shred and pick apart the blowing wool. A discharge mechanism is mounted at the outlet end of the shredding chamber and is configured for distributing the blowing wool into an airstream. The discharge mechanism includes a housing and a plurality of sealing vane assemblies mounted for rotation. The housing has a wrap angle of approximately 240°. The sealing vane assemblies are configured to seal against the housing as the sealing vane assemblies rotate. The housing includes an eccentric segment extending from the housing. A blower is configured to provide the airstream flowing through the discharge mechanism. The sealing vane assemblies become spaced apart from the housing as the sealing vane assemblies rotate through the eccentric segment. | 06-17-2010 |
20100219272 | EXIT VALVE FOR BLOWING WOOL MACHINE - A machine for distributing blowing insulation from a bag of compressed blowing insulation is provided. The machine includes a chute having an inlet end configured to receive the bag of compressed blowing insulation. A shredding chamber is associated with the chute. The shredding chamber includes a plurality of shredders configured to shred and pick apart the blowing insulation. The shredding chamber further includes a discharge mechanism mounted for rotation and configured for distributing the blowing insulation into an airstream. The discharge mechanism has a side inlet and includes sealing vane assemblies having vane tips. Rotation of the vane tips forms an arc. The blowing insulation is fed horizontally from the shredding chamber into the side inlet of the discharge mechanism in a manner such that the blowing insulation passes through the arc formed by the rotating vane tips. | 09-02-2010 |
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 |
20100314474 | ROTARY VALVE FOR BLOWING INSULATION MACHINE - A machine for distributing loosefill insulation is provided. The machine includes a shredding chamber having an outlet end. The shredding chamber includes a plurality of shredders configured to shred and pick apart the loosefill insulation. A discharge mechanism is mounted at the outlet end of the shredding chamber. The discharge mechanism is configured for distributing the loosefill insulation into an airstream. The discharge mechanism includes a shaft mounted for rotation within a housing. The shaft includes a plurality of vanes extending radially from the shaft. A plurality of seals is mounted to the shaft and to the vanes. The seals are configured to seal against the housing as the shaft rotates. A blower is configured to provide the airstream flowing through the discharge mechanism. The shaft and the vanes are a one-piece structure. | 12-16-2010 |
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 |
20110024317 | LOOSEFILL PACKAGE FOR BLOWING WOOL MACHINE - Packages of compressed blowing wool are provided. The packages include a body of compressed blowing wool. The compression of the blowing wool is in a radially inward direction with respect to an axis extending from one end of the body of compressed blowing wool to another end of the body of compressed blowing wool. A bag encapsulates the body of compressed blowing wool. The bag has a plurality of bag sections and opposing ends. The bag sections have contrasting visual characteristics configured to focus the attention of a user toward one of the bag. One of the bag sections includes indicia configured to assist in opening one end of the bag. | 02-03-2011 |
20110031339 | BLOWING WOOL MACHINE OUTLET PLATE ASSEMBLY - A machine for distributing blowing wool from a bag of compressed blowing wool is provided. The machine includes a chute configured to receive the compressed blowing wool and a shredding chamber connected to the chute. The shredding chamber includes a plurality of shredders configured to shred the blowing wool. A discharge mechanism is mounted to receive the shredded and picked apart blowing wool and configured to distribute the blowing wool into an airstream. An outlet plate assembly is mounted to the discharge mechanism and includes an outlet pipe configured to connect a distribution hose to the discharge mechanism. The outlet pipe has a plurality of inner diameters each having an inner surface. A blower is configured to provide the airstream flowing through the discharge mechanism. In an installed position, an outer surface of the distribution hose contacts the inner surface of one of the inner diameters of the outlet pipe. | 02-10-2011 |
20110084091 | Unbonded loosefill insulation system - An unbonded loosefill insulation system configured to provide blown loosefill insulation material is provided. The system includes a blowing insulation machine configured to condition and distribute loosefill insulation from a package of compressed loosefill insulation. The blowing insulation machine is further configured to have pre-set and fixed operating parameters. An unbonded loosefill insulation material is configured for use with the blowing insulation machine. The pre-set and fixed operating parameters of the blowing insulation machine are tuned to combine with the unbonded loosefill insulation materials to provide blown loosefill insulation material having specific insulative values. | 04-14-2011 |
20110086226 | Unbonded loosefill insulation - An improved unbonded loosefill insulation material having a multiplicity of tufts and a plurality of voids between the tufts is provided. The tufts have an average major tuft dimension. The average major tuft dimension of the tufts of the improved unbonded loosefill insulation material is shorter than an average major tuft dimension of tufts of conventional unbonded loosefill insulation material, thereby providing the improved unbonded loosefill insulation material with a higher insulative value than conventional unbonded loosefill insulation material. | 04-14-2011 |
20110174906 | 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. The machine further includes a discharge mechanism for distributing the insulation into an airstream. The plurality of shredders and the discharge mechanism are positioned beneath the outlet end of the chute, such that the insulation feeds in a substantially vertical direction into the plurality of shredders. | 07-21-2011 |
20110214278 | METHOD OF ASSEMBLING A BLOWN INSULATION MACHINE - Methods of assembling machines for distributing loosefill insulation from packages of compressed loosefill insulation are provided. The methods include the steps of providing a chute having an inlet end, the inlet end configured to receive the package of compressed loosefill insulation, providing a lower unit including a shroud, the lower unit being configured to be attached to the chute to form the machine, the lower unit having an outlet for the discharge of loosefill insulation, installing a plurality of shredders in the lower unit, the shredders being configured to shred and pick apart the loosefill insulation, installing a discharge mechanism in the lower unit, the discharge mechanism being configured to discharge loosefill insulation from the outlet of the lower unit, providing a bottom wall structure, the bottom wall structure having a first bottom wall spaced apart from a second bottom wall and connecting the bottom wall structure to the shroud. | 09-08-2011 |
20110226814 | LOOSEFILL BLOWING MACHINE HAVING OFFSET GUIDE SHELLS AND VERTICAL FEED - A machine for distributing loosefill insulation is provided. The machine includes a chute having an inlet end configured to receive the loosefill insulation. A lower unit is associated with the chute and includes a shredder configured to shred the loosefill insulation and an agitator configured to finely condition the loosefill insulation. The lower unit includes a shredder guide shell positioned partially around the shredder and an agitator guide shell positioned partially around the agitator. A discharge mechanism is positioned in the lower unit. The discharge mechanism has a top inlet positioned below the agitator such that loosefill insulation exiting the agitator is allowed to fall in a substantially vertical direction from the agitator into the top inlet of the discharge mechanism. The position of the shredder guide shell at a passageway is offset in a vertical direction from the position of the agitator guide shell at the passageway. | 09-22-2011 |
20110226881 | 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 configured to receive the bag of compressed blowing wool. A shredding chamber is associated with the chute and configured to shred and pick apart the blowing wool. The shredding chamber includes a plurality of shredders. Each shredder has a plurality of paddle assemblies mounted for rotation on a shredder shaft in a manner such that paddle assemblies on one shredder shaft correspond to paddle assemblies on an adjacent shredder shaft. Each of the plurality of paddle assemblies on one shredder shaft has a major axis and each of the corresponding paddles assemblies on the adjacent shredder shaft has a major axis. The plurality of paddle assemblies is arranged such that the major axes of the corresponding paddle assemblies have an indexed arrangement. | 09-22-2011 |
20120032012 | 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 configured to receive the bag of compressed blowing wool. A shredding chamber is positioned downstream from the chute and configured to shred and pick apart the blowing wool. The shredding chamber includes a plurality of shredders configured for rotation. Each shredder includes a plurality of paddle assemblies mounted to a shredder shaft. Each paddle assembly has a plurality of paddles. The paddles have a hardness within the range of 60 A to 70 A Durometer to better grip the blowing wool for shredding and prevent jamming of the blowing wool within the shredder. | 02-09-2012 |
20120074248 | VARIABLE BLOWING CONTROL SYSTEM FOR LOOSEFILL BLOWING MACHINE - A machine for distributing loosefill insulation from sources of compressed loosefill insulation is provided. The machine includes a shredding chamber having an outlet end and a plurality of shredders configured to condition the loosefill insulation. The plurality of shredders is configured to operate at variable rotational speeds. A discharge mechanism is mounted at the outlet end of the shredding chamber. The discharge mechanism is configured for distributing the conditioned loosefill insulation into an airstream provided by a blower. The blower is configured to operate at variable rotational speeds. The plurality of shredders, the discharge mechanism and the blower are configured to operate on a single 15 ampere, 110 volt a.c. power supply. The variable rotational speeds of the plurality of shredders are configured to provide variable flow rates of the loosefill insulation and the variable rotational speeds of the blower are configured to provide variable flow rates of the airstream. | 03-29-2012 |
20120074249 | ROTARY FORMING APPARATUS - A rotary forming apparatus is provided. The rotary forming apparatus includes a separator configured to receive a gas flow having entrained fibrous material and further configured to separate the fibrous material from the gas flow. The fibrous material forms mini-blankets having a length along a longitudinal axis. A milling apparatus is positioned adjacent the separator and configured to receive mini-blankets exiting the separator. The milling apparatus is further configured to grind the mini-blankets into fibers having desired lengths. The milling apparatus is configured to grind the mini-blankets along the lengths of the mini-blankets. | 03-29-2012 |
20120277086 | USE OF BORON TO REDUCE THE THERMAL CONDUCTIVITY OF UNBONDED LOOSEFILL INSULATION - An unbonded loosefill insulation material formed from a glass batch is provided. The glass batch comprises, in weight percent: 62.0-69.0% of SiO | 11-01-2012 |
20130240650 | UNBONDED LOOSEFILL INSULATION SYSTEM - A combination including unbonded loosefill insulation material compressed in a package and a blowing insulation machine is provided. The unbonded loosefill insulation material has insulative characteristics. The blowing insulation machine is configured to receive the compressed unbonded loosefill insulation material from the package. The blowing insulation machine has a plurality of shredders configured to condition unbonded loosefill insulation material to a desired density. The blowing insulation machine is further configured to distribute the conditioned unbonded loosefill insulation material into an airstream. The blowing insulation machine has pre-set, fixed operating parameters tuned to the unbonded loosefill insulation material. The blowing insulation machine, having the tuned pre-set, fixed operating parameters, combines with the insulative characteristics of the unbonded loosefill insulation materials to provide blown loosefill insulation material having the insulation manufacturer's prescribed insulative values at specific layer thicknesses. | 09-19-2013 |
20130327975 | USE OF BORON TO REDUCE THE THERMAL CONDUCTIVITY OF UNBONDED LOOSEFILL INSULATION - A method for manufacturing unbonded loosefill insulation material configured for distribution in a blowing insulation machine is provided. The method includes the steps of establishing apparatus configured for making fibrous materials, the apparatus including structures configured to provide molten materials to fiberizing apparatus and collection apparatus configured to collect the formed fibrous materials, determining whether the formed fibrous material will be further processed as loosefill insulation material or other fibrous products, and formulating a composition of the molten material in response to the determination of whether the formed fibrous material will be further processed as loosefill insulation material or other fibrous products. | 12-12-2013 |
20140339457 | USE OF BORON TO REDUCE THE THERMAL CONDUCTIVITY OF UNBONDED LOOSEFILL INSULATION - A method for manufacturing unbonded loosefill insulation material configured for distribution in a blowing insulation machine is provided. The method includes the steps of establishing apparatus configured for making fibrous materials, the apparatus including structures configured to provide molten materials to fiberizing apparatus and collection apparatus configured to collect the formed fibrous materials, determining whether the formed fibrous material will be further processed as loosefill insulation material or other fibrous products, and formulating a composition of the molten material in response to the determination of whether the formed fibrous material will be further processed as loosefill insulation material or other fibrous products. | 11-20-2014 |