Patent application number | Description | Published |
20090091056 | ATTENUATED FIBER SPINNING APPARATUS - A fiber making device, fiber making method, and apparatus which incorporates a series of two or more stacked, thin circular die plates, two end plates and two enclosure plates, where all of the plates cooperate to form a chamber having opposite ends and define a first end and a second end. The first end will receive material to be formed into fibers and the second end will receive a fiberizing fluid, although the second end could be used to supply a second fiber forming fluid to form composite fibers. All of the die plates have a central opening to receive fiber forming material, and at least one of the die plates has an outflow edge peripheral to the plate which will define a spinneret orifice, which is in fluid communication with said central opening, and which will allow the flow of material along a radial path through which fibers can be extruded. At least one of the die plates has an outflow edge peripheral to the plate which will define an opening and allow for the flow of a fiberizing fluid from the opening so that the fiber forming material flowing from the spinneret orifice will form fibers which will be engaged and shaped by the fiberizing fluid. | 04-09-2009 |
20110089603 | Fiber and Nanofiber Spinning Method - The present invention relates to a method for spinning fibers, or fiberizers, using a rotary fiber-making die system made up of thin plates, embodied by a housing fixture, configured and stacked to define slots, channels and/or grooves through which the material used to make the fibers will flow. The die system allows for the production of different size and types of fibers, including nanofibers having a diameter of less than 1 micron, and facilitates a variety of cost effective methods for extrusion. The use of plates means the dies can be manufactured cost effectively, with easier clean-outs, replacements and/or variations. | 04-21-2011 |
20150053359 | APPARATUS AND METHOD FOR FORMING A CONTINUOUS WEB OF FIBERS - A vacuum draw apparatus for preparing a fiber and/or particle web comprising a means for drawing a vacuum on a mass of fibers and/or particles, said vacuum draw means having an opening for applying a vacuum to said mass of fibers and/or particles, an access gate having a patterned opening located between the mass of fibers and/or particles and opening of said vacuum means, and means for moving said access gate, whereby the vacuum draw system will provide an oscillating pull on a mass of fibers and/or particles to work said mass to redistribute and/or further consolidate the fibers and/or particles. | 02-26-2015 |
Patent application number | Description | Published |
20090091056 | ATTENUATED FIBER SPINNING APPARATUS - A fiber making device, fiber making method, and apparatus which incorporates a series of two or more stacked, thin circular die plates, two end plates and two enclosure plates, where all of the plates cooperate to form a chamber having opposite ends and define a first end and a second end. The first end will receive material to be formed into fibers and the second end will receive a fiberizing fluid, although the second end could be used to supply a second fiber forming fluid to form composite fibers. All of the die plates have a central opening to receive fiber forming material, and at least one of the die plates has an outflow edge peripheral to the plate which will define a spinneret orifice, which is in fluid communication with said central opening, and which will allow the flow of material along a radial path through which fibers can be extruded. At least one of the die plates has an outflow edge peripheral to the plate which will define an opening and allow for the flow of a fiberizing fluid from the opening so that the fiber forming material flowing from the spinneret orifice will form fibers which will be engaged and shaped by the fiberizing fluid. | 04-09-2009 |
20110089603 | Fiber and Nanofiber Spinning Method - The present invention relates to a method for spinning fibers, or fiberizers, using a rotary fiber-making die system made up of thin plates, embodied by a housing fixture, configured and stacked to define slots, channels and/or grooves through which the material used to make the fibers will flow. The die system allows for the production of different size and types of fibers, including nanofibers having a diameter of less than 1 micron, and facilitates a variety of cost effective methods for extrusion. The use of plates means the dies can be manufactured cost effectively, with easier clean-outs, replacements and/or variations. | 04-21-2011 |
Patent application number | Description | Published |
20090091056 | ATTENUATED FIBER SPINNING APPARATUS - A fiber making device, fiber making method, and apparatus which incorporates a series of two or more stacked, thin circular die plates, two end plates and two enclosure plates, where all of the plates cooperate to form a chamber having opposite ends and define a first end and a second end. The first end will receive material to be formed into fibers and the second end will receive a fiberizing fluid, although the second end could be used to supply a second fiber forming fluid to form composite fibers. All of the die plates have a central opening to receive fiber forming material, and at least one of the die plates has an outflow edge peripheral to the plate which will define a spinneret orifice, which is in fluid communication with said central opening, and which will allow the flow of material along a radial path through which fibers can be extruded. At least one of the die plates has an outflow edge peripheral to the plate which will define an opening and allow for the flow of a fiberizing fluid from the opening so that the fiber forming material flowing from the spinneret orifice will form fibers which will be engaged and shaped by the fiberizing fluid. | 04-09-2009 |
20110089603 | Fiber and Nanofiber Spinning Method - The present invention relates to a method for spinning fibers, or fiberizers, using a rotary fiber-making die system made up of thin plates, embodied by a housing fixture, configured and stacked to define slots, channels and/or grooves through which the material used to make the fibers will flow. The die system allows for the production of different size and types of fibers, including nanofibers having a diameter of less than 1 micron, and facilitates a variety of cost effective methods for extrusion. The use of plates means the dies can be manufactured cost effectively, with easier clean-outs, replacements and/or variations. | 04-21-2011 |