| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 241 | Cylinder-vat for paper-making machinery | US464537D | US464537A | 1891-12-08 | ||
| 242 | Sheet manufacturing apparatus | US14984144 | 2015-12-30 | US10137614B2 | 2018-11-27 | Shigeo Fujita; Nobuhito Takahashi |
| A sheet manufacturing apparatus configured to manufacture a sheet by heating and pressurizing a material containing a fiber and an additive agent includes a supplying unit configured to supply the additive agent in air, a first tank configured to communicate with the supplying unit and store the additive agent, and a second tank configured to communicate with the first tank, store the additive agent, and be able to detach from the sheet manufacturing apparatus. | ||||||
| 243 | PROCESSING DEVICE, SHEET MANUFACTURING APPARATUS, PROCESSING METHOD, AND SHEET MANUFACTURING METHOD | US15954810 | 2018-04-17 | US20180305868A1 | 2018-10-25 | Masanao KUNUGI; Satomi YOSHIOKA |
| A processing device, a sheet manufacturing apparatus, a processing method, and a sheet manufacturing method enable quickly removing color material when color material is contained in a material containing fiber. A processing device has a defibrator configured to defibrate, in air, fibrous material containing fiber; and a particle supply device configured to supply particles of dry ice to the material containing fiber during defibration or after defibration. The material containing fiber contains color material; and the particles work to separate the color material for the fibers by colliding with the color material contained in the material containing fiber. | ||||||
| 244 | Sheet manufacturing apparatus | US14959334 | 2015-12-04 | US09982391B2 | 2018-05-29 | Shigeo Fujita |
| A sheet manufacturing apparatus includes a defibrating unit, a forming unit, and an operation unit. The defibrating unit defibrates a raw material that contains fiber in air. The forming unit forms a sheet by using at least a part of a defibrated material after defibration by the defibrating unit. The operation unit is for operation of the sheet manufacturing apparatus. When the side where the operation unit is located is defined as the front side, the defibrating unit is located at the rear side, and the forming unit is located at the front side. | ||||||
| 245 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US15822442 | 2017-11-27 | US20180072002A1 | 2018-03-15 | Yoshihiro UENO |
| A composite to be mixed with fibers for forming a sheet by heat includes a resin particle for bonding the fibers, and inorganic fine particles that coat at least a portion of a surface of the resin particle. | ||||||
| 246 | CONSTRUCTION BOARD | US15557751 | 2016-03-11 | US20180066401A1 | 2018-03-08 | Doug BILBIJA |
| The present application provides wood fiberboard comprising wood fibers bound together with a binder polymer resin that imparts additional strength and moisture resistance. As well, the fiberboard incorporates a thermal fire suppressing inorganic expandable flake graphite and sodium silicate component to render the fiberboard to be non-combustible and fire resistant. As well, a manufacturing process for adding the inorganic graphite and polymer resin binder into the fiberboard and applying the silicate onto the fiberboard is provided. | ||||||
| 247 | SHEET MANUFACTURING APPARATUS | US15686287 | 2017-08-25 | US20180043644A1 | 2018-02-15 | Naotaka HIGUCHI |
| A sheet manufacturing apparatus includes an impeller mill defibrating, in a dry process, a raw material containing a fiber, a mixer mixing a defibrated material and a resin, using an air stream to produce a mixture of the defibrated material and the resin, a sieve having an opening through which the mixture passes, a belt, a heater, and a nozzle. The mixture is accumulated on an upper side of the belt to form a web. The heater heats the web to form a sheet so that the fiber is bonded by the resin. The nozzle is arranged between the belt and the heater and applies a liquid to a partial portion of the web so that bonding between the fiber and the resin in a first portion of the sheet is weaker than bonding between the fiber and the resin in a second portion of the sheet. | ||||||
| 248 | Sheet manufacturing apparatus and sheet manufacturing method | US14988951 | 2016-01-06 | US09840023B2 | 2017-12-12 | Masahide Nakamura |
| A sheet manufacturing apparatus of the present invention includes a defibrating unit that defibrates a material containing fibers into a defibrated material, and a deposition unit that deposits a defibrated material defibrated by the defibrating unit. The deposition unit includes a material supply port through which the defibrated material from the defibrating unit is supplied, a plurality of opening ports through which the supplied defibrated material passes, and a dwell area disposed between the material supply port and the opening ports so that the defibrated material temporarily dwells in the dwell area. The dwell area allows the defibrated material to temporarily dwell in the dwell area so that a variation amount of the defibrated material that passes through the opening ports becomes smaller than a variation amount of the defibrated material supplied through the material supply port. | ||||||
| 249 | SHEET MANUFACTURING APPARATUS, AND SHEET MANUFACTURING METHOD | US15523660 | 2015-10-28 | US20170312996A1 | 2017-11-02 | Yoshiaki MURAYAMA; Kazuhiro ICHIKAWA; Nobumasa ABE |
| A sheet manufacturing apparatus including a defibrating unit able to defibrate, in air, feedstock containing fiber; and a forming unit forming sheets, using at least part of defibrated material defibrated by the defibrating unit, by heating and pressurizing, and cutting; conveyance direction of the sheet in the forming unit being the short-side direction of the sheet. | ||||||
| 250 | Production Line for Producing Fiber Webs and a Cooler | US15484025 | 2017-04-10 | US20170292221A1 | 2017-10-12 | Tapio Pitkäniemi; Mika Viljanmaa; Jari Ilomäki |
| A cooler (144) providing gas blows and comprising at least one cooler module having at least one cooler module (41, 42, 43, 44) of the cooler (144) is curved to provide a gas turn module for turning run of the fiber web (W) from its main running direction 80-190°. The cooler (144) includes moisturizing at least one surface of the fiber web. Having a blowing zone (45, 46, 53) in which gas is blown toward a surface of the fiber web and that the cooler comprises at least one suction zone (51), in which the fiber web evaporated moisture is drawn away from the proximity of a surface of the fiber web. There are cooler modules on both sides of the fiber web. The cooler has a gas turn module located inside a curved fiber web run, which provides gas blows toward the curved fiber web during the run. | ||||||
| 251 | Sheet manufacturing apparatus and sheet manufacturing method | US15071356 | 2016-03-16 | US09771685B2 | 2017-09-26 | Naoko Omagari; Naotaka Higuchi; Masahide Nakamura; Minoru Otagiri |
| A sheet manufacturing apparatus includes a defibrating unit configures to defibrate a raw material containing fiber into a defibrated material; a screening unit configured to screen the defibrated material that is defibrated by the defibrating unit; a web forming unit configured to form a web on which the defibrated material screened by the screening unit is deposited; a rotary body that includes a protrusion unit for forming a subdivided body by dividing the web formed by the web forming unit; a deposition unit configures to deposit the defibrated material configuring the subdivided body; and a forming unit configured to form the sheet by pressurizing and heating the defibrated material deposited by the deposition unit. | ||||||
| 252 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US15327050 | 2015-08-31 | US20170260691A1 | 2017-09-14 | Yoshiaki MURAYAMA; Nobuhito TAKAHASHI |
| A sheet manufacturing apparatus has a manufacturing unit that makes a sheet; and a plurality of supply units that supply loaded feedstock to the manufacturing unit; and the feedstocks supplied from the plural supply units are conveyed overlapping each other. | ||||||
| 253 | Sheet manufacturing apparatus and sheet manufacturing method | US15069521 | 2016-03-14 | US09662810B2 | 2017-05-30 | Katsuhito Gomi; Masahide Nakamura; Yuki Yamamoto |
| A sheet manufacturing method includes defibrating a defibration object in the atmosphere, mixing, in the atmosphere, additive agents including resin into a defibrated material that has been defibrated, adjusting moisture of a mixture of the defibrated material and the additive agents, and heating the mixture that has been moisture-adjusted. | ||||||
| 254 | SHEET MANUFACTURING APPARATUS, SHEET MANUFACTURING METHOD, AND SHEET | US15073953 | 2016-03-18 | US20160288435A1 | 2016-10-06 | Naotaka HIGUCHI |
| A sheet manufacturing apparatus includes a defibrating unit configured to defibrate in an atmosphere a raw material that contains a fiber, a mixing unit configured to mix in the atmosphere a defibrated material that the defibrating unit has defibrated and a resin, an accumulating unit configured to accumulate a mixture of the defibrated material and the resin that the mixing unit has mixed, a liquid application unit configured to apply a liquid to a portion of an accumulation of the mixture that the accumulating unit has accumulated, and a heating unit configured to form a sheet by heating the accumulation to which the liquid application unit has applied the liquid. | ||||||
| 255 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US15071356 | 2016-03-16 | US20160273164A1 | 2016-09-22 | Naoko OMAGARI; Naotaka HIGUCHI; Masahide NAKAMURA; Minoru OTAGIRI |
| A sheet manufacturing apparatus includes a defibrating unit configures to defibrate a raw material containing fiber into a defibrated material; a screening unit configured to screen the defibrated material that is defibrated by the defibrating unit; a web forming unit configured to form a web on which the defibrated material screened by the screening unit is deposited; a rotary body that includes a protrusion unit for forming a subdivided body by dividing the web formed by the web forming unit; a deposition unit configures to deposit the defibrated material configuring the subdivided body; and a forming unit configured to form the sheet by pressurizing and heating the defibrated material deposited by the deposition unit. | ||||||
| 256 | SHEET MANUFACTURING APPARATUS | US14984144 | 2015-12-30 | US20160236380A1 | 2016-08-18 | Shigeo FUJITA; Nobuhito TAKAHASHI |
| A sheet manufacturing apparatus configured to manufacture a sheet by heating and pressurizing a material containing a fiber and an additive agent includes a supplying unit configured to supply the additive agent in air, a first tank configured to communicate with the supplying unit and store the additive agent, and a second tank configured to communicate with the first tank, store the additive agent, and be able to detach from the sheet manufacturing apparatus. | ||||||
| 257 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US15023008 | 2014-06-24 | US20160230338A1 | 2016-08-11 | Masahide NAKAMURA; Toshiaki YAMAGAMI |
| A sheet manufacturing apparatus includes a screening unit having first openings for screening a defibrated material that is defibrating-processed; a refining unit that has second openings having sizes equal to or greater than sizes of the first openings and refines the defibrated material passing through the screening unit by causing the defibrated material to pass through the second openings; and a deposition unit on which the defibrated material passing through the refining unit is deposited. | ||||||
| 258 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US14984100 | 2015-12-30 | US20160229129A1 | 2016-08-11 | Yoshihiro UENO |
| A sheet manufacturing apparatus includes a mixing unit that mixes fibers and a composite in the atmosphere, a forming unit that deposits and heats a mixture mixed by the mixing unit to form a sheet; in which the composite is resin particles with at least a portion of a surface coated by inorganic fine particles, and an absolute value of an average charging amount of the composite is 40 μC/g or higher. | ||||||
| 259 | SHEET MANUFACTURING APPARATUS AND SHEET MANUFACTURING METHOD | US14988951 | 2016-01-06 | US20160221213A1 | 2016-08-04 | Masahide NAKAMURA |
| A sheet manufacturing apparatus of the present invention includes a defibrating unit that defibrates a material containing fibers into a defibrated material, and a deposition unit that deposits a defibrated material defibrated by the defibrating unit. The deposition unit includes a material supply port through which the defibrated material from the defibrating unit is supplied, a plurality of opening ports through which the supplied defibrated material passes, and a dwell area disposed between the material supply port and the opening ports so that the defibrated material temporarily dwells in the dwell area. The dwell area allows the defibrated material to temporarily dwell in the dwell area so that a variation amount of the defibrated material that passes through the opening ports becomes smaller than a variation amount of the defibrated material supplied through the material supply port. | ||||||
| 260 | Systems and Methods for Continuous Manufacture of Buckypaper Materials | US14972371 | 2015-12-17 | US20160177511A1 | 2016-06-23 | Gerald Horne; Zhiyong Liang |
| Systems and methods are provided for producing continuous buckypapers. The systems may permit the in-line characterization and crosslinking of the continuous buckypapers. The systems include roll-to-roll systems in which a continuous buckypaper is created and then separated from the filter paper in an automated process. | ||||||
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