专利检索_制作人造长丝或类似物的一般方法专利检索_制作人造长丝或类似物的一般方法专利检索查询

子分类：

D01F1/02：.纺丝溶液或溶融液的添加物（黏胶液的添加物入D01F2/08）

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	Production method of ultra-fine fibers	JP2006248272	2006-09-13	JP4876252B2	2012-02-15	豊大越; 利博平井; 睦木村; 緑高崎

242	Method of manufacturing a synthetic fiber manufacturing for stretching member and a method of manufacturing the same, as well as synthetic fibers	JP2005011304	2005-01-19	JP4718842B2	2011-07-06	三雄加藤; 圭吾吉本; 崇藤井; 信夫鈴木; 達雄鈴木

243	Method for producing thermoplastic synthetic fiber	JP2007253505	2007-09-28	JP2009084720A	2009-04-23	SATO MASAKI; IDA TAKASHI
PROBLEM TO BE SOLVED: To provide a method for producing a thermoplastic synthetic fiber having improved productivity by preventing spinning yarn breakage caused by accumulation of deposit on the surface of a godet roller. SOLUTION: A thermoplastic synthetic fiber is produced by oiling a melt-spun yarn, entangling the yarn, drawing the yarn through a godet roller, and heat-treating and winding the product. In the process, a yarn restriction guide placed immediately before or after the drawing zone is reciprocated in a direction of the rotary axis of the godet roller, the reciprocating motion satisfies the formula Y≤XP, when Y is the reciprocation width of the yarn, and XP is the distance (mm) between the yarns, and the yarn contacting time at the distance of 1/10 from the turning point in one traverse reciprocation motion of the yarn is 20% or less. COPYRIGHT: (C)2009,JPO&INPIT
244	Bioactive fiber products	JP2002579549	2002-03-06	JP4008822B2	2007-11-14	セイベル，ステファン; ダーリンガー，ヨルグ; ブレッヒ，ベルンド，アー．; ラスト，ハートムット

245		JP19885996	1996-07-29	JP3256140B2	2002-02-12

246		JP35615491	1991-12-24	JP3183696B2	2001-07-09

247	ORAL HYGIENE MATERIAL	JP18065599	1999-06-25	JP2001000458A	2001-01-09	OTAGURO TAKAHIRO; KASHIWADA TOSHINOBU
PROBLEM TO BE SOLVED: To provide an oral hygiene material which contains fiber with ion exchanging ability to protect dental plaque being deposited on the teeth and to maintain a correct pH balance in the mouth. SOLUTION: This oral hygiene material contains at least fiber with ion exchanging ability and pH balancing ability. The oral hygiene material is of a sheet or forming body. The oral hygiene material has ability to absorb/remove protein which becomes a binder of dental plaque in the mouth. When a person consumes sugar, carbohydrate, protein, and increased organic acid decreases pH to 5 to 3, the pH balancing ability recovers pH 6 to 7 to prevent deashing and dental decay.
248	DIVIDING AND ATTENUATING OF FIBER AND PRODUCTION OF FIBER MIXTURE	JP8092197	1997-03-31	JPH10273816A	1998-10-13	SAITO TADASHI; HIKASA JUNICHI; OMORI AKIO
PROBLEM TO BE SOLVED: To efficiently divide and attenuate fibers by charging the fibers and other compositions into a barrel and rotating a screw having protrusions. SOLUTION: Fibers and other compositions are charged into a barrel and a screw having many rodlike protrusions on the surface thereof is rotated to thereby apply a shearing force to divide and attenuate the fibers. Island-in-sea fibers comprising (A) a polyvinyl alcohol-based polymer and (B) a water- insoluble polymer, in which either of the components A and B is an island component and the other is a sea component, are preferred as the fibers. The polyvinyl alcohol-based polymer having >=80 mol% sponification degree is preferred as the component A and a cellulosic polymer or a polyacrylonitrile-based polymer is cited as the component B. Cellulose acetate and cellulose itself are cited as the preferred cellulosic polymer.
249	METHOD FOR TREATING FOAMABLE RESIN AND ITS APPARATUS	JP2923697	1997-02-13	JPH10225929A	1998-08-25	KUSANAGI HIROAKI; HIROSE TAKASHI; SERIZAWA MITSUAKI; KATSUMATA YOSHITAKE
PROBLEM TO BE SOLVED: To reuse a foamable resin and to facilitate maintenance of an apparatus by performing melt spinning of larger amt. of the foamable resin without generating harmful gas and stably. SOLUTION: A fed foamable resin P to be treated is broken up into small pieces by means of a crusher 5 and the foamable resin P broken up into small pieces is made into furthermore small pieces by means of a frictional vol. decreasing device 7 as a frictional vol. decreasing means and the vol. is decreased by frictional heat and then, as it is fed into a melt spinning apparatus 11 as a melt spinning means by metering it at a definite amt. by means of a quantitative feeding device 9 as a quantitative feeding means, a furthermore large amt. of the foamable resin P can be stably spun and can be provided for reuse.
250	PRODUCTION OF METALLIC POWDER-CONTAINING FIBER AND METALLIC FIBER	JP19885996	1996-07-29	JPH1046425A	1998-02-17	AWANO JUNJIRO; HASHIMOTO AKIRA; OHATA TSUMORU; TAKAI YORIKO
PROBLEM TO BE SOLVED: To mass-produce the subject fine fiber of specified length suitable as e.g. a constitutive material for cell electrode core materials by mixing metallic powder and a binder with a solvent followed by agitation and then by printing the resultant coating material in fibrous form which is then dried and peeled off. SOLUTION: First, metallic powder 14 and a binder 13 are mixed with a solvent 12 such as isophorone followed by agitation to prepare a metallic powder coating material 18. Secondly, the coating material is printed in fibrous form on a basal body 1 bearing an adhesive thin film 2a by use of a gravure press 19. Thirdly, the printed coating material is dried by a heater 9 and then cooled by a cooling air 10, and the resultant basal body with metallic power-contg. fibers formed thereon are wound around a core shaft 3. Finally, the basal body is passed through a water tank equipped with an ultrasonic generator to effect dissolution of the adhesive thin film 2a in water and peel the objective metallic powder-contg. fibers off the basal body.
251	METHOD AND APPARATUS FOR REGENERATING AND GRANULATING FIBER CHIPS	JP26138795	1995-10-09	JPH0999433A	1997-04-15	YAMAGUCHI YOICHI; NISHITSU MINORU
PROBLEM TO BE SOLVED: To provide a method and an apparatus for satisfactorily granulating and regenerating long fiber chips adhered with a lubricant for a long period without lowering the quality of a pellet regenerated and granulated in the case of granulating and regenerating the chips to the pellet. SOLUTION: This method for regenerating and granulating thermoplastic synthetic fiber chips F to a pellet has the steps of so previously cutting the chips F by a cutter 1 that the fiber length becomes 5 to 20mm, and then continuously supplying it to a granulating unit 14, and comprises the steps of washing the chips so cut that the fiber length becomes 5 to 20mm by a washing unit 3 to reduce the adhering amount of a lubricant to 0.2wt.% or less, dehydrating the washed chips, drying by a dryer 7 until the water content of the chips becomes 5% or less, and finally introducing it to the granulating unit 14.
252		JP32294388	1988-12-21	JPH06104926B2	1994-12-21

253		JP140279	1979-01-12	JPS6248691B2	1987-10-15	TEODOORU PAPENFUUSU; UORUFUGANGU TAIGE

254	JPS5957572U -	JP15090282	1982-10-06	JPS5957572U	1984-04-14

255	JPS5857527B2 -	JP1849474	1974-02-18	JPS5857527B2	1983-12-20	HANADA TSUNEO; ENDO CHUICHI; TAKEUCHI MASANORI; NAKAMURA ITARU; NAKAGAWA KYOSHI

256		JP17012377	1977-12-17	JPS54106315U	1979-07-26

257		JP17012177	1977-12-17	JPS54106314U	1979-07-26

258	CONTINUOUS PRODUCTION OF FILM OR FIBER	JP5738277	1977-05-17	JPS53143738A	1978-12-14	SATAKU SHIYOUGO; TAKAHASHI JIYUUZOU; SATOU SHIGEHIKO
PURPOSE:A thermally coagulating polysaccharide containing mainly beta-1,3-glycoside linkages is formed into films or fibers under specific conditions, thus producing continuously thin films or fine fibers with good physical properties, such as strength.
259	POLYMER FIBERRCONTAINED MATERIAL AND METHOD OF PRODUCING SAME	JP5779477	1977-05-20	JPS53143723A	1978-12-14	REON BIII KERAA; ROBAATO KEI JIENKINSU

260	A PROCESS AND AN APPARATUS FOR MANUFACTURING SUPERFINE FIBROUS MATERIA LS	JP4451075	1975-04-11	JPS51119826A	1976-10-20	TAKEMURA TOORU; FUJINAGA YOSHIKAZU; IWASE TOSHIHIRO
PURPOSE:To manufacture superfine fiber with a fineness of parallel 0.5 denier by the wet spinning method.

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