- D01H1/16: ..机架;壳;罩{除热;用于产生超压空气以防止灰尘渗入的装置;电缆管道}
- D01H1/18: ..喂架
- D01H1/20: ..传动或停车机构(用于自由端纺纱机的入D01H4/12,D01H4/20,D01H4/42;安全机构入D01H13/14)
- D01H1/36: ..卷装成型装置,如成型运动机构{如钢领板横移行程的控制;在预定位置停止钢领板}
- D01H1/38: ..用于卷绕在卷绕包{或锭子}上保留纱段的装置,如转移尾纱
- D01H1/40: ..向纱管及其类似物连续输送材料的连接装置
- D01H1/42: ..纱或线的防护器,如隔纱板,气圈隔离装置(锭子的气圈隔离装置入D01H7/18)
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 61 | 糸製造装置 | JP2015528038 | 2013-07-22 | JPWO2015011771A1 | 2017-03-02 | 史章 矢野; 修一 福原; 弘樹 高嶌 |
| 糸製造装置1は、CNT(カーボンナノチューブ)繊維群Fを凝集させてCNT糸Yを製造する装置であって、CNT繊維群FをCNT形成基板Sから連続的に引き出すフロントローラ部3と、フロントローラ部3によって引き出されたCNT繊維群Fに撚りを施す糸製造部4と、CNT形成基板Sから引き出されたCNT繊維群F、又はCNT糸Yの状態を監視する状態監視部(糸太さ検知センサ6)とを備える。 | ||||||
| 62 | 糸製造装置及び凝集部 | JP2015528036 | 2013-07-22 | JPWO2015011769A1 | 2017-03-02 | 弘樹 高嶌 |
| 糸製造装置1は、CNT(カーボンナノチューブ)繊維群Fを走行させつつ当該CNT繊維群FからCNT糸Yを製造する装置であって、CNT繊維群Fを凝集させる凝集部3と、凝集部3によって凝集させられたCNT繊維群Fに撚りを掛ける撚掛部5と、を備える。凝集部3は、CNT繊維群Fの凝集状態を調整する調整機構10を有する。 | ||||||
| 63 | Ring spinning frame | JP15064582 | 1982-09-01 | JPS5943124A | 1984-03-10 | ANAHARA AKIJI; ITOU TETSUO |
| PURPOSE:The titled spinning frame capable of increasing extremely the number of spindles in a spinning frame with the same length of frame base, obtained by making each spinning unit wherein plural spindles are corresponded to one draft mechanism. CONSTITUTION:Plural sets of the draft mechanisms 4 are arranged in parallel along the length direction of the frame base of a spinning frame, and one set consists of the back rollers 1, the middle aprons 2 and 2, and the front rollers 3 and 3. In the front of the draft mechanism 4, the two spindles 5 and 5a corresponding to it are attached to two lines of the spindle rails 6 and 6a set along the length direction of each frame base, and they are positioned in the front and rear direction against the draft mechanism 4. | ||||||
| 64 | 니트 제품을 생산하기 위한 장치 및 방법 | KR1020177013658 | 2015-11-11 | KR1020170093804A | 2017-08-16 | 바우어볼프강; 보쓰베른트; 트치아도스츠토마스; 프라트악헬; 케제사비네; 마이어크리스틴; 쉬바브마뉴엘; 베네만요제프 |
| 복수개의스티치형성요소(14) 및적어도한 개의스티치형성위치(15,15.1,15.2,15.3)를가지며로빙얀(VG)으로부터슬리버(FB) 또는얀을생산하고상기슬리버또는얀을상기스티치형성요소(14)로공급하는관련스피닝장치(12,12.1,12.2,12.3)를가지는니트제품(50,60,70)의생산을위한기계로서,상기스피닝장치(12,12.1,12.2,12.3)는구동장치 (30,31,30.1,31.1,30.2,31.2,30.3,31.3)를가지고상기스피닝장치 (12,12.1,12.2,12.3)에의해상이한두께를가진슬리버(FB) 및얀이상기로빙얀(VG)으로부터생산되고상기스티치형성요소(14)로공급될수 있도록상기구동장치가작동할수 있다. | ||||||
| 65 | 실 제조장치 및 응집부 | KR1020157033474 | 2013-07-22 | KR101730948B1 | 2017-04-27 | 타카시마히로키 |
| 본발명의실 제조장치(1)는, CNT(탄소나노튜브) 섬유군(F)을주행시키면서상기 CNT 섬유군(F)으로부터 CNT사(Y)를제조하는장치로서, CNT 섬유군(F)을응집시키는응집부(3)와, 응집부(3)에의해응집된 CNT 섬유군(F)에꼬임을형성하는꼬임형성부(5)를구비한다. 응집부(3)는, CNT 섬유군(F)의응집상태를조정하는조정기구(10)를갖는다. | ||||||
| 66 | 실 제조 장치 | KR1020157036074 | 2013-07-22 | KR101742109B1 | 2017-05-31 | 야노후미아키; 후쿠하라슈이치; 타카시마히로키 |
| 실제조장치(1)는 CNT(카본나노튜브) 섬유군(F)을응집시켜 CNT실(Y)을제조하는장치로서, CNT 섬유군(F)을 CNT 형성기판(S)으로부터연속적으로인출하는프론트롤러부(3)와, 프론트롤러부(3)에의해인출된 CNT 섬유군(F)에꼬임을실시하는실 제조부(4)와, CNT 형성기판(S)으로부터인출된 CNT 섬유군(F) 또는 CNT실(Y)의상태를감시하는상태감시부(실굵기검지센서(6))를구비한다. | ||||||
| 67 | 실 제조장치 및 응집부 | KR1020157033474 | 2013-07-22 | KR1020160004337A | 2016-01-12 | 타카시마히로키 |
| 본발명의실 제조장치(1)는, CNT(탄소나노튜브) 섬유군(F)을주행시키면서상기 CNT 섬유군(F)으로부터 CNT사(Y)를제조하는장치로서, CNT 섬유군(F)을응집시키는응집부(3)와, 응집부(3)에의해응집된 CNT 섬유군(F)에꼬임을형성하는꼬임형성부(5)를구비한다. 응집부(3)는, CNT 섬유군(F)의응집상태를조정하는조정기구(10)를갖는다. | ||||||
| 68 | 기모사 제조장치 및 제조방법 | KR1020160048411 | 2016-04-20 | KR101654913B1 | 2016-09-06 | 김원식 |
| 본발명은연사의외면에보풀을형성하여기모사를제조할때 보풀이균일하게잘 형성되도록함으로우수한제품을생산할수 있도록개선된기모사제조장치및 제조방법을개시한다. | ||||||
| 69 | 실 제조 장치 | KR1020157036074 | 2013-07-22 | KR1020160012182A | 2016-02-02 | 야노후미아키; 후쿠하라슈이치; 타카시마히로키 |
| 실제조장치(1)는 CNT(카본나노튜브) 섬유군(F)을응집시켜 CNT실(Y)을제조하는장치로서, CNT 섬유군(F)을 CNT 형성기판(S)으로부터연속적으로인출하는프론트롤러부(3)와, 프론트롤러부(3)에의해인출된 CNT 섬유군(F)에꼬임을실시하는실 제조부(4)와, CNT 형성기판(S)으로부터인출된 CNT 섬유군(F) 또는 CNT실(Y)의상태를감시하는상태감시부(실굵기검지센서(6))를구비한다. | ||||||
| 70 | DOPE FOR SPINNING LYOCELL, METHOD FOR PREPARING LYOCELL FILAMENT FIBER , AND METHOD FOR PREPARING A LYOCELL STAPLE FIBER USING SAME | EP11801135.2 | 2011-06-29 | EP2589689B1 | 2018-02-28 | KIM, Woo-Chul; LEE, Sang-Mok; JEONG, Jong-Cheol; JIN, Sang-Woo |
| This disclose relates to dope for spinning lyocell including cotton linter pulp and an aqueous solution of N-methylmorpholine-N-oxide (NMMO), a method for manufacturing lyocell filament fiber using the dope, lyocell filament fiber manufactured by the method, a method for manufacturing lyocell staple fiber using the dope, and lyocell staple fiber obtained by the manufacturing method. According to the present invention, fiber that exhibits a low orientation degree and fibrillation degree, and a high elongation, and thus may be applied for fiber for high grade clothing, may be provided without conducting additional processes. | ||||||
| 71 | THREAD PRODUCTION DEVICE, AND AGGREGATING PART | EP13889940 | 2013-07-22 | EP3026153A4 | 2017-05-31 | TAKASHIMA HIROKI |
| A yarn producing apparatus 1 is an apparatus for producing CNT Y from CNT fibers F while allowing the CNT (carbon nanotube) fibers F to run. The yarn producing apparatus 1 includes an aggregating unit 3 configured to aggregate the CNT fibers F, and a twisting and winding device configured to twist the CNT fibers F aggregated by the aggregating unit 3. The aggregating unit 3 includes an adjusting mechanism 10 for adjusting the aggregation state of the CNT fibers F. | ||||||
| 72 | Verfahren zum Betreiben einer Offenend-Rotorspinnmaschine | EP14001274.1 | 2014-04-07 | EP2801646B1 | 2017-03-22 | Meyer, Jürgen; Preutenborbeck, Maximilian; Spitzer, Michael; Wassenhoven, Heinz-Georg |
| 73 | Spinning machine | EP12174566.5 | 2012-07-02 | EP2573221A2 | 2013-03-27 | Sakamoto, Naotaka; Oka, Masaki |
A spinning machine (100) includes a drafting section (2) adapted to draft a fiber bundle (F), and a spinning section (3) adapted to twist a fiber bundle (F) drafted by the drafting section (2). The spinning section (3) includes a passage (FP) adapted to guide the fiber bundle (F) and prevent accumulation of the fiber bundle (F) at a gap formed between the drafting section (2) and the spinning section (3).
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| 74 | Spinning unit | EP10186883.4 | 2010-10-07 | EP2309042A2 | 2011-04-13 | Oka, Masaki |
A spinning unit 1 includes a draft device 5, a spinning device 6, a tension stabilizing device 8, a winding device 9, and a yarn defect detecting device 7. The draft device 5 drafts a fiber bundle F. The spinning device 6 produce a spun yarn Y from the fiber bundle F drafted by the draft device 5. The tension stabilizing device 8 stabilizes tension of the spun yarn Y produced by the spinning device 6. The winding device 9 winds a package 91 of the spun yarn Y fed from the tension stabilizing device 8. The yarn defect detecting device 7 can detect a yarn defect in the spun yarn Y. The yarn defect detecting device 7 is arranged between the spinning device 6 and the tension stabilizing device 8.
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| 75 | STEUERUNGSANORDNUNG | EP16190846.2 | 2016-09-27 | EP3153608B1 | 2018-06-27 | Neumann, Richard; Nisic, Goran |
| 76 | YARN MANUFACTURING DEVICE | EP13890158 | 2013-07-22 | EP3026158A4 | 2017-06-14 | YANO FUMIAKI; FUKUHARA SHUICHI; TAKASHIMA HIROKI |
| A yarn producing apparatus 1 is an apparatus for producing carbon nanotube (CNT) yarn Y by aggregating CNT fibers F and includes a front roller 3 configured to continuously draw the CNT fibers F from at least one CNT forming substrate S, a yarn producing unit 4 configured to aggregate the CNT fibers F drawn by the front roller 3, and a status monitor (yarn thickness detecting sensor 6) configured to monitor a state of the CNT fibers F drawn from the CNT forming substrate S, or the CNT yarn Y | ||||||
| 77 | SPINNSTELLE EINER LUFTSPINNMASCHINE | EP13783660.7 | 2013-08-16 | EP2895646B1 | 2017-04-19 | HASKA, Petr; GRIESSHAMMER, Christian |
| 78 | STEUERUNGSANORDNUNG | EP16190846.2 | 2016-09-27 | EP3153608A1 | 2017-04-12 | Neumann, Richard; Nisic, Goran |
Die Erfindung betrifft eine Steuerungsanordnung für eine Textilmaschine mit einer Maschinensteuereinheit , mit einer Mehrzahl von Steuermodulen und mit einer zu der Anzahl der Steuermodule korrespondierenden Anzahl von Antriebssträngen, wobei die Steuermodule ausgebildet sind zum Ansteuern von je einem eine Mehrzahl von Antrieben aufweisenden Antriebsstrang, wobei jeder Antrieb des Antriebsstrangs einen Elektromotor und einen Frequenzumrichter vorsieht, wobei jeder Antrieb über eine elektrische Versorgungsleitung mit dem ihm zugeordneten Steuermodul verbunden ist, wobei die Maschinensteuereinheit über eine erste Datenbusleitung mit wenigstens einem Steuermodul datentechnisch verbunden ist und wobei jeder Antrieb mit wenigstens einem Steuermodul datentechnisch verbunden ist und wobei zusätzlich zu der ersten Datenbusleitung eine zweite Datenbusleitung vorgesehen ist, über die alle Antriebe datentechnisch miteinander verbunden sind.
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| 79 | Spinning unit and spinning machine | EP12172780.4 | 2012-06-20 | EP2573220A3 | 2016-10-12 | Sakamoto, Naotaka; Toyoda, Takahiro |
A spinning unit includes a drafting section (2) adapted to draft a fiber bundle (F), a spinning section (3) adapted to twist the fiber bundle (F) drafted by the drafting section (2), a pneumatic actuator (38) adapted to move the spinning section (3) in a direction away from the drafting section (2), and an elastic member (39) adapted to move the spinning section (3) in a direction towards the drafting section (2).
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| 80 | SPINNSTELLE EINER LUFTSPINNMASCHINE | EP13783660.7 | 2013-08-16 | EP2895646A1 | 2015-07-22 | HASKA, Petr; GRIESSHAMMER, Christian |
| The invention relates to a spinning station (22) of an air jet spinning machine, which is used to produce a yarn (1) from a fiber sliver (2) comprising fibers, wherein the spinning station (22) has a vortex chamber (3) having an inlet opening (4) for the fiber sliver (2), which enters the vortex chamber (3) in a conveying direction during operation of the air jet spinning machine, and the spinning station has a yarn-forming element (5) that extends at least partially into the vortex chamber (3), wherein the spinning station (22) has air nozzles (6) directed into the vortex chamber (3), which air nozzles open into the vortex chamber (3) in the area of a wall (21) surrounding the vortex chamber (3) and by means of which air nozzles air can be introduced into the vortex chamber (3) in a specified direction of rotation in order to give a rotation in said direction of rotation to the fiber sliver (2) in the area of an inlet opening (7) of the yarn-forming element (5), wherein the yarn-forming element (5) has an extraction channel (8), through which the yarn (1) can be extracted from the vortex chamber (3), wherein a guiding assembly (9) for guiding the fiber sliver (2) is arranged in the area of the inlet opening (4) of the vortex chamber (3), and wherein the guiding assembly (9) comprises at least two guiding sections (10) arranged at a distance from each other, the mutual distance of which decreases in said conveying direction at least in some segments. According to the invention, the guiding assembly (9) also has at least one center guiding element (11), which extends at least partially between the guiding sections (10) in a cross-section extending perpendicularly to the longitudinal axis (12) of the extraction channel (8) and causes a deflection of the fibers of the fiber sliver (2) perpendicular to a longitudinal axis (12) of the extraction channel (8). | ||||||
