1 |
圆织机推轮及止推轮的传动结构 |
CN201610051929.6 |
2016-01-26 |
CN105544062A |
2016-05-04 |
朱根山 |
本发明创造涉及圆织机推轮及止推轮的传动结构,包括主轴承座、轴承和主齿轮,主齿轮通过轴承与主轴承座连接,主齿轮的两侧分别设有从动直齿轮,从动直齿轮通过传动竖轴及伞齿轮组分别与传动横轴连接;传动横轴设有止推轮和推轮,主齿轮或从动直齿轮由非金属材料制成。相对于现有技术,本发明具有以下特点:1、改进了传统水带圆织机的传动方式,结构更加紧凑、设计简化合理;2、主齿轮和从动齿轮中至少有一个是非金属齿轮,无需加油,减少噪音,取消油封;3、将两只伞齿轮安装在轴座内,减少了加油量,密封更加容易;4、座体、止推轮、推轮、传动轴、伞齿轮组安装成为组件,有利于维修圆织机。 |
2 |
一种无梭织机的四色组合警示装置 |
CN201410681362.1 |
2014-11-25 |
CN104452051A |
2015-03-25 |
王立农; 钱惠东; 陈湘群 |
本发明公开了一种无梭织机的四色组合警示装置,包括由红、绿、黄、蓝四色灯组合在一起的四色组合灯,所述四色组合灯通过一旋转支架水平或垂直安装在织机的立柱上,所述四色组合灯内的黄色灯或蓝色灯中的任一色灯串接在经纱和卡带侦测回路内,黄色灯或蓝色灯中余下的一色灯串接在纬纱和锁边侦测回路内。采用本发明技术方案,四色组合灯可直观显示机器目前状态,技师和操作工可直接判断机器停机原因,节约处理时间,提升产能,并且其结构简单,体积小,重量轻,安装维修方便,价格低廉。 |
3 |
JPS5043267A - |
JP7377774 |
1974-06-27 |
JPS5043267A |
1975-04-18 |
|
|
4 |
Jikokaikonyokoitokyaryaanosogunyoru hajoshotsukiteishisochi |
JP12154374 |
1974-10-23 |
JPS5149966A |
1976-04-30 |
ANATORII ANDORIIUITSUCHI BURAN; AREKUSANDORU RUOITSUCHI GARUBE; AREKUSANDORU AREKUSANDOROITSUC; EBUGENII DOMITORIEUITSUCHI ROS; BORISU AREKUSANDOROITSUCHI SAK |
|
5 |
Shotsukiniokeru futatsunodokuritsushitakudoyunitsutokannokikaitsugite |
JP6711775 |
1975-06-05 |
JPS517257A |
1976-01-21 |
PURABOMIRU DOSUTARU; RADEISURAFU MATOSEKU |
|
6 |
워터 제트 직기의 성타(Beating)각 확대를 위한 록킹샤프트용 크랭크기구 |
KR1020070040603 |
2007-04-26 |
KR1020080095938A |
2008-10-30 |
강연국 |
A crank tool for a locking shaft is manufactured to increase an injection rate of an ultra high-pressure water by increasing a delayed phase angle by increasing an eccentricity amount of a crank pin for the locking shaft drive of a conventional water jet tool, to maintain an interlace, and to lengthen an injection period of the ultra high-pressure water. A crank tool for a locking shaft installs minor axises(15a,15b) set up in both sides of a main gear(14) installed at a principal axis(11) on a side frame(10) of a water jet loom and crank gears(12a,12b) in each minor axises. The crank pin(16) is installed at one point of the most distant place in a rotation radius of the crank gears. A wide width geotextile having of a maximal width of 4.8m is manufactured by increasing an eccentricity amount of a crank pin and a delayed phase angle. |
7 |
워터 제트직기의 바디침 작동기구 |
KR1020090114428 |
2009-11-25 |
KR101000400B1 |
2010-12-13 |
김효연 |
PURPOSE: A reed needle operation system of a water jet loom is provided to implement high seed rotation through a cam by including a cam box. CONSTITUTION: A reed needle operation system of a water jet loom comprises: an elevating rod(10) having one end connected to a link(12) and the other end connected to a hinge hole; a rod connected to the hinge hole of the elevating rod; a fixing unit combined with the center of the elevating rod; a cam box(20) guiding ascending and descending motion; a shaft on the side of the cam box; and a driving motor(30) transferring a driving force through a timing belt(32). |
8 |
직기에 있어서의 워프 빔의 진동억지 방법과 그 장치 |
KR1020060010063 |
2006-02-02 |
KR1020060096889A |
2006-09-13 |
묘기게이이치 |
워프 빔의 진동에 기인하는 직단의 발생을 억지하는 것을 과제로 한다.
워프 빔의 진동특성에 영향을 주는 고정 파라미터(Pa), 변동 파라미터(Pb)의 적어도 1개에 기초하여, 워프 빔에 제동력을 부여하는 제동수단(20)의 제동력을 조절하는 것을 해결수단으로 한다. |
9 |
The reversible apparatus of loom and the manufacturing method of fabrics thereof |
KR20090026834 |
2009-03-30 |
KR20100108698A |
2010-10-08 |
KIM JONG GI; JUNG TAE WOONG |
PURPOSE: A manufacturing method of a fabric using a reverse gear is provided to produce a fabric which is applicable to various blind structures by repetitively forming a projected slat part for a plane-shaped cotton part. CONSTITUTION: A reverse gear of the weaving machine includes a power transferring part which is selected among a pulley, a gear, and a sprocket. The reverse gear includes a power transmission part(50) installed in a shaft(20), a normal and reverse rotating motor(11) connected to the shaft, and an electronic clutch(40) transferring/disconnecting the driving power of the motor. The counter-rotating process of the weaving machine is applied through the motor. A supporting portion(30) is included in the reverse rotation device. The fabric is manufactured by repeating the reverse rotation and normal rotation processes. |
10 |
래피어 직기용 클러치 기구 |
KR1020080125691 |
2008-12-11 |
KR1020100067222A |
2010-06-21 |
신상대 |
PURPOSE: A clutch device for a rapier loom is provided to prevent quality degradation of a textile product while increasing reliability and durability of operation by blocking slip or miss of the loom in a control process of power. CONSTITUTION: A clutch device for a rapier loom controls power to help perform intermittent counter-rotating forward rotation stop of an operation shaft. The clutch is installed on an operation shaft. The clutch device includes the following: a pulley(20) with a running surface and a protrusion; a pressure sleeve(30) with the running surface adjacent to the pulley and the protrusion; and an operating hinge(40) controlling power by guiding forward and backward of the pressure sleeve. |
11 |
세폭 직기에 사용되는 종광 바의 자동 구동장치 |
KR1020080073313 |
2008-07-28 |
KR1020100012116A |
2010-02-08 |
나정흠; 김성규; 나동혁 |
PURPOSE: An automatic driving system of a heald bar used in a narrow width loom is provided to simply and safely supply a weft thread, and to weave fabric having various width with the heald bar, a control box and a gear box. CONSTITUTION: An automatic driving system of a heald bar used in a narrow width loom includes a linear heald bar(24). The heald bar is fixed on a plurality of connection bars(22) and a link(23) operated by rotation of a bevel gear formed inside a gear box(20). The heald bar operates an elevating device(25) fixing a heald up and down. The connection bar weaves organization of fabric by changing a shape with the gear box and a control box. |
12 |
Apparatus for stopping a travelling wave loom upon its weft thread carriers having encountered an obstacle in the shed |
US51700974 |
1974-10-22 |
US3923083A |
1975-12-02 |
BULANTSEV ANATOLY ANDREEVICH; GALPERIN ALEXANDR LVOVICH; ZABOTIN ALEXANDR ALEXANDROVICH; LOSCHILIN EVGENY DMITRIEVICH; SAKHAROV BORIS ALEXANDROVICH |
An apparatus for stopping a travelling-wave loom when its weft thread carriers encounter an obstacle in the shed, includes a drive and a control circuit of the drive, a weft thread carrier guideway, and a lining made of a conductive pile material. The guideway arranged in the shed is connected to one of the poles of the control circuit power supply, the opposite pole of the power supply being connected to the lining made of the conductive pile material. This lining being located outside the shed, the piles thereof pass between the warp threads and are permanently electrically connected to the electric contacts of the carriers. The electric contacts are pivotally mounted within the carrier and, as the latter engages an obstacle in the shed, they protrude therefrom to come in contact with the guideway to thus close the electric control circuit and bring the loom to a stop.
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13 |
Safety lock for looms |
US47576274 |
1974-06-03 |
US3880196A |
1975-04-29 |
BUDZYNA JOSEPH M |
A safety lock for the shipper lever of a loom which is operatively connected to and actuated by pivotal movement of the loom''s shuttle guard from its active to inactive position to prevent starting the loom when the shuttle guard is not in its active or shuttle confining position relative to the loom''s lay beam.
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14 |
Magnetic loom-braking device |
US3636375D |
1970-01-29 |
US3636375A |
1972-01-18 |
ARMSTRONG STANLEY E |
An electrical system for selectively energizing and deenergizing a magnetic brake associated with a loom from both a local station and a remote station regardless of the station at which the previous energization or deenergization occurred, and including a high-voltage primary circuit containing such local station for locally energizing and deenergizing the brake, and a low-voltage secondary circuit which is electrically insulated from the primary circuit and contains such remote station for remotely energizing and deenergizing the brake. A pilot circuit in the primary circuit includes pilot lamps at the local and remote stations and at the production maintenance department to indicate that the loom brake has been energized.
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15 |
Shaft coupling |
US3466896D |
1967-09-29 |
US3466896A |
1969-09-16 |
PFARRWALLER ERWIN |
|
16 |
Loom crankshaft arrangement |
US3441058D |
1966-10-31 |
US3441058A |
1969-04-29 |
BASSING FRIEDRICH WILHELM; HOFMANN GOTTFRIED GERHARD WILH |
|
17 |
Drive and control system for looms |
US57372366 |
1966-08-19 |
US3405740A |
1968-10-15 |
YVES JUILLARD |
|
18 |
Loom protector mechanism |
US60814367 |
1967-01-09 |
US3404709A |
1968-10-08 |
BUDZYNA JOSEPH M; MUCCIARONE ROCCO H |
|
19 |
Enclosed drive for looms |
US58549366 |
1966-10-10 |
US3381720A |
1968-05-07 |
HIGGINS THEODORE S |
|
20 |
Loom reversing means |
US47546465 |
1965-07-28 |
US3318341A |
1967-05-09 |
GEORGES NOLLET |
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