多股高速并纱机High SpeedDoubler Winder 本产品是数控一步法多股捻线机的前道准备设备。 It does the preparation for next process in the two-for-one twister. 具有全钣金分段组合式结构,机身结构紧凑,美观,经济。小功率电机(两相或三相)传动,采用可调节式后架和涨紧式纱座设计,使操作更具优越性。卷绕恒张力,恒线速,防串股。卷装无结头,是制线行业的最佳配套设备。 It owns complete sheet metal segment assembly structure, compact body, good-look and economic. Low power motor (2 or 3 phases) drive, adjustable after-frameand tensional yarn carrier design make more superior operation. It owns constant take-up tension, constant linear speed,anti-ribboning advantages. The take-up package is withoutknot, it’s the best supporting equipment for yarn making industry. 适用于缝包线,气流纺纱线等各种短纤纱的和长丝的高速合股准备。 Suitable for preparation work before doubling bag sewing thread, rotor-spun yarn and various staple yarns and filament yarns. 设备特点Features ●结构紧凑,美观,经济,较少的维护。 Compact structure, good-look, economic, easy maintenance. ●小功率电机(两相或三相)传动,适合普通家庭式作坊。 Low power motor (2 or 3phases) drive, suitable for ordinary family workshop. ●合理的导纱结构,卷绕恒张力,恒线速,防串股。 Reasonable yarn guide structure, constant take-up tension, constant linear speed, anti-ribboning. ●采用可调节式后架和涨紧式纱座设计,使操作更具优越性。 Adjustable after-frame and tensional yarn carrier design make more superior operation ●加长筒管设计,半成品卷装大(1KG/卷),无结头。 Lengthened bobbin design, high semi-finishedtake-up package (1kg/pakage), no knot. - 轴承式夹盘设计,避免卷绕筒管的磨损,减低设备维护成本,稳定后道捻线捻度的均匀度,提高产品质量。
Bearing type chuck design can avoid abrasion of take-up bobbin, reduce maintenance cost of equipment, stabilize uniformity of twist range in next process and improve quality of product. Low loss, low power, high efficiency and environment friendly 主要技术参数Main technical parameter 锭数 Number of spindles | 9,18,27,36(9的倍数) 9,18,27,36(9n) | 并纱根数 Number of yarns to double | 2-12 | 卷绕成形方式 Form of winding bobbin | 槽筒成形 Grooved drum forming | 张力控制 Tension control | 自重压盘式 Dead-load pressure plate | 额定功率 Rated power | 0.75kw (三相或两相) (3 or 2 phases) | 机器形式 Form of operation | 单面单层 Single side single layer | 外形尺寸 Outline size | 2.7m×2.2m×2.2m |
本样本仅作参考,不作为技术验收依据 This catalogue is only for reference but not standard of technical acceptance. |