WO2015027560A1 - 一种弹力丝机的控制系统及其控制方法 - Google Patents

一种弹力丝机的控制系统及其控制方法 Download PDF

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Publication number
WO2015027560A1
WO2015027560A1 PCT/CN2013/085919 CN2013085919W WO2015027560A1 WO 2015027560 A1 WO2015027560 A1 WO 2015027560A1 CN 2013085919 W CN2013085919 W CN 2013085919W WO 2015027560 A1 WO2015027560 A1 WO 2015027560A1
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WIPO (PCT)
Prior art keywords
bobbin
empty
wire
silo
chuck
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PCT/CN2013/085919
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English (en)
French (fr)
Inventor
缪小方
张始荣
杨琴
杨晓庆
何小明
Original Assignee
无锡宏源机电科技有限公司
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Publication of WO2015027560A1 publication Critical patent/WO2015027560A1/zh

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H63/00Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

Definitions

  • the invention relates to the field of textiles, in particular to a control system for a stretch yarn machine for a stretch yarn machine. Background technique
  • the high-speed elastic wire machine generally adopts manual manual head and drop tube, that is, after the yarn tube is full of yarn, manually stopping the single-spindle tube, and after stopping, the full-length tube is taken off, and the empty tube is loaded. Then give birth by hand.
  • This method requires a lot of manpower, and the labor intensity of the workers is high, and it is also not conducive to improving machine efficiency and affecting yarn quality.
  • the object of the present invention is to provide a control system for a stretch yarn machine which can automatically unload the full bobbin tube out of the spinning zone bobbin holder and move the full bobbin tube to the full silo, simultaneously with the deficiencies of the prior art.
  • the empty bobbin is released from the empty silo containing the empty bobbin to the bobbin bobbin of the spinning zone.
  • control system of the elastic yarn machine of the present invention can adopt the following scheme:
  • a control system for a stretch yarn machine comprising: a black roller, an empty silo located behind the black roller, an empty silo rocker arm located above the black roller and cooperating with the empty silo, and an empty silo rocker arm a bobbin holder moving between the black roller and between the first position and the second position, a full silo located parallel to the empty silo behind the bobbin holder;
  • the bobbin holder is provided with a clamping tube a chuck, when the bobbin holder is in the first position, the bobbin holder chuck is in contact with the empty bobbin to which the empty tube silo arm is transported, and when the bobbin holder is in the second position, the bobbin holder is clamped
  • the empty bobbin and the black roller are combined to wrap the wire.
  • the control system of the elastic yarn machine transfers the empty bobbin in the empty silo to the bobbin rack in the first position through the empty tube silo arm, and the bobbin holder holds the empty bobbin And rotating to the second position to cooperate with the black roller to wrap the wire.
  • the bobbin holder returns to the first position to unload the full bobbin tube to the full silo, and clamp the empty space transported by the empty tube silo arm
  • the bobbin functions as an automatic replacement of the bobbin.
  • the control method of the above control system of the elastic yarn machine is:
  • the bobbin holder is located at the first position to start the suction, and the oil lifting device works.
  • the cutting rod moves the wire into the suction port to suck the wire, opens the chuck, and controls the empty tube to hold the arm.
  • the bobbin is moved to the position of the bobbin holder chuck, the chuck holds the empty bobbin, the bobbin holder is pressed down to the second position to make the empty bobbin close to the black roller, and the precision winding module controls the reciprocating guide wire
  • the work of the machine is transferred to the normal guide wire, and the winding of the wire is started.
  • the winding wire device stops working, the suction cylinder works, the reciprocating yarn guide stops working, and the oil lifting device Open, lift the bobbin holder, control the shredder cutting, and press the wire into the suction port to suck the wire.
  • the cutting rod is smoothly shredded and the suction port is successfully sucked, and the cutting rod is returned to the bobbin.
  • the chuck is opened and the full bobbin tube enters the full silo.
  • Figure 1 is a schematic view showing the structure of a control system for a stretch yarn machine of the present invention, and shows the state of the bobbin when it is wound.
  • Fig. 2 is a schematic view showing the structure of the control system of the elastic yarn machine of the present invention, and shows the state in which the empty tube silo arm transports the empty bobbin after the bobbin is wound into the full silo after the completion of the winding.
  • Figure 3 is a block diagram of the control system of the control system of the stretch yarn machine of the present invention.
  • Fig. 4 is a schematic view showing the drop of the bobbin in the state of changing the cylinder.
  • Fig. 5 is a schematic view showing the lifting of the bobbin in the state of changing the cylinder.
  • the present invention discloses a control system for a stretch yarn machine, comprising a black roller 1, an empty silo 18 located behind the black roller 1, a black roller 1 above and an empty silo 18.
  • the bobbin holder 3 is provided with a chuck 4 for clamping the bobbin 2 in the empty silo 18.
  • the chuck 4 When the bobbin holder 3 is in the first position, the chuck 4 is in contact with the empty bobbin 2 in the empty silo 18, and when the bobbin holder 3 is in the second position, the chuck 4 on the bobbin holder 3 The end is moved downward to the position where the bobbin 21 is engaged with the black roller 1 to wrap around the wire.
  • the bobbin holder 3 rotates with one end of the bobbin holder as a fulcrum and the chuck 4 is located at the other end of the bobbin holder 3.
  • the full silo 16 is adjacent to one end of the bobbin holder 3, and when the bobbin 21 is wound, The chuck 4 of the bobbin holder 3 is raised at one end. When the chuck 4 releases the bobbin, the full bobbin 22 is guided through the bobbin holder 3 into the full silo 16.
  • the control system of the elastic yarn machine further comprises a suction port suction device 5, a cutter rod 6, a reciprocating guide 7, a precision winding control guide device 8, a Hall sensing speed measuring device 9, a winding wire detecting device 10,
  • the full silo 16 is provided with a full silo full bobbin detecting device 17; the empty silo 18 is provided with an empty silo empty bobbin detecting device 19.
  • the system also includes a master controller.
  • control method of the control system of the elastic yarn machine is as follows:
  • the controller checks the pressure system and sends the signal to the spindle controller 24. If the pressure is sufficient, the spindle controller 24 outputs a signal to the winding probe 25 to stop working, and simultaneously outputs a signal to the solenoid valve.
  • the spindle position controller 24 After the group valve 15 lifts the bobbin holder 3, the spindle position controller 24 outputs a signal, and the suction solenoid valve 14 is energized, the suction solenoid valve 14 is opened, the suction port 5 is ready for suction, and the spindle controller 24 outputs a signal to the solenoid valve group 15 to operate the oil-lifting cylinder 11, and then the spindle controller 24 outputs a signal to the electromagnetic
  • the valve block valve 15 cuts the wire cutting rod 6 and sends the wire path to the suction port suction device 5, and then the spindle controller 24 determines that the wire cutting rod is successfully fed into the wire according to the suction port suction success device 23.
  • the output signal is sent to the solenoid valve group valve 15 to return the cutting screw 6, and the spindle controller 24 outputs a signal to the solenoid valve group valve 15 to control the chuck 4 loose.
  • the spindle controller 24 outputs a signal to the solenoid valve group valve 15 to control the empty tube silo arm 20 to clamp the empty bobbin 2 to the chuck 4 to prepare the upper tube, and then the spindle controller 24 outputs a signal to the electromagnetic
  • the valve block valve 15 clamps the chuck 4 to the empty bobbin 2, and after the chuck 4 on the bobbin holder successfully clamps the empty bobbin 2, the spindle controller 24 outputs a signal to the solenoid valve group valve 15 to press the bobbin holder 3
  • the spindle controller 24 outputs a signal to the solenoid valve group 15 to return the empty cartridge rocker arm 20.
  • the spindle controller 24 outputs a signal to the electronic precision winding guide device 8 to hang the wire.
  • the spindle controller 24 outputs a signal to the solenoid valve group.
  • the valve 15 controls the oil lifting device 11 to be closed, and the suction solenoid valve 14 is closed, and then the spindle controller 24 outputs a signal to the solenoid valve group 15 to control the winding of the winding device 25 to start operation.
  • the machine is finished, the machine enters the spinning state, and the spinning gauge is started.
  • the spindle controller 24 After the fixed length/fixed weight time set by the upper computer is reached, the pressure system is checked, the controller receives the pressure signal without alarm, and the full silo 16 full bobbin detecting device 17 has no alarm signal, then the spindle controller 24 outputs a signal.
  • the winding wire cutter 25 stops working.
  • the spindle controller 24 outputs a signal to control the solenoid valve group 14 to open the suction solenoid valve 14 to operate the suction port suction device 5.
  • the spindle controller 24 After the suction solenoid valve 14 is opened, the spindle controller 24 outputs a signal to the precision winding module 8 to control the reciprocating yarn guide 7 to stop working, and at the same time, outputs a signal to the solenoid valve group valve 15 to open the oiling and lifting device 11.
  • the spindle controller 24 outputs a signal to the solenoid valve group valve 15, lifts the bobbin holder 3, and outputs a signal to the solenoid valve group valve 15 within a certain period of time.
  • the solenoid valve 15 is opened to control the cutting rod 6 to cut the wire.
  • the wire is pressed into the suction port suction device 5 to suck the wire.
  • the spindle controller 24 determines that the suction port 5 is successfully sucked according to the signal of the suction port suction detecting device 23, the spindle controller 24 outputs a signal to control the cutting rod 6 to return.
  • the spindle controller 24 determines that the rotation speed of the spinning bobbin 21 is zero according to the signal information of the bobbin speed measuring device 9, and the spindle controller 24 outputs a signal to the solenoid valve group 15 to clamp The disc 4 releases the spinning bobbin 21 and the full bobbin 22 enters the full silo 16.
  • the spindle controller 24 outputs a signal control solenoid valve group 15 to position the empty tube rocker arm 20 to the empty bobbin 2 to the position of the bobbin holder 3, and thereafter, the spindle controller 24 outputs a signal to control the electromagnetic
  • the valve group valve 15 clamps the chuck 4 to the empty bobbin 2, and after the chuck 4 holds the empty bobbin 2, the spindle controller 24 outputs a signal to control the solenoid valve group 15 to coordinately control the bobbin holder 3 to be depressed.
  • the tube is in close contact with the black roller 1, after which the spindle controller 24 outputs a signal to the solenoid valve group valve 15 to control the empty cartridge rocker arm 20 to return to home. At this point, the air traffic control process ends.
  • the spindle controller 24 outputs a signal to the precision winding guide device 8, and controls After the reciprocating guide 7 is positioned, it is transferred to the normal guide wire. After the spinning is normal, the spindle controller 24 outputs a signal to control the solenoid valve group valve 15 to close the oiling device 11 and the suction device 5. At the same time, the spindle controller 24 outputs a signal to control the winding of the winder 25 to begin operation. At this point, the change of the cylinder is completed, the machine enters the spinning state of the next cycle, and the spinning gauge is started at the same time.

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  • Engineering & Computer Science (AREA)
  • Quality & Reliability (AREA)
  • Replacing, Conveying, And Pick-Finding For Filamentary Materials (AREA)
  • Treatment Of Fiber Materials (AREA)
  • Filamentary Materials, Packages, And Safety Devices Therefor (AREA)

Abstract

一种弹力丝机的控制系统,筒管架(3)位于第一位置时,通过空管仓摇臂(20)将空筒仓(18)内的空筒管(2)移送至筒管架(3),筒管架(3)夹持空筒管(2)并转动至第二位置与黑辊(1)配合绕丝,绕丝结束后,筒管架(3)返回到第一位置将满纱筒(22)管卸载至满筒仓(16),并夹持由空管仓摇臂(20)运送至的空筒管(2),起到了自动更换筒管的功能。

Description

一种弹力丝机的控制系统及其控制方法
技术领域
本发明涉及纺织领域, 特别是一种用于弹力丝机的弹力丝机的控制系统。 背景技术
目前的高速弹力丝机普遍采用的是人工手动生头和落筒, 即在纱管满纱后, 人工手动将单锭纱管停止, 停止后将满纱管取下, 空纱管装上, 再手动生头。 这 种方式自动化程度低需要的人力比较多, 工人的劳动强度大, 而且也不利于提高 机器效率, 影响纱线质量。
因此, 需要一种新的技术方案以解决上述问题。
发明内容
本发明目的是针对现有技术存在的不足,提供一种弹力丝机的控制系统, 能 够将满筒纱管自动卸载出纺丝区筒管架并将满筒纱管移动至满筒仓,同时从盛放 空筒管的空筒仓释放出空筒管至纺丝区筒管架。
为实现上述目的, 本发明弹力丝机的控制系统可采用如下方案:
一种弹力丝机的控制系统, 其特征在于: 包括黑辊、位于黑辊后上方的空筒 仓、位于黑辊上方并与空筒仓配合的空筒仓摇臂、位于空筒仓摇臂及黑辊之间并 在第一位置及第二位置之间移动的筒管架、位于筒管架后方平行于空管仓的满筒 仓; 所述筒管架上设有用以夹持筒管的夹盘, 当所述筒管架位于第一位置时, 筒 管架夹盘与空管仓摇臂运送至的空筒管接触, 当筒管架位于第二位置时, 筒管架 夹持空筒管与黑辊配合绕丝。
本发明与现有技术相比:该弹力丝机的控制系统通过空管仓摇臂将空筒仓内 的空筒管移送至处于第一位置的筒管架,筒管架夹持空筒管并转动至第二位置与 黑辊配合绕丝, 绕丝结束后, 筒管架返回到第一位置将满纱筒管卸载至满筒仓, 并夹持由空管仓摇臂运送至的空筒管, 起到了自动更换筒管的功能。
上述弹力丝机的控制系统的控制方法为:
筒管架位于第一位置开始吸丝, 上油抬丝装置工作, 吸丝后, 切丝杆动作将 丝压入吸丝口吸住丝, 打开夹盘, 控制空管仓摇臂夹持空的筒管移动到筒管架夹 盘处定位, 夹盘夹持空的筒管, 将筒管架压下至第二位置使空的筒管贴紧黑辊, 精密卷绕模块控制往复导丝器工作转入正常导丝运行, 卷绕探丝器开始工作; 筒管绕丝作业完成后, 卷绕探丝装置停止工作, 吸丝气缸工作, 往复导丝器 停止工作, 上油抬丝装置打开, 将筒管架抬起, 控制切丝杆切丝, 同时将丝压入 吸丝口吸住丝,切丝杆顺利切丝并且吸丝口成功吸丝后切丝杆归位, 筒管停止转 动后打开夹盘, 满纱的筒管进入满筒仓。 附图说明
图 1为本发明弹力丝机的控制系统的结构示意图,并展示了筒管绕纱时的状 态。
图 2为本发明弹力丝机的控制系统的结构示意图,并展示了筒管绕纱完成后 进入满筒仓后, 空管仓摇臂运送空筒管的状态。
图 3为本发明弹力丝机的控制系统的控制系统框图。
图 4为换筒状态筒管落下示意图。
图 5为换筒状态筒管抬起示意图。
具体实施方式
下面结合附图和具体实施方式,进一步阐明本发明, 应理解下述具体实施方 式仅用于说明本发明而不用于限制本发明的范围,在阅读了本发明之后, 本领域 技术人员对本发明的各种等价形式的修改均落于本申请所附权利要求所限定的 范围。
请参阅图 1至图 5所示,本发明公开一种弹力丝机的控制系统,包括黑辊 1、 位于黑辊 1后上方的空筒仓 18、位于黑辊 1上方并与空筒仓 18配合的空筒仓摇 臂 20、位于空筒仓摇臂 20及黑辊 1之间并在第一位置及第二位置之间移动的筒 管架 3、位于筒管架后方且与空管仓平行的满筒仓 16。所述筒管架 3上设有用以 夹住空筒仓 18内空的筒管 2的夹盘 4。当所述筒管架 3位于第一位置时,夹盘 4 与空筒仓 18内的空的筒管 2接触, 当筒管架 3位于第二位置时, 筒管架 3上的 夹盘 4端向下移动至筒管 21与黑辊 1配合的位置绕丝。 所述筒管架 3以筒管架 一端为支点转动而夹盘 4位于筒管架 3另一端, 所述满筒仓 16相邻于筒管架 3 支点一端, 当筒管 21绕丝完毕, 筒管架 3的夹盘 4一端抬高, 当所述夹盘 4松 开筒管, 满纱的筒管 22通过筒管架 3导引落入满筒仓 16内。
弹力丝机的控制系统还包括吸丝口吸丝装置 5、 切丝杆 6、 往复导丝器 7、 精密卷绕控制导丝装置 8、 霍尔传感测速装置 9、 缠丝探测装置 10、 上油抬丝装 置 11、 启动按钮 12、 复位按钮 13、 吸丝电磁阀 14、 电磁阀组阀 15、 还包括吸 丝口吸丝成功检测装置 23、 锭位控制器 24、 卷绕探丝装置 25。 所述满筒仓 16 内设有满筒仓满筒筒管检测装置 17; 空筒仓 18内设有空筒仓空筒筒管检测装置 19。 该系统中还包括总控制器。
该弹力丝机的控制系统的控制使用方法为:
开机上电, 总控制器检查压力系统, 同时将信号下发给锭位控制器 24, 如 若压力足够,锭位控制器 24输出信号给卷绕探丝器 25停止工作, 同时输出信号 给电磁阀组阀 15使筒管架 3抬起之后, 锭位控制器 24输出信号, 吸丝电磁阀 14通电, 吸丝电磁阀 14打开, 吸丝口 5准备吸丝, 锭位控制器 24输出信号给 电磁阀组阀 15使上油抬丝气缸 11工作, 之后锭位控制器 24输出信号给电磁阀 组阀 15使切丝杆 6切丝并将丝路送入吸丝口吸丝装置 5, 然后锭位控制器 24根 据吸丝口吸丝成功装置 23判断切丝杆成功将丝路送入吸丝口 5并且判断吸丝口 5成功吸住了丝后, 输出信号给电磁阀组阀 15使切丝杆 6返回, 锭位控制器 24 输出信号给电磁阀组阀 15控制夹盘 4松开,之后锭位控制器 24输出信号给电磁 阀组阀 15控制空管仓摇臂 20夹持空筒管 2转动到夹盘 4处准备上空管,之后锭 位控制器 24输出信号给电磁阀组阀 15使夹盘 4夹紧空筒管 2, 筒管架上夹盘 4 成功夹持空筒管 2后,锭位控制器 24输出信号给电磁阀组阀 15使筒管架 3压下, 之后锭位控制器 24输出信号给电磁阀组阀 15使空管仓摇臂 20返回。 然后, 锭 位控制器 24输出信号给电子精密卷绕导丝装置 8挂丝, 电子精密卷绕导丝装置 8控制往复导丝器 7正常运行后, 锭位控制器 24输出信号给电磁阀组阀 15, 控 制上油抬丝装置 11关闭, 同时吸丝电磁阀 14关闭, 接着锭位控制器 24输出信 号给电磁阀组阀 15控制卷绕探丝装置 25开始工作。至此生头动作完成, 机器进 入纺丝状态, 同时开始纺丝计长。
上位机设定的定长 /定重时间到后, 检查压力系统, 控制器接受压力信号无 报警, 并且满筒仓 16满筒筒管检测装置 17无报警信号, 则锭位控制器 24输出 信号卷绕探丝器 25停止工作。锭位控制器 24输出信号控制电磁阀组阀 14 打开 吸丝电磁阀 14, 让吸丝口吸丝装置 5工作。 吸丝电磁阀 14打开后, 锭位控制器 24输出信号给精密卷绕模块 8, 控制往复导丝器 7停止工作, 同时, 输出信号给 电磁阀组阀 15使上油抬丝装置 11打开。 在一定时间内锭位控制器 24输出信号 给电磁阀组阀 15, 将筒管架 3抬起, 并在一定时间内输出信号给电磁阀组阀 15 打开电磁阀 15控制切丝杆 6切丝、 同时将丝压入吸丝口吸丝装置 5吸住丝。 锭 位控制器 24根据吸丝口吸丝成功检测装置 23的信号判断吸丝口 5成功吸丝后, 锭位控制器 24输出信号控制切丝杆 6归位。 筒管架 3抬起后, 锭位控制器 24 根据筒管架测速装置 9的信号信息, 判断纺丝筒管 21转速为零后, 锭位控制器 24输出信号给电磁阀组阀 15使夹盘 4松开纺丝筒管 21, 满纱筒管 22进入满筒 仓 16。 之后, 锭位控制器 24输出信号控制电磁阀组阀 15使空管仓摇臂 20夹持 空筒管 2到筒管架 3夹盘 4处定位, 之后, 锭位控制器 24输出信号控制电磁阀 组阀 15使夹盘 4夹紧空筒管 2, 夹盘 4夹持空筒管 2后, 锭位控制器 24输出信 号控制电磁阀组阀 15协调控制将筒管架 3压下使筒管贴紧黑辊 1, 之后, 锭位 控制器 24输出信号给电磁阀组阀 15控制空管仓摇臂 20返回归位。 至此上空管 控制过程结束。 接下来, 锭位控制器 24输出信号给精密卷绕导丝装置 8, 控制 往复导丝器 7定位后转入正常导丝运行。 纺丝正常后, 锭位控制器 24输出信号 控制电磁阀组阀 15关闭上油装置 11、吸丝装置 5。 同时锭位控制器 24输出信号 控制卷绕探丝器 25开始工作。至此换筒动作完成, 机器进入下一周期纺丝状态, 同时开始纺丝计长。

Claims

O 2015/027560 +ri J¾t ¾ -f- - f PCT/CN2013/085919
1、 一种弹力丝机的控制系统, 其特征在于: 包括黑辊、 位于黑辊后上方的 空筒仓、位于黑辊上方并与空筒仓配合的空筒仓摇臂、位于空筒仓摇臂及黑辊之 间并在第一位置及第二位置之间移动的筒管架、位于筒管架后方平行于空管仓的 满筒仓;所述筒管架上设有用以夹持筒管的夹盘,当所述筒管架位于第一位置时, 筒管架夹盘与空管仓摇臂运送至的空筒管接触, 当筒管架位于第二位置时, 筒管 架夹持空筒管与黑辊配合绕丝。
2、 根据权利要求 1所述的弹力丝机的控制系统, 其特征在于: 所述筒管架 以筒管架一端为支点转动而夹盘位于筒管架另一端,所述满筒仓相邻于筒管架支 点一端, 当筒管绕丝完毕, 筒管架的夹盘一端抬高至第一位置, 当所述夹盘松开 筒管, 筒管通过筒管架导引落入满筒仓内。
3、 根据权利要求 2所述的弹力丝机的控制系统, 其特征在于: 还包括吸丝 口吸丝装置、 切丝杆、 往复导丝器、 精密卷绕控制导丝装置、 缠丝探测装置、 上 油抬丝装置。
4、 根据权利要求 3所述的弹力丝机的控制系统, 其特征在于: 还包括吸丝 口吸丝成功检测装置、 锭位控制器、 卷绕探丝装置。
5、 根据权利要求 4所述的弹力丝机的控制系统, 其特征在于: 所述满筒仓 内设有满筒仓满筒筒管检测装置; 空筒仓内设有空筒仓空筒筒管检测装置。
6、 根据权利要求 1-5 中任一项所述的弹力丝机的控制系统的控制方法, 其 特征在于: 筒管架位于第一位置开始吸丝, 上油抬丝装置工作, 吸丝后, 切丝杆 动作将丝压入吸丝口吸住丝, 打开夹盘, 控制空管仓摇臂夹持空的筒管移动到筒 管架夹盘处定位,夹盘夹持空的筒管, 将筒管架压下至第二位置使空的筒管贴紧 黑辊, 同时空管仓摇臂返回空管仓处, 精密卷绕模块控制往复导丝器工作转入正 常导丝运行, 上油抬丝装置、 吸丝口吸丝装置关闭停止工作, 卷绕探丝器开始工 作;
筒管绕丝作业完成后, 卷绕探丝装置停止工作, 吸丝气缸工作, 往复导丝器 停止工作, 上油抬丝装置打开, 将筒管架抬起, 控制切丝杆切丝, 同时将丝压入 吸丝口吸住丝,切丝杆顺利切丝并且吸丝口成功吸丝后切丝杆归位, 筒管停止转 动后打开夹盘, 满纱的筒管进入满筒仓。
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