The present invention relates to a direct driving auxiliary yarn guide apparatus for flat knitting machines and particularly to a direct driving auxiliary yarn guide apparatus for flat knitting machines to aid yarn guiding.
Flat knitting machines mainly are designed to knit textile products to make knitting clothes. Their practicality greatly impacts people's life.
A conventional flat knitting machine mainly includes a chassis, a needle bar located on the chassis, a slide track above the needle bar and a yarn feeder slidably located on the slide track. An auxiliary yarn guide apparatus and a yarn delivery device are provides at each of two sides of the chassis. Yarns pass through, in this order, a yarn rack above the chassis, the auxiliary yarn guide apparatus and yarn delivery device, and are sent to the yarn feeder slid reciprocally on the track to be knitted on the needle bar.
The auxiliary yarn guide apparatus mainly aims to offset frictional forces of the yarns generated during winding through the yarn rack to smooth yarn delivery. The auxiliary yarn guide apparatus mainly includes a motor, a belt, a belt pulley, a spindle and a yarn guide wheel. When the motor is in operation it drives the yarn guide wheel mounted on a spindle to spin via the belt and belt pulley to aid yarn guide function.
However, when the auxiliary yarn guide apparatus is used for a prolonged period of time the belt tends to fatigue or wear off, and cannot effectively drive the yarn guide wheel spinning, and results in unstable yarn guiding. Moreover, the auxiliary yarn guide apparatus is complicated and consists of too many elements, assembly and installation are difficult and time-consuming, repairs and maintenance and replacement of the elements also are difficult, there is room for improvement.
The primary object of the present invention is to solve the problems of the conventional auxiliary yarn guide apparatus of unstable yarn guiding and too many elements and difficult for assembly and installation.
To achieve the foregoing object the present invention provides a direct driving auxiliary yarn guide apparatus for a flat knitting machine. The flat knitting machine includes a chassis, a needle bar on the chassis, a slide track above the needle bar, a yarn feeder slidably mounted onto the slide track and a yarn delivery device. Yarns are directed through the auxiliary yarn guide apparatus to the yarn feeder and knitted through the needle bar. The auxiliary yarn guide apparatus includes a motor located on the chassis that is coupled with a spindle and a plurality of yarn guide wheels mounted on the spindle. When the motor is in operation the spindle is driven to drive the yarn guide wheels spinning to guide the yarns to the yarn delivery device to be sent to the yarn feeder.
In an embodiment of the invention the spindle includes a driving shaft extended outwards, a driven shaft running through the yarn guide wheels and a sleeve with two ends coupled on the driving shaft and driven shaft. The driving shaft drives the driven shaft spinning through the sleeve.
The auxiliary yarn guide apparatus includes a motor holder located on the chassis to hold the motor. The motor holder has a coupling board fastened to the chassis and a mounting rack located on the coupling board to hold the motor. The mounting rack has a panel fastened to the coupling board and a first side plate and a second side plate extended vertically from two ends of the panel. The first and second side plates have respectively an opening run through by the spindle. The motor is fastened to one side plate. Moreover, the mounting rack has an inner cover plate surrounding the spindle and fastened to the panel, and an outer cover plate to bridge the first and second side plates.
In addition, the auxiliary yarn guide apparatus further includes a yarn guide plate fastened to the motor holder. The yarn guide plate has a plurality of apertures threaded through by the yarns. The spindle has a distal end coupled with a bearing. A support rack is provided to hold the bearing and yarn guide plate.
The foregoing, as well as additional objects, features and advantages of the invention will be more readily apparent from the following detailed description, which proceeds with reference to the accompanying drawings.
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Moreover, the auxiliary yarn guide apparatus 20 also includes a motor holder 30 located on the chassis 10 to hold the motor 21. The motor holder 30 has a coupling board 31 fastened to the chassis 10 and a mounting rack 32 fastened to the coupling board 31 to hold the motor 21. In an embodiment of the invention the mounting rack 32 has a panel 321 fastened to the coupling board 31 and a first side plate 322 and a second side plate 324 extended vertically from two ends of the panel 321. The motor 21 is fastened to one side plate, as shown in the drawings, to the first side plate 322 in this embodiment. The first and second side plates 322 and 324 have respectively an opening 323 and 325 run through by the spindle 22. Moreover, the mounting rack 32 has an inner cover plate 33 located between the first and second side plates 322 and 324 and fastened to the panel 321. The inner cover plate 33 is formed in a U shape to surround the sleeve 222. The mounting rack 32 further has an outer cover plate 34 to bridge the first and second side plates 322 and 324 to prevent the sleeve 222 from loosening away caused by external articles that might create a problem of unable to drive the yarn guide wheels 23 by the motor 21.
The auxiliary yarn guide apparatus 20 further includes a yarn guide plate 35 fastened to the second side plate 324. The yarn guide plate 35 has a plurality of apertures 351 threaded through by the yarns. The spindle 22 has a distal end coupled with a bearing 24 and a support rack 25 to hold the bearing 24 and yarn guide plate 35, thus forms the main structure of the invention.
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As a conclusion, the invention provides the auxiliary yarn guide apparatus 20 which mainly includes an independent driving motor 21 to couple with a spindle 22 with a plurality of yarn guide wheels 23 mounted thereon. When the motor 21 is in operation the spindle 22 directly drives the yarn guide wheels 23 spinning, the number of elements required decreases, production, assembly and installation are easier. The direct driving also is more stable.
While the preferred embodiment of the invention has been set forth for the purpose of disclosure, modifications of the disclosed embodiment of the invention as well as other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention.
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Number | Date | Country | |
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20130036771 A1 | Feb 2013 | US |