1. Field of the Invention
The present invention relates to a method of manufacturing multi-color hosiery to provide desired colors in any patterns of hosiery such that nine to eleven color types can be knitted through yarn fingers of each knitting set by adopting knitting operation without changing colored yarns on the same row and twenty to forty six color types can be knitted for the entire hosiery body through the yarn fingers of each knitting set by adopting knitting operation with changed colored yarns on the same row thereby to enhance aesthetic appeal of the hosiery and color diversity.
2. Description of the Prior Art
Refer to
In view of the aforesaid problem, the present invention aims to provide a method of manufacturing multi-color hosiery to enhance aesthetic appeal and diversified color selection for hosiery. According to the invention the yarn fingers of each knitting set can deploy nine to eleven color types by adopting knitting operation without changing colored yarns on the same row, and twenty to forty six color types can be deployed for knitting the entire hosiery through the yarn fingers of each knitting set by adopting knitting operation with changed colored yarns on the same row. Thus the aesthetic appeal and color diversity of the hosiery can be enhanced.
To achieve the foregoing object the manufacturing method of the invention includes steps as follow:
a. A pattern knitter contained a main control computer is provided to process color differentiation and set up yarn feeding commands according to a knitting color layout of hosiery;
b. Select total number of colored yarns and color types of pattern color yarns, and mount the colored yarns on yarn racks, and arrange all knitting sets of a feeder support of the pattern knitter to match the colored yarns up to forty six different color types; and
c. The main control computer of the pattern knitter controls the yarn fingers to perform knitting operation according to the sequence of the yarn feeding commands to finish knitting of the hosiery.
At step c, through the yarn feeding commands and the yarn fingers of each knitting set nine to eleven color types can be knitted for the hosiery body by adopting knitting operation without changing colored yarns on the same row, and the entire hosiery can be knitted with maximum twenty to forty six color types through the yarn fingers by adopting knitting operation with changed colored yarns on the same row.
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.
Refer to
a. according to a color layout to be knitted for a hosiery, a pattern knitter is provided that has a main control computer to process color differentiation and set up yarn feeding commands (step 31): The main control computer processes color differentiation according to pattern color types 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233, 234, 235, 236, 237, 238, 239, 240, 241, 242, 243, 244, 245 and 246, and locations thereof on the hosiery 2, and arranges the sequence of each color type to a matching yarn finger, and enters yarn feeding commands according to the aforesaid sequence to control yarn feeding sequence of the knitting needles;
b. select total number of colored yarns and color types of pattern color yarns, and mount the colored yarns on yarn racks, and arrange all knitting sets of a feeder support of the pattern knitter to match the colored yarns up to forty six color types (step 32): based on pattern color types of the hosiery 2, select total number of colored yarns and color types of pattern color yarns (according to the number of the selected color types), and mount the colored yarns on the yarn racks to supply yarn feeding required by yarn fingers 511, 521, 531 and 541 of the feeder support 4; referring to
c. the main control computer of the pattern knitter controls the yarn fingers during knitting process according to the sequence of the yarn feeding commands to finish knitting of the hosiery body 20 (step 33): the yarns are fed to the yarn fingers 511, 521, 531 and 541 through the yarn feeding commands of the main control computer, and maximum forty six color types can be knitted on the hosiery body 20.
At step 33 (i.e. step c) previously discussed, under the yarn feeding command, the yarn fingers 511, 521, 531 and 541 of each knitting set (namely first main yarn set 51, second main yarn set 52, first yarn feeder set 53 and second yarn feeder set 54) can knit up to nine to eleven color types for the hosiery body 20 by adopting knitting operation without changing colored yarns on the same row (i.e. each of the first main yarn set 51, second main yarn set 52, eight first yarn feeder sets 53 and second yarn feeder set 54 provides one yarn finger 511, 521, 531 or 541 to knit maximum eleven color types, while the conventional technique can only knit maximum eight color types under the same condition, i.e. the invention can knit more than eight color types to reach between nine to eleven color types by adopting knitting operation without changing colored yarns on the same row).
On the other hand, at step 33, in another condition, under the yarn feeding command the yarn fingers 511, 521, 531 and 541 of each knitting set (namely first main yarn set 51, second main yarn set 52, first yarn feeder set 53 and second yarn feeder set 54) can knit up to twenty to forty six color types on the entire hosiery body 20 on the same row with changed colored yarns (while the conventional technique can only reach maximum nineteen color types), i.e. the first main yarn set 51 providing six yarn fingers 511 and second main yarn set 52 providing five yarn fingers 521 to become eleven color types, and the eight first yarn feeder sets 53 each providing four yarn fingers 531 to become 32 color types, and the second yarn feeder set 54 providing three yarn fingers 541 to become 3 color types. Thus, in total there are forty six color types in yarn feeding operation.
Referring to
The manufacturing method provided by the invention set forth above provides a biggest feature by overcoming the limitation of the conventional technique that can knit only one to nineteen color types and encounters a bottleneck of knitting merely eight color types on the same row without changing colored yarns. The method of the invention (step 3) provides an advanced process to knit up to forty six color types for the entire hosiery body, and up to nine to eleven color types by adopting knitting operation without changing colored yarns on the same row. However, it does not mean that the invention cannot knit one to nineteen color types for the hosiery. More specifically, the invention can knit hosiery with one to forty six color types at step 3, with one to eleven color types by adopting knitting operation without changing colored yarns on the same row, and in the condition of having the knitting sets on the same row with changed colored yarns, one to forty six color types can be knitted for the entire hosiery body. To high light the difference between the invention and conventional technique, the manufacturing method of the invention previous discussed offers more emphasis on the feature of knitting the entire hosiery body with maximum forty six color types, and nine to eleven color types by adopting knitting operation without changing colored yarns on the same row.
As a conclusion, the manufacturing method provided by the invention can knit up to forty six color types for the entire hosiery body, and nine to eleven color types by adopting knitting operation without changing colored yarns on the same row. The hosiery thus formed has more diversified colors and enhanced aesthetic appeal.
Number | Name | Date | Kind |
---|---|---|---|
4628710 | Jacobsson | Dec 1986 | A |
4841748 | Watanabe et al. | Jun 1989 | A |
5144817 | Tibbals, Jr. | Sep 1992 | A |
5218845 | Wang | Jun 1993 | A |
5964106 | Shibata et al. | Oct 1999 | A |
6058742 | Dalmau Guell | May 2000 | A |
6182477 | Shibata et al. | Feb 2001 | B1 |
6269282 | Burger et al. | Jul 2001 | B1 |
6810696 | Lonati | Nov 2004 | B1 |
7036343 | Wei | May 2006 | B1 |