KT-1302-4W Single / Double Needle Chain Stitch Picoting Machine
Detailed Description
The KANTIA KT-1302-4W Chain Stitch Picoting Machine is a specialized piece of industrial machinery crafted for high-end fashion detailing and ornamental edge fabrication. Widely deployed in the manufacturing of women's blouses, children’s wear, handkerchiefs, table linens, and underwear, this machine automates the delicate art of "picoting"—creating uniform, decorative perforated holes flanked by precise structural chain stitching.
Utilizing its 2-needle and 4-thread mechanical arrangement with a 3.5-inch gauge layout, the machine pulls fabric evenly across the workspace to construct clean, stable, and stretchable openwork patterns. Its reliable speed parameters (up to 3000 rpm) ensure that detailed lace-like accents do not bottleneck factory output. Durable, precise, and uniquely creative, the KT-1402-4W is the perfect tool for factories looking to add value and elegant aesthetic detailing to their product lines.
Technical Specifications
| Specification Field | Details |
| Model | KT-1302-4W |
| Needle Type | UOX163 11 / UYX163GAS 75 |
| No. of Needles | 2 |
| No. of Threads | 4 |
| Gauge (inch) | 3.5 |
| Stitch Length | 8 mm |
| Presser Foot Lift | 8 mm |
| Max. Speed | 3000 rpm |
| Weight | 44 / 48 Kg |
| Volume | 600 x 395 x 600 mm |
Key Features
Versatile Stitching Capability: Supports both single and double needle configurations to execute distinct styles of decorative stitching and edge trims.
Intricate Picot & Zigzag Detailing: Engineered specifically to create high-quality picoting and openwork designs (as shown in the reference fabric thumbnails).
Industrial Speed Performance: Capable of running smoothly up to a maximum speed of 3000 rpm to keep pace with fast-moving apparel assembly lines.
Substantial Presser Foot Clearance: Equipped with an 8mm presser foot lift, allowing easy fabric positioning and handling of folded seams.
Robust Flatbed Design: Constructed with heavy industrial components ($44/48\text{ kg}$) to minimize operational vibration and maximize stitch consistency.
