📚 BFDI-072: BASICS OF PATTERN MAKING AND SEWING
IGNOU Certificate in Fashion Design (CFDE) Solved Assignment | July 2025 Session
Course Information
Process of Stitch Formation in Sewing
Stitch formation is the fundamental process through which threads are interlaced or interlocked to join fabric layers permanently. This mechanical process transforms individual pieces of material into cohesive garments through systematic thread manipulation using specialized machinery and precise coordination of multiple components.
Basic Mechanism of Stitch Formation
The stitch formation process begins when the needle, carrying the upper thread, penetrates the fabric layers from above. As the needle descends to its lowest point, it creates a loop of thread below the fabric surface. The timing and coordination of various machine components ensure this loop is captured and manipulated to form the desired stitch type.
During the upward motion of the needle, the hook or bobbin case mechanism catches the needle thread loop, allowing the lower thread to pass through it. This interlocking action creates the basic structure of most common stitches, with variations depending on the specific stitch type and machine configuration.
Types of Stitch Formation
Lockstitch Formation: The most common stitch type where upper and lower threads interlock within the fabric layers. The needle thread forms a loop that the bobbin thread passes through, creating a secure, balanced stitch suitable for most garment construction.
Chain Stitch Formation: Created using only the needle thread, which forms interconnected loops on the fabric surface. This stitch type offers stretch and flexibility but can unravel if the thread breaks at one point.
Overlock Stitch Formation: Combines cutting and stitching actions, using multiple threads to create finished edges while preventing fabric fraying. This process involves synchronized cutting blades and multiple thread sources.
Main Components Involved in Stitch Formation
Needle System
The needle serves as the primary thread carrier, featuring a precisely engineered eye, groove, and point designed for specific fabric types and thread weights. The needle's vertical movement, timing, and positioning directly influence stitch quality and formation consistency.
Thread Delivery System
This system includes thread guides, tension discs, and take-up levers that control thread flow and maintain consistent tension throughout the stitching process. Proper thread tension ensures balanced stitches and prevents thread breakage or loose formations.
Feed Mechanism
The feed dogs work in coordination with the presser foot to advance fabric at precise intervals between stitches. This mechanism ensures consistent stitch length and proper fabric handling throughout the sewing process.
Bobbin and Hook Assembly
In lockstitch machines, the bobbin provides the lower thread while the hook assembly captures the needle thread loop and facilitates the interlocking process. The timing between needle and hook movements is critical for proper stitch formation.
Presser Foot System
The presser foot maintains fabric stability during stitching, applying appropriate downward pressure to prevent fabric shifting or puckering. Different presser foot types accommodate various fabric weights and sewing techniques, ensuring optimal stitch formation across different materials and applications.
Structure of a Sewing Machine Needle
The sewing machine needle is a precisely engineered tool designed to carry thread through fabric while minimizing damage to the material. Each component of the needle serves a specific function in the stitch formation process, and understanding these elements is crucial for selecting appropriate needles for different sewing applications.
Needle Diagram and Component Identification
Basic Needle Structure (Top to Bottom):
SHANK (Top portion)
├── Flat Side
├── Round Side
SHOULDER
BLADE/SHAFT
├── Long Groove (Front)
├── Short Groove/Scarf (Back)
EYE
POINT (Bottom tip)
Detailed Component Analysis
1. Shank
The shank represents the upper portion of the needle that fits into the needle clamp of the sewing machine. It features a flattened side that ensures proper needle orientation and prevents rotation during sewing. The round side faces toward the hook mechanism, while the flat side typically faces away from the operator. Standard shank diameter is consistent across most domestic machines, though industrial machines may use different specifications.
2. Shoulder
The shoulder forms the transition zone between the shank and the blade, providing structural strength and determining the maximum fabric thickness the needle can penetrate effectively. This area experiences significant stress during sewing and must be precisely manufactured to prevent breakage under normal operating conditions.
3. Blade or Shaft
The blade extends from the shoulder to the eye and contains two critical features: the long groove and the short groove (scarf). The blade's diameter varies according to needle size, with heavier fabrics requiring larger diameters for adequate strength and penetration capability.
4. Long Groove
Located on the front of the blade, the long groove provides a protective channel for the thread during needle penetration and withdrawal. This groove must be sized appropriately for the thread weight being used – too small causes thread damage, while too large allows thread to move excessively, affecting stitch quality.
5. Short Groove (Scarf)
The scarf is a small indentation on the back of the needle blade, positioned just above the eye. This feature allows the hook or bobbin case to pass close to the needle during the loop-forming process without collision. The scarf timing and depth are critical for proper stitch formation in lockstitch machines.
6. Eye
The eye is the opening through which thread passes, and its size and shape directly influence sewing performance. The eye must be large enough to accommodate the thread without excessive friction but small enough to maintain structural integrity. Modern needles feature polished eyes to reduce thread wear and improve thread flow.
7. Point
The needle point determines how the needle penetrates fabric and influences the final appearance of the sewn seam. Different point types serve specific purposes: sharp points for woven fabrics, ballpoints for knits, and cutting points for leather and heavy materials. The point geometry affects both penetration force and potential fabric damage.
Needle Selection Considerations
Proper needle selection depends on fabric weight, fiber content, thread type, and desired seam characteristics. The relationship between needle size, thread weight, and fabric type must be balanced to achieve optimal results. Understanding needle structure enables sewers to troubleshoot common problems like skipped stitches, thread breakage, and fabric damage by selecting appropriate needle specifications for each project.
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