A machine for manufacturing boxers starting from a first and a second tubular fabric includes a separating station configured for separating a fabric element from the second tubular fabric. The machine includes a handling station configured for defining an operating configuration in which the first tubular fabric defines an operating area, and a moving device configured for placing the fabric element inside the operating area. The machine further comprises a sewing station configured for receiving the incoming tubular fabric and the fabric element placed in the operating area and for sewing longitudinal edges the fabric element to edge segments of an end of the first tubular fabric so as to obtain a boxer.

Systems and methods for producing printed goods from textile material to address shortcoming of existing approaches for article production. According to the systems and methods described herein, the harvested and woven cotton may be shipped directly to garment decorators who may perform all remaining steps to provide customers with finished goods. As such, the systems and methods herein may eliminate the steps of the blank goods trade and current manufacturing processes.

A centralized command and control network system for the automated manufacture of a personalized custom-fit garment comprises a centralized control system; automated programmable manufacturing equipment configured for assembling and stitching the personalized custom-fit garment from a digital pattern; and automated programmable material handling equipment configured for transporting the personalized custom-fit garment or its components through each step of the manufacturing equipment. After the customer has had his or her body scanned, and selected and personalized a garment design, the inventive manufacturing system will then manufacture the garment upon receipt of the order in an automated manner without requiring further substantive manual intervention or touch labor. The resultant personalized custom-fit garment is based on the customer's three-dimensional body shape and style and fit preferences. The system can be used to prepare any kind of garments.

The present invention relates to clothing having an anion-emitting silicone patch attached thereto and a method for manufacturing same. The clothing having an anion-emitting silicone patch attached thereto according to the present invention comprises: clothing; and a silicone patch which is adhered to the clothing and emits anions, wherein the silicone patch comprises anion ore powder and is adhered to clothing by seamless welding at a temperature ranging from 170 to 180 C. under a pressure of 45 to 55 psi applied for 9 to 13 seconds. Accordingly, the present invention manufactures silicone patches using an anion-emitting material and adheres same to clothing, thereby, as a result of the anions, improving blood circulation in the human body and relieving fatigue, and enabling the patches to be firmly attached to the clothes by silicone. The patches exhibit excellent adhesiveness and washing fastness even after washing and remain steadily attached regardless of the passage of time, and the anion-emitting material is not easily removed, enabling the long, semi-permanent use thereof.

The present invention relates to clothing having an anion-emitting silicone patch attached thereto and a method for manufacturing same. The clothing having an anion-emitting silicone patch attached thereto according to the present invention comprises: clothing; and a silicone patch which is adhered to the clothing and emits anions, wherein the silicone patch comprises anion ore powder and is adhered to clothing by seamless welding at a temperature ranging from 170 to 180 C. under a pressure of 45 to 55 psi applied for 9 to 13 seconds. Accordingly, the present invention manufactures silicone patches using an anion-emitting material and adheres same to clothing, thereby, as a result of the anions, improving blood circulation in the human body and relieving fatigue, and enabling the patches to be firmly attached to the clothes by silicone. The patches exhibit excellent adhesiveness and washing fastness even after washing and remain steadily attached regardless of the passage of time, and the anion-emitting material is not easily removed, enabling the long, semi-permanent use thereof.

Systems and processes for reinforcing components of articles of wear are disclosed. The processes can include applying a thermoplastic powder to a component of an article of wear and levelling at least a portion of the thermoplastic powder. The processes can also include applying thermal energy to the component and the thermoplastic powder. Further, the processes can include compressing the thermoplastic powder and the component.

Multilayer substrates are provided that do not require use of an attachment mechanism to combine the different layers of material. Further, the systems and method for creation thereof is also provide. Additionally, structured garments with very few or no seams are provided herein. The systems and method for creation thereof is also provided. More specifically, sprayable nanofibers are utilized to create the above-described multilayered fabrics and structured garments. Accordingly, the provided systems and method are more efficient and more cost effective than previously utilized systems and methods for creating multilayer or structured substrates or garments that required the use of adhesive mechanisms and/or several seams.

Multilayer substrates are provided that do not require use of an attachment mechanism to combine the different layers of material. Further, the systems and method for creation thereof is also provide. Additionally, structured garments with very few or no seams are provided herein. The systems and method for creation thereof is also provided. More specifically, sprayable nanofibers are utilized to create the above-described multilayered fabrics and structured garments. Accordingly, the provided systems and method are more efficient and more cost effective than previously utilized systems and methods for creating multilayer or structured substrates or garments that required the use of adhesive mechanisms and/or several seams.

Systems and processes for reinforcing components of articles of wear are disclosed. The processes can include applying a thermoplastic powder to a component of an article of wear and levelling at least a portion of the thermoplastic powder. The processes can also include applying thermal energy to the component and the thermoplastic powder. Further, the processes can include compressing the thermoplastic powder and the component.

The invention relates to a method for continuously manufacturing elastic pants (28), wherein a flat web material (1, 16, 19) is continuously conveyed in a longitudinal direction (8) of the web material (1, 16, 19), is shaped into a closed tube (4), and is closed in the longitudinal direction (8). The closed tube (4) forms a first outer layer (9). Elastic threads (10) in the form of a tubular reinforcement are then wound around the first outer layer (9) in the conveying direction (8) in such a way that the elastic threads (10) are taut when the outer layer (9) has a convex shape. A second outer layer (15) is then continuously applied to the elastic threads (10) in the conveying direction (8) and is joined to the elastic threads (10) and/or the first outer layer (9). The first outer layer (9), the elastic threads (10) and the second outer layer (15) form an elastic pants web material (21). Further down in the conveying direction (8), the pants web material (21) is closed along a joining section (29) in regular intervals such that the joining section (29) forms two approximately equally large opening sections that lie opposite each other in the transverse direction. Further down in the conveying direction (8), the pants web material (21) is cut at a distance from the joining section (29) such that a pair of elastic pants (28) is formed.