Mannequin for the surface treatment of pants. Mannequin for the surface treatment of pants, comprising an upper support structure from which two legs extend, wherein each of said legs has an inflatable balloon arranged at its rear part. Each of said inflatable balloons has its outer lateral section folded upon itself at least once around a folding line extending from the upper edge to the lower edge of the balloon. The upper edge is fixed to the rear upper end of the corresponding leg and the lower edge is fixed to a rear intermediate point of the corresponding leg, such that the parts of the edges corresponding to the outer lateral section are also fixed to the leg of the mannequin.

Aspects hereof relate to a multi-frame manufacturing apparatus for manufacturing articles from non-rigid materials and methods for manufacturing articles utilizing a multi-frame manufacturing apparatus. The multi-frame manufacturing apparatus includes a plurality of discrete frames, each frame including a movement mechanism that enables it to move between sequentially arranged processing stations. Each movement mechanism permits substantially horizontal movement forward and backward. The movement mechanism for at least one of the frames permits substantially vertical movement both up and down. Actuation of the movement mechanisms for at least two frames may permit the frames to switch their relative positions. Each frame additionally includes at least one gripping mechanism for temporarily securing non-rigid material in place on the framed for processing.

Methods, systems, and devices for changing cross-sectional sizes and/or shapes of flat braided sutures and the resulting constructs are disclosed. The flat braided sutures can have a textile first cross-sectional shape that can be changed to a textile second cross-sectional shape. The systems can have a heater and a die. The flat braided sutures can be movable through the heater and the die. When the flat braided sutures are in the heater, the flat braided sutures can be heatable from a textile first temperature to a textile second temperature greater than the textile first temperature. When the flat braided sutures are at the textile second temperature, the textile first cross-sectional shape can be changeable to the textile second cross-sectional shape.

A method for reversing a tubular knitted article (S) is disclosed. According to the method, the tubular knitted article (S), engaged at a first end thereof by a pick-up device (5) and hanging with a second end thereof from the pick-up device, is introduced in a reversing tube (15). The reversing tube (15) is moved through the pick-up device (5) so as to project with the upper end (15B) thereof above the pick-up device; and the reversing tube (15) is moved reciprocatingly up and down between an upper position and a lower position, while co-acting with a top clamping device (31) and a bottom clamping device (35) until the tubular knitted article (S) is entirely everted on the outer surface of the reversing tube (15).

A mannequin for supporting a pair of trousers whereon a laser marking is performed, having two leg structures housed inside the trouser legs. Each structure has a longitudinal axis, upper and lower areas, front and rear planes, an inner side and outer side. The separation between the inner and outer sides varies due to the tensing mechanism in order to go from a non-operative loosened position (A) to a maximum tensed end position (B) to perform the marking. Each leg structure is coupled to a respective main rotation axis around which rotates by a respective articulation having the mannequin for each leg structure. The main rotation axis is parallel to the direction of the dimension of the rise of the pair of trousers or collinear with it. The front planes can form at least two angles greater and/or less than 180° when rotated around the respective main rotation axes thereof.

Methods, systems, and devices for changing cross-sectional sizes and/or shapes of flat braided sutures and the resulting constructs are disclosed. The flat braided sutures can have a textile first cross-sectional shape that can be changed to a textile second cross-sectional shape. The systems can have a heater and a die. The flat braided sutures can be movable through the heater and the die. When the flat braided sutures are in the heater, the flat braided sutures can be heatable from a textile first temperature to a textile second temperature greater than the textile first temperature. When the flat braided sutures are at the textile second temperature, the textile first cross-sectional shape can be changeable to the textile second cross-sectional shape.

The present invention includes aligning ring guides disposed at opposite angles to each other to force the tubular knitted fabric to turn in a spiral direction allowing the wales or rows of stitches to rest at an angle with respect to the edge of the tube of fabric. This is the normal or resting state and position of the wales in a wash-tested sample or laundered garment. This is accomplished by a pair of add-ons for torque and skew reduction in a tubular knitted fabric, which includes a crossbeam and a pair of angled ring guide assemblies that depend from the crossbeam. Each angled ring guide assembly has a mount with a fixed portion and a movable portion, and further has a guide ring, with each angled ring guide assembly being disposed on the movable portion. The fixed portion contains a crescent-shaped slot, with the movable portion containing a peg that rides in the slot.

The present invention includes aligning ring guides disposed at opposite angles to each other to force the tubular knitted fabric to turn in a spiral direction allowing the wales or rows of stitches to rest at an angle with respect to the edge of the tube of fabric. This is the normal or resting state and position of the wales in a wash-tested sample or laundered garment. This is accomplished by a pair of add-ons for torque and skew reduction in a tubular knitted fabric, which includes a crossbeam and a pair of angled ring guide assemblies that depend from the crossbeam. Each angled ring guide assembly has a mount with a fixed portion and a movable portion, and further has a guide ring, with each angled ring guide assembly being disposed on the movable portion. The fixed portion contains a crescent-shaped slot, with the movable portion containing a peg that rides in the slot.

An assembled textile product includes a plurality of parts of fabric cut from one or more open pieces of fabric. At least one of the plurality of parts of fabric is cut from a tubular knitted fabric having a rest configuration and a stretched configuration. The tubular knitted fabric includes a heat adhesive material applied on at least a portion of a surface of the tubular knitted fabric in the stretched configuration so as to stabilize the first portion of the tubular knitted fabric by reducing its elasticity or deformability.

An assembled textile product includes a plurality of parts of fabric cut from one or more open pieces of fabric. At least one of the plurality of parts of fabric is cut from a tubular knitted fabric having a rest configuration and a stretched configuration. The tubular knitted fabric includes a heat adhesive material applied on at least a portion of a surface of the tubular knitted fabric in the stretched configuration so as to stabilize the first portion of the tubular knitted fabric by reducing its elasticity or deformability.