Class / Patent application number | Description | Number of patent applications / Date published |
139383000 |
FABRICS
| 200 |
139035000 |
WARP MANIPULATION
| 58 |
139011000 |
SPECIAL-TYPE LOOMS
| 55 |
139116100 |
WEFT MANIPULATION
| 48 |
139291000 |
FABRIC MANIPULATION
| 7 |
139001000 |
MISCELLANEOUS | 4 |
20090071563 | METHOD OF INSPECTING CLOTH - A method of inspecting cloth includes conveying a continuous cloth by activating a belt transfer device; disposing a transverse label bar assembly on the cloth wherein the label bar assembly is adapted to slide about a transverse label meter on a top edge of the belt transfer device; and in response to finding a defective point of the cloth sliding the label bar assembly to record a distance between the label bar assembly and a left end of the label meter as a value in an X axis, activating a stop watch proximate the top edge of the belt transfer device to record length of the cloth as a value in a Y axis, and representing the defective point as (Xn1, Yn2) where n1 is a number in a range of 1 to a predetermined number, and n2 is the length of the cloth. | 03-19-2009 |
20090038705 | DRIVE FOR A WEB MACHINE - In a drive system for a weaving loom comprising a switching wheel ( | 02-12-2009 |
20110290368 | Method for Operating a Weaving Machine Comprising a Shedding Machine - The invention relates to a weaving machine with a shedding machine, which comprises activatable and deactivatable movements of the shedding means with a drive which is controlled independently of a drive of the weaving machine. During an operating malfunction the shedding means are controlled (N, N+1) in such a manner so that measures for eliminating the operating malfunction can be carried out. In that regard, merely the rotational speed of the weaving machine (n | 12-01-2011 |
20180023226 | Starting Method for a Weaving Machine | 01-25-2018 |
20090071563 | METHOD OF INSPECTING CLOTH - A method of inspecting cloth includes conveying a continuous cloth by activating a belt transfer device; disposing a transverse label bar assembly on the cloth wherein the label bar assembly is adapted to slide about a transverse label meter on a top edge of the belt transfer device; and in response to finding a defective point of the cloth sliding the label bar assembly to record a distance between the label bar assembly and a left end of the label meter as a value in an X axis, activating a stop watch proximate the top edge of the belt transfer device to record length of the cloth as a value in a Y axis, and representing the defective point as (Xn1, Yn2) where n1 is a number in a range of 1 to a predetermined number, and n2 is the length of the cloth. | 03-19-2009 |
20090038705 | DRIVE FOR A WEB MACHINE - In a drive system for a weaving loom comprising a switching wheel ( | 02-12-2009 |
20110290368 | Method for Operating a Weaving Machine Comprising a Shedding Machine - The invention relates to a weaving machine with a shedding machine, which comprises activatable and deactivatable movements of the shedding means with a drive which is controlled independently of a drive of the weaving machine. During an operating malfunction the shedding means are controlled (N, N+1) in such a manner so that measures for eliminating the operating malfunction can be carried out. In that regard, merely the rotational speed of the weaving machine (n | 12-01-2011 |
20180023226 | Starting Method for a Weaving Machine | 01-25-2018 |
20090071563 | METHOD OF INSPECTING CLOTH - A method of inspecting cloth includes conveying a continuous cloth by activating a belt transfer device; disposing a transverse label bar assembly on the cloth wherein the label bar assembly is adapted to slide about a transverse label meter on a top edge of the belt transfer device; and in response to finding a defective point of the cloth sliding the label bar assembly to record a distance between the label bar assembly and a left end of the label meter as a value in an X axis, activating a stop watch proximate the top edge of the belt transfer device to record length of the cloth as a value in a Y axis, and representing the defective point as (Xn1, Yn2) where n1 is a number in a range of 1 to a predetermined number, and n2 is the length of the cloth. | 03-19-2009 |
20090038705 | DRIVE FOR A WEB MACHINE - In a drive system for a weaving loom comprising a switching wheel ( | 02-12-2009 |
20110290368 | Method for Operating a Weaving Machine Comprising a Shedding Machine - The invention relates to a weaving machine with a shedding machine, which comprises activatable and deactivatable movements of the shedding means with a drive which is controlled independently of a drive of the weaving machine. During an operating malfunction the shedding means are controlled (N, N+1) in such a manner so that measures for eliminating the operating malfunction can be carried out. In that regard, merely the rotational speed of the weaving machine (n | 12-01-2011 |
20180023226 | Starting Method for a Weaving Machine | 01-25-2018 |
139002000 |
PILE TUFTING | 3 |
20140076453 | APPARATUS AND METHOD FOR LOADING TUFTS INTO A TUFT CARRIER - A tuft carrier loading apparatus ( | 03-20-2014 |
20100282357 | YARN TUFT HOLDER - A yarn tuft holder ( | 11-11-2010 |
20100200103 | YARN TUFT TRANSFER SYSTEM - A yarn tuft transfer system ( | 08-12-2010 |
20140076453 | APPARATUS AND METHOD FOR LOADING TUFTS INTO A TUFT CARRIER - A tuft carrier loading apparatus ( | 03-20-2014 |
139317000 |
PATTERN MECHANISM | 2 |
20080196783 | Fully Textile Electrode Lay-Out Allowing Passive and Active Matrix Addressing - A textile is formed from interwoven electrically conductive and non-conductive yarns to provide an array of connection points on one or both surfaces of the textile, facilitating the connection of electronic components to the surface of the textile, in an array. The textile comprises a multi-layer warp having electrically conductive and non-conductive yarns and a weft having electrically conductive and non-conductive yarns. At least some of the electrically conductive weft yarns cross selected electrically conductive warp yarns without electrical contact therebetween by being separated from the electrically conductive warp yarns by at least one non-conductive warp yarn in each layer of the multi-layer warp. Loops formed by the electrically conductive weft yarns provide electrical connection points together with proximal portions of electrically conductive warp yarns. | 08-21-2008 |
20140352838 | FIBER PREFORM ARCHITECTURE FOR COMPOSITE ARTICLES AND METHOD OF FABRICATION - A fiber preform architecture and method of making, including a plurality of fiber bands. Each band of the plurality of fiber bands is placed at a time, at a predetermined position and orientation, to generate an interwoven and interlocking pattern between the fiber bands. Each of the plurality of fiber bands is formed of a plurality of fiber tows, positioned side by side at a predetermined spacing to define one or more gaps between each tow in the fiber band and define a secondary based interleaving within each of the fiber bands. The plurality of fiber bands are interwoven in an in-plane and out-of-plane orientation by interleaving each of the plurality of fiber bands with one or more of the plurality of fiber bands previously laid down and not in a common plane. The plurality of fiber bands include three or more different orientation angles and provide uniformity in coverage. | 12-04-2014 |
139336000 |
STOPPING | 1 |
20100139804 | APPARATUS FOR DETECTING BREAK IN WARP YARN IN LOOM - An apparatus for detecting a break in a warp yarn in a loom includes a heald, a heald frame, a carrier rod, a sensor, a controller and a signal line. The heald is made of a resin material for guiding a warp yarn. The heald frame performs a shedding operation of warp yarns and has the carrier rod for supporting a plurality of the healds. The sensor is provided in the heald for sensing a deformation of the heald caused by a tension of the warp yarn and outputting a signal. The controller is provided for determining a condition of the break in the warp yarn based on the signal of the sensor. The signal line electrically connects to the sensor and the controller. | 06-10-2010 |