181 |
Woven fabric |
US3029435 |
1935-07-08 |
US2021993A |
1935-11-26 |
GUTLON SIDNEY S |
|
182 |
Woven fabric. |
US1910599269 |
1910-12-27 |
US1033843A |
1912-07-30 |
TRAUTVETTER WILLIAM GEORGE |
|
183 |
Haircloth fabric. |
US1905281238 |
1905-10-04 |
US890611A |
1908-06-16 |
COX GEORGE S |
|
184 |
Art of weaving. |
US1905271132 |
1905-07-25 |
US870823A |
1907-11-12 |
HANNAH WILLIAM |
|
185 |
Woven surgical bandage. |
US1904198929 |
1904-03-19 |
US781142A |
1905-01-31 |
HANRATH THEODORE W |
|
186 |
Necticut |
US748734D |
|
US748734A |
1904-01-05 |
|
|
187 |
clxment |
US494669D |
|
US494669A |
1893-04-04 |
|
|
188 |
Improvement in the manufacture of plain and figured fabrics |
US10019D |
|
US10019A |
1853-09-13 |
|
|
189 |
多功能编织帘 |
CN200820150531.9 |
2008-07-04 |
CN201232511Y |
2009-05-06 |
朱江铭 |
本实用新型提供一种交织帘,包括相互编织在一起的经线和纬线,所述经线和纬线之一为软性线材,而相对的另一纬线或经线为刚性材料,所述软性线材至少两根为一组,与刚性材料间扭结交织。织造后,经纬材料的强度大大优于单一材料的强度,很难用外力破坏本帘的结构,可以起到防弹、防盗、防强风等作用。另外,因两纬线之间留有一定间隙,经纬线之间形成网格,具有通风、透光、防飞虫的效果,起到一般纱幕的作用。该帘纬向刚性大,经向挠性好,解决了轨道式软性卷帘面料易滑出轨道的通病。本实用新型一帘多用,既节约了资源,又能满足调节室内小气候的要求。 |
190 |
Gauze fabric |
US14912644 |
2013-12-25 |
US10077510B2 |
2018-09-18 |
Shuichi Hozumi |
A gauze fabric includes a surface layer composed of twisted yarns, a back layer composed of twisted yarns, and a middle layer composed of twisted yarns. The middle layer is provided between the surface layer and the back layer. The surface layer and the back layer are directly and/or indirectly joined with each other. The twisted yarns in the surface layer are twisted yarns having twisting coefficient of 3.3 or less. The twisted yarns in the back layer are twisted yarns having twisting coefficient of 3.3 or less. The twisted yarns in the middle layer are twisted yarns having twisting coefficient of 3.5 or more. The gauze fabric has good touch feeling and is capable of being sewn. |
191 |
3D woven preforms with channels |
US15291418 |
2016-10-12 |
US10023981B2 |
2018-07-17 |
Brock Gilbertson |
A three-dimensional (3D) woven preform with channels in the through thickness direction developed for applications such as forming light weight preforms with an increased thickness. |
192 |
METHOD FOR WEAVING MULTIPLY GAUZE, AND MULTIPLY GAUZE WOVEN FABRIC |
US15533951 |
2014-12-10 |
US20170321354A1 |
2017-11-09 |
Shuichi HOZUMI |
To provide a gauze woven fabric which has excellent opaqueness, moisture retention properties, water absorbency and comfort for skin (softness) while maintaining light weight and air permeability which are characteristic properties of gauze woven fabrics. Warps (1,2) are supplied from a first beam, and wefts (3,4) are then drawn across the warps to form a tight layer A. Warps (5,6) are supplied from a second beam that has a higher supply speed than that of the first beam, and wefts (7,8) are then drawn across the warps to form a loosened layer B. Subsequently, knotting points for connecting the layer A to the layer B regularly are formed. |
193 |
Articles of footwear comprising a leno woven upper and methods of making the same |
US14793438 |
2015-07-07 |
US09756901B2 |
2017-09-12 |
Edward John Musho; John Acevedo; Andrea Nieto Perilla; Jeffrey William Bruner; Joseph Michael Davis; Leslie Allison Whittle |
An article of footwear having an upper comprising leno woven fabric. The leno woven fabric may be a single layer leno woven fabric. The leno woven fabric may have a pattern to provide desired characteristics, such as but not limited to, ventilation, thermal conductivity, stretchability, strength, moisture wicking, and/or antimicrobial protection. The pattern may be non-uniform to provide varying degrees of one or more of these characteristics. Methods for manufacturing an article of footwear including an upper comprising leno woven fabric are also provided. |
194 |
MULTI-LAYERED WOVEN ELEMENT |
US15403945 |
2017-01-11 |
US20170198424A1 |
2017-07-13 |
Meggin B. Alex; Martin Wragg |
The present embodiments provide a woven element having a first plurality of warp threads extending in a first direction and integrated into a first surface on a front side of the woven element. The woven element may have a second plurality of warp threads extending in the first direction, where the second plurality of warp threads is integrated into a second surface on a back side of the woven element. A first weft thread may extend in a second direction, where a first portion of the first weft thread is positioned in front of at least one warp thread of the first plurality of warp threads to form at least a portion of a graphic image on the front surface. A second portion of the first weft thread may extend between the first plurality of warp threads and the second plurality of warp threads. |
195 |
Articles of Footwear Comprising a Leno Woven Upper and Methods of Making the Same |
US14793438 |
2015-07-07 |
US20170006965A1 |
2017-01-12 |
Edward John MUSHO; John ACEVEDO; Andrea Nieto PERILLA; Jeffrey William BRUNER; Joseph Michael DAVIS; Leslie Allison WHITTLE |
An article of footwear having an upper comprising leno woven fabric. The leno woven fabric may be a single layer leno woven fabric. The leno woven fabric may have a pattern to provide desired characteristics, such as but not limited to, ventilation, thermal conductivity, stretchability, strength, moisture wicking, and/or antimicrobial protection. The pattern may be non-uniform to provide varying degrees of one or more of these characteristics. Methods for manufacturing an article of footwear including an upper comprising leno woven fabric are also provided. |
196 |
SCRIM COATED PRODUCTS HAVING A COEXTRUDED MULTI-LAYER COATING ON ONE SIDE THEREOF |
US15165692 |
2016-05-26 |
US20160348286A1 |
2016-12-01 |
Trevor Arthurs |
Protective coverings are disclosed that have a scrim made up of warp and weft members that define a plurality of interstices coated on only a first major surface thereof by a multi-layer coating with a first layer of the multi-layer coating juxtaposed to the first major surface, and penetrating into the interstices of the scrim to co-define, with the warp and weft members, an opposing second major surface of the scrim. The first layer of the multi-layer coating has a melting point below 100° C. and comprises a copolymer of ethylene, and provides the co-defined opposing second major surface of the scrim with a coefficient of friction of at least 0.5 when tested with dry leather and at least 0.7 when tested with dry rubber. |
197 |
WOVEN GAUZE FABRIC |
US15037268 |
2014-06-20 |
US20160289870A1 |
2016-10-06 |
Shuichi HOZUMI; Hisashi ITO |
A woven gauze fabric excellent in balance between breathability and heat-retaining property, transparency preventing property, and good touch feeling (softness). The woven gauze fabric includes a surface layer G1 and a back layer G3, wherein the layer G1 and G3 are directly and/or indirectly joined together. The layer is formed of a hollow yarn having a yarn count of 30-50 (both inclusive), and the layer G3 is formed of a hollow yarn having a yarn count of 30-50 (both inclusive). In a case where the woven gauze fabric is a triple gauze including a middle layer G2, the hollow yarn of the layer G1 and G3 have a yarn count of 40-50 (both inclusive). In a case where the woven gauze fabric is a double gauze, the hollow yarn of the layer G1 and G3 have a yarn count of 30-40 (both inclusive). |
198 |
Building Material with Woven Fabric and Methods of Making the Same |
US14581942 |
2014-12-23 |
US20160177480A1 |
2016-06-23 |
Alonza Paulk Cady; Samuel Jared Watson; Douglas Baird Smith |
A sheet building material used in construction has a woven fabric structural component including a portion with a leno weave providing an aggressive surface grip. The woven fabric is combined with structural features including tight weaves and loose weaves for implementation as a roof underlayment that maintains structural integrity. The building material optionally includes a non-woven material, a substrate such as biaxially oriented polypropylene, or additional woven structural components. |
199 |
Movement limiting band for an airbag module |
US14233772 |
2012-07-06 |
US09283919B2 |
2016-03-15 |
Daniele Aranzulla; Martina Rausch |
Elongate woven pulling means (10) for an airbag module comprises plural longitudinal portions (12, 14, 16, 18, 20) that have different warp densities. An airbag module for a vehicle safety system comprises an airbag, pulling means (10) coupled to the airbag and an activation unit coupled to the pulling means for releasing the pulling means upon actuation of the activation unit. The pulling means (10) is an elongate woven pulling means having different warp densities which is fastened to the airbag by a first end portion (12) of low warp density, preferably by stitching, and is coupled to the activation unit by a longitudinal portion (16) of high warp density. A method of manufacturing such pulling means (10) comprises the steps of: weaving a longitudinal portion (12; 20) on a loom of low warp density; and weaving a further longitudinal portion (16; 14, 18) on the loom having high or increasing warp density in the same working step. For weaving an adjustable reed having different widths is employed. |
200 |
A MASONRY REINFORCEMENT STRUCTURE COMPRISING PARALLEL CORDS |
US14771984 |
2014-04-03 |
US20160010348A1 |
2016-01-14 |
Henk CORNELUS; Ann LAMBRECHTS; David SIX; Veerle VAN WASSENHOVE; Frederik VERVAECKE |
A masonry reinforcement structure having cords. The cords are oriented parallel or substantially parallel in the length direction of the masonry reinforcement structure. Additionally, a method of manufacturing such masonry reinforcement structure and to a roll having such a masonry reinforcement structure. |