子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于烟草材料的热处理方法 | CN201180048508.3 | 2011-08-11 | CN103153098A | 2013-06-12 | 陈功; A·R·杰拉尔迪; J-P·穆阿; D·E·小希尔顿; D·V·坎特尔; F·K·圣查尔斯; S·C·莫尔多韦亚努; P·A·布林克雷 |
| 本发明提供了一种制备用于吸烟制品中的烟草材料的方法,其包括(i)混合烟草材料、水和添加剂,所述添加剂选自赖氨酸、甘氨酸、组氨酸、丙氨酸、蛋氨酸、谷氨酸、天冬氨酸、脯氨酸、苯基丙氨酸、缬氨酸、精氨酸、二价和三价阳离子、天冬酰胺酶、糖类、酚类化合物、还原剂、具有自由硫醇基团的化合物、氧化剂、氧化催化剂、植物提取物和它们的组合;(ii)加热所述混合物;以及(iii)将经热处理的混合物作为可烟吸材料而掺入吸烟制品。本发明也提供了一种卷烟形式的吸烟制品,其包括烟草材料,所述烟草材料经预处理以抑制在主流烟气中天冬酰胺形成丙烯酰胺的反应。当抽吸时,所述吸烟制品的特征在于相对于未经处理的对照吸烟制品,主流烟气的丙烯酰胺含量降低。 | ||||||
| 2 | 用于烟草材料的热处理方法 | CN201180048508.3 | 2011-08-11 | CN103153098B | 2016-09-28 | 陈功; A·R·杰拉尔迪; J-P·穆阿; D·E·小希尔顿; D·V·坎特尔; F·K·圣查尔斯; S·C·莫尔多韦亚努; P·A·布林克雷 |
| 本发明提供了一种制备用于吸烟制品中的烟草材料的方法,其包括(i)混合烟草材料、水和添加剂,所述添加剂选自赖氨酸、甘氨酸、组氨酸、丙氨酸、蛋氨酸、谷氨酸、天冬氨酸、脯氨酸、苯基丙氨酸、缬氨酸、精氨酸、二价和三价阳离子、天冬酰胺酶、糖类、酚类化合物、还原剂、具有自由硫醇基团的化合物、氧化剂、氧化催化剂、植物提取物和它们的组合;(ii)加热所述混合物;以及(iii)将经热处理的混合物作为可烟吸材料而掺入吸烟制品。本发明也提供了一种卷烟形式的吸烟制品,其包括烟草材料,所述烟草材料经预处理以抑制在主流烟气中天冬酰胺形成丙烯酰胺的反应。当抽吸时,所述吸烟制品的特征在于相对于未经处理的对照吸烟制品,主流烟气的丙烯酰胺含量降低。 | ||||||
| 3 | 形成滤烟器用多孔物质的设备、系统和相关方法 | CN201180057817.7 | 2011-10-14 | CN103237467A | 2013-08-07 | T·S·加勒特; 缑泽明; L·E·齐泽尔; R·M·罗伯特森 |
| 一种用于生产多孔物质的系统可以包括:沿材料路径设置的模腔;在模腔的至少一部分之前的至少一个进料斗,用于将基质材料供给到材料路径;与材料路径的至少第一部分热连通的热源;以及在材料路径的第一部分之后沿材料路径设置的切割器。 | ||||||
| 4 | 形成滤烟器用多孔物质的设备、系统和相关方法 | CN201280003756.0 | 2012-10-11 | CN103220924A | 2013-07-24 | T·S·加利特; R·M·罗伯特森; L·E·凯泽; Z·茩 |
| 用于制造适于与吸烟装置配合使用的多孔物质的高吞吐量生产方法可以包括:连续组合基质材料和包装纸以形成所述基质材料被所述包装纸界定的所需横截面形状,所述基质材料包含粘合剂颗粒和活性颗粒;加热所述基质材料的至少一部分,以便将所述基质材料粘合在多个接触点处,从而形成长态多孔物质,其中加热包括用微波辐射照射所述基质材料的至少一部分;冷却所述长态多孔物质;以及径向切割所述长态多孔物质,从而生产多孔物质。 | ||||||
| 5 | Fibers with multicomponent fibers used for coding | US14748819 | 2015-06-24 | US09972224B2 | 2018-05-15 | Larry Wayne Renfro; Andrew Ervin McLeod; Humberto Collazo; Ernest Phillip Smith |
| Disclosed are fibers which contains identification fibers. The identification fibers can contain a plurality of distinct features, or taggants, which vary among the fibers and/or along the length of the identification fibers of the fibers, a fiber band, or. The disclosed embodiments also relate to the method for making and characterizing the fibers. Characterization of the fibers can include identifying distinct features, combinations of distinct features, and number of fibers with various combinations of distinct features to supply chain information. The supply chain information can be used to track the fibers, fiber band, or yarn from manufacturing through intermediaries, conversion to final product, and/or the consumer. | ||||||
| 6 | METHOD OF MAKING AN ACETATE TOW BAND WITH SHAPE AND SIZE USED FOR CODING | US15824200 | 2017-11-28 | US20180078887A1 | 2018-03-22 | Andrew Ervin McLeod; Scott Gregory Gaynor; Steven Anthony Wilson; Lydia J. Salyer; Humberto Collazo; Larry Wayne Renfro; Jeremy Kenneth Steach; Brian Douglas Seiler |
| Disclosed are fibers comprising identification fibers which can be used for tracking and tracing fibers, yarns, fiber bands, and/or articles comprising the fibers through at least part of the supply chain. Each identification fiber exhibits at least one distinct feature. Each group of distinguishable identification fibers can exhibit a taggant cross-section shape, a taggant cross-section size, or combination of the same taggant cross-section shape and same taggant cross-section size. The distinct features and the number of fibers in each group of distinguishable identification fibers can represent at least one supply chain component of the fibers. The distinct features can be detectable in an article comprising the fibers. | ||||||
| 7 | Fibers with physical features used for coding | US15460388 | 2017-03-16 | US09916482B2 | 2018-03-13 | Andrew Ervin McLeod; Scott Gregory Gaynor; Steven Anthony Wilson; Lydia Juanita Salyer; Humberto Collazo; Larry Wayne Renfro; Jeremy Kenneth Steach; Brian Douglas Seiler; Clarissa Tatum |
| Disclosed are fibers which contains identification fibers. The identification fibers can contain a plurality of distinct features, or taggants, which vary among the fibers and/or along the length of the identification fibers, a fiber band, or yarn. The disclosed embodiments also relate to the method for making and characterizing the fibers. Characterization of the fibers can include identifying distinct features, combinations of distinct features, and number of fibers with various combinations of distinct features and correlating the distinct features to supply chain information. The supply chain information can be used to track the fibers, fiber band, or yarn from manufacturing through intermediaries, conversion to final product, and/or the consumer. | ||||||
| 8 | Fibers with chemical markers used for coding | US14748753 | 2015-06-24 | US09851341B2 | 2017-12-26 | Scott Gregory Gaynor; Andrew Ervin McLeod; Michael John Rodig; Jeremy Kenneth Steach; Humberto Collazo; Steven Anthony Wilson; Lydia J. Salyer; Brian Douglas Seiler; Jonathan Horton |
| Disclosed are fibers which contain identification fibers. The identification fibers can comprise one or more chemical markers, or taggants, which may vary among the fibers or be incorporated throughout all of the fibers. The disclosure also relates to the method for making and characterizing the fibers. Characterization of the fibers can include identifying chemical markers and correlating the chemical markers and a taggant chemical marker amounts of at least one of the chemical markers to manufacturer-specific taggants to determine supply chain information. The supply chain information can be used to track the fibers from manufacturing through intermediaries, conversion to final product, and/or the consumer. | ||||||
| 9 | FIBERS WITH PHYSICAL FEATURES USED FOR CODING | US15460388 | 2017-03-16 | US20170235978A1 | 2017-08-17 | Andrew Ervin McLeod; Scott Gregory Gaynor; Steven Anthony Wilson; Lydia Juanita Salyer; Humberto Collazo; Larry Wayne Renfro; Jeremy Kenneth Steach; Brian Douglas Seiler; Clarissa Tatum |
| Disclosed are fibers which contains identification fibers. The identification fibers can contain a plurality of distinct features, or taggants, which vary among the fibers and/or along the length of the identification fibers, a fiber band, or yarn. The disclosed embodiments also relate to the method for making and characterizing the fibers. Characterization of the fibers can include identifying distinct features, combinations of distinct features, and number of fibers with various combinations of distinct features and correlating the distinct features to supply chain information. The supply chain information can be used to track the fibers, fiber band, or yarn from manufacturing through intermediaries, conversion to final product, and/or the consumer. | ||||||
| 10 | Method of Manufacturing Smoking Article With Activated Carbon Sorbent and Sodium Bicarbonate-Treated Fibers | US15338997 | 2016-10-31 | US20170042220A1 | 2017-02-16 | Lixin Xue; Liqun Yu; Joel Schendel |
| Filters and smoking articles include sodium bicarbonate-treated fibers and activated carbon capable of selectively removing one or more selected constituents from mainstream smoke. Methods for making cigarette filters and cigarettes using the sodium bicarbonate-treated fibers and activated carbon, and methods for treating mainstream smoke comprising the sodium bicarbonate-treated fibers and activated carbon are also provided. | ||||||
| 11 | Fibers with surface markings used for coding | US14748865 | 2015-06-24 | US09442074B2 | 2016-09-13 | Andrew Ervin McLeod; Brian Douglas Seiler; Scott Gregory Gaynor; Michael Joseph Pearce; Kevin Todd Barham; James Andrew Dickenson; Clarissa Tatum |
| Disclosed are fibers comprising one or more branded fibers which exhibit surface markings in a repeated pattern along the length of the branded fibers. The branded fibers can be incorporated into yarns or fiber bands to represent supply chain information of the yarns, fiber bands, and/or articles made from the yards or fiber bands. In a specific example, branded fibers can be incorporated into an acetate tow band. The branded fibers can be recovered from a cigarette filter, the repeated pattern decoded, and supply chain information associated with the acetate tow used to make the cigarette filter, such as manufacturer, customer, ship to location, and even the acetate tow bale, can be obtained. | ||||||
| 12 | Low ignition propensity cigarette paper and cigarette using the same | US14417127 | 2012-12-05 | US09265285B2 | 2016-02-23 | Ik won Gwak; Jong-Oh Kim; Seong-Ho Ju; Young-Sin Kim; Kwang Se Lee |
| A low ignition propensity cigarette paper includes a coating portion including a hydrophobic starch and a hydrophilic starch, and a plurality of pores including a micrometer-size pore and a nanometer-size pore, wherein the hydrophobic starch and the hydrophilic starch cover the micrometer-size pore and the nanometer-size pore. | ||||||
| 13 | FIBERS WITH SURFACE MARKINGS USED FOR CODING | US14748865 | 2015-06-24 | US20150379903A1 | 2015-12-31 | Andrew Ervin McLeod; Brian Douglas Seiler; Scott Gregory Gaynor; Michael Joseph Pearce; Kevin Todd Barham; James Andrew Dickenson; Clarissa Tatum |
| Disclosed are fibers comprising one or more branded fibers which exhibit surface markings in a repeated pattern along the length of the branded fibers. The branded fibers can be incorporated into yarns or fiber bands to represent supply chain information of the yarns, fiber bands, and/or articles made from the yards or fiber bands. In a specific example, branded fibers can be incorporated into an acetate tow band. The branded fibers can be recovered from a cigarette filter, the repeated pattern decoded, and supply chain information associated with the acetate tow used to make the cigarette filter, such as manufacturer, customer, ship to location, and even the acetate tow bale, can be obtained. | ||||||
| 14 | FIBERS WITH MULTICOMPONENT FIBERS USED FOR CODING | US14748819 | 2015-06-24 | US20150377792A1 | 2015-12-31 | Larry Wayne Renfro; Andrew Ervin McLeod; Humberto Collazo; Ernest Phillip Smith |
| Disclosed are fibers which contains identification fibers. The identification fibers can contain a plurality of distinct features, or taggants, which vary among the fibers and/or along the length of the identification fibers of the fibers, a fiber band, or. The disclosed embodiments also relate to the method for making and characterizing the fibers. Characterization of the fibers can include identifying distinct features, combinations of distinct features, and number of fibers with various combinations of distinct features to supply chain information. The supply chain information can be used to track the fibers, fiber band, or yarn from manufacturing through intermediaries, conversion to final product, and/or the consumer. | ||||||
| 15 | LOW IGNITION PROPENSITY CIGARETTE PAPER AND CIGARETTE USING THE SAME | US14417127 | 2012-12-05 | US20150173415A1 | 2015-06-25 | Ik won Gwak; Jong-Oh Kim; Seong-Ho Ju; Young-Sin Kim; Kwang Se Lee |
| A low ignition propensity cigarette paper includes a coating portion including a hydrophobic starch and a hydrophilic starch, and a plurality of pores including a micrometer-size pore and a nanometer-size pore, wherein the hydrophobic starch and the hydrophilic starch cover the micrometer-size pore and the nanometer-size pore. | ||||||
| 16 | Apparatuses, systems, and associated methods for forming porous masses for smoke filter | US13854253 | 2013-04-01 | US09027566B2 | 2015-05-12 | Thomas S. Garrett; Zeming Gou; Lawton E. Kizer; Raymond M. Robertson |
| A system for producing porous masses may include a mold cavity disposed along the material path, at least one hopper before at least a portion of the mold cavity for feeding a matrix material to the material path, a heat source in thermal communication with at least a first portion of the material path, and a cutter disposed along the material path after the first portion of the material path. | ||||||
| 17 | Apparatuses, Systems, and Associated Methods for Forming Porous Masses for Smoke Filter | US13854281 | 2013-04-01 | US20130221563A1 | 2013-08-29 | Thomas S. Garrett; Zeming Gou; Lawton E. Kizer; Raymond M. Robertson |
| A system for producing porous masses may include a mold cavity disposed along the material path, at least one hopper before at least a portion of the mold cavity for feeding a matrix material to the material path, a heat source in thermal communication with at least a first portion of the material path, and a cutter disposed along the material path after the first portion of the material path. | ||||||
| 18 | THERMAL TREATMENT PROCESS FOR TOBACCO MATERIALS | US12855343 | 2010-08-12 | US20110048434A1 | 2011-03-03 | Gong Chen; Anthony Richard Gerardi; John-Paul Mua; Darrell Eugene Holton, JR.; Daniel Verdin Cantrell; Frank Kelley St. Charles; Serban C. Moldoveanu; Paul Andrew Brinkley |
| A method of preparing a tobacco material for use in a smoking article is provided, including (i) mixing a tobacco material, water, and an additive selected from the group consisting of lysine, glycine, histidine, alanine, methionine, glutamic acid, aspartic acid, proline, phenylalanine, valine, arginine, di- and trivalent cations, asparaginase, saccharides, phenolic compounds, reducing agents, compounds having a free thiol group, oxidizing agents, oxidation catalysts, plant extracts, and combinations thereof; (ii) heating the mixture; and (iii) incorporating the heat-treated mixture into a smoking article as a smokable material. A smoking article in the form of a cigarette is also provided that includes a tobacco material pre-treated to inhibit reaction of asparagine to form acrylamide in mainstream smoke. Upon smoking, the smoking article is characterized by an acrylamide content of mainstream smoke that is reduced relative to an untreated control smoking article. | ||||||
| 19 | Transferring means for cigarette counter-rolling machines | US5204825 | 1925-08-24 | US1738615A | 1929-12-10 | FRIEDRICH ROBER CONSTANTIN |
| 20 | Method of manufacturing cigarette-tubes with hollow mouthpieces | US4027415 | 1915-07-16 | US1399551A | 1921-12-06 | CLEMENS GRAHL MAX |
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