| 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 | 一种NV系列环保型橡胶地板胶料及其制备方法 | CN201610710385.X | 2016-08-23 | CN106336547A | 2017-01-18 | 李举平; 黄小军; 张林; 刘宗建 |
| 本发明公开了一种NV系列环保型橡胶地板胶料,按重量百分比由以下原料组成:NV橡胶、氧化锌、活性氧化镁、硬脂酸、防老剂、钛白粉、陶土、阻燃剂HP800、氢氧化铝、硼酸锌、阻燃剂BN-18C、白炭黑、纳米高岭土、超细碳酸钙、抗静电剂、分散剂、流动助剂、抗紫外线剂、抗菌剂、除味剂、硫化剂S-80、促进剂、硫化剂CLD-80、颜料,以上组分的含量百分比总和为100%,本发明还公开了NV系列环保型橡胶地板胶料的制备方法,解决了现有地材不耐水、不耐磨、不防火、不抗菌、价格贵、释放有害气体或放射元素的问题。 | ||||||
| 2 | 用于管理与提取橡胶的银胶菊灌木加工相关的废物的系统和方法 | CN201380032039.5 | 2013-06-18 | CN104395350B | 2017-07-14 | 黄颖怡; R·W·汉德劳斯; J·L·西华; H·穆里 |
| 本发明提供了用于管理与从银胶菊灌木中提取橡胶相关的废物的系统和方法。还提供的是用于降低与用于橡胶提取的银胶菊灌木加工相关的运输成本的便携式地方性子站。使用公开的系统、方法和/或地方性子站可降低运输成本,降低加工成本并降低与从银胶菊灌木中提取橡胶相关的下游加工复杂性。 | ||||||
| 3 | 双螺旋积木式真空加热低碳天然橡胶加工系统 | CN201610919432.1 | 2016-10-21 | CN106273059A | 2017-01-04 | 黄润燕; 许灿姬; 黎春柏; 陈云川; 廖柏淞 |
| 本发明公开了一种双螺旋积木式真空加热低碳天然橡胶加工系统,它包括将凝固成块状的天然橡胶加工成小块/颗粒状的破碎机,其特征在于还包括:将小块/颗粒状的天然橡胶通过挤压排水份,实现干燥的锥形挤压机;双螺旋杆与包括加热、冷却和抽真空的多节干燥模块通过积木式连接,构成将天然橡胶干燥的干燥装置;其中,破碎机的出料输送到锥形挤压机的进料斗,锥形挤压机的出料通过出料口送入干燥装置的入料斗。该系统中无需安装锅炉,排放为清水,环保安全。彻底改变原有天然橡胶加工设备和工艺,占地面积少,一机多用,降低成本,清洁生产无污染,低耗能,简化工艺,提高产品质量,增加行业经济效益和社会效益,推动行业技术进步。 | ||||||
| 4 | 用于管理与提取橡胶的银胶菊灌木加工相关的废物的系统和方法 | CN201380032039.5 | 2013-06-18 | CN104395350A | 2015-03-04 | 黄颖怡; R·W·汉德劳斯; J·L·西华; H·穆里 |
| 本发明提供了用于管理与从银胶菊灌木中提取橡胶相关的废物的系统和方法。还提供的是用于降低与用于橡胶提取的银胶菊灌木加工相关的运输成本的便携式地方性子站。使用公开的系统、方法和/或地方性子站可降低运输成本,降低加工成本并降低与从银胶菊灌木中提取橡胶相关的下游加工复杂性。 | ||||||
| 5 | 天然橡胶初加工工艺 | CN201610977306.1 | 2016-11-08 | CN106514901A | 2017-03-22 | 赖伟平; 张园; 邓怡国 |
| 本发明公开了一种天然橡胶初加工工艺,包括如下步骤:S1、用破胶机将烟片胶切碎成胶块,然后通过振动进行杂质分离,分离后的胶块进行第一次泡水清洗;S2、将胶块进一步切碎,切碎后的胶料进行第二次泡水清洗;S3、将清洗后的胶料与经破碎机破碎的天然橡胶乳胶凝块一起混合,混合后的胶料进行第三次泡水清洗;S4、清洗后的胶料送入第一级绉片机组辊压成片,辊压成片的胶片送入第一台撕粒机进行第一次造粒,撕碎成颗粒的胶粒落入水池第四次清洗;S5、清洗后的胶料送入第二级绉片机组,第二次压绉成片,胶片再送入第二台撕粒机进行第二次造粒;S6、输胶泵将胶粒输送到烘干线烘干。本发明的加工工艺可使胶料具有较高的均一性和优良的软硬度。 | ||||||
| 6 | METHOD FOR PROCESSING POLYMER MATERIALS SUCH AS RUBBER AND INSTALLATION TO CARRY OUT SUCH METHOD | EP00970346.3 | 2000-07-04 | EP1213114A2 | 2002-06-12 | Efremov, Vladimir Sergeevich |
A method and an installation for processing polymer materials, e.g., rubber, are proposed in which a cooling chamber 6 is positioned substantially vertically, dosage means are arranged at an input into the cooling chamber 6 and at an exit therefrom, are positioned coaxially in respect to the cooling chamber and are made with the possibility of controlling the supply and removal of processed rubber crumbs. Openings for the supply or cooling air are positioned in the upper and lower parts of the cooling chamber, and an opening for the removal of spent air is positioned in the middle part of the chamber. The cooling chamber comprises at least one annular chamber positioned coaxially in respect to the cooling chamber with the formation of a gap between them and having a greater size in the radial direction than the cooling chamber. The ratio of the size of the annular chamber to that of the cooling chamber is within the range of from about 1.1 to about 1.2 (Fig. 2). |
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| 7 | Verfahren zum Behandeln von unvulkanisierten elastomeren Formkörpern oder Halbfabrikaten | EP84109593.8 | 1984-08-11 | EP0141087B1 | 1991-05-22 | Harms, Engelbert G., Dr.-Ing., Dipl.-Ing.; Schmeitz, Axel Wilhelm M., Dipl.-Ing.; Thomaschewski, Hubertus Paulus |
| 8 | Manufacture of ethylene propylene rubber bale with excellent kneading property | JP18369484 | 1984-09-04 | JPS6161810A | 1986-03-29 | YAMAMOTO MINEO; IWATA AKIHIRO; ITO TADAHIKO |
| PURPOSE:To obtain a bale having excellent kneading property with compounding agent for rubber by a method wherein crumbs, to which a small amount of anti-adhesion agent is added under fixed conditions before forming the bale, is formed under the specified pressure for the specified period of press time. CONSTITUTION:In order to press-mold ethylene propylene rubber in crumb shape into bale shape, firstly, the ethylene propylene rubber in crumb shape is brought under the conditions that its temperature lies in 20-60 deg.C and its water content lies in 0.3-1.0wt% and 0.01-2.0pts.wt. of anti-adhesion agent is added to 100pts.wt. of rubber. After that, a pressure of 20-80kg/cm<2> is applied for 0.5-5sec onto said ethylene propylene rubber. As a result, dry ethylene propylene rubber crumbs can be removed from a baler with its bale shape retained so as to obtain a bale formed in a rectangular parallelepiped. Thus, a bale, which represents excellent kneading property when kneaded with compounding agent for rubber, can be manufactured. | ||||||
| 9 | Automatic packer of rubber material into pallet | JP7220984 | 1984-04-10 | JPS60214913A | 1985-10-28 | MIYAJIMA TAKASHI; HASHIMOTO ATSUSHI |
| PURPOSE:To permit the packing of a rubber material in any closed arrangement into a pallet compactly by providing a single grip piece and plural grip pieces on both ends along the longitudinal direction of a partition plate and also paired grip pieces on both ends along the widthwise direction in a reciprocally movable manner. CONSTITUTION:A grip piece 8 is hung on one end in the longitudinal direction of a base frame 6 and a grip piece 9 and a grip piece 10 are hung on the other end in a reciprocally movable manner. A partition plate is hung downwards between both he grip pieces 8 and 9 and turned horizontally through 90 deg. angles. Grip pieces 24 and 25 are hung on one end in the widthwise direction and grip pieces 24' and 25' are hung on the other end in a reciprocally movable manner. Each grip piece is retracted, the partition plate is set in parallel with the grip piece, and an oil-pressure cylinder is operated to compress a work W toward the widthwide direction. The oil-pressure cylinder is operated to move each grip piece inwards, and the work W is compressed toward the lengthwise direction to obtain a molding parallelly arranged three pieces unitedly. By operating each oil-pressure cylinder, the work W is released from compressed state and closely attached with the inner wall of a pallet by its recovery action. | ||||||
| 10 | JPS5760939B2 - | JP8047575 | 1975-06-28 | JPS5760939B2 | 1982-12-22 | SERUBIO MANINI; ANTONIO PASHIARINI |
| 11 | Method for coagulation of polymer latices and extruder therefor | EP84103111 | 1984-03-21 | EP0120456A3 | 1986-11-20 | Sugimori, Teruhiko; Tajiri, Noriyuki; Hironaka, Akio; Habara, Hideaki |
There are disclosed a method for coagulation of a polymer latex by feeding the polymer latex to an extruder having a base plate and a plurality of fine tubes fixed to said base plate and extending therefrom, said fine tubes being mutually spaced by at least 1 mm and protruding from said base plate by at least 3 mm, and discharging said polymer latex through said fine tubes into a coagulation solution to coagulate the latex and an extruder used for carrying out said method. |
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| 12 | Apparatus and method for extracting fluid from an extruded material | EP83110455.9 | 1983-10-20 | EP0140986A2 | 1985-05-15 | Rossiter, Paul H. |
An apparatus and method for extracting water from rubber is provided. The rubber is screw conveyed in a twin screw extruder and alternately compressed between the forward side of the screw conveying threads, the inner extruder chamber wall and the wedge-shaped screw shaft. Water is squeezed out of the compressed rubber particles and drained off. The extruder chamber wall preferably has longitudinal grooves to impede the revolving movement of the rubber particles and to further squeeze the water from the rubber particles. |
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| 13 | Method for coagulation of polymer latices and extruder therefor | EP84103111.5 | 1984-03-21 | EP0120456A2 | 1984-10-03 | Sugimori, Teruhiko; Tajiri, Noriyuki; Hironaka, Akio; Habara, Hideaki |
There are disclosed a method for coagulation of a polymer latex by feeding the polymer latex to an extruder having a base plate and a plurality of fine tubes fixed to said base plate and extending therefrom, said fine tubes being mutually spaced by at least 1 mm and protruding from said base plate by at least 3 mm, and discharging said polymer latex through said fine tubes into a coagulation solution to coagulate the latex and an extruder used for carrying out said method. |
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| 14 | PROCESS FOR PRODUCING WET RUBBER MASTERBATCH, WET RUBBER MASTERBATCH, AND RUBBER COMPOSITION CONTAINING WET RUBBER MASTERBATCH | US15308623 | 2015-01-09 | US20170152353A1 | 2017-06-01 | Chiya NISHIMURA |
| A method for producing a wet rubber masterbatch uses a single-screw extruder. The single-screw extruder includes a screw, and an external cylinder in which a slit extended along the length direction of the external cylinder (the screw-shaft direction) is formed in an internal wall surface of the external cylinder, and when the width of the slit is represented by A and the clearance between a crest of the screw and the internal wall surface of the external cylinder is represented by B, the following expression (1) is satisfied: 0 | ||||||
| 15 | Apparatus for storing objects on a vehicle | US577459 | 1975-05-14 | US4062458A | 1977-12-13 | Silvio Manini; Antonio Pacciarini |
| A method and apparatus are provided for receiving a length or section of a tire tread or the like and transferring it to a storage means. The apparatus has a cylindrical member which receives the section from an extruder or other source, inverts the section and deposits it on a first endless conveyor. A second conveyor is looped about the downstream roller of the first endless belt and receives the section from the first belt. A vertically movable carriage has an endless belt which carries the section from the second belt to a storage means. A slide member movable in the same direction as the endless belts is provided for transferring a section from the carriage to a storage surface. | ||||||
| 16 | Method for making safety tubes | US4161148 | 1948-07-30 | US2559591A | 1951-07-10 | BURKLEY CLEMENT J |
| 17 | Process for recovering rubber from fleshy plants | US51345843 | 1943-12-08 | US2393035A | 1946-01-15 | ESKEW RODERICK K; EDWARDS PAUL W |
| 18 | Process for the recovery of rubber latices from plants | US49903343 | 1943-08-17 | US2378990A | 1945-06-26 | FOSTER FORD TIREY |
| 19 | Method of constructing safety inner tubes | US35182640 | 1940-08-08 | US2372382A | 1945-03-27 | KRUSEMARK FREDERICK A |
| 20 | Method of making inner tubes | US27720439 | 1939-06-03 | US2290617A | 1942-07-21 | ICKES HOWARD C |
