| 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 | 一种灭火器塑料把手原材料快速混料设备 | CN201611045534.1 | 2016-11-24 | CN106493867A | 2017-03-15 | 钱嘉良 |
| 本发明涉及一种原材料混料设备,尤其涉及一种灭火器塑料把手原材料快速混料设备。本发明要解决的技术问题是提供一种混料速度快、混料彻底、操作方便的灭火器塑料把手原材料快速混料设备。为了解决上述技术问题,本发明提供了这样一种灭火器塑料把手原材料快速混料设备,包括有滑块、盘形凸轮、电机、安装座、滑轨、顶板、混料箱、电控阀、出料管、左架、底板、第一弹簧、碰撞板等;底板顶部左端焊接有左架,底板顶部右端焊接有右架,右架左侧中部焊接有下料斗,左架和右架顶部焊接有顶板。本发明达到了混料速度快、混料彻底、操作方便的效果,且本设备发挥的重要作用不仅有良好的混料效果,还提高了工作效率,安全性高。 | ||||||
| 2 | 一种均匀型塑料粒子搅拌机 | CN201610690078.X | 2016-08-19 | CN106273027A | 2017-01-04 | 杨建军 |
| 本发明公开了一种均匀型塑料粒子搅拌机,包括搅拌筒主体,所述搅拌筒主体的左侧顶端固定安装有控制器,所述旋转杆的外壁固定安装有螺旋搅拌桨,所述转动杆的底端外壁固定安装有搅拌片,所述搅拌筒主体的底端设有出料口,所述搅拌筒主体的左右两侧中心位置固定安装有支撑杆。该均匀型塑料粒子搅拌机,通过控制器控制电动伸缩杆进行上下伸缩,电动伸缩杆带动支撑板上下往复运动,电机带动转动杆上下往复运动,旋转杆外壁的螺旋搅拌桨上下往复运动对搅拌桶内主体内部的上部和下部的塑料粒子进行搅拌,有效的确保了搅拌容器内上部和下部的塑料粒子可以均匀的混合,搅拌的效果较好,确保了混合后成品的质量较好。 | ||||||
| 3 | 一种塑料制品用升降晃动型混合设备 | CN201611016818.8 | 2016-11-18 | CN106426596A | 2017-02-22 | 鄂太平 |
| 本发明涉及一种塑料制品用混合设备,尤其涉及一种塑料制品用升降晃动型混合设备。本发明要解决的技术问题是提供一种混合彻底、可升降晃动的塑料制品用升降晃动型混合设备。为了解决上述技术问题,本发明提供了这样一种塑料制品用升降晃动型混合设备,包括有第一凸轮、第一锥齿轮、导杆、第一轴承座、导套、第二锥齿轮、第一转轴、第一连接杆、筒形凸轮、卡块等;底板顶部左侧放置有收集框,底板顶部中心对称焊接有支撑杆,支撑杆顶端通过螺栓连接的方式连接有环形滑轨。本发明通过一个电机实现三个动作,使得框体在转动的同时,搅拌杆上下运动,并且第一凸轮使得框体左右晃动,达到了混合彻底、可升降晃动的效果。 | ||||||
| 4 | METHOD OF MAKING CELLULOSIC FILLED THERMOPLASTIC COMPOSITES OF AN ANHYDRIDE CONTAINING COPOLYMER | US12334769 | 2008-12-15 | US20090181207A1 | 2009-07-16 | Stephen Michalik; Douglas J. Gardner; Christopher H. West; Yousoo Han |
| A method of making foamed articles that includes providing a copolymer composition, combining the copolymer composition and cellulosic fibers, applying heat, mixing energy and pressure to the copolymer composition and cellulosic fibers mixture to form a foamable mixture, and forming the foamed article by placing the foamable mixture in a molding or extruding operation. The copolymer composition includes a copolymer of 51% to 99.9% of primary monomers, 0.1% to 49% of anhydride containing monomers, and 0% to 25% of other monomers and 0% to 30% of elastomeric polymers. This is combined at 30% to 99.99% copolymer composition with 0.01% to 70% by cellulosic fibers such that the copolymer anhydride groups react with the cellulosic fiber hydroxyl groups to produce a blowing agent byproduct to form a foamable mixture. The foamed article has a density of not more than 1.3 g/cm3. | ||||||
| 5 | Method of making cellulosic filled thermoplastic composites of an anhydride containing copolymer | US12334769 | 2008-12-15 | US08221663B2 | 2012-07-17 | Stephen Michalik; Douglas J. Gardner; Christopher H. West; Yousoo Han |
| A method of making foamed articles that includes providing a copolymer composition, combining the copolymer composition and cellulosic fibers, applying heat, mixing energy and pressure to the copolymer composition and cellulosic fibers mixture to form a foamable mixture, and forming the foamed article by placing the foamable mixture in a molding or extruding operation. The copolymer composition includes a copolymer of 51% to 99.9% of primary monomers, 0.1% to 49% of anhydride containing monomers, and 0% to 25% of other monomers and 0% to 30% of elastomeric polymers. This is combined at 30% to 99.99% copolymer composition with 0.01% to 70% by cellulosic fibers such that the copolymer anhydride groups react with the cellulosic fiber hydroxyl groups to produce a blowing agent byproduct to form a foamable mixture. The foamed article has a density of not more than 1.3 g/cm3. | ||||||
| 6 | Corrosion resistant structures and elements and method of making same | US638411 | 1984-08-07 | US4621010A | 1986-11-04 | Herman C. Wadsworth |
| A composite material suitable for use in making containers or structures exposed to corrosive chemical attack is achieved by mixing a synthetic plastics resin material with two different hardeners and employing a filler of particulate siliceous material which may be sand, gravel, quartz stones or the like. Structures made from the material are both structurally self supporting and resistant throughout the body thickness to corrosive chemical attack. A skim coat of the same resin with a filler of fine particles, less than 0.5 mm, can be employed, in which case the body can incorporate larger particles, such as 6 mm and above.The synthetic resins employed may be selected from the group comprising vinyl ester, polyester, bisphenol, epoxy and isophthalic resins. | ||||||
| 7 | Method and apparatus for mixing particulate materials | US671242 | 1984-11-14 | US4626104A | 1986-12-02 | Ronald H. Pointon; Allen F. Nightingale |
| A method and apparatus for blending particulate materials in which a plurality of blending chambers receive, by a series of installments, pre-mixed ingredients so as to ensure that each blending chamber contains an average sample. The blending chambers are then discharged in sequence to provide an output as a series of sub-batches which each comprise the predetermined proportions of ingredients. | ||||||
| 8 | Apparatus for and method of mixing plastic materials | US54625822 | 1922-03-24 | US1514671A | 1924-11-11 | MOOMY JOSEPH G; MOOMY JOSEPH H |
| 9 | Blending device of particulate matter | JP24856684 | 1984-11-24 | JP2509553B2 | 1996-06-19 | RONARUDO HARII HOINTON; AREN FUREDERITSUKU NAITEINGEERU |
| 10 | Granule mixing method and apparatus | JP24856684 | 1984-11-24 | JPS60187326A | 1985-09-24 | RONARUDO HARII POINTON; AREN FUREDERITSUKU NAITEINGEER |
| 11 | Method and apparatus for mixing particulate materials | EP84307743 | 1984-11-09 | EP0145281A3 | 1985-11-21 | Nightingale, Allen Frederick; Pointon, Ronald Harry |
A method and apparatus for blending particulate materials in which a plurality of blending chambers receive, by a series of instalments, pre-mixed ingredients so as to ensure that each blending chamber contains an average sampie. The blending chambers are then discharged in sequence to provide an output as a series of sub-batches which each comprise the predetermined proportions of ingredients. |
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| 12 | Verfahren zur wertstofflichen Verarbeitung eines Sumpfproduktes aus einer destillativen Aufbereitung | EP96109641.9 | 1996-06-15 | EP0758001A1 | 1997-02-12 | Lorenz, Arnulf; Walser, Hans Peter |
Es wird ein Verfahren zur wertstofflichen Verarbeitung eines im wesentlichen lösungsmittelfreien Sumpfproduktes aus der destillativen Aufarbeitung eines verschmutzten organischen Lösungsmittels, das bei der Reinigung von Polyolefin, insbesondere von Polyolefinproduktionsabfällen oder gebrauchtem Polyolefin, anfällt, beschrieben. Das Sumpfprodukt wird dosiert mit mindestens einem weiteren anorganischen und/oder organischen Material vermischt. |
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| 13 | CORROSION RESISTANT STRUCTURES AND ELEMENTS AND METHOD OF MAKING SAME | EP84305328 | 1984-08-06 | EP0170740B1 | 1989-10-25 | WADSWORTH, HERMAN CLARK |
| 14 | Method and apparatus for mixing particulate materials | EP84307743.9 | 1984-11-09 | EP0145281B1 | 1989-01-11 | Nightingale, Allen Frederick; Pointon, Ronald Harry |
| 15 | Corrosion resistant structures and elements and method of making same | EP84305328.1 | 1984-08-06 | EP0170740A1 | 1986-02-12 | Wadsworth, Herman Clark |
A composite material suitable for use in making containers or structures (49,47) exposed to corrosive chemical attack is achieved by mixing a synthetic plastics resin material with two different hardeners and employing a filler of particulate siliceous material which may be sand, gravel, quartz stones or the like. Structures (47, 49) made from the material are both structurally self supporting and resistant throughout the body thickness to corrosive chemical attack. A skim coat (47) of the same resin with a filler of fine particles, less than 0.5 mm, can be employed, in which case the body can incorporate larger particles, such as 6 mm and above. The synthetic resins employed may be selected from the group comprising vinyl ester, polyester, bisphenol, epoxy and isophthalic resins. |
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| 16 | Method and apparatus for mixing particulate materials | EP84307743.9 | 1984-11-09 | EP0145281A2 | 1985-06-19 | Nightingale, Allen Frederick; Pointon, Ronald Harry |
A method and apparatus for blending particulate materials in which a plurality of blending chambers receive, by a series of instalments, pre-mixed ingredients so as to ensure that each blending chamber contains an average sampie. The blending chambers are then discharged in sequence to provide an output as a series of sub-batches which each comprise the predetermined proportions of ingredients. |
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| 17 | 믹싱헤드 구동장치 | KR1020130067492 | 2013-06-13 | KR1020140145641A | 2014-12-24 | 노춘수 |
| 본발명은 믹싱헤드 구동장치에 관한 것으로, 합성수지 원료를 사출기 몰드내부에 주입하는 믹싱헤드를 구동하는 믹싱헤드 구동장치에 있어서, 상기 믹싱헤드 구동장치는 좌우이동부(100)의 상부에 전후이동부(200)가 결합되고, 상기 전후이동부(200)의 전면과 측면에 믹싱헤드(300)가 설치되며, 상기 믹싱헤드는 90도 회전이 가능한 것으로,
본발명은 몰드내에 원료를 주입전 믹싱헤드가 전후좌우로 이동되며, 또한 90도 회전가능하므로, 냉장고 문 사출성형방법에 있어서 페이스업과 페이스다운 사출성형방법에 겸용으로 사용가능하므로, 생산시간이 단축되며 제품의 내용적이 크게 제작가능하며 두께가 얇게 사출이 가능하며 제품품질이 뛰어나다는 현저한 효과가 있다. |
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| 18 | 믹싱헤드 배치방법 | KR1020130067493 | 2013-06-13 | KR101442556B1 | 2014-09-30 | 노춘수 |
| The present invention relates to an arrangement method of a mixing head, and more particularly, to an arrangement method of a mixing head through which a synthetic resin material is injected into a mold when the mold is in a face-down state in which a door of a refrigerator faces downwards. The synthetic resin material is injected from an upper portion of the mold into the mixing head (300). All of the outlet directions of a nozzle of the mixing head (300) face downwards. According to the arrangement method of the mixing head of the present invention, since the mixing head moves forwards, backwards, left, and right before the material is injected into the mold, and also rotates at 90 degrees, the mixing head may be used in both face-up and face-down injection molding methods. Therefore, the arrangement method of the mixing head may be reduced in production time. Also, internal capacity of a product may be manufactured in a large-scale. The product may be thinly injection-molded and have excellent quality. | ||||||
| 19 | 신발 밑창의 미끄럼을 방지하는 고무 조성물 제조 방법 | KR1020140152033 | 2014-11-04 | KR101589639B1 | 2016-01-28 | 배재형 |
| 본발명은신발밑창의미끄럼을방지하는고무조성물제조방법에관한것으로, 신발과접착부재를통해부착되며, 신발밑창에사용되는미끄럼을방지하는고무조성물에있어서, (a) 니트릴고무와천연고무를주 원료로하여페닐알킬레이드수지와고 강도의실리카신소재를혼합하여가황고무를만들어열매체보일러를이용하여 150kg/cm 압력과섭씨 160℃이상의열을가해미끄럼방지고무조성물을제조하기위해, 니트릴고무와천연고무가일정배합비율로된 원료고무의니더기소련공정을실시하여섭씨 100℃에서 5분동안고무속의탄소와니트릴구조를일직선상으로배열하는단계; (b) 섭씨 100℃에서니더기소련시킨원료고무의느슨해진분자배열을혼련시키기위해보강제, 첨가제를혼련시키는니더기챔버의온도를섭씨 55℃에서 5분동안혼련하여고무의분자구조의간격을좁게하여고무의물리적성질을강화시키는혼련공정을실시하는단계; (c) 혼련된고무의 ROLL 표면온도를 50+,- 5℃를유지하여소련된고무와보강제와첨가제를혼련시킨재료를믹싱롤(mixing roll)을통하여고무와첨가제를분산을더 시켜고무분자의사슬구조에결합시키는 1차믹싱 ROLL 작업단계; (d) 상기믹싱롤을통하여생성된고무를믹싱롤의간격을 3mm로하여냉각기온도 0℃로설정하여냉각수를공급하고있는냉각수수조통에콘베이어시스템을사용하여냉각수수조통을통과하여고무를냉각시킨후, 숙성실에서섭씨 18℃에서 24시간을숙성시키는 1차 Sheeting 및냉각공정단계; (e) 1차냉각공정이실시된고무의 ROLL 표면온도 45℃에서유황및 촉진제를투입하여 ROLL간격을 2mm로하여약품을분산시키는 2차믹싱 ROLL 작업단계; 및 (f) 냉각기온도 0℃로냉각수를공급하고있는냉각수수조통에콘베이어시스템을사용하여냉각수수조통을통과하여고무를냉각시킨후, 후숙성실에서섭씨 18℃에서 24시간을숙성시키는 2차 Sheeting 및냉각(Cooling) 공정단계;를포함한다. | ||||||
| 20 | METHOD FOR IMPROVING THE INSULATION OF POLYMER SOLUTIONS | PCT/EP2015069665 | 2015-08-27 | WO2016030467A2 | 2016-03-03 | DIENER ANDREAS |
| The invention relates to a method for improving the insulation (concentration) of polymer solutions following polymerisation but prior to shaping, which follows degassing (drying). According to said method, the following steps and the order are adapted to the polymer quality requirements: one or more expansion steps, a separate washing step, a pre-concentration step, coagulation, dewatering and main evaporation. | ||||||
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