| 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 | 组分输送喷嘴 | CN201380036590.7 | 2013-06-28 | CN104428117B | 2017-07-07 | R·莫泽; J·伦克尔 |
| 组分输送喷嘴,包括:壳体(11、12),所述壳体具有组分入口(13)和组分出口(15);活塞形的闭锁体(20),所述闭锁体在壳体中滑动支承并且可轴向来回运动,其中,在第一位置中组分出口通过闭锁体的前端部(22)闭锁并且在第二位置中组分出口被释放或打开。组分输送喷嘴具有膜片密封件(30),所述膜片密封件紧固在闭锁体的后端部上并且紧固在壳体上,从而闭锁体完全处于膜片密封件的一侧上,其中,壳体和/或闭锁体这样构成,使得组分到达闭锁体的所有面上并且因此组分压力处于膜片的完整的作用面上。 | ||||||
| 2 | 组分输送喷嘴 | CN201380036590.7 | 2013-06-28 | CN104428117A | 2015-03-18 | R·莫泽; J·伦克尔 |
| 组分输送喷嘴,包括:壳体(11、12),所述壳体具有组分入口(13)和组分出口(15);活塞形的闭锁体(20),所述闭锁体在壳体中滑动支承并且可轴向来回运动,其中,在第一位置中组分出口通过闭锁体的前端部(22)闭锁并且在第二位置中组分出口被释放或打开。组分输送喷嘴具有膜片密封件(30),所述膜片密封件紧固在闭锁体的后端部上并且紧固在壳体上,从而闭锁体完全处于膜片密封件的一侧上,其中,壳体和/或闭锁体这样构成,使得组分到达闭锁体的所有面上并且因此组分压力处于膜片的完整的作用面上。 | ||||||
| 3 | 用于配给塑料熔体的设备 | CN201210385302.6 | 2012-10-12 | CN103101126A | 2013-05-15 | 马库斯·斯坦曼 |
| 本发明涉及用于配给塑料熔体的设备,具有主壳体(1),该主壳体(1)具有用于塑料熔体的至少一个入口通道(2)和至少一个出口通道(3),其中,用于在其中接收至少一个可移动配给器主体(5)的至少一个接收开口(4)在至少一个入口通道(2)和至少一个出口通道(3)之间延伸,其中,配给器主体(5)被配给器通道(6、7)穿过,塑料熔体通过所述配给器通道(6、7),其中,当配给器主体(5)处于通过位置时,至少一条配给器通道(6)建立入口通道(2)和出口通道(3)之间的流体连通,并且,当配给器主体(5)处于启动位置时,在入口通道(2)和至少一条配给器通道(7)之间形成流体连通。 | ||||||
| 4 | 生产聚氨基甲酸乙酯模塑制品的方法和装置 | CN98125631.7 | 1998-11-28 | CN1226475A | 1999-08-25 | H·M·苏尔兹巴赫 |
| 本发明涉及生产聚氨基甲酸乙酯模塑制品的方法,包括以下步骤:将至少一种多元醇组分和至少一种异氰酸酯组分同时输送到一混合装置里,并将混合组分以喷射的方式注入一模具中,其中至少一个活塞变容计量泵被用于将各组分输送到混合装置中;在喷射结束期间,通过使用为每一组分设置的阀门切断组分往混合装置中的供应,其中,阀门是设置在混合装置的混合室的进口处;为了调节供料管、泵和混合装置的进料的目的,在下一次模具填充之前,经一返回管将组分循环输送到组分的各自的储罐中,其特征在于,在储料罐和计量泵之间设置一附加循环泵,该附加循环泵在活塞工作期间,在进料阀被关闭和切断时取代往混合装置送料的工作。 | ||||||
| 5 | 用于配给塑料熔体的设备 | CN201210385302.6 | 2012-10-12 | CN103101126B | 2016-09-07 | 马库斯·斯坦曼 |
| 本发明涉及用于配给塑料熔体的设备,具有主壳体(1),该主壳体(1)具有用于塑料熔体的至少一个入口通道(2)和至少一个出口通道(3),其中,用于在其中接收至少一个可移动配给器主体(5)的至少一个接收开口(4)在至少一个入口通道(2)和至少一个出口通道(3)之间延伸,其中,配给器主体(5)被配给器通道(6、7)穿过,塑料熔体通过所述配给器通道(6、7),其中,当配给器主体(5)处于通过位置时,至少一条配给器通道(6)建立入口通道(2)和出口通道(3)之间的流体连通,并且,当配给器主体(5)处于启动位置时,在入口通道(2)和至少一条配给器通道(7)之间形成流体连通。 | ||||||
| 6 | 基于双螺杆挤出机的连续挤出装置 | CN201480012500.5 | 2014-03-19 | CN105189073A | 2015-12-23 | 高本诚二; 石川诚; 柿崎淳; 藤田玲生; 矢田恭平 |
| 本发明利用一对过滤器,在更换过滤器过程中也能够使双螺杆挤出机进行连续运转。本发明的基于双螺杆挤出机的连续挤出装置的结构为,具有一对过滤器(6、6a)及分隔阀(24),所述一对过滤器(6、6a)设置于排气装置(5)上,所述分隔阀(24)具有用于将所述各过滤器(6、6a)与缸体(1)的螺杆孔(16)设为连通或非连通的阀(34),在更换一侧第一过滤器(6)时,利用另一侧第二过滤器(6a)进行排气,更换过滤器(6、6a)时,也可使双螺杆挤出机连续运转。 | ||||||
| 7 | 向混捏机中定量添加粉末的方法 | CN201280022638.4 | 2012-05-07 | CN103517793A | 2014-01-15 | R·F·瓦雷比克特勒; R·温特斯 |
| 本发明涉及一种用于向混捏机中定量添加粉末的方法,其中,经由进料机构将粉末喂入混捏机的进料孔中,粉末从所述进料机构的附加的进料装置落入所述进料机构的旋转阀(1)的至少四个部段之一中,或者相反。 | ||||||
| 8 | 带有压力平衡的组分供给喷嘴 | CN200780016134.0 | 2007-05-08 | CN101437657B | 2013-03-27 | W·泽希蒂格; E·贝尔希滕布赖特 |
| 本发明涉及一种组分供给喷嘴,用于在反应注射设备的反应混合头上应用,包括:一外壳(12,13),所述外壳具有组分入口(18)和喷嘴形构成的组分出口(15);一封闭体(16,17),其借助驱动装置(30)在至少两个位置之间可移动地容纳在外壳(12,13)中,其中在第一位置上,组分出口(15)被封闭体(16)封闭,而在第二位置上,组分出口(15)打开,并且在组分入口(18)和组分出口(15)之间形成流体连通。为了避免在调整运动中克服反作用力,本发明建议,设有一个封闭及节流机构(16,17),其具有第一类型(A1,A3)的至少一个表面和第二类型(A2)的一个表面,其组分压力作用的情况下沿反方向产生一个力,在此表面(A1,A2,A3)的尺寸如此选择,使得基本上抵消这个反向的力。 | ||||||
| 9 | 带有压力平衡的组分供给喷嘴 | CN200780016134.0 | 2007-05-08 | CN101437657A | 2009-05-20 | W·泽希蒂格; E·贝尔希滕布赖特 |
| 本发明涉及一种组分供给喷嘴,用于在反应注射设备的反应混合头上应用,包括:一外壳(12,13),所述外壳具有组分入口(18)和喷嘴形构成的组分出口(15);一封闭体(16,17),其借助驱动装置(30)在至少两个位置之间可移动地容纳在外壳(12,13)中,其中在第一位置上,组分出口(15)被封闭体(16)封闭,而在第二位置上,组分出口(15)打开,并且在组分入口(18)和组分出口(15)之间形成流体连通。为了避免在调整运动中克服反作用力,本发明建议,设有一个封闭及节流机构(16,17),其具有第一类型(A1,A3)的至少一个表面和第二类型(A2)的一个表面,其组分压力作用的情况下沿反方向产生一个力,在此表面(A1,A2,A3)的尺寸如此选择,使得基本上抵消这个反向的力。 | ||||||
| 10 | Methods for administering the powder into a kneader | JP2014509696 | 2012-05-07 | JP2014518952A | 2014-08-07 | テル,ロン フォルケルト ワールベーク; ウィンターズ,ロビン |
| 【課題】本発明は、ニーダーに粉体を投与するための方法に関する。
【解決手段】粉体はニーダーの供給孔内に供給機構を介して供給され、粉体は供給機構のさらなる供給装置から供給機構の回転弁の少なくとも4個のセグメントのうち1個に、またその逆の順序で落下する。 【選択図】図1 |
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| 11 | Method and apparatus for applying a curable polymer of the non-chemically foamed multi-component | JP51140490 | 1990-08-03 | JP2983627B2 | 1999-11-29 | SETSUDOMAN ROORENSU BII; SUMISU JEEMUZU SHII |
| A two-component thermosetting polymer system is formed and dispensed by adding a foaming agent to one of two components of the polymer system. A solution of the foaming agent in the first component is formed in a supply tank. The foaming agent and first component solution is then mixed with a second component at a dispensing head or nozzle. By adding the foaming agent to only one of the two components and, in particular, by forming a solution of the foaming agent in the first component one is able to very carefully control the foam density of the cured end product. | ||||||
| 12 | Metering device for metering at least two of liquidity reaction component to the mixing chamber | JP50020387 | 1987-12-01 | JP2544793B2 | 1996-10-16 | MAINTSU HANSU UIRI |
| 13 | Automatically converting and supplying device for colored molding material in injection molding machine | JP13034691 | 1991-05-02 | JPH04331116A | 1992-11-19 | ISHIHARA KIYOMITSU |
| PURPOSE: To easily perform automatic conversion of many kinds of colored molding materials by constituting the title supplying device so that an auxiliary hopper comparted into two chambers is provided to the supply part of the molding materials via an automatic changeover valve and one chamber of the supply side of the molding materials is regulated to negative pressure by means for negative pressure. CONSTITUTION: When injection molding based on the preceding molding material is finished and moldings (a slide fastener chain) having new color is produced, firstly a vacuum pump 9 is actuated and also automatic changeover valves 21, 25, 32a, 33a are changed over and controlled. Powdery old molding materials which are stuck to the insides of a first and second auxiliary hoppers 22, 23 and remain therein are discharged to the outside through an air suction pipe 91. Then after the prescribed amount of material for cleaning is sucked and collected in the first auxiliary hopper 22, the material for cleaning is supplied to an injection cylinder 12 and no-load operation of an injection molding machine is performed to clean the old molding materials. Thereafter the fresh molding materials are sucked and collected in the first auxiliary hopper 22 and then supplied into the injection cylinder 12 and injection molding is started. COPYRIGHT: (C)1992,JPO&Japio | ||||||
| 14 | FOAMED RESIN PRODUCTION METHOD AND PRODUCTION EQUIPMENT THEREOF | US15606165 | 2017-05-26 | US20180200927A1 | 2018-07-19 | Norihiro MORIKAWA |
| [Problem to be Solved] After being filled into a mold, a mixed material will be cured while gradually foaming and expanding.[Solution] The equipment is provided with supply parts 1, 2 of two types of chemical liquids A, B and a mixer 3 for mixing two types of the chemical liquids supplied from the chemical liquid supply parts 1, 2. And, a storage tank 8 of gas which is to be dissolved in the stored chemical liquid A under pressure is connected to one of chemical liquid storage tanks, that is, the chemical liquid storage tank 4 at the chemical liquid supply part 1, in an instant when a mixed material of the chemical liquids A, B is externally discharged, a dissolved gaseous component is allowed to foam. Thereby, the soft mixed material before the curing reaction can be cured completely after being filled into a mold in a foaming and expanding state. | ||||||
| 15 | Extruder with static mixer injector | US15877137 | 2018-01-22 | US09981416B1 | 2018-05-29 | Scott Eugene VanDalsem; Brian D. Streit |
| Apparatus for injection of fluid into an extruder is provided, including a static mixer section with a pipe assembly coupled with the static mixer outlet and leading to the extruder barrel; the pipe assembly outlet and barrel injection opening have diameters less than the maximum internal diameter of the static mixer casing. The invention greatly simplifies the fluid injection apparatus used with extruders, while giving more efficient absorption of thermal energy with a minimum of environmental contamination, and the ability to inject multiple streams into the extruder. | ||||||
| 16 | EXTRUDER WITH STATIC MIXER INJECTOR | US15638209 | 2017-06-29 | US20170297248A1 | 2017-10-19 | Scott Eugene VanDalsem; Brian D. Streit |
| An extruder (100) for comestible material comprises a tubular barrel (104) and one or more elongated, axially rotatable, helically flighted screws (120, 122) within the barrel (104), where the barrel (104) has a delivery opening (114a). The extruder barrel (104) is equipped with an assembly (22) for delivery of fluid to the interior thereof, including a static mixing section (54) operable to blend the steam and water to create a blended mixture; the blended mixture is delivered to the barrel opening (114a) by means of a conveying assembly (84, 86) having a pipe assembly (86) with an outlet in communication with the barrel opening (114a); the pipe assembly (86) and opening (114a) have diameters less than maximum internal diameter of the static mixer casing (72). | ||||||
| 17 | Extruder with static mixer injector | US15638209 | 2017-06-29 | US09776355B1 | 2017-10-03 | Scott Eugene VanDalsem; Brian D. Streit |
| An extruder (100) for comestible material comprises a tubular barrel (104) and one or more elongated, axially rotatable, helically flighted screws (120, 122) within the barrel (104), where the barrel (104) has a delivery opening (114a). The extruder barrel (104) is equipped with an assembly (22) for delivery of fluid to the interior thereof, including a static mixing section (54) operable to blend steam and water to create a blended mixture; the blended mixture is delivered to the barrel opening (114a) by of a conveying assembly (84, 86) having a pipe assembly (86) with an outlet in communication with the barrel opening (114a); the pipe assembly (86) and opening (114a) have diameters less than maximum internal diameter of the static mixer casing (72). | ||||||
| 18 | Method of preconditioning comestible materials using steam/water static mixer | US13937573 | 2013-07-09 | US09713893B2 | 2017-07-25 | Scott Eugene VanDalsem; Brian D Streit |
| Methods of preconditioning comestible materials such as foods or feeds include the step of separately injecting steam and water into a static mixer in order to create a blend, which is then injected into the materials within a preconditioner barrel. The methods yield increased cook values in the preconditioned materials, with a reduction in evolved steam from the preconditioner. | ||||||
| 19 | COMPONENT FEED NOZZLE | US14412956 | 2013-06-28 | US20150190945A1 | 2015-07-09 | Ralf Moser; Josef Renkl |
| A component feed nozzle includes a housing, which has a component inlet and a component outlet, a piston-shaped closing body, which is slidably supported in the housing and which can be moved back and forth axially. The component outlet is closed by the front end of the closing body in a first position and the component outlet is released or opened in a second position. The component feed nozzle has a membrane seal, which is fastened to the rear end of the closing body and to the housing in such a way that the closing body is completely on one face of the membrane seal. The housing and/or the closing body are designed in such a way that the component reaches all surfaces of the closing body and thus the component pressure is applied to the complete effective surface of the membrane. | ||||||
| 20 | Steam/water static mixer injector for extrusion equipment | US14299544 | 2014-06-09 | US08967849B2 | 2015-03-03 | Scott Eugene VanDalsem; Brian D. Streit |
| Apparatus (20) for injection of fluid into extrusion system components such as a preconditioner (24) or extruder (100) is provided, preferably as a composite assembly including a fluid injection valve (52) and an interconnected static mixer section (54). Alternately, use may be made of the fluid injection valve (52) or static mixer section (54) alone. The invention greatly simplifies the fluid injection apparatus used in extrusion systems, while giving more efficient absorption of thermal energy with a minimum of environmental contamination, and the ability to inject multiple streams into the extrusion systems. | ||||||
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