会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • COLLECTING CHAMBER COMPRISING AT LEAST ONE ADJUSTABLE WALL AND PROCESS FOR COLLECTING OF MINERAL WOOL FIBER
    • 包含至少一个可调墙壁的收集室以及收集矿物羊毛纤维的过程
    • WO2018048359A1
    • 2018-03-15
    • PCT/SI2016/000021
    • 2016-09-06
    • IZOTEH d.o.o.
    • PETERNELJ, Marko
    • D04H1/4209C03B37/05D04H1/4218D04H1/4226D04H1/732D04H1/736
    • D04H1/4226C03B37/055D04H1/4209D04H1/4218D04H1/732D04H1/736
    • Collecting chamber comprising at least one adjustable wall and process for collecting of mineral wool solves technical problem of reducing shot in fiber production and/or reducing clumping of fiber by manipulating cross section and shape of entry zone (comprised of shot separation section (I) and/or adjustable section (II)). Such manipulation may serve two purposes: to reduce vortices and/or recirculation cells within collecting chamber, and to separate shot from fiber. There are many ways to achieve such manipulation. There can be apertures, moving walls, objects, membranes and other means for achieving said goal. Above referenced technical problem is also solved by a process comprised of following steps: - pouring mineral melt onto at least one spinner to discharge said mineral melt in form of droplets - blowing said droplets to elongate into fiber separating said fiber from shot formed by premature freezing of said drops by means of an adjustable wall (15, 12) in accordance with description above.
    • 包括至少一个可调节壁的收集室和用于收集矿物棉的工艺解决了通过操纵进入区的截面和形状来减少纤维生产中的丸粒和/或减少纤维结块的技术问题 (I)和/或可调节部分(II))。 这种操作可以用于两个目的:减少收集室内的旋涡和/或再循环细胞,并将射击与纤维分开。 有很多方法可以实现这种操作。 可以有孔,移动墙,物体,膜和其他手段来实现所述目标。 上述参考的技术问题还通过包括以下步骤的方法解决: - 将矿物熔体倾倒到至少一个旋转器上以将所述矿物质熔体以液滴的形式排出 - 吹送所述液滴以将纤维从由过早冷冻形成的喷射物中拉长成纤维 根据上述说明借助于可调节壁(15,12)的所述液滴
    • 2. 发明申请
    • METHOD AND DEVICE FOR PRODUCING MINERAL WOOL FIBERS
    • 用于生产矿物羊毛纤维的方法和装置
    • WO2016048249A1
    • 2016-03-31
    • PCT/SI2014/000054
    • 2014-09-25
    • IZOTEH D.O.O.
    • ŠIROK, BranePlatiša, AntonDOLENC, SašoBIZJAN, BenjaminPETERNELJ, Marko
    • C03B37/05
    • C03B37/055
    • Method for producing mineral wool solves technical problem of failure to.achieve good and uniform intertwining of the mineral fibers, good and uniform wetting of the mineral fibers by the binder, tearing of the primary layer once deposited on the accumulation grid as well as tearing-off molten chunks of material from rotating cylinder causing loss of material and decreasing the productivity by manipulating air flow around said rotating cylinder so air flows past backward facing edge of said rotating cylinder at an angle relative to axis of said rotating cylinder. This can be achieved either by shaping the edge of the rotating cylinders by chamfering the edge of the rotating cylinder facing upstream direction of air flow, or by adding a radial fan to the rotating cylinder, namely to side of the rotating cylinder facing upstream direction of air flow.
    • 生产矿棉的方法解决了失效的技术问题,矿物纤维的良好均匀的缠结,粘结剂对矿物纤维的均匀润湿,一旦沉积在堆积网格上的主层撕裂以及撕裂 - 从旋转圆筒上取出熔融的材料块,导致材料损失并且通过操纵围绕所述旋转圆筒的空气流而降低生产率,使得空气以相对于所述旋转圆筒的轴线成一定角度流过所述旋转圆筒的朝后的边缘。 这可以通过使旋转气缸的边缘倒角朝向空气流的上游方向倒角,或者通过向旋转圆筒添加径向风扇,即朝向上游方向的旋转圆筒的侧面,使旋转圆筒的边缘成形 气流。
    • 4. 发明申请
    • COLLECTING CHAMBER AND FIBER FORMATION METHOD
    • 收集室和纤维形成方法
    • WO2015142294A1
    • 2015-09-24
    • PCT/SI2014/000016
    • 2014-03-17
    • IZOTEH D.O.O.
    • PETERNELJ, MarkoMIHALIČ, PrimožŠIROK, Brane
    • D04H1/4209C03B37/05D04H1/4218D04H1/4226D04H1/732D04H1/736
    • D04H1/736C03B37/055D04H1/4209D04H1/4218D04H1/4226D04H1/732
    • Collecting chamber and fiber formation method solve technical problems of formation of vortices and recirculations within collecting chamber of melt fiberization apparatus, bonding of fiber to walls of collecting chamber, presence of shot in primary layer of fiber deposited onto perimeter wall of collecting drum of collecting chamber, and non-uniform deposition of fiber into primary layer of fiber deposited onto perimeter wall of collecting drum of collecting chamber by slanting at least one wall or ceiling of a collecting chamber in order to reduce onset of vortices-and recirculation especially at high mass flow of fiber and high gradients of multi phase flow velocity. Further, by adding shot collectors amount of shot reducing heat transfer properties of fiber is reduced. In addition, adding slats for additional air inlet to further reduce vortices-and recirculation as well as adding balancing air flow induced by fan within drum assembly comprised of perforated surface is contributing to solution of technical problem at hand. Basic goals of proposed solution are: achieve high mass flow of fiber with low vortices and recirculation, and with minimum tear of primary layer of fibers collected on surface of collecting chamber drum assembly, and - separation of shot from fiber at the onset of fiber transport from a spinner.
    • 收集室和纤维形成方法解决了在熔融纤维化装置的收集室内形成涡流和再循环的技术问题,纤维与收集室的壁结合,沉积在收集室的收集鼓的周围壁上的纤维初始层的存在 ,以及通过倾斜收集室的至少一个壁或天花板而将纤维不均匀地沉积到沉积在收集室的收集鼓的周壁上的纤维的初级层中,以减少涡流的开始 - 特别是在高质量流动下再循环 的纤维和多相流速度的高梯度。 此外,通过添加射出物收集器,减少了光纤的降低热传递性能。 此外,为了进一步减少涡流,添加板条以进一步减少涡流,并且再循环以及增加由包括穿孔表面的滚筒组件内的风扇引起的平衡空气流有助于技术问题的解决。 提出的解决方案的基本目标是:实现低涡旋和再循环的纤维的高质量流动,并且收集在收集室鼓组件的表面上的纤维初级层的最小撕裂,以及 - 在纤维运输开始时从纤维分离 从旋转器。
    • 5. 发明申请
    • APPARATUS AND METHOD FOR MONITORING MELT FIBERIZATION
    • 用于监测熔融纤维的装置和方法
    • WO2015041610A1
    • 2015-03-26
    • PCT/SI2013/000054
    • 2013-09-20
    • IZOTEH D.O.O.
    • BIZJAN, BebjaminPETERNELJ, MarkoORBANIĆ, AlenŠIROK, BraneBAJCAR, Tom
    • C03B37/05
    • C03B37/055
    • Apparatus and method for monitoring melt fiberization solves technical problem of determining a fraction of melt which is thrown onto a rotating wheel to be solidified in form of threads which are blown off said rotating wheel, and what is a fraction of non-solidified drops which are passed to the second rotating wheel and thrown back to the first rotating wheel by means of a system for mineral wool melt fiberization monitoring. The system monitors melt film velocity slip against the rotating wheels, melt ligament spacing on melt film and the dynamics of the melt stream falling onto the first rotating wheel. System for the monitoring of mineral wool melt fiberization comprises of a high speed digital camera (6) and a computer (7) to which the grayscale process images are transmitted continuously and in real time. Fiberization process visualization area includes the middle and upper part of the first rotating wheel (1) where the melt film (2) is observed as well as the area directly above the wheel where the melt stream (4) falling from the melt tank (3) falls onto the first rotating wheel. The camera is placed at the side of the rotating wheels opposite from the fiber transport area in the settling chamber (5) to prevent damage and contamination by the hot fibrous flow.
    • 用于监测熔融纤维化的装置和方法解决了确定熔融物的一部分的技术问题,该熔体的一部分被投掷到旋转轮上,以被吹出所述旋转轮的螺纹的形式固化,以及什么是非固化液滴的一部分 通过用于矿棉熔融纤维化监测的系统传递到第二旋转轮并返回到第一旋转轮。 该系统监测相对于旋转轮的熔融薄膜速度滑动,熔体膜上的熔融韧带间距以及落入第一旋转轮上的熔体流的动力学。 矿棉熔融纤维化监测系统由高速数字照相机(6)和计算机(7)组成,灰度级过程图像连续实时传输到该照相机。 纤维化过程可视化区域包括第一旋转轮(1)的中部和上部,其中观察熔体膜(2)以及熔体流(4)从熔体槽(3)落下的直接在砂轮上方的区域 )落在第一个旋转轮上。 相机放置在与沉降室(5)中的纤维传输区域相对的旋转轮的侧面,以防止热纤维流动的损坏和污染。