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
    • 2. 发明申请
    • Device and method for producing solid shape containing an active ingredient
    • 用于生产含有活性成分的固体形状的装置和方法
    • US20030015814A1
    • 2003-01-23
    • US10149762
    • 2002-06-13
    • Harald KrullJorg RosenbergJorg BreitenbachJurgen HofmannRainer KlenzHans Buhrle
    • B29C045/78
    • B29C45/54A61J3/06A61K9/2095B29C45/542B29C2045/466B29C2045/545B29K2105/0035
    • The present invention relates to an apparatus for producing solid active ingredient-containing forms from an active ingredient-containing formulation which comprises at least one polymeric binder. The apparatus according to the invention has at least one extruder 1 for continuous plastication of the formulation and at least two injection units 2 which are provided separate from one another, each of which is connected to the extruder 1, and through which the formulation can be injected into at least one mold 3. In the process according to the invention for producing solid active ingredient-containing forms from an active ingredient-containing formulation which comprises at least one binder, the active ingredient-containing formulation is continuously plasticated, the plasticated formulation is fed into an injection unit 21, and the formulation present in this injection unit 21 is injected into a mold 3, and plasticated formulation is fed into another injection molding unit 22, and the formulation present in the other injection molding unit 22 is injected into the mold 3 or another mold.
    • 本发明涉及包含至少一种聚合物粘合剂的含活性成分的制剂的含固体活性成分的形式的装置。 根据本发明的装置具有至少一个用于制剂的连续塑化的挤出机1和至少两个彼此分离的注射单元2,每个注射单元2彼此连接到挤出机1,并且制剂可以通过该挤出机1 注射到至少一个模具3.在根据本发明的用于从含有至少一种粘合剂的含活性成分的制剂生产含固体活性成分的制剂的方法中,含有活性成分的制剂被连续塑化,所述增塑制剂 被注入到注射单元21中,并且将存在于该注射单元21中的制剂注射到模具3中,并且将塑化的制剂进料到另一个注射成型单元22中,并将存在于另一个注塑单元22中的制剂注入 模具3或另一模具。
    • 5. 发明申请
    • Method for controlling motor-driven injection molding machine
    • 电动注塑机控制方法
    • US20010019184A1
    • 2001-09-06
    • US09794105
    • 2001-02-28
    • Kazuo UsuiShuichi AraiSyuichi Hokino
    • B29C045/78
    • B29C45/84
    • A method for controlling a motor-driven injection molding machine in which heat generation of a drive section including a drive motor is monitored, and when the drive section enters an overload state, the drive motor is stopped. In the method, during molding, heat generation value (overload factor) of the drive motor is estimated from load current flowing through the drive motor. When the estimated heat generation value (overload factor) reaches a preset stopping point or when a thermostat attached to the drive section outputs an overload detection signal indicating an overload state, the drive motor is stopped.
    • 一种用于控制电动机注射成型机的方法,其中监测包括驱动马达的驱动部分的发热,并且当驱动部分进入过载状态时,驱动马达停止。 在该方法中,在成型期间,通过驱动电动机的负载电流来估计驱动电动机的发热量(过载率)。 当估计的发热量(过载因子)达到预设的停止点时,或者当连接到驱动部分的恒温器输出表示过载状态的过载检测信号时,驱动电动机停止。
    • 9. 发明申请
    • Method and apparatus for controlling a mold melt-flow process using temperature sensors
    • 使用温度传感器控制模具熔体流动过程的方法和装置
    • US20020084543A1
    • 2002-07-04
    • US10008083
    • 2001-11-05
    • Frederick J. Buja
    • B29C045/78
    • B29C45/76B29C45/78
    • The present invention is a method and apparatus for controlling a mold flow process using inner (impinge) and/or edge temperature sensors, wherein articles processed in a constraining mold cavity, having a constant melt nullshrinknull quality, can be obtained even with fluctuations in resin nullmeltnull properties (flowability). At least one temperature-dependent output or nulltriggernull signal is sampled, and the level of the signal (e.g., temperature) initiates at least one step in the molding cycle. Using a sampling circuit, thermal waveforms are obtained from thermal sensor array data such that if a sequence of melt temperature set-point trigger times fluctuates outside control limits, then the process melt-flow is judged as a hotter/faster melt-flow or cooler/slower melt-flow injection process. In one embodiment, an initial melt temperature set-point nulltriggernull and second reference set-point nulltriggernull may be combined to control the closure of at least one cavity gate. The shut-off time is controlled in accordance with, and as a fluctuation of, an injection melt-flow time and temperature profile. For example, the nozzle orifice of the injection-molding machine 198 is the melt-flow exit to mold melt nullendnull of dynamic flow exchange point. The orifice area sets an initial melt-flow rate (where a small orifice has a longer melt-flow length with greater melt shear temperature increase and a longer exit time versus a larger orifice with lower melt shear temperature increase and a shorter exit time for an equivalent shot size). Each mold cavity final melt-flow nullpacknull volume is preferably controlled by a gate cavity melt shut-off system that is responsive to the sensed temperature(s), resulting in each cavity melt-flow injection process volume being held substantially constant, for a uniform resin nullshrinknull density.
    • 本发明是一种使用内部(冲击)和/或边缘温度传感器来控制模具流动过程的方法和装置,其中即使具有波动也可获得具有恒定熔体“收缩”质量的在约束模腔中处理的制品 树脂“熔融”性(流动性)。 对至少一个依赖于温度的输出或“触发”信号进行采样,并且信号的电平(例如,温度)在成型周期中启动至少一个步骤。 使用采样电路,从热传感器阵列数据获得热波形,使得如果熔体温度设定点触发时间序列在控制极限之外波动,则流程熔融流动被判断为更热/更快的熔体流动或冷却器 /较慢的熔体流动注射过程。 在一个实施例中,初始熔融温度设定点“触发”和第二参考设定点“触发”可以被组合以控制至少一个空腔门的关闭。 关闭时间根据注射熔体流动时间和温度曲线的波动控制。 例如,注射成型机198的喷嘴孔是熔体流出口,以模制动态流动交换点的熔化“结束”。 孔口面积设定初始熔体流动速率(其中小孔口具有较长的熔体流动长度,较大的熔体剪切温度升高,而较大的孔口的出口时间较长,熔体剪切温度较低,出口时间较短 等效的射击大小)。 每个模腔最终熔体流动的“包装”体积优选地通过响应于检测到的温度的门腔熔体切断系统来控制,导致每个腔体熔体流动注射过程体积保持基本恒定,以便 均匀的树脂“收缩”密度。