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
    • 4. 发明申请
    • METHOD AND APPARATUS FOR ADDING DRY COLORANT TO LANDSCAPE MULCH FIBER
    • 用于将干燥颜料加入到景观多光纤中的方法和装置
    • US20170014852A1
    • 2017-01-19
    • US15279502
    • 2016-09-29
    • Mark N. Halper
    • Mark N. Halper
    • B05C5/02B05C9/12B05C9/06
    • B05C5/02B01F2003/063B05B7/1431B05B12/006B05B13/0257B05C3/08B05C9/06B05C9/12B05D7/06B05D2258/00
    • An apparatus including an air blower; a rotary airlock; a receptacle having an inner chamber supplied with a plurality of colorant particles; a water supply; and a mixing chamber. The air blower blows air into a bottom section of the rotary airlock, and the rotary airlock receives colorant particles from an output of the receptacle. A rotor shaft of the rotary airlock rotates to cause colorant particles to be transported to the bottom section of the rotary airlock. Air blown into the bottom section of the rotary airlock mixes with colorant particles transported into the bottom section of the rotary airlock to form an air and colorant particles mixture, which is blown out of a first output of the rotary airlock and combined with water to form a water, air, and colorant particles mixture, which is mixed with material in a mixing chamber. The material may be natural mulch.
    • 一种包括鼓风机的设备; 旋转气闸 具有供给多个着色剂颗粒的内室的容器; 供水; 和混合室。 鼓风机将空气吹入旋转气闸的底部,旋转气闸从容器的输出端接收着色剂颗粒。 旋转气闸的转子轴旋转,使得着色剂颗粒被输送到旋转气闸的底部。 吹入旋转气闸的底部的空气与运送到旋转气闸的底部的着色剂颗粒混合形成空气和着色剂颗粒混合物,该空气和着色剂颗粒混合物从旋转气闸的第一输出中吹出并与水结合以形成 水,空气和着色剂颗粒混合物,其在混合室中与材料混合。 材料可能是天然覆盖物。
    • 6. 发明申请
    • METHOD AND APPARATUS FOR ADDING DRY COLORANT TO LANDSCAPE MULCH FIBER
    • 用于将干燥颜料加入到景观多光纤中的方法和装置
    • US20150064351A1
    • 2015-03-05
    • US14537939
    • 2014-11-11
    • Mark N. Halper
    • Mark N. Halper
    • B05C15/00B05C5/02C04B41/45B05C9/12B05D7/06B05D7/02B05C5/00B05C9/06
    • B05C5/02B01F2003/063B05B7/1431B05B12/006B05B13/0257B05C3/08B05C9/06B05C9/12B05D7/06B05D2258/00
    • An apparatus including an air blower; a rotary airlock; a receptacle having an inner chamber supplied with a plurality of colorant particles; a water supply; and a mixing chamber. The air blower blows air into a bottom section of the rotary airlock, and the rotary airlock receives colorant particles from an output of the receptacle. A rotor shaft of the rotary airlock rotates to cause colorant particles to be transported to the bottom section of the rotary airlock. Air blown into the bottom section of the rotary airlock mixes with colorant particles transported into the bottom section of the rotary airlock to form an air and colorant particles mixture, which is blown out of a first output of the rotary airlock and combined with water to form a water, air, and colorant particles mixture, which is mixed with material in a mixing chamber. The material may be natural mulch.
    • 一种包括鼓风机的设备; 旋转气闸 具有供给多个着色剂颗粒的内室的容器; 供水; 和混合室。 鼓风机将空气吹入旋转气闸的底部,旋转气闸从容器的输出端接收着色剂颗粒。 旋转气闸的转子轴旋转,使得着色剂颗粒被输送到旋转气闸的底部。 吹入旋转气闸的底部的空气与运送到旋转气闸的底部的着色剂颗粒混合形成空气和着色剂颗粒混合物,该空气和着色剂颗粒混合物从旋转气闸的第一输出中吹出并与水结合以形成 水,空气和着色剂颗粒混合物,其在混合室中与材料混合。 材料可能是天然覆盖物。
    • 8. 发明申请
    • COATING APPARATUS
    • 涂装装置
    • US20120234239A1
    • 2012-09-20
    • US13512947
    • 2010-12-02
    • Koji HasegawaTakuya NagatoKoh Matsui
    • Koji HasegawaTakuya NagatoKoh Matsui
    • B05C11/00
    • A61J3/005A23G3/26A23P20/15B01J2/006B01J2/14B05B12/084B05B13/0257
    • A measuring unit 13 is provided inside a rotary drum 11. The measuring unit 13 is provided with a light transmitting member 13a and an optical sensor 13b that are provided at the central region on the inner wall of the other end portion 11b. When particles are subjected to a coating treatment, information as to the properties (such as the coating thickness, the moisture, the coating performance, and the impurity) of the particles of a particle layer A being brought into contact with the surface of the light transmitting member 13a is measured on a real-time basis by the NIR sensor 13b via the light transmitting member 13a. The data is processed by the processing unit of the NRI spectroscopic analyzer to thereby perform monitoring. By appropriately adjusting the coating operation conditions (such as the supplied air volume, the supplied air temperature, the spraying condition, and the rotation speed of the rotary drum 1) by feedback control or a manual operation according to the result, it becomes possible to perform the coating treatment of high quality.
    • 测量单元13设置在旋转鼓11的内部。测量单元13设置有设置在另一端部11b的内壁上的中心区域的透光构件13a和光学传感器13b。 当对颗粒进行涂布处理时,与颗粒表面接触的颗粒层A的颗粒的性质(例如涂层厚度,水分,涂布性能和杂质)的信息 透射构件13a经由透光构件13a由NIR传感器13b实时地测量。 数据由NRI光谱分析仪的处理单元处理,从而进行监视。 通过根据结果通过反馈控制或手动操作来适当地调整涂布操作条件(诸如所提供的空气量,供应的空气温度,喷射条件和旋转鼓1的旋转速度),可以 执行高品质的涂层处理。
    • 10. 发明申请
    • Pneumatic Seasoning System
    • 气动调料系统
    • US20080203184A1
    • 2008-08-28
    • US11678195
    • 2007-02-23
    • Wayne GarrisonRoss D. SamuelsGlynn R. Bartlett
    • Wayne GarrisonRoss D. SamuelsGlynn R. Bartlett
    • A23P1/08
    • B05B7/1486A21C15/002A23P20/10A23P20/13B05B7/10B05B13/0257
    • A pneumatic seasoning system and method utilizing a rotating drum for seasoning, a funnel-fed pneumatic eductor, line splitters, and a plurality of specially-designed swirl-inducing nozzle spools for inducing a broad and even seasoning plume. In a preferred embodiment, a pneumatic seasoning system transports seasoning from a seasoning hopper to food items within a rotating drum using a combination of an eductor and four in-line vacuum generators, which vacuum generators operate on compressed air. Each vacuum generator comprises a distributing nozzle roughly shaped like a collared spool, wherein compressed air is supplied to the annular region defined between the spool and its collar, and said compressed air exits through swirl ports distributed about the circumference of the spool exit. Each swirl port preferably has a pitch angle of 15° and a yaw angle of 15°.
    • 一种利用旋转滚筒进行调味的气动调味系统和方法,一个漏斗式气动喷射器,分流器和多个特别设计的旋转诱导喷嘴线轴,用于诱导宽而均匀的调味羽流。 在优选实施例中,气动调味系统使用喷射器和四个在线真空发生器的组合将调味料从调味料料斗输送到旋转桶内的食品,该真空发生器在压缩空气上操作。 每个真空发生器包括一个分布喷嘴,其大致形状类似于轴环,其中压缩空气被供应到限定在卷轴和其轴环之间的环形区域,并且所述压缩空气通过围绕卷轴出口的圆周分布的旋转端口离开。 每个涡旋口优选地具有15°的俯仰角和15°的偏航角。