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
    • DUST SEPARATION METHOD AND ARRANGEMENT OF A CENTRAL VACUUM CLEANER
    • 中央真空清洁机的尘埃分离方法和布置
    • WO02069778A8
    • 2003-11-20
    • PCT/FI0200108
    • 2002-02-12
    • FORTUM OYJHILTUNEN JYRKISUPPOLA KAUKO
    • HILTUNEN JYRKISUPPOLA KAUKO
    • A47L5/38A47L9/16B04C5/04B04C5/185B04C5/26
    • A47L9/1633A47L5/38B04C5/04B04C5/185B04C5/26
    • Method and apparatus for removing solids from an air stream arriving at a central vacuum cleaner. According to the method, solids are separated from a dust-containing stream of air in two stages, in which case the air stream is first fed into a cyclone (12) in order to separate the coarse solids, whereafter the preliminarily cleaned air stream is fed into a second separator, where the finely divided solids is removed. According to the invention, the second separator used is, instead of or alongside a filter, a multi-inlet cyclone (13). In operation according to the invention, the finely divided solids can be separated effectively without a loss of suction efficiency due to clogging of the filter. Furthermore, the pressure difference of the cyclone is in general smaller than the pressure difference across a clean filter, and thus there is even initially more suction efficiency available.
    • 从到达中央吸尘器的空气流中去除固体的方法和装置。 根据该方法,将固体与含灰尘的空气流分成两个阶段,在这种情况下,空气流首先进料到旋风分离器(12)中以分离粗固体,之后预先清洁的气流为 进入第二分离器,其中去除细碎的固体。 根据本发明,所使用的第二分离器是代替过滤器或旁通过滤器的多入口旋风分离器(13)。 在根据本发明的操作中,可以有效地分离细碎的固体,而不会由于过滤器的堵塞而导致吸入效率的损失。 此外,旋风分离器的压差通常小于清洁过滤器上的压力差,因此甚至可以获得最初更多的吸入效率。
    • 2. 发明申请
    • DUST SEPARATION METHOD AND ARRANGEMENT OF A CENTRAL VACUUM CLEANER
    • 中央真空清洁机的尘埃分离方法和布置
    • WO2002069778A1
    • 2002-09-12
    • PCT/FI2002/000108
    • 2002-02-12
    • FORTUM OYJHILTUNEN, JyrkiSUPPOLA, Kauko
    • HILTUNEN, JyrkiSUPPOLA, Kauko
    • A47L9/16
    • A47L9/1633A47L5/38B04C5/04B04C5/185B04C5/26
    • Method and apparatus for removing solids from an air stream arriving at a central vacuum cleaner. According to the method, solids are separated from a dust-containing stream of air in two stages, in which case the air stream is first fed into a cyclone (12) in order to separate the coarse solids, whereafter the preliminarily cleaned air stream is fed into a second separator, where the finely divided solids is removed. According to the invention, the second separator used is, instead of or alongside a filter, a multi-inlet cyclone (13). In operation according to the invention, the finely divided solids can be separated effectively without a loss of suction efficiency due to clogging of the filter. Furthermore, the pressure difference of the cyclone is in general smaller than the pressure difference across a clean filter, and thus there is even initially more suction efficiency available.
    • 从到达中央吸尘器的空气流中去除固体的方法和装置。 根据该方法,将固体与含灰尘的空气流分成两个阶段,在这种情况下,空气流首先进料到旋风分离器(12)中以分离粗固体,之后预先清洁的气流为 进入第二分离器,其中去除细碎的固体。 根据本发明,所使用的第二分离器是代替过滤器或旁通过滤器的多入口旋风分离器(13)。 在根据本发明的操作中,可以有效地分离细碎的固体,而不会由于过滤器的堵塞而导致吸入效率的损失。 此外,旋风分离器的压差通常小于清洁过滤器上的压力差,因此甚至可以获得最初更多的吸入效率。
    • 3. 发明申请
    • PROCESS AND APPARATUS FOR SEPARATING TWO PHASES FROM EACH OTHER
    • 相互分离两个阶段的方法和设备
    • WO02081043A3
    • 2002-12-12
    • PCT/FI0200233
    • 2002-03-20
    • FORTUM OYJHILTUNEN JYRKISUPPOLA KAUKO
    • HILTUNEN JYRKISUPPOLA KAUKO
    • B01D45/12B04C3/04B04C3/06B04C5/04B04C5/28F23J15/02F23C10/08
    • B01D45/12B04C3/04B04C3/06B04C5/04B04C5/28F23J15/027F23J2217/40
    • The invention relates to a method and apparatus for separating two phases from each other. According to the invention, a stream made up of at least two phases is directed to a separation apparatus, which comprises a separation container (25) and cyclones (26) arranged in the flow direction in parallel and in succession, the cyclones having each an elongate separation chamber wherein the phases are separated from each other. According to the invention, the cyclones used are multi-inlet cyclones (26), the total number of which is at least 10. The stream to be treated is directed to each multi-inlet cyclone (26) in a substantially radial direction. Through the placement of a large number of multi-inlet cyclones in parallel, a purification element resembling a filter is obtained. In comparison to a filter, continuous regeneration takes place in the element, in which case the pressure loss does not increase during operation, since solids do not reduce the cross-sectional area of the flow conduit inside the element.
    • 本发明涉及用于将两相彼此分离的方法和装置。 根据本发明,由至少两相构成的物流被引导至分离装置,该分离装置包括分离容器(25)和在流动方向上平行且相继排列的旋风分离器(26),旋风分离器具有各自的 细长分离室,其中各相彼此分离。 根据本发明,所使用的旋风分离器是多入口旋风分离器(26),其总数至少为10.待处理的分流在大致径向方向上被引导至每个多入口旋风分离器(26)。 通过平行放置大量多入口旋风分离器,获得类似过滤器的净化元件。 与过滤器相比,在元件中发生连续再生,在这种情况下,在操作过程中压力损失不会增加,因为固体不会减小元件内的流道的横截面积。
    • 4. 发明申请
    • PROCESS AND APPARATUS FOR SEPARATING TWO PHASES FROM EACH OTHER
    • 从每个其他分离两个相位的过程和装置
    • WO2002081043A2
    • 2002-10-17
    • PCT/FI2002/000233
    • 2002-03-20
    • FORTUM OYJHILTUNEN, JyrkiSUPPOLA, Kauko
    • HILTUNEN, JyrkiSUPPOLA, Kauko
    • B01D
    • B01D45/12B04C3/04B04C3/06B04C5/04B04C5/28F23J15/027F23J2217/40
    • The invention relates to a method and apparatus for separating two phases from each other. According to the invention, a stream made up of at least two phases is directed to a separation apparatus, which comprises a separation container (25) and cyclones (26) arranged in the flow direction in parallel and in succession, the cyclones having each an elongate separation chamber wherein the phases are separated from each other. According to the invention, the cyclones used are multi-inlet cyclones (26), the total number of which is at least 10. The stream to be treated is directed to each multi-inlet cyclone (26) in a substantially radial direction. Through the placement of a large number of multi-inlet cyclones in parallel, a purification element resembling a filter is obtained. In comparison to a filter, continuous regeneration takes place in the element, in which case the pressure loss does not increase during operation, since solids do not reduce the cross-sectional area of the flow conduit inside the element.
    • 本发明涉及一种将两相分离的方法和装置。 根据本发明,由至少两相组成的流引导到分离装置,该分离装置包括分离容器(25)和沿流动方向平行并连续布置的旋风分离器(26),旋风分离器具有每个 细长分离室,其中相分离。 根据本发明,使用的旋风分离器是多入口旋风分离器(26),其总数至少为10.待处理的流在大致径向方向上被引导到每个多入口旋风分离器(26)。 通过平行放置大量多入口旋风分离器,可获得类似过滤器的净化元件。 与过滤器相比,在元件中发生连续再生,在这种情况下,在操作过程中压力损失不会增加,因为固体不会减小元件内的流动管道的横截面积。