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    • 2. 发明授权
    • Ultrasonic atomizer for liquids
    • 液体超声波雾化器
    • US4796807A
    • 1989-01-10
    • US167136
    • 1988-03-11
    • Lothar BendigFrieder Hofmann
    • Lothar BendigFrieder Hofmann
    • B05B17/06B06B1/06B05B3/14
    • B05B17/063B05B17/0623
    • An ultrasonic atomizer for liquids comprises a piezoelectric transducer (16) mechanically coupled to an amplitude transformer (20), an atomizing disk (21) mounted to the free end of the amplitude transformer (20), a housing (22) enclosing at least the amplitude transformer (20) and a cap (30) supporting a sieve-like diaphragm (31). The cap (30) is so mounted to the housing (22) that the diaphragm (31) rests on the atomizing disk (21). The cap (30) consists of two mutually concentric cap parts (32, 33) of which one (32) supports the diaphragm (31) and the second (33) serves to mount the entire cap (30) on the housing (22). A spring (36) is so mounted between the two cap parts (32, 33) that the sieve-like diaphragm (31) is held elastically against the atomizing disk (21) and that the opposing force from the spring (36) thereby is transmitted into the second cap part (33) fixed in the housing.Such a liquid-atomizer is characterized in that the diaphragm (31) always rests with a precisely defined prestressing on the atomizing disk (21), whereby operational reliablity heretofore not yet achieved with the previous ultrasonic liquid atomizers is obtained.
    • 用于液体的超散射雾化器包括机械耦合到振幅变压器(20)的压电换能器(16),安装到振幅变压器(20)的自由端的雾化盘(21),包围至少 振幅变压器(20)和支撑筛状隔膜(31)的盖(30)。 盖(30)被安装到壳体(22)上,隔膜(31)搁在雾化盘(21)上。 盖(30)由两个相互同心的盖部分(32,33)组成,其中一个(32)支撑隔膜(31),第二(33)用于将整个盖子(30)安装在壳体(22)上, 。 弹簧(36)安装在两个盖部分(32,33)之间,使得筛子状隔膜(31)弹性地保持在雾化盘(21)上,并且来自弹簧(36)的相反的力是 传送到固定在壳体中的第二盖部分(33)中。 这种液体雾化器的特征在于,隔膜(31)总是以精确限定的预应力放置在雾化盘(21)上,由此获得迄今为止还没有用先前的超声波液体雾化器实现的操作可靠性。
    • 3. 发明授权
    • Method and device for testing the permeability of membrane filters
    • 用于测试膜过滤器渗透性的方法和装置
    • US4614109A
    • 1986-09-30
    • US754583
    • 1985-07-15
    • Frieder Hofmann
    • Frieder Hofmann
    • B01D65/10G01N15/08
    • B01D65/102G01N15/0826G01N2015/086
    • The invention pertains to a method and device for testing the permeability of membrane filters by submitting a wetted membrane filter on its inlet side to a predetermined testing gas pressure within a first closed system and by measuring pressure variation over time within the closed system. The object of the method of the invention is a sensitive testing method permitting permeability, and thus pore size, of a membrane filter to be determined exclusively by measurements performed on the inlet side of the membrane filter. Such measurement is performed by measuring a pressure differential with respect to a reference pressure, or by measuring the quantity of gas per unit of time flowing with respect to a reference pressure system, or else by measuring the pressure differential twice and draining, during the second measurement, a predetermined quantity of gas from the space being tested.
    • 本发明涉及一种用于通过在其入口侧将润湿的膜过滤器提供到第一封闭系统内的预定测试气体压力并通过测量封闭系统内随时间的压力变化来测试膜过滤器的渗透性的方法和装置。 本发明方法的目的是通过在膜过滤器的入口侧进行的测量来确定膜过滤器的渗透性,因而孔尺寸的灵敏测试方法。 通过测量相对于参考压力的压力差或通过测量相对于参考压力系统流动的每单位时间的气体量,或者通过在第二次测量期间测量两次并排水的压力差来进行这种测量 测量,来自被测空间的预定量的气体。