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    • 2. 发明授权
    • Testing opaque workpieces, particularly tiny or thin elongated objects
such as pins, bolts, wires, or the like, for orientation, size and
material integrity
    • 测试不透明工件,特别是微小或细长的物体,如针,螺栓,电线等,用于取向,尺寸和材料完整性
    • US4171161A
    • 1979-10-16
    • US782420
    • 1977-03-29
    • Rainer Jung
    • Rainer Jung
    • G01B11/02G01B11/00G01B11/24G01B11/245G01N21/88G01N21/952
    • G01B11/2433G01B11/00
    • A light source, preferably an electrical flash tube, generates a beam of light which, preferably, is collimated to provide a parallel beam output. The workpieces are placed in the beam of light to generate a shadow image. The shadow image and surrounding beam portions are projected on a screen, with intervening optical enlargement, on which photoelectric sensors are located positioned in the projected shadow image and preferably also in adjacent regions of the light beam, the outputs from the sensors being compared with each other, or with a reference, to determine relative shadow image characteristics of regions of the objects in the light beam path, the output signals being a measure of differences in characteristics, and hence determinative of orientation, size, or integrity of the workpiece material. To test for size or orientation, two sensors are located at the end portions of the shadow images of pins, or bolts, carried through a test path interposed between the parallel beams from the light source, before enlargement.
    • 优选地,电闪光管的光源产生优选地被准直以提供平行光束输出的光束。 将工件放置在光束中以产生阴影图像。 阴影图像和周围光束部分被投影在屏幕上,具有中间的光学放大,其上光电传感器位于投影阴影图像中并且优选地也位于光束的相邻区域中,来自传感器的输出与每个 其他或参考,以确定光束路径中物体的区域的相对阴影图像特性,输出信号是特性差异的量度,因此确定工件材料的取向,尺寸或完整性。 为了测试尺寸或取向,两个传感器位于放大之前通过插入在来自光源的平行光束之间的测试路径的销或螺栓的阴影图像的端部。
    • 3. 发明申请
    • Rotary seal
    • 旋转密封
    • US20080191424A1
    • 2008-08-14
    • US11937037
    • 2007-11-08
    • Dirk GebauerRainer JungSebastian Kahler
    • Dirk GebauerRainer JungSebastian Kahler
    • F16J15/32B32B1/08
    • F16J15/002F16J15/025F16J15/062Y10T428/13
    • The invention relates to a rotary seal, a vessel and also to use of the vessel. According to the invention, the rotary seal contains a sealing element and a retaining means, the sealing element being configured as a planar structure with an opening which can be changed in its opening cross-section and the retaining means having a first retaining part and a second retaining part (5) which can be rotated relative to each other, and first retaining part and second retaining part respectively being connected securely to the sealing element at least at one attachment point , the attachment points being chosen such that the sealing element can be deformed by rotation of the first and second retaining part such that the opening of the sealing element is reduced in its opening cross-section.
    • 本发明涉及旋转密封件,容器以及容器的使用。 根据本发明,旋转密封件包含密封元件和保持装置,该密封元件构造成具有开口的平面结构,该开口可以在其开口横截面上改变,并且保持装置具有第一保持部分和 第二保持部分(5),其可以相对于彼此旋转,并且第一保持部分和第二保持部分分别至少在一个附接点牢固地连接到密封元件,所述附接点被选择为使得密封元件可以 通过第一和第二保持部的旋转而变形,使得密封元件的开口在其开口横截面上减小。
    • 5. 发明授权
    • Device and method for qualitative determination of the cavitation energy of ultrasound in containers
    • 用于定性测定容器中超声波空化能的装置和方法
    • US08033169B2
    • 2011-10-11
    • US12187515
    • 2008-08-07
    • Rainer Jung
    • Rainer Jung
    • G01F23/28
    • G01H3/10
    • The present invention relates to a measuring chamber (6) for an ultrasonic bath (1) or for a container which is equipped with a low-frequency ultrasonic source (2) for cavitation generation, this measuring chamber being suitable for determining the cavitation energy via the increase in volume in a measuring liquid (10) contained in the measuring chamber, and the measuring chamber having in addition a container (7) with a sound-permeable window region (8) and a sensor (9) for measuring the increase in volume of the measuring liquid (10).In addition, a method for operating this measuring chamber is presented.With the measuring chamber according to the invention or the corresponding method (independent of a prescribed ultrasonic bath), reliable determination of the introduced ultrasonic power or a conclusion about the cleaning power is possible.
    • 本发明涉及一种用于超声波浴池(1)的测量室(6)或装有用于产生空化的低频超声波源(2)的容器,该测量室适用于通过 包含在测量室中的测量液体(10)中的体积增加,并且测量室还具有用于测量增加的透声窗口区域(8)和传感器(9)的容器(7) 测量液体(10)的体积。 此外,提出了一种用于操作该测量室的方法。 利用根据本发明的测量室或相应的方法(独立于规定的超声波浴),可以可靠地确定引入的超声功率或关于清洁功率的结论。
    • 6. 发明申请
    • Ultrasonic sonotrode
    • 超声波超声波
    • US20050247408A1
    • 2005-11-10
    • US11125858
    • 2005-05-10
    • Rainer Jung
    • Rainer Jung
    • B06B3/00B30B1/00B32B31/00
    • B06B3/00
    • An ultrasonic sonotrode for irradiating ultrasonic energy into fluid or pasty media, wherein the ultrasonic sonotrode in the longitudinal direction (z) includes: a coupling section for coupling an active ultrasonic system which excites longitudinally in the longitudinal direction (z); a base section, wherein the largest dimension of the base section transverse to the longitudinal direction (z) is larger than the length of the base section in the longitudinal direction (z), wherein the dimensions of the base section transverse to the longitudinal direction in the border region to the transition section are always ≧λ/4 and the shortest length of the base section in the longitudinal direction (z)
    • 一种用于将超声波能量照射到流体或糊状介质中的超声波超声波发生器,其中,所述超声波超声波发生器在纵向方向(z)上包括:联接部分,用于耦合在纵向方向(z)上纵向激发的主动超声波系统; 基部,其横截于所述纵向方向(z)的所述基部的最大尺寸大于所述基部在所述纵向方向(z)上的长度,其中所述基部横向于所述纵向方向的尺寸在 过渡部分的边界区域总是> =λ/ 4,并且基本部分在纵向方向(z)的最短长度<λ/ 4; 用于在相对于所述基部的至少一个横截面中减小横截面的过渡部分; 以及具有端面区域作为照射表面的平坦部分,其中所述平坦部分通过至少一个狭槽分割成在所述端面区域中未连接的若干个舌片。
    • 8. 发明授权
    • Device for storing and conveying in an orientated manner of small
articles
    • 用于以小物品的朝向的方式存储和传送的装置
    • US4844240A
    • 1989-07-04
    • US116562
    • 1987-09-30
    • Odo HutterRainer JungWerner KurzGerhardt SperrJurgen Voss
    • Odo HutterRainer JungWerner KurzGerhardt SperrJurgen Voss
    • B65G47/14
    • B65G47/1492
    • Device for storing small articles and conveying them in an orientated manner, includes a storage container (10), a slope conveyor (12), and an orientation conveyor (20) which is arranged parallel to the slope conveyor and is provided with a defined segment (68) for returning excessive small articles or those which are not orientated to the feed area (32) of the slope conveyor (12). The slope conveyor is provided with the actual conveying segment (50), a deflecting segment (52) for receiving small articles which are forced out of the conveying segment (50) laterally, the small articles arriving back in the feed area (32) of the slope conveyor (12) on the deflecting segment (52). A pile-up of small articles arrives in the output area (40) of the slope conveyor (12) and a localized circulation is formed in this location which prevents the small articles from entering the orientation segment (64).
    • PCT No.PCT / DE86 / 00517 Sec。 371日期1987年9月30日 102(e)1987年9月30日PCT PCT 1986年12月18日PCT公布。 公开号WO87 / 04688 日期:1987年8月13日。用于存放小物品并以方向传送的设备包括一个与斜坡输送机平行布置的储存容器(10),斜坡输送机(12)和定向输送机(20) 并且设置有用于返回过量的小物品或未定向到斜坡输送机(12)的进给区域(32)的那些的限定段(68)。 倾斜输送机设置有实际输送段(50),偏转段(52)用于接收从侧向移出输送段(50)的小物品,小物件返回到进料区域(32)中的小物件 偏转段(52)上的斜坡输送机(12)。 小物品的堆积物到达倾斜输送机(12)的输出区域(40),并且在该位置形成局部循环,防止小物件进入定向段(64)。
    • 9. 发明申请
    • Device And Method For Qualitative Determination Of The Cavitation Energy Of Ultrasound In Containers
    • 用于定量测定容器中超声波气穴能的装置和方法
    • US20090049908A1
    • 2009-02-26
    • US12187515
    • 2008-08-07
    • Rainer Jung
    • Rainer Jung
    • G01F23/28
    • G01H3/10
    • The present invention relates to a measuring chamber (6) for an ultrasonic bath (1) or for a container which is equipped with a low-frequency ultrasonic source (2) for cavitation generation, this measuring chamber being suitable for determining the cavitation energy via the increase in volume in a measuring liquid (10) contained in the measuring chamber, and the measuring chamber having in addition a container (7) with a sound-permeable window region (8) and a sensor (9) for measuring the increase in volume of the measuring liquid (10).In addition, a method for operating this measuring chamber is presented.With the measuring chamber according to the invention or the corresponding method (independent of a prescribed ultrasonic bath), reliable determination of the introduced ultrasonic power or a conclusion about the cleaning power is possible.
    • 本发明涉及一种用于超声波浴池(1)的测量室(6)或装有用于产生空化的低频超声波源(2)的容器,该测量室适用于通过 包含在测量室中的测量液体(10)中的体积增加,并且测量室还具有用于测量增加的透声窗口区域(8)和传感器(9)的容器(7) 测量液体(10)的体积。 此外,提出了一种用于操作该测量室的方法。 利用根据本发明的测量室或相应的方法(独立于规定的超声波浴),可以可靠地确定引入的超声功率或关于清洁功率的结论。
    • 10. 发明授权
    • Ultrasonic sonotrode
    • 超声波超声波
    • US07344620B2
    • 2008-03-18
    • US11125858
    • 2005-05-10
    • Rainer Jung
    • Rainer Jung
    • B32B37/00
    • B06B3/00
    • An ultrasonic sonotrode for irradiating ultrasonic energy into fluid or pasty media, wherein the ultrasonic sonotrode in the longitudinal direction (z) includes: a coupling section for coupling an active ultrasonic system which excites longitudinally in the longitudinal direction (z); a base section, wherein the largest dimension of the base section transverse to the longitudinal direction (z) is larger than the length of the base section in the longitudinal direction (z), wherein the dimensions of the base section transverse to the longitudinal direction in the border region to the transition section are always ≧λ/4 and the shortest length of the base section in the longitudinal direction (z)
    • 一种用于将超声波能量照射到流体或糊状介质中的超声波超声波发生器,其中,所述超声波超声波发生器在纵向方向(z)上包括:联接部分,用于耦合在纵向方向(z)上纵向激发的主动超声波系统; 基部,其横截于所述纵向方向(z)的所述基部的最大尺寸大于所述基部在所述纵向方向(z)上的长度,其中所述基部横向于所述纵向方向的尺寸在 过渡部分的边界区域总是> =λ/ 4,并且基本部分在纵向方向(z)的最短长度<λ/ 4; 用于在相对于所述基部的至少一个横截面中减小横截面的过渡部分; 以及具有端面区域作为照射表面的平坦部分,其中所述平坦部分通过至少一个狭槽分割成在所述端面区域中未连接的若干个舌片。