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    • 1. 发明专利
    • Apparatus, system and method for removing dents in pipe in mounted state
    • 用于在安装状态下移除管道中的管道的装置,系统和方法
    • JP2010194610A
    • 2010-09-09
    • JP2010029097
    • 2010-02-12
    • Balcke-Duerr Gmbhバルケ−デュル ゲーエムベーハー
    • GROBELNY HANS-GUENTER
    • B21D3/14
    • B21D1/08
    • PROBLEM TO BE SOLVED: To provide an apparatus for removing dents on a pipe.
      SOLUTION: The apparatus for removing the dents on the pipe in the mounted state, especially for removing the dents on the pipe of a heat exchanger pipe, an individual system into which these apparatus are integrated and a method for using the apparatus are disclosed. The apparatus has a dent detecting unit (3) and a dent removing unit (2). Thus, the dents on the pipe in the mounted state are detected and removed in a single pass. Preferably, the detection of the dents is performed mechanically and the removal of those dents is performed by pressurizing the dent removing unit and the dent removing unit is expanded in the peripheral direction.
      COPYRIGHT: (C)2010,JPO&INPIT
    • 要解决的问题:提供一种用于去除管道上的凹痕的装置。 解决方案:用于在安装状态下去除管道上的凹陷的装置,特别是用于去除热交换器管道的管道上的凹陷,这些装置被集成到其中的单独系统以及使用该装置的方法 披露。 该装置具有凹陷检测单元(3)和凹陷去除单元(2)。 因此,在安装状态下的管道上的凹痕在单次通过中被检测和移除。 优选地,机械地执行凹痕的检测,并且通过对凹陷去除单元加压来执行这些凹痕的去除,并且凹痕去除单元沿圆周方向膨胀。 版权所有(C)2010,JPO&INPIT
    • 3. 发明专利
    • Heat exchanger or method of installing degassing tube
    • 热交换器或安装脱水管的方法
    • JP2005069678A
    • 2005-03-17
    • JP2004241530
    • 2004-08-20
    • Balcke-Duerr Gmbhバルケ−ドュル ゲー.エム.ベー.ハー.
    • GROBELNY GUENTERSCHWARZER WALTER
    • F28D7/10F28D7/06F28F9/00
    • F28D7/06F28F9/005
    • PROBLEM TO BE SOLVED: To provide a heat exchanger which eliminates a residue in a housing and has high operability with respect to extended operation time.
      SOLUTION: The present heat exchanger is configured so that a plurality of U-shaped tubes (3) forming a bundle of tubes are installed in a housing (2), and that the inner space of the housing (2) is partitioned by a partition (4) to form chambers (5). In the present heat exchanger, at least one degassing tube (6) is provided which extends via all of the chambers (5) in this housing (2), and a plurality of degassing ports (15) oriented laterally with respect to the axial direction (14) of this degassing tube (6) are formed in this tube.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:提供一种在壳体中消除残余物的热交换器,并且在延长的操作时间方面具有高操作性。 解决方案:本发明的热交换器被构造成使得形成一束管的多个U形管(3)安装在壳体(2)中,并且壳体(2)的内部空间被分隔 通过隔板(4)形成腔室(5)。 在本热交换器中,设置有至少一个脱气管(6),其通过该壳体(2)中的所有室(5)延伸,并且多个脱气口(15)相对于轴向方向横向定向 在该管中形成该脱气管(6)的(14)。 版权所有(C)2005,JPO&NCIPI
    • 5. 发明专利
    • Mixer and mixing method
    • 混合和混合方法
    • JP2006198615A
    • 2006-08-03
    • JP2006009213
    • 2006-01-17
    • Balcke-Duerr Gmbhバルケ−ドュル ゲー.エム.ベー.ハー.
    • RUSCHEWEYH HANSLESER STEFANKAATZ MICHAEL
    • B01F5/00
    • B01F5/0451B01F5/0453B01F5/0456B01F5/0618B01F2005/0091B01F2005/0638
    • PROBLEM TO BE SOLVED: To provide a mixer with enhanced performance composed of a plurality of mixer disks which cause a front edge vortex to a fluid flowing in a main direction in a passage.
      SOLUTION: A plurality of the mixer disks 3 which cause a front edge vortex to a fluid flowing in a main direction in a passage are provided in a mixer 1. The mixer disks 3 are disposed along with an axis substantially and perpendicularly extending against the main direction 4 of stream. The rows of mixer disks 8 and 9 are located adjacent to the main direction of stream at the common passage part and the mixer disks 3 adjacent to the rows 8 and 9 are arranged to alternately set a positive and negative attack angle. The fluid flowing in a passage 2 is stirred by the front edge vortex system in this method, and at least two front edge vortexes which are directed in a reverse direction are generated in the common passage part.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提供一种混合器,其具有由多个混合盘组成的增强性能,所述多个混合器盘使得前沿涡流成为在通道中沿主方向流动的流体。 解决方案:在混合器1中设置有多个混合器盘3,其将前缘涡流引导到在通道中沿主方向流动的流体。混合盘3与基本上和垂直延伸的轴一起设置 反对流的主要方向4。 混合器盘8和9的行在公共通道部分处邻近主流方向定位,并且与行8和9相邻的混合盘3布置成交替地设置正和负的攻角。 在该方法中,通过前缘涡流系统搅拌在通道2中流动的流体,并且在公共通道部分中产生沿相反方向指向的至少两个前缘涡流。 版权所有(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Heat exchanger for industrial facility
    • 工业设备热交换器
    • JP2005207732A
    • 2005-08-04
    • JP2005029721
    • 2005-01-07
    • Balcke-Duerr Gmbhバルケ−デュール ゲゼルシャフト ミット ベシュレンクテル ハフツング
    • KIENBOECK MARTINPODHORSKY MIROSLAV
    • F28F1/12F28D1/053F28F3/08F28F13/00
    • F28F13/003Y10S165/907
    • PROBLEM TO BE SOLVED: To provide a lightweight heat exchanger for an industrial facility with a small aperture.
      SOLUTION: The present invention relates to the heat exchanger for the industrial facility, in particular, the heat exchanger for a generating set, provided with at least one distribution passage for a liquid medium, and at least one heat exchanger element attached to the distribution passage. The heat exchanger is constituted of sandwich structure of the distribution passages and the heat exchanging elements comprising metal sponge. The distribution passage is constituted of pipes or at least semi-pipes connected each other. The adjacent pipes or semi-pipes are connected each other via the metal sponges. A sandwich-like side face in the present invention is easily manufactured into a dimension required in the industrial facility. In particular, a heat exchanger module by this manner is advantageous since it is lightweight and a shell body can be easily connected to the metal sponge by soldering or welding. Provision is allowed on a metal cellular body or a shell body by casting. The metal sponge comprises preferably an open cell metal cellular body, in particular, an aluminum cellular body.
      COPYRIGHT: (C)2005,JPO&NCIPI
    • 要解决的问题:为具有小孔径的工业设备提供轻质的热交换器。 解决方案:本发明涉及用于工业设备的热交换器,特别是用于发电机组的热交换器,其具有至少一个用于液体介质的分配通道和至少一个热交换器元件 分配通道。 热交换器由分配通道和包含金属海绵的热交换元件的夹层结构构成。 分配通道由管道或彼此相连的至少半管道构成。 相邻的管道或半管道通过金属海绵彼此连接。 本发明的夹心状侧面易于制造成工业设备所需的尺寸。 特别地,这种方式的热交换器模块是有利的,因为它是轻质的,并且壳体可以通过焊接或焊接容易地连接到金属海绵。 允许通过铸造在金属细胞体或壳体上进行配置。 金属海绵优选地包括开孔金属细胞体,特别是铝细胞体。 版权所有(C)2005,JPO&NCIPI
    • 7. 发明专利
    • Electrostatic filtration apparatus and gas supply apparatus for electrostatic filter
    • 静电过滤器静电放电装置和气体供应装置
    • JP2006021194A
    • 2006-01-26
    • JP2005167283
    • 2005-06-07
    • Balcke-Duerr Gmbhバルケ−ドュル ゲー.エム.ベー.ハー.
    • KAATZ MICHAELDAVIS THOMASSTEFAN LESERRUSCHEWEYH HANS
    • B03C3/36B01F3/02B01F5/00B01J4/00B03C3/013B03C3/02
    • B03C3/013B03C3/36
    • PROBLEM TO BE SOLVED: To improve the efficiency of a gas supply apparatus for an electrostatic filter and that of an electrostatic filtration apparatus comprising the gas supply apparatus and the electrostatic filter. SOLUTION: This gas supply apparatus 1 comprises a gas introducing passage 7 having a constant cross-sectional area, a gas sucking hood 8 having the cross-sectional area expanded toward the electrostatic filter and a conditioning agent mixing unit 19. One or more flow dividers are arranged in the cross sectional area-expanded region of the gas sucking hood 8. A first vortex generating unit 11 for generating a leading-edge vortex is arranged in the gas introducing passage. A second vortex generating unit 12 for generating a leading-edge vortex is arranged in the gas sucking hood on the upstream side of the flow dividers. The mixing unit 19 is arranged in the region of any of the two vortex generating units. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:提高静电过滤器的气体供给装置和包括气体供给装置和静电过滤器的静电过滤装置的效率。 解决方案:该气体供给装置1包括具有恒定横截面积的气体导入通道7,具有向静电过滤器膨胀的横截面积的气体吸入罩8和调节剂混合单元19.一个或 在气体吸入罩8的横截面积扩大区域设置有更多的分流器。在气体导入通道中配置有用于产生前缘涡流的第一涡流生成单元11。 用于产生前缘涡流的第二涡流产生单元12布置在分流器的上游侧的气体吸入罩中。 混合单元19布置在两个涡流发生单元中的任一个的区域中。 版权所有(C)2006,JPO&NCIPI
    • 8. 发明申请
    • HEAT EXCHANGER IN MODULAR DESIGN
    • 换热器模块结构
    • WO2010025960A3
    • 2010-06-17
    • PCT/EP2009006512
    • 2009-09-08
    • BALCKE DUERR GMBHBRUCKMANN WILHELMHEGNER WOLFGANGBAND DIRK
    • BRUCKMANN WILHELMHEGNER WOLFGANGBAND DIRK
    • F28D7/08F22B1/00F22B1/16F22B21/24F28D7/16F28F9/00
    • F28D7/08F22B21/00F28D7/1646F28D2021/0064F28F9/00F28F2009/0285
    • The invention relates to a heat exchanger (1) in modular design, particularly for systems operated with large changes of the load and/or temperature, having an outer jacket (70) and a plurality of heat exchanger modules, wherein each heat exchanger module, which is either a preheater (10), evaporator (20, 30, 40), or overheating module (50), comprises an inlet collector (11, 21, 31, 41, 51), an outlet collector (12, 22, 32, 42, 52), and pipes (120) extending in a meandering manner, through which the endothermic medium, particularly water, flows from the inlet collector (11, 21, 31, 41, 51) to the outlet collector (12, 22, 32, 42, 52), and further the heat exchanger modules are disposed in a common outer jacket (70) such that the same exothermic medium flows around them, wherein the evaporator modules (20, 30, 40) are connected in parallel via a steam drum (60) disposed outside of the outer jacket (70).
    • 本发明涉及一种模块化结构的换热器(1),特别是具有大的负载和/或温度变化供电设备,有一个外壳(70)和多个换热器模块,每个换热器模块,它可以是一个预热器(10),蒸发器 - (20,30,40)或过热器组件(50)是一个入口集管(11,21,31,41,51),一个出口集管(12,22,32,42,52)和蛇行管(120) 通过使吸热介质,特别是水,从进口集管(11,21,31,41,51)到所述出口收集器(12,22,32,42,52)中流动,并且进一步地,在一个共同的外护套的热交换模块(70) 被布置成使得它们被相同的发热介质流动,其中蒸发器模块(20,30,40)经由布置在蒸汽鼓(60)中的外壳(70)的外部并联连接。
    • 10. 发明公开
    • Wärmetauscher
    • 换热器
    • EP0780656A3
    • 1998-11-18
    • EP96119514
    • 1996-12-05
    • BALCKE DUERR GMBH
    • PODHORSKY MIROSLAN DR-INGBRUCKMANN WILHELM DIPL-ING FH
    • F28F19/06B21D39/08B21D53/06F28F19/00F28F21/08
    • F28F21/082F28D7/06F28F9/0229F28F9/185F28F19/002
    • Die Erfindung betrifft einen insbesondere zur Abwärmenutzung in der chemischen Industrie bestimmten Wärmetauscher mit an ihren Enden in Bohrungen mindestens einer Rohrplatte (4) druckdicht befestigten Wärmetauscherrohren (3) aus ferritischem Werkstoff, die in einem von einem Kühlmedium durchflossenen Wärmetauschergehäuse (5) angeordnet sind. Um die aus ferritischem Werkstoff bestehenden Wärmetauscherrohre (3) vor Versprödung zu schützen, ist zumindest im hohen Temperaturbereich der Wärmetauscherrohre (3) jeweils ein Schutzrohr (6) aus versprödungsunempfindlichem Material angeordnet, das durch hydraulisches Aufweiten im Bereich der Rohrplatte (4) im Wärmetauscherrohr (3) befestigt ist.
    • 由铁素体材料的本发明涉及一种特定的特别是用于废热利用在化学工业的热交换器中的至少一个管板的孔具有在其端部(4)的压力紧密地附接的热交换管(3),其被布置成通过所述冷却介质的热交换器壳体(5)。 为了保护现有的铁素体材料的热交换管(3)抗脆性,在热交换管的高温区域中的至少(3)被布置在每一种情况下的保护管(6)从由液压膨胀在管板的区域中形成versprödungsunempfindlichem材料(4)(在换热器管 3)被附上。