| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于静止的或者能够移动的粘稠物质泵的分配杆 | CN201580043012.5 | 2015-07-30 | CN107155339A | 2017-09-12 | B.劳; E.道姆; D.菲伊格尔 |
| 本发明涉及分配杆,用于静止的或者能够移动的粘稠物质泵,带有至少一个具有盒型轮廓的杆臂(10)。所述杆臂(10)具有两个彼此以间距布置的侧壁(12、14),所述侧壁借助于两个彼此以间距布置的横向壁(16)相互连接。每个侧壁(12、14)具有用于输送管路(30)的穿引开口(32、34)。根据本发明设置成,在所述侧壁(12、14)之间伸延有与所述侧壁固定连接的管(36),所述管以其管端部(38、40)通入到所述穿引开口(32、34)中。在所述管端部(38、40)和相邻的侧壁(12、14)之间分别布置有凸缘(42、44),所述凸缘周围环绕地突出超过相应的管端部(38、40)的外边缘并且不仅焊接在所述管端部(38、40)处而且焊接在涉及的侧壁(12、14)处。 | ||||||
| 2 | 防止地下室外墙工艺管道开孔后漏水的方法 | CN201410719681.7 | 2014-12-02 | CN104613238A | 2015-05-13 | 张嘉乐; 张艳生; 赵烨 |
| 本发明提供一种防止地下室外墙工艺管道开孔后漏水的方法,该方法步骤:在地下室钢筋混凝土墙壁上开设工艺管道预留孔,工艺管道预留孔的位置必须高于地下室地面、低于地下室顶面15-20厘米;工艺管道预留孔开孔直径≦50厘米;当工艺管道的直径大于50厘米时,需要在工艺管道与法兰盘堆焊的位置增设加强刚度的肋板;开孔后的防水封堵,在地下室钢筋混凝土墙壁迎水面做防水处理。本发明效果是采用该方法防水性能高,仅一次施工就可以保证20年或更长的时间内不漏水。此项防水解决方案施工简单方便,施工期短,造价低廉。同时解决了一直困扰建筑领域施工期间以及项目竣工后地下室开孔漏水难题。 | ||||||
| 3 | 将穿过炉壁用以通入沉箱的导管固定在炉壁上的固定装置 | CN95108321.X | 1995-06-19 | CN1127880A | 1996-07-31 | 弗雷德里克·梅洛特 |
| 本发明涉及将通入沉箱的导管固定在炉壁上的固定装置,它包括将导管与外板连接的外部连接设备,插在导管上的内部金属导向管的一端插在孔和导向管之间,另一端上加工有外螺纹。该导向管有一个刚性垫片,它作为支架紧靠内层的内表面,带有一个比导向管截面大的孔的沉箱的壁装在该垫片上,通过把一个螺母拧在导向管的螺纹端部而使密封构件紧压在沉箱的壁上。 | ||||||
| 4 | 压缩机、用于将流体管道焊接到压缩机外壳的方法和流体输送管道 | CN200710128864.1 | 2007-06-01 | CN101082332A | 2007-12-05 | A·J·西尔维拉 |
| 本发明涉及一种压缩机、一种将流体管道焊接到压缩机外壳的方法以及一种尤其适用于封闭式压缩机的流体输送管道,其取代了钎焊步骤,并将流体流通管道直接焊接到压缩机外壳上。封闭式压缩机包括外壳(5)和流体输送管道(9),流体输送管道经由通道孔(10)穿过外壳(5),流体输送管道(9)包括可焊接的连接装置(11),可焊接的连接装置(110)由流体输送管道(9)的直径加宽部构造成,直径加宽部具有比通道孔(10)直径大的尺寸,并沿其长度构造成,可焊接的连接装置(11)靠近通道节流孔(10)的边界(12′)直接焊接。本发明还描述了一种将流体管道焊接到压缩机外壳的方法以及一种尤其适用于封闭式压缩机的流体输送管道。 | ||||||
| 5 | 一种高温管路用弹性穿舱件 | CN201410344071.3 | 2014-07-18 | CN104712853A | 2015-06-17 | 何海洋; 彭云飞; 曹为午; 黄亚农; 周福昌 |
| 本发明公开了一种高温管路用弹性穿舱件,属于管路振动噪声控制技术领域。穿舱件包括焊接法兰、内管、金属波纹管和螺纹法兰;内管的外圆周面上设有两个径向的限位凸台,一端的外圆周面上加工有螺纹段,螺纹段起于内管的端面,止于限位凸台的台阶面;金属波纹管的外形为纺锤形结构,直径最大处的内外圆周面为平面结构;金属波纹管的两端分别焊接在内管两个限位台阶相对的台阶面上,内管的一端与焊接法兰焊接,另一端与螺纹法兰螺纹连接,金属波纹管的直径最大处与舱壁的过孔焊接。本发明能解决高温管路穿舱的隔振问题,同时又能满足舱壁的强度、密封性、可靠性等要求。 | ||||||
| 6 | 一种电缆贯穿密封装置及其生产方法 | CN201310417660.5 | 2013-09-14 | CN104455754A | 2015-03-25 | 牛玉琴; 吕芝红; 赵亮 |
| 一种电缆贯穿密封装置及其生产方法是涉及电缆贯穿密封装置结构的改进。本发明提供了一种结构简单、规格统一、可批量生产的电缆贯穿密封装置。本发明的一种电缆贯穿密封装置,包括框体,其结构要点框体内分层设置有具有通孔的密封模块,层与层之间设置有隔板;所述的密封模块同框体和隔板之间的缝隙通过盲堵模块填充;最上层的隔板上方设置有压紧块。 | ||||||
| 7 | 一种船用带锌块座板 | CN201410430109.9 | 2014-08-28 | CN104180071A | 2014-12-03 | 晏志清; 李寿钊 |
| 本发明旨在提供一种结构简单、能延长船舶钢质管路使用寿命并能降低维护成本的船用带锌块座板。本发明系统包括与船体壁面焊接连接的法兰焊接单面座板(1),在所述法兰焊接单面座板(1)上与船体壁面向接触的一面上设置有台阶(2),在所述台阶(2)处配合有锌环(3),所述锌环(3)通过一钢架(4)来固定支撑;在所述锌环(3)上设置有卡槽,所述钢架(4)卡紧在所述卡槽内。本发明可应用于船舶设备领域。 | ||||||
| 8 | 一种PE膜材与PVC管焊接装置 | CN201310493336.1 | 2013-10-15 | CN103591389A | 2014-02-19 | 方青海 |
| 一种PE膜与PVC管焊接装置,实现施工简单方便,焊接牢固,保证工程质量的目的。主要包括PE管、PVC管、PE膜材,要求PE管比PVC管大一型号,PE管套在PVC管上,管与管之间缝隙用密封材料固定,PE膜材直接焊接在PE管上。 | ||||||
| 9 | 将穿过炉壁用以通入沉箱的导管固定在炉壁上的固定装置 | CN95108321.X | 1995-06-19 | CN1081321C | 2002-03-20 | 弗雷德里克·梅洛特 |
| 本发明涉及将通入沉箱的导管固定在炉壁上的固定装置,它包括将导管与外板连接的外部连接设备,插在导管上的内部金属导向管的一端插在孔和导向管之间,另一端上加工有外螺纹。该导向管有一个刚性垫片,它作为支架紧靠内层的内表面,带有一个比导向管截面大的孔的沉箱的壁装在该垫片上,通过把一个螺母拧在导向管的螺纹端部而使密封构件紧压在沉箱的壁上。 | ||||||
| 10 | Fluid transfer tube and the welding process are welded to the compressor housing | JP2009524848 | 2007-06-01 | JP2010501761A | 2010-01-21 | ジョゼ シルベイラ,アルベルト |
| 本発明は、ロウ付けの代替手段を提供し、流体移送管の圧縮機ハウジングへの直接溶接を提供する圧縮機、流体移送管を圧縮機のハウジングに溶接する方法、及び特に気密の圧縮機に適用可能な流体移送管に関する。 気密圧縮機は、ハウジング(5)と、流体移送管(9)とを備え、前記流体移送管は流路オリフィス(10)を通って前記ハウジング(5)を貫通し、前記流体移送管(9)は、溶接可能な継ぎ手手段(11)を備え、前記溶接可能な継ぎ手手段(11)が前記流体移送管(9)の径拡大部から構成され、該径拡大部は前記流路オリフィス(10)の直径より大きな寸法を有し、前記流路オリフィス(10)の全長に沿って形成され、前記溶接可能な継ぎ手手段(11)は、前記流路オリフィス(10)の境界部(12')の近傍に直接溶接される。 流体移送管を圧縮機ハウジングに溶接する方法や、特に気密圧縮機に適用可能な流体移送管についても記載される。 | ||||||
| 11 | How to seal the gap between the pipe passing through the wall and this wall | JP6383899 | 1999-03-10 | JP4361157B2 | 2009-11-11 | 礼史 寺西 |
| 12 | Method for closing tight clearance between wall and piping penetrating the wall | JP6383899 | 1999-03-10 | JP2000257756A | 2000-09-19 | TERANISHI REIJI |
| PROBLEM TO BE SOLVED: To seal up simply and quickly and reduce a cost by utilizing a silicon plug on the marker, in the method for closing tight the clearance between a wall and the piping penetrating this wall. SOLUTION: When a ring shape silicon plug 5 with the size sticking to the outer periphery of a piping and inner periphery of a cylinder is inserted inside the cylinder of a sheath pipe 3 consisting of a brim 31 stuck to a wall 1 and a cylinder 32, fixed to this brim, surrounding the outside of a piping 2, the rift over inside/outside is formed on the silicon plug and the silicon plug is fitted externally to the piping while opening this rift. Then, the silicon plug 5 is internally inserted in the cylinder 32 while sliding the silicon plug on the outer periphery of the piping 2. Further, the clearance is closed tight by applying a sealing material to the contact part of the outer periphery of the piping 2 with the surface appearing to the outside of the silicon plug 5, the contact part of the surface appearing to the outside of the silicon plug with the cylinder 32 and the outer periphery of the brim part 31 respectively. | ||||||
| 13 | Inspection, repair or replacement method and device for nozzle penetrating bottom of reactor pressure vessel | JP33618793 | 1993-12-28 | JPH06294885A | 1994-10-21 | FURANTSU PETSUTSU; YAKOBU RUTSUSU |
| PURPOSE: To lessen a radioactive charge on the detector of a core inner appliance by inserting a protector vessel in a reactor pressure vessel, and arranging a probe within the protection zone of the protector vessel. CONSTITUTION: At the time of repairing or changing nozzles 2, a protector vessel 6 is inserted in a reactor pressure vessel 1. This protector vessel 6 contains water as a protection medium, and is formed out of a bottom plate 10, a side wall 11 and a top plate 12. Tubes 15 are plugged into the bottom plate 10 and fixed by welding 16. Furthermore, a probe 4 is provided, together with the free end zone 5 of the protector vessel 6 in a protection zone, and a detector for determining core data is mounted on the probe 4. Each nozzle 2 is coaxially coupled to a shaft 17. A cartridge 19 filled with water is inserted in each shaft 17, and this shaft 17 has a rail 21 below the cartridge 19 for longitudinally guiding a transport device 22. In this case, the transport device 22 is used to carry an inspection device and a work tool, and introduced into the shaft 17 by the operation of a cable winch 25. | ||||||
| 14 | JPS6151197B2 - | JP14577377 | 1977-12-06 | JPS6151197B2 | 1986-11-07 | RORUFU DERURINGU |
| 15 | JPS52132330U - | JP2619877 | 1977-03-04 | JPS52132330U | 1977-10-07 | |
| 16 | Distribution boom for stationary or mobile viscous material pumps | US15428584 | 2017-02-09 | US09828780B2 | 2017-11-28 | Benjamin Rau; Eva Daum; Dietmar Fügel |
| This disclosure relates to a distribution boom for stationary or mobile viscous material pumps, comprising at least one boom arm having a box profile. The boom arm has two side walls which are arranged at a distance from one another and which are connected to one another by means of two transverse walls which are arranged at a distance from one another. Each side wall has a lead-through opening for a conveying line. Provision is made according to this disclosure for there to extend between the side walls a tube which is fixedly connected thereto and which opens by way of the tube ends thereof into the lead-through openings. Between the tube ends and the adjacent side wall there is arranged a respective flange which projects in an encircling manner over an outer border of the respective tube end and is welded both to the tube end and to the side wall in question. | ||||||
| 17 | NOZZLE MOUNTING STRUCTURE | US13008429 | 2011-01-18 | US20110194663A1 | 2011-08-11 | Nobuyuki Hori; Ryuichi Narita; Moritatsu Nishimura; Harutaka Suzuki; Koji Okimura |
| [Problem] To facilitate mounting of a nozzle.[Solving Means] In a nozzle mounting structure for mounting a nozzle 20 penetrating through a reactor vessel 10 having a hemispherical concave inner surface, the nozzle mounting structure includes a removed concave portion 17 in which a base material 12 on an inner surface side of the reactor vessel 10 is removed in a symmetrical shape around a normal line N on the hemispherical concave inner surface of the reactor vessel 10, a flange 25 provided on the nozzle 20, formed in a same symmetrical shape as that of the removed concave portion 17 around the normal line N, and inserted into the removed concave portion 17, and a weld part 18 provided around the normal line N for welding the flange 25 to the reactor vessel 10. | ||||||
| 18 | Connecting conduits to components of fluid handling devices | US11013601 | 2004-12-15 | US07399375B2 | 2008-07-15 | Judson Leiser; Eric S. Dod; Shell Whittington; Karen St Martin |
| A component of a fluid handling system has a wall that separates an interior of the component from an exterior of the component. A channel passes completely through the wall for receiving a conduit therein. A trough is formed on an exterior of the component. A sidewall of the trough has an opening that aligns with the channel. The opening is for receiving the conduit therethrough before the channel receives the conduit. | ||||||
| 19 | Methods of repairing leaking elongate hollow members in boiling water reactors | US10845318 | 2004-05-14 | US20040218708A1 | 2004-11-04 | Eric R. Willis; Sampath Ranganath; Paul Van Diemen |
| In a method for sealing a hollow, elongate member within a reactor pressure vessel of a nuclear reactor, a section of the elongate member may be removed to separate the elongate member into an upper portion and a lower portion with an opening there between. The lower portion may be attached to a surface of the reactor pressure vessel in-situ, so as to seal off a potential leakage path through the elongate member. | ||||||
| 20 | Fastening system for fastening a through pipe to a hearth wall, the pipe opening into a box | US491574 | 1995-06-16 | US5553897A | 1996-09-10 | Fr ed eric Maillot |
| The present invention relates to a fastening system for fastening a through pipe to a hearth wall, the pipe opening into a box. The fastening system comprises external pipe-securing means for securing the pipe to said screen, and an internal metal guide tube fitted over said pipe and having one of its ends interposed between said pipe and the orifice through which said pipe passes, its other end being externally threaded. The guide tube carries a rigid washer which is disposed so as to abut against the inside face of the inside layer, and against which a wall of the box is mounted, which wall is provided with an orifice that is larger than the cross-section of the guide tube, a sealing device being clamped against the wall of the box by a nut screwed onto the threaded end of the guide tube. | ||||||
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