Method of mounting equipment pieces at carrying structures of transport system

专利摘要:
57 Das Verfahren zur lagegenauen Befestigung von Ausrüstungsteilen mit vorgegebenen Anschlußstellen an der Tragkonstruktion von Fahrwegen für spurgebundene Transportsysteme, insbesondere Magnetschwebebahnen, mit Anschlußkörpern in der Tragwerkkonstruktion, die so bemessen sind, daß sie die durch das Fahrzeug auf die Ausrüstungsteile wirkenden Kräfte und Momente auf die Tragwerkkonstruktion übertragen, zeichnet sich dadurch aus, daß in einer dem Fertigungsprozeß des Tragwerks nachgeschalteten Bearbeitung der Anschlußkörper die gemäß dem Stand der Technik beim Stahl- und Betonbau auftretenden Fertigungstoleranzen des Tragwerks ausgeglichen werden im Hinblick auf die Lagegenauigkeit der Ausrüstungsteile mit den vorgegebenen Anschlußstellen. Dazu werden vorteilhaft Anschlußkörper an den Befestigungsorten mit in allen Koordinaten maßgenauen Bohrungen und Ansenkungen, die den zugehörigen Bolzen bzw. Bohrungen der Ausrüstungsteile entsprechen, zur Montage der Ausrüstungsteile mittels Schrauben und Distanzhülsen versehen. In der Tragkonstruktion von Stahlfahrwegen werden vorzugsweise beiderseits zugängliche Anschlußkörper verwendet, derart, daß durch in allen Koordinaten maßgenaue Durchgangslöcher und Ansenkungen eine maßgenaue Schraubenbefestigung durch entsprechend bemessene Bolzen, Distanzhülsen und Muttern erfolgen kann.
公开号:SU1746889A3
申请号:SU3843339
申请日:1985-01-24
公开日:1992-07-07
发明作者:Миллер Луитпольд；Георг Рашбихлер Ханс
申请人:Тиссен Индустри Аг (Фирма)；
IPC主号:

专利说明:

FIELD OF THE INVENTION The invention relates to transport construction and relates to the construction of routes for high-speed transport systems.
There is a known method of mounting equipment parts in predetermined places on the constructed supporting track structures of the transport system, mainly of the suspension road on a magnetic hanger, which consists in mounting fasteners on these constructions and fixing the equipment parts in their design position.
According to this method, precise prior adjustment is required and then fixing the equipment details in a predetermined position during the entire installation time of the fasteners to the design position, by means of which they subsequently fix the equipment details on the supporting track structures. This significantly lengthens and complicates installation.
The purpose of the invention is to simplify and speed up installation, as well as to increase its accuracy.
According to the method of installation of equipment parts in predetermined places on the constructed supporting track structures of the transport system, mainly a magnetic suspension line, consisting of mounting fasteners on these structures and fixing the equipment parts in the design position by means of them. joining equipment parts to them is equipped with connecting parts rigidly attached to these structures, in which they carry out precise, in all design coordinates there are holes for fasteners and spacers, and the depth of the holes for these sleeves is determined individually for each supporting track structure, based on the condition that the equipment parts on this structure are installed in the design position without additional adjustment,
Fig. 1 shows the carrier track structure, mounted on the base, of a cross section; Fig. 2 shows the assembled parts of the equipment in cross section of the supporting track JCOH structure made of metal; fig.Z - the same, side view; Fig. 4 shows the assembled parts of the equipment in cross section of a supporting track structure made of reinforced concrete; Figure 5 is the same side view; Fig. 6 illustrates the placement of the processing equipment when making holes in the connection parts.
The method is carried out as follows.
The supporting track transport structures 1 of the transport system, mounted on the base 2, are equipped with connecting parts 3 rigidly attached to these structures. In parts 3, holes 4 for fasteners and spacers 5 are executed precisely in all coordinates in accordance with the design. the depth of the holes for these sleeves is determined individually for each individual track structure, based on the condition that the equipment parts on this structure are installed in the design position without additional a thorough adjustment.
Parts of the equipment, such as stator b pack, side guides tires 7, etc., are fastened with fixing elements, for example, fixing bolts 8 or screws 9, through spacers 5 without corresponding prior alignment in the design position.
Accurate in position, obtaining corresponding through-holes and threaded holes for fasteners and countersinks for spacers can be implemented using computer-controlled horizontal boring machines 10 (fig.b) mounted on auxiliary longitudinal guides 11. which can also be used and to accommodate appropriate mechanisms for mounting hardware components. In the continuation of the drilling behind the connecting parts 3 in reinforced concrete (Fig. 4) a filling material 12, a foam, can be placed.
Minimally, the number of parts required for installation and simple fixation of the equipment with unregulated screw connections reduces installation costs to an affordable minimum and, based on the ease of installation, makes it possible to significantly automate it.

权利要求:
Claims (1)
[1]
Invention Formula
The method of installation of equipment parts in predetermined places on the built bearing structures of the transport system, mainly a magnetic suspension line, consists in mounting fasteners on these structures and fixing the equipment parts in the design position, characterized in that and speed up installation as well
to increase its accuracy, the supporting structures at the points of attachment of equipment parts to them are equipped with connecting parts rigidly attached to these structures, in which holes for fasteners and spacers, which are precise in all design coordinates, are determined individually for each individual track carrying structure, on the basis of ensuring the installation of equipment parts on this structure into the design position without additional Verka.
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引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

---

US3034611A|1958-05-07|1962-05-15|Zenzic John|Tapered locking device|

---

US3254399A|1962-11-23|1966-06-07|Crawford Fitting Co|Bulkhead support and fastening means|

---

FR93421E|1966-01-19|1969-03-28|Barthalon Maurice|Carrier with suspended vehicle.|

---

ES360313A1|1968-11-15|1970-07-01|Cortes Cherto|Elevated railway system|

---

DE2202275A1|1972-01-18|1973-07-26|Krauss Maffei Ag|SUPPORT AND / OR GUIDE DEVICE FOR A LIFTING VEHICLE TRANSPORT SYSTEM|

---

PL87624B1|1973-01-25|1976-07-31|Kraussmaffei Aktiengesellschaft|Track for magnetic-suspension vehicle[US3885505A]|

---

JPS585321B2|1977-03-08|1983-01-31|Japan Airlines Co|

---

JPS5620392A|1979-07-27|1981-02-25|Hitachi Ltd|Synchronizing signal interpolator|

---

JPS6358165B2|1981-07-03|1988-11-15|Mitsui Toatsu Chemicals|DE3716260C1|1987-05-15|1988-07-28|Dyckerhoff & Widmann Ag|Method for adjusting and fastening functional areas of a guideway of an electromagnetic high-speed train and device for carrying out the method|

---

DE3810326A1|1988-03-26|1989-10-05|Thyssen Industrie|METHOD FOR FIXING EQUIPMENT PARTS ACCURATELY|

---

DE3902949A1|1989-02-01|1990-08-09|Thyssen Industrie|VEHICLE CARRIERS FOR MAGNETIC RAILWAYS|

---

DE3917058C1|1989-05-25|1990-11-08|Thyssen Industrie Ag, 4300 Essen, De|

---

DE3928277C1|1989-07-25|1990-12-13|Thyssen Industrie Ag, 4300 Essen, De|

---

DE3928278C2|1989-07-25|1993-07-01|Thyssen Industrie Ag, 4300 Essen, De|

---

DE3931794A1|1989-09-23|1991-04-04|Quaas Hans Rainer Dipl Ing|Track with multi-functional rail for magnetic levitation transport - carries underslung stator for linear motor drive with insulating and corrosion-protective coatings applied before assembly|

---

DE4124166A1|1991-07-20|1993-01-21|Magnet Bahn Gmbh|Mfg. longitudinal stator sections for linear traction motors - using stator iron@ packets and windings with longitudinal stators built in modular system|

---

DE4219199A1|1992-06-12|1993-12-16|Thyssen Industrie|Magnetic rail track with track carrier and side guide rails at longitudinal edges - has cross beams extending between side guide rails also longitudinal stringers connecting cross beams and connection parts used for fixing stator packets.|

---

DE4228310C2|1992-08-26|1997-06-19|Magnetbahn Gmbh|Method and device for fastening stator packages to magnetic levitation railways by means of screw connections|

---

DE4318771A1|1993-06-05|1994-12-08|Magnetbahn Gmbh|Method for obtaining kink-free track joints and positionally accurate trackway supports, in particular for magnetic levitation railways|

---

DE4417071B4|1994-05-16|2004-08-05|Bwg Gmbh & Co. Kg|Lane, in particular intended for a magnetic fast train|

---

DE4428376A1|1994-08-11|1996-02-15|Thyssen Industrie|Method and device for the precise location of fasteners in the connecting body of a supporting structure of guideways for track-bound transport systems, in particular magnetic levitation trains|

---

DE4434121A1|1994-09-23|1996-03-28|Thyssen Industrie|Method and device for the precise location of functional components on the supporting structure of guideways for track-bound vehicles, in particular magnetic levitation trains|

---

DE19619866C2|1996-05-17|2003-10-02|Boegl Max Bauunternehmung Gmbh|Track for magnetic railway trains|

---

DE19841936C2|1998-09-14|2001-03-01|Boegl Max Bauunternehmung Gmbh|Track for elevated railways|

---

DE19934912A1|1999-07-21|2001-01-25|Transrapid Int Gmbh & Co Kg|Track for a magnetic levitation train with linear stator linear drive as well as kit and method for its production|

---

DE19946105A1|1999-09-16|2001-03-22|Thyssen Transrapid System Gmbh|Carrier for producing a guideway for track-bound vehicles, in particular a magnetic levitation train, and guideway thus produced|

---

DE19945749C1|1999-09-24|2001-12-06|Brueckenbau Plauen Gmbh|Track carrier for magnetic high-speed rail track has cover plate at top of welded steel support extended to provide side arms supporting stator and side guide rail|

---

DE19963980B4|1999-12-31|2006-05-11|Otmar Fahrion|Plant for the production of infrastructure elements|

---

US6951433B2|2000-08-04|2005-10-04|Dieter Reichel|Device for nonpositively fixing a bracket to a supporting base body|

---

DE10038851A1|2000-08-04|2002-02-14|Boegl Max Bauunternehmung Gmbh|Method for establishing a connection point on a driveway|

---

AU2001284048B2|2000-09-12|2004-09-02|Max Bogl Bauunternehmung Gmbh & Co Kg|Support beam|

---

DE10051556B4|2000-10-18|2004-11-11|Spiegelberg, Volker, Dipl.-Ing.|Method and device for the mechanical processing of spatially curved structures|

---

DE10058820A1|2000-11-27|2002-06-06|Otmar Fahrion|Machine for cutting groove in maglev train rails has carriage with milling and drilling heads positioned using existing grooves|

---

US6983701B2|2001-10-01|2006-01-10|Magnemotion, Inc.|Suspending, guiding and propelling vehicles using magnetic forces|

---

WO2003102303A1|2002-05-28|2003-12-11|Thyssenkrupp Technologies Ag|Driveway, driveway module, and method for the production thereof|

---

DE20210554U1|2002-07-08|2003-11-20|Wilcken Alexander Von|Coupling device, in particular for a guideway for a magnetic levitation train, and guideway for a magnetic levitation train|

---

DE10332253A1|2003-03-20|2004-09-30|Hirschfeld, Inc., San Angelo|Method for establishing a guideway for a magnetic levitation railway|

---

DE10353949A1|2003-11-18|2005-06-16|Max Bögl Bauunternehmung GmbH & Co. KG|Method for the accurate positioning of a carrier for a track and track|

---

DE102004012746A1|2004-03-15|2005-10-06|Thyssenkrupp Transrapid Gmbh|Magnet arrangement for a magnetic levitation vehicle|

---

DE102004056439A1|2004-03-15|2005-10-06|Thyssenkrupp Transrapid Gmbh|Device for transmitting electrical energy from the track to the vehicle of a maglev train|

---

DE102004012748A1|2004-03-15|2005-10-06|Thyssenkrupp Transrapid Gmbh|Magnet arrangement for a magnetic levitation vehicle|

---

DE102004056438A1|2004-03-15|2005-10-06|Thyssenkrupp Transrapid Gmbh|Guide magnet system and equipped magnetic levitation vehicle|

---

DE102004013690A1|2004-03-18|2005-10-06|Thyssenkrupp Transrapid Gmbh|Magnetic levitation vehicle with air spring control|

---

DE102004013692A1|2004-03-18|2005-10-06|Thyssenkrupp Transrapid Gmbh|Method for a magnetic levitation vehicle for controlling support columns and magnetic levitation vehicle with control circuits operating according to this method|

---

DE102004018308A1|2004-03-19|2005-10-06|Thyssenkrupp Transrapid Gmbh|Magnetic levitation railway with a device for non-contact, inductive transfer of energy from a track to a magnetic levitation vehicle|

---

DE102004013994A1|2004-03-19|2005-10-06|Thyssenkrupp Transrapid Gmbh|Maglev train with an eddy current brake|

---

DE102004014037A1|2004-03-19|2005-10-06|Thyssenkrupp Transrapid Gmbh|Magnetic levitation railway with a compressed air supply system|

---

EP1748943A4|2004-05-07|2009-07-01|Magnemotion Inc|Three-dimensional motion using single-pathway based actuators|

---

US7895955B2|2006-03-15|2011-03-01|Ft Products, Llc|Shelf system|

---

DE102006043378A1|2006-09-12|2008-03-27|Thyssenkrupp Transrapid Gmbh|Magnet arrangement for magnetic levitation vehicles|

---

DE102007004919B4|2007-01-26|2018-09-27|Siemens Aktiengesellschaft|Method and device for controlling the drive of a magnetic levitation vehicle on a magnetic levitation railway line|

---

DE102008005888A1|2008-01-22|2009-07-23|Thyssenkrupp Transrapid Gmbh|maglev|

---

DE102008037755A1|2008-08-15|2010-02-18|Thyssenkrupp Transrapid Gmbh|Track carrier for Mangetschwebefahrzeuge|

---

DE202008016183U1|2008-12-08|2010-05-06|Thyssenkrupp Transrapid Gmbh|Track carrier for magnetic levitation vehicles and stator pack for it|

---

DE102009006027A1|2009-01-23|2010-08-12|Thyssenkrupp Transrapid Gmbh|Track for a magnetic levitation vehicle|

---

US8616134B2|2009-01-23|2013-12-31|Magnemotion, Inc.|Transport system powered by short block linear synchronous motors|

---

US9032880B2|2009-01-23|2015-05-19|Magnemotion, Inc.|Transport system powered by short block linear synchronous motors and switching mechanism|

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法律状态:
2010-09-20| REG| Reference to a code of a succession state|Ref country code: RU Ref legal event code: MM4A Effective date: 20010125 |

优先权:

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申请号 | 申请日 | 专利标题

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DE3404061A|DE3404061C1|1984-02-06|1984-02-06|Method for precise attachment of equipment parts at specified connection locations on the supporting structure of travel routes|

---