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EP0141210B1 - Halterung für Profilschienen, insbesondere für Fahrschienen von Einschienenhängebahnen - Google Patents

Halterung für Profilschienen, insbesondere für Fahrschienen von Einschienenhängebahnen Download PDF

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Publication number
EP0141210B1
EP0141210B1 EP84111080A EP84111080A EP0141210B1 EP 0141210 B1 EP0141210 B1 EP 0141210B1 EP 84111080 A EP84111080 A EP 84111080A EP 84111080 A EP84111080 A EP 84111080A EP 0141210 B1 EP0141210 B1 EP 0141210B1
Authority
EP
European Patent Office
Prior art keywords
rail
receiving
flanges
plate
mounting according
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
EP84111080A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP0141210A2 (de
EP0141210A3 (en
Inventor
Gerhard Dipl.-Ing. Linier
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Cfc-Fordersysteme GmbH
Original Assignee
Cfc-Fordersysteme GmbH
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Cfc-Fordersysteme GmbH filed Critical Cfc-Fordersysteme GmbH
Priority to AT84111080T priority Critical patent/ATE32925T1/de
Publication of EP0141210A2 publication Critical patent/EP0141210A2/de
Publication of EP0141210A3 publication Critical patent/EP0141210A3/de
Application granted granted Critical
Publication of EP0141210B1 publication Critical patent/EP0141210B1/de
Expired legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01BPERMANENT WAY; PERMANENT-WAY TOOLS; MACHINES FOR MAKING RAILWAYS OF ALL KINDS
    • E01B25/00Tracks for special kinds of railways
    • E01B25/22Tracks for railways with the vehicle suspended from rigid supporting rails
    • E01B25/24Supporting rails; Auxiliary balancing rails; Supports or connections for rails

Definitions

  • the invention relates to a bracket for rails, in particular for rails of monorails with preferably electrically powered trolleys, which bracket can be fastened at one end to a stationary support structure and is formed at its other end to accommodate the rail, which rail preferably has an upper and a lower rail head with U-shaped cross-section including a channel open to the other rail head and a rail web connecting the rail heads, the web of the upper rail head preferably being designed on the outside as a running surface for rollers and idlers and flanges of the rail heads as guide surfaces for guide rollers of the running gear.
  • a holder of the type specified in the preamble of claim 1 in the form of a bracket with a horizontal bracket arm which has at its free end two block parts formed on both sides of the bracket arm, which in the by the two rail heads and the essentially defined omega-shaped rail web for the form-fitting support of the free flanges of the rail heads protrude up to a stop, which is formed by a clamping plate lying on the outside of the free flanges and connecting the two block parts.
  • a stop which is formed by a clamping plate lying on the outside of the free flanges and connecting the two block parts.
  • two counter plates are inserted on both sides of the bracket arm, which rest against the free flanges on the channel side and are screwed to the outer clamping plate.
  • a U-screw attached to the supporting structure is used to suspend the holder, the threaded legs of which penetrate the elongated holes from above and on the end portions of which protrude from the underside of the plate-shaped extension, nuts for supporting the holder are screwed on from below.
  • a screw arranged in the center of the bolt circle serves to additionally fasten the holder to the supporting structure.
  • the holder fastened in this way can be rotated with respect to the supporting structure by any angular amount up to a maximum of 90 °, the length of the elongated holes.
  • a second holder is provided, the arcuate elongated holes of which are offset by 45 ° with respect to the elongated holes of the first holder.
  • DE-C 2 245 862 discloses a further holder for connecting rails with a double T or U profile with different widths of the horizontal flanges.
  • a circular connecting disc with a diameter corresponding to the width of the larger horizontal flange is arranged between the mutually facing horizontal flanges of the two rails to be connected.
  • this connecting disc On its outer circumference, this connecting disc has a circumferential, upwardly open groove, into which clamping claws which produce the connection to the horizontal flange of the lower rail engage.
  • the connection to the horizontal flange of the upper rail is made by additional clamping claws screwed into bores in the connecting disc, the spacing of which is necessarily less than the diameter of the connecting disc.
  • this connection allows the lower rail to be rotated through 360 ° with respect to the connecting disk fastened to the upper rail, it is necessarily designed as an unstable 2-point fastening due to the diametrically opposed clamping claws. Another disadvantage is the need to support the lower rail during the Rotation, otherwise the clamping claws would get stuck in the groove of the connecting disc.
  • this connection is limited to the use of rails with horizontal flanges of different widths. Furthermore, only a certain combination of two rails can be connected with a connecting disc with respect to the width of the horizontal flanges. The outside diameter of this connecting disk must namely be adapted to the width of the horizontal flange of the lower rail and the spacing of the holes for the clamping claws to the width of the horizontal flange of the upper rail.
  • the holder has a plate with elongated holes arranged on a bolt circle and formed in a circular arc in accordance with the radius of the bolt circle, a counterplate that can be fastened to the supporting structure by means of fastening means with through holes arranged on the bolt circle and into the elongated holes and through holes for the purpose of connecting the plate with the counter plate has connecting elements that can be used independently of one another, and that the through bores and the elongated holes are designed in terms of number and length in order to achieve a congruent alignment of at least three through bores with at least two elongated holes in any angular position when the plate rotates relative to the counter plate.
  • the plate and thus the running rail can be rotated through 360 ° in relation to the counter plate attached to the supporting structure.
  • the counter plate has more than three through holes, which are arranged in interaction with the length of the elongated holes in such a way that when the plate is rotated relative to the counter plate from an angular position in which, for example, three through holes are congruent with the elongated holes, i.e. are free for the insertion of connecting elements, each of these through holes, which is covered as a result of the rotation by the web parts of the plate arranged between the elongated holes, is replaced by a previously hidden through hole which has become free during the rotation.
  • this profile rail can have a width corresponding to the spacing of the fastening means if an imaginary connecting line between the two fastening means runs normal to the longitudinal direction of the profile rail. If the counter plate is to be fastened to a profile rail with a narrower horizontal flange, the counter plate is simply rotated relative to the profile rail so that the imaginary connecting line between the fastening means runs at an angle to the longitudinal direction of the profile rail.
  • the plate is rotated relative to the counter plate by the same angle with the opposite direction of rotation, so that the direction of the rail does not change.
  • the combination of the above features ensures that the plate and thus the travel rail can be rotated through a full 360 ° and is attached to the counter plate and thus to the supporting structure in any angular position with a reliable, stable 3-point connection.
  • the rotation can be carried out continuously without removing the plate from the counter plate and without supporting the travel rail from below.
  • Adaptation to supporting structures of different dimensions is ensured in the same simple and quick manner.
  • the adaptation to support structures of different dimensions can be improved in that the counterplate is formed on the semi-straight lines running outside the bolt circle of a straight line intersecting the bolt circle, each with a bore for receiving the fastening means.
  • the 3-point attachment of the bracket to the supporting structure in any angular position is advantageously achieved by providing two elongated holes and five through holes evenly distributed over the circumference of the respective bolt circle, the Bolt arcs between the elongated holes are equal to the arcs of a circle between the through holes.
  • the same effect can also be achieved with four elongated holes and eight through holes.
  • Another measure to achieve the object advantageously consists in that at least one receiving element for the running rail is fastened to the holder and can be arranged in each of the channels of the rail heads and can be brought into play against the respective web and / or the flanges without play.
  • the internal dimensions of the channels are larger than the dimensions of the receiving elements, so that the latter can be arranged easily and quickly within the former. This can be done, for example, by inserting the receiving elements fastened to the holder from the end face of the travel rail or from rail sections into the channels and by subsequently shifting in the longitudinal direction of the travel rail to the desired receiving point. Only after the desired pick-up point has been reached is each pick-up element brought into the vertical and / or horizontal direction for play-free contact with the respective rail head, as a result of which the rail is reliably fastened to the holder. Another advantage of this measure is that the production of the receiving elements and / or the channels can be carried out with greater manufacturing tolerances than in the prior art.
  • a bracket can be created which enables the fastening of the running rail in a simple, quick and reliable manner at any point along its length and in any angular position relative to the supporting structure.
  • the receiving element assigned to the lower and / or upper rail head is advantageously detachably attached to the holder.
  • the receiving elements are preferably arranged on the holder at the free ends of the receiving flanges of a U-shaped receiving head which run normal to the plane of the rail web. In this way, among other things, the omega-shaped space of the travel rail can be kept free for accommodating supply and control devices which no longer find space on the other side of the travel rail.
  • the receiving flanges and the web part of the receiving head are preferably detachably attached to one another or releasably on the holder. This makes it possible to exchange mounting flanges or mounting heads to adapt to different load cases, so that, for example, several mounting elements with larger or smaller mutual distances or a single mounting element with greater or smaller length measured in the longitudinal direction of the rail can be arranged within each channel.
  • the receiving element arranged in the channel of the lower and / or upper rail head can be braced with the web of the respective rail head. This can be done, for example, by means of an adjustable threaded bolt, which connects the receiving element and the holder to one another and presses the former against the web while supporting the latter.
  • the wedge it is expedient to design the wedge to protrude out of the channel with the point of its smallest height dimension.
  • the wedge can then preferably be designed as a receiving element.
  • the wedge or the receiving element for abutment against the flanges of the respective rail head can be spread.
  • the wedge or receiving element can have through openings in a known manner with or without cone bushings and expansion screws which can be screwed into them.
  • the receiving elements can consist of plastic material with high damping properties with sufficient strength. This is particularly beneficial for improving sound insulation.
  • the transition from the flanges of the rail heads to the rail web connecting them can each be designed as a slope that moves away from the plane of the free flanges of the rail heads with increasing approach to the rail web.
  • the adaptability of the system created hitherto can be further increased in that the flanges arranged on the same side of the rail heads and the rail web connecting them lie in one plane.
  • Such an arrangement can be developed for very high loads by symmetrical formation of the running rail to the rail web.
  • the holder has essentially the shape of a U-bracket, on the lower bracket arm of the receiving head and on the upper bracket arm the plate are arranged.
  • the outer surfaces of the receiving elements or of the wedges assigned to the flanges of the rail heads are roughened.
  • this can take the form of knurling.
  • the receiving elements or wedges are preferably made of a material with greater hardness than the flanges of the rail heads. When spreading, this knurling is pressed into the flanges, which creates an additional positive connection.
  • the running rail 3 consists of butt-assembled rail sections, each of which has an upper rail head 4, a lower rail head 5 and a vertical rail web 6 connecting both.
  • Both rail heads 4, 5 are each designed as a U-profile with a horizontal web 7 and two vertically aligned, mutually parallel flanges and arranged in such a way that the channels 8 enclosed by them are open to the other channel.
  • the rail web 6 connects the flanges 9 shown on the right side of FIG. 1.
  • the free flanges parallel to this are provided with the reference number 10.
  • the flanges 9 have a larger thickness dimension than the flanges 10 and than the rail web 6.
  • the latter is arranged approximately in the vertical center plane of the flanges 9 and connected to them by conical transitions 11.
  • the trapezoidal groove 12 thus formed on the side of the running rail 3 facing away from the channels 8 is provided for receiving busbars 13 for the electrically driven running gears.
  • an essentially omega-shaped space 14 is defined by both rail heads 4, 5 and the rail web 6, the channels 8 being components of this space.
  • the channel-side bevels of the conical transitions 11 are provided with the reference number 15.
  • the surface of the web 7 of the upper rail head 4 serves as a tread 16 for running and idler rollers of the trolleys.
  • the outer sides 17 of the flanges 9 and / or 10 of one or both rail heads 4, 5 serve as guide surfaces for guide rollers of the trolleys.
  • the holder 2 comprises a U-bracket 18 with a vertical bracket web 19, a lower horizontal bracket arm 20 and an upper bracket arm 21 parallel thereto, the upper side of which is expanded to form a horizontally oriented plate 22.
  • Connecting elements in the form of cap screws 23 represent the connection between the plate 22 and a counter plate 24 parallel thereto, which in turn are fastened to the two halves of a lower horizontal flange 26 of the profile beam 1 with fastening means 25 in the form of screwed claws.
  • the U-bracket 18 has a double-T cross-section.
  • a U-shaped receiving head 27 For receiving the travel rail 3 on the holder 2 is a U-shaped receiving head 27 with a vertical web part 28 and a lower one and an upper receiving flange 29 and 30 respectively.
  • the vertical web part 28 is welded to the free end of the bracket arm 20.
  • Both receiving flanges 29, 30 extend in a horizontal direction into the omega-shaped space 14 of the running rail 3 and end at a short distance from the rail web 6 near the conical transitions 11. In their corner regions, the receiving flanges 29, 30 have receiving elements to be described, which engage in the channels 8 of both rail heads 4, 5.
  • the lower part of the U-bracket 18 is shown with the mounting head 27 attached to it, without the travel rail 3 and without mounting elements on the lower mounting flange 29.
  • a bore 31 is provided for fastening elements for the receiving elements. Only the bores 31 in the lower receiving flange 29 can be seen, since they are hidden in the upper receiving flange 30 by the receiving elements.
  • Fig. 3 shows an enlarged sectional view of the design of the receiving elements and their arrangement in the channels 8 of the rail.
  • this travel rail has two flanges 9, the outer sides 17 of which lie in one plane with the side of the rail web 6 connecting them facing away from the receiving head 27.
  • This rail which is provided with the reference numeral 33, is accommodated on the receiving head 27 with the expandable receiving elements 32 shown in FIG. 2.
  • These each have in cross section a truncated pyramid 34 with a rectangular base area with a base surface and a cuboid shape extending the same Section 35 on.
  • the height dimension of the receiving element 32 is selected such that it extends from the web 7 of the respective rail head 4 to the point which, starting from the rail web 6, represents the beginning of the slope 15 of the conical transition 11.
  • the height of the cuboid section 35 corresponds to the vertical dimension of the flange 9, 10.
  • the side faces of the truncated pyramid 34 are of the same length as the bevel 15 and fit snugly against it.
  • Each receiving element 32 is provided with a vertical slot which is enlarged with a bore 36.
  • a self-locking conical bushing 37 is arranged in the bore 36 in the region of the cuboid section 35.
  • An expansion screw 38 with a cylindrical thread is screwed into the bore 36 and the conical bushing 37, so that the side walls of the cuboid section 35 rest non-positively on the inside of the flanges 9, 10.
  • the expansion screw 38 passes through the bores 31 in the respective receiving flange 29, 30 and thus simultaneously represents the fastening element already mentioned for the receiving element 32 on the receiving flanges 29, 30.
  • the receiving elements 32 are fastened to the upper receiving flange 30 of the receiving head 27 by means of the expansion screws 38, which, however, are screwed into the internally threaded bores 36 only to such an extent that the receiving element does not expand.
  • the lower mounting flange 29 is free.
  • the corresponding receiving elements 32 are already inserted in the channel 8 of the lower rail head 5.
  • the running rail 3, 33 is placed with its upper rail head 4 or the associated channel 8 on the receiving elements 32 fastened to the upper receiving flange 30 and pressed down until it abuts the web 7.
  • the receiving elements 32 are moved in the channel 8 of the lower rail head 5 until their conical bushings 37 are aligned with the bores 31 in the lower receiving flange 29.
  • the expansion screws 38 are screwed through these bores 31 into the bores 36 and the conical bushes 37 until they stop.
  • the expansion screws 38 partially screwed into the receiving elements 32 on the upper receiving flange 30 are also screwed in as far as they will go.
  • the cuboid sections 35 are spread apart and brought to the respective flanges 9, 10 of both rail heads 4, 5 for non-positive contact.
  • the side surfaces of the truncated pyramid 34 form-fit the slope 15.
  • the spread receiving elements 32 used in this way can transmit high forces, in particular those which occur in the longitudinal direction of the running rail.
  • mounting elements that consist of plastic material with high damping properties with sufficient strength.
  • the conical bushing 37 can be omitted and, instead of the expanding screw 38 with a cylindrical thread, one with a conical thread can be used. It is easy to see that instead of the expandable receiving elements, those that cannot be expanded can also be used.
  • both types of receiving elements it is advantageous to attach the expandable elements to the upper receiving flange. It is also conceivable to use only one or instead of two receiving elements per receiving flange but also to use three or more such elements. For this purpose, mounting flanges or mounting heads of different lengths and with a different number of holes can be used.
  • a travel rail 39 is fastened to the receiving head 27 by means of receiving elements 40.
  • These receiving elements 40 correspond to the above-mentioned receiving elements 32 - the same parts are denoted by the same reference numerals - but are of continuous cuboid design over their entire height.
  • the running rail 39 is formed symmetrically to its rail web 6 and has an upper rail head 41 and a lower rail head 42, both of which each have two free flanges 10 and two channels 8.
  • the remaining components are identified by the same reference numerals as the corresponding elements of the rails 3 and 33.
  • the travel rail 39 is held by means of receiving elements 43 which are formed in one piece with a receiving head 44.
  • the latter is screwed with its web part 28 to the free end of the lower bracket arm 20 of the holder 2.
  • a receiving head 44 Like the receiving head 27, it is U-shaped, but its horizontal receiving flanges 29, 30 are deflected at right angles in the region of the channels 8 of the travel rail 39 to form vertical extensions, which extensions represent the receiving elements 43.
  • These receiving elements 43 are thus of the same length - in the longitudinal direction of the rail - as the receiving flanges 29, 30 and therefore, in contrast to the previously described receiving elements 32, 40, have a greater length than height.
  • the distance between the channel-side inner surfaces of the webs 7 of both rail heads 41, 42 is greater than the distance between the bearing surfaces of the receiving elements 43 facing these inner surfaces.
  • the bearing surface 45 assigned to the upper rail head 41 (see FIG. 6) is parallel to the inner surface of the web 7
  • the lower contact surface consists of two inclined surfaces 46 which run obliquely in the longitudinal direction, but which are parallel to the inner surface of the associated web 7 in the transverse direction. Both inclined surfaces 46 are symmetrical to one another, i.e. their apex is located halfway along the length of the receiving head 44. They run in such a way that their distance from the upper bearing surface 45 is greater at the apex than at the two end faces of the receiving head 44.
  • each wedge 47 can be provided with a longitudinal slot 48 which extends parallel to the rail web 6 and in which a spreading arrangement 49, which is only indicated schematically, is arranged on its section which projects in the inserted state on the respective end face of the receiving head 44.
  • This expansion arrangement essentially consists of a slot extension with an inserted conical bushing and a screw-in expansion screw. 5 and 6, the greatest distance between the bearing surfaces 45 and 46 is greater than the distance between the free ends of the flanges 10, so that the receiving head 44 can only be inserted into the channels 8 from the ends of the respective rail sections . Accordingly, the receiving elements 43 and the wedges 47 have little play in the transverse direction with respect to the respective rail head 41, 42.
  • FIG. 7 shows a receiving head 50 for receiving the running rail 39, which corresponds to the above-described receiving head 44 with the exception that the vertical extension 51 of the lower receiving flange 29 has a lower height than the corresponding vertical extension or the receiving element 43 (FIG. 5) and is also provided with a longitudinal groove 53 embedded in the support surface 46.
  • the wedges 52 are formed higher than the wedges 47 described above and are additionally provided on their upper side with a longitudinal rib 54 which engages in the longitudinal groove 53 in a form-fitting manner.
  • the boundary lines of the longitudinal rib 54 are drawn for the sake of clarity at a distance from the boundary lines of the longitudinal groove 53.
  • the height dimensions of the wedges 52 are such that they protrude from the channel 8 over their entire length in the inserted state. This means that the receiving head 50 can be inserted into the channels 8 at any point on the running rail 39 from its omega-shaped space 14 and that the wedges 52 take over the function of the lower receiving elements.
  • the vertical extensions 43, 51 lie against the bevels 15 of the conical transitions 11 of the running rail 39.
  • These receiving heads 44 and 50 are particularly suitable for receiving the travel rail in the region of the joint between two adjacent rail sections, since they with their receiving elements 43 and wedges 47, 52 Support rail 39 over a relatively large length.
  • FIG. 8 shows, on an enlarged scale, the plate 22 formed on the upper side of the upper bracket arm 21 of the holder 2.
  • the plate 22 is provided with four elongated holes 55 arranged on a hole circle L and of circular shape with the radius of the hole circle. These elongated holes 55 are arranged at a uniform mutual distance on the bolt circle and have the same lengths.
  • the bolt circle arcs arranged between the elongated holes 55 are provided with the reference symbol LB.
  • the plate 22 is circular.
  • the counter plate 24 is shown. It essentially has the shape of an elongated ellipse. Approximately in the areas of the ellipse focal points, a through hole 56 is formed for receiving a screw for fastening a clamping claw to the profile carrier 1 of the supporting structure (see FIG. 1). In the central region of the counter plate 24, eight through bores 57 are formed, which are arranged at the same mutual spacing LB on the same circle of holes L on which the elongated holes 55 lie.
  • the elongated holes 55 and the through bores 57 are provided for receiving the cap screws 23 which establish the connection between the plate 22 and the counterplate 24 (see FIG. 1).
  • the pitch circle arcs LB between the through holes 57 are of the same length as the pitch circle arcs LB between the elongated holes 55.
  • the plate 22 and the counter plate 24 are connected to one another.
  • the cap screws 23 are inserted from the underside of the plate 22 into the through bores 57 and the elongated holes 55.
  • the depressions 58 and the screw heads arranged therein are not shown in FIGS. 10 to 13. Only the shafts of the cap screws 23 are shown.
  • each with its screw head on the underside of the plate 22 head screw 23 are assigned three nuts, the uppermost not shown is seated in the hexagonal recess 58 and the lower abut against the underside of the counter plate 24 or top of the plate 22.
  • the counter plate 24 and the plate 22 can be fixed at any desired distance from one another, and at the same time there is the possibility of achieving a certain inclination of the plate 22 with respect to the counter plate 24.
  • the plate 22 and the counter plate 24 are in a first angular position to one another.
  • the eight through bores 57 are arranged congruently with the elongated holes 55 and are therefore free for the insertion of eight cap screws 23.
  • fewer than eight cap screws 23 can also be used, the number of which should preferably not be less than three.
  • the travel rail 3 extends in a direction normal to an imaginary connecting line between the two through bores 56 in the counterplate 24.
  • the elongated holes 55 and the through bores 57 are clockwise with indices 1 to 4 and 1 to 8, respectively Mistake.
  • the through bores 57/1 and 57/2 are assigned to the elongated hole 55/1.
  • a corresponding assignment applies to the remaining through holes 57/3 to 57/8 and elongated holes 55/2 to 55/4.
  • FIG. 11 shows the plate 22 in a second angular position with respect to the counter plate 24, in which the travel rail 3 runs obliquely to the imaginary connecting line between the two through bores 56 in the counter plate 24.
  • the plate 22 is rotated counterclockwise in the direction of rotation D.
  • four of the eight cap screws 23 used are first removed, one from each slot 55.
  • these are the cap screws which are arranged in the through bores 57/2, 57/4 arranged in the direction of rotation D , 57/6 and 57/8.
  • the rotation can take place in the direction of rotation D, the through bores 57/2 , 57/4, 57/6 and 57/8 are covered by the areas 59 of the plate 22 arranged between the elongated holes 55.
  • the through bores 57/1, 57/3, 57/5 and 57/7 with seated cap screws 23 are arranged in the center of the respective elongated hole 55 after the turning process has ended.
  • FIG. 12 shows a top view of the horizontal flange 26 of the profiled beam 1 of a supporting structure with a counter plate 24 and plate 22 fastened to it, the latter two being in the mutual angular position shown in FIG. 10.
  • the profiled beam 1 and the running rail 3 are parallel to one another and run normally to an imaginary connecting line between the through bores 56 in the counterplate 24 or the fastening means 25 assigned to them.
  • the running rail 3 can be fastened to a profiled beam 1 with the greatest possible width of the horizontal flange 26 are suspended, this horizontal flange width being limited by the distance between the through bores 56 in the counterplate 24.
  • the running rail 3 can also be suspended in a very simple manner from a profile carrier 1, the horizontal flange 26 of which has a smaller width than the profile carrier shown in FIG. 12. This is shown in Fig. 13.
  • the counter plate 24 is rotated in a clockwise direction with respect to the profile support 1, so that the imaginary connecting line between the fastening means 25 and the longitudinal axis of the profile support 1 run at an angle to one another.
  • the size of the included angle is inversely related to the width of the horizontal flange 26.
  • the plate 22 is rotated together with the counter plate 24 with respect to the profiled beam 1, so that the running rail also extends obliquely to the profiled beam at the same angle. It is easy to see that it is only necessary to rotate the plate 22 counterclockwise in the manner described above in order to return the running rail 3 to its old angular position, i.e. to bring parallel to the profile beam 1.
  • the holder according to the invention can of course also be used for turnout suspensions, sliding transfers and fixing devices of monorail overhead conveyors and also for profile supports in general. If five or more cap screws 23 are used to connect the plate 22 and the counterplate 24, two or more of these screws 23 can also be connected to one another in order to accelerate the insertion or removal.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Railway Tracks (AREA)
  • Machines For Laying And Maintaining Railways (AREA)
  • Carriers, Traveling Bodies, And Overhead Traveling Cranes (AREA)
  • Leg Units, Guards, And Driving Tracks Of Cranes (AREA)
  • Escalators And Moving Walkways (AREA)
  • Chain Conveyers (AREA)
EP84111080A 1983-10-26 1984-09-17 Halterung für Profilschienen, insbesondere für Fahrschienen von Einschienenhängebahnen Expired EP0141210B1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
AT84111080T ATE32925T1 (de) 1983-10-26 1984-09-17 Halterung fuer profilschienen, insbesondere fuer fahrschienen von einschienenhaengebahnen.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE3338840 1983-10-26
DE19833338840 DE3338840A1 (de) 1983-10-26 1983-10-26 Halterung fuer profilschienen, insbesondere fuer fahrschienen von einschienenhaengebahnen

Publications (3)

Publication Number Publication Date
EP0141210A2 EP0141210A2 (de) 1985-05-15
EP0141210A3 EP0141210A3 (en) 1986-07-16
EP0141210B1 true EP0141210B1 (de) 1988-03-09

Family

ID=6212772

Family Applications (1)

Application Number Title Priority Date Filing Date
EP84111080A Expired EP0141210B1 (de) 1983-10-26 1984-09-17 Halterung für Profilschienen, insbesondere für Fahrschienen von Einschienenhängebahnen

Country Status (5)

Country Link
EP (1) EP0141210B1 (es)
AT (1) ATE32925T1 (es)
DE (2) DE3338840A1 (es)
ES (1) ES8506377A1 (es)
PT (1) PT79405B (es)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
LU85923A1 (de) * 1985-05-31 1986-01-14 Cleveland Tramrail Int Aufhaengevorrichtung fuer eine laufschiene einer haengebahn
US4928602A (en) * 1989-03-06 1990-05-29 Jervis B. Webb Company Track clamp assembly
IT230361Y1 (it) * 1993-07-16 1999-06-02 Fata Automation Dispositivo di supporto regolabile a dischi per vie di corsa sospese

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1662539A (en) * 1927-08-15 1928-03-13 Cincinnati Butchers Supply Co Supporting means for overhead tracks
FR1219849A (fr) * 1959-04-10 1960-05-19 Demag Zug Gmbh Voie de roulement suspendue
FR2144090A5 (es) * 1971-06-30 1973-02-09 Sucmanu
DE3240104C2 (de) * 1982-10-29 1985-05-02 Mannesmann AG, 4000 Düsseldorf Aufhängung für eine Schiene

Also Published As

Publication number Publication date
EP0141210A2 (de) 1985-05-15
PT79405A (de) 1984-11-01
EP0141210A3 (en) 1986-07-16
ES537110A0 (es) 1985-07-01
DE3469770D1 (en) 1988-04-14
ES8506377A1 (es) 1985-07-01
ATE32925T1 (de) 1988-03-15
DE3338840A1 (de) 1985-05-09
PT79405B (de) 1986-08-28

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