EP4261096A1 - Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen - Google Patents

Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen Download PDF

Info

Publication number
EP4261096A1
EP4261096A1 EP22305527.8A EP22305527A EP4261096A1 EP 4261096 A1 EP4261096 A1 EP 4261096A1 EP 22305527 A EP22305527 A EP 22305527A EP 4261096 A1 EP4261096 A1 EP 4261096A1
Authority
EP
European Patent Office
Prior art keywords
floor
fixation
fastening
jig
fixation element
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.)
Pending
Application number
EP22305527.8A
Other languages
English (en)
French (fr)
Inventor
Philipp Wronski
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.)
Alstom Holdings SA
Original Assignee
Alstom Holdings SA
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 Alstom Holdings SA filed Critical Alstom Holdings SA
Priority to EP22305527.8A priority Critical patent/EP4261096A1/de
Publication of EP4261096A1 publication Critical patent/EP4261096A1/de
Pending legal-status Critical Current

Links

Images

Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D17/00Construction details of vehicle bodies
    • B61D17/04Construction details of vehicle bodies with bodies of metal; with composite, e.g. metal and wood body structures
    • B61D17/10Floors

Definitions

  • the invention relates to a fixation system for fastening an object, such as a fixture, especially a partition wall, a hand bar or alike, to a floor, in particular to a floating floor in a rail vehicle or other vehicle, as well as the method for fastening such an object to a floor.
  • EP 3 865 366 A1 relates to a public transport vehicle, in particular a rail vehicle, comprising at least one passenger reception room bounded by at least first and second side walls, a ceiling and a floor.
  • the reception room is arrangeable between an open configuration and a compartmentalized configuration wherein the reception room comprises at least one removable partitioning device extending between the side walls.
  • the partitioning device comprises at least: - a support structure, - at least one partition removably mounted on the support structure, and - a panel movable between a plurality of positions, including a closed position in which the panel completely closes a through opening.
  • JP2009041240A is related to a partition structure applied to partition an indoor space such as a house or an office into a room or space having a desired size by a partition material such as a partition panel or a sliding door, particularly for a lower (floor side) partition.
  • the partition material is built between the rail members provided on the ceiling side and the floor side.
  • EP 1 657 134 A1 relates to a component for the fastening of components such as passenger seats, partitions or similar to the supporting floor structure of a railway carriage has two rail-form components interconnected by a layer of elastic material, whereby the top component has an extension penetrating the layer of elastic material and engaging in the bottom component.
  • the extension and the lower component are formed in such a way that an upper stop is formed to limit the upwards movements of the upper component.
  • CN108819968 (A ) relates to a fixing structure of a novel sleeping carriage berth wherein in a side wall end fixing structure, a T-shaped connecting piece is connected to a side wall steel structure, the other end of the T-shaped connecting piece is fixedly connected with an aluminum honeycomb transverse partition wall, and after installation, force of the berth and a passenger can directly act on the side wall steel structure; and in a corridor end fixing structure, the aluminum honeycomb transverse partition wall and an aluminum honeycomb corresponding partition wall are connected through an aluminum profile upright, the lower portion of the aluminum profile upright is fixed to a floor, the upper portion of the aluminum profile upright is fixed to a vehicle roof, after installation, the force of the berth and the passenger can directly act on the aluminum profile upright, and lightening holes are formed in the main portion of the aluminum profile upright.
  • the berth can be fixed safely and reliably, fireproof boards bonded to the two sides of each aluminum honeycomb partition wall can be prevented from cracking due to stress.
  • the T-shaped connecting pieces
  • KR20090007261U relates to a partition fixing structure for a train, and more specifically, in order to efficiently partition and install a passenger compartment and a cab inside a vehicle located at the head of the moving direction of the train, it is possible to simplify the configuration and work. It is an object of KR20090007261U to provide a partition fixing structure for a train that can make the partition fixing work easier and reduce cost by reducing man-hours and parts needed, and can make the appearance more beautiful. In order to achieve these objectives, KR20090007261U provides a partition fixing structure for a partition installed on the floor to divide the passenger compartment and the cab of the train, one side facing the passenger compartment and the other side facing the cab.
  • the partition which is a partition wall, has at its lower end a narrowed portion inserted into an extension piece, which a bracket for receiving the narrow end of the partition wall.
  • the extension piece has at its bottom a plate-like shaped support accommodating a groove on each side of the bracket.
  • the support plate is in direct contact with a floor fixed to the underframe of the floor.
  • the support structure protrudes with respect to the partition wall faces, even though it might be coved by a floor cover raised on each side of the partition. This type of installation requires that the floor cover is installed after the partition has been mounted. Further the area covered by the floor cover is increased.
  • a floor cover is considered to be uninterrupted and unbroken and continues when it does not have any punctures holes or other penetrations not filled and/or sealed by other devices or material.
  • a continuous floor cover reinforces the impression of spaciousness. Further, it is beneficial to reduce the thickness of any objects to fulfill design aspects as well as to maximize the space for passengers and/or luggage.
  • the basic idea of the invention is to provide an insert in a panel body of at least one floor panel.
  • the insert comprises a plurality of fixation element receptacles like threaded holes or female parts of a bayonet lock, etc.
  • the insert is preferably flush with the top surface of the panel body of the at least one floor panel.
  • the insert is covered by a continuous and unbroken floor cover.
  • the insert is located in the at least one floor panel such that the insert is located in the final floating floor in an area where an object is to be attached to the preferably floating floor.
  • the insert comprises a plurality of such receptacles which are point-localized. Thus, they provide good stability for the final mounting.
  • the receptacles are provided in a plurality of positions where the final mounting of the object to the floor can be performed due to the floating of the floor.
  • a fastening element of the object comprises an oblong hole to receive a fixation element that can be tightened in one of the receptacles to clamp the fixation element or a part thereof.
  • the oblong hole and the arrangement of the receptacles are such that the oblong hole has a complete overlap with one of the receptacles in each possible mounting position associated with the insert.
  • the insert can be prefabricated. This ensures a good stability and structural strength of the fixation element receptacles.
  • Point-localized receptacles are superior to fixation systems using rail form components.
  • Point-localized receptacles are receptacles that define a point at which they receive a fixation element.
  • the fixation element received by one of the point-localized receptacles can transfer forces to the floor acting in any direction parallel to the floor. This way a form-fit connection is realized.
  • the fixation system for fastening an object to a floor, especially to a floating floor, at a flexibly chosen mounting position in a fixation area comprises
  • a method for fastening an object to a floor at a flexibly chosen mounting position in a fixation area wherein the floor comprises a continuous and unbroken floor cover, covering at least one floor panel, wherein the at last one floor panel comprises a panel body with an insert flush with the top surface of the floor panel body of the floor panel, said insert comprising a plurality of fixation element receptacles at different point-localized positions for receiving a fixation element, the method comprises:
  • the fixation system and the method provide the opportunity to offer optional objects that can be installed during the lifetime of the rail vehicle.
  • the prefabricated receptacles for fixation elements are covered and hidden by the continuous floor cover.
  • One of the advantages of the newly provided fixation system and fixation method is the opportunity to pre-manufacture the floor or its components off-site and/or separate of the finishing work of the interior of the rail vehicle.
  • Further the need to penetrate the continuous, unbroken floor cover is minimized. This has optical as well as technical advantages as reclosed and/or resealed penetrations are more susceptible to leakage than the underpenetrated continuous and unbro
  • the fixation system also comprises a jig.
  • the jig comprises alignment holes.
  • the alignment holes are arranged in correspondence with the arrangement of the plurality of fixation element receptacles in the insert.
  • the jig and the at least one floor panel with the insert comprise mating alignment elements which enable the mechanical alignment of the jig with respect to the at least one floor panel.
  • one of the alignment holes is centered with each of the plurality of fixation element receptacles of the insert. I.e., for each of the fixation element receptacles a different one of the alignment holes is centered on top of it in the aligned position of the jig.
  • the object to be attached comprises said fastening element with an oblong hole.
  • To identify the suitable fixation element receptacle one determines the alignment hole providing the best or a complete overlap with the oblong hole of the object's fastening element, when the object is in the intended mounting position. Having determined the respective alignment hole, one knows the position for penetrating the floor cover to reveal the appropriate identified fixation element receptacle of the insert.
  • the fixation element is inserted through the oblong hole of the fastening element and the penetration of the continuous and otherwise unbroken floor cover into the revealed receptacle and tightened to thereby clamp the fastening element of the object in a tightened position of the fixation element.
  • mechanical alignment and aligning mechanically both refer to an alignment where alignment elements provide or withstand forces acting on the jig relative to the at least one floor panel.
  • Optical alignments also tend to be error-prone.
  • the mechanical alignment in terms of the specification provides the advantage that the jig can be positioned precisely and reliably. This holds true even in situations where a protective cover to be finally removed is applied to the floor cover during the finishing of the interior.
  • Alignment holes may have the same dimension as the receptacles they correspond to. In other embodiment their dimensions may differ from the dimensions of the receptacles. Their diameter might be smaller. In this case the alignment hole having the best overlap with the area of the oblong hole is that one being centered best with regard to the longitudinal direction as well as the direction perpendicular thereto of the oblong hole. The identified alignment hole is used in this case to mark the respective location on the floor cover, where it needs to be penetrated. In preferred embodiments the diameter is chosen such that a punch or a drill can be applied to penetrate the floor cover while the jig is still in the mechanically aligned position.
  • the alignment hole is equal or little smaller in diameter than the fixation element receptacle such that the floor cover itself serves as a seal surrounding the fixation element in its for fastening to position, when the protrusion's diameter corresponds to alignment hole diameter.
  • One embodiment of said floor fixation system thus further comprises a jig, said jig comprising an arrangement of alignment holes corresponding to the plurality of fixation element receptacles and wherein said at least one floor panel and said jig comprise mating alignment elements for mechanically aligning said jig with respect to said at least one floor panel, and wherein one of the alignment holes is centered with each of the plurality of fixation element receptacles when the jig is in an aligned position.
  • the best overlap of the oblong hole or more precisely of its area, while the object is in the indented mounting position, with one of the alignment holes of the jig is determined, while the jig is in the aligned position, in order to identify the fixation element receptacle of the hidden insert.
  • the precise position of the hidden fixation element receptacles can be identified by use of the corresponding jig.
  • the intended fixation areas roughly to provide for the respective inserts.
  • Floor panels and the resulting floor are often raised at opposite sides which are preferably parallel to the moving direction of the rail vehicle.
  • These raised sides or edges of the floor and of the respective floor panels are covered by sidewall panels overlapping the raised side edges.
  • the alignment elements comprise at least one protrusion and at least one mating indentation.
  • a protrusion can be provided on the side edge of the at least one floor panel.
  • the jig would in turn comprise a mating indentation.
  • the side edge of the at least one floor panel comprises an indentation and the jig comprises the mating protrusion.
  • the jig comprises an alignment leg with a contact edge for engaging with a side edge of the at least one floor panel, when the jig is in the alignment with respect to said at least one floor panel. This ensures for a perfect angular orientation of the jig was respect to the insert.
  • the alignment elements comprise a protrusion and the mating indentation these are located on/in the contact edge and in/on the respective engaging part of the at least one floor panels side edge.
  • More sophisticated embodiments comprise at least two mating protrusions and indentations on/in the side edges of the at least one floor panel and the jig's contact edge, respectively.
  • Jigs relying on alignment elements located at the edge of the at least one floor panel suffer from the disadvantage that other objects of the interior might block or hinder the mechanical alignment of the jig with respect to the at least one floor panel.
  • at least one of the mating alignment elements is magnetic such that the mechanical alignment is enacted and/or ensured by magnetic forces.
  • the jig or the at least one floor panel preferably within the insert, comprise a magnet producing a magnetic field mainly parallel to the surface of the at least one floor panel's panel body or the surface of the jig facing the at least one floor panel in the aligned position.
  • the north pole and the south pole of the magnet are both located in a plane parallel to the respective surfaces in the aligned position.
  • a magnet is oriented parallel to a plane if a straight line connecting the north pole and the south pole within the magnet is parallel to said plane.
  • the mating alignment element can be a ferrimagnetic body or another magnet oriented in the opposite direction in the aligned position with regard to its poles.
  • the alignment elements comprise at least two magnets and corresponding mating ferrimagnetic bodies or corresponding mating magnets.
  • the magnets are preferably oriented traverse, preferably perpendicular, to the surfaces of the floor panel body of the at least one floor panel and to the surface of the jig facing the at least one surface panel in the aligned position.
  • a magnet is considered to be oriented traverse to a surface when the line connecting the north pole and the south pole within the magnet is oriented traverse to the respective surface. Accordingly, a magnet is considered to be oriented perpendicular to the surface when said connecting line is perpendicular to the surface.
  • the number of magnetic mating alignment elements needed for a precise alignment varies with the arrangement of the fixation element receptacles and the size, arrangement and shape of these alignment elements.
  • the jig comprising magnetic alignment elements can be adapted in size roughly to the size of the insert and is easy to apply.
  • An alignment element can be incorporated or inserted into one or more of the fixation element receptacles and/or alignment holes.
  • the floating floor is floating with respect to a vehicle body of a rail vehicle and the final fastening position of the object is determined by a direct or indirect fixation of the object to the vehicle body.
  • An indirect fixation of the object with a vehicle body is a fixation via one or more intermediate construction parts that are rigidly fixed to each other and/or the vehicle body. Due to the fact that the floor is floating with respect to the vehicle body, the precise location of the object on the floor is known only at the time of fastening the object to the floor, when finishing the interior.
  • the fastening element is provided with an elastic seal on its bottom side surrounding the oblong hole to tightly seal the penetration of the continuous floor cover in a fastened position of the object.
  • an O-ring like seal may be placed like a washer and used additionally or alternatively when tightening the fixation element.
  • the dimensions of the oblong hole and the arrangement of the point-localized fixation element receptacles are preferably adapted such that the oblong hole's area is capable to overlap with at least two of the fixation element receptacles at least partly at the same time.
  • the dimensions of the oblong hole and the arrangement of the point-localized fixation element receptacles are adapted such that the oblong hole area overlaps at least two of the fixation element receptacles at least partly at each possible mounting location of the object.
  • each insert provides this feature for a core fixation area.
  • the width of this core fixation area is determined in one direction, usually by the longitudinal dimension of the oblong hole. In a direction traverse usually perpendicular the dimension is determined by the arrangement of the plurality of fixation element receptacles.
  • the object can be fastened at any position within the core fixation area or within a predetermined tolerance.
  • the fixation element receptacles are arranged along several parallel and preferably equally spaced lines which are oriented substantially transversely, in particular perpendicularly, to a longitudinal direction of the elongated hole of the fastening element of the object in a possible mounting orientation of the object, wherein the fixation element receptables on each of these parallel lines are, preferably equally, spaced and wherein the spacings on the different parallel lines are preferably equal to each other and wherein the positions of the fixation element receptacles on each of said lines are offset parallel to said lines with regard to the positions of the fixation element receptacles on any other of said parallel lines.
  • the oblong hole is positioned and oriented within the rectangular contact
  • the fixation element receptacles are arranged in groups along several parallel lines, preferably equally, spaced apart, which are oriented substantially transversely, in particular perpendicularly, to a longitudinal direction of the oblong hole of the fastening element of the object in a possible mounting orientation of the object, wherein a different one of said parallel lines is associated with each different one of said groups, wherein the fixation element receptables on each of these parallel lines are, preferably equally, spaced and wherein fixation element receptacles on each of said parallel lines are offset parallel to said parallel lines with regard to the positions of the fixation element receptacles on any other of said parallel lines.
  • the spacings of the positions of the fixation element receptacles on each of the parallel lines are identical.
  • the offset is a fraction of the spacing of the fixation element receptacles along one of the lines.
  • the fixation element receptacles of any one of the groups are offset to the other groups preferably a multiple of 1/n parallel to those parallel lines, where n is the number of existing groups or number of groups simultaneously overlapped by the oblong hole.
  • the object is a pole or a hand-rail rod having a circular shape
  • other arrangements might be of advantage. "Square-centered" arrangements have proven to be suitable in these situations.
  • the offset is preferably equal or less then ineffective with of the oblong hole perpendicular to the longitudinal direction, for such an embodiment.
  • the effective width is equal to the possible displacement of the fixation element received in the oblong hole perpendicular to the longitudinal direction of the oblong hole.
  • the effective length of the oblong hole corresponds to the maximum possible displacement of received fixation element in the longitudinal direction of the oblong hole.
  • the fixation element is preferably a threaded screw or a threaded screw with the washer and/or a spring washer.
  • the fixation element receptacles in turn are threaded core holes.
  • the fixation element may be a male bayonet lock part and the fixation element receptacles the female bayonet lock parts or vice versa.
  • Other fixation elements and fixation element receptacles may be used as long as the fixation element can be tightened relative to the fixation element receptacle to clamp the fastening element of the object to be fastened.
  • the object is a partition wall having a fastening element at its bottom, said fastening element being a strip element with said oblong hole and wherein at least one surface cover of the object in the area of the fastening element is removable for fastening said at least one partition wall.
  • the object can be pre-positioned and stay in this position usually until finally fastened as one can access the fastening area to locate and identify the appropriate covered fixation element receptacle.
  • Fig. 1 depicts a schematic isometric view of a bare floor panel 100.
  • the floor panel comprises a floor panel body 200 and an insert 300.
  • the floor panel body 200 has a top surface 210 and a bottom surface 220. When viewed from the top surface 210, the panel body 200 has in clockwise orientation a left side edge 230, a distal side edge 240, a right side edge 250, and a proximal side edge 260.
  • Sides and faces of the floor panel 100 correspond to the edges and faces of the floor panel body 200 and have not been assigned reference numerals not obscure the invention.
  • the insert 300 is inserted into the top surface 210 of the floor panel body 200.
  • a top face 310 of the insert 300 is preferably flush with the top surface 210 of the floor panel body 200.
  • the insert 300 has in clockwise direction a left edge 330, a distal edge 340, a right edge 350, and a proximal edge 360.
  • the insert comprises receptacles 370 in its top face 310.
  • the receptacles 370 are each designed to receive a fixation element (not shown), which when inserted into one of the receptacles 370 can be tightened to clamp a fastening element (not shown) between the insert and a clamping element of the fixation element.
  • the fastening element is fastened to the floor 1 composed of the at least one floor panel 100.
  • Receptacles 370 are each point-localized. I.e., each receptacle has an exact location within the insert 300 defined by a point. Thus, each receptacle 370 defines the precise position for fastening a fixation element.
  • the receptacles 370 which are preferably threaded core holes, are arranged in four groups 371, 372, 373, and 374.
  • the individual receptacles are referenced by the reference number of their group and an index.
  • the has rightmost group 371 comprises the receptacles 371-1, 371-2 and 371-3.
  • the other groups comprise the receptacles 372-1, 372-2; 373-1, 373-2; and 373-1, 373-2, respectively.
  • the receptacles 370 of the four groups 371 to 374 are arranged along for parallel lines 381, 382, 383, and 384, respectively. These parallel lines 381, 382, 383, and 384 are equally spaced. Along any one of these lines 381, 382, 383, and 384 the receptacles are equally spaced. The spacing is identical on each of the lines.
  • the spacing of the receptacle 371-1, 371-2, 371-3 along the parallel line 381 is referenced by the letter d.
  • the offset with regard to the rightmost group 371 for the other groups 372, 372, 373 is always a multiple of d/4.
  • Fig. 3 depicts a schematic isometric view of part of the object 600 in a distal mounting position on the bare floor panel 100 of fig. 1 .
  • the object 600 comprises a fastening element 700.
  • the objects 600 is a partition wall delimited on one side by a pole 650. Only parts of the object 600 are shown. Neither is a distal cover nor a proximal cover closing off a fastening area 680 are shown in any of the figures, depicted here.
  • the fastening element 700 comprises in this embodiment a fastening strip 710.
  • the fastening strip 710 comprises a through hole designed as an oblong hole 720.
  • a longitudinal direction 722 of the oblong hole 720 is oriented perpendicular to the parallel lines, 381 2 384 long which the receptacles of the insert 300 are oriented, when the object 600 is in a possible mounting position.
  • the object 600 is in an intended mounting position that is called distal mounting position compared to the mounting position, depicted in fig. 3b , which is called the proximal mounting position to separate these different possible mounting positions of the object 600.
  • the distal face 640 of the object 600 is closer to the distal edge 240 of the floor panel body 200 than in fig. 3b .
  • the proximal face 660 is closer to the proximal edge 260 of the floor panel body 200 than in fig. 3a .
  • the longitudinal extension 725 of the oblong hole 720 along the longitudinal direction 722 is adapted to the plurality of receptacles of the insert 300 such that the area 728 of the oblong hole 720 overlaps all four parallel lines, 381 to 384, along which the receptacles 370 of all four groups 371 to 374 are positioned. In each possible intended mounting position, the area 728 of the oblong hole 720 overlaps at least one of the receptacles 370 out of each of the groups 371 to 374 at least partly.
  • the overlap between the area 728 of the oblong hole 720 with the respective receptacle 370 varies from group to group.
  • the traverse extension 726 of the oblong hole 720 there exists a perfect, i.e., complete, overlap with one of the receptacles 370 in each possible intended mounting position.
  • the traverse extension 726, also called width, of the oblong hole 720 has advantageously an effective width that corresponds to the offset of the groups at least within the acceptable mounting tolerance.
  • the effective width corresponds to the distance a fixation element received in the oblong hole 720 can be moved in the width-direction.
  • the oblong hole 720 has a matching or best overlap with different ones of the receptacles 370 of the insert 300 in different mounting positions.
  • the distal mounting position of fig. 4a the best overlap between the oblong hole 720 or better its area 728 and one of the receptacles 370 is identified for receptacle 373-2.
  • the proximal mounting position of fig. 4b the best overlap is found for receptacle 371-2.
  • the object 600 contact area with the floor 1 it can be attached to the floor 1 without being influenced by the exact floating of the floor 1, made up of floor panel 100, even though the object 600 is also fastened to a structural part, with regard to which the floor 1 is floating.
  • Fig.5 depicts a section of a floating floor 1 with the final outer unbroken and continuous floor cover 400 applied on the top surface 210 of the floor panel body 200 of the floor panel 100.
  • the insert 300 and the receptacles 370 are covered. Due to the floating of the floor 1 for example with regard to the structure of a vehicle, for example a rail wagon, it is not possible to precisely find the positions of the different receptacles when trying to fasten the object 600 in the area of the covered insert 300.
  • the floor fastening system comprises in jig 500.
  • Fig.6 shows a schematic view of the bare floor panel 100 with a nonaligned jig 500.
  • the jig 500 comprises a jig area 565 comprising alignment holes 570 which are arranged in correspondence with the receptacles 370 of the insert 300. For each receptacle 370 in the insert 300 exists and alignment hole 570 in the jig 500.
  • the jig comprises a top face 510 and the bottom face 520. Further, it comprises in the depicted example a body leg 505 and in alignment leg 591.
  • the alignment leg 591 comprises a contact edge 592 with two protrusions 593, one of which is covered in the view of fig. 6 by the body leg 505 connecting the alignment leg 591 with the jig area 565.
  • the contact edge 592 of the alignment leg 591 contacts the left side edge 230 of the floor panel body 200.
  • the alignment leg 591 and its contact edge 592 together with the left side edge 230 of the floor panel body guarantee for rotational alignment of the jig area 565 with regard to the insert 300.
  • the left edge 230 of the floor panel body 200 comprises two indentations 231 as alignment elements 232 mating with the protrusions 593 as alignment elements 590 on the contact edge 592.
  • alignment holes 570 there is a correspondence between the alignment holes 570 and the fixation element receptacles 370. Over each of the receptacles 370 one of the alignment holes 570 is centered when the jig is in the aligned position. Thus, by identifying and alignment hole and its position one can also identify the corresponding fixation element receptacle 370 and its position.
  • the alignment holes can be referred to by an analogous scheme of alignment hole groups 571 to 574 and individual reference numerals 571-1 to 574-2.
  • FIG. 8a shows an identical section of the floor 1 with an unbroken continuous floor cover 400 hiding at least one floor panel 100 with a floor panel body 200 comprising an insert 300 with a plurality of receptacles 370 the latter of which are all covered and hidden by the continuous floor cover 400.
  • an object 600 being for example, a partition wall like the one explained with regard to fig. 3a to 4b is pre-positioned in the distal mounting position ( fig. 9a ) or the proximal mounting position ( fig. 9b ).
  • a jig 500 corresponding to the covered floor panel 100 and its floor panel body 200 is positioned in its aligned position. This is depicted in figures 10a and 10b . I.e., the contact edge 592 of the alignment leg 591 of the jig 500 is in contact with the left edge 230 of the floor panel body 200. In the aligned position, the protrusions (not shown) of the contact edge 592 mate with the indentations 525 in the left edge 230 of the floor panel body 200. It will be appreciated by the person skilled in the art that other alignment elements could be used, to bring jig 500 into the aligned position.
  • the alignment is a mechanical alignment where the alignment elements withstand certain mechanical forces or bring up certain mechanical forces in order to a position the jig in the correct aligned position.
  • the contact edge 592 as alignment element 590 withstands forces acting on the jig 500 perpendicular to the left side edge 230.
  • the alignment elements 590 provided as mating protrusion 593 of the contact edge 592 and indentation 231 of the side edge 230 withstand forces acting parallel to the side edge 230 when they are in the mating position or otherwise guarantee that, when the jig is moved, the protrusions 593 and indentations 231 are brought into mating positions.
  • the jig 500 is facing the floor 1 with its bottom face 520. Further, the jig 500 has a recess 525 at its bottom face 520 in the jig area 565. This way the body leg 505 can be in contact with the floor 1, while the jig area 565 slides over the fastening strip 720 of the fastening element 700 of the object 600.
  • the left edge 230 and/or the opposite right edge 250 are often raised (not shown). Further, these edges 230, 250 are often covered by overlapping side wall panels (not shown). Nevertheless, the alignment leg of the jig can be slid between the overlapping side wall panel and the raised floor in order to engage with the side edge of the respective floor panel.
  • the jig's body leg itself is preferably curved appropriately to be adapted to the raised side edge 230, 250 of the at least one floor panel 100.
  • Figures 11a and 11b each show an enlarged view of the fastening area 680 of the object 600.
  • the alignment holes 773-2 (distal mounting position) and 771-2 (proximal mounting position) having the best overlap with the oblong hole 720 are easily identified.
  • the floor cover 400 is penetrated for example by drilling a hole in the position of the alignment hole 573-2 or 571-2, respectively, with a drill 900 to uncover and reveal the corresponding receptacles 373-2 or 371-2, respectively.
  • a fixation element 800 which preferably is a threaded screw with the washer or a spring washer or the combination of both, is inserted through the oblong hole 720 of the fastening element 700 and the penetration of the floor cover 400 into the respective receptacle 373-2 or 371-2, respectively, being preferably a threaded core hole, and tightened to clamp the fastening element 700 to the floor 1.
  • the fixation system 1000 for fastening the object 600 being a partition wall is shown in Fig. 13a and 13b .
  • the fixation element 800 is positioned and located within the object 600 to be fastened at the floor 1.
  • the fixation element 800 is carried out within the contact surface of the object with the floor, even though this has a very small footprint on the floor 1.
  • the jig and the insert comprise mating magnetic alignment elements.
  • One of the mating magnetic alignment elements is a magnet the other can be a magnet or a ferromagnetic element.
  • the mating alignment elements have asymmetric shapes, it is possible to achieve an alignment with just one pair of mating alignment elements. Otherwise, usually two or more pairs of mating magnetic alignment elements are preferred.
  • the embodiments described above covered objects like a partition wall having one orientation of the oblong hole more or less fixed due to their nature.
  • Other objects like hand bars, or poles have a circular symmetry.
  • the fastening element also comprises an oblong hole. The possible overlap with receptacles underneath the floor cover depends though on the rotational orientation of this fastening element.
  • Fig. 14 depicts such a situation of an object 600 with rotational symmetry.
  • this situation it is more difficult to find the perfect or best overlap of the oblong hole 720 with one of the receptacles 370 (depicted by dashed lines due to the covered nature) or the alignment holes (not shown), respectively, when the corresponding jig (not shown) is placed in the aligned position.
  • the area 729, possibly covered by the oblong hole 720 is the area that is swept by the area 728 of the oblong hole 720 when the oblong hole 720 is rotated around the center of the object 600, or its rotational part to be fastened to the floor 1.
  • the jig can be positioned to identify the alignment hole or holes providing the best overlap with the marked area 429. After one of the alignment holes 570 has been identified yielding an optimum overlap the floor cover 400, the floor cover 400 is penetrated for example by drilling or punching a hole in the location indicated by the respective one of alignment holes 570 of the jig 500.
  • the jig 500 is then removed and the fixation element 800 is threaded through the oblong hole 720 of the fastening element, the drilled or punctured penetration in the otherwise unbroken continuous floor cover 400 and inserted into the uncovered or revealed one of the receptacles 370 to tighten the fixation element 800 and fasten the fastening element 700 of the object 600 to the floor 1.
  • the insert 300 shown in fig. 14 further comprises two magnetic alignment elements 394,395.
  • One alignment element 394 comprises a magnet having a north pole depicted by N facing the top surface 310 of the insert.
  • the other alignment element 395 comprises a magnet having a south pole depicted by S facing the top surface 310 of the insert 300.
  • the alignment elements could be integrated into fixation element receptacles 370 in other embodiments. In this embodiment they are separate from the fixation element receptacles 370.
  • the bottom face of the corresponding jig 500 shown in fig. 15 It comprises mating magnetic alignment elements 590 in its bottom surface 520 facing the floor in the aligned position.
  • the alignment element 594 corresponding to the alignment element 394 of the insert 300 comprises a magnet having a south pole S facing the bottom face 520.
  • the other alignment element 595 of the jig 500 is a magnet having the north pole N facing the bottom face of the jig 500. This corresponds to the other alignment element 395 of the insert 300.
  • a jig 500 with magnetic alignment elements 594, 595 is placed on the floor cover 400 in the area of the insert covered and hidden by the floor cover 400. It is mentioned that one now sees the top face 510 of the jig.
  • the magnetic poles closer to the viewer of the alignment elements 590 being magnets 594, 595 are the north pole N and the south pole S, respectively.
  • the area 729 possibly covered by the oblong hole 720 of the fastening element 700 of the object 600 has been marked by erasable or non-erasable ink, as marked area 429 beforehand.
  • the fastening element 700 or the object 600 as a whole are rotated around a rotational symmetry axis being oriented perpendicular to the contact face and passing through the center of the contact face as well as the center of the oblong hole 720 in this embodiment.
  • Parts of the marking covered by the jig 500 are dashed only.
  • the alignment hole 570-3 which corresponds with the receptacle 370-3 of the insert shown in fig. 14 .
  • the unbroken continuous floor cover 400 is penetrated in the area of the alignment hole 570-3.
  • the jig is removed and the fastening element of the object is placed over the uncovered receptacle, being preferable a threaded core hole.
  • the fixation element is inserted through the oblong hole of the fastening element into the uncovered receptacle and tightened to fasten the object to the floor.
  • the fastening element may comprise an elastic seal (not shown) on the side facing the floor in order to seal the floor cover even though it has been punctured.
  • Fig. 17 depicts the fastening element 700, being a spigot for a rod like handbar. It is fastened to the floor 1.
  • the floor cover is missing.
  • the insert comprises the alignment elements 394 and 395 being magnets.
  • the object can first align the jig with the insert covered by the floor cover. Then the object can be pre-positioned on top of the aligned jig and rotated in the pre-positioned mounting position to identify the alignment hole of the jig providing the best overlap with the oblong hole. (Also, the best orientation for the object or its fastening element are identified.) Having identified the alignment hole with the best overlap, the respective alignment hole is used, to guide for example a drill or a punch to penetrate the otherwise unbroken and continuous floor cover to reveal and uncover the identified respective receptacle underneath the alignment hole. The jig is removed prior to inserting the fixation element through the oblong hole, the penetration in the floor cover into the respective uncovered fixation element receptacle. Finally, the fixation element is tightened to fasten the object in the correct mounting position.
  • fig. 18 and fig. 19 the fixation area 1100 for the embodiment of Fig. 14 to 17 is explained. Depicted are the receptacle 370, 370-1 to 370-7. The separation between centers of neighboring receptacles 370 is less than an effective length of the oblong hole 720 of the fastening element 700 of the object 600 to be mounted. The effective length 731 of an oblong hole 720 corresponds to the maximum distance a fixation element 800 can be displaced when received in the oblong hole720.
  • the point labeled with A and B mark the extreme positions in the oblong hole at which the fixation could be received.
  • the distance between points A and B corresponds to the effective length 731 of the oblong hole 720.
  • Fig. 18 and fig. 19 depict circles 1170-1 to 1170-7 centered around the receptacles 370-1 to 370-7 each having a diameter corresponding to the effective length 731 of the oblong hole 720.
  • the circle 1170-7 encloses all possible mounting locations for the center of the fastening element 700 or its object 600 that could be "served" by the receptacle 370-7 in the center of the insert 300. The same holds true analogous for the other receptacles 370-1 to 370-6 and their corresponding circles 1170-1 to 1170-6.
  • the outer contour 1150 of all circles 1170 encloses the fixation area 1100. It should be noted that each location within the fixation area is inside at least one of the circles 1170.
  • Fig. 19 depicts a situation where the object 600 and its fastening element 700 are moved to one extreme position.
  • the center of the object 600 is located on the outer contour of the fixation area 1100 and the respective circle 1170-3 of the receptacle 370-3 defining the part of the outer contour 1150.
  • the fixation element 800 is positioned at one extreme end of the oblong hole 720 when fastening the object 600 in this mounting position.
  • a jig may comprise magnetic alignment elements as well as the contact edge or the like to achieve the aligned position. It is once more pointed out that optical marks on the floor panel, the floor and/or the jig are not considered reliable enough to achieve a good and robust alignment of the jig with respect to the covered insert.
  • the alignment elements thus must withstand on their own and/or in combination with other alignment elements at least one force directed parallel to the surface of the floor or otherwise provide a force itself for aligning the jig when being in proximity with the insert.

Landscapes

  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Wood Science & Technology (AREA)
  • Mechanical Engineering (AREA)
  • Connection Of Plates (AREA)
EP22305527.8A 2022-04-12 2022-04-12 Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen Pending EP4261096A1 (de)

Priority Applications (1)

Application Number Priority Date Filing Date Title
EP22305527.8A EP4261096A1 (de) 2022-04-12 2022-04-12 Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP22305527.8A EP4261096A1 (de) 2022-04-12 2022-04-12 Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen

Publications (1)

Publication Number Publication Date
EP4261096A1 true EP4261096A1 (de) 2023-10-18

Family

ID=81389103

Family Applications (1)

Application Number Title Priority Date Filing Date
EP22305527.8A Pending EP4261096A1 (de) 2022-04-12 2022-04-12 Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen

Country Status (1)

Country Link
EP (1) EP4261096A1 (de)

Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0143678A1 (de) * 1983-11-28 1985-06-05 Automobiles Peugeot Abnehmbare Befestigungsvorrichtung eines Sitzes auf einem Träger, z.B. einem Fahrzeugboden oder Fahrzeugstruktur
WO1999025601A1 (en) * 1997-11-13 1999-05-27 M.C.M. Holding A/S A floor for a transport means and profiles for the construction thereof as well as a vehicle provided with such a floor
DE19858230A1 (de) * 1998-12-17 2000-06-21 Dwa Deutsche Waggonbau Gmbh Fußboden von Fahrzeugen mit Befestigungsmöglichkeiten für die Innenausbauelemente
JP2001315638A (ja) * 2000-04-28 2001-11-13 Hitachi Ltd 鉄道車両用塞ぎ板取付け装置
EP1657134A1 (de) 2004-11-15 2006-05-17 Siemens Aktiengesellschaft Bauteil für das Befestigen von Komponenten an der tragenden Bodenstruktur eines Wagenkastens, insbesondere eines Schienenfahrzeuges
DE102006058491A1 (de) * 2006-10-02 2008-04-10 Johnson Controls Interiors Gmbh & Co. Kg Mehrteiliges Fahrzeugausstattungsteil und Verbindungsverfahren
JP2009041240A (ja) 2007-08-08 2009-02-26 Daishin Kogyo Kk 間仕切用床構造
KR20090007261U (ko) 2008-01-15 2009-07-20 현대로템 주식회사 전동차용 파티션 고정구조
CN108819968A (zh) 2018-06-26 2018-11-16 中车长春轨道客车股份有限公司 一种新型卧车卧铺的固定结构
EP3670249A1 (de) * 2018-12-21 2020-06-24 SNCF Mobilités Schienenfahrzeug, das eine horizontale plattform mit einer vielzahl von befestigungsorganen für sitzmodule umfasst
EP3865366A1 (de) 2020-02-17 2021-08-18 SpeedInnov Wagen eines öffentlichen transportfahrzeugs, insbesondere eines schienenfahrzeugs, und entsprechendes verfahren zu seiner ausstattung

Patent Citations (11)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP0143678A1 (de) * 1983-11-28 1985-06-05 Automobiles Peugeot Abnehmbare Befestigungsvorrichtung eines Sitzes auf einem Träger, z.B. einem Fahrzeugboden oder Fahrzeugstruktur
WO1999025601A1 (en) * 1997-11-13 1999-05-27 M.C.M. Holding A/S A floor for a transport means and profiles for the construction thereof as well as a vehicle provided with such a floor
DE19858230A1 (de) * 1998-12-17 2000-06-21 Dwa Deutsche Waggonbau Gmbh Fußboden von Fahrzeugen mit Befestigungsmöglichkeiten für die Innenausbauelemente
JP2001315638A (ja) * 2000-04-28 2001-11-13 Hitachi Ltd 鉄道車両用塞ぎ板取付け装置
EP1657134A1 (de) 2004-11-15 2006-05-17 Siemens Aktiengesellschaft Bauteil für das Befestigen von Komponenten an der tragenden Bodenstruktur eines Wagenkastens, insbesondere eines Schienenfahrzeuges
DE102006058491A1 (de) * 2006-10-02 2008-04-10 Johnson Controls Interiors Gmbh & Co. Kg Mehrteiliges Fahrzeugausstattungsteil und Verbindungsverfahren
JP2009041240A (ja) 2007-08-08 2009-02-26 Daishin Kogyo Kk 間仕切用床構造
KR20090007261U (ko) 2008-01-15 2009-07-20 현대로템 주식회사 전동차용 파티션 고정구조
CN108819968A (zh) 2018-06-26 2018-11-16 中车长春轨道客车股份有限公司 一种新型卧车卧铺的固定结构
EP3670249A1 (de) * 2018-12-21 2020-06-24 SNCF Mobilités Schienenfahrzeug, das eine horizontale plattform mit einer vielzahl von befestigungsorganen für sitzmodule umfasst
EP3865366A1 (de) 2020-02-17 2021-08-18 SpeedInnov Wagen eines öffentlichen transportfahrzeugs, insbesondere eines schienenfahrzeugs, und entsprechendes verfahren zu seiner ausstattung

Similar Documents

Publication Publication Date Title
US11205989B2 (en) Replacement tile mount for mounting solar panels on tile roofs
EP0923479B1 (de) Abdeckplatte
US5915891A (en) Drill guide and method for installing a door lock
EP4261096A1 (de) Fixierungssystem zum befestigen eines gegenstandes an einem fahrzeugboden und verfahren zum befestigen
RU2008116627A (ru) Панель пола и устройство для крепления элементов оборудования, содержащее такие панели
ES2324808A1 (es) Mejoras introducidas en la patente de invencion n. p- 200500240 por suelo desmontable.
US20140284335A1 (en) Receptacle for fasteners and an associated installation method
US20050075006A1 (en) Rapid exchange system for testing wireless networks
US20150082728A1 (en) Snap Lock Siding System
US5609001A (en) Modular insulating upholstery for closed chamber
DE19602694C2 (de) Verfahren zur Herstellung eines schotterlosen Oberbaus
CN210563211U (zh) 阴角固定件以及包括其的阴角安装总成
JPH10175543A (ja) 鉄道車両の天井部内装装置
CN113799818B (zh) 车厢及轨道车辆
CN215670695U (zh) 一种适用于瓷砖复合墙板的墙面板平接结构
CN102656958A (zh) 模块单元
CN211759312U (zh) 零件定位锁紧装置
US20200307653A1 (en) Paneling modules for vehicles
CN113250406A (zh) 一种适用于瓷砖复合墙板的墙面板平接结构
JP2014227797A (ja) 取付具、及びそれを用いた外装材の取付構造
CN220549014U (zh) 一种汽车环保内饰隔音层
CN216231621U (zh) 汽车车门及汽车
CN213773988U (zh) 用于装配式高隔音墙体的竖龙骨
CN108639077B (zh) 司机室顶板结构及具有其的轨道车辆
KR20210153511A (ko) 석재 고정용 브라켓

Legal Events

Date Code Title Description
PUAI Public reference made under article 153(3) epc to a published international application that has entered the european phase

Free format text: ORIGINAL CODE: 0009012

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: THE APPLICATION HAS BEEN PUBLISHED

AK Designated contracting states

Kind code of ref document: A1

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR

STAA Information on the status of an ep patent application or granted ep patent

Free format text: STATUS: REQUEST FOR EXAMINATION WAS MADE

17P Request for examination filed

Effective date: 20240417

RBV Designated contracting states (corrected)

Designated state(s): AL AT BE BG CH CY CZ DE DK EE ES FI FR GB GR HR HU IE IS IT LI LT LU LV MC MK MT NL NO PL PT RO RS SE SI SK SM TR