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EP1584535B1 - Swinging sliding door for railway vehicles - Google Patents

Swinging sliding door for railway vehicles Download PDF

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Publication number
EP1584535B1
EP1584535B1 EP04008686A EP04008686A EP1584535B1 EP 1584535 B1 EP1584535 B1 EP 1584535B1 EP 04008686 A EP04008686 A EP 04008686A EP 04008686 A EP04008686 A EP 04008686A EP 1584535 B1 EP1584535 B1 EP 1584535B1
Authority
EP
European Patent Office
Prior art keywords
guide
door
door leaf
swinging
lever
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 - Lifetime
Application number
EP04008686A
Other languages
German (de)
French (fr)
Other versions
EP1584535A1 (en
Inventor
Reinhard Fronz
Holger Lenkeit
Wolfgang Steiniger
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.)
Fahrzeugtechnik Dessau AG Railroad Technologies
Original Assignee
Fahrzeugtechnik Dessau AG Railroad Technologies
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 Fahrzeugtechnik Dessau AG Railroad Technologies filed Critical Fahrzeugtechnik Dessau AG Railroad Technologies
Priority to AT04008686T priority Critical patent/ATE374714T1/en
Priority to DE502004005128T priority patent/DE502004005128D1/en
Priority to EP04008686A priority patent/EP1584535B1/en
Priority to US10/987,724 priority patent/US7426803B2/en
Priority to CA002487559A priority patent/CA2487559A1/en
Publication of EP1584535A1 publication Critical patent/EP1584535A1/en
Application granted granted Critical
Publication of EP1584535B1 publication Critical patent/EP1584535B1/en
Priority to HR20070562T priority patent/HRP20070562T3/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B61RAILWAYS
    • B61DBODY DETAILS OR KINDS OF RAILWAY VEHICLES
    • B61D19/00Door arrangements specially adapted for rail vehicles
    • B61D19/003Door arrangements specially adapted for rail vehicles characterised by the movements of the door
    • B61D19/008Door arrangements specially adapted for rail vehicles characterised by the movements of the door both swinging and sliding
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/06Suspension arrangements for wings for wings sliding horizontally more or less in their own plane
    • E05D15/10Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane
    • E05D15/1065Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane with transversely moving track
    • E05D2015/1084Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane with transversely moving track the carriage being directly linked to the fixed frame, e.g. slidingly
    • E05D2015/1086Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane with transversely moving track the carriage being directly linked to the fixed frame, e.g. slidingly swingingly, e.g. on arms
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2201/00Constructional elements; Accessories therefor
    • E05Y2201/20Brakes; Disengaging means; Holders; Stops; Valves; Accessories therefor
    • E05Y2201/218Holders
    • E05Y2201/22Locks
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2900/00Application of doors, windows, wings or fittings thereof
    • E05Y2900/50Application of doors, windows, wings or fittings thereof for vehicles
    • E05Y2900/51Application of doors, windows, wings or fittings thereof for vehicles for railway cars or mass transit vehicles

Definitions

  • the invention relates to a sliding door for rail vehicles with two longitudinally displaceable door leaves, with the features of the preamble of claim 1.
  • Sliding sliding doors for rail vehicles are already known in various embodiments. All known sliding sliding doors have in common that they are moved from the closed position by a transverse or pivoting movement in an open position and then parallel to the vehicle outer wall in a door opening releasing position.
  • From the DE 43 16 253 A1 is a generic device for moving a sliding door for rail vehicles known.
  • the arrangement of a parallelogram linkage for moving the door leaf is complicated and requires a relatively large installation space.
  • the housing of the drive must be rotatably mounted, so that additionally by the reaction force a torque is generated.
  • a drive element embodied as a rack is arranged thereon, which is in forced engagement with a pivoting gear mounted on a shaft, which is driven by a stationary drive motor.
  • This solution is, especially for double-leaf sliding doors, very expensive.
  • US 5 142 823 A discloses a pivoting sliding door, in which the door leaves are suspended in a telescopic rail guide, which is attached via pivot arms by means of bearing bolts on the main carrier.
  • the transverse displacement of the door leaves takes place together with the telescopic rail guide, wherein mounted in the respective vertical pivot column roller pivot lever engage the door leaves and engage slotted control lever in control pins pivotally mounted flanges.
  • the flanges are connected via ball heads with a coupling rod and mounted on the respective axial shaft of the driven pulley and deflecting pulley for a traction means.
  • the flange attached thereto is pivoted counterclockwise over the housing and rotated via the coupling rod of the other flange in the clockwise direction, whereby the door leaves are pushed out in the transverse direction via the connection between the flanges and the levers. Thereafter, the door panels are moved by means of these attacking traction arms, which are connected to a traction means are longitudinally.
  • the invention has for its object to provide a sliding door for rail vehicles with two longitudinally displaceable door leaves, which is characterized by a low manufacturing and assembly costs and an improved opening and closing mechanism. According to the invention the object is achieved by the features specified in claim 1. Advantageous embodiments and further developments are the subject matter of claims 2 to 17.
  • an angle lever is rotatably mounted in a horizontal plane in the immediate vicinity of the door frame, in the region of the vertical longitudinal sides.
  • the angle levers are connected to the vertical rotary columns or the Schobaumrohren.
  • the angle lever has two legs, which are arranged in response to the available installation space at an angle of 90 ° to 120 °.
  • the one leg of the angle lever which points in the installation position in the direction of the door leaf, to the outside, is constantly connected to the guide rail of the door leaf in connection.
  • the other, inwardly facing leg of the angle lever is used for transverse displacement of the door leaf from the door opening and is intermittently engaged with an arranged on the linearly movable guide unit control element and effective connection. After a defined transverse displacement of the door leaf (completion of phase I), this leg is disengaged again.
  • the guide arm comes into operative connection with the control element.
  • the operative connection between the guide arm and the control element is released again.
  • the inwardly facing leg of the angle lever again engages and effective connection with the control.
  • the further closing movement of the door leaf of the angle lever is moved back to its original position while the door leaf pressed firmly against the door seal and locked.
  • This solution principle which can be used for different door systems, enables a closing movement of the door leaves with controlled kinematics and low kinetic energy. It is particularly advantageous that the door leaves are automatically used after entering the door opening, by the pivotal movement of the associated angle lever to the door seal, without additional locking means. The usually still necessary locking in the Endsch thelage can be realized with much simpler and cheaper means.
  • the proposed solution requires only a small installation space and the components required to implement the required kinematics are relatively inexpensive. Due to the relatively small number of components reduces the assembly costs. The components required for the kinematics are arranged clearly and allow good accessibility for repair and maintenance work. At maximum opening width of the door leaves, the drive and control means do not protrude beyond the predetermined shell opening in the horizontal direction.
  • the arranged on the linearly movable guide unit control is designed as a plate-shaped component, which points in the direction of the door leaf.
  • control plates two variants are provided.
  • the control plate on an L-shaped curved fork-shaped guide as a control curve. In this engage the associated guide arm and the inwardly facing legs of the angle lever, wherein during the effective connection between the leg and the control plate of the guide arm is floating and slidably mounted in the fork-shaped guide.
  • the control plate is equipped with two separate guides, a first, for the inwardly facing leg, which is arranged as a semicircular opening at the protruding end, and a second, for the associated guide arm, which is arranged adjacent to the first and is formed as a recess which extends from the front to the rear end.
  • the recess has in the rear area an enlarged portion and a subsequent thereto, forwardly extending cam track, wherein the guide arm is mounted floating and displaceable within the enlarged portion and is positively and non-positively connected to the control plate in contact with the cam track.
  • At the free end of the guide arm and at the free end of the inwardly directed leg is in each case an upwardly directed guide roller, which in the corresponding openings or guides of the control protrude.
  • the guide rollers lie in one plane.
  • the linearly movable guide unit is preferably designed as a guide bush, which is guided on a guide rod.
  • a suitable roller guide with roller carriage can be used as a guide unit.
  • the control or the control plate is attached to the underside of the guide unit.
  • the attached to the door leaf guide rail has at the end facing the door frame an outwardly curved portion.
  • the leg of the angle lever facing the door leaf communicates with the latter via guide and support rollers, the one guide roller resting against the inside and the other guide roller against the outside of the guide rail.
  • the guide rollers point upwards and are mounted in vertical axes of rotation.
  • the support roller rests against the underside of the guide rail, between the two guide rollers.
  • the guide rollers lie in the radius of the curved portion of the guide rail.
  • another guide rail is arranged, which also has an outwardly curved portion at the end facing the door frame, and is connected via guide rollers with a pivot lever in connection, which is mounted in the same axis as the angle lever and is in synchronous connection with this.
  • a spring-loaded, two-armed locking lever is rotatably mounted on the bottom or top of pointing in the direction of the door leaf leg of the angle lever whose inwardly directed lever arm during the pivotal movement of the angle lever when opening the door leaf with a stationarily arranged stop comes into contact, sets the locking lever and thereby locks the angle lever.
  • a driver is arranged which engages or abuts during the closing movement of the door leaf on the outwardly directed lever arm of the locking lever and brings the lever arm out of engagement of the stop.
  • the pivoting sliding door which closes the door opening consists of two door leaves 1 and 1 'whose outer sides in the closed state form a plane with the vehicle outer wall.
  • On the inner sides of the door leaves 1 and 1 'guide rails 3 and 3' and in the lower region guide rails 4 (Fig. 7) are mounted at a distance, which run parallel to the inside of the door leaves 1, 1 'and at the respective in the direction of Door frame 2 facing end have an outwardly curved portion 3a ( Figures 2 and 4).
  • the door leaves 1 and 1 ' are in the upper part of guide arms 6 and 6' attached, which are connected to roller carriage 7, 7 ', which are guided in each case a roller guide 8, 8'.
  • the guide arms 6, 6 ' are arranged crosswise and have an inwardly directed curved extension portion 6a with an upwardly directed guide roller 6b (Figure 3).
  • the roller guides 8 and 8 ' have straight portions 8a which are parallel to the car body and portions 8b which are curved or bent toward the car inner side.
  • the curved portions 8b are located respectively at the end facing the door frame 2.
  • the required motive force for the transverse and longitudinal displacement of the door leaves 1, 1 ' is triggered by a DC motor 5, which has an interposed Gear operated a linear actuator 10, which consists of a linear guide 11 and a guided between two rollers 9a and 9b timing belt 9, wherein the roller 9a forms the drive roller.
  • the control plates 13, 13 ' are fixed to the underside of the guide bushes 12, 12' and point in the direction of the door leaf 1, 1 '.
  • Each control plate has in the front portion a semi-circular opening 13a and adjacent to this a recess 13b.
  • the recess 13b is formed by an enlarged portion 13c and an adjoining cam track 13d, which extends to the front end of the control plate 13, 13 '.
  • On the meaning and function of the controls 13, 13 ' will be discussed in more detail below.
  • the movement of the door leaves is divided into two different phases I and II.
  • phase I the pressing out of the door leaves 1, 1 'from the door opening in a slightly inclined position, the attached to the guide bush 12 control plate 13, 13a is responsible for controlling the movement sequence of the door leaf 1 and consequently the guide bush 12' and control plate 13 ', 13a for the door leaf 1'.
  • the guide roller 19 of the respective leg 15b of the angle lever 15, 15 ' is in engagement with the semicircular opening 13a of the control plate 13 or 13', as shown in FIGS. 3 and 6.
  • the movement of the two phases I and II is coordinated so that a kinematic over-determination during the transition from the phase I to the phase II, or vice versa, is excluded.
  • angle levers 15, 15' are mounted in the upper region.
  • the angle levers 15, 15 ' have two legs 15a and 15b, which are arranged at an angle of 90 ° to 120 °. The size of the angle depends on the available installation space.
  • the vertex of the legs 15a, 15b forms the axis of rotation which lies in the central axis of the rotary column 14, 14 '.
  • the in the direction of the door leaf 1, 1 'facing leg 15a has at its front end mounted in vertical axes of rotation, upwardly facing guide rollers 16 and 17 and a lower support roller 18, on the door leaf 1, 1' attached upper guide rail 3 and 3 'present (Fig. 3).
  • the support roller 18 assumes an axis function during the movement of the door leaves 1,1 'and a support function for the occurring driving forces.
  • the other, inwardly directed leg 15b has at its free end a mounted in a vertical axis of rotation guide roller 19 which faces upward, and in the closed state of the door leaves 1, 1 'in engagement with the semicircular guide 13a of the respective control element 13, 13 'is located ( Figures 3 and 6).
  • the guide arms 6, 6 ' which are connected to the roller carriage 7, 7', have at their front door leaf 1, 1 'projecting end 6a an upwardly directed guide roller 6b.
  • a pivot lever 20 is attached to this, the lever arm is designed to be analogous, as the legs 15a of the angle lever 15, 15 ', but without support rollers.
  • the guide rollers 21, 22 surround the lower guide rails 4 of the door leaves 1, 1 '(FIG. 7). The movement of the angle lever 15, 15 'is synchronously transmitted to the lower pivot lever 20 via the rotary columns 14, 14'.
  • the angle lever 15 or 15 ' In order to ensure a stable and accurate guidance of the door leaves 1, 1 'during the movement phase II, in particular during the longitudinal displacement of the door leaves 1, 1' parallel to the vehicle outer wall, it is expedient, the angle lever 15 or 15 ', if this one position occupies, in which the central axis x of the leg 15a extends almost perpendicular to the vehicle longitudinal axis to lock.
  • a variant for locking and unlocking the angle lever is shown in Figures 9 and 10.
  • a spring-loaded, two-armed locking lever 28 is rotatably mounted on the underside of the leg 15a, which is designed as a smaller angle lever.
  • an upwardly pointing stop roller 29 is arranged at a defined radial distance from the pivot point 28c of the locking lever 28.
  • the stop roller 29 In the closed state of the door leaves 1, 1 'is the stop roller 29 at the inner radius of curvature of the locking lever 28, as can be seen in Fig. 9.
  • the opening movement of the door leaves 1, 1 'of the locking lever 28 pivots synchronously with the angle lever 15 or 15', since he is taken away by this.
  • the angle lever 15, 15 'a position in which the central axis x of the leg 15a extends almost perpendicular to the vehicle longitudinal axis the inwardly directed lever arm 28b of the locking lever 28 comes into contact with the stop roller 29 and locks the angle lever 15, 15'.
  • the catch of the angle levers 15, 15' is released via a driver 30 arranged on the inside of the door leaves 1, 1 ', which acts on the outwardly directed lever arm 28a (FIG. 10).
  • a driver 30 arranged on the inside of the door leaves 1, 1 ', which acts on the outwardly directed lever arm 28a (FIG. 10).
  • FIG. 10 form the outer sides of the door leaves 1, 1 'in the closed state with the vehicle outer wall a plane.
  • the door leaves 1, 1 ' are held in a locked position by known locking elements.
  • the roller carriage 7 and 7' in the region of the curved portions 8b of the roller guides 8, 8 ', at a defined distance from the end of the curved portions 8b.
  • the two guided on the guide rod 11, linearly movable guide bushes 12, 12 'with their controls 13, 13' are in the starting position, at the left or right end of the guide rod 11, each bounded by a stop 24, 24 '.
  • the guide rollers 19 of the legs 15b of the angle lever 15 and 15 ' are engaged with the semi-circular guide 13a of the respective control element 13, 13' and in touching contact with the arcuate portion of this guide 13a.
  • the guide rollers 16 and 21 form the defined pivot point for the pivoting movement of the door leaves 1, 1 '.
  • the opening movement of the guide bushes 12, 12 'with the controls 13, 13' towards the center of the door opening (Phase I) by the engagement of the guide roller 19 of the leg 15b in the semicircular guide 13a of the respective control 13th , 13 'causes a pivoting movement of the angle lever 15 and 15' about its axis of rotation 14, 14 'and thereby the door leaves 1, 1' synchronously pushed out of the door opening in the transverse direction, in a slight inclination.
  • the angle lever 15 located in the region of the left-hand door frame side is moved counterclockwise in the clockwise direction and the angle lever 15 'arranged on the opposite, right-hand side (standing in front of the vehicle).
  • the guide roller 19 of the leg 15b which moves in a circular arc path, comes out of contact with the bent portion of the semicircular guide 13a, as shown in FIG.
  • the guide rollers 6b arranged on the respective guide arms 6, 6 ' engage in the cam track 13d of the control plates 13, 13'.
  • the door leaves 1, 1 ' Due to this movement, the door leaves 1, 1 'are further moved in the transverse direction, in a direction obliquely to the vehicle outer wall position and the guide roller 19 of the leg 15 b completely disengaged from the semicircular guide 13 a.
  • the angle levers 15, 15' are pivoted exclusively only by the movement of the door leaves 1, 1 'until they reach a position in which the center axis x of the leg 15a runs almost perpendicular to the vehicle longitudinal axis. If necessary, the angle lever 15, 15 'can be locked in this position, as stated above, wherein the lock during the closing operation of the door leaves 1, 1' is released again.
  • the guide arms 6, 6 'fastened to the door leaves 1, 1' are connected, on the one hand, to the roller carriages 7, 7 'and, on the other hand, to the control plates 13, 13' via the guide rollers 6b, which are in engagement with the cam tracks 13d.
  • the roller carriages 7, 7 ' are moved along the straight portions 8a of the roller guides 8, 8', thereby moving the door leaves 1, 1 'in the closing direction, taking a slight inclination. In this situation, there is still a distance or clearance between the adjacent finger protection strips 27, 27 'of the door leaves 1, 1'. After reaching the curved portions 8b of the roller guides 8, 8 ', the door leaves 1, 1' are moved in the transverse direction.
  • FIGS. 11 to 13 show a further embodiment variant for the control element arranged on the guide units 12, 12 '.
  • the movement sequence shown in these figures is analogous to that according to FIGS. 3 to 5.
  • the control element 31 differs from the control elements 13, 13 'described above only in that instead of the semicircular opening 13a and the recess 13b only one guide 31a is provided , which is designed as an L-shaped, fork-shaped opening.
  • the arranged on the leg 15b guide roller 19 intermittently and on the guide arm 6, 6 ', 6a arranged guide roller 6b constantly.
  • the engagement of the guide rollers 19 and 6b is shown during the closed state of the door leaf.
  • the arranged on the guide arm 6 ', 6a guide roller 6b is located at the rear end of the guide 31a and is floatingly stored in this. An operative connection with the control plate 31 does not yet exist at this time.
  • the leg 15b of the angle lever 15 via the guide roller 19 is engaged and operatively connected to the control plate 31 and abuts the front end of the guide 31a.
  • the guide arm 6 is moved with the guide roller 6b along the guide track 31a, without applying force to the control plate 31.
  • the phase I is completed and it begins the Phase II, the leg 15b of the angle lever 15 now passes out of engagement with the guide track 31a and the guide roller 6b of the guide arm 6 'reaches the portion of the guide track 31a, which ensures a positive and non-positive connection and thereby establishes the operative connection with the control plate 31.
  • the further opening movement of the door leaves (phase II) then takes place exclusively via this connection or coupling, wherein the guide roller 6b of the guide arm 6 'is further moved along the guide 31a.
  • FIG. 13 shows in a simplified manner the state of movement after complete opening of the door leaves analogous as in Fig. 5.
  • the movement is performed in reverse order. Due to the proposed measures according to the invention, the closing movement of the door leaves 1, 1 'is carried out with controlled kinematics and low kinetic energy, whereby a particularly high anti-trap is achieved.
  • the gentle closing movement of the door leaves 1, 1 ' reliably prevents undesired jamming, since the reversing movement of the door leaves is promptly triggered even in the case of slight touch contacts. In addition to the gentle closing movement, a reliable closing of the door leaves is achieved.
  • the door leaves are pressed by the closing movement in its end position close to the frame-side door seals 25, 25 '( Figures 1 and 3).
  • Another advantage is that the locking mechanism for the door leaves can be made simpler and cheaper, since the door leaves after completion of the closing process kinematically due, by the angle lever, firmly against the door seals.
  • the double-wing sliding door is suitable, for example, for use in trams or local trains for rail transport. If necessary, the door leaves can also be opened manually in conjunction with an emergency release. By exerting a corresponding movement force on the door leaves in the longitudinal direction, a pivoting movement of the angle lever is effected and the door leaves are pushed out in the transverse direction from the closed position and can then be moved further in the longitudinal direction.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Support Devices For Sliding Doors (AREA)
  • Window Of Vehicle (AREA)
  • Lock And Its Accessories (AREA)

Abstract

The swinging-sliding door for rail vehicles has in the direct proximity of the door frame (2) a bell-crank lever (15,15') mounted to rotate in a horizontal plane for the guiding and movement of the door leaf (1,1') in the transverse direction. One member of the bell-crank lever is permanently connected to the guide rail (3,3') of the door leaf, and the inwards pointing other member for the transverse displacement of the door leaf interacts with a control element installed on a guide unit (12,12') and after a defined transverse displacement of the door leaf disengages again.

Description

Die Erfindung betrifft eine Schwenkschiebetür für Schienenfahrzeuge mit zwei in Längsrichtung verschiebbaren Türblättern, mit den Merkmalen des Oberbegriffes des Patentanspruches 1.
Schwenkschiebetüren für Schienenfahrzeuge sind bereits in verschiedenen Ausführungsvarianten bekannt. Allen bekannten Schwenkschiebetüren ist gemeinsam, dass diese aus der Schließstellung durch eine Quer- oder Schwenkbewegung in eine öffnungsbereite Stellung und anschließend parallel zur Fahrzeugaußenwand in eine die Türöffnung freigebende Stellung bewegt werden.
Aus der DE 43 16 253 A1 ist eine gattungsgemäße Vorrichtung zur Bewegung einer Schwenkschiebetür für Schienenfahrzeuge bekannt. Die Anordnung eines Parallelogrammgestänges zur Verschiebung des Türblattes ist aufwendig und erfordert einen relativ großen Einbauraum. Das Gehäuse des Antriebes muss drehbar gelagert sein, damit zusätzlich durch die Reaktionskraft noch ein Drehmoment erzeugt wird. Aufgrund des vorgegebenen Bewegungsablaufes wird das Türblatt mit hoher kinetischer Energie in die Schließendlage bewegt. Dies hat erhebliche sicherheitstechnische Nachteile, da bedingt durch die hohen Einklemmkräfte beim Ein- und Aussteigen von Personen die Gefahr besteht, dass es während des Schließvorganges zu Einklemmungen kommen kann und die Reversierung der Türblätter zu spät eingeleitet wird.
Aus der DE 101 16 583 A1 ist eine Schwenkschiebetür für Schienenfahrzeuge mit mindestens einem Türblatt und einer Vorrichtung zur Ver- und Entriegelung des Türblattes bekannt. Das Türblatt ist im oberen Bereich in einer stationär am Wagenkasten befestigten Führung mit einem am Anfang gekrümmten und sich daran anschließenden geraden Abschnitt horizontal geführt. Zur Realisierung der Quer- und Längsverschiebung des Türblattes ist an diesem ein als Zahnstange ausgebildetes Antriebselement angeordnet, das mit einem an einer Welle gelagerten Schwenkgetriebe in Zwangseingriff steht, das von einem stationären Antriebsmotor angetrieben wird.
Diese Lösung ist, insbesondere für zweiflügelige Schwenkschiebetüren, sehr kostenaufwendig.
In der US 5 142 823 A ist eine Schwenkschiebetür offenbart, bei der die Türblätter in einer Teleskopschienenführung aufgehängt sind, die über Schwenkarme mittels Lagerbolzen am Hauptträger befestigt ist. Die Querverschiebung der Türblätter erfolgt zusammen mit der Teleskopschienenführung, wobei in der jeweiligen vertikalen Drehsäule gelagerte Rollenschwenkhebel an den Türblättern angreifen und geschlitzte Steuerhebel in Steuerzapfen schwenkbar gelagerter Flansche eingreifen. Die Flansche sind über Kugelköpfe mit einer Kupplungsstange verbunden und auf der jeweiligen axialen Welle von Abtriebsscheibe und Umlenkscheibe für ein Zugmittel gelagert.The invention relates to a sliding door for rail vehicles with two longitudinally displaceable door leaves, with the features of the preamble of claim 1.
Sliding sliding doors for rail vehicles are already known in various embodiments. All known sliding sliding doors have in common that they are moved from the closed position by a transverse or pivoting movement in an open position and then parallel to the vehicle outer wall in a door opening releasing position.
From the DE 43 16 253 A1 is a generic device for moving a sliding door for rail vehicles known. The arrangement of a parallelogram linkage for moving the door leaf is complicated and requires a relatively large installation space. The housing of the drive must be rotatably mounted, so that additionally by the reaction force a torque is generated. Due to the predetermined sequence of movements, the door leaf is moved with high kinetic energy into the closing end position. This has considerable safety disadvantages, since due to the high Einklemmkräfte when entering and exiting people there is a risk that it may lead to entrapment during the closing process and the reversal of the door leaves is initiated too late.
From the DE 101 16 583 A1 is a sliding door for rail vehicles with at least one door leaf and a device for locking and unlocking the door leaf known. The door leaf is guided in the upper region in a stationary mounted on the car body guide with a curved at the beginning and adjoining straight section horizontally. In order to realize the transverse and longitudinal displacement of the door leaf, a drive element embodied as a rack is arranged thereon, which is in forced engagement with a pivoting gear mounted on a shaft, which is driven by a stationary drive motor.
This solution is, especially for double-leaf sliding doors, very expensive.
In the US 5 142 823 A discloses a pivoting sliding door, in which the door leaves are suspended in a telescopic rail guide, which is attached via pivot arms by means of bearing bolts on the main carrier. The transverse displacement of the door leaves takes place together with the telescopic rail guide, wherein mounted in the respective vertical pivot column roller pivot lever engage the door leaves and engage slotted control lever in control pins pivotally mounted flanges. The flanges are connected via ball heads with a coupling rod and mounted on the respective axial shaft of the driven pulley and deflecting pulley for a traction means.

Bedingt durch die Reaktionskraft des Motors wird über dessen Gehäuse der an diesem befestigte Flansch entgegen der Uhrzeigerrichtung geschwenkt und über die Kupplungsstange der andere Flansch in Uhrzeigerrichtung gedreht, wodurch über die Verbindung zwischen den Flanschen und den Hebeln die Türblätter in Querrichtung herausgedrückt werden. Danach werden die Türblätter mittels an diesen angreifender Zugarme, die mit einem Zugmittel verbunden, sind in Längsrichtung verschoben.Due to the reaction force of the motor, the flange attached thereto is pivoted counterclockwise over the housing and rotated via the coupling rod of the other flange in the clockwise direction, whereby the door leaves are pushed out in the transverse direction via the connection between the flanges and the levers. Thereafter, the door panels are moved by means of these attacking traction arms, which are connected to a traction means are longitudinally.

Der Erfindung liegt die Aufgabe zugrunde, eine Schwenkschiebetür für Schienenfahrzeuge mit zwei in Längsrichtung verschiebbaren Türblättern, zu schaffen, die sich durch einen geringen Herstellungs- und Montageaufwand sowie einen verbesserten Öffnungs- und Schließmechanismus auszeichnet.
Erfindungsgemäß wird die Aufgabe durch die im Anspruch 1 angegebenen Merkmale gelöst. Vorteilhafte Ausgestaltungen und Weiterbildungen sind Gegenstand der Ansprüche 2 bis 17.
Zur Führung und Bewegung der Türblätter der Schwenkschiebetür ist in unmittelbarer Nähe zum Türrahmen, im Bereich der vertikalen Längsseiten, ein Winkelhebel in einer horizontalen Ebene drehbar gelagert. Vorzugsweise sind die Winkelhebel mit den vertikalen Drehsäulen bzw. den Türbaumrohren verbunden.
Der Winkelhebel besitzt zwei Schenkel, die in Abhängigkeit von dem zur Verfügung stehenden Einbauraum in einem Winkel von 90° bis 120° angeordnet sind.
Der eine Schenkel des Winkelhebels, der in Einbaulage in Richtung Türblatt, nach außen, zeigt, steht ständig mit der Führungsschiene des Türblattes in Verbindung. Der andere, nach innen zeigende Schenkel des Winkelhebels dient zur Querverschiebung des Türblattes aus der Türöffnung und steht mit einem an der linear beweglichen Führungseinheit angeordneten Steuerelement zeitweise in Eingriff und Wirkungsverbindung. Nach einem definierten Querverschub des Türblattes (Beendigung der Phase I) gelangt dieser Schenkel wieder außer Eingriff. Zur Steuerung des weiteren Bewegungsablaufes zum vollständigen Öffnen und dem nachfolgenden Schließen des Türblattes (Phase II) gelangt der Führungsarm mit dem Steuerelement in Wirkungsverbindung. Während der Schließbewegung des Türblattes, nach dessen Einlaufen in die Türöffnung, wird die Wirkungsverbindung zwischen dem Führungsarm und dem Steuerelement wieder gelöst. Gleichzeitig gelangt der nach innen zeigende Schenkel des Winkelhebels wieder in Eingriff und Wirkungsverbindung mit dem Steuerelement. Infolge der weiteren Schließbewegung des Türblattes wird der Winkelhebel wieder in seine Ausgangslage zurückbewegt und dabei das Türblatt fest gegen die Türdichtung gedrückt und arretiert.The invention has for its object to provide a sliding door for rail vehicles with two longitudinally displaceable door leaves, which is characterized by a low manufacturing and assembly costs and an improved opening and closing mechanism.
According to the invention the object is achieved by the features specified in claim 1. Advantageous embodiments and further developments are the subject matter of claims 2 to 17.
For guidance and movement of the door leaves of the sliding sliding door an angle lever is rotatably mounted in a horizontal plane in the immediate vicinity of the door frame, in the region of the vertical longitudinal sides. Preferably, the angle levers are connected to the vertical rotary columns or the Türbaumrohren.
The angle lever has two legs, which are arranged in response to the available installation space at an angle of 90 ° to 120 °.
The one leg of the angle lever, which points in the installation position in the direction of the door leaf, to the outside, is constantly connected to the guide rail of the door leaf in connection. The other, inwardly facing leg of the angle lever is used for transverse displacement of the door leaf from the door opening and is intermittently engaged with an arranged on the linearly movable guide unit control element and effective connection. After a defined transverse displacement of the door leaf (completion of phase I), this leg is disengaged again. To control the further movement sequence for complete opening and the subsequent closing of the door leaf (phase II), the guide arm comes into operative connection with the control element. During the closing movement of the door leaf, after its entry into the door opening, the operative connection between the guide arm and the control element is released again. At the same time the inwardly facing leg of the angle lever again engages and effective connection with the control. As a result of the further closing movement of the door leaf of the angle lever is moved back to its original position while the door leaf pressed firmly against the door seal and locked.

Dieses Lösungsprinzip, das für unterschiedliche Türsysteme einsetzbar ist, ermöglicht eine Schließbewegung der Türblätter mit geregelter Kinematik sowie geringer kinetischer Energie. Von besonderem Vorteil ist, dass die Türblätter nach dem Einlaufen in die Türöffnung selbsttätig, durch die Schwenkbewegung des zugehörigen Winkelhebels fest an die Türdichtung herangezogen werden, ohne zusätzliche Verriegelungsmittel. Die üblicherweise noch notwendige Verriegelung in der Endschließlage kann mit wesentlich einfacheren und kostengünstigeren Mitteln realisiert werden. Die vorgeschlagene Lösung beansprucht nur einen kleinen Einbauraum und die zur Umsetzung der erforderlichen Kinematik benötigten Bauteile sind vergleichsweise kostengünstig. Aufgrund der relativ geringen Anzahl an Bauteilen verringert sich der Montageaufwand. Die für die Kinematik erforderlichen Bauteile sind übersichtlich angeordnet und ermöglichen eine gute Zugänglichkeit für Reparatur- und Wartungsarbeiten. Bei maximaler Öffnungsweite der Türblätter überragen die Antriebs- und Steuermittel nicht die vorgegebene Rohbauöffnung in horizontaler Richtung. Dadurch ist es möglich, die Schwenkschiebetür als voll funktionsfähige Baueinheit in einem vorgefertigten Türmodul zu montieren, das im Rahmen der Fahrzeugherstellung in die vorbereitete Rohbauöffnung des Wagenkastens eingesetzt und befestigt wird.
Das an der linear beweglichen Führungseinheit angeordnete Steuerelement ist als plattenförmiges Bauteil ausgeführt, das in Richtung zum Türblatt zeigt. Als Steuerplatten sind zwei Ausführungsvarianten vorgesehen. Bei der einen Variante weist die Steuerplatte eine L-förmig gebogene, gabelförmige Führung als Steuerkurve auf. In diese greifen der zugehörige Führungsarm und der nach innen zeigende Schenkel des Winkelhebels ein, wobei während der Wirkungsverbindung zwischen dem Schenkel und der Steuerplatte der Führungsarm schwimmend und verschiebbar in der gabelförmigen Führung gelagert ist.
Gemäß der anderen Variante ist die Steuerplatte mit zwei getrennten Führungen ausgerüstet, einer ersten, für den nach innen zeigenden Schenkel, die als halbkreisförmige Öffnung am vorstehenden Ende angeordnet ist, und einer zweiten, für den zugehörigen Führungsarm, die benachbart zu der ersten angeordnet ist und als Ausnehmung ausgebildet ist, die sich von vorn bis an das hintere Ende erstreckt. Die Ausnehmung besitzt im hinteren Bereich einen vergrößerten Abschnitt und eine sich an diesen anschließende, nach vorn erstreckende Kurvenbahn, wobei der Führungsarm innerhalb des vergrößerten Abschnittes schwimmend und verschiebbar gelagert ist und bei Inkontaktbringen mit der Kurvenbahn form- und kraftschlüssig mit der Steuerplatte verbunden ist.
Am freien Ende des Führungsarmes und am freien Ende des nach innen gerichteten Schenkels befindet sich jeweils eine nach oben gerichtete Führungsrolle, die in die entsprechenden Öffnungen bzw. Führungen des Steuerelementes ragen. Die Führungsrollen liegen in einer Ebene.This solution principle, which can be used for different door systems, enables a closing movement of the door leaves with controlled kinematics and low kinetic energy. It is particularly advantageous that the door leaves are automatically used after entering the door opening, by the pivotal movement of the associated angle lever to the door seal, without additional locking means. The usually still necessary locking in the Endschließlage can be realized with much simpler and cheaper means. The proposed solution requires only a small installation space and the components required to implement the required kinematics are relatively inexpensive. Due to the relatively small number of components reduces the assembly costs. The components required for the kinematics are arranged clearly and allow good accessibility for repair and maintenance work. At maximum opening width of the door leaves, the drive and control means do not protrude beyond the predetermined shell opening in the horizontal direction. This makes it possible to mount the pivoting sliding door as a fully functional unit in a prefabricated door module, which is used in the context of vehicle manufacturing in the prepared shell opening of the car body and fixed.
The arranged on the linearly movable guide unit control is designed as a plate-shaped component, which points in the direction of the door leaf. As control plates two variants are provided. In one variant, the control plate on an L-shaped curved fork-shaped guide as a control curve. In this engage the associated guide arm and the inwardly facing legs of the angle lever, wherein during the effective connection between the leg and the control plate of the guide arm is floating and slidably mounted in the fork-shaped guide.
According to the other variant, the control plate is equipped with two separate guides, a first, for the inwardly facing leg, which is arranged as a semicircular opening at the protruding end, and a second, for the associated guide arm, which is arranged adjacent to the first and is formed as a recess which extends from the front to the rear end. The recess has in the rear area an enlarged portion and a subsequent thereto, forwardly extending cam track, wherein the guide arm is mounted floating and displaceable within the enlarged portion and is positively and non-positively connected to the control plate in contact with the cam track.
At the free end of the guide arm and at the free end of the inwardly directed leg is in each case an upwardly directed guide roller, which in the corresponding openings or guides of the control protrude. The guide rollers lie in one plane.

Die linear bewegliche Führungseinheit ist vorzugsweise als Führungsbuchse ausgebildet, die auf einer Führungsstange geführt ist. Als Führungseinheit kann auch eine geeignete Rollenführung mit Rollenwagen eingesetzt werden. Das Steuerelement bzw. die Steuerplatte ist an der Unterseite der Führungseinheit befestigt.The linearly movable guide unit is preferably designed as a guide bush, which is guided on a guide rod. As a guide unit, a suitable roller guide with roller carriage can be used. The control or the control plate is attached to the underside of the guide unit.

Es hat sich als vorteilhaft erwiesen, die Führungsarme sich überkreuzend anzuordnen. In diesem Fall sind auch zwei gegenläufige Führungseinheiten, eine rechte und eine linke vorgesehen, die auf einer gemeinsamen linearen Führung, z.B. einer Führungsstange, geführt sind. Während der synchronen Bewegungen der Türblätter steht das rechte Türblatt über den zugehörigen Führungsarm und Führungsrolle mit dem linken Rollenwagen und der linken Führungseinheit und das linke Türblatt über Führungsarm und Führungsrolle mit dem rechten Rollenwagen und der rechten Führungseinheit in Eingriff bzw. Verbindung.It has proven to be advantageous to arrange the guide arms crossing each other. In this case, there are also provided two counter-rotating guide units, one right and one left, which are mounted on a common linear guide, e.g. a guide rod, are guided. During the synchronous movements of the door leaves, the right door leaf engages with the associated guide arm and guide roller with the left roller carriage and the left guide unit and the left door leaf via the guide arm and guide roller with the right roller carriage and the right guide unit.

Die an dem Türblatt befestigte Führungsschiene besitzt an dem zum Türrahmen zeigenden Ende einen nach außen gekrümmten Abschnitt. Der zum Türblatt zeigende Schenkel des Winkelhebels steht mit dieser über Führungs- und Stützrollen in Verbindung, wobei die eine Führungsrolle an der Innenseite und die andere Führungsrolle an der Außenseite der Führungsschiene anliegt. Die Führungsrollen zeigen nach oben und sind in vertikalen Drehachsen gelagert. Die Stützrolle liegt an der Unterseite der Führungsschiene, zwischen den beiden Führungsrollen, an.The attached to the door leaf guide rail has at the end facing the door frame an outwardly curved portion. The leg of the angle lever facing the door leaf communicates with the latter via guide and support rollers, the one guide roller resting against the inside and the other guide roller against the outside of the guide rail. The guide rollers point upwards and are mounted in vertical axes of rotation. The support roller rests against the underside of the guide rail, between the two guide rollers.

Während der Querverschiebung des Türblattes liegen die Führungsrollen im Radius des gekrümmten Abschnittes der Führungsschiene an.During the transverse displacement of the door leaf, the guide rollers lie in the radius of the curved portion of the guide rail.

Im unteren Bereich des Türblattes ist beabstandet zu diesem, eine weitere Führungsschiene angeordnet, die an dem zum Türrahmen zeigenden Ende ebenfalls einen nach außen gekrümmten Abschnitt aufweist, und über Führungsrollen mit einem Schwenkhebel in Verbindung steht, der in der gleichen Achse wie der Winkelhebel gelagert ist und mit diesem in synchroner Wirkungsverbindung steht.In the lower region of the door leaf is spaced from this, another guide rail is arranged, which also has an outwardly curved portion at the end facing the door frame, and is connected via guide rollers with a pivot lever in connection, which is mounted in the same axis as the angle lever and is in synchronous connection with this.

In bestimmten Anwendungsfällen kann es erforderlich sein, wenn der Winkelhebel nach dem Schwenken eine Stellung einnimmt, in der die Mittelachse x des zum Türblatt zeigenden Schenkels nahezu rechtwinklig zur Fahrzeuglängsachse verläuft, diesen in dieser Stellung, während der Längsverschiebung des Türblattes parallel zur Fahrzeugaußenwand, zu arretieren und die Arretierung während der Schließbewegung wieder zu lösen. Hierzu ist vorgesehen, dass an der Unter- oder Oberseite des in Richtung Türblatt zeigenden Schenkels des Winkelhebels ein federbelasteter, zweiarmiger Arretierungshebel drehbar gelagert ist, dessen nach innen gerichteter Hebelarm während der Schwenkbewegung des Winkelhebels beim Öffnen des Türblattes mit einem stationär angeordneten Anschlag in Kontakt gelangt, den Arretierungshebel festsetzt und dadurch den Winkelhebel arretiert.
Zur Lösung der Arretierung ist am Türblatt ein Mitnehmer angeordnet, der während der Schließbewegung des Türblattes an dem nach außen gerichteten Hebelarm des Arretierungshebels angreift bzw. anschlägt und den Hebelarm außer Eingriff des Anschlages bringt.In certain applications, it may be necessary if the angle lever assumes a position after pivoting, in which the central axis x of the door leaf pointing leg is almost perpendicular to the vehicle longitudinal axis to lock this in this position, while the longitudinal displacement of the door leaf parallel to the vehicle outer wall and to release the lock during the closing movement again. For this purpose, it is provided that a spring-loaded, two-armed locking lever is rotatably mounted on the bottom or top of pointing in the direction of the door leaf leg of the angle lever whose inwardly directed lever arm during the pivotal movement of the angle lever when opening the door leaf with a stationarily arranged stop comes into contact, sets the locking lever and thereby locks the angle lever.
To solve the lock on the door leaf, a driver is arranged which engages or abuts during the closing movement of the door leaf on the outwardly directed lever arm of the locking lever and brings the lever arm out of engagement of the stop.

Die Erfindung soll nachstehend an einem Beispiel für eine zweiflügelige Schwenkschiebetür näher erläutert werden. In der zugehörigen Zeichnung zeigen

Fig. 1
eine zweiflügelige Schwenkschiebetür im eingebauten und geschlossenen Zustand, als Draufsicht,
Fig. 2
die Schwenkschiebetür gemäß Fig. 1 im geöffneten Zustand der Türblätter,
Fig. 3
die Einzelheit "X" gemäß Fig. 1 in vergrößerter Darstellung,
Fig. 4
die Einzelheit "X" gemäß Fig. 1, bei teilweise geöffneten Türblättern in "Übergabestellung",
Fig. 5
die Einzelheit "Y" gemäß Fig. 2 in vergrößerter Darstellung,
Fig. 6
die Einzelteile Führungsbuchse mit Steuerelement, Führungsarm und Winkelhebel, als perspektivische Darstellung,
Fig. 7
einen Schnitt gemäß der Linie A-A in Fig. 4,
Fig. 8
die in den Figuren 1 bis 7 gezeigte Steuerplatte als Einzelteil in der Draufsicht,
Fig. 9
eine Ausführungsvariante zur Verriegelung des Winkelhebels als Draufsicht,
Fig. 10
die Ausführungsvariante gemäß Fig. 9 in verriegelter Stellung,
Fig. 11
eine weitere Ausführungsvariante der Steuerplatte in vereinfachter Darstellung, als Draufsicht, bei geschlossenem Zustand der Türblätter,
Fig. 12
die Ausführungsvariante gemäß Fig. 11 bei teilweise geöffneten Türblättern in "Übergabestellung" und
Fig. 13
die Ausführungsvariante gemäß Fig. 11 im geöffneten Zustand der Türblätter.
The invention will be explained in more detail below with reference to an example of a double-leaf sliding door. In the accompanying drawing show
Fig. 1
a double-leaf sliding door in built-in and closed state, as a plan view,
Fig. 2
the sliding door according to FIG. 1 in the opened state of the door leaves,
Fig. 3
the detail "X" of FIG. 1 in an enlarged view,
Fig. 4
the detail "X" of FIG. 1, with partially open door leaves in "transfer position",
Fig. 5
the detail "Y" of FIG. 2 in an enlarged view,
Fig. 6
the individual parts Guide bush with control, guide arm and angle lever, as perspective view,
Fig. 7
a section along the line AA in Fig. 4,
Fig. 8
the control plate shown in Figures 1 to 7 as a single part in plan view,
Fig. 9
a variant for locking the angle lever as a plan view,
Fig. 10
the embodiment of FIG. 9 in the locked position,
Fig. 11
a further embodiment of the control plate in a simplified representation, as a plan view, with the door leaves closed,
Fig. 12
the embodiment of FIG. 11 at partially opened door leaves in "transfer position" and
Fig. 13
the embodiment of FIG. 11 in the open state of the door leaves.

Die die Türöffnung verschließende Schwenkschiebetür besteht aus zwei Türblättern 1 und 1', deren Außenseiten im geschlossenen Zustand mit der Fahrzeugaußenwand eine Ebene bilden. An den Innenseiten der Türblätter 1 und 1' sind im oberen Bereich Führungsschienen 3 und 3' und im unteren Bereich Führungsschienen 4 (Fig. 7) beabstandet befestigt, die parallel zur Innenseite der Türblätter 1, 1' verlaufen und an dem jeweils in Richtung zum Türrahmen 2 zeigenden Ende einen nach außen, gekrümmten Abschnitt 3a (Figuren 2 und 4) besitzen. Die Türblätter 1 und 1' sind im oberen Bereich an Führungsarmen 6 bzw. 6' befestigt, die mit Rollenwagen 7, 7' verbunden sind, die in jeweils einer Rollenführung 8, 8' geführt sind. Die Führungsarme 6, 6' sind sich überkreuzend angeordnet und besitzen einen nach innen gerichteten, gebogenen Verlängerungsabschnitt 6a mit einer nach oben gerichteten Führungsrolle 6b (Fig. 3). Die Rollenführungen 8 und 8' weisen gerade Abschnitte 8a auf, die parallel zum Wagenkasten verlaufen und Abschnitte 8b, die in Richtung zur Wageninnenseite gekrümmt bzw. abgebogen sind. Die gekrümmten Abschnitte 8b befinden sich jeweils an dem in Richtung zum Türrahmen 2 zeigenden Ende.
Die erforderliche Bewegungskraft zur Quer- und Längsverschiebung der Türblätter 1, 1' wird über einen Gleichstrommotor 5 ausgelöst, der über ein zwischengeschaltetes Getriebe einen Linearantrieb 10 betätigt, der aus einer linearen Führung 11 und einem zwischen zwei Rollen 9a und 9b geführten Zahnriemen 9 besteht, wobei die Rolle 9a die Antriebsrolle bildet.
Auf der als Linearführung ausgebildeten Führungsstange 11 sind als Führungseinheiten zwei Führungsbuchsen 12 und 12' längsbeweglich geführt, die jeweils mit einem der Trume des Zahnriemens 9 verbunden sind. Im geschlossenen Zustand der Türblätter 1, 1' befinden sich die Führungsbuchsen 12, 12' jeweils am äußeren Ende der Führungsstange 11, in Berührungskontakt mit den Anschlägen 24, 24' (Fig. 1).
Die Öffnungs- und Schließbewegungen der Türblätter 1 und 1' erfolgen synchron. Zur Steuerung des Bewegungsablaufes ist jeweils an den Führungsbuchsen 12 und 12' ein Steuerelement 13 bzw. 13' befestigt, die als identische, plattenförmige Bauteile ausgebildet sind. Die Anordnung und Ausbildung der Steuerplatten 13, 13' geht insbesondere aus den Figuren 5, 6 und 8 hervor. Die Steuerplatten 13, 13' sind an der Unterseite der Führungsbuchsen 12, 12' befestigt und zeigen in Richtung Türblatt 1, 1'. Jede Steuerplatte besitzt im vorderen Abschnitt eine halbkreisförmige Öffnung 13a und benachbart zu dieser eine Ausnehmung 13b. Die Ausnehmung 13b ist durch einen vergrößerten Abschnitt 13c und eine sich an diesen anschließende Kurvenbahn 13d gebildet, die sich bis zum vorderen Ende der Steuerplatte 13, 13' erstreckt. Auf die Bedeutung und Funktion der Steuerelemente 13, 13' wird nachfolgend noch näher eingegangen.
Der Bewegungsablauf der Türblätter ist in zwei unterschiedliche Phasen I und II gegliedert. Während der Phase I, dem Herausdrücken der Türblätter 1, 1' aus der Türöffnung in eine leicht geneigte Schrägstellung, ist die an der Führungsbuchse 12 befestigte Steuerplatte 13, 13a für die Steuerung des Bewegungsablaufes des Türblattes 1 zuständig und demzufolge die Führungsbuchse 12' und Steuerplatte 13', 13a für das Türblatt 1'. Die Führungsrolle 19 des jeweiligen Schenkels 15b des Winkelhebels 15, 15' steht in Eingriff mit der halbkreisförmigen Öffnung 13a der Steuerplatte 13 bzw. 13', wie in Fig. 3 und 6 gezeigt.
Während der Phase II, der weiteren Quer- und Längsverschiebung der Türblätter 1, 1' mittels der Rollenwagen 7, 7' ist die Führungsbuchse 12 mit der Steuerplatte 13, 13d für das Türblatt 1'zuständig und die Führungsbuchse 12' mit der Steuerplatte 13', 13d für das Türblatt 1. Bedingt durch die sich überkreuzende bzw. überdeckende Anordnung der Führungsarme 6, 6' befindet sich die Rolle 6b des Führungsarmes 6, an dem das Türblatt 1 befestigt ist, in Kontakt mit der Steuerkurve 13d der Steuerplatte 13' und die Rolle 6b des Führungsarmes 6' steht in analoger Weise in Kontakt mit der Steuerplatte 13. Der Führungsarm 6 ist mit dem Rollenwagen 7' verbunden und der Führungsarm 6' mit dem Rollenwagen 7, wie in Fig. 2 gezeigt.
Der Bewegungsablauf der beiden Phasen I und II ist so aufeinander abgestimmt, dass eine kinematische Überbestimmung während des Überganges von der Phase I auf die Phase II, bzw. umgekehrt, ausgeschlossen ist.
An den in Türrahmennähe angeordneten vertikalen Drehsäulen 14, 14' sind im oberen Bereich identische Winkelhebel 15, 15' befestigt. Die Winkelhebel 15, 15' besitzen zwei Schenkel 15a und 15b, die in einem Winkel von 90° bis 120° angeordnet sind. Die Größe des Winkels ist abhängig von dem zur Verfügung stehenden Einbauraum. Der Scheitelpunkt der Schenkel 15a, 15b bildet die Drehachse, die in der Mittelachse der Drehsäule 14, 14' liegt. Der in Richtung zum Türblatt 1, 1' zeigende Schenkel 15a besitzt an seinem vorderen Ende in vertikalen Drehachsen gelagerte, nach oben zeigende Führungsrollen 16 und 17 sowie eine untere Stützrolle 18, die an der am Türblatt 1, 1' befestigten oberen Führungsschiene 3 bzw. 3' anliegen (Fig. 3). Die Stützrolle 18 übernimmt eine Achsenfunktion während der Bewegung der Türblätter 1,1' und eine Abstützfunktion für die auftretenden Antriebskräfte. Der andere, nach innen gerichtete Schenkel 15b besitzt an seinem freien Ende eine in einer vertikalen Drehachse gelagerte Führungsrolle 19, die nach oben zeigt, und sich im geschlossenen Zustand der Türblätter 1, 1' in Eingriff mit der halbkreisförmigen Führung 13a des jeweiligen Steuerelementes 13, 13' befindet (Figuren 3 und 6). Die Führungsarme 6, 6', die mit den Rollenwagen 7, 7' verbundenen sind, besitzen an ihrem vorn Türblatt 1, 1' abstehenden Ende 6a eine nach oben gerichtete Führungsrolle 6b. Diese ragt im geschlossenen Zustand der Türblätter 1, 1' in den vergrößerten Abschnitt 13c der Ausnehmung 13b der jeweiligen Steuerplatte 13 bzw. 13' und ist in diesem während der Bewegungsphase I der Türblätter 1, 1' frei beweglich, also schwimmend gelagert. Bedingt durch eine Dehnung des Zahnriemens 9 kann es erforderlich sein, den Bewegungsspielraum der Führungsrolle 6b innerhalb der Öffnung 13c in Längsrichtung durch einen Anschlag zu begrenzen, zur Bildung eines mechanischen Kurzschlusses.
Erst nach einem definierten Querverschub der Türblätter 1, 1', der Beendigung der Phase I, gelangt die Führungsrolle 6b in Eingriff mit der Kurvenbahn 13d, es beginnt die Phase II. Kinematisch ist der Bewegungsablauf der Winkelhebel 15, 15', deren Schwenkbewegung, so auf die Bewegung der Führungsarme 6, 6' abgestimmt, dass genau dann, wenn die Führungsrolle 19 des Schenkels 15b außer Eingriff der halbkreisförmigen Führung 13a gelangt (Ende der Phase I), die Führungsrollen 6b in Eingriff mit der Kurvenbahn 13d der Steuerplatten 13, 13' gelangen (Beginn der Phase II), bzw. umgekehrt, während der Schließbewegung der Türblätter 1, 1'. Die Führungsrollen 6b und 19 liegen in einer Ebene.
Im unteren Bereich der beiden Drehsäulen 14, 14' ist an diesen ein Schwenkhebel 20 befestigt, dessen Hebelarm analog ausgebildet ist, wie der Schenkel 15a der Winkelhebel 15, 15', jedoch ohne Stützrollen. Die Führungsrollen 21, 22, umgreifen die unteren Führungsschienen 4 der Türblätter 1, 1' (Fig. 7). Die Bewegung der Winkelhebel 15, 15' wird über die Drehsäulen 14, 14' synchron auf die unteren Schwenkhebel 20 übertragen.The pivoting sliding door which closes the door opening consists of two door leaves 1 and 1 'whose outer sides in the closed state form a plane with the vehicle outer wall. On the inner sides of the door leaves 1 and 1 'guide rails 3 and 3' and in the lower region guide rails 4 (Fig. 7) are mounted at a distance, which run parallel to the inside of the door leaves 1, 1 'and at the respective in the direction of Door frame 2 facing end have an outwardly curved portion 3a (Figures 2 and 4). The door leaves 1 and 1 'are in the upper part of guide arms 6 and 6' attached, which are connected to roller carriage 7, 7 ', which are guided in each case a roller guide 8, 8'. The guide arms 6, 6 'are arranged crosswise and have an inwardly directed curved extension portion 6a with an upwardly directed guide roller 6b (Figure 3). The roller guides 8 and 8 'have straight portions 8a which are parallel to the car body and portions 8b which are curved or bent toward the car inner side. The curved portions 8b are located respectively at the end facing the door frame 2.
The required motive force for the transverse and longitudinal displacement of the door leaves 1, 1 'is triggered by a DC motor 5, which has an interposed Gear operated a linear actuator 10, which consists of a linear guide 11 and a guided between two rollers 9a and 9b timing belt 9, wherein the roller 9a forms the drive roller.
On the trained as a linear guide guide rod 11 as guide units two guide bushes 12 and 12 'are longitudinally movably guided, which are each connected to one of the strands of the toothed belt 9. In the closed state of the door leaves 1, 1 'are the guide bushes 12, 12' each at the outer end of the guide rod 11, in touching contact with the stops 24, 24 '(Fig. 1).
The opening and closing movements of the door leaves 1 and 1 'are synchronous. To control the movement sequence, a control element 13 or 13 'is fastened to the guide bushes 12 and 12', respectively, which are designed as identical, plate-shaped components. The arrangement and design of the control plates 13, 13 'is apparent in particular from Figures 5, 6 and 8. The control plates 13, 13 'are fixed to the underside of the guide bushes 12, 12' and point in the direction of the door leaf 1, 1 '. Each control plate has in the front portion a semi-circular opening 13a and adjacent to this a recess 13b. The recess 13b is formed by an enlarged portion 13c and an adjoining cam track 13d, which extends to the front end of the control plate 13, 13 '. On the meaning and function of the controls 13, 13 'will be discussed in more detail below.
The movement of the door leaves is divided into two different phases I and II. During phase I, the pressing out of the door leaves 1, 1 'from the door opening in a slightly inclined position, the attached to the guide bush 12 control plate 13, 13a is responsible for controlling the movement sequence of the door leaf 1 and consequently the guide bush 12' and control plate 13 ', 13a for the door leaf 1'. The guide roller 19 of the respective leg 15b of the angle lever 15, 15 'is in engagement with the semicircular opening 13a of the control plate 13 or 13', as shown in FIGS. 3 and 6.
During phase II, the further transverse and longitudinal displacement of the door leaves 1, 1 'by means of the roller carriage 7, 7', the guide bush 12 with the control plate 13, 13d for the door leaf 1 'competent and the guide bush 12' with the control plate 13 ' , 13d for the door leaf 1. Due to the intersecting or overlapping arrangement of the guide arms 6, 6 'is the roller 6b of the guide arm 6 to which the door panel 1 is fixed, in contact with the control cam 13d of the control plate 13' and the roller 6b of the guide arm 6 'is in analogous contact with the control plate 13. The guide arm 6 is connected to the roller carriage 7' and the guide arm 6 'to the roller carriage 7, as shown in Fig. 2.
The movement of the two phases I and II is coordinated so that a kinematic over-determination during the transition from the phase I to the phase II, or vice versa, is excluded.
At the arranged near the door frame vertical rotary columns 14, 14 'identical angle levers 15, 15' are mounted in the upper region. The angle levers 15, 15 'have two legs 15a and 15b, which are arranged at an angle of 90 ° to 120 °. The size of the angle depends on the available installation space. The vertex of the legs 15a, 15b forms the axis of rotation which lies in the central axis of the rotary column 14, 14 '. The in the direction of the door leaf 1, 1 'facing leg 15a has at its front end mounted in vertical axes of rotation, upwardly facing guide rollers 16 and 17 and a lower support roller 18, on the door leaf 1, 1' attached upper guide rail 3 and 3 'present (Fig. 3). The support roller 18 assumes an axis function during the movement of the door leaves 1,1 'and a support function for the occurring driving forces. The other, inwardly directed leg 15b has at its free end a mounted in a vertical axis of rotation guide roller 19 which faces upward, and in the closed state of the door leaves 1, 1 'in engagement with the semicircular guide 13a of the respective control element 13, 13 'is located (Figures 3 and 6). The guide arms 6, 6 ', which are connected to the roller carriage 7, 7', have at their front door leaf 1, 1 'projecting end 6a an upwardly directed guide roller 6b. This protrudes in the closed state of the door leaves 1, 1 'in the enlarged portion 13c of the recess 13b of the respective control plate 13 and 13' and in this during the movement phase I of the door leaves 1, 1 'freely movable, so floating. Due to an elongation of the toothed belt 9, it may be necessary to limit the range of motion of the guide roller 6b within the opening 13c in the longitudinal direction by a stop, to form a mechanical short circuit.
Only after a defined transverse displacement of the door leaves 1, 1 ', the completion of phase I, the guide roller 6b comes into engagement with the cam track 13d, it starts the phase II. Kinematically, the movement of the angle lever 15, 15', the pivotal movement, so matched to the movement of the guide arms 6, 6 ', that exactly when the guide roller 19 of the leg 15b disengages from the semi-circular guide 13a passes (end of phase I), the guide rollers 6b in engagement with the cam track 13d of the control plates 13, 13th 'arrive (beginning of phase II), or vice versa, during the closing movement of the door leaves 1, 1'. The guide rollers 6b and 19 lie in one plane.
In the lower region of the two columns of revolution 14, 14 ', a pivot lever 20 is attached to this, the lever arm is designed to be analogous, as the legs 15a of the angle lever 15, 15 ', but without support rollers. The guide rollers 21, 22 surround the lower guide rails 4 of the door leaves 1, 1 '(FIG. 7). The movement of the angle lever 15, 15 'is synchronously transmitted to the lower pivot lever 20 via the rotary columns 14, 14'.

Um während der Bewegungsphase II, insbesondere während der Längsverschiebung der Türblätter 1, 1' parallel zur Fahrzeugaußenwand, eine stabile und exakte Führung der Türblätter 1, 1' zu gewährleisten, ist es zweckmäßig, den Winkelhebel 15 bzw. 15', wenn dieser eine Stellung einnimmt, in der die Mittelachse x des Schenkels 15a nahezu rechtwinklig zur Fahrzeuglängsachse verläuft, zu arretieren. Eine Ausführungsvariante zur Ver- und Entriegelung der Winkelhebel ist in den Figuren 9 und 10 dargestellt.
Zur Arretierung der Winkelhebel 15, 15' ist an der Unterseite des Schenkels 15a ein federbelasteter, zweiarmiger Arretierungshebel 28 drehbar gelagert, der als kleinerer Winkelhebel ausgebildet ist. Am Lagerbock für den Winkelhebel 15 ist in einem definierten radialen Abstand zum Drehpunkt 28c des Arretierungshebels 28 eine nach oben zeigende Anschlagrolle 29 angeordnet. Im geschlossenen Zustand der Türblätter 1, 1' liegt die Anschlagrolle 29 am inneren Krümmungsradius des Arretierungshebels 28 an, wie in Fig. 9 zu sehen ist. Während der Öffnungsbewegung der Türblätter 1, 1' schwenkt der Arretierungshebel 28 synchron mit dem Winkelhebel 15 oder 15', da er von diesem mitgenommen wird. Erreicht der Winkelhebel 15, 15' eine Stellung, in der die Mittelachse x des Schenkels 15a nahezu rechtwinklig zur Fahrzeuglängsachse verläuft, so gelangt der nach innen gerichtete Hebelarm 28b des Arretierungshebels 28 in Kontakt mit der Anschlagrolle 29 und arretiert den Winkelhebel 15, 15'.
Während der Schließbewegung der Türblätter 1, 1' wird über einen an der Innenseite der Türblätter 1, 1' angeordneten Mitnehmer 30, der an dem nach außen gerichteten Hebelarm 28a angreift, die Arretierung der Winkelhebel 15, 15' gelöst (Fig. 10).
Wie in Fig. 1 gezeigt, bilden die Außenseiten der Türblätter 1, 1' im geschlossenen Zustand mit der Fahrzeugaußenwand eine Ebene. Die Türblätter 1, 1' werden durch an sich bekannte Verriegelungselemente in einer verriegelten Stellung gehalten. Im geschlossenen Zustand der Türblätter 1, 1' befinden sich die Rollenwagen 7 und 7' im Bereich der gekrümmten Abschnitte 8b der Rollenführungen 8, 8', in einem definierten Abstand zum Ende der gekrümmten Abschnitte 8b. Die beiden auf der Führungsstange 11 geführten, linear beweglichen Führungsbuchsen 12, 12' mit ihren Steuerelementen 13, 13' befinden sich in der Ausgangsstellung, am linken bzw. rechten Ende der Führungsstange 11, die jeweils durch einen Anschlag 24, 24' begrenzt sind. Die Führungsrollen 19 der Schenkel 15b der Winkelhebel 15 und 15' stehen dabei in Eingriff mit der halbkreisförmigen Führung 13a des jeweiligen Steuerelementes 13, 13' und in Berührungskontakt mit dem bogenförmigen Abschnitt dieser Führung 13a.In order to ensure a stable and accurate guidance of the door leaves 1, 1 'during the movement phase II, in particular during the longitudinal displacement of the door leaves 1, 1' parallel to the vehicle outer wall, it is expedient, the angle lever 15 or 15 ', if this one position occupies, in which the central axis x of the leg 15a extends almost perpendicular to the vehicle longitudinal axis to lock. A variant for locking and unlocking the angle lever is shown in Figures 9 and 10.
To lock the angle levers 15, 15 ', a spring-loaded, two-armed locking lever 28 is rotatably mounted on the underside of the leg 15a, which is designed as a smaller angle lever. On the bearing block for the angle lever 15, an upwardly pointing stop roller 29 is arranged at a defined radial distance from the pivot point 28c of the locking lever 28. In the closed state of the door leaves 1, 1 'is the stop roller 29 at the inner radius of curvature of the locking lever 28, as can be seen in Fig. 9. During the opening movement of the door leaves 1, 1 'of the locking lever 28 pivots synchronously with the angle lever 15 or 15', since he is taken away by this. Reached the angle lever 15, 15 'a position in which the central axis x of the leg 15a extends almost perpendicular to the vehicle longitudinal axis, the inwardly directed lever arm 28b of the locking lever 28 comes into contact with the stop roller 29 and locks the angle lever 15, 15'.
During the closing movement of the door leaves 1, 1 ', the catch of the angle levers 15, 15' is released via a driver 30 arranged on the inside of the door leaves 1, 1 ', which acts on the outwardly directed lever arm 28a (FIG. 10).
As shown in Fig. 1, form the outer sides of the door leaves 1, 1 'in the closed state with the vehicle outer wall a plane. The door leaves 1, 1 'are held in a locked position by known locking elements. In the closed state of the door leaves 1, 1 'are the roller carriage 7 and 7' in the region of the curved portions 8b of the roller guides 8, 8 ', at a defined distance from the end of the curved portions 8b. The two guided on the guide rod 11, linearly movable guide bushes 12, 12 'with their controls 13, 13' are in the starting position, at the left or right end of the guide rod 11, each bounded by a stop 24, 24 '. The guide rollers 19 of the legs 15b of the angle lever 15 and 15 'are engaged with the semi-circular guide 13a of the respective control element 13, 13' and in touching contact with the arcuate portion of this guide 13a.

In diesem Ausgangszustand der Winkelhebel 15 und 15' liegen die Führungsrollen 16, 17 der Schenkel 15a im Radius des gekrümmten Abschnittes 3a der oberen Führungsschienen 3, 3' an. Analog trifft dies auch für die unteren Führungsrollen 21, 22 zu, die an dem gekrümmten Abschnitt des Schwenkhebels 20 anliegen. Mit der Auslösung des Befehls "Tür öffnen" werden die Türblätter 1, 1' im Bereich der vertikalen Verriegelungskanten 23 entriegelt und über Motor 5 und Getriebe der zwischen den Rollen 9a, 9b gespannte Zahnriemen 9 in Bewegung versetzt.
Bei Beginn der Öffnungsbewegung liegt die Führungsrolle 16 im Radius des gekrümmten Abschnittes 3a und die gegenüberliegende Führungsrolle 17 am Außenumfang dieses Abschnittes 3a an. Die Führungsrollen 16 und 21 bilden den definierten Drehpunkt für die Schwenkbewegung der Türblätter 1, 1'. Durch die mit der Öffnungsbewegung ausgelöste Bewegung der Führungsbuchsen 12, 12' mit den Steuerelementen 13, 13' in Richtung zur Mitte der Türöffnung (Phase I), wird durch den Eingriff der Führungsrolle 19 des Schenkels 15b in der halbkreisförmigen Führung 13a des jeweiligen Steuerelementes 13, 13' eine Schwenkbewegung der Winkelhebel 15 und 15' um ihre Drehachse 14, 14' bewirkt und dadurch die Türblätter 1, 1' synchron in Querrichtung aus der Türöffnung herausgeschoben, in eine leichte Schrägstellung.
Der im Bereich der linken Türrahmenseite befindliche Winkelhebel 15 wird in Uhrzeigerrichtung und der auf der gegenüberliegenden, rechten Seite angeordnete Winkelhebel 15' entgegen der Uhrzeigerrichtung bewegt (Blickrichtung vor dem Fahrzeug stehend). Mit fortschreitender Bewegung der Führungsbuchsen 12, 12' gelangt die Führungsrolle 19 des Schenkels 15b, die sich auf einer Kreisbogenbahn bewegt, außer Kontakt mit dem gebogenen Abschnitt der halbkreisförmigen Führung 13a, wie in Fig. 4 zu sehen ist. Gleichzeitig gelangen die an den jeweiligen Führungsarmen 6, 6' angeordneten Führungsrollen 6b in Eingriff mit der Kurvenbahn 13d der Steuerplatten 13, 13'. Es findet eine sogenannte "fliegende Übergabe" von der Phase I in die Phase II statt, die linear bewegbare Führungsbuchse 12, 12' ist über die Steuerplatte 13, 13' ständig, entweder mit dem Winkel hebel 15, 15' (Phase I) oder dem Führungsarm 6, 6' (Phase II) verbunden. Mit Eintreten der form- und kraftschlüssigen Verbindung zwischen den Führungsarmen 6 bzw. 6' und den Steuerplatten 13 bzw. 13' der linear bewegten Führungsbuchsen 12 bzw. 12' werden die Rollenwagen 7 und 7' entlang der gebogenen Abschnitte 8b der Rollenführungen 8 und 8' bewegt. Aufgrund dieser Bewegung werden die Türblätter 1, 1' weiter in Querrichtung, in eine zur Fahrzeugaußenwand schräg verlaufende Stellung bewegt und die Führungsrolle 19 des Schenkels 15b gelangt vollständig außer Eingriff der halbkreisförmigen Führung 13a. Durch die weitere Bewegung der Rollenwagen 7, 7' entlang der gebogenen Abschnitte 8b werden die Winkelhebel 15, 15' ausschließlich nur noch durch die Bewegung der Türblätter 1, 1' geschwenkt, bis in eine Stellung, in der die Mittelachse x des Schenkels 15a nahezu rechtwinklig zur Fahrzeuglängsachse verläuft. Erforderlichenfalls können die Winkelhebel 15, 15' in dieser Stellung arretiert werden, wie vorstehend ausgeführt, wobei die Arretierung während des Schließvorganges der Türblätter 1, 1' wieder gelöst wird.
Erreichen die Rollenwagen 7 und 7' während der weiteren linearen Bewegung der Führungsbuchsen 12, 12' den geraden Abschnitt 8a der Rollenführungen 8, 8', so beginnt die synchrone Verschiebung der Türblätter 1, 1' in eine parallel zur Fahrzeugaußenwand verlaufende Stellung. Dabei werden die Türblätter 1, 1', oben, durch den an den Führungsschienen 3, 3' angreifenden Schenkel 15a der Winkelhebel 15, 15', und unten, über die Schwenkhebel 20, die mit ihren Führungsrollen 21, 22 an den Führungsschienen 4 anliegen, geführt. Diese Führungen tragen auch wesentlich zur Stabilisierung der Türblätter während deren Längsverschiebung bei.
Die auf der Führungsstange 11 geführten Führungsbuchsen 12, 12' mit den Steuerelementen 13, 13' bewegen sich in gegenläufiger Richtung, über das Steuerelement 13 wird die lineare Bewegung auf den Führungsarm 6' übertragen und das Türblatt 1' verschoben. Über das Steuerelement 13' wird in analoger Weise das Türblatt 1 bewegt, die Führungsarme 6, 6' sind sich überkreuzend angeordnet. Unmittelbar vor dem Zusammentreffen der beiden linear bewegten Führungsbuchsen 12, 12' befinden sich die beiden Türblätter 1, 1' in der endgültigen Öffnungslage, wie in den Figuren 2 und 5 gezeigt.
Durch Auslösen des Befehls "Tür schließen" werden die Führungsbuchsen 12, 12' in entgegengesetzter Richtung, jeweils nach außen, bewegt (Phase II). Die an den Türblättern 1, 1' befestigten Führungsarme 6, 6', sind einerseits mit den Rollenwagen 7, 7' und andererseits mit den Steuerplatten 13, 13' über die Führungsrollen 6b, die sich in Eingriff mit den Kurvenbahnen 13d befinden, verbunden. Die Rollenwagen 7, 7' werden entlang der geraden Abschnitte 8a der Rollenführungen 8, 8' bewegt und dadurch die Türblätter 1, 1' in Schließrichtung bewegt, wobei sie eine leichte Schrägstellung einnehmen. In dieser Lage besteht zwischen den benachbarten Fingerschutzleisten 27, 27' der Türblätter 1, 1' noch ein Abstand bzw. Freiraum. Nach Erreichen der gekrümmten Abschnitte 8b der Rollenführungen 8, 8' werden die Türblätter 1, 1' in Querrichtung bewegt.
Dabei bewegen sich die an den Führungsarmen 6, 6' befestigten Führungsrollen 6b entlang der Kurvenbahn 13d in Richtung zu dem vergrößerten Abschnitt 13c der Ausnehmung 13b der Steuerplatten 13, 13'. Kurz vor Erreichen des vergrößerten Abschnittes 13c gelangen die an den Schenkeln 15b der Winkelhebel 15, 15' befestigten Führungsrollen 19a wieder in den Eingriffsbereich der halbkreisförmigen Führungen 13a. Es erfolgt wieder eine sogenannte "fliegende Übergabe" (von der Phase II zur Phase I), die Führungsrollen 6b der Führungsarme 6 bzw. 6' gelangen in den vergrößerten Abschnitt 13c der Ausnehmung 13b und damit die Führungsarme 6, 6' außer Eingriff und Wirkung der Steuerplatten 13 bzw. 13', und der Schenkel 15b mit der Führungsrolle 19 gelangt vollständig in Eingriff mit der halbkreisförmigen Führung 13a. Während der weiteren linearen Bewegung der Führungsbuchsen 12, 12' in Richtung zu den endseitigen Anschlägen 24, 24' werden aufgrund des Eingriffs der Führungsrollen 19 in den halbkreisförmigen Führungen 13a die Winkelhebel 15 und 15' in entgegengesetzter Richtung um ihre Drehachsen geschwenkt und dadurch die Türblätter 1, 1' in die Verriegelungskanten 23 des Türrahmens 2 hineingezogen und fest gegen die Türdichtungen 25 gedrückt.
Die Bewegungsabläufe, Verschieben und Hineinziehen der Türblätter 1, 1', sind so aufeinander abgestimmt, dass mit Beendigung der Schließbewegung die beiden Türblätter 1, 1' mit ihren benachbarten Seiten im Bereich der flexiblen Fingerschutzleisten 27, 27' an den Längsseiten aneinander stoßen und dabei die gegenüberliegenden Längsseiten der Türblätter 1, 1' die Verriegelungsstellung einnehmen und fest gegen die Türdichtungen 25, 25' gedrückt werden. Zusätzlich sind noch Fingerschutzprofile 26, 26' vorgesehen.
In den Figuren 11 bis 13 ist noch eine weitere Ausführungsvariante für das an den Führungseinheiten 12, 12' angeordnete Steuerelement gezeigt. Der in diesen Figuren gezeigte Bewegungsablauf ist analog wie der gemäß den Figuren 3 bis 5. Das Steuerelement 31 unterscheidet sich von den vorstehend beschriebenen Steuerelementen 13, 13' lediglich dadurch, dass anstelle der halbkreisförmigen Öffnung 13a und der Ausnehmung 13b nur eine Führung 31a vorgesehen ist, die als L-förmig gebogene, gabelförmige Öffnung ausgebildet ist. In diese greifen die an dem Schenkel 15b angeordnete Führungsrolle 19 zeitweise und die an dem Führungsarm 6, 6', 6a angeordnete Führungsrolle 6b ständig ein. In Fig. 11 ist der Eingriff der Führungsrollen 19 und 6b während des geschlossenen Zustandes des Türblattes dargestellt. Die an dem Führungsarm 6', 6a angeordnete Führungsrolle 6b befindet sich am hinteren Ende der Führung 31a und ist schwimmend in dieser gelagert. Eine Wirkungsverbindung mit der Steuerplatte 31 besteht zu diesem Zeitpunkt noch nicht. Im Gegensatz dazu befindet sich der Schenkel 15b des Winkelhebels 15 über die Führungsrolle 19 in Eingriff und Wirkungsverbindung mit der Steuerplatte 31 und liegt am vorderen Ende der Führung 31a an. Mit Beginn der Öffnungsbewegung für die Türblätter 1, 1' in Querrichtung (Phase I) - der Rollenwagen 7 bewegt sich entlang des gebogenen Abschnittes 8b der Rollenführung 8 - wird der Winkelhebel 15 in Uhrzeigerrichtung geschwenkt und dadurch das Türblatt 1' aus der Türöffnung herausgedrückt. Dabei wird der Führungsarm 6 mit der Führungsrolle 6b entlang der Führungsbahn 31a bewegt, ohne Krafteinwirkung auf die Steuerplatte 31. Nach Erreichen der in Fig. 12 gezeigten Stellung ist die Phase I beendet und es beginnt die Phase II, der Schenkel 15b des Winkelhebels 15 gelangt nunmehr außer Eingriff der Führungsbahn 31a und die Führungsrolle 6b des Führungsarmes 6' erreicht den Abschnitt der Führungsbahn 31a, der eine form- und kraftschlüssige Verbindung gewährleistet und dadurch die Wirkungsverbindung mit der Steuerplatte 31 herstellt. Die weitere Öffnungsbewegung der Türblätter (Phase II) erfolgt dann ausschließlich über diese Verbindung bzw. Koppelung, wobei die Führungsrolle 6b des Führungsarmes 6' weiter entlang der Führung 31a bewegt wird. Fig. 13 zeigt in vereinfachter Weise den Bewegungszustand nach erfolgter vollständiger Öffnung der Türblätter analog wie in Fig. 5. Während des Schließvorganges der Türblätter erfolgt die Bewegung in umgekehrter Reihenfolge.
Aufgrund der erfindungsgemäß vorgeschlagenen Maßnahmen erfolgt die Schließbewegung der Türblätter 1, 1' mit geregelter Kinematik sowie geringer kinetischer Energie, wodurch eine besonders hohe Einklemmsicherheit erreicht wird. Die sanfte Schließbewegung der Türblätter 1, 1' verhindert zuverlässig ein unerwünschtes Einklemmen, da selbst bei geringfügigen Berührungskontakten umgehend die Reversierbewegung der Türblätter ausgelöst wird.
Außer der sanften Schließbewegung wird auch ein zuverlässiges Schließen der Türblätter erreicht. Die Türblätter werden durch die Schließbewegung in ihrer Endlage dicht an die rahmenseitigen Türdichtungen 25, 25' gepresst (Figuren 1 und 3). Ein weiterer Vorteil ist, dass der Verriegelungsmechanismus für die Türblätter einfacher und kostengünstiger ausgeführt werden kann, da die Türblätter nach Beendigung des Schließvorganges kinematisch bedingt, durch die Winkelhebel, fest an den Türdichtungen anliegen.
Die zweiflügelige Schwenkschiebetür ist zum Beispiel für einen Einsatz in Straßenbahnen oder Nahverkehrszügen für den Schienenverkehr geeignet. In Verbindung mit einer Notentriegelung lassen sich die Türblätter im Bedarfsfall auf einfache Weise auch manuell öffnen. Durch Ausübung einer entsprechenden Bewegungskraft auf die Türblätter in Längsrichtung wird eine Schwenkbewegung der Winkelhebel bewirkt und die Türblätter werden in Querrichtung aus der Schließstellung herausgedrückt und können dann weiter in Längsrichtung verschoben werden.In this initial state of the angle lever 15 and 15 'are the guide rollers 16, 17 of the legs 15a in the radius of the curved portion 3a of the upper guide rails 3, 3' at. Similarly, this also applies to the lower guide rollers 21, 22, which abut against the curved portion of the pivot lever 20. With the triggering of the command "door open" the door leaves 1, 1 'are unlocked in the region of the vertical locking edges 23 and put on motor 5 and transmission of the tensioned between the rollers 9a, 9b toothed belt 9 in motion.
At the beginning of the opening movement, the guide roller 16 is in the radius of the curved portion 3a and the opposite guide roller 17 on the outer periphery of this section 3a. The guide rollers 16 and 21 form the defined pivot point for the pivoting movement of the door leaves 1, 1 '. By triggered with the opening movement of the guide bushes 12, 12 'with the controls 13, 13' towards the center of the door opening (Phase I), by the engagement of the guide roller 19 of the leg 15b in the semicircular guide 13a of the respective control 13th , 13 'causes a pivoting movement of the angle lever 15 and 15' about its axis of rotation 14, 14 'and thereby the door leaves 1, 1' synchronously pushed out of the door opening in the transverse direction, in a slight inclination.
The angle lever 15 located in the region of the left-hand door frame side is moved counterclockwise in the clockwise direction and the angle lever 15 'arranged on the opposite, right-hand side (standing in front of the vehicle). As movement of the guide bushes 12, 12 'progresses, the guide roller 19 of the leg 15b, which moves in a circular arc path, comes out of contact with the bent portion of the semicircular guide 13a, as shown in FIG. At the same time, the guide rollers 6b arranged on the respective guide arms 6, 6 'engage in the cam track 13d of the control plates 13, 13'. There is a so-called "flying transfer" from Phase I to Phase II, the linearly movable guide bush 12, 12 'is on the control plate 13, 13' constantly, either with the angle lever 15, 15 '(Phase I) or the guide arm 6, 6 '(Phase II) connected. With the entry of the positive and non-positive connection between the guide arms 6 and 6 'and the control plates 13 and 13' of linearly moving guide bushes 12 and 12 'are the roller carriage 7 and 7' along the bent portions 8b of the roller guides 8 and 8 ' emotional. Due to this movement, the door leaves 1, 1 'are further moved in the transverse direction, in a direction obliquely to the vehicle outer wall position and the guide roller 19 of the leg 15 b completely disengaged from the semicircular guide 13 a. As a result of the further movement of the roller carriages 7, 7 'along the bent sections 8b, the angle levers 15, 15' are pivoted exclusively only by the movement of the door leaves 1, 1 'until they reach a position in which the center axis x of the leg 15a runs almost perpendicular to the vehicle longitudinal axis. If necessary, the angle lever 15, 15 'can be locked in this position, as stated above, wherein the lock during the closing operation of the door leaves 1, 1' is released again.
Reach the roller carriage 7 and 7 'during the further linear movement of the guide bushes 12, 12', the straight portion 8a of the roller guides 8, 8 ', so the synchronous displacement of the door leaves 1, 1' begins in a direction parallel to the vehicle outer wall position. In this case, the door leaves 1, 1 ', above, by the on the guide rails 3, 3' engaging legs 15a of the angle lever 15, 15 ', and below, via the pivot lever 20, 22 abut with their guide rollers 21, 22 on the guide rails 4 , guided. These guides also contribute significantly to the stabilization of the door leaves during their longitudinal displacement.
Guided on the guide rod 11 guide bushes 12, 12 'with the controls 13, 13' move in the opposite direction, via the control element 13, the linear movement is transmitted to the guide arm 6 'and the door leaf 1' moved. About the control 13 ', the door leaf 1 is moved in an analogous manner, the guide arms 6, 6' are arranged crossing each other. Immediately before the meeting of the two linearly moving guide bushings 12, 12 'are the two door leaves 1, 1' in the final open position, as shown in Figures 2 and 5.
By triggering the "close door" command, the guide bushes 12, 12 'are moved in the opposite direction, respectively outward (phase II). The guide arms 6, 6 'fastened to the door leaves 1, 1' are connected, on the one hand, to the roller carriages 7, 7 'and, on the other hand, to the control plates 13, 13' via the guide rollers 6b, which are in engagement with the cam tracks 13d. The roller carriages 7, 7 'are moved along the straight portions 8a of the roller guides 8, 8', thereby moving the door leaves 1, 1 'in the closing direction, taking a slight inclination. In this situation, there is still a distance or clearance between the adjacent finger protection strips 27, 27 'of the door leaves 1, 1'. After reaching the curved portions 8b of the roller guides 8, 8 ', the door leaves 1, 1' are moved in the transverse direction.
In this case, the guide rollers 6b fastened to the guide arms 6, 6 'move along the cam track 13d in the direction of the enlarged section 13c of the recess 13b of the control plates 13, 13'. Shortly before reaching the enlarged portion 13c, the guide rollers 19a attached to the legs 15b of the angle levers 15, 15 'return to the engagement area of the semicircular guides 13a. There is again a so-called "flying transfer" (from phase II to phase I), the guide rollers 6b of the guide arms 6 and 6 'get in the enlarged portion 13c of the recess 13b and thus the guide arms 6, 6 'out of engagement and action of the control plates 13 and 13', and the leg 15b with the guide roller 19 fully engages the semicircular guide 13a. During the further linear movement of the guide bushes 12, 12 'in the direction of the end stops 24, 24' due to the engagement of the guide rollers 19 in the semicircular guides 13a, the angle levers 15 and 15 'pivoted in the opposite direction about their axes of rotation and thereby the door leaves 1, 1 'drawn into the locking edges 23 of the door frame 2 and pressed firmly against the door seals 25.
The movements, moving and pulling the door leaves 1, 1 'are coordinated so that upon completion of the closing movement, the two door leaves 1, 1' with their adjacent sides in the region of the flexible finger protection strips 27, 27 'abut each other on the long sides and the opposite longitudinal sides of the door leaves 1, 1 'occupy the locking position and are pressed firmly against the door seals 25, 25'. In addition, finger protection profiles 26, 26 'are still provided.
FIGS. 11 to 13 show a further embodiment variant for the control element arranged on the guide units 12, 12 '. The movement sequence shown in these figures is analogous to that according to FIGS. 3 to 5. The control element 31 differs from the control elements 13, 13 'described above only in that instead of the semicircular opening 13a and the recess 13b only one guide 31a is provided , which is designed as an L-shaped, fork-shaped opening. In this, the arranged on the leg 15b guide roller 19 intermittently and on the guide arm 6, 6 ', 6a arranged guide roller 6b constantly. In Fig. 11, the engagement of the guide rollers 19 and 6b is shown during the closed state of the door leaf. The arranged on the guide arm 6 ', 6a guide roller 6b is located at the rear end of the guide 31a and is floatingly stored in this. An operative connection with the control plate 31 does not yet exist at this time. In contrast, the leg 15b of the angle lever 15 via the guide roller 19 is engaged and operatively connected to the control plate 31 and abuts the front end of the guide 31a. With the beginning of the opening movement for the door leaves 1, 1 'in the transverse direction (phase I) - the roller carriage 7 moves along the bent portion 8b of the roller guide 8 - the angle lever 15 is pivoted in the clockwise direction, thereby pushing the door leaf 1' out of the door opening. In this case, the guide arm 6 is moved with the guide roller 6b along the guide track 31a, without applying force to the control plate 31. After reaching the position shown in Fig. 12, the phase I is completed and it begins the Phase II, the leg 15b of the angle lever 15 now passes out of engagement with the guide track 31a and the guide roller 6b of the guide arm 6 'reaches the portion of the guide track 31a, which ensures a positive and non-positive connection and thereby establishes the operative connection with the control plate 31. The further opening movement of the door leaves (phase II) then takes place exclusively via this connection or coupling, wherein the guide roller 6b of the guide arm 6 'is further moved along the guide 31a. Fig. 13 shows in a simplified manner the state of movement after complete opening of the door leaves analogous as in Fig. 5. During the closing operation of the door leaves, the movement is performed in reverse order.
Due to the proposed measures according to the invention, the closing movement of the door leaves 1, 1 'is carried out with controlled kinematics and low kinetic energy, whereby a particularly high anti-trap is achieved. The gentle closing movement of the door leaves 1, 1 'reliably prevents undesired jamming, since the reversing movement of the door leaves is promptly triggered even in the case of slight touch contacts.
In addition to the gentle closing movement, a reliable closing of the door leaves is achieved. The door leaves are pressed by the closing movement in its end position close to the frame-side door seals 25, 25 '(Figures 1 and 3). Another advantage is that the locking mechanism for the door leaves can be made simpler and cheaper, since the door leaves after completion of the closing process kinematically due, by the angle lever, firmly against the door seals.
The double-wing sliding door is suitable, for example, for use in trams or local trains for rail transport. If necessary, the door leaves can also be opened manually in conjunction with an emergency release. By exerting a corresponding movement force on the door leaves in the longitudinal direction, a pivoting movement of the angle lever is effected and the door leaves are pushed out in the transverse direction from the closed position and can then be moved further in the longitudinal direction.

Claims (17)

  1. A swinging-sliding door for rail vehicles comprising two door leaves (1, 1'), a left door leaf (1) and a right door leaf (1'), each door leaf (1, 1') horizontally guided in the upper region in a stationary guide (8, 8') with a straight section (8a) and a section (8 b) inwardly curved towards the door frame, said guide being connected to a guide arm (6, 6') attached to the door leaf (1, 1'); a guide rail (3, 3', 3a) positioned on the door leaf (1, 1'), to which a mechanism (15,15') is coupled for moving the door leaf (1,1') transversally and a drive (5, 9, 9a, 9b) for moving the door leaf (1, 1') into a position running parallel to the vehicle's outer wall, said drive fitted with a linearly movable guide unit (12,12') on which the guide arm (6, 6', 6a, 6b) engages, characterised in that each of the two guide units (12,12') is fitted with a control element (13, 13', 31) and that each door leaf (1,1') is assigned an angular lever (15, 15') for guiding and moving the door leaves (1,1') transversely, with one limb (15a) of the angular lever (15) operatively connected to the guide rail (3) of the door leaf (1) and the other limb (15b) operatively connected temporarily to the control element (13') of the second door leaf (1'), each angular lever (15, 15') being rotatably mounted in a horizontal plane in the immediate vicinity of the door frame (2), whereby one limb (15a) of the angular lever (15, 15') is permanently connected to the guide rail (3, 3', 3a) of the door leaf (1, 1') and the other inwardly pointing limb (15b, 19) of the angular lever (15, 15') for displacing the door leaf (1, 1') in a transverse direction temporarily engages with, and operatively connects to, a control element (13, 13', 31) positioned on the guide unit (12', 12), disengaging again after a defined transverse displacement of the door leaf (1, 1'), and whereby, for controlling the further movement sequence to fully open and then close the door leaf (1,1'), the guide arm (6, 6', 6a, 6b) operatively interacts with the control element (13, 13', 31) and during the closing movement of the door leaf (1, 1'), after it runs into the door opening, the operative connection of the guide arm (6, 6', 6a, 6b) with the control element (13, 13', 31) is released and at the same time the inwardly pointing limb (15b, 19) of the angular lever (15,15') engages with, and operatively connects to, the control element (13, 13', 31) again and upon the further closing movement of the door leaf (1, 1'), the angular lever (15, 15') assumes its initial position, firmly pressing the door leaf (1, 1') against the door seal (25) and locking it in the process.
  2. Swinging-sliding door according to claim 1, characterised in that the control element (31) is a plate-shaped component, pointing in the direction of the door leaf (1,1') with a fork-shaped guide (31 a) bent into an L shape as a control cam, with which the guide arm (6, 6', 6a, 6b) and the inwardly pointing limb (15b, 19) of the angular lever (15,15') engage, with the guide arm (6, 6', 6a, 6b) mounted in a floating and displaceable fashion in the fork-shaped guide (31a), while the limb (15b, 19) and the control plate (31) are operatively connected.
  3. Swinging-sliding door according to claim 1, characterised in that the control element (13, 13') is a plate-shaped component, which points in the direction of the door leaf (1, 1') and has at its protruding end a semicircular opening (13a), with which the inwardly pointing limb (15b, 19) of the angular lever (15,15') engages and that adjoining the opening is a recess (13b) with which the guide arm (6, 6') engages.
  4. Swinging-sliding door according to claim 3, characterised in that the recess (13b) has an enlarged section (13c) with an adjoining curved path (13d) extending towards the front, with the guide arm (6, 6', 6a, 6b) mounted in a floating and displaceable fashion within the enlarged section (13c) and connected to the control plate (13, 13') in a positive and frictional lock, on being brought into contact with the curved path (13d).
  5. Swinging-sliding door according to one of the claims 1 to 4, characterised in that the guide unit (12, 12') is formed as a guide bush and the control element (13, 13', 31) is attached to the underside of the guide unit (12,12').
  6. Swinging-sliding door according one of the claims 1 to 5, characterised in that upwardly directed guide rollers (6b or 19) are positioned at the free ends of the guide arm (6, 6', 6a) and the inwardly pointing limb (15b) and that the guide rollers lie in one plane and project into the openings (13a, 13b, 31a) of the control element (13, 13', 31).
  7. Swinging-sliding door according to one of the claims 1 to 6, characterised in that the guide rail (3, 3') attached to the door leaf (1,1') has an outwardly curved section (3a) at its end pointing to the door frame (2).
  8. Swinging-sliding door according to one of the claims 1 to 7, characterised in that both limbs (15a, 15b) of the angular lever (15,15') enclose an angle of between 90° to 120°.
  9. Swinging-sliding door according to one of the claims 1 to 8, characterised in that the limb (15a) of the angular lever (15, 15'), which is connected to the guide rail (3, 3') attached to the door leaf (1, 1'), has guide (16, 17) and support rollers (18) at its protruding end, with one guide roller (16) bearing against the inside and the other guide roller (17) bearing against the outside of the guide rail (3, 3', 3a).
  10. Swinging-sliding door according to claim 9, characterised in that the guide rollers (16, 17) positioned on the limb (15a), which engages on the door leaf (1, 1'), protrude upwardly and are mounted in vertical axes of rotation.
  11. Swinging-sliding door according to one of the claims 1 to 10, characterised in that the support roller (18) bears against the underside of the guide rail (3, 3', 3a) and is positioned between the two guide rollers (16, 17).
  12. Swinging-sliding door according to one of the claims 1 to 11, characterised in that the guide rollers (16, 17) lie in the radius of the curved section (3a) of the guide rail (3, 3') during the transverse displacement of the door leaf (1, 1').
  13. Swinging-sliding door according to one of the claims 1 to 12, characterised in that a guide rail (4) is positioned in the lower region of the door leaf (1, 1') at a distance from the door leaf, whereby said guide rail (4) has an outwardly curved section at its end pointing to the door frame (2) and is connected by guide rollers (21, 22) to a pivoted lever (20) mounted on the same axis as the angular lever (15, 15'), with the angular lever (15, 15') and the pivoted lever (20) connected by a positive locking connection to the rotary column (14, 14') positioned on the door frame side.
  14. Swinging-sliding door according to one of the claims 1 to 13, characterised in that the angular lever (15,15') is lockable after pivoting into a position in which the centre axis (x) of the limb (15a) runs almost at right angles to the vehicle's longitudinal axis.
  15. Swinging-sliding door according to one of the claims 1 to 14, characterised in that on the under or upper side of the limb (15a) of the angular lever (15, 15') a spring-loaded, two-armed locking lever (28) is rotatably mounted, whose inwardly directed lever arm (28b) moves into contact with a stationary stop (29) during the swinging movement of the angular lever (15, 15') when the door leaf (1,1') is opened and secures the locking lever (15, 15'), thereby locking the angular lever (15, 15') and that a driver (30) positioned on the door leaf (1, 1') engages the outwardly directed lever arm (28a) of the locking lever (28) during the closing process of the door leaf (1, 1'), releasing the locking of the angular lever (15, 15').
  16. Swinging-sliding door according to one of the claims 1 to 15, characterised in that the door is fitted with two door leaves (1, 1'), a right door leaf (1') and a left door leaf (1) and two guide units (12, 12'), a right guide unit (12') and a left guide unit (12), movably positioned on a common linear guide (11), together with a right roller carriage (7) and a left roller carriage (7') and that the guide arms (6, 6', 6a, 6b) connected to the door leaves (1, 1') are arranged so as to cross over each another, whereby during the opposing movements of the door leaves (1, 1'), the right door leaf (1') is connected to, and engages with, the left roller carriage (7) and the left guide unit (12) via the guide arm (6) and the guide roller (6b) and the left door leaf (1) is connected to, and engages with the right roller carriage (7') and the right guide unit (12') via the guide arm (6) and the guide roller (6b).
  17. Swinging-sliding door according to one of the claims 1 to 16, characterised in that the door is installed as a fully functional assembly in a prefabricated door module, with the door module consisting of a door frame, whose outer contour has been matched to the outer contour of the wagon body of the rail vehicle and has several attachment receptacles for attaching the complete door module in the opening in the wagon body.
EP04008686A 2004-04-10 2004-04-10 Swinging sliding door for railway vehicles Expired - Lifetime EP1584535B1 (en)

Priority Applications (6)

Application Number Priority Date Filing Date Title
AT04008686T ATE374714T1 (en) 2004-04-10 2004-04-10 SWING SLIDING DOOR FOR RAIL VEHICLES
DE502004005128T DE502004005128D1 (en) 2004-04-10 2004-04-10 Sliding sliding door for rail vehicles
EP04008686A EP1584535B1 (en) 2004-04-10 2004-04-10 Swinging sliding door for railway vehicles
US10/987,724 US7426803B2 (en) 2004-04-10 2004-11-12 Swinging and sliding door for rail vehicles
CA002487559A CA2487559A1 (en) 2004-04-10 2004-11-12 Swinging sliding door for rail vehicles
HR20070562T HRP20070562T3 (en) 2004-04-10 2007-12-13 Swinging sliding door for railway vehicles

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
EP04008686A EP1584535B1 (en) 2004-04-10 2004-04-10 Swinging sliding door for railway vehicles

Publications (2)

Publication Number Publication Date
EP1584535A1 EP1584535A1 (en) 2005-10-12
EP1584535B1 true EP1584535B1 (en) 2007-10-03

Family

ID=34896046

Family Applications (1)

Application Number Title Priority Date Filing Date
EP04008686A Expired - Lifetime EP1584535B1 (en) 2004-04-10 2004-04-10 Swinging sliding door for railway vehicles

Country Status (6)

Country Link
US (1) US7426803B2 (en)
EP (1) EP1584535B1 (en)
AT (1) ATE374714T1 (en)
CA (1) CA2487559A1 (en)
DE (1) DE502004005128D1 (en)
HR (1) HRP20070562T3 (en)

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Publication number Publication date
US7426803B2 (en) 2008-09-23
CA2487559A1 (en) 2005-10-10
EP1584535A1 (en) 2005-10-12
HRP20070562T3 (en) 2008-01-31
ATE374714T1 (en) 2007-10-15
DE502004005128D1 (en) 2007-11-15
US20050235564A1 (en) 2005-10-27

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