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EP0340409B1 - Bridge - Google Patents

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Publication number
EP0340409B1
EP0340409B1 EP89103833A EP89103833A EP0340409B1 EP 0340409 B1 EP0340409 B1 EP 0340409B1 EP 89103833 A EP89103833 A EP 89103833A EP 89103833 A EP89103833 A EP 89103833A EP 0340409 B1 EP0340409 B1 EP 0340409B1
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EP
European Patent Office
Prior art keywords
bridge
girths
track plates
bridge according
elements
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
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EP89103833A
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German (de)
French (fr)
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EP0340409A1 (en
EP0340409B2 (en
Inventor
Herbert Ing.grad. Hüther
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Dornier GmbH
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Dornier GmbH
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    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D15/00Movable or portable bridges; Floating bridges
    • E01D15/12Portable or sectional bridges
    • E01D15/127Portable or sectional bridges combined with ground-supported vehicles for the transport, handling or placing of such bridges or of sections thereof
    • EFIXED CONSTRUCTIONS
    • E01CONSTRUCTION OF ROADS, RAILWAYS, OR BRIDGES
    • E01DCONSTRUCTION OF BRIDGES, ELEVATED ROADWAYS OR VIADUCTS; ASSEMBLY OF BRIDGES
    • E01D15/00Movable or portable bridges; Floating bridges
    • E01D15/12Portable or sectional bridges
    • E01D15/124Folding or telescopic bridges; Bridges built up from folding or telescopic sections

Definitions

  • the invention relates to a collapsible bridge according to the preamble of claim 1.
  • a dismountable bridge which consists of several interconnectable bridge elements.
  • the bridge elements contain one or more road plates, lower chords and struts. This bridge forms the preamble of claim 1.
  • the bridge elements are designed either as central elements with a horizontally running lane or as ramp elements with an inclined lane. Ramp elements cannot be used as central elements, so that a relatively large number of parts must be carried when transporting the bridge.
  • the object of the invention is to propose a bridge, in particular for military purposes, which requires as few vehicles as possible and which is variable in its length
  • a framework of struts and lower chords is provided with which the height of the individual bridge elements can be adjusted - symmetrically - so that the carriageway and lower chord run parallel, or asymmetrically so that the carriageway does not run parallel to the lower chord.
  • This allows bridges to be produced in which the roadway and the lower flange or one of both components takes an arcuate shape, so that the bridge is higher in the middle than at its ends.
  • the road plates form an arch and the lower chords form the associated tendon.
  • the bridge Due to the adjustable height, the bridge can be adapted to the torque curve.
  • the design of the bridge elements according to the invention means that the lower flange and the diagonal struts can be folded together during transport in a very small space.
  • the light weight and the small transport dimensions allow the total length of approx. 40 meters to be transported with one vehicle in the case of an armored bridge. Since all bridge sections are the same and on one vehicle, the building and laying of different bridge lengths can be easily automated.
  • the lengths of the roadway and / or lower flange of the bridge elements are variable, which results in a variable height and / or a variable slope from lower flange to roadway.
  • This can e.g. by means of telescopic and lockable components (roadway plates, struts, and / or lower chords) or by components which have coupling points at their ends at different distances.
  • the diagonal struts and / or the lower chords are telescopic. You can e.g. be equipped with internal, arc-shaped grooves and projections so that unlocking takes place by turning the two halves. After pulling apart or pushing together, the carrier can be locked in a different length by turning it into another groove.
  • An embodiment optimized in terms of weight has two roadway plates, two lower chords and eight diagonal struts per bridge element, which are each arranged between the ends of the roadway plates and the center of the lower chords.
  • the diagonal struts and the lower chords can be accommodated inside.
  • two roadway plates are used per bridge element, which are connected to one another by cross members.
  • cross members it is equally possible to provide a wider carriageway slab instead of the two carriageway slabs, which takes up both lanes. This is beneficial for mechanical installation when the portability of the individual parts is not important.
  • the bridge has a particularly favorable ratio of load-bearing capacity to weight if its height-to-length ratio is in the range from 1:10 to 1:30, preferably 1:20.
  • Such a bridge has a sufficient load-bearing capacity (MLC 60).
  • a laying vehicle e.g. a wheeled vehicle or installation tank which is suitable for laying the bridge according to the invention has an extendable laying beam with a foot that improves the tipping moment of the entire vehicle, a height-adjustable support in the vehicle with one or more rollers on which the laying beam can be moved, and one Sledge that can be raised and tilted to accommodate the bridge elements.
  • FIG. 1 shows four possible bridges, each consisting of one or more bridge elements B.
  • Each bridge element B consists of two carriageway slabs F, two lower chords U and several diagonal struts D.
  • the bridges shown here vary in length from 6.5 to 27 meters.
  • the truss-like structure according to the invention in which e.g. the roadway plates F form an arch and the lower chords U form an associated chord.
  • Figure 2 shows bridges according to the invention with a length of 33.5 and 40 meters.
  • Figure 3 shows a bridge element B. It consists of two roadway plates F, two lower chords U and eight diagonal struts D. Exemplary dimensions are given.
  • the cross section through a bridge element B according to the invention the cross member Q can be seen, which connects the two roadway plates F to one another.
  • the diagonal struts D and the lower flange U could be sunk into the roadway plate F for space-saving transport.
  • the pavement slab F has a U-shaped cross section. Other arrangements of the diagonal struts or struts that are approximately perpendicular to the roadway plate are also possible but not shown.
  • the curvature of the bridge according to the invention can also be achieved via its length adjustment.
  • FIG. 4 shows an embodiment of a diagonal strut D consisting of two parts which can be moved relative to one another.
  • the strut can be changed in length from 3.1 to 3.8 meters.
  • the length change and locking takes place with the aid of projections V and grooves N, which can be brought into engagement with one another.
  • the projections V and grooves N are of arcuate design here, as shown in FIG. 4 at the bottom left.
  • Figure 5 shows two possible ramps R and R '.
  • the ramp R shown above is rigid and has a slightly lower weight than the pivotable ramp R 'shown below.
  • the ramps R and R ' interact with the carriageway slabs F and the lower chords U. Exemplary dimensions for the swivel angle can be found in the figure.
  • FIG. 6 shows an armored personnel carrier VP with 46 meter bridge.
  • the bridge is mounted in the form of its bridge elements B on a slide SL.
  • the carriage has a lifting and pivoting device. Its movement possibilities are shown in the bottom right of FIG. 6.
  • the installation armor VP has an installation beam VB, with a foot, with which the tilting moment of the installation armor VP can be increased considerably. This makes it possible to lay up to 46 meters of bridge in the free porch.
  • the installation armor VP also has in its middle part an up and down movable support ST which carries a roller on its top on which the installation beam can be moved.
  • Figure 7 shows the laying process with the laying armor VP.
  • the bridge elements B are moved backwards with the slide SL and the laying beam VB is extended forward with the foot.
  • the slide is tilted so that the bridge elements B can be brought to their intended height by extending the diagonal struts and the lower chords.
  • the laying process is shown in an advanced stage.
  • the finished bridge elements B are then coupled together on the laying vehicle VP and pushed over the laying beam VB over the Hindemis. Exemplary information for the space requirement on the bank can be found in FIG. 7 below.
  • Figure 8 shows various bridge combinations that a single laying vehicle can choose to lay. Either 4 x 13 meter long bridges or 2 x 24 meter long bridges or two 13 meter long and one 24 meter long bridge or one 35 meter long and one 13 meter long bridge or a 46 meter long bridge can be laid.
  • FIG. 9 shows three types of bridges that can be built from the bridge elements B according to the invention.
  • the carriageway formed by the carriageway slabs F
  • the lower chord formed by the lower chords U
  • Struts are not shown in this figure.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Bridges Or Land Bridges (AREA)

Description

Die Erfindung betrifft eine zerlegbare Brücke nach dem Oberbegriff des Anspruchs 1.The invention relates to a collapsible bridge according to the preamble of claim 1.

Aus der DE-C-3138853 (EP-A-0075671) ist eine zerlegbare Brücke bekannt, die aus zusammenkuppelbaren Brückenelementen gleicher Höhe besteht. Diese Brücke kann sehr schnell aufgebaut werden. Zum Transport einer 40 Meterbrücke sind aber immer noch mehrere Fahrzeuge notwendig.From DE-C-3138853 (EP-A-0075671) a dismountable bridge is known which consists of interconnectable bridge elements of the same height. This bridge can be built very quickly. However, several vehicles are still required to transport a 40-meter bridge.

Aus der GB-A-2155979 ist eine zerlegbare Brücke bekannt, die aus mehreren zusammenkuppelbaren Brückenelementen besteht. Die Brückenelemente enthalten eine oder mehrere Fahrbahnplatten, Untergurte und Streben. Diese Brücke bildet den Oberbegriff des Anspruchs 1. Die Brückenelemente sind entweder als Zentralelemente mit horizontal verlaufender Fahrbahn oder als Rampenelemente mit geneigt verlaufender Fahrbahn ausgelegt. Rampenelemente können nicht als Zentralelemente verwendet werden, so daß beim Transport der Brücke relativ viele Teile mitzuführen sind.From GB-A-2155979 a dismountable bridge is known, which consists of several interconnectable bridge elements. The bridge elements contain one or more road plates, lower chords and struts. This bridge forms the preamble of claim 1. The bridge elements are designed either as central elements with a horizontally running lane or as ramp elements with an inclined lane. Ramp elements cannot be used as central elements, so that a relatively large number of parts must be carried when transporting the bridge.

Aufgabe der Erfindung ist es, eine Brücke, insbesondere für militärische Zwecke, vorzugschlagen, die möglichst wenige Fahrzeuge benötigt und in ihrer Länge variabel aufstellbar istThe object of the invention is to propose a bridge, in particular for military purposes, which requires as few vehicles as possible and which is variable in its length

Diese Aufgabe wird erfindungsgemäß gelöst von einer Brücke mit den Merkmalen des Anspruchs 1. Ausführungen der Erfindung und ein Verlegefahrzeug mit dieser Brücke sind Gegenstände von Ansprüchen 2 bis 10.This object is achieved according to the invention by a bridge with the features of claim 1. Embodiments of the invention and a laying vehicle with this bridge are the subject of claims 2 to 10.

Erfindungsgemäß ist ein Fachwerk aus Streben und Untergurten vorgesehen, mit dem sich die einzelnen Brückenelemente in ihrer Höhe verstellen lassen - symmetrisch -, so daß Fahrbahn und Untergurt parallel verlaufen, oder unsymmetrisch, so daß die Fahrbahn nicht parallel zum Untergurt verläuft. Damit lassen sich Brücken herstellen, bei denen die Fahrbahn und der Untergurt oder eines beider Bauelemente einen bogenförmigen Vertauf nimmt, sodaß die Brücke in ihrer Mitte höher ist als an ihren Enden. So können z.B. die Fahrbahnplatten einen Bogen und die Untergurte die dazugehörende Sehne bilden. Durch die verstellbare Höhe kann die Brücke dem Momentenverlauf angepaßt werden. Die erfindungsgemäße Gestaltung der Brückenelemente führt dazu, daß der Untergurt und die Diagonalstreben beim Transport auf sehr kleinen Raum zusammengefaltet werden können. Das geringe Gewicht und die kleinen Transportabmessungen erlauben im Fall einer Panzerbrücke die Gesamtlänge von ca. 40 Metern mit einem Fahrzeug zu transportieren. Da alle Brückenabschnitte gleich und auf einem Fahrzeug sind, läßt sich das Bauen und Verlegen von verschiedenen Brückenlängen gut automatisieren.According to the invention, a framework of struts and lower chords is provided with which the height of the individual bridge elements can be adjusted - symmetrically - so that the carriageway and lower chord run parallel, or asymmetrically so that the carriageway does not run parallel to the lower chord. This allows bridges to be produced in which the roadway and the lower flange or one of both components takes an arcuate shape, so that the bridge is higher in the middle than at its ends. For example, the road plates form an arch and the lower chords form the associated tendon. Due to the adjustable height, the bridge can be adapted to the torque curve. The design of the bridge elements according to the invention means that the lower flange and the diagonal struts can be folded together during transport in a very small space. The light weight and the small transport dimensions allow the total length of approx. 40 meters to be transported with one vehicle in the case of an armored bridge. Since all bridge sections are the same and on one vehicle, the building and laying of different bridge lengths can be easily automated.

Die erfindungsgemäße Brücke hat folgende Vorteile :

  • - wenig und kleine Ersatzteile
  • - wenig Windangriffsfläche
  • - wenig Beschußfläche
  • - große Variabilität, d.h., es können entwedereine sehr lange oder mehrere kurze Brücken gleichzeitig von einem Fahrzeug gebaut werden
  • - bis 45 Meter kein Vorbauträger nötig
  • - geringes Gewicht
  • -geringes Transportvolumen
  • - bessere Brückensicht des Panzerfahrers bei Anfahrt auf die Brücke
  • -Teile können von Hand ausgewechselt werden und auch als Ersatz mitgeführt werden (in einem Beispiel wiegt das Teleskop 56 kg, ein Untergurtabschnitt 150 kg, eine Kupplung 50 kg und eine Rampe 200 kg)
  • - höhere Eigenfrequenz dank steifer und kleinerer Masse
  • - bei Ausfall eines Brückenteils nur Reduzierung der Gesamtlänge und kein Ausfall des Gesamtsystems
  • -offene Struktur, wodurch Sicht zu Kupplungsstellen und anderen kritischen Stellen frei ist
  • - kein Aufrüsten hinter der Front, da alle Elemente austauschbar sind
  • - keine taktische Einschränkung (Entscheidung am Ziel über Brückenlänge).
The bridge according to the invention has the following advantages:
  • - little and small spare parts
  • - little wind exposure area
  • - little bombardment area
  • - great variability, ie either a very long or several short bridges can be built simultaneously by one vehicle
  • - up to 45 meters no stem carrier necessary
  • - light weight
  • - low transport volume
  • - better view of the bridge tanks f ahrers when coming to the bridge
  • - Parts can be replaced by hand and can also be carried as a replacement (in one example the telescope weighs 56 kg, a lower belt section 150 kg, a coupling 50 kg and a ramp 200 kg)
  • - higher natural frequency thanks to stiffer and smaller mass
  • - in the event of failure of a bridge part, only a reduction in the overall length and no failure of the overall system
  • - Open structure, which gives a clear view of coupling points and other critical points
  • - No upgrading behind the front, as all elements are interchangeable
  • - no tactical restriction (decision at the destination about bridge length).

Wesentlich für die Erfindung ist, daß die Längen von Fahrbahn und/oder Untergurt der Brückenelemente variabel sind, woraus sich eine veränderliche Höhe undloder eine veränderbare Steigung von Untergurt zu Fahrbahn ergeben. Dies kann z.B. durch teleskopierbare und feststellbare Bauelemente (Fahrbahnplatten, Streben, und/oder Untergurte) oder durch Bauelemente erfolgen, die an ihren Enden in verschiedenen Abständen Koppelstellen aufweisen. In einer bevorzugten Ausführungsform sind die Diagonalstreben und/oder die Untergurte teleskopierbar. Sie können z.B. mit innenliegenden, bogenförmigen Nuten und Vorsprüngen ausgerüstet sein, sodaß durch Verdrehen der beiden Hälften eine Entriegelung erfolgt. Nach dem Auseinanderziehen oder Zusammenschieben kann der Träger in einer anderen Länge durch Verdrehen in eine andere Nut wieder verriegelt werden.It is essential for the invention that the lengths of the roadway and / or lower flange of the bridge elements are variable, which results in a variable height and / or a variable slope from lower flange to roadway. This can e.g. by means of telescopic and lockable components (roadway plates, struts, and / or lower chords) or by components which have coupling points at their ends at different distances. In a preferred embodiment, the diagonal struts and / or the lower chords are telescopic. You can e.g. be equipped with internal, arc-shaped grooves and projections so that unlocking takes place by turning the two halves. After pulling apart or pushing together, the carrier can be locked in a different length by turning it into another groove.

Eine vom Gewicht her optimierte Ausführungsform weist pro Brückenelement zwei Fahrbahnplatten, zwei Untergurte und acht Diagonalstreben auf, die jeweils zwischen den Enden der Fahrbahnplatten und der Mitte der Untergurte angeordnet sind.An embodiment optimized in terms of weight has two roadway plates, two lower chords and eight diagonal struts per bridge element, which are each arranged between the ends of the roadway plates and the center of the lower chords.

Wenn die Fahrbahnplatten eine U-förmigen Querschnitt haben, können in ihrem Inneren die Diagonalstreben und die Untergurte Platz finden.If the road slabs have a U-shaped cross-section, the diagonal struts and the lower chords can be accommodated inside.

In einer bevorzugten Ausführungsform werden zwei Fahrbahnplatten pro Brückenelement verwendet, die mit Querträgern miteinander verbunden sind. Genauso ist es jedoch möglich, statt der zwei Fahrbahnplatten eine breitere Fahrbahnplatte vorzusehen, die beide Spuren aufnimmt. Dies ist vorteilhaft für eine maschinelle Verlegung, wenn es auf die Tragbarkeit der Einzelteile nicht ankommt.In a preferred embodiment, two roadway plates are used per bridge element, which are connected to one another by cross members. However, it is equally possible to provide a wider carriageway slab instead of the two carriageway slabs, which takes up both lanes. This is beneficial for mechanical installation when the portability of the individual parts is not important.

Die Brücke weist dann ein besonders günstiges Verhältnis von Tragfähigkeit zu Gewicht auf, wenn ihr Höhen-zu Längenverhältnis im Bereich von 1 : 10 bis 1 : 30 liegt, bevorzugt bei 1 : 20 liegt. Eine solche Brücke hat eine ausreichende Tragfähigkeit (MLC 60).The bridge has a particularly favorable ratio of load-bearing capacity to weight if its height-to-length ratio is in the range from 1:10 to 1:30, preferably 1:20. Such a bridge has a sufficient load-bearing capacity (MLC 60).

Ein Verlegefahrzeug, z.B. ein Radfahrzeug oder ein Verlegepanzer, der zum Verlegen der erfindungsgemäßen Brücke geeignet ist, hateinen ausfahrbaren Verlegebalken mit einem Fuß, der das Kippmoment des gesamten Fahrzeugs verbessert, eine im Fahrzeug höhenverstellbare Stütze mit einer oder mehreren Rollen, auf der der Verlegebalken verschiebbar ist, und einen Schlitten, der angehoben und gekippt werden kann zur Aufnahme der Brückenelemente.A laying vehicle, e.g. a wheeled vehicle or installation tank which is suitable for laying the bridge according to the invention has an extendable laying beam with a foot that improves the tipping moment of the entire vehicle, a height-adjustable support in the vehicle with one or more rollers on which the laying beam can be moved, and one Sledge that can be raised and tilted to accommodate the bridge elements.

Die Erfindung wird anhand von 9 Figuren näher erläutert. Es zeigen

  • Figuren 1 und 2 mehrere erfindungsgemäße Brücken
  • Figur 3 den Aufbau eines Brückenabschnitts
  • Figur 4 eine Diagonalstrebe
  • Figur 5 zwei Ausführungen von Rampen
  • Figur 6 einen Verlegepanzer
  • Figur 7 den Verlegevorgang
  • Figur 8 mehrere Brückenkombinationen, die mit einem Verlegefahrzeug verlegt werden können, und
  • Figur 9 3 Brücken unterschiedlicher Krümmungen.
The invention is explained in more detail with reference to 9 figures. Show it
  • Figures 1 and 2 several bridges according to the invention
  • Figure 3 shows the structure of a bridge section
  • Figure 4 shows a diagonal strut
  • Figure 5 shows two versions of ramps
  • FIG. 6 an installation tank
  • Figure 7 shows the laying process
  • Figure 8 shows several bridge combinations that can be installed with a laying vehicle, and
  • Figure 9 3 bridges of different curvatures.

Figur 1 zeigt vier mögliche Brücken, die jeweils aus ein oder mehreren Brückenelementen B bestehen. Jedes Brückenelement B besteht hier aus zwei Fahrbahnplatten F, zwei Untergurten U und mehreren Diagonalstreben D. Die hier gezeigten Brücken variieren in ihrer Länge von 6,5 bis 27 Meter. Deutlich zu erkennen ist der erfindungsgemäße fachwerkartige Aufbau, bei dem z.B. die Fahrbahnplatten F einen Bogen und die Untergurte U eine dazugehörige Sehne bilden.Figure 1 shows four possible bridges, each consisting of one or more bridge elements B. Each bridge element B consists of two carriageway slabs F, two lower chords U and several diagonal struts D. The bridges shown here vary in length from 6.5 to 27 meters. The truss-like structure according to the invention, in which e.g. the roadway plates F form an arch and the lower chords U form an associated chord.

Figur 2 zeigt erfindungsgemäße Brücken der Länge 33,5 und 40 Meter.Figure 2 shows bridges according to the invention with a length of 33.5 and 40 meters.

Figur 3 zeigt ein Brückenelement B. Es besteht aus zwei Fahrbahnplatten F, zwei Untergurten U und acht Diagonalstreben D. Beispielhafte Bemaßungen sind angegeben. Im unteren Teil der Figur 3, dem Querschnitt durch ein erfindungsgegemäßes Brückenelement B ist der Querträger Q zu erkennen, der die beiden Fahrbahnplatten F miteinander verbindet. Die Diagonalstreben D und der Untergurt U könnten für den platzsparenden Transport in die Fahrbahnplatte Fversenktwerden. Die Fahrbahn platte F hateinen U-förmigen Querschnitt. Möglich aber nicht gezeigt sind auch andere Anordnungen der Diagonalstreben oder auch Streben die ungefähr senkrecht zur Fahrbahnplatte stehen. Über deren Längenverstellung kann ebenfalls die erfindungsgemäße Krümmung der Brücke erreicht werden.Figure 3 shows a bridge element B. It consists of two roadway plates F, two lower chords U and eight diagonal struts D. Exemplary dimensions are given. In the lower part of FIG. 3, the cross section through a bridge element B according to the invention, the cross member Q can be seen, which connects the two roadway plates F to one another. The diagonal struts D and the lower flange U could be sunk into the roadway plate F for space-saving transport. The pavement slab F has a U-shaped cross section. Other arrangements of the diagonal struts or struts that are approximately perpendicular to the roadway plate are also possible but not shown. The curvature of the bridge according to the invention can also be achieved via its length adjustment.

Figur 4 zeigt eine Ausführung einer Diagonalstrebe D aus zwei gegeneinander verschiebbaren Teilen. In diesem Beispiel ist die Strebe von 3,1 bis 3,8 Meter längenveränderbar. Die Längenveränderung und Verriegelung erfolgt mit Hilfe von Vorsprüngen V und Nuten N, die miteinander in Eingriff gebracht werden können. Die Vorsprünge V und Nuten N sind hier bogenförmig ausgeführt, wie Figur 4 links unten zeigt. Durch Verdrehen der zwei Teile des Diagonalträgers D können die Vorsprünge aus den Nuten herausgeschoben oder in die Nuten wieder eingerastet werden. Dadurch wird eine einfache Längenveränderung und Verriegelung ermöglicht.FIG. 4 shows an embodiment of a diagonal strut D consisting of two parts which can be moved relative to one another. In this example, the strut can be changed in length from 3.1 to 3.8 meters. The length change and locking takes place with the aid of projections V and grooves N, which can be brought into engagement with one another. The projections V and grooves N are of arcuate design here, as shown in FIG. 4 at the bottom left. By turning the two parts of the diagonal support D, the projections can be pushed out of the grooves or snapped into the grooves again. This enables simple length changes and locking.

Figur 5 zeigt zwei mögliche Rampen R und R'. Die oben gezeigte Rampe R ist starr ausgeführt und hat ein etwas geringeres Gewicht als die unten gezeigte schwenkbare Rampe R'. Die Rampen R und R' wirken jeweils mit den Fahrbahnplatten F und den Untergurten U zusammen. Beispielhafte Maßangaben für die Verschwenkwinkel sind der Figur zu entnehmen.Figure 5 shows two possible ramps R and R '. The ramp R shown above is rigid and has a slightly lower weight than the pivotable ramp R 'shown below. The ramps R and R ' interact with the carriageway slabs F and the lower chords U. Exemplary dimensions for the swivel angle can be found in the figure.

Figur 6 zeigt einen Verlegepanzer VP mit 46 Meter Brücke. Die Brücke ist in Form ihrer Brückenelemente B auf einem Schlitten SL gelagert. Der Schlitten weist eine Hebe- und Verschwenkeinrichtung auf. Seine Bewegungsmöglichkeiten sind in der Figur 6 unten rechts angegeben. Der Verlegepanzer VP hat einen Verlegebalken VB, mit einem Fuß, mit dem das Kippmoment des Verlegepanzers VP erheblich erhöht werden kann. Damit ist es möglich,bis zu 46 Meter Brücke im freien Vorbau zu verlegen. Der Verlegepanzer VP weist weiterhin in seinem Mittelteil eine nach oben und unten verschiebbare Stütze ST auf, die an ihrer Oberseite eine Rolle trägt, auf der der Verlegebalken verschoben werden kann.Figure 6 shows an armored personnel carrier VP with 46 meter bridge. The bridge is mounted in the form of its bridge elements B on a slide SL. The carriage has a lifting and pivoting device. Its movement possibilities are shown in the bottom right of FIG. 6. The installation armor VP has an installation beam VB, with a foot, with which the tilting moment of the installation armor VP can be increased considerably. This makes it possible to lay up to 46 meters of bridge in the free porch. The installation armor VP also has in its middle part an up and down movable support ST which carries a roller on its top on which the installation beam can be moved.

Figur 7 zeigt den Verlegevorgang mit dem Verlegepanzer VP. Als erstes werden die Brückenelemente B mit dem Schlitten SL nach hinten verfahren und der Verlegebalken VB mit dem Fuß nach vorne ausgefahren. Im nächsten Schritt wird der Schlitten gekippt, sodaß die Brückenelemente B durch Ausfahren der Diagonalstreben und der Untergurte auf ihre vorgesehene Höhe gebracht werden können. Im untersten Bild ist der Verlegevorgang in einem fortgeschrittenen Stadium gezeigt. Die fertigen Brückeneiemente B werden dann noch auf dem Verlegefahrzeug VP aneinandergekoppelt und über den Verlegebalken VB über das Hindemis geschoben. Beispielhafte Angaben für den Platzbedarf am Ufer sind der Figur 7 unten zu entnehmen.Figure 7 shows the laying process with the laying armor VP. First, the bridge elements B are moved backwards with the slide SL and the laying beam VB is extended forward with the foot. In the next step, the slide is tilted so that the bridge elements B can be brought to their intended height by extending the diagonal struts and the lower chords. In the bottom picture the laying process is shown in an advanced stage. The finished bridge elements B are then coupled together on the laying vehicle VP and pushed over the laying beam VB over the Hindemis. Exemplary information for the space requirement on the bank can be found in FIG. 7 below.

Figur 8 zeigt verschiedene Brückenkombinationen, die ein einziges Verlegefahrzeug wahlweise verlegen kann. Es können entweder 4 x 13 Meter lange Brücken oder 2 x 24 Meter lange Brücken oder zwei 13 Meter lange und eine 24 Meter lange Brücke oder eine 35 Meter lange und eine 13 Meter lange Brücke oder eine 46 Meter lange Brücke verlegt werden.Figure 8 shows various bridge combinations that a single laying vehicle can choose to lay. Either 4 x 13 meter long bridges or 2 x 24 meter long bridges or two 13 meter long and one 24 meter long bridge or one 35 meter long and one 13 meter long bridge or a 46 meter long bridge can be laid.

Figur 9 zeigt drei Brückentypen, die aus den erfindungsgemäßen Brückenelementen B gebaut werden können. Im oberen Teil ist die Fahrbahn, gebildet durch die Fahrbbahnplatten F, eben und der Untergurt, gebildet durch die Untergurte U, gekrümmt. Im mittleren Teil der Figur ist die Fahrbahn gekrümmt, die Untergurte verlaufen gerade. Im unteren Teil sind die Fahrbahn und die Untergurte gekrümmt. Abstrebungen sind in dieser Figur nicht gezeichnet.FIG. 9 shows three types of bridges that can be built from the bridge elements B according to the invention. In the upper part, the carriageway, formed by the carriageway slabs F, is level and the lower chord, formed by the lower chords U, is curved. In the middle part of the figure the road is curved, the lower chords are straight. In the lower part, the road and the lower chords are curved. Struts are not shown in this figure.

Claims (10)

1. Bridge, which can be dismantled, in particular for military purposes, having several bridge elements (B) which can be coupled together, wherein the bridge elements (B) include one or more track plates (F), girths (U) and struts (diagonal struts D), characterised in that the height of the bridge elements (B) is adjustable.
2. Bridge according to claim 1, characterised in that the track plates (F) form an arc and the girths (U) form the associated chord or that the girths (U) form the arc and the track plates (F) form the chord or that the girths (U) and the track plates (F) both extend in a curved manner.
3. Bridge according to claim 1 or claim 2, characterised by diagonal struts (D) and girths (U) which can be telescoped and secured.
4. Bridge according to claim 3, characterised in that the diagonal struts (D) include arc-shaped projections M which are engageable in oppositely disposed arc-shaped grooves (N).
5. Bridge according to claim 1 or claim 2, characterised by diagonal struts and/or girths, which include coupling points at different distances.
6. Bridge according to claim 3 or 4, characterised in that each bridge element (B) includes 2 track plates (F), 2 girths (U) and eight diagonal struts (D) which are connected in a hinged manner between the ends of the track plates (F) and the centre of the girths (U) in each case.
7. Bridge according to claim 6, characterised by crossbeams (Q) between the track plates (F).
8. Bridge according to claim 1 or claim 2, characterised in that the ratio between height and length of the bridge lies within the range of 1 10 to 1 : 30, preferably 1 : 20.
9. Bridge according to claim 1 or claim 2, characterised by track plates the length of which can be varied.
10. Laying vehicle (laying tank VP) with a bridge of any one of the preceding claims, an extendable laying beam (VB) with base, a support (ST) with rollers the height of which support can be adjusted in the vehicle and a slide (SL) which can be lifted and tilted for receiving the bridge elements (B).
EP89103833A 1988-04-29 1989-03-04 Bridge Expired - Lifetime EP0340409B2 (en)

Applications Claiming Priority (2)

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DE3814502A DE3814502C3 (en) 1988-04-29 1988-04-29 bridge
DE3814502 1988-04-29

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EP0340409A1 EP0340409A1 (en) 1989-11-08
EP0340409B1 true EP0340409B1 (en) 1991-12-27
EP0340409B2 EP0340409B2 (en) 1995-12-27

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DE (1) DE3814502C3 (en)

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Also Published As

Publication number Publication date
US5042101A (en) 1991-08-27
EP0340409A1 (en) 1989-11-08
DE3814502C3 (en) 1995-08-03
DE3814502C2 (en) 1991-12-12
EP0340409B2 (en) 1995-12-27
DE3814502A1 (en) 1989-11-09

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