DE202006016148U1 - Pontoon Bridge - Google Patents

Abstract

Pontoon bridge with from at least one single pontoon, preferably two or more with interconnected individual pontoons for crossing a waterway, characterized in that near the shore of a waterway as Rotary axis for a pontoon body (55) anchoring standpipe (8) is anchored around which the pontoon body (55) can be swung on the water, thus the waterway for watercraft is usable.

Description

The The invention relates to a pontoon bridge with at least one Single pontoon, preferably two or more interconnected Single pontoons to cross a body of water.

At waterways with low headroom Often there is a need to pass through large bridges moving bridges to ensure. These moving bridges can be realized according to different design principles. They are e.g. Swing bridges known, with its vertical axis of rotation, the passage width of the water constrict. Multi-part hinged bridges have in contrast the advantage that the passage width is slightly larger than in rotary bridges; the technical effort for the production and operation of these bridges is but much larger.

In the DE 22 18 625 described bascule bridge consists of two bridge sections, of which the first is pivotable about a arranged on a first support fixed horizontal axis. The second bridge section, which can be lifted off its support, is connected to the first bridge section by means of a hinge connection. The Be special feature of this solution is that the second bridge portion is constrained hinged to the first bridge section so that it assumes an approximately horizontal position in each position of the bridge. This is achieved in that the first bridge section is formed as part of a Parallelogrammlenklers for the positively driven second bridge section. Thus, no additional drives are necessary for the movement of the second bridge section.

adversely for the Use on a waterway is the arrangement of parts of the mechanism below the floor, i. under the waterline. Besides that is the very complex construction very maintenance-intensive and thus also very expensive.

In the field of defense technology, so-called scissors bridges with a bridge length of up to 12 meters are also used for the deployment of two bridge sections ( DE 39 32 742 A1 ), which consist of a hoist rope and at least one Entfaltseil. However, the Entfaltseil is quite expensive guided over a variety of pulleys, requires additional facilities for overload protection and, since it runs in the vicinity of the bridge girder, would be protected in civilian use of this principle and thus difficult to control laid.

From the DE 10 15 834 is a Pontonbrückenkonstruktion known in which the joints of individual bridge members as required in pairs or in their entirety can be rigidly connected together. In order to carry out the coupling easily, it is expedient the Auflagerung of the individual members at or close to the connecting joints, on so-called. Lifting blocks, which are each arranged on a pontoon or on a multi-pontoons existing floating body and driven. This solution is unsuitable for the crossing of waterways used by ships, since the creation of a transit passage is very time-consuming and therefore expensive.

Of the Invention is therefore an object of the invention to provide a pontoon bridge, with whose help it is possible is to clear a waterway for a ship in a short time, and on the other hand pedestrians and Vehicles that want to cross the waterway, do not wait too long allow.

Is solved this task in that near the shore of a waterway as Rotary axis for one Ponto body Serving standpipe is anchored to the pontoon body the water can be swung.

The Pivoting movement takes place after loosening a lock on the Ufersteg by means of a propeller drive arranged under the waterline on the pontoon body, wherein the direction of rotation of the screw are reversed depending on the pivoting direction can. This can be done in a conventional manner by a reversing gear or by using an electric motor by electrical switching of the Direction of rotation.

In the case, that the water level of the waterway changes, the storage is like that executed that the pontoon body can slide up or down on the standpipe.

For the crossing of wider waterways may be a pontoon body is not enough, so that a way must be created to connect two or more pontoon body together. Thus, it is conceivable to provide vertical guides on the front and the long sides of a pontoon body into which correspondingly profiled coupling elements can be inserted. For this purpose, it is necessary to align the two pontoon body to be connected and first to connect by means of ropes with each other. After fixing the pontoon body of the coupling carrier is inserted into the guides with the aid of a hoist. In the support plate, a cruciform opening is provided. In one axis of the fully retractable lifting device is guided, which can be raised with a rod inserted into the transverse slot and hooked into the hook of a hoist. Because the welded to the lifting device support bolt has the same length as the support plate, a Slipping through the cross slot avoided.

Based which shows the principle of a pontoon bridge Drawings to illustrate the invention explained become. It shows:

1A a perspective view of a single pontoon body with laterally welded guide tube;

1B a perspective view of a single pontoon body with inserted into the guide tube guide;

2A a plan view of a waterway and the closed abutting a stop pontoon bridge;

2 B a plan view of a waterway and the closed pontoon bridge adjacent to a route connection;

3 a plan view of a waterway and the open pontoon bridge;

4 a partial section through the near-shore area with the anchoring of the standpipe;

5 a side view of the front free part of the pontoon body;

6 a plan view of a guide tube 1B ;

7 a cross section through an inserted guide tube;

8th a perspective view of a coupling part;

9 a coupling part in Aushebestellung;

10 a coupling part in the retracted position.

On a pontoon body for a pontoon bridge ( 1 ) as he is in 1A is shown on the long sides ( 3 ) of the pontoon body guide slots ( 6 . 6 ' ) and guided tours ( 7 . 7 ' . 7 '' . 7 ''' . 7.2 . 7.3 . 7.4 . 7.5 ) intended. In the field of guides ( 7 ; 7 '; 7 ''; 7 '''; 7.2 ; 7.3 ; 7.4 ; 7.5 ) is the deck ( 2 ) about the thickness of the support plate ( 9 ) discontinued. The size of this remote area ( 5 ; 5 '; 5 ''; 5 '''; 5.2 ; 5.3 ; 5.4 ; 5.5 ) also corresponds to the size of the half support plate ( 32 ) of the pontoon coupling. Of course, also on the opposite longitudinal side of the pontoon body guide and guides are possible to couple several single-pontoon body together. Bollards or recessed eyelets for fixing ropes may be provided on the deck. On one longitudinal side - preferably in the corner - is a guide tube ( 23 . 23 ' ) (for example, by a welded joint), the inner diameter of the outer diameter of the standpipe ( 8th ) corresponds. On this standpipe ( 8th ), the pontoon body and thus the pontoon bridge ( 1 ) move up or down depending on the tide stroke.

At the in 1B The solution described in the guide ( 7 ) of a standard pontoon a guide tube ( 23 ) introduced. Here is on the guide tube ( 23 ) in the axial direction a bar ( 26 welded), at which then the T-guide bar ( 17 ), which ensures safe guidance in the guidance ( 7 ; 7 '; 7 ''; 7 '''; 7.2 ; 7.3 ; 7.4 ; 7.5 ). This guide tube ( 23 ) Is secured by means of a lock, not shown here against unintentional displacement.

2A 2 B show a schematic representation of a plan view of a transversal by means of a pontoon bridge waterway. This waterway is from the banks of the river ( 11 . 12 ) limited. On these bank slopes ( 11 . 12 ) are accessible ( 14 ) and path connection ( 13 ) intended. Near the shore of the Zuweges ( 14 ) is the standpipe ( 8th ) in the bottom of the waterway in a solid foundation ( 20 ) attached. About this standpipe ( 8th ) is the guide tube ( 23 . 23 ' ), which is either welded to the pontoon body - as described - or which in the leadership ( 7 ) of a pontoon body is inserted and locked.

Depending on the width of the waterway to be crossed, it may be necessary to connect several pontoon bodies by means of couplings. In the drawing - for better understanding - two pontoon bodies ( 55 . 56 ) connected with each other. Here are in the guides ( 7 . 7 ' . 7 '' . 7 ''' ) the pontoon body ( 55 . 56 ) Coupling carrier ( 48 ), which will be described in detail later in the text. By means of such coupling carrier ( 48 ) can not only different lengths, but also different width pontoon bridges ( 1 ) be built in no time.

In order to avoid overwinding and damage to the embankment ( 11 ) when swinging the pontoon bridge ( 1 ) is at or in the embankment ( 12 ) an attack ( 30 ), against which the pontoon body ( 56 ) strikes. Another solution of Einschwenkbegrenzung shows 2 B ; here the path connection projects into the river bed, so that the pontoon bridge ( 1 ) directly at the path connection ( 30 ' ) is present. In this case, passersby leave the pontoon bridge ( 1 ) transverse to the longitudinal direction of the bridge.

It is conceivable that the single pontoon bodies are made in different lengths so that they can be assembled at the site of the width of the waterway accordingly.

Also shows 2 B in that on one longitudinal side an outboard motor ( 4 ) is inserted in one of the guides on the pontoon body. Here, the outboard motor ( 4 ) preferably on a strip ( 26 ) fastened with a T-guide strip ( 17 ) connected is. This device is then in the same way as the guide tube ( 23 ' ) are inserted into the guide in the pontoon body.

3 in a plan view of the waterway and the pontoon bridge ( 1 ) the bridge in open condition, ie now ships can pass this place. Here, the pontoon bridge ( 1 ) by means of the guide tube ( 23 . 23 ' ) around the standpipe ( 8th ) panned. The type of connection of the two pontoon bodies ( 55 . 56 ) was under 2 described in more detail, so that a repetition does not make sense.

In 4 is a sectional view of the anchoring of the standpipe ( 8th ) in the standpipe foundation ( 20 ). Here is the standpipe ( 8th ) through the slope ( 16 ) in the standpipe foundation ( 20 ) used. The reason of the waterway is with number ( 15 ). To ensure a safe transition from the 14 ) on the pontoon body ( 55 ) is between the base ( 21 ) of the access road ( 14 ) an overpass ( 19 ), which compensates for any tidal height differences.

How out 5 can be seen in the front area of the pontoon body ( 56 ) a propeller drive ( 54 ), which ensures the required feed of the pontoon bridge. Built-in is this propeller ( 54 ) in a protective tube ( 53 ) to protect it against damage. This drive can be manually removed from the pontoon bridge ( 1 ) can be switched off, it can of course be operated by means of a remote control.

If only standard pontoon bodies are to be used for a waterway crossing, it is of course also possible to use the pontoon bridge ( 1 ) by means of an outboard engine ( 4 ) to drive. If there is a power connection in the area of the waterway crossing, an electric drive for the propeller ( 54 ) conceivable.

All Drive types allow a forward and a reverse drive to.

In the 6 shown top view of the in the coupling guide ( 7 ) inserted guide tube ( 23 ) clearly shows that the support plate ( 9 ) the support ribs ( 25 . 25 ' ) and the supporting walls ( 10 . 10 ' ) wearing. In the supporting ribs ( 25 . 25 ' ) are openings ( 24 . 24 ' ) provided for a lifting device, so that the guide tube ( 23 ) easily in the leadership ( 7 ) can be used or pulled out. In addition, in this illustration, the centering pieces ( 18 ), which reduce the friction between standpipe and standpipe guide.

7 shows a cross section through the guide tube ( 23 ) according to 1B , where T-guide strip ( 17 ) and bar ( 26 ) in the guide groove ( 6 ) or the leadership ( 7 ) slide.

If now two pontoon bridge body not shown here are to be connected to each other, they are brought alongside each other and moored first. When the two pontoon body are rich tet, is using a hoist, not shown here, the coupling carrier ( 48 ) in the guides ( 7 . 7 '; 7.2 ; 7.3 ). In the support plate ( 32 ) is a cruciform opening ( 47 ) intended. In one of its axes is the fully retractable lifting device ( 31 ), which can be raised with a rod inserted into the transverse slot (not shown here) and hooked into the hook of a hoist. The fact that the at the lifting device ( 31 ) welded support bolts ( 31 ' ) has the same length as the support plate ( 32 ), slipping through the cross slot ( 47 ) avoided.

At the bottom of the support plate ( 32 ) is the V-shaped guide element ( 33 ) welded into the support plates ( 38 . 38 ' ) passes over. In the support plates ( 38 . 38 ' ) are long holes ( 40 . 40 ' ), in which the bolt ( 41 ) to be led.

In the coupling carrier ( 48 ) is a hole ( 22 ), in which the bolt ( 41 ) is rotatably mounted. This bolt ( 41 ) also serves the latch plates ( 36 . 42 ) over the supporting cheeks ( 39 . 39 ' . 45 . 45 ' ) as a fulcrum. On the latch plates ( 36 . 42 ) are in the upper region of the V-shaped guide element ( 33 ) Hanger ( 37 . 49 ) intended. Due to the lifting of the support plate ( 32 ) and thus the guide element ( 33 ) and the support plates welded thereto ( 38 . 38 ' ) the brackets slide ( 37 . 49 ) in the guide element ( 33 ) and thus pivot the latch plates ( 36 . 42 ) inwardly into a position which allows passage through the opening of the coupling shaft. Only when the latch plates ( 36 . 42 ) are pivoted, the bolt ( 41 ) in the bottom of the oblong holes ( 40 . 40 ' ), that is, the coupling carrier ( 48 ) can leave the leadership ( 7 ) are lifted out.

How out 9 can be seen, there is no interfering projections on the deck with inserted coupling element, so that not only reduces the risk of accidents, but also a smooth bearing surface for goods to be transported is created. During the insertion of the support plate ( 32 ) and thus of the V-shaped guide element ( 33 ) the hangers ( 37 . 49 ) and thus the latch plates ( 36 . 42 ) pressed apart. In the end position, the latch plates ( 36 . 42 ) below the cover plates ( 34 . 44 ) of the pontoons ( 55 . 56 ) and behind the front edge of the cover plates ( 34 . 44 ), so as to prevent movement of the coupling carrier ( 48 ) in the vertical direction. The side wall ( 35 . 43 ) is about the pivoting range of the latch plates ( 36 . 42 ) in order to ensure a good installation of the locking plates ( 36 . 42 ).

The length of the oblong holes ( 40 . 40 ' ) in the support plates ( 38 . 38 ' ) is dimensioned so that - before the coupling carrier ( 48 ) - it is ensured that the latch plates ( 36 . 42 ) are folded up and thus have a cross-section which is smaller than the passage area for the coupling carrier.

Although it is not directly apparent from the figures that the floating pontoon bodies ( 55 . 56 ) are very close to each other, it should be apparent to those skilled in the art without difficulty that - neglecting the tolerances required in shipbuilding - virtually no gap between the pontoon bodies arises. Only to the support plate ( 32 ) results in a small gap, since - as described - in this depression and the support plate ( 9 ) of the guide tube ( 23 ) must fit.

For a better understanding of the function of the coupling element have been in 8th the latch plate ( 36 ) and the pontoon deck or side walls omitted. Only one guide ( 7 ) is indicated.

1

Pontoon Bridge

2

deck

3

Side wall

4

Outboard engine

5; 5 '; 5 ''; 5 '' '; 5.2; 5.3; 5.4; 5.5

deck depression

6 6 '

guide slot

7; 7 '; 7 ''; 7 '' '; 7.2; 7.3; 7.4; 7.5

guide

8th

standpipe

9

platen

10 10 '

retaining wall

11

embankment

12

embankment

13

Weganschluss

14

feeder path

15

reason of the waterway

16

sloping design

17

T-guide bar

18 18 '

centering

19

crossing

20

Standpipe foundation

21

base for access

22

23 23 '

guide tube

24 24 '

openings for lifting device

25 25 '

support ribs

26

strip

27

28

29

30 30 '

attack

31

lifter

31 '

support bolts

32

support plate

33

guide element

34

cover plate

35

tailboard

36

locking plate

37

hanger

38 38 '

carrying plates

39, 39 '

support stanchions

40 40 '

slots

41

bolt

42

locking plate

43

tailboard

44

cover plate

45, 45 '

supporting side

46

47

cruciform opening

48

coupling support

49

hanger

50

51

52

drilling

53

thermowell

54

propeller

55

pontoon I

56

pontoon II

Claims (15)

Ponton bridge with at least one individual pontoon, preferably two or more interconnected individual pontoons for crossing a waterway, characterized in that near the shore of a waterway as a rotation axis for a pontoon body ( 55 ) serving standpipe ( 8th ) is anchored to the pontoon body ( 55 ) can be swung on the water, so that the waterway is usable for watercraft. Pontoon bridge according to claim 1, characterized in that on the pontoon body ( 55 ) a guide tube ( 23 ) is attached. Pontoon bridge according to claim 2, characterized in that the guide tube ( 23 ) on the pontoon body ( 55 ) is secured by a welded joint. Pontoon bridge according to claim 2, characterized in that the guide tube ( 23 ) by means of guide rails ( 17 ) in guided tours ( 7 ) of the pontoon body ( 55 ) is stored and fixed. Pontoon bridge according to claim 1, characterized in that one or more pontoon bodies pass through guides ( 7 ) used connection couplings can be connected to each other. Pontoon bridge according to one or more of the preceding claims, characterized in that on the coupling carrier ( 48 ) two via a with a movable lifting device ( 31 . 31 ' ) connected support plate ( 32 ) movable around a bolt ( 41 ) pivotable latch plates ( 36 . 42 ) are provided. Pontoon bridge according to one or more of the preceding claims, characterized in that the locking plates ( 36 . 42 ) by the V-shaped on the support plate ( 32 ) fastened guide element are pivoted into the locking position. Pontoon bridge according to claim 4, characterized in that on the guide tube ( 23 ) one in the leadership ( 7 ) plug-in T-guide rail ( 17 ) is provided. Pontoon bridge according to one or more of the preceding claims, characterized in that in the guide tube ( 23 ) Centering pieces ( 18 . 18 ' ) for centering the standpipe ( 8th ) are mounted. Pontoon bridge according to one or more of the preceding claims, characterized in that on the guide tube ( 23 ) Are provided for attaching a lifting device. Pontoon bridge according to claim 10, characterized in that as a fastening possibility for a hoist in the support ribs ( 25 . 25 ' ) Drilling ( 24 . 24 ' ) are provided. Pontoon bridge according to one or more of the preceding claims, characterized in that the support plate ( 9 ) of the guide tube ( 23 ) after insertion into the guide ( 7 ; 7 '; 7 ''; 7 '''; 7.2 ; 7.3 ; 7.4 ; 7.5 ) in a depression ( 5 ; 5 '; 5 ''; 5 '''; 5.2 ; 5.3 ; 5.4 ; 5.5 ) of the deck ( 2 ) is releasably attached. Pontoon bridge according to one or more of the preceding claims, characterized in that the pontoon bridge ( 1 ) by means of a motor driven propeller ( 54 ) is moved. Pontoon bridge according to one or more of the preceding claims, characterized in that the pontoon bridge ( 1 ) from an outboard motor ( 4 ) is moved. Pontoon Bridge according to claim 13 or 14, characterized in that the drive motors by means of Be controlled by remote control.