EP1457601A1 - Device and method for building by sectors reinforced or prestressed concrete structure - Google Patents

Abstract

An assembly (1) facilitates the progressive stage-by-stage construction of a load bearing steel-reinforced concrete structure (2) above ground e.g. a bridge. The assembly has shuttering (10) which is pre-positioned for the first stage that aligns with a second shuttering position (n+1). After the first section is secured the first shuttering section is advanced by a first jack (12) to a second position. As it advances the first shuttering section is held in a support frame (20) as it is moved by push or pull action. Also claimed is a commensurate construction process.

Description

Technical field

The present invention relates to a device and a Process for the step-by-step production of a reinforced concrete or Prestressed concrete structure in cantilever construction. Under reinforced concrete or Prestressed concrete structures also become structures understood that in composite construction, for example with additional steel profiles or elements or the like, getting produced.

State of the art

For the production of reinforced concrete and prestressed concrete structures that span a free space, such as bridges, Arches, ties or the like are numerous construction methods and devices known. In the manufacture of bridges are in addition to construction methods with scaffolding and Feed armor, for example, also the so-called Tact shifting method, the bow folding method and that Free cantilever processes, each with special Formwork systems, known.

For example, DE-AS 12 91 348 discloses a method and a device for the partial production of Free-standing bridge superstructures. Here comes a framework truss with extremely large dimensions, whose Length is designed so that it is the span of the can bridge the later structure, similar to one Formwork. The scaffold is used for storage and Advancing a formwork, with the help of which successively Structural sections are concreted. The entire load of Formwork and the fresh concrete brought in must be from the Scaffold girders added and into the already manufactured Building sections are forwarded. Because of the high Load, in particular bending stress, as well as the large The span of the scaffold must be very strong are carried out, which makes this complex and expensive and furthermore, its handling is difficult.

In addition, in the construction method according to DE-AS 12 91 348 a new construction phase can only be started as soon as the previous one is made entirely and as a whole has reached the required strength.

DE 36 20 587 C1 also discloses one method and one Device for the sectional production of Free-standing bridge superstructures. The device has a stem cantilever and formwork, however has no floor formwork, since the structure floor is covered by a Finished part is provided. The structural floor is in the anchored previous section before the rest Parts of the new construction phase will be manufactured. The However, the method has the disadvantage that it is neither for In-situ concrete for any cross-sectional shape, such as for example, full cross sections is also suitable. Farther the cantilever must also be comparatively strong be carried out to the weight of the formwork as well as the heavyweight precast concrete before tensioning take.

Summary of the Invention

It is an object of the present invention to provide a device for the sectional manufacture of reinforced concrete or Provide prestressed concrete structures that are simple and lightweight construction. Furthermore is it is an object of the present invention to provide a method for Sectional manufacture of reinforced concrete or Provide prestressed concrete structures that with relative simple means can be carried out.

These tasks are subject to the independent Claims resolved.

The present invention is based on the idea that Load transfer in a formwork device optimize that stress to a large extent about tensile and / or compressive forces, and not just about Bending moments and shear forces in the previous ones Structural sections is derived. this will realized according to the invention in that the first Formwork equipment in the area of the new construction phase by means of at least one tension and / or compression strut connected to at least one preceding structural section is.

In this way, a device for sections Manufacture of a reinforced concrete or prestressed concrete structure provided that is not just a simple construction has, but also has a number of other advantages. In particular, according to the invention, the load is reduced by means of bulky bending beam in previous building sections is to be deduced to a minimum. Therefore can considerably more delicate components for the carrying device be used.

So in the device according to the invention Carrier only the dead weight of the first Formwork device during its feed into a new one Wear section of the structure and can therefore accordingly can be carried out easily and inexpensively. In contrast, will the considerable weight of the structural sections, in particular of the concrete to be introduced, directly through the at least one tension and / or compression strut in the previous structural sections removed what the other components of the device according to the invention extremely relieved.

By relieving the components of the invention It is possible for the first time to use a variety of devices Use components that previously - z. B. due to their relatively low bending capacity - than not for this were considered suitable.

Also the low weight of the invention The device itself is extremely advantageous. It is to note that the structure to be manufactured by a Cantilever structure is loaded so that in high bending moments arise in the structure, which as a separate Load case must be calculated and verified. This Stress is due to the low weight of the construction according to the invention significantly reduced, which also makes the building itself more economical. Not least this also causes the stress of a Auxiliary construction, such as the back tension of a Arch created in cantilever construction, reduced.

Last but not least, the device according to the invention enables also rapid construction progress.

According to a development of the present invention at least one tension and / or compression strut articulated with the first formwork device and / or the at least one previous structural section connected, in particular using anchoring profiles. This will make it unscheduled Bending and shear loads of the at least one tensile and / or Pressure strut, their load capacity and May affect durability, excluded. In addition, the device receives an improved Adaptability to variable structural geometries, such as for example with arches with a variable cross-section.

To the state of deformation of the new one to be manufactured To be able to control the structure section and a excessive deformation or loading of the first Formwork equipment, especially when concreting, According to a further training of the The present invention provided that the at least one Tension and / or compression strut is prestressable and preferred opposite to a direction in which the structural sections follow one after the other, is inclined. This will at the same time an optimal power transmission between the first Formwork device and previous structural section ensured.

In addition, a further training sees the present Invention before that the at least one train and / or Pressure strut in the edge areas of the structure sections is arranged. This way the inside of the Structural sections created a spacious work space, which makes the work easier and especially the insertion prefabricated reinforcement cages allows what the Construction progress significantly accelerated. It is special preferred that the at least one tension and / or compression strut is arranged in the side walls of the structural sections.

A safe, rail-like advancement of the first Formwork equipment in the new construction phase ensure is in accordance with a further goal of The present invention provided that the carrying device has a feed carrier which with the at least one previous structural section is connected.

It is preferred that the first formwork device displaceable by means of at least one adjustable spindle is mounted along the feed beam, the at least one spindle particularly preferably outside of Cross section of the new structural section is arranged. The at least one adjustable spindle not only enables a stable hold of the first formwork device during of the feed, but also a precise setup the same in the new structural section. Furthermore allows the at least one adjustable spindle targeted relief of the load-bearing device as soon as the first Formwork device in the at least one previous Structural section is clamped. The arrangement of the at least one adjustable spindle outside the Cross section of the new structural section also enables that prefabricated reinforcement cages as a whole in the new one Structural section can be inserted what the Construction progress significantly accelerated.

To use an even more delicate construction of the carrying device To enable the advantages stated above is according to a further development of the present invention is provided, that the feed carrier by means of at least one pressure strut with the at least one preceding structural section connected is.

With regard to the manufacture of box girder structures or similarly complex cross sections is according to another Objective of the present invention provided that it further comprises a second formwork device, wherein preferably the first formwork device for formwork Outer contour and the second formwork device for formwork an inner contour of the structure is designed. This will also the simultaneous work in different Structural sections enabled.

It is preferred according to the invention that the second Formwork device is connected to the supporting device, in particular by means of at least one pressure strut. hereby contributes to the second formwork device on the one hand Relief of the carrying device, on the other hand, a advancing and anchoring both facilities together enables, which simplifies the construction process.

With regard to the advancement of the support device or second formwork device sees a further development of present invention a second feed device, those with the carrying device and / or the second Formwork device is connectable.

To ensure stable and safe advancement, is according to a development of the present invention provided that the first and / or second Feed device at least during the feed on the anchored at least one preceding structural section is. The use of at least one console has the is attached to a previous structure section, as proven particularly advantageous.

The first formwork device hangs in the new structural section free above the one to be spanned Room. Therefore, according to a further development of the present Invention preferred that the first formwork device at least during the feed on the console of the first Feed device is slidably mounted. It is with a view to minimizing the feed forces preferred that the console have a role or the like identifies on which the first formwork device is guided.

An advantageous development of the present invention is characterized in that the first and / or second Feed device has a drive. This is to advance the first and / or second Formwork device no external aids, such as additional cranes or the like are required. It is it prefers that the pilgrim drive works and / or has a hydraulic cylinder, because this makes it extremely compact, lighter and less expensive Drive provided with a sufficiently high feed force becomes.

For sufficiently long strokes of the first and / or second Feed device with short-stroke drives, such as To enable hydraulic cylinders, for example, is according to a further development of the present invention is provided, that the first and / or second feed device itself essentially longitudinally extending element has, along which the drive can be moved and / or that can be moved along the drive. It is particularly preferred that the mutual process of Drive and itself essentially in the longitudinal direction extending element in the pilgrim step process.

According to a further aim of the present invention the at least one formwork device Formwork element on that along the first formwork device is movable. This can, for example, during the Production of a floor slab of a new structural section the side wall formwork in the previous Structural section are moved or remain there, so that in the new structural section considerably more work space is available and especially pre-made Reinforcement cages for the entire new structural section as Whole can be lifted.

The present invention further provides a method for Sectional manufacture of a reinforced concrete or Prestressed concrete structure according to claim 16, which in particular the clamping of at least part of one first formwork device in the area of a new Structural section is located in a previous Structural section by means of at least one tension and / or Pressure strut provides. That way the above described advantages of the device according to the invention, in particular a rapid construction progress and a corresponding shortened construction time.

It should be noted that a short construction time is not only in offers economic advantages, but at numerous building projects basic requirement for a is successful implementation, for example Weather conditions (frost period) or the like.

To further accelerate the construction progress according to the invention provided that the reinforcement of the new Structural section at least partially before tensioning is installed. This allows process steps can be parallelized by, for example, already during the backing work of the first formwork device with the Production of the new structural section is started.

This concept is further developed according to the invention by that pushing the first formwork device into the new construction phase before the completion of the previous construction phase. This makes them Work is not limited to one section, but can take place in parallel in at least two structural sections, which significantly shortens the construction time.

According to a development of the method according to the invention after concreting part of the new one Structural section a second formwork device in the advanced structural section. This can the second formwork device is already on the new one Support section of the structure and requires no complex Support device, what the construction of the invention. Device simplified. It also enables Pushing the second formwork device to manufacture complex cross-sections.

In addition, according to a further development of the inventive method provided that with the Pushing the second formwork device at the same time Support device in a further structural section (n + 2) is advanced. This way, feeding is done a second parallelization of the second formwork device of operations since the first Formwork device now already along the support device can be moved into the further structural section, so that in turn in at least two structural sections can be worked simultaneously. Accordingly, the Construction time can be further reduced.

Brief description of the drawings

Fig. 1

shows schematically a side view of a preferred embodiment of the invention Contraption;

Fig. 2

shows schematically a sectional view of a preferred embodiment of the invention Device taken along the line A-A in Fig. 1 is led;

Fig. 3

shows schematically a detailed view of a Anchoring point of that shown in Fig. 1 preferred embodiment of the invention Contraption;

Fig. 4 to Fig. 9

schematically show the following steps the construction process in the manufacture of a structure in cantilever construction using the in Fig. 1 to 3rd shown embodiment of the invention Contraption.

Detailed description of preferred embodiments

Preferred embodiments of the present invention are described in detail below with reference to the accompanying drawings. Here are in the different drawings the same or corresponding components each with the same reference numerals.

Figures 1 and 2 each schematically show one Side view or a sectional view of a preferred Embodiment of the device 1 according to the invention Sectional manufacture of a reinforced concrete or Prestressed concrete structure 2 in cantilever construction. The device 1 comprises a first formwork device in the form of a Outside formwork carriage10, each for formwork of a new one Structural section n + 1 serves. The outer formwork carriage 10 is with already completed structural sections in connectable to different positions, for example by means of Anchoring or the like, and is by means of a first Feed device 12 each from a previous one Structural section n to the new structural section n + 1 traversable. The outer formwork carriage 10 is in the present Embodiment formed by a truss structure, the Formwork elements 10 'in the form of formwork panels or The like contributes to the shape of the prestressed concrete structure serve.

The structure 2 to be created is in the example shown here with an arch bridge with a Prestressed concrete hollow box, which is manufactured in cantilever construction. It however, it is understood that the present invention also on any other reinforced concrete or Prestressed concrete structures with any cross-sectional shape is applicable.

The first formwork device or the outer formwork carriage 10 is in the state shown in FIG. 1 by means of tension struts 14 connected to the previous structural section n. there are the tension struts 14 both with the outer formwork carriage 10 also articulated with the previous structural section n connected, the articulated connection with the previous structural section n in the present Exemplary embodiment by means of anchoring profiles 16 is realized, which are shown in more detail in FIG. 3. As in 3 can be seen, the anchoring profiles enable 16 a spherical end suspension of the tension struts 14, so that the tension struts 14 are arranged at any angle and harmful bending moments in the tension struts 14 can be avoided.

The tension struts 14 are opposite to the direction in which the Structural sections n, n + 1 follow one after the other, inclined and can be preloaded using end nuts or the like, the between the outer formwork carriage 10 and the previous one Structural section n transmitted force or the mutual Regulate alignment.

As can best be seen in Fig. 2, the tension struts are 14 viewed in section in the marginal areas of the respective Structural sections n, n + 1, ... arranged. More specifically are the tension struts 14 in the present embodiment positioned on the side walls of the hollow box girder and become concrete when concreting the side walls locked in. However, it should be noted that the location of the Zugstreben 14 is in principle arbitrary. Beyond that it is According to the invention, it is not necessary for the tension struts 14 in the structure can be concreted, for example, by Cladding tubes or the like could be avoided.

Although not shown in the figures, those skilled in the art can be seen that the tension struts 14 in principle partially or completely by inclined struts can be replaced, if necessary using suitable Auxiliary elements, supports or the like.

In addition, the device 1 comprises a carrying device 20, two in the present embodiment Feed carrier 22 has, for example, the shape of I-beams have and directly or indirectly one of the previous, at least partially completed Support structural sections.

The device 1 further comprises a second one Formwork device 26 in the form of an inner formwork carriage 26, to formwork the inner contour of the hollow box structure 2 serves. The feed carriers 22 are in the present Embodiment integrated in the inner formwork carriage 26 and rely on the previous ones Structural sections. To the bending moments in the Feed carrier 22 and thus its dimensions as possible to be kept low, the feed carriers 22 are each by means of a strut 24 obliquely on the inner formwork carriage 26 supported.

As best seen in Fig. 2, the Outside formwork carriage (the first formwork device) 10 by means of two adjustable spindles 18 slidable along the Feed carrier 22 stored. More specifically, they are adjustable spindles 18 connected to a cross member 23, which in turn in the longitudinal direction - i.e. essentially perpendicular to the plane of Fig. 2 - slidable along the feed carrier 22 is mounted. In addition, the adjustable spindles 18, as in FIG. 2 too recognize is outside the cross-section of the new Structural section n + 1 arranged. The adjustability of the Spindles 18 allows that depending on the setting of the spindles a power transmission between the outer formwork carriage 10 and the Carrying device 20 or the feed carriers 22 take place can.

Furthermore, the device 1 according to the invention comprises a first feed device 12, by means of which the first Formwork device or the outer formwork carriage 10 by one previous structural section n to the new Structural section n + 1 is movable. As In principle, feed device 12 can be any one Drive are used. In the present The feed device 12 is, however, an embodiment mainly by a feed bracket 12 'with a Roller 12 ", a feed rod 12" 'and a drive 4 formed. The outer formwork carriage 10 can on the Feed roller 12 "are lowered and by means of the drive - rolling on the feed roller 12 "- in a new one Construction phase. The serves Feed console 12 'to the feed force of the Outer formwork carriage 10 on the completed section n or to transfer a construction phase in front of it.

The drive can be a hydraulic cylinder act that provides high feed forces and despite short cylinder strokes longer distances in the so-called Pilgrim step procedures. such Feed systems are for example in the range of Climbing formwork known to the individual Design details exemplarily on DE 196 39 038 C1 or referred to the applicant's self-climbing formwork system SKE becomes.

Furthermore, the device 1 according to the invention in FIG present embodiment, a second feed device 28, which is used to advance the inner formwork carriage (the second Formwork device) 26 is used and accordingly with this as well as a completed structural section is. The first feed device 12 and the second In principle, feed device 28 can be identical be trained or differ in details, for example in the form of the feed bracket, which at second feed device 28 is formed as a stop 28 ' is.

Although not expressly shown in the figures, can the side formwork elements 10 'of the first Formwork device 10 can be displaced along the same, to make the construction process even more flexible can.

The construction process in the manufacture of a structure in Cantilever construction using those shown in Figures 1'to 3 Embodiment of the device 1 according to the invention described below with reference to FIGS. 4 to 9, the schematically successive steps of the construction process demonstrate.

Fig. 4 shows the construction state, in which n at least the bottom plate and the side walls of the Hollow box structure are completed. The one in Fig. 4 The initial state shown corresponds in principle to that in FIG. 1 shown arrangement of the device 1. Starting from this The outer formwork carriage (the first Formwork device) 10 from section n in the Construction phase n + 1 using the first feed device 12 advanced. During the feed is the Outside formwork carriage 10 through the spindles 18 on the Feed carriers 22 slidably mounted in the Outside formwork carriage 10 no significant cantilever moment arise to let. As soon as the outer formwork carriage 10 its desired Has reached position in the new construction phase n + 1, it will anchored to the previous section n. As in Fig. 5 can be seen, the outer formwork carriage is anchored at the previous stage n, for example Stop element 8 for use, which with appropriate Depressions in the outer formwork carriage 10 engage can to establish a positive connection.

6a) shows the outer formwork carriage 10 in its advanced position in the new construction phase n + 1. In the outer formwork carriage 10, for example can be raised or lowered by means of the hanging spindles 18, to fine-tune the other structural or Make course of the arc. This is followed by a Retightening the feed device 12 in the new Construction phase n + 1, by the feed bracket 12 'of the previous structural section is solved (Fig. 6b)) the outer formwork carriage comes to the system (Fig. 6c)) and finally by means of the drive 4 in the starting position can be moved for a new feed cycle (Fig. 6d)).

As can be seen in FIG. 7, the back tensioning now takes place of the outer formwork carriage 10 from the new construction phase n + 1 in the previous section n. For this purpose, the Tension struts 14 from the anchoring profile 16 Anchorage points of the outer formwork carriage 10 in the new Construction phase n + 1 led and anchored. By tightening the Tension struts 14 relieve the spindles 18 so that the outer formwork carriage 10 in the new construction phase n + 1 only is held by the tension struts 14. In addition, the Spindles 18 are now drained. From the advantageous Arrangement of the tension struts 14 shows that the Carrier 20 only during the advancement of the Outside formwork carriage 10 carries the same weight, after the tensioning of the tension struts 14 is completely relieved is, so that the overall construction of the invention Device 1 can be executed very filigree.

The next step is to reinforce the floor slab of the new construction phase n + 1. Due to the advantageous arrangement of the support elements The device 1 according to the invention, in particular the spindles 18 and the tension struts 14, it is possible to use the entire reinforcement lifting the floor slab as a total reinforcement cage 6, for example by means of a suitable crane beak S (Fig. 7). Subsequently, the bottom plate can finally be concreted.

Once the concrete of the floor slab a certain The inner formwork carriage can also reach minimum strength 26 together with the support device 22 in the new Construction phase n + 1 are advanced, the Carrier 20 with the feed carriers 22 then already in cantilevered another construction phase n + 2. The must Concrete of the floor slab has not yet reached its full nominal strength have reached because the base plate continues through the Outside formwork carriage 10 is carried, which in turn by the Guy 14 with the previous section n connected is.

The inner formwork carriage 26 is advanced by means of the second feed device 28, which is analogous to the first Feed device 12 works (Fig. 8). The can Console of the second feed device 28 slightly from distinguish that of the first feed device 10, as can be seen in the detailed view in FIG. 8. To the The inner formwork carriage 26 has a feed to facilitate it Rollers on which the inner formwork carriage during the Feed can be lowered to subsequently by means of Spindles or the like started up again and in his Position to be anchored in the new construction phase n + 1 (Fig. 9). Then the feed device can again 28 can be traced. After inserting the reinforcement, the it makes sense even before pushing the Interior formwork carriage 26 can be done, and setting up the Inner formwork carriage 10 and the outer formwork carriage 26 in the area the web walls can be concreted.

As soon as the concrete of the web or side walls is sufficient Has reached strength that it can be stripped, can the outer formwork carriage 10 in the next phase n + 2 be moved so that the construction process as in relation to Fig. 4 explained can be continued.

The manufacture of the ceiling or carriageway slab of the structure can in principle be independent of the one described above Device 1 according to the invention take place, for example using conventional formwork tables. On the other hand, it is in principle also conceivable, the slab formwork in the Integrated formwork carriage 26.

Claims (20)

Device (1) for the sectional manufacture of a reinforced concrete or prestressed concrete structure (2) in cantilever construction, comprising: a first formwork device (10) for at least sectionally formworking a new supporting structure section (n + 1), a first feed device (12), by means of which the first formwork device (10) can be moved from a previous structure section (s) to the new structure section (n + 1), and a supporting device (20) which is connected to at least one preceding supporting section (n) and by means of which the first formwork device (10) is slidably mounted at least during the advance to the new supporting section (n + 1), whereby the first formwork device (10) in the area of the new structural section (n + 1) is connected to the at least one preceding structural section (n) by means of at least one tension and / or compression strut (14). Device according to claim 1, characterized in that the at least one tension and / or compression strut (14) is connected in an articulated manner to the first formwork device (10) and / or the at least one preceding structural section (s), in particular by means of at least one anchoring profile (16 ). Apparatus according to claim 1 or 2, characterized in that the at least one tension and / or compression strut (14) can be prestressed and is preferably inclined with respect to a direction in which the structural sections (n, n + 1) follow one another. Device according to one of the preceding claims, characterized in that the at least one tension and / or compression strut (14) is arranged in edge regions of the supporting structure sections (n, n + 1). Device according to one of the preceding claims, characterized in that the supporting device (20) has a feed carrier (22) which is connected to the at least one preceding supporting structure section (s). Apparatus according to claim 5, characterized in that the first formwork device (10) is mounted displaceably along the feed beam (22) by means of at least one adjustable spindle (18), the at least one spindle (18) preferably being outside the cross section of the new structural section (n +1) is arranged. Apparatus according to claim 5 or 6, characterized in that the feed carrier (22) is connected to the at least one preceding supporting structure section (s) by means of at least one pressure strut (24). Device according to one of the preceding claims, characterized in that it further comprises a second formwork device (26), the first formwork device (10) preferably being designed for formwork of an outer contour and the second formwork device (26) for formworking an inner contour of the structure (2) is. Apparatus according to claim 8, characterized in that the second formwork device (26) is connected to the support device (20), in particular by means of at least one pressure strut (24). Device according to one of the preceding claims, characterized in that it further comprises a second feed device (28) which can be connected to the support device (20) and / or the second formwork device (26). Device according to one of the preceding claims, characterized in that the first (12) and / or second (28) feed device is anchored at least during the feed to the at least one preceding supporting structure section (s), in particular by means of a respective bracket (12 ', 28 '). Apparatus according to claim 11, characterized in that the first formwork device (10) is slidably mounted on the bracket (12 ') of the first feed device (12) at least during the feed, in particular by means of a roller (12 "). Apparatus according to claim 11 or 12, characterized in that the first (12) and / or second (28) feed device has a drive (4) which preferably works in the pilgrim step method and / or has a hydraulic cylinder. Apparatus according to claim 13, characterized in that the first (129 and / or second (28) feed device has a substantially longitudinally extending element (12 "', 28"') along which the drive (4) can be moved and / or that can be moved along the drive (4). Device according to one of the preceding claims, characterized in that the first formwork device (10) has at least one formwork element (10 ') which can be moved along the first formwork device (10). Process for the section-wise manufacture of a reinforced concrete or prestressed concrete structure (2), which has the following steps: Advancing a support device (20) into a new support section (n + 1) to be produced; Advancing a first formwork device (10), which is displaceably supported by the support device (20), into the new structure section (n + 1), and setting up the first formwork device (10); Retensioning at least a part of the first formwork device (10), which is located in the area of the new structural section (n + 1), into a preceding structural section (n) by means of at least one tension and / or compression strut (14), Concreting at least part of the new structural section (n + 1). A method according to claim 16, characterized in that the reinforcement (6) of the new structural section (n + 1) is at least partially installed before the tensioning. Method according to claim 16 or 17, characterized in that the first formwork device (10) is pushed into the new construction section (n + 1) from the completion of the previous construction section (s). Method according to claim 18, characterized in that after the concreting of part of the new structural section (n + 1), a second formwork device (26) is pushed into the new structural section (n + 1). Method according to one of claims 16 to 19, characterized in that when the second formwork device is pushed forward, the supporting device is simultaneously pushed into a further structural section (n + 2).

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