BUILDING SITE DEVICE HAVING A CLIMBING FORMWORK AND AN ELEVATOR SYSTEM

Abstract

A building site device includes a climbing formwork platform for the floor-by-floor production of concreting portions of a building core having at least one elevator shaft. An elevator system has an elevator machine platform vertically movable in the elevator shaft. In order to minimize the use of lifting cranes and the manual raising of supporting structures, the elevator machine platform can be moved jointly with the climbing formwork platform.

Claims

1-6. (canceled)

7. A building site device comprising: a climbing formwork platform adapted to perform a floor-by-floor production of concreting portions of a building core including at least one elevator shaft; an elevator system having an elevator machine platform vertically movable in the at least one elevator shaft; and wherein the elevator machine platform is adapted to move jointly with the climbing formwork platform in the at least one elevator shaft.

8. The building site device according to claim 7 wherein the elevator machine platform is integrated in the climbing formwork platform such that the elevator machine platform is movable directly and jointly with the climbing formwork platform by an elevator drive on the climbing formwork platform or by a coupling of the elevator machine platform to the climbing formwork platform.

9. The building site device according to claim 7 wherein the elevator machine platform is suspended on the climbing formwork platform and is vertically movable relative to the climbing formwork platform by a variable length lifting means arranged between the elevator machine platform and the climbing formwork platform.

10. The building site device according to claim 7 including a lifting platform suspended on the climbing formwork platform and being vertically movable relative to the climbing formwork platform by a variable length lifting means arranged between the lifting platform and the climbing formwork platform, and wherein the elevator machine platform is suspended on the lifting platform and is vertically movable relative to the lifting platform by a variable length lifting means arranged between the elevator machine platform and the lifting platform.

11. The building site device according to claim 7 wherein the climbing formwork platform includes integrated climbing drives and operates as a self-climbing formwork platform.

12. The building site device according to claim 7 wherein the at least one elevator shaft includes a plurality of anchors in elevator shaft walls, wherein the climbing formwork platform is adapted to be suspended in the anchors in the elevator shaft walls on a floor-by-floor basis, and wherein the elevator machine platform is secured in ones of the anchors previously used to suspend the climbing formwork platform on subjacent floors.

13. The building site device according to claim 7 wherein the at least one elevator shaft includes a plurality of anchors in elevator shaft walls, wherein the climbing formwork platform is adapted to be suspended in the anchors in the elevator shaft walls on a floor-by-floor basis, and including a lifting platform suspended on the climbing formwork platform, wherein the lifting platform is secured in ones of the anchors previously used to suspend the climbing formwork platform on subjacent floors.

14. A building site device comprising: a climbing formwork platform adapted to perform a floor-by-floor production of concreting portions of a building core including at least one elevator shaft; an elevator system having an elevator machine platform vertically movable in the at least one elevator shaft and being adapted to move jointly with the climbing formwork platform in the at least one elevator shaft; and wherein the elevator machine platform is a temporary elevator machine platform with a drive machine arranged thereon, the temporary elevator machine platform being integrated in the climbing formwork platform, or the elevator machine platform has the drive machine arranged thereon and is connected to the climbing formwork platform by a lifting means.

Description

DESCRIPTION OF THE DRAWINGS

[0027] FIG. 1 schematically shows a first embodiment of a building site device according to the invention having a climbing formwork platform for concreting an elevator shaft.

[0028] FIG. 2 schematically shows a second embodiment of a building site device according to the invention having a climbing formwork platform for concreting an elevator shaft.

[0029] FIG. 3 schematically shows the building site device according to FIG. 2 during the raising of the climbing formwork platform.

[0030] FIG. 4 schematically shows a third embodiment of a building site device according to the invention having a climbing formwork platform for concreting an elevator shaft.

[0031] FIG. 5 schematically shows the introduction of auxiliary means for fastening elevator components before concreting.

[0032] FIG. 6 schematically shows a further embodiment of a building site device according to the invention having a climbing formwork platform for concreting an elevator shaft.

DETAILED DESCRIPTION

[0033] An elevator shaft 1 of a building under construction is schematically shown in FIGS. 1 to 4 and 6. Further building parts outside of the respective elevator shaft shown are not depicted in these figures. The elevator shaft represents the actual housing core which usually comprises one or more such elevator shafts. The special feature of the elevator shafts is their vertical extension which in the case of certain elevator shafts can practically extend over the entire height of the building. Elevator shafts of this type are particularly suitable for the use of building site elevators which already enable people and goods to be transported from and to the lower floors during the construction phase of the building. In this case, the lower floors are those floors which are located below the uppermost floors that are still under construction.

[0034] FIG. 1 shows a first embodiment of a building site device according to the invention in which a climbing formwork platform 5 is connected directly to a building site elevator. In the depicted embodiment, the climbing formwork platform 5 has two working platforms, an upper working platform 51 which runs continuously and along the upper edge of the concrete walls 11 last stripped, and a lower working platform 52 which allows access to the wall portions already stripped, for example, to make repair work on the wall possible.

[0035] The formworks for concreting are located on the upper working platform. As shown in detail in FIG. 5, the formwork 56 can be adjusted horizontally and vertically by means of adjusting devices. Before the concrete is poured, the reinforcement work is carried out, i.e., as a rule, reinforcement rods 12 are introduced as well as the anchors for future support of the platform. Optionally, additional auxiliary elements can also be embedded in the concrete, for example, C-rail profiles or anchor bolts which can later be used to attach brackets for accommodating the guide rails of the elevator. For this purpose, recesses 561 can be provided in the formworks 56, into which inserts 57 can be inserted with an auxiliary element—the C-rail profiles 26 as an example in the drawing—fastened, in particular clamped, thereto. Optionally, the auxiliary elements can also be placed directly onto bolts that are attached to the formwork. Due to the inserts in the formworks or the bolts at predefined points, the auxiliary elements are always arranged on each floor at the same point in the shaft and are therefore ideally suited for manual, semi-manual or automated installation of further elevator components.

[0036] Optionally, optical images can be taken of the reinforcement rods installed in the future wall region and a digital model of the reinforcement rods along the entire elevator shaft can be created. For this purpose, a 3D camera or a 3D scanner based on laser technology or electromagnetic waves outside the visible range is advantageously used. This can be particularly helpful later during the manual, semi-manual or fully automatic drilling of holes because drilling into or through reinforcement rods thus can be avoided and the tool can be protected. The closing formwork is moved to the concreting position, the formwork is anchored and then concreted (right half of FIG. 5).

[0037] The lower working platform 52 is firmly connected to the upper working platform 51 via a boom structure and vertically running supporting structures 53. The entire platform is shown as an integral unit which can be moved as a unit in the vertical direction. Optionally, individual sub-platforms of the climbing formwork platform can be moved individually and independently of one another which, however, is not shown in the present figures. For raising the climbing formwork platform, climbing brackets 54 are attached to the anchors in the walls, to which hydraulic climbing devices 55 are attached. After raising, the climbing formwork platform is again suspended in anchors in the elevator shaft walls.

[0038] The elevator system contained in the first embodiment of the building site device according to the invention comprises an elevator 2 having an elevator car 21 connected to a counterweight 22 via a suspension element 23. The drive machine 25 of the elevator system is arranged on a temporary elevator machine platform integrated in the climbing formwork platform. Therefore, an additional raising of the machine platform is unnecessary. In addition, the space below the climbing formwork platform can be optimally used, and the floors directly below the climbing formwork platform can be approached with the car of the elevator system. The elevator operation 29 must be interrupted each time the climbing formwork platform climbs up by one floor. In order to continue to be able to serve the lowest floors, the suspension elements must either be extended on each floor or after a specified number of floors. In particular, if the elevator shaft also extends into the basement region of a building, the respectively served lowest floor can come to lie a few floors below the ground floor, which is usually important for the construction work, when the suspension elements are extended. The ground floor can then also be served after several floor extensions without an additional extension of the suspension elements, which can be advantageous for minimizing the number of suspension element extensions.

[0039] FIGS. 2 and 3 show a second embodiment of a building site device according to the invention in which a climbing formwork platform 5 is again connected directly to a building site elevator. Analogous to the first embodiment, the climbing formwork platform 5 again has two working platforms. However, in this embodiment, the drive machine 25 of the elevator system 2 is arranged on a separate elevator machine platform 24. The elevator machine platform is secured in anchors previously used to suspend the climbing formwork platform on subjacent floors. With respect to the climbing formwork platform, the elevator machine platform is movable in the vertical direction, i.e., it is not connected to the climbing formwork platform in a fixed or rigid manner. A lifting means 3 comprising a winch or some other rope, chain or belt drive 31 is arranged on the elevator machine platform. Optionally, the lifting means can also be arranged on the climbing formwork platform. The elevator machine platform can be moved and in particular raised relative to the climbing formwork platform with a suspension element 33, for example, a rope, a chain, or a belt. If deflection rollers 32 are used, as shown in the figure, the forces can be distributed over a plurality of suspension element portions and the overall lifting capacity can thus be increased. If the climbing formwork platform is raised as schematically shown in FIG. 3, the elevator machine platform remains in its place. The suspension element 33 of the lifting means 3 is loosened. During the climbing phase 59 of the climbing formwork platform, the elevator operation 29 can be maintained because everything from the elevator machine platform downwards is independent from the raising of the climbing formwork platform. However, if the elevator machine platform is pulled up after a few climbing phases 59 of the climbing formwork platform, the suspension elements 33 of the lifting means 3 are tensioned again. In order to prevent the force to be applied by the lifting device from becoming too great, the car and/or the counterweight can optionally be placed on the buffer and, if necessary, the counterpart not placed on the buffer can be secured by clamping the suspension element. During lifting 39, the elevator machine platform is raised by one to several floor heights and secured in the anchors in the shaft walls.

[0040] FIG. 4 shows a third embodiment of a building site device according to the invention in which a climbing formwork platform 5 is again connected directly to a building site elevator. Analogous to the first embodiment, the climbing formwork platform 5 again has two working platforms. In this embodiment, the drive machine 25 of the elevator system 2 is once again arranged on a separate elevator machine platform 24 and the elevator machine platform is secured in anchors previously used to suspend the climbing formwork platform on subjacent floors. In addition, a lifting platform 44 is provided between the elevator machine platform 24 and the climbing formwork platform 5. With respect to the climbing formwork platform, the lifting platform, similarly to the elevator machine platform, is movable in the vertical direction, i.e., it is not connected to the climbing formwork platform in a fixed or rigid manner. The lifting platform 44 is secured in anchors previously used to suspend the climbing formwork platform on subjacent floors. A lifting means 4 comprising a winch 41 or some other rope, chain or belt drive is arranged on the climbing formwork platform but can optionally also be arranged on the lifting platform. The lifting platform 44 can be moved and in particular raised relative to the climbing formwork platform with a suspension element 43, for example, a rope, a chain, or a belt. Since the lifting platform 44 is significantly lighter than the elevator machine platform, the lifting means 4 can be dimensioned smaller than the lifting means 3 for raising the elevator machine platform 24, which in turn comprises a winch or some other rope, chain or belt drive and is arranged on the elevator machine platform. With respect to the lifting platform 44, the elevator machine platform can be moved and in particular raised with the suspension element 33, for example, with a rope, a chain, or a belt.

[0041] As in the second embodiment, the elevator operation 29 can be maintained during the climbing phase 59 of the climbing formwork platform because everything from the lifting platform 44 downwards is independent from the raising of the climbing formwork platform. However, if the elevator machine platform is supposed to be pulled up after a few climbing phases 59 of the climbing formwork platform, the lifting platform, in a first step, is raised while the suspension elements 33 of the lifting means 3 are loosened. During lifting 49, the lifting platform is raised by one to several floor heights and secured in the anchors 15 in the shaft walls. The elevator machine platform is then raised.

[0042] Optionally, a collecting roof element 6 (crash deck) can be provided above the elevator system which is intended to prevent objects from falling into the elevator region. In all embodiments, the collecting roof element 6 can be fastened to the climbing formwork platform directly below the climbing formwork platform as indicated in FIG. 4. Optionally, the collecting roof element 6 can be secured in anchors previously used to suspend the climbing formwork platform on subjacent floors. In this case, the collecting roof element 6 can be raised by one to several floor heights with one of the available lifting means.

[0043] FIG. 6 shows a further embodiment of a building site device according to the invention in which a climbing formwork platform 5 is again connected directly to a building site elevator. Analogous to the first embodiment, the climbing formwork platform 5 again has two working platforms. In this embodiment, the drive machine 25 of the elevator system 2 is once again arranged on a separate elevator machine platform 24 and the elevator machine platform is secured in anchors previously used to suspend the climbing formwork platform on subjacent floors. In addition, a lifting platform 44 is provided between the elevator machine platform 24 and the climbing formwork platform 5. The lifting platform 44 is arranged directly on the climbing brackets 54 or on the hydraulic cylinders of the hydraulic climbing devices (lifting means) 55. In the case of an advancing climbing formwork platform 5, the climbing formwork platform 5 is raised in a first advancing step by extending the piston rods of the hydraulic climbing devices 55 and anchored in the new position at anchors 15, while in a second advancing step which is temporally independent of the first advancing step, the lower climbing brackets 54 are released and the hydraulic cylinder is pulled up by retracting the piston rod, thereby raising the lifting platform 44 connected to the hydraulic cylinder. In this case, the suspension elements 33 of the lifting means 3 for raising the elevator machine platform 24 are loosened during the second advancing step.

[0044] Instead of having an additional lifting platform as shown, the elevator machine platform itself can also be arranged directly on the climbing brackets or the hydraulic cylinders of the hydraulic climbing devices (analogous to the first embodiment).

[0045] In the embodiment shown in FIG. 6, the lifting platform 44 optionally comprises a collecting roof element 6 (crash deck) which is optionally designed to be watertight and is additionally provided with sealing elements 61. The sealing elements ensure that no water can flow down along the shaft walls. Sealing lips, silicone joints, tar seals, but also inflatable tube elements which press against the wall when inflated, can be used as sealing elements.

[0046] In accordance with the provisions of the patent statutes, the present invention has been described in what is considered to represent its preferred embodiment. However, it should be noted that the invention can be practiced otherwise than as specifically illustrated and described without departing from its spirit or scope.