DE1182411B - Method and device for erecting multi-storey buildings with basements - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Boarding school KL: E 04 g;

E 04b

German class: 37 f- 7/01

Number:
File number:
Registration date:
Display day:

P29379 V / 37f

May 11, 1962

November 26, 1964

The subject of patent 1 138 208 is a method for erecting multi-storey buildings with a basement in reinforced concrete, in which, after the outer walls of the basement have been produced, the individual storey ceilings together with the associated storey supports are each made one after the other in one cast in a storey-high formwork erected in the basement , with the already completed building parts stored on them raised by a storey height and supported on the storey ίο ceiling of the part of the building to be subsequently produced. This is a construction method in which, after the outer basement walls have been produced, first the roof and the top floor ceiling are created together with the floor supports that support them, then the latter is raised by one floor height using lifting devices and then the remaining floor slabs with their supports are poured one after the other and be raised and supported in the same way with the parts of the building already on them. In this case, it is essential that the floors are each made together with the arranged among them floor supports in one portion in the erected in the basement overall _y fired high formwork because thereby created for each floor slab, together with the beams and the supports underneath a homogeneous monolithic reinforced concrete body which ensures that the finished floors have sufficient connection strength and rigidity so that they can each be raised by a floor height. For the device implementation of the construction method described in the main patent, support feet made of steel are used, which establish the connection between the storey supports to be placed one above the other and between the supports of a storey and the respective floor slab below and on which the lifting devices attack, which preferably work hydraulically.

It has now been found that the construction method described in patent 1,138,208 for the construction of multi-storey buildings with a basement can be improved and perfected if, according to the additional invention, the storey supports of the two most recently produced building parts are guided laterally during the lifting and the lowest part of the building after the Lifting is supported by engaging on its ceiling supports, while the lower ends of its storey supports are directly connected to the ceiling when the next part of the building is being built. Through the all-round procedure and Vorriehteaf zain Emehtea-vöa.
multi-storey buildings with a basement

Addendum to the patent: 1138 2Q8

Applicant:

Paul Plückebaum,

Düsseldorf-Hamm, Am Sandacker 22

Named as inventor:

Paul Plückebaum, Düsseldorf-Hamm

management of the last floors constructed the lifting of the completed parts of the building can be carried out with even greater safety, whereby in particular occurring wind forces can be completely absorbed. Furthermore, through the direct connection of the lower ends of the already completed storey columns with the one below arranged storey ceiling an even higher connection strength between the aforementioned Building parts as well as the further advantage achieved that this, in contrast to the main patent, no special Steel support feet are required. Rather, the connection at these points takes place solely via the reinforcing bars protruding downward from the completed storey columns.

The device for carrying out the new construction process exists in addition to the storey-high formwork to be erected in the basement for pouring a storey ceiling with ceiling beams and the associated storey supports as well as a lifting device with several, ttjn a floor height extendable lifting rams according to the invention from one to each storey support is provided, -can be found over the basement- and ground floor supporting structure, each of which consists of a plurality of the floor slab formwork penetrating steel girders, which in the area of the basement the storey column formwork and in the area of the first floor-tBe 'floor column above Support the clamping wedges laterally and with their upper ones

409 729/28

Ends during the pouring of the next part of the building carry the raised parts of the building. The around Steel girders arranged on a floor support are advantageously connected to one another by means of horizontal support straps connected, on the wedge-shaped beveled inner sides of which the clamping wedges for the storey column formwork or the projectile support are in contact. Through the clamping wedges located between the carrying straps and the completed storey supports it is ensured that the latter rest on the projectile supports during the entire lifting process, therefore ensure a correspondingly good lateral guidance, and in the event of any failure of all or some Lifting rams take over the support of the raised building parts in that they are between the Wedge the storey supports and the brackets of the support structure or its steel girders.

At the upper ends of the steel girders there are advantageous bearing recesses for one or more to be used support plates provided, the beams in the raised position of the floor reach under, miibiö the raised parts of the building support so that the lifting rams are returned to their retracted starting position can.

The extendable lifting rams of the lifting device appropriately grip the lower ends of the projectile supports and are each embedded in foundation blocks located below the basement floor. The Hubstemper consist advantageously of one each Threaded spindle, which is accommodated and separated by means of two in a recess in the foundation block is adjustable for itself supported spindle nuts. The spindle nuts adjusting the threaded spindle are expedient to be driven hydraulically.

Details of the process and the device used to carry it out are given of an embodiment shown in the drawing. It shows

F i g. 1 the erection of a floor slab with associated support in the basement and the the latter surrounding support structure in a perpendicular section,

F i g. 2 a look at F i g. 1 above Representation with the part of the supporting structure lying at ground floor level and the one around a full one Floor height raised, completed floor slab with associated floor support,

F i g. 3 shows a section along the line III-III of Fig. 2,

F i g. 4 shows a section along the line IV-IV dei F i g. 1 and

F i g. 5 one opposite FIG. 1 perpendicular section offset by 90 ° through a lifting ram with Drive device containing, provided in the basement foundation base.

In the new construction method, the system shown in FIG. 1 partially shown Basement floor with its floor 2 and the outer cellar wall completed. At those below the to be built 2 foundation blocks 4 are provided in the basement floor. those with a recess 5 and a tube 7 embedded in the bottom 6 for receiving a lifting ram 8 which can be extended by a full floor height is provided. The lifting ram 8 is advantageous designed as a threaded spindle which is adjustable with the aid of two spindle nuts 9 and 10. Latter are supported separately on bearing shells 11 and 12. The drive of the spindle nuts 9 and 10 takes place as shown in FIG. 5 shows hydraulically driven and controlled drive wheels 13 and 14. Via the control line 15, all lifting rams can also be connected to a common, not shown, control panel be closed, from which the stroke adjustment movement of the individual lifting rams is centrally monitored and controlled can be.

ίο On the foundation blocks 4, with the interposition of the support plates 16, four steel girders 17 arranged around a floor support 3 are fastened, which according to FIGS. 1 and 2 extend over the basement and ground floor level. The steel girders 17 can be designed as box girders or as lattice girders. Other support structures that are sufficiently stable are also possible without further ado. The supports 17 are connected to one another by horizontally arranged support straps 18 and 18 ', on whose inner sides 19 , which are beveled at the top, clamping wedges 20 and 20' rest. The clamping wedges 20 support the formwork panels 21 for the storey supports 3 in the lower part of the steel girders 17 located at basement level, while the clamping wedges 20 'in the upper part $ steel girder 17 lying at ground level lie directly against the completed lap support 3', as the F i g. 2 shows.

At floor level, the formwork is 22 and 22 'for. the floor ceilings 23 and their ceiling beams 24 are rrjphtet. To support the formwork 22 and 22 ', formwork beams 25 are used, which are supported by supports 26 on the basement floor 2 can be supported and anchored. Like F i g. 4 shows, are in the ceiling formwork 22 each at the corners of the storey to be built based on recesses 27 through which the steel girders 17 are passed. In contrast the formwork 22 'for the ceiling joists is continuously attached to the formwork 21 for the storey supports 3 introduced.

After the above-described shuttering of the storey ceiling 23 and the ceiling beams 24 and the Floor supports 3 can the reinforcing bars 28 for the floor slab and its beams as well as the Reinforcing bars 29 are inserted with their brackets 30 for the storey supports 3 in the formwork. Included It is essential that the reinforcing bars 29 for the projectile supports from the at their lower end arranged formwork panel 21 'protrude downwards so that the protruding rod ends 29' with the reinforcement bars intended for the next floor slab and its supports verbunda can be. After the formwork and the reinforcing bars are laid in the manner described above can be done with the casting of the projectile supports 3 as well as the floor slab 23 and the Defcken Unterzüge 24 can be started.

As soon as the concrete has sufficiently set or hardened, the pillars below the 3 located lifting ram 8 extended slowly and evenly, whereby the floor slab with their Supports lifted out of the formwork and moved a full storey height into the position shown in FIG. 2 position shown is raised. During this lifting process, the storey supports 3 are first pushed by the one in the KeI-lergeschoß located formwork 21 supported laterally out. As soon as the storey ceiling is a sufficient Piece is raised above their formwork or the floor level, can be removed by inserting the

Claims (7)

lugs 18 'and by inserting the clamping wedges 20' the storey supports 3 'can also be guided laterally supported at ground level. Since the clamping wedges 20 'rest on the one hand on the projectile support 3' and on the other hand against the inclined wedge surface of the support straps 18 ', they do not hinder the upward movement of the supporting end. However, they do prevent downward movement of the supports 3 'in the event that the lifting rams 8 should fail, since the clamping wedges 20' are then wedged firmly between the carrying straps 18 'and the projectile support 3'. As soon as the floor slab 23 with its supports 3 'in its upper position according to FIG. 2 is reached, support plates 31 are inserted through the upper ends of the steel girders 17 located at the upper ends of the steel girders, which engage under the ceiling beams 24, and consequently carry or support the raised parts of the building. The lifting rams 8 can then immediately retracted again, that is to say into their starting position according to FIG. 1 can be brought. Reinforcing bars 28 and 29 as well as brackets 30 are now again inserted into the remaining formwork 21, 22 and 22 ' Floor slab, its joists and supports 3. At the same time, the floor above the finished, raised floor slab or the building roof can be expanded or completed It is essential that the lifting of the finished parts of the building is carried out by the steel girders 17 and their support straps 18 and the K lemmkeilen 20 existing support structure is carried out with the greatest possible safety, since the aforementioned support structure is able to absorb all occurring side forces, such as in particular wind pressures, without further ado. It is also essential for the invention that the connection between the lower ends of the storey supports and the underlying storey ceiling takes place without special connecting elements, but rather solely via the reinforcing bars that are also common in conventional reinforced concrete construction. It will be understood that numerous modifications are possible within the scope of the present invention. For example, in addition to the lifting rams located below the storey supports, additional lifting rams can be provided, which are set up in the basement and reach under the formwork 22 'for the ceiling beams 24, which is then to be subdivided accordingly. It is also possible, instead of four steel girders arranged around a floor support, to provide even more or, if necessary, only three such steel girders. The latter is advantageous if the storey supports do not have a square, but a triangular cross-section, as in the illustrated embodiment. In this case, it is advisable to let the storey ceiling beams 24 run into the storey supports not at 90 ° ^ but at J1 ^ Qf. . . ..V. . Patentärisjjiüctie: 1. Procedure for erecting multi-storey buildings with a cellar in reinforced concrete construction, in which, after the outer basement walls have been produced, the individual storey ceilings are put together with the associated storey supports one after the other in one cast in one in the basement Erected, storey-high formwork is made, then with the already completed formwork on them stored building parts raised by a storey height and on the ceiling of the following building part to be produced are supported, according to Patent 1138 208, characterized in that that the floor supports of the last two parts of the building produced are guided laterally during the lifting and that the The lowest part of the building is supported by supports engaging the ceiling after it has been lifted is, while the lower ends of its storey supports in the manufacture of the next part of the building be connected directly to the ceiling. 2. Apparatus for performing the method according to claim 1 with one in the basement erected, storey-high formwork for pouring a storey ceiling with ceiling joists and the associated floor supports as well as with a lifting device with several to a floor height Extendable lifting rams, characterized in that around each floor support (3 and 3 ') one extends over the basement and ground floor extending support structure is provided, each of several the floor slab formwork (22) penetrating steel girders (17), which form the storey column formwork in the basement area (21) and in the area of the ground floor support the storey support (3 ') laterally using clamping wedges (20 or 20') as well with their upper ends during the pouring of the next part of the building, the raised parts of the building wear. 3. Apparatus according to claim 2, characterized in that the extendable lifting ram (8) attack the lifting device at the lower ends of the projectile supports (3) and each in below the foundation blocks (4) located in the basement floor (2) are embedded. 4. Apparatus according to claim 3, characterized in that each lifting ram (8) consists of one Threaded spindle, which by means of two in a recess (5) of the foundation block (4) housed and separately supported spindle nuts (9 and 10) is adjustable. 5. Apparatus according to claim 4, characterized in that the adjusting the threaded spindle Spindle nuts (9 and 10) are to be driven hydraulically. 6. Device according to one or more of claims 2 to 5, characterized in that the steel girders (17) arranged around a projectile support (3 and 30) by means of horizontal support straps (18 and 18 ') are connected to each other, at the top of the wedge-shaped beveled inner ropes (19) the clamping wedges (20 and 20 ') for the storey support formwork (21) or the storey support (3 '). 7. Device according to one or more of claims 2 to 6, characterized in that at the upper ends of the steel girders (17) bearing recesses for one or more to be inserted here * are arranged supporting plates (31), which are arranged in the raised position of the storey ceiling (23) reach under the beams (24). 1 sheet of drawings 409 729/28 11.64 Q Bundesdruckerei Berlin