DE7906599U1 - DEVICE FOR CREATING A FIXED REFERENCE POINT IN THE SHELL - Google Patents

Description

The invention is based on a device for creating a fixed reference point in a shell according to the genus of Main claim. A shell component is used as a known device of this type, on or on which a reference point is then established for the construction phases still to be built. Here it is relatively expensive and hardly achievable that one is at Walls resulting final layer just gives the reference point height that would be desired, for example as the exact lower edge of the hedge. Around however, to proceed inexpensively, certain deviations from the

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Planning data accepted, so that, for example, the exact floor heights for the manufacture of the stairs only after Completion of the shell to be measured. The necessary height can then be achieved by dividing these structural dimensions accordingly one step of the stairs can be calculated. Until completion \ mg of the shell, emergency or construction stairs are usually built, which then later make room for the adapted stairs must, or prefabricated stair beams are provided, which will then be documented later after appropriate correction. Such a raw staircase is sometimes also used in construction concreted, which, however, is very complex and can only be done sensibly when the floor receiving the stairs is already there is bricked up in the shell. The stairs are therefore not available at the beginning of the high wall. There is also the concreting a staircase is complex and prefabricated concrete stairs are relatively imprecise, these elements are not suitable for Representation of reference points, all the more so as they are not available as such from the outset.

Underlying task

The invention is based on the object of avoiding the disadvantages of the prior art and a

Device _{to be} developed

which the reference points or crack points as exact and

immovable building sizes result and in addition to the prefabricated precise definition of the reference points / elements are used, so that an additional rationalization is given.

Advantages of the invention

The device according to the invention with the characterizing features of the main claim has to solve the problem compared to the prior art, the advantage that apart from the creation of an exact reference point a considerable Cost savings are made. The cost savings are based on the one hand on the fact that a raw staircase is available from the start of construction stands, which makes temporary staircases superfluous, and that on the other hand the steps are precisely defined from the start are what enables series production of such a staircase or a dimensional definition from the start of construction.

In particular in the subclaims are advantageous refinements of the invention can be seen. It is particularly important to note that with rising wage and consequential costs the invention brings with it a considerable cost saving, quite apart from the reduction in construction time and the resultant Possibility of earlier use of the building. Additional costs for the assembly of a construction staircase and / or final stairs are therefore not required.

\ drawing

An embodiment of the inventive device is shown in the drawing and described in more detail below. 1 and 2 show the staircase device in two views offset by 90 ° according to the arrows II-II and I-I, 3 shows a plan view of the staircase device and FIG. 4 shows a detail from FIG. 2 on an enlarged scale.

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Description of the example of the invention

In Figures 1 to 3, a two-storey staircase device 1 is shown in three views, with thinner parts than nu | a drawing line has been drawn through. This stair device 1 consists of parts made of sectional steel welded together firmly and is designed to be self-supporting. After building the foundations 2, in particular for ^ the stair, house, the stairs device is set up, namely to '■ the point is to occupy it permanently. Possibly V the feet of the stairs will be anchored in the foundation 2.

So that the staircase can already be used during the construction of the walls that were not yet erected when the staircase device was erected, it is supported by props 3, which are removed again after the walls have been erected. Anchors 4 are firmly welded to the staircase device 1, which protrude like a hedgehog after the staircase device has been erected, in order to then be covered by the masonry in sections during the construction of the staircase walls 5 shown here in phantom. After erecting the walls 5, these anchors take 4 supporting forces, so that the props 3 can be removed. The staircase device consists of the actual stair r frame 6, the railings 7, transverse connecting struts 8 as well as angle rails 9. The railing 7 contain handrails 10 that are welded over rungs 11 with a lower boundary profile 12 firmly so that statically with the vertical railing posts 13 stable elements are created. In the inclined railing parts, the rungs 11 are only partially shown in order not to obscure the representation. However, they also connect the handrails 10 with profile pieces of the staircase, namely the stair frame 6. The stair frame 6 consists in particular of mitered and then welded square profiles, on whose horizontal sections 14 f

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Stair treads 15 are attached.

The stairs 15 can be cut from building planks during the shell construction, which then after completion of the Baus can be replaced by, for example, precious wood steps. The vertical sections 16 of the stair frame 6 can under It may also be part of the rungs 11. For this, the step 15 would have to be correspondingly notched at this point the. DerTreppenrahrnan 6 furthermore consists of an outer stair frame 17 and an inner stair frame 18. While the inner stair frame 18 by the rungs 11 and the hand

ν · 'run 10 receives a high static stability is the outer one

Stair frame 17 is only attached by the struts 8 and the angle rails 9. For self-supporting installation These elements are sufficient for the staircase device. However, if used during the construction period, ί wrote props 3 the outer stair frame 17 additional | lent support. i

The angle rails 9 are so long that their end sections are covered with the masonry. However, they are an extremely important element during construction as a fixed reference point for all height dimensions of the building. So r once the stairs device positioned and adjusted so

is assumed from this angle rail 9 for the height dimensioning of the building to be created. As from the figures and 4 can be seen, forms the upper edge 19 of the perpendicular Schenkels the reference edge for the final floor. The horizontal leg 20 of the angle rail 9 corresponds with its surface of the floor height 21 of the shell ceiling 22 of the stairwell landing. The staircase landing in turn has the same floor height as the rooms adjoining the stairwell. The inner leg length the angle rail 9 thus corresponds to the floor structure of

generally consists of an insulation 23, a screed 24 and a floor covering 25. The thickness of this floor structure can be 10 cm. On the lower leg of the angle rail 9 anchors 26 are welded, the one Establish a permanent connection with the platform ceiling 22. The ends 27 of the stair frames 6 are also placed in the platform ceiling 22 concreted in. The railing posts 13 are then welded to the angle rail 9 and the stair frame 6 at the same time, what statically brings considerable stability with it.

When the platform ceiling 22 is shuttered, the vertical leg of the angle rail 9 forms a guide for the outer surface the face formwork of the platform ceiling. The end face 28 of the platform ceiling is therefore final after the formwork has been removed set back relative to the vertical leg of the angle rail 9. This achieves several advantages. One advantage is that the plaster does not protrude beyond the angle rail when plastering is carried out at a later date, on the contrary, it is even set back from its vertical face. There is another benefit to relocation in the fact that naturally occurring cracks between the angle rail and due to the different materials the platform ceiling 22 do not appear in one plane, but rather in the angle formed by the rail and the end wall of the ceiling. Since the front edge 19 of the angle rail 9 simultaneously determines the top step of the stairs of a floor, the should vertical cheek of the step in front of it to be set back for the desired freedom of steps, which is due to the type of arrangement the angle rail 9 would be given.

In summary, it can be said that through the invention on the one hand, enormous rusts can be saved during construction, which is necessary to create a temporary building staircase.

times incurred, and that secondly, due to the stable construction set up before the start of construction, reference points for the Building direction to be created, dia by one for dimensional accuracy crucial construction phase, namely the stairwell.

Claims (1)

PROTECTION CLAIMS 1. Device for creating a fixed reference point (crack point) in the shell, especially at the level of the upper edge of the floor (OKF) of a building during the shell after completion of the foundation work, but preferably before erecting the walls, characterized in that the Device is designed as a staircase (1), has feet that are firmly mounted on and / or in the foundation (2), can be used as a construction staircase and has horizontal sections (9, 15) which form fixed reference points. 2. Apparatus according to claim 1, characterized in that the height of the device is the final height of the stairs (1) corresponds. 3. Device according to claim 1, characterized in that the device consists of a given number of partial stair units exists, the heights of which correspond to the height of a floor: of the building ". 4. Device according to one of claims 1 to 3, characterized in that that on the stairs (1) for stabilization with 11 · ■■} t · I } «· · ■ · ill ti · ) · Ft «1} ■» ti · t · j, ι ■ it 14Y, 4 / ot / hn May 4, 1979 - 2 - the masonry connectable anchor (4) are arranged. I 5. Device according to one of claims 1 to 4, characterized in that I indicates that the staircase (1) is shaped like a scaffold and consists of j consists of permanently connected metal profiles (steel profiles), I that a handrail profile (10) with railing rungs (11) for I. Absorption of perpendicular forces on the stair frame ί; men (6) is arranged and that an inner and an outer 3- ' I stair frame (17, 18) through horizontally running pro I file are linked. I 6. Apparatus according to claim 5, characterized in that i the inner stair frame (18) through the railing rungs I (11) is attached to the railing (7). 7. Device according to one of claims 1 to 6, characterized in that. indicates that an angle profile (9) at the exit of the stairs is arranged that the horizontal leg (20) of the angle profile on the stairwell landing (22) to be erected i3t that on the horizontal leg (20) anchor (26) are arranged, which connect the Winkelprofii (9) firmly to the pedestal, and that the vertical leg of the angular profile (9) is directed upwards and in its width corresponds to the thickness of the intended floor covering (insulation 23, screed 24, step covering 25). 8. Apparatus according to claim 7, characterized in that the handrail (10) at least at the end with a railing Il * "-.-" β M B * · · tttt 11 ft ···· ti « C · · ··· ■ «ei · it »· * · <* c et« 1414 / ot / hn May 4, 1979 - 3 - post (13) is connected, which is attached to the angle profile (9) and in another plane on one of the stair frames (6). 9. Device according to one of claims 1 to 8, characterized in that that at least one railing post (13) floor height having. 10. Apparatus according to claim 8, characterized in that one railing post (13) at the beginning and one at the end Handrail (10) is provided and that the posts (13) at least two of the platform (22) facing frame corners of the Form the stair core. 11. Device according to one of claims 5 to 10, characterized in that on the underside of the with the outer Stair frame (17) connected handrail (10) is arranged at the height of the platform an anchor to be walled off.