DE913816C - Hollow stone beam or component made from it - Google Patents

Description

Hollow stone beam or component made from it For the production of concrete beams od. The like. So far you have mostly been dependent on the formwork construction, which is very is cumbersome, time consuming and costly.

Recently, hollow stones have also been used to manufacture beams be provided with steel reinforcing bars in channels. The invention relates specializing in the manufacture of beams from hollow stones designed for this purpose, which completely or partially enclose concrete bodies.

The construction according to the invention has the advantage that all concrete formwork omitted, since the hollow stones themselves are used as cladding instead, but which have a suitable shape for this purpose. With the previously known The reinforcement bars required for structural reasons became indiscriminate in construction methods placed in channels or cavities, they only had to provide the necessary total have load-bearing cross-section. It was therefore a cumbersome one for every ceiling construction Selection of the individual cross-section required for a total cross-section. Further the same type of steel was used for reinforcing bars in and outside the ducts or cavities. In the case of the hollow stone beam according to the invention, the overall cross-section is the reinforcing bars required for static strength divided into two parts, namely in a constant solid part, preferably made of special steel inserts Goodness that is far more than the dead weight, i.e. also part of the payload wear can, and in alternating inserts preferably made of rods of normal strength. Reinforcing bars of different quality are obtained in this way, but with a small cross-section allow greater exposure than before. Taking into account these different Building materials are chosen for the reinforcing bars in the separately arranged channels in the prefabricated beam a predetermined constant cross-section as a fixed, remaining part of the required total cross-section. So it's for everyone Beams are provided with a prescribed type of rebar, each as standard remains the same, while the additional reinforcement, for example in the joints between the bar is adapted to the prevailing static conditions. as Blocks for the beams according to the invention are advantageously used known hollow blocks with stiffening bars, which are equipped with channels in the corners or near the center of gravity in which the reinforcing bars have a uniform cross-section and higher load-bearing strength Find place. These hollow stones are put together to form a beam, and these are standard Constant reinforcing bars of fixed cross-section are then through the Channels carried out and potted in these in a known manner, so that the hollow stones serve as cladding. This construction has the advantage that one is uniform can produce cast beams from such hollow stones, so that only the static required additional rods, e.g. B. in the joints between the stones Need to become. While the hollow spaces of the hollow bricks are usually the case with ceiling joists more heavily loaded beams can remain empty using newer methods be poured, so that perfect concrete beams continuously within the strung together Hollow stones are created. For further solidification, according to the invention, in the cavities further additional reinforcing bars are poured in, which are also attached to the statically required overall cross-section.

For the beam according to the invention, hollow stones can be different Shapes such as those used for ceilings, lintels, walls, roofs or the like, to be used.

You can also choose lightweight concrete blocks of various shapes for this.

For a transport reinforcement of the hollow stone beam can also be known in Way, in addition to the channels mentioned, another channel can be arranged in the stones, the one rebar with the above-mentioned predetermined cross-section for the Time of transport to hold the loose stones together; this honorary staff is taken out at the place of use and then according to the invention in one of the intended Channels for the static reinforcement inserted and potted there.

The individual stones or bars can be combined with several different ones Forms put together to form a wide variety of components. so that for the lintels, door frames, walls or the like. Required shaping is created. According to the invention, a hollow stone is preferably used for these various designs provided with a stop which are used to hold door or window frames can, but also essential for symmetrical assembly with other stones Offers relief.

To form bars from the new building blocks, the individual Hollow stones on their end faces, as is known, provided with mortar and under pressure lined up, then the reinforcement lengths are centered in the Reinforcement channels or inserted into the other cavities and all hollow bricks at the same time potted together. The total cross-section statically required for the respective load the reinforcement is provided by the usual, here additional arrangement of further reinforcing bars supplemented in the joints between the stones. So it is every bar with the same Provided reinforcement, to each of which a further, corresponding to the respective conditions Additional reinforcement is arranged in the usual form.

The invention is illustrated in numerous examples in the drawing.

Fig. I and 2 each show a hollow stone with inclined webs, Fig. 3 and q. Lightweight concrete blocks of various shapes; Fig. 5, 6 and 7 represent hollow stones with reinforcement channels roughly in the center of gravity of the stones; Figures 8, g and io show the lateral joining of the hollow stones while filling the intermediate joints with concrete; FIGS. I i and 12 are cross sections through hollow stones according to FIGS. 6 and 7, in which additional rebars in the cavities filled with concrete are inserted; Fig. 13 shows the side assembly and the reinforcement of the Hollow stones according to FIG. 5; 14 to 25 show the possibilities of the composition the hollow bricks shown in the previous figures for a wide variety of building purposes, z. B. For ceilings, lintels, roofs, walls or the like, with additional reinforcing bars in cavities filled with concrete; Fig. 26 and 27 each show a section Hollow stones according to FIGS. I or 2 or .4 to 7 bars produced.

The hollow bricks should be provided with reinforcement channels; possibly, Depending on the type of use, the cavities can also be used to produce continuous Beams to be filled with concrete. In particular, hollow stones can be used here, where reinforcement channels are arranged in the lower corners. Such stones are in Figs. i, 2 and 8 in front view and in section. These hollow stones have i channels in the lower corners: 2 for Bewelirungsstänke 6 (Fig. 8), which in the Concrete filling of the channel 2 are centered. Because these corners are particularly stressed will, inclined webs 3 are arranged to support and stiffen the hollow stone. With lightweight concrete hollow blocks, as shown in Fig. 3 and 4. or 9 and io, can several such reinforcement channels 2 may be arranged, each of which is a reinforcing bar records. The reinforcing bars are all the same in cross-section and form only one Part of the reinforcement cross-section that is statically required for the total load. So there must be 8 additional reinforcing bars 7 (Fig. 8 and 9) inserted into the joints the different cross-sections depending on the load to be taken into account can have. Accordingly, two additional reinforcing bars 7 be arranged (Fig. 9).

The Fig. Q. to 7 relate to another embodiment according to of the invention, namely FIG. 4 shows a lightweight concrete block as a Z-block that, as in other exemplary embodiments, the channel q for the reinforcing bar approximately lies in the center of gravity of the hollow stone.

The external shape of such stones is known per se; only the Channel arrangement in the crossbar is used for the arrangement of the reinforcement according to the invention. In Fig.6 and 7 different shapes of hollow stones are shown, which both for ceilings, lintels or the like. Can be used as well as when the cavities get a concrete filling, for `Fände etc. The hollow stones according to Fig. 6 and 7 can In addition to the concrete filling, additional reinforcement inserts 9 received in the cavities, which are set in concrete (Fig. i i and 12). The cross-sections of these deposits then also form part of the statically required overall cross-section the reinforcement. According to Fig.7 is from the rectangular cross-section of the with three cavities provided hollow stone broken a corner and to a step or stop corner removed, can be included in the door or window frame. This too can Stone with the same (Fig. 16, 21) or with other stones (Fig. 18, 23) in any required positions can be connected.

The hollow stones according to Fig. I to 5 are mainly used for production from ceilings and lintels. So there are ceiling stones, while the Z-stone (Fig. q.) can also be used as a wall stone, just like the stone according to FIG. 5.

In FIGS. 14 to 25 the options for combining individual elements are shown Stone shapes shown for special purposes, whereby it should be noted that the additional Reinforcing bars can be inserted differently in the cavities of the stones. Thus, the stone according to FIG. 7 can be installed in a wide variety of positions, such as is already apparent from FIGS. 16 and 19 to 21. FIG. The additional rebars are always arranged below here. The rooms in which the additional rebars are filled with concrete, which is not shown in the drawing.

Another channel can be used in a known manner for transport purposes i i (Fig. i, 2, 3, 8 and 9) be arranged. For transport from production to the place of use If the hollow stones are put together loosely, then the channels i i a Reinforcing bar pulled to secure transport. At the place of use, the Reinforcing bars pulled out of the channels i i and then into one of the channels 2 or q. inserted in order to be poured with concrete in the center.

From FIG. 26 it can be seen how a beam is formed from hollow stones to form a continuous concrete beam. The hollow stones A, B, C are pressed against one another with their end faces io, which are mortared, while the reinforcing bars 6 are centered in the channels 2. By tensioning the assembled hollow bricks by means of the reinforcing bar 6, the pressure is exerted on the mortar layers. This requires special devices that are not to be mentioned here. The bar shown in Fig.26 consists of hollow stones according to Fig. I or 2. The bar according to Fig. 27 consists of hollow stones according to one of the Fig. Q. to 7.

By arranging the uniform reinforcing bars in the for it provided reinforcement channels is always a very specific part of the overall cross-section the reinforcement required for a beam is formed so that, depending on the intended use and the load, the additional part of the reinforcement has to be calculated. Because now, as shown in Fig. 9, also a multiple arrangement of reinforcing bars in the side joints is possible, which is known per se, is generally required relatively little reinforcement cross-section for the production of such structures. In any case, the arrangement of a uniform reinforcement for standard beams is for the overall production is particularly advantageous and can be standardized in a practical manner will.

Claims (5)

PATENT CLAIMS: i. Hollow stone beam or component made from it, such as a wall, Cover or the like, with inserted steel reinforcing bars, characterized in that that the total cross-section of the reinforcing bars required for the static strength consists of two parts, namely one inserted in the prefabricated beam, part (2, 6), which remains the same as standard in terms of strength, and consists of one the part (7, 9) adapted to the static conditions present in each case, the first is laid at the construction site. 2. hollow stone beam according to claim i, characterized in that that the reinforcing bars (2, 6) already inserted in the prefabricated beams Steel consist of higher strength than the additional ones laid on the construction site Reinforcing bars (7, 9). 3. hollow stone beam according to claim i or 2, characterized in that that the additional reinforcing bars (9) in cavities filled with concrete (5) are arranged. q .. Hollow stone beam according to one of claims i to 3, characterized by a stop to accommodate door or window frames or for diverse symmetrical assembly of beams (Fig. 7). 5. A method for producing hollow stone beams according to one of claims i to 4, characterized in that in the workshop for holding the loose hollow stones together on the transport to the construction site in a special channel (ii) known per se, as is known, a reinforcing bar (6 ) loosely inserted and transferred to one of the ducts (2, 4) for the static reinforcement on the construction site and poured there. Cited publications: German Patent Nos. 554729, 591 331, 726 753; Swiss patents No. 30,962, 36,368; French patents nos. 607 503, 724 852, 732 028.