DE807225C - Fireproof ceiling made of reinforced concrete beams, hollow and rib stones - Google Patents

Description

Fireproof ones made of reinforced concrete beams, hollow blocks and ribs Ceiling 'The invention relates to a fireproof ceiling made of reinforced concrete beams, Hollow and rib stones.

Except those consisting of I-iron girders and temporarily stored wood Ceilings (so-called tram ceilings) have become known where the so-called dreams, the lintel formwork, the ash huts, etc. specially reinforced reinforced concrete girders are overlaid or temporarily stored. Such ceiling designs now have on the one hand the disadvantage that the iron girders bend in the event of fire and thus collapse effect of ceilings and walls. On the other hand, however, the reinforced concrete beam is used alone In the event of fire, very little if the individual beams continue to be in the form of wood Beams, boards and battens is temporarily stored. The wood is expensive in itself in this case necessary as the trusses not only support the lintel formwork and make special square timbers necessary for nailing the floorboards, but also the ceiling formwork for applying the plaster. For the production of solid ceilings a special formwork with its own special battens must be placed above the trusses.

The invention now starts from the standpoint, an outspoken one To create fireproof ceiling, primarily from any use of Apart from wood and also as a ceiling with reinforced concrete girders, no formwork whatsoever and intermediate feeding and thus lower production costs at greater static security and good insulation guaranteed.

According to the invention, this is essentially achieved by that the reinforced concrete girders, which are approximately I-shaped in cross-section, are inclined towards their webs extending flanges and their compression and tension reinforcing bars spaced from one another connecting and wrapping around these brackets, while between the carriers Filling or ceiling stones are introduced and wooden floors or solid floors are placed above the beams are upset.

Another distinguishing feature is that the individual Reinforced concrete girders with individual hollow chambers that are open towards one end face Hollow stones are temporarily stored with their transverse surfaces on the inclined flanges the carrier are stored and connected to them by a potting. The remaining Characteristic features are evident from the patent claims listed at the end.

The drawing shows the subject matter of the invention in exemplary embodiments again, which are also described below, but without the invention to restrict the same. Fig. I shows one for the inclusion of a wooden floor suitable reinforced concrete beam in cross section, Fig. 2 the same according to section A-B, Fig. 3 shows a cross section through the ceiling intended for a covering, FIG. 4 shows a Cross-section through a solid ceiling, Fig. 5 a rib stone according to section C-D, Fig. 6 the coupling of the reinforced concrete girders in elevation, Fig. 7 the same in plan view. The cross-section of the ferrous concrete girders is roughly I-shaped with the web b towards strongly sloping flanges c. The inside of this carrier lengthways directional compression reinforcement bars d as well as those provided in the lower flange Tensile reinforcement bars e are now available for the purpose of achieving an intimate mutual Stiffening among each other at certain intervals by pulling them up from one piece Brackets f, which start from the main tension rods and end there, by means of the Rods wound eyelets g in a fixed connection. Now these brackets point, just in case the use of the girder for covering, between the pressure reinforcement bars d a downward bend h in the form of a double-cranked crank on, within which a wooden slat i is embedded and over the length of the carrier is connected to the carrier, which is used to nail the transverse to this Floor boards k is used. There are still hollow stones between the individual beams l stored, the generated by transverse walls m and the purpose of good insulation serving hollow chambers n, each of which has one end face are closed and open on the opposite side. These are briefly measured in depth and therefore relatively manageable designed hollow stones are within two Carriers lined up in such a way that they with their transverse surfaces on the inclined flanges the carrier is stored and then connected to these by a concrete casting o.

In commercial rooms with solid floors, a rib brick p is stored above the hollow bricks l on the two beams a ', which are roughly inclined in the upper flange, in which in this case the bracket f' remains uncranked between the pressure rods d. A rib brick of this type has hollow ribs q arched radially downwards on both of its end faces, which then, in combination with the abutted neighboring bricks, result in hollow grooves r, within which, for reinforcement, a band iron or round iron s running across the girders is supported, which is supported by a the floor resulting infusion t is connected to the rib stone accordingly.

In both cases, the plaster P is applied directly to the lower surfaces of the girders a, a ' or the hollow stones l.

The longitudinal coupling of the reinforced concrete girders to one another finally takes place in such a way that, as Figs. 6 and 7 show, the pressure rods d projecting over the transverse surfaces of the abutting girders are bent with special eyelets u , which overlap centrally and are mutually connected by means of screws v are shed.

It goes without saying that this would now be contrary to the drawing and description also given the possibility of the reinforced concrete girders shown in Fig. i, a and 3 to use in the form of a so-called three-jointed association as a rafter, in this Trap the cast wooden battens are used to nail the roof battens.

Claims (1)

PATENT CLAIMS: i. Fireproof ceiling consisting of reinforced concrete girders, hollow and rib stones, characterized in that the reinforced concrete girders (a, ä), which are approximately I-shaped in cross-section, extend obliquely towards their webs (b) and their compression and tensile reinforcement bars (d, e) have brackets (f) that connect with one another at intervals and wrap around them, while filling or ceiling stones (l) are inserted between the carriers (a, a) and wooden floors or solid floors are applied over the carriers (a, a). z. Fire-proof ceiling according to claim i, characterized in that the individual concrete beams (a, ä) with hollow chambers (n) open towards one end face are interposed with individual hollow stones (l) which are supported with their transverse surfaces on the inclined flanges (c) of the beams and are connected to them by a potting (o). 3. Fire-proof ceiling according to claim i and 2, characterized in that in the case of the overlaying of the carrier (a) the bracket (f) used for reinforcement between the pressure reinforcement bars (d) have a bend (h) , within which one is the upper flange surface of the carrier protruding or with this approximately cutting off wooden slat (i) for nailing the floorboards (k) is mounted and connected. 4. Fire-proof ceiling according to claim i to 3, characterized in that for the production of solid floors between the upper flanges of the reinforced concrete girders (a ') special rib stones (p) are mounted, the end faces of which each have hollow ribs arched downwards (q) which in combination with the abutting neighboring stones result in hollow grooves (r), within which strip or round iron (s) running across the girders are stored and grooves and iron are connected by an infusion (t) that creates the floor. 5. Fire-proof ceiling according to claim r to ¢, characterized in that the mutual coupling of the longitudinally directed, one behind the other mounted reinforced concrete girders (ca, ä) is carried out through eyelets (u) which support the compression or tensile reinforcement bars projecting over the transverse surfaces of the girders (d, e) are bent and mutually connected by means of screws (v) and encapsulated.