DE820960C - Reinforced concrete rib ceiling - Google Patents

Description

Reinforced concrete ribbed ceiling forms the subject of the present invention Another embodiment of the patent 815400. After this is an iron concrete ribbed ceiling produced in that the concrete core the inner space between the two beam profile legs not completely filled, but one in the bar in the area of the neutral zone of the same Can exist cavity.

According to the invention, this construction is also essentially thereby improved that the cavity of the beam is designed to be conical in cross section, whereby the formwork of the beams in the manufacture of the same is facilitated. Otherwise, just as with the existence of the main patent, this is also the case Invention placed value on the tail-shaped cross-section of the concrete core, which is created by the beveled end edges of the ceiling panels.

Due to the dovetail shape, the one above the cavity afterwards Concrete core to be concreted creates a fixed, immovable connection between the ceiling joists and ceiling tile components, if due to contamination in the rubble Material loosening should occur.

The curved hanger baskets, if possible made of structural steel mesh can expediently also consist of two parts, a bracket basket for the middle one Beam part and one bracket basket each for the area of the beam ends, with the the latter hanger baskets with approximate consideration of the variable horizontal Shear stresses the distance between the temples is only half is as large as the spacing provided for the middle bracket basket. This short one Distance can also be achieved at the ends by adding two hanger basket parts there of the middle structural steel fabric is used, which are then against each other by half a bracket distance be moved.

Be over each inner edge of the upwardly open beam legs then two anchor irons welded to the bracket cages arranged in the direction of the beam, on which the round bars concreted in the channels between the ceiling panels placed and the latter then with the upper ends of the curved hanger baskets each other intersecting in the cavity of the beams above the neutral fiber been.

The ends of the structural steel mesh embedded in concrete in the ceiling panels are bent to hooks or round bars and connected to one another, making secondary direct Tensile transmissions at the same time avoided undesired displacement of the ceiling panels will. Due to the iron bracket protruding from the upper beam profile edges also limits an undesirable position of the ceiling panel front edges and a Prevents improper displacement of the same during their assembly on the ceiling joists.

Next to the anchor irons provided at the ends of the ironing baskets should be the iron reinforcement on each side of the bracket in the area of the beam profile reinforcements each received a carrying iron.

The upper, bent ends of the temple are so far apart that that through their gap a covering the beam cavity and the bottom of the Concrete core forming thin plate can be inserted.

It should now be free to choose the decJkenbalken either from a Produce a uniform U-profile cross-section or the beam support by perpendicular Separation of the lower cross section of the foot while maintaining the central cavity to be divided into two lateral, separate profile halves. In the former case get the connected U-shaped irons at every lower corner bend a stronger carrying iron each.

In the case of split beam girders, the cross connections should be in the middle cut through hanger baskets at their corner bends with additional thin carrying irons are provided. Both in the undivided and in the divided beam profile the lower carrying irons should be able to be prestressed.

After the requirements of the two lighter in the latter case Beam halves in special shaped bricks built into the building walls are inserted and aligned correctly, are placed on the rectangular shaped, At the bottom, two joist feet placed next to one another, if possible factory-made carrying iron mats placed, which fit into the provided hollow joint spaces of the joist feet.

The long sides of the beams should then be at certain distances Hole openings for screw bolts to be inserted, with which the two Beam profiles are pressed together. After assembling the beam parts into one common V-beam profile is grouted in the upwardly open beam cavity from above poured onto the inserted carrying iron mats.

On the lengthways of the V-ceiling joists at certain distances screw bolts arranged from one another are to be fastened with parallelogram-like retaining blocks whose two side boundary lines are at the one lower corner of the retaining block at an acute angle and at the other lower corner an obtuse angle with the Form soffit plate direction.

In order to save on ceiling plastering work is now to be used as soffit panels lightweight plastic material used «ground, with the panels at their side edges Front and rear with cross-section rectangular reinforcement strips with bevelled edges Received ends that are bevelled into the analog at acute or obtuse angles Insert the side edges of the retaining blocks so that they fit. In this way, groove notches become formed, which then act as a spring lower, acute-angled shaped The corners of the retaining blocks.

The mutual abutment of the soffit panels should not be perpendicular the center of the fastening bolt of the retaining blocks, but laterally in the direction the acute-angled corners of the retaining blocks are moved beyond the same, so that the butt joint of the soffit panels between your through the acute-angled Corner and the front edge of the soffit plate formed projection horizontally and is clamped vertically immovable.

The device of the underside arrangement can be used for coffered ceilings as well as for smooth soffit ceiling surfaces.

The foot of the ceiling joists can then receive a plaster surcharge, as a result of which the side connection of the soffit plate edges to the ceiling joists is tightly closed and is supported.

Rock wool, glass wool or reed can be used on the soffit panels or similar insulating material are poured up.

The profile construction of the V-beams can also be used as roof beams Can be used, with crossbars made of reinforcing iron as a support for roof tiles to be built in.

With regard to sound insulation, a distinction is made between sound transmission through the walls on the one hand, through the ceilings on the other. Comes to the blankets mainly a sound conduction through the building material irr question. the more airtight the space to be penetrated, the stronger the space against the transmission secured by airborne sound. Completely closed inner cavities of the ceiling beams are therefore favorable for sound insulation. Likewise weaken the air spaces between the ceiling joists. their bottom with strong sound-absorbing glass wool or Slag wool is covered, the airborne sound transmission is greatly reduced. The reproduction of the sound in Masonry, on the other hand, is less, the smaller it is is the sound conductivity of the building materials. This structure-borne sound transmits see in In a building, the stronger the denser the material and the more intimate the ceilings with it your N-masonry are connected. The propagation of structure-borne noise in ceiling structures arises from the fact that one vibrating body transfers its vibrations to another Body transmits. A prevention of structure-borne noise transmission from the ceiling to the load-bearing wall is achieved by not having the ceilings in the masonry of the wall firmly clamped, and if possible with a sound-absorbing intermediate layer isolated.

In the case of the V-ceiling according to the invention, deshall) for the support the ceiling joists special, designed according to the outer shape of the beam cross-section Special stones built into the wall, and the. Beams are in these intermediate stones not firmly clamped, but still by intermediate storage of porous plates of these support stones separated.

The ceiling tiles should also be replaced by vertical insulation board strips be separated from the wall walls, and the floor covering put on without insulation panels should be brought up to the vertical insulation board strips under the rubbing strip will.

Taking into account the insulating effect of the V-I) corner construction the arrangement of a special insulation board under the floor covering is declined.

In the graphic representation of the invention, FIG. 1 shows a cross section of the ceiling beam with two divided profile halves, FIG. 1I shows a longitudinal section between two ceiling beams, FIG. 11 1 shows a cross section between two ceiling beams which have remained undivided in their entire U-shape: IV and V show, in longitudinal section, a plan view of the underside plate clamp, FIG. VI a corresponding cross section; FIG. VII shows the support of the ceiling beams in special shaped bricks; FIG. VIII shows the use of the V-beams as a ceiling construction; Fig. IX shows a cross section through a continuity joint; in Fig. XI, XII, XIII and XIV the arrangement of the iron reinforcement is shown in longitudinal section. In the figures, i mean the arrangement of the grouting concrete in the cavity created between the ceiling joists and ceiling panels, 2 di: profile legs of the ceiling joists, 3 the inner cavity thereof, 4 the iron bracket with the welded anchor iron 5. On the channels 6 filier the side edges of the ceiling panels 7 lies the transverse reinforcement B. The ceiling panels are reinforced by round bars 9, which are connected to each other by hooks io and Üson ii. Support iron mats 12 and 13 are placed on the foot of the ceiling joists 2. The irons 4 have carrying irons 14 at the top. The inner cavity 3 of the ceiling joists 2 is closed at the top by a thin plate 15. The mutual distance of the iron stirrups 4 in the central beam part 16 is greater than at the Emden 17.

In the event of a continuity joint between two ceiling beams 1 and 19, 3 reinforcement bars 20 are inserted into the cavity, which are later embedded in grouting concrete 21. Sound-absorbing intermediate layers 23 are placed on special shaped bricks 22 built into the wall. The lower foot 24 of the ceiling joists should also be able to be divided into two profile halves 25 and 26. In this case, the brackets 4 receive an additional support iron 27 at the lower corner bend. Hole openings 28 are provided in the ceiling joists 2. to which by screw bolts 29 retaining blocks 3 i are attached. By casting concrete 30 on the support mats 12 and 13 , these screw bolts 29 are also concreted in place.

The lateral boundary lines 32, 33 of the retaining blocks 31 form acute or obtuse angles with the direction of the soffit plate 34. Reinforcing strips 35 are placed on the soffit panels 34 and form notches 36 with the soffits. The butt joints 37 of the soffit panels 34 are not perpendicular under the retaining block centers 3i.

Instead of a cassette arrangement 34, the soffit panels can be used also lay as a smooth, even ceiling surface 38. For sound and heat insulation glass wool 39 can be used or glass wool mats 4i can be placed on tensioning wires 4o, whereby new cavities 42 and 43 arise.

The V-ceilings can also be laid out as roof beams 44 Use roof tiles 45 on reinforcement bars 46. Insulation board strips 47 as a side boundary of floor coverings 48 are arranged vertically behind rub rails 49.

The ceiling joist feet 24 receive up to the bottom face plate 34 one Cleaning surcharge 5o.

Claims (13)

PATENT CLAIMS: i. Reinforced concrete ceiling made of finished hollow beams and slabs and a dovetail-shaped concrete core, which is provided in the cavity of the beam and the space above it in the ceiling plates, according to Patent 81,5400, characterized in that the hollow space of the beam (3) is conical in cross-section . 2. Eisenheton rib ceiling according to claim i, characterized in that it is marked, that over each inner edge of the upwardly open beam legs (2) in the longitudinal direction of the beam two anchor irons (5) welded to the bracket baskets are arranged on which the round bars (8) embedded in concrete in the channels (6) between the ceiling panels (7) and the latter (8) then with the upper ends of the curved hanger baskets (4) themselves cross each other into the upper cavity (i) above the neutral fiber the bar (2) are stored. 3. Reinforced concrete ribbed ceiling according to claim, i and, 2, characterized in that the ends of the concreted in the ceiling panels (7) Structural steel mesh (9) bent into hooks (io) or round eyes (i i) and inside of the upper concrete core (i) are interconnected. 4. Reinforced concrete ribbed ceiling one of claims i to 3, characterized in that the iron reinforcement of the Beam profiles (2), on the one hand, from curved, welded-together bracket baskets (4) consists in the area of the upper beam profile reinforcements on each side of the bracket a carrying iron (14) and an anchor iron (5) on each of the upper brackets, whose mutual distance at the top of the head is so far apart that through their space before the ceiling panels (7) are laid, which form the beam cavity (3) covering and the bottom of the concrete core (i) forming thin plate (15) can be inserted is, on the other hand, the iron reinforcement of the beams from two support iron mats welded together (12 and 13), of which the lower one is placed on the curved bracket baskets (4) Support mat (12) is arranged over the entire length of the beam (2), while the one above lying support iron mat (13) is only in the area of the middle beam extension (2) is located. 5. Reinforced concrete rib cover according to one of claims i to 4, characterized characterized in that the curved bracket baskets (4) made as structural steel mesh suitably consist of two parts, a bracket basket for the middle part of the beam (16) and one bracket basket (17) each for .the area of the Balkerrendien, with the the latter hanger baskets (17) taking into account the variable horizontal Shear stresses the distance of the stirrups from one another is only half as great as the distance provided for the middle bracket basket (16). 6. Reinforced concrete rib ceiling according to one of claims i to 5, characterized in that the Ceiling beams special, designed according to the outer shape of the beam cross-section Stones (22) are built into the wall and the balances are not firmly clamped in the masonry, but through sound-absorbing intermediate layers (23) of these support stones (22) are separated. 7. Reinforced concrete rib ceiling according to one of claims i to 6, characterized characterized in that the ceiling beam (2) by perpendicular separation of the lower foot cross-section (24) while maintaining the central cavity (3) in two side profile halves (25 and 26), which may be held against one another by a screw (29), is divided and the one cut through at the bottom in the middle of their cross-connections Hanger baskets (4) have additional support irons (27) at their corner bends, which are preferably biased. B. Reinforced concrete rib ceiling according to one of the claims i to 7, characterized in that on the V-ceiling beams (2) in their longitudinal direction at certain distances from each other by means of screw bolts (29) parallelogram-like Holding blocks (3i) are attached, the two side boundary lines (32, 33) on the one lower corner of the retaining block (3i) an acute angle and at the other lower corner Corner make an obtuse angle with the soffit direction (34). 9. Reinforced concrete rib ceiling according to one of claims i to 8, characterized in that the soffit panels (34) preferably made of plastic material on their front and rear side edges have reinforcing strips (36) with beveled ends that are rectangular in cross section, which are bevelled at an analogous acute angle (32, 34) or obtuse angle (33, 3-k) Insert the side edges of the retaining blocks (31) so that they fit. ok Reinforced concrete ribbed ceiling Claims i to 9, characterized in that the mutual abutment (37) of the soffit panels (35) not arranged vertically under the center of the fastening bolt of the retaining blocks (3i) is, but laterally in the direction of the acute-angled corners (32, 34) of the retaining blocks (31) is shifted beyond the same. i i. Reinforced concrete rib ceiling according to claim i, characterized in that the V-beams can also be used as roof beams (44) are, where as a support for roof tiles (45) crossbars made of reinforcing iron (46) are built in. 12. Reinforced concrete ribbed ceiling according to claim i. characterized, that the ceiling panels (7) by vertical insulation board strips (47) against the wall walls are separated and the floor covering (48) placed without insulation panels under the Rubbing strip (49) is brought up to the vertical insulation board strip (47). 13. Reinforced concrete ribbed ceiling according to claim i, characterized in that the foot (25, 26) of the ceiling benches (2 or 24) receives a cleaning surcharge (5o).