DE3318764C2 - Reinforced ceiling beams made of brick and concrete - Google Patents

Abstract

The invention relates to a reinforced ceiling beam made of brick and concrete, which has a plurality of brick shells with a U- or C-shaped cross-section in an aligned arrangement to form a longitudinal cavity, the longitudinal cavity receiving the concrete and the metal reinforcement. In order to achieve continuous machine production of such a ceiling beam, according to the invention, a groove (5) for receiving the bent ends (7c) of brackets is provided in the opposite inner sides of the side walls (4) of each brick shell (1) near the floor (11) (7, 7 '), which form a lattice reinforcement (2, 2') with an upper longitudinal iron (9) and two lower longitudinal irons (8). is measured and thermocouple via the infrared radiant heater with a fan in

Description

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The invention relates to a reinforced ceiling beam made of brick and concrete, with several im Cross-section U- or C-shaped brick shells in a one behind the other aligned arrangement for formation a longitudinal cavity open at the top, which supports the concrete and partially a steel lattice girder as reinforcement receives, the one from an upper longitudinal bar and two to the upper longitudinal bar and parallel to each other running lower longitudinal bars as well as from the upper l.siingsstiib with the lower longitudinal bars by versi'hwcißung connecting brackets.

Such a ceiling beam is known from CH-PS 42,684. Here, the bracket of the Gitterträ gers are with their lower ends directly on the side of the longitudinal bars of the lower chord and are welded in such a way that the temple ends neither have a lateral deflection, nor protrude beyond the longitudinal bars of the lower chord downwards. The lattice girder is inserted into a concrete foot, which is formed with the help of U-shaped girder formwork blocks with inwardly directed edges at the free ends of the legs.The lower longitudinal bars are inserted into the girder formwork blocks under lateral pressure on the brackets of the lattice girder. As a result of the elasticity of the lattice girder, after the lateral pressure has ceased, the lower longitudinal bars spring under the inwardly protruding edges of the girder formwork blocks. Before the concrete is poured in, the support formworks hang on the lattice girder, whereby the lower longitudinal bars of the lower chord rest against the edges of the U-shaped support formwork blocks, which is disadvantageous in that these longitudinal bars are not completely surrounded by concrete. This leads if the support formwork blocks are cracked or brittle or if the butt joints of the lined up support formwork blocks are not exactly filled with grouting concrete, due to the ingress of humidity to rusting of the lower longitudinal bars. Furthermore, in the known lattice girder, the U-shaped girder formwork blocks hang on the lower longitudinal bars of the lattice girder and can therefore be transported without using a pallet placed beneath it, but the girder formwork blocks with the lattice girder inserted and not yet hardened concrete cannot be transported without using pallets underneath because, on the one hand, when the tensile force acts on the lattice girder in an exactly vertical manner, the lattice girder can slide sideways within the girder formwork blocks and, on the other hand, if the pressure of the lower longitudinal bars against the inner surfaces of the side walls of the girder formwork blocks is insufficient, the lattice girders are due to its own weight or in the event of slight accidental contact within the girder formwork blocks.

Furthermore, from DE-GM 17 65 942 a window lintel known, which can be laid without formwork work. The lintel consists of several stones having a channel-shaped recess, with continuous in the channel-shaped recess the stones reinforcing iron and / or a lattice girder is embedded in grouting concrete. The lower belt area of the lattice girder is covered with a concrete foot, which is in corresponding lower longitudinal grooves of the channel-shaped Recess of the stones engages. Thus, the longitudinal grooves of the stones only have the function of To connect the concrete foot of the lattice girder with the stones in a stable manner. This means that there is no way to use the lattice girder to move together with the stones before pouring the concrete or before it hardens.

Furthermore, from AT-PS 2 55 093 a U-shaped Cup stone known for a lattice girder, the lower longitudinal bars of which on the bottom of the cup stone are arranged, the walls of the cup stone on their inside with grooves, projections or beads are provided. Finally, from DE-GM 17 55 989 a prefabricated beam for ceilings made of concrete is known from a concrete core provided with reinforcing iron and a burnt, U-shaped one surrounding it Shell body, the inner surface of which is roughened by longitudinal grooves, consists.

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The invention is based on the object of providing a be F i g. 4 a cross-section through an alternative reinforced ceiling girder of the type mentioned at the outset to guide a ceiling girder according to the invention, which is easy to transport with inserted lattice girder without or. shaped brick shells ren is and in which at the same time the lower longitudinal bars of the 5 1 in a one behind the other aligned arrangement to the BiI lattice girder can be completely encased with concrete. tion of an upwardly open longitudinal cavity, in This object is achieved according to the invention in that a lattice girder 2 and an additional longitudinal rod 3 that the ends of the stirrups are inserted from their junction. Furthermore, the longitudinal cavity is filled with concrete 6, with the lower longitudinal rods facing outwards. Each brick shell 1 has in the arc and with their free ends each m one to opposite inner sides of the side walls 4 in associated, in the opposite inner sides of the vicinity of the bottom 11 a continuous groove 5. Side walls of each brick shell near the bottom continue to have the side walls 4 of the brick shells 1 engage in a longitudinal groove and that above the grooves 5 there are small ribs 12, which the bottom longitudinal bars of the filter support in the determination between the concrete 6 and the brick shells 1 th distance both to the inside of the side walls - is better.

de as well as to the bottom of each brick shell on the brackets The lattice girder 2 is made up of a large number of

are welded on. Iron 7 together on the two lower longitudinal rods 8

The bracket of the ceiling beam according to the invention bil- and an upper longitudinal rod 9 are welded. In one

the individual a stable connection between the brick shells has each bracket 7, which is essentially the shape

and the longitudinal bars of the lattice girder and also 20 of an inverted V has two upper straight pieces 7a,

already then, if there is still no concrete in the brick - the one below the other via a curved section 7b

shells introduced or if they have just been freshly connected, and two lower worn ends 7c,

clay was poured into the brick shells. which by means of curved sections 7d with the associated

This results in a simple handling of the upper straight pieces 7a of the bracket 7 connected

Ceiling beams without pallets underneath, which means that there are 25. The bent ends 7c are larger

also the possibility of increased production numbers with spread as the straight pieces 7a above

automatic manufacturing equipment is given Above inside in the curved section 7b between the two-

in addition, the brackets of the lattice girder of the ceiling hold the upper pieces 7a , the upper longitudinal bar 9 is attached.

support according to the invention, the longitudinal bars exactly welded, while inside in each curved section

punched from the side walls and bottom of 30 7d between each top piece 7a and the corresponding

Brick shells, so that the lower longitudinal bars of the grid end 7c are welded to a lower longitudinal bar 8

is completely encased in concrete at every point.

can be. the 7c in relation to the upper pieces 7a

In order to allow the use of spacers for the lower part of the longitudinal bars 8 attached to the outside of the brackets 7

ren longitudinal bars of the lattice girder to be welded superfluously.

chen, are in an embodiment of the invention, the lower case in the F i g. 1 and 2 shown ceiling beams

Longitudinal bars from the side walls and the bottom of the ger a lattice girder is used, the bracket 7 from

Brick shells kept equally spaced. individual elements. In contrast, shows

In a further development of the subject matter of the invention, FIG. 3 a lattice girder 2 ', the bracket T from a

the wing of the grooves course of the bent 40 single, continuous element to which the

Adapted ends of the bracket, whereby the connection longitudinal rods 8 and 9 are welded. Apparently

between the bracket and the brick shell is increased. In this case, the spread, bent ones lie down

To achieve easy insertion of the ends of the ends of the continuous stirrups T in the grooves 5 of the

the bracket in the grooves of the brick shells is on a brick shell 1.

Preferred embodiment of the object of FIG. 45 The special shape of the lattice girders 2, 2 ′ permits the

Invention of the Uode ^r i of the brick shells in cross section use of spacers 10 for the additional

provided with a trough-shaped recess, which is divided into longitudinal bars 3, whereby compliance with the standards

the lower surface d ^ ^r opposing grooves in the clear of the shortest distance from the surfaces

Sidewalls of the Z '^ gel shells passes over. of the concrete is guaranteed. The additional longitudinal bar

With another *! advantageous embodiment of the 50 3 is by snapping into the ring-shaped distance shark invention each side of the side walls of the slide 10 made of plastic is inserted.

gel bowls above deep groove with small ribs. 4 illustrated embodiment of the

hen. As a result, the bond between the concrete ceiling beam is the bottom 11 of the brick shells 1 in the

and improved the brick shells. Cross section with a trough-shaped recess 13

In a further, preferred embodiment 55, which is provided in the lower surface 14 of the opposite

of the invention, the brackets of the lattice girder consist of lowing grooves 5 in the side walls 4 of the brickwork

a single, continuous element, skipping the len 1. Since the engaging in the grooves 5

Manufacture of the lattice girder is simplified. Ends of the bracket 7 are made shorter than when the

The invention is described in the following exemplary embodiment according to FIG. 1, the two lower ones are

Exercise on the basis of several exemplary embodiments, which are welded to the inside of the bracket 7 in 60 longitudinal bars 8. Of the

are shown in the drawing, explained in more detail. It shows the distance between the longitudinal rods 8 and the trough-shaped construction

F i g. 1 a ceiling beam made of brick and concrete after taking 13 in the floor 11 and to the side walls 4

of the invention in cross section, the brick shells 1 is thus fixed unchangeably.

F i g. 2 is a side view of an end portion of the order to connect the ends 7c of the bracket 7 to the

Ceiling beam according to F i g. 1 to increase 65 brick shells 1 on a reduced scale, the wing 5a is the

and partially in section, grooves 5 for the bracket 7 the course of the bent

Fig. 3 is a view of the ceiling support according to Fig. 2, ends 7c of the bracket 7 adapted,

with another lattice girder and to produce the ceiling girder are first

the brick shells 1 aligned and arranged in the number that corresponds to the desired total length of the ceiling beam is equivalent to. In the longitudinal cavity formed by the aligned brick shells 1 is then if it is considered necessary from the calculation of the ceiling support to be produced, the additional one Longitudinal rod 3 inserted.

This longitudinal rod 3 is inserted by snapping it into the annular spacers 10 made of plastic, which are at a certain distance from one another and which remain in the brick shells 1. The spacers 10 hold the additional longitudinal rod 3 at the required distance from the bottom 11 of the brick shells 1. Then the lattice girders 2 or 2 'are inserted into the longitudinal cavity of the brick shells 1. The lattice girder is pressed together with suitable devices until its transverse dimension enables it to be inserted into the aligned brick shells 1. When the bracket 7 or T touch the floor 11 or the trough-shaped recess 13 of the brick shells 1, the compressive effect is reduced in such a way that the elastic restoring force of the lattice girder in the initial position causes the bent ends 7c of the bracket 7 in the longitudinal grooves 5 snap into place. Now the concrete 6 is poured into the longitudinal cavity of the brick shells 1 until it is completely filled and then shaken, if necessary, before it hardens

It should be noted that, in the case of the lattice girder, the stirrups have the function of removing the longitudinal bars 8 from the floor and to keep a distance from the side walls of the brick shells I. In this way the longitudinal bars be completely embedded in the concrete.

Due to the connection between the brick shells I and the lattice girder 2, 2 ', it is possible to use the Moving ceiling beams before the concrete has hardened and even before the concrete is poured. this enables the production of ceiling beams with industrial equipment and consequently with increased production speed and consequently lower costs.

For this purpose 3 sheets of drawings

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Claims (6)

Patent claims: 1. Reinforced ceiling girders made of brick and concrete, with several in cross-section U- or C-shaped brick shells in a one behind the other aligned arrangement to form an upwardly open longitudinal cavity that holds the concrete and as reinforcement partially a steel lattice girder, which consists of an upper Longitudinal rod and two lower longitudinal rods running parallel to the upper longitudinal rod and to each other as well as brackets connecting the upper longitudinal bar to the lower longitudinal bars by welding, characterized in that the ends of the brackets are bent outwards from their connection point with the lower longitudinal bars and with their free ends each engage in an associated, in the opposite inner sides of the side walls (4) of each brick shell (1) in the vicinity of the bottom (11), longitudinal groove (5) and that the lower longitudinal bars (8) of the lattice girder (2.2 ') at a certain distance both to the inside of the side walls (4) as well as to the bottom (11) of each brick shell (1) are welded to the brackets (7, T). 2. Reinforced ceiling beam according to claim 1, characterized in that the lower longitudinal bars (8) of the sides walls (4) and the bottom (11) of the brick shells (1) are kept at the same distance. 3. Reinforced ceiling support according to claim 1 or 2, characterized in that the support surface (5a) of the grooves (5) is adapted to the course of the bent ends (7c) of the bracket (7, T). 4. Reinforced ceiling beam according to one of claims I to 3, characterized in that the The bottom (11) of the brick shells (1) is provided with a trough-shaped recess (13) in cross section which merges into the lower surface (14) of the opposite grooves (5) in the side walls (4) of the brick shells (1). 5. Reinforced ceiling beam according to one of claims 1 to 4, characterized in that each The inside of the side walls (4) of the brick shells (1) is provided with small ribs (12) above the groove (5) is. 6. Reinforced ceiling beam according to one of claims 1 to 5, characterized in that the bracket (7 ') of the lattice girder (2') consist of a single, continuous element.