DE3624013A1 - Prestressed-concrete truss - Google Patents

Abstract

The truss produced from prestressed concrete has an L-shaped cross-section and a planar, lower base surface which lies in one plane and forms an angle of 60 DEG with a narrower side wall of the truss and an angle of 30 DEG with a wide side wall of the truss. Reinforcements are integrally formed on the free ends of the narrower truss side wall and of the wider truss side wall. Said reinforcements are configured differently such that a plane which runs through their connecting butt seams lies outside an upper straight ridge line which is formed by a corner region of the reinforcement of the narrower truss side wall. The wider truss side wall is slightly arched. Reinforcements are equipped with latching grooves and latching protrusions.

Description

The invention relates to a prestressed concrete girder. It has so far been common to use prestressed concrete ties with predominantly to use the same angles that are conventional after the Laying received the roof covering. This design has the disadvantage that during bad weather periods or in In winter at temperatures below 5 ° C the construction work delay because of a flat roof covering made of technical Reasons is not possible.

The invention has for its object to overcome these shortcomings eliminate and a prestressed concrete embodiment create with the factory, commercial, sports, warehouse and Sales halls by laying and lining up Prestressed concrete girders can be waterproofed in no time can be. To solve this problem, Invention according to suggested that the one made of prestressed concrete Binder has an L-shaped cross-section and a flat, lower one Base area that lies in a plane, which with a narrower side wall of the truss an angle of 60 ° and with a wider side wall of the truss forms an angle of 30 °. Through this training achieved that spans up to 24 meters through free load-bearing laying of the prestressed concrete girders sen. The prestressed concrete girders are on one support side firmly anchored and on the opposite support side laid smoothly.  

In a preferred embodiment of the invention the free ends of the narrower binder side wall and Reinforcements molded onto the wider binder side wall be. This will bring the individual together Prestressed concrete truss simplified and the stability of the ver binding points improved.

According to a further feature of the invention, the reinforcements of the truss sidewalls can be designed in such a way that a plane (s) , which runs through their connecting butt joints when two strings are lined up, lies outside an upper ridge straight line that extends from a corner region of the Reinforcement of the narrower binder side wall is formed. This training is recommended for technical and structural reasons.

The gebil an end of the two assembled reinforcements seating width (B) can be as wide as the width (b) of the base.

It is recommended to use the narrower side wall of the truss Form openings for the installation of windows.

Fasteners can be attached to the wider side wall of the truss supply elements for devices of solar technology, the Domestic hot water or brine technology can be provided.

One side wall of the truss can be made with pipes, preferably be made of plastic, attached to heat pumps or the like can be connected.

The outer walls of the truss can be covered with a roof cover and an insulating layer with thermal insulation and steam lock be equipped.  

Furthermore, in the binder above the base drainage gullies are embedded, with drainpipes cooperate.

In a second embodiment of a prestressed concrete girder the wider Binder sidewall is slightly curved. Here the stability is increased significantly. In this The reinforcements at the free ends of the case Prestressed concrete girder with locking grooves or locking projections be equipped that interlock in pairs.

In the drawing, the invention is in one embodiment example shown. It shows

Fig. 1 is a created by stringing together and joining prestressed concrete ties ceiling for a room in a perspective view,

Fig. 2 a prestressed concrete girder in section, and

Fig. 3 two interconnected prestressed concrete girder also in section, and

Fig. 4 shows a second embodiment of a Spannbe tonbinders in section.

The ceiling 10 shown in FIG. 1 for a hall is composed of a plurality of prestressed concrete ties 11 , which can be strung together and connected to each other. The prestressed concrete girders 11 can be manufactured up to a span of 24 meters and laid self-supporting.

In Fig. 2, a prestressed concrete binder 11 is shown in section ge. As can be seen from this, it is L-shaped in cross section and equipped with a flat base surface 13 . The plane of this base area 13 forms an angle of 60 ° with a narrower side wall 14 and an angle of 30 ° with a wider side wall 15 (cf. FIG. 2).

The free ends 16, 17 of the binder side walls 14, 15 are equipped with reinforcements 18, 19 . These are shaped differently. As illustrated in FIG. 3, the connection butt joints 20, 21 lie in a plane (e) which lies outside a ridge line 22 , which is a corner region 23 of the reinforcement 18 of the narrower binder side wall 14 . The support width (B) of the joined reinforcements 18, 19 is as wide as the width (b) of the base 13 .

In order to allow natural illumination, 14 apertures 24 are provided in the narrower side walls Binder, 25 or panes of glass or transparent plastic are inserted into the flush-mounted window.

On the wider binder side walls 15 Vorrich lines 26 of solar technology, hot water heating or brine technology can be installed.

The binder side wall 15 is equipped with plastic pipes 27 , which can be connected to heat pumps or the like.

As shown in FIG. 2 in particular, the outer walls of the prestressed concrete binder 11 are equipped with a roof covering 28 and an insulating layer 29 with thermal insulation and a vapor barrier.

In the binder 11 above the base 13 Ent drainage drains 30 are embedded, which cooperate with downpipes.

Fig. 4 shows a second embodiment of a prestressed concrete beam 11 , in which the wider binder-side wall 15 is slightly curved. The reinforcements 18, 19 of the binder side wall ends 16, 17 are in this embodiment form each equipped with a locking projection 31 and a locking groove 32 . These interlock when two prestressed concrete ties 11 are connected , as shown in FIG. 3.

As already mentioned, the illustrated embodiments are only examples of implementations of the invention. This is not limited to this. There are still various changes and training options. In particular, the reinforcements 18, 19 could be equipped with differently shaped coupling members, which cooperate in their working position and enable good centering of the connecting butt joints 20, 21 .

• 10 Ceiling
  11 prestressed concrete ties
  12 supports
  13 footprint
  14 narrower Binder sidewalls
  15 wider Binder sidewalls
  16 end of the binder sidewall 14
  17 End of the Binder side wall 15
  18 reinforcement
  19 reinforcement
  20 connecting butt seam
  21 butt joint
  22 ridge straight
  23 Corner area on the Binder side wall
  24 openings in the binder sidewall 14
  25 windows
  26 devices
  27 plastic pipes for heat pumps or the like
  28 Roof covering
  29 insulating layer
  30 drainage gullies
  31 Resting lead
  32 locking groove

Claims (11)

1. prestressed concrete girder, characterized in that the girder made of prestressed concrete ( 11 ) has an L-shaped cross section and a flat, lower base ( 13 ) which lies in a plane which with a narrower side wall ( 14 ) of the binder ( 11 ) an angle of 60 ° and with a wider side wall ( 15 ) of the binder ( 11 ) forms an angle of 30 °. 2. prestressed concrete truss according to claim 1, characterized in that the free ends ( 16, 17 ) of the narrow binder side wall ( 14 ) and the wider bin side wall ( 15 ) reinforcements ( 18, 19 ) are formed. 3. prestressed concrete girder according to claim 1 and 2, characterized in that the reinforcements ( 18, 19 ) of the binder side walls ( 14, 15 ) are designed so differently that a plane (e) through their connecting butt seams ( 20th , 21 ) runs outside an upper ridge straight line ( 22 ) which is formed by a corner region ( 23 ) of the reinforcement ( 18 ) of the narrower binder side wall ( 14 ). 4. prestressed concrete binder according to claims 1-3, characterized in that the support width (B) formed by the two joined reinforcements ( 18, 19 ) is just as wide as the width (b) of the base surface ( 13 ). 5. prestressed concrete binder according to claims 1-4, characterized in that in the narrower side wall ( 14 ) of the binder ( 11 ) openings ( 24 ) for the installation of windows ( 25 ) are formed. 6. prestressed concrete binder according to claims 1-5, characterized in that on the wider side wall ( 15 ) of the binder ( 11 ) fastening members for devices ( 26 ) of solar technology, hot water heating or brine technology are provided. 7. prestressed concrete binder according to claim 1, characterized in that the side wall ( 15 ) of the binder ( 11 ) with Roh ren ( 27 ) are preferably made of plastic, which can be connected to heat pumps or the like. 8. prestressed concrete binder according to claim 1, characterized in that the outer walls of the binder ( 11 ) with a roof covering ( 28 ) and an insulating layer ( 29 ) is equipped with thermal insulation and vapor barrier. 9. prestressed concrete girder according to claim 1, characterized in that in the binder ( 11 ) above the base ( 13 ) drainage gullies ( 30 ) are embedded, which cooperate with downpipes. 10. prestressed concrete binder according to one or more of claims 1-9, characterized in that the broader binder side wall ( 15 ) is slightly curved. 11. prestressed concrete binder according to claim 10, characterized in that the reinforcements ( 18, 19 ) with locking grooves ( 32 ) or locking projections ( 31 ) are equipped.