DE19933523C1 - Ridge truss for pitched roof with self-supporting roof elements has concrete profile carrier with integral pin projections providing stepped edge cooperating with corresponding edge of roof panels - Google Patents

Abstract

The ridge truss (2) is provided as a concrete solid or hollow profile carrier, with integral pin projections (8) providing a stepped edge (50), for cooperating with a corresponding edge of self-supporting roof panels (1), e.g. pre-fabricated concrete roof panels, for retention of the latter. An Independent claim for a roof assembled from self-supporting roof panels is also included.

Description

The invention relates to a ridge purlin for a self-supporting plate-shaped Roof elements, in particular precast concrete roof elements, formed roof, which Ridge purlin a detection device for positive locking and holding the Roof elements is assigned. In addition, the invention relates to one with such Ridge purlin, made of self-supporting concrete parts Roof elements formed roof. Such a ridge purlin and roof are out DE 197 43 846 A1, to which express reference is made for further details becomes.

Roofs made of prefabricated concrete elements have been around for a long time known, see e.g. B. also the pressure mentioned on the cover of DE 197 43 846 A1 writings. They have the advantage that they are extremely quick and inexpensive to use Construction site can be built.

A roof made of prefabricated concrete slabs is also known from EP 0 068 470 A2. At this known roof, which is designed as a pitched roof, two of each as Prefabricated concrete parts trained roof elements against each other and over a ridge purlin the thrust bearing absorbing abutments are supported on the outer walls.

Furthermore, from DE 197 43 685 C1 is made of prefabricated concrete parts Roof elements manufacturable roof known. This roof has gable parts and besides a ridge purlin on at least one further purlin part that can be laid in the eaves area which the plate-shaped roof elements can be supported. The load on the roof elements will thereby via the pipes laid in the eaves area, on which the roof elements can be supported are transferred to the gable parts.

According to DE 197 43 846 A1 can be designed as prefabricated concrete roof elements in Ridge area are connected to each other and thus attached to the ridge purlin, where they are supported on the eaves over support surfaces. As a ridge purlin comes  a common wooden beam is used. The roof elements are covered by a Detection device in the form of a metal angle profile, which over a plate on the Ridge purlin is attached in such a way that metal bars concreted into the plates Openings are made in the legs of the angle profile and with screws, in particular angle screws, or attached to the legs by welding become. This type of attachment is complex and expensive.

The object of the invention is based on the prior art according to DE 197 43 846 A1 a more cost-effective roof with more secure and easier fastening of the roof elements mente and faster installation on the site. In particular should be a simpler and cheaper, but still statically strong suspension between ridge purlin and roof elements.

This object is achieved in that the ridge purlin as a concrete formed full or hollow cross-section beam or profile beam is formed to Form the detection device integral with by integrally formed highlights or / and Recesses formed first toothing areas is provided with which correspondingly inversely formed by recesses and / or highlights Interlocking areas of the roof elements are positively detectable.

According to the invention, instead of the otherwise usual wooden purlins, one is used as concrete molded part made of concrete materials, including all other similar materials in addition to concrete and mixed materials should count, specially adapted to the requirements of shaped doors ger used. Instead of additionally attached fasteners is the as Ridge purlin to be used concrete beam shaped such that it pegs or other first Has toothing areas that with correspondingly shaped second toothing areas on the roof elements. The roof elements are So do not have additional fasteners or additional concrete to be concreted reinforcements, but can be directly interlocked with the ridge purlin. This amazes fend simple measure causes in the roof according to the invention, such a he Ridge purlin according to the invention, the roof elements with the corresponding in verse trained second gear areas are provided, in addition to a savings reduction of manufacturing costs for the roof elements also a saving of assembly costs at the construction site.  

Advantageous embodiments of the invention are the subject of the dependent claims.

Of course, it would also be conceivable to use the roof instead of or in addition to the ridge purlin elements with cones or the like to highlight, which in corresponding Cut-outs in the ridge purlin form-fitting for hanging the roof elements to grab. But this would be an additional measure, in particular reinforcement measure took during the manufacture of the roof elements to form the roof elements condition. In addition, the recesses in the ridge purlin could increase its stability affect. Therefore, because of the lower manufacturing costs, the easier assembly and the higher stability preferred that the first toothing areas by pins are formed, which are in one piece with the ridge purlin of its support surface or support surface Chen for the roof elements for detecting the same are formed protruding. Around To meet high static requirements, it is further preferred that the pin along the ridge purlin at regular intervals of less than 2.5 m, especially less  is less than 1.5 m, are arranged and a width measured along the ridge purlin of at least 20 cm, preferably around 60 cm. Can on these tenons then simply hooked roof elements provided with corresponding recesses become. Additional fastening measures such as screwing, welding or the same of reinforcements of the roof element with fixings attached to the ridge purlin stanchions are superfluous. At most, the roof element is used for safety only via di screws engaging directly in the ridge purlin, but not the weight of the Dachele have to absorb the elements, secured to the ridge purlin. The surface of the ridge purlin around the peg can serve as a generous support surface for the roof elements where can be avoided by point or line loads.

For high loads and long ridge lengths, the ridge purlin is a full cross-section beam educated. To save weight, it would also be conceivable to have the ridge purlin inside ren hollow - possibly with other internal reinforcements, e.g. B. truss reinforcement or the like - to be designed as a hollow cross-section beam. The cross-sectional shape is in both this carrier formations preferably by a triangular or even more preferably one Trapezoidal profile with a base pointing downwards when used as intended area and two angled to this according to the desired roof pitch extending leg surfaces, which include the bearing surfaces for the roof elements or serve as such. This allows a very large contact area on the Ridge purlins are formed for the roof elements, which means less in the support area must be stable and z. B. with less reinforcing steel than before could. To take advantage of this, however, would have to be under for every roof pitch different or adjustable with respect to the angle of inclination of the leg surfaces Form for the ridge purlin. The can be used for different roof pitches Ridge purlin, if it is a full or hollow cross-section beam, a round profile or a half has round profile and is accordingly designed as a circular purlin or semicircular purlin is. With a correspondingly large radius, there is still more contact surface available provided as provided in previously known ridge purlin suspensions. On the other hand, can the ridge purlin, depending on the requirements, as a concrete profile beam with L, T, Z or double T profile be trained.

According to the invention, the roof elements can be formed particularly easily if, as in a further advantageous embodiment of the invention, the second tooth areas on the roof elements by trained for receiving the pin Recesses or receiving holes are formed in the roof elements. The Dachele  elements are preferred as reinforced concrete prefabricated parts with concrete slabs as the base and in right regular spacing across the concrete slats, preferably ribs molded on the concrete slabs, and each formed in between Compartments designed to hold insulating material, with further preference being given to the off Acceptance of the intended use in the ridge area Edge areas in the compartments in particular as intended in the concrete slabs Through holes are formed. Next is an advantageous embodiment the invention provided that the recesses or through holes rectangular with a greater extension along the ridge purlin than transversely to it and the first Spigot forming pins are elongated accordingly. Thereby particularly large support surfaces can be formed on the pins so that the roof elements do not only in the direction transverse to the roof element, but also in the direction of the roof elements level are supported extensively.

An embodiment of the invention is described below with reference to the accompanying drawing nations explained in more detail. It shows:

Fig. 1 is a partial sectional view transverse to the ridge through a roof formed with prefabricated concrete parts or prefabricated roof elements in the area of the roof ridge, with a section along the line AA from FIG. 2 to the left of the center line and a section along the line BB from the center line Fig. 2 is shown;

Figure 2 is a partial sectional view parallel to the ridge through the roof, in particular a roof element thereof, along the line II-II or II'-II 'of Fig. 1.

Fig. 3 is a partial sectional view through the roof in the area of a fillet ceiling along the line BB of Fig. 2;

Figure 4 is a partial sectional view through the roof in the region of the fillet ceiling along the line AA of Fig. 2.

Figure 5 is a partial sectional view through the roof in the region of a toggle stick along the line BB of Fig. 2.

Fig. 6 is a partial sectional view through the roof in the area of the knee floor along the line AA of Fig. 2; and

Fig. 7 is a partial sectional view comparable to FIG. 2 of the detail area of a rib marked therein with "X".

In the figures, a roof is shown, which is formed from prefabricated concrete roof elements 1 , as shown in DE 197 37 827 A1, to which express reference is made for further details. The roof shown in the present application differs from the roof shown in DE 197 37 827 A1 in the design of the ridge purlin 2 and in the position and support of the roof elements 1 .

Accordingly, the roof elements 1 in the delivery state to the construction site consist of a roof panel 3 , from which ribs 4 protrude in one piece above a bar. The ribs 4, which are spaced apart and parallel to each other, regularly run perpendicular to the roof ridge and following the roof pitch in the installed state. The area between two ribs 4 is referred to below as compartment 5 . In the right portion of Fig. 1 as well as in Figs. 3 and 5 are sections by a rib 4 and in the left Be rich of FIG. 1 and in FIGS. 4 and 6, sections are shown by a Gefach 5.

A ridge purlin 2 , which is formed from Stahlbe clay, serves as a ridge purlin in the roof shown. The reinforced concrete tenon purlin 2 has in the example shown a symmetrical with respect to the center line M trapezoidal profile with a downward ge base surface 6 and two upward and to the side facing leg surfaces 7th The leg surfaces 7 are inclined at an angle α corresponding to the roof pitch to the base surface 6 . The leg surfaces 7 serve as support surfaces for the Dachele elements 1 Pins 8 protrude upward from the leg surfaces 7 . The pin 8 erstrec ken along the reinforced concrete tenon purlin 2 ; in their lower in the installed state Be they close with a substantially perpendicular to the base surface 6 erstrec kende edge surface 9 , while the upper longitudinal edge region of the pin 8 in the installed state is formed by an edge 10 extending perpendicular to the respective leg surface 7 edge 10 .

The roof plate 3 has in the upper edge region 11 each between two of its ribs 4 he stretching compartment 5 an elongated rectangular through opening 12 for receiving a pin 8 each. Due to the positive engagement of the pin 8 and through hole 12 , the roof panels 2 and thus the Dachele elements 1 formed therewith are suspended from the reinforced concrete cone purlin 2 . A securing between the roof plate 3 and reinforced concrete tenon purlin 2 is additionally carried out via fasteners 13 , which in the example shown each comprise a knock-in dowel 14 and a hexagon screw 15 with a washer. In addition, a preferably galvanized mounting plate 16 is provided. In one exemplary embodiment, the fastening plate 16 is fastened by the fasteners 13 on the end surface of the pin which extends parallel to the leg surfaces 7 and projects beyond the upper edge parallel to the latter. Remaining cavities between the roof panel 3 and reinforced concrete cone ridge purlin 2 or, in particular, their cones 8 are closed with a grout grout. Through this upper suspension of the roof elements 1 , a connection of opposite Dachele elements 1 in the ridge area is not necessary. The on the (not shown) roof gables gera-reinforced concrete cone ridge purlin 2 absorbs all forces occurring parallel to the roof pitch on the roof elements 1 to compensate. The pegs 8 and the through openings 12 form, as it were, matching, inversely formed first and second toothing areas with which the ridge purlin 2 and the roof elements 1 mesh with one another and thus form-fit.

The compartments 5 are filled with insulation material - in the example shown mineral fiber insulation 17 . The roof covering 18 is formed by bricks in the example shown. These rest on a transverse to the ribs 4 roof battens - here battens 19 - which device 20 is attached to a parallel to the ribs 4 Konterlat 20 - z. B. nailed - are. These, in turn, rest on a counter wood 22 with the interposition of a sarking membrane 21 . The counter timbers 22 provide - see Fig. 7 - for a distance between the soffit 21 and the compartment insulation - Mineralfa serdämmung 17 , whereby a rear-ventilated area 23 is formed between the roof element 1 and roof covering 18 . The counter timbers 22 are each arranged above the ribs 4 with the interposition of hard foam insulation 24 and are supported by them. At the top of the ridge there is a galvanized ridge slat holder 25 for holding a ridge slat on which the ridge tiles rest.

In FIGS. 3 and 4, the area of a roof suspended ceiling 26 is shown. This does not serve to support the roof elements 1 , rather it is net with a joint 28 of about 2 cm distance to the inner slope wall formed by the roof panel 2 angeord. In the example shown, the intermediate roof ceiling 26 is also formed by a precast concrete part. It is a fully assembled ceiling in the form of a throat 27 with a concrete lintel. The joint 28 is closed by washers 29 and a grout grout 30 .

In FIGS. 5 and 6, the support of the roof or of the roof elements 1 is shown at the knee head 31. The knee wall 32 is here also designed as a precast concrete element in the form of a solid wall. The knee wall 32 acts here as a pendulum support. By, since that is the roof elements 1 is suspended at the top of the reinforced concrete Zapfenfirstpfette 2, must at the knee Stock essentially only transverse forces are up to the roof plate 2 taken. As a result, the knee wall 32 is not burdened by outward transverse forces. In the area of the ribs 4 , the roof elements 1 are on an accordingly inclined the roof slope support surface 33 at the upper end of the knee wall 32 . For safety, the knee wall 32 are secured at this upper end by a continuous ring anchor 34 . In the area of the compartment 5 , the roof plates 2 are provided with openings 40 into which the upper ends of the knee wall 32 engage. The upper ends of the knee wall 32 have a recess 35 in which a spacer plate 36 for holding the appropriate distance between the roof plate 3 and the knee wall 32 and the ring anchor 34 are received. The entire transition area between knee wall 32 and roof elements 1 is grouted and sealed with mortar - here: a source cement mortar grouting seal 37 - in which the ring anchor iron 34 is also embedded. The reference numbers 38 and 39 also denote a solid wall that forms the side wall of the building or a fully assembled ceiling - both of which are designed as prefabricated concrete parts.

In the area of the eaves 41 , the roof has an eaves plate 42 , an eaves plank 43 and a ventilation band 44 . The roof is closed abge with a eaves board 45 at the lower end. The roofing membrane 21 is held slightly longer over the eaves board 43 , for example approximately 10 cm longer.

The roof elements 1 are delivered to the construction site up to the upper edge of the roof battens 20 . Of course, roof coverings 18 other than tiles, for example corrugated fiber cement panels, are also possible. The roof elements are held in a form-fitting manner on the ridge purlin 2 . The actual roof panels 3 have a thickness of about 6 cm in the area of their compartments 5 . The clear opening width of compartment 5 - distance between ribs 4 - is approx. 80 cm. The pins are around 60 cm wide and engage in the correspondingly wide openings 12 , which are provided in the center between the ribs 4 in the roof panels 2 . In one embodiment, no openings are provided in the compartments 5 formed by two different abutting roof elements 1 , and accordingly the pins 8 on the ridge purlin 2 are not present there. In addition to the ge training of the ridge purlin 2 in the form of a substantially trapezoidal full cross-sectional beam, other profile shapes are also conceivable. Thus, according to other embodiments not shown, the ridge purlin 2 is hollow on the inside with or without reinforcing elements and / or is designed as a profile carrier with a Z, T, L or double T profile. A kinematic reversal of the described positive He detection device of ridge purlin 2 and roof panel 3 - pin on the roof panel 3 and openings or recesses in the ridge purlin 2 - is conceivable according to further Ausführungsfor men (not shown).

Reference list

1

Roof element

2nd

Reinforced concrete tenon purlin

3rd

Roof tile

4th

Ribs

5

Compartment

6

Base area

7

Leg surfaces (support surfaces for the roof tiles

2nd

)

8th

Cones

9

itself essentially vertical to the base area

6

extending lower edge surface of

8th

10th

itself essentially vertical to the respective thigh surface

7

extending upper edge surface of

8th

11

upper edge area roof panel

3rd

12th

Through opening

13

Fasteners

14

Knock-in dowels

15

Hexagon screw with washer

16

Mounting plate

17th

Mineral fiber insulation

18th

Brick (roof covering)

19th

Brick battens

20th

Counter battens

21

Roofing membrane

22

Counter wood

23

ventilated area

24th

Rigid foam insulation

25th

Ridge slat holder

26

False ceiling

27

Epiglottis with concrete lintel (full assembly ceiling)

28

Gap

29

Washers

30th

Flowing mortar grout

31

Knee stick

32

Knee wall

33

Support surface

34

Ring anchor iron

35

deepening

36

Spacer plate

37

Sealing cement mortar grouting seal

38

Solid wall

39

Full assembly ceiling

40

openings

41

eaves

42

Eaves panel

43

Eaves board

44

Ventilation band

45

Eaves board

50

first gear area

51

second tooth area
M center line

Claims (10)

1. ridge purlin ( 2 ) for a roof formed with self-supporting plate-shaped roof elements ( 1 ), in particular precast concrete roof elements ( 1 ), which ridge purlin ( 2 ) has a detection device ( 8 , 12 ; 50 , 52 ) for positive locking and holding of the Roof elements ( 1 ) is assigned, characterized in that it ( 2 ) is designed as a solid or hollow cross-section beam or profile beam which is formed from concrete and which, in order to form the detection device ( 8 , 12 ; 50 , 52 ), is integrally formed by accentuated highlights ( 8 ). or / and recesses formed first toothing areas ( 50 ) is provided, with which correspondingly inversely formed by recesses ( 12 ) and / or emphasis second toothing areas ( 52 ) of the Dachele elements ( 1 ) can be positively detected. 2. ridge purlin according to claim 1, characterized in that the first toothed areas ( 50 ) are formed by pins ( 8 ) which are integral with the ridge purlin ( 2 ) from its support surface ( 7 ) or support surfaces ( 7 ) for the roof elements ( 1 ) are designed to detect the same standing. 3. ridge purlin according to claim 2, characterized in that the pins ( 8 ) along the ridge purlin ( 2 ) are arranged at least in pairs at regular intervals, which is less than 2.5 m, in particular less than 1.5 m, and a have a width of at least 20 cm, preferably around 60 cm, measured along the ridge purlin ( 2 ). 4. ridge purlin according to one of claims 1 to 3, characterized in that it ( 2 ) as a full or hollow cross-section beam a triangular or preferably a tra pezprofil with a downward-facing base surface ( 6 ) and two corresponding to this angled to the desired roof pitch, it has stretching leg surfaces ( 7 ) which comprise the support surfaces for the roof elements or serve as such. 5. ridge purlin according to one of claims 1 to 3, characterized, that they have a round or semicircular profile as a full or hollow cross-section beam points and is accordingly designed as a circular purlin or semicircular purlin. 6. ridge purlin according to one of claims 1 to 3, characterized, that it is designed as a concrete beam with L, T, Z or double T profile. 7. From self-supporting plate-shaped plate-shaped roof elements ( 1 ) formed roof, characterized by a ridge purlin ( 2 ) according to one of claims 1 to 6, wherein the roof elements ( 1 ) with for receiving first toothed areas ( 50 ) on the ridge purlin ( 2 ) trained, in particular correspondingly inverted, second toothed areas ( 52 ) are provided. 8. Roof according to claim 7 with a ridge purlin ( 2 ) with the features of claim 2, characterized in that the second toothed areas ( 52 ) on the roof elements ( 1 ) through to take on the pin ( 8 ) formed recesses or receiving holes ( 12th ) are formed in the roof elements ( 1 ). 9. Roof according to claim 7 or 8, characterized in that the roof elements ( 1 ) as reinforced concrete prefabricated parts with concrete slabs ( 3 ) as a base and extending at regular intervals across the concrete slabs ( 3 ) ribs ( 4 ), preferably before concrete ribs ( 4 ) molded onto the concrete slabs ( 3 ), and compartments ( 5 ) formed between them for receiving insulating material ( 17 ), with recesses ( 12 ) on the ridge area being used as intended, preferably for forming the second toothed areas ( 52 ) arranged edge regions ( 11 ) in the compartments ( 5 ), in particular as through holes or through openings ( 12 ) provided in the concrete slabs ( 3 ). 10. Roof according to claim 9, characterized in that the recesses or through openings ( 12 ) elongated rectangular with a greater extent along the ridge purlin than transversely thereto and the first toothed regions ( 50 ) forming pin ( 8 ) of the ridge purlin ( 2 ) accordingly are long stretches.