EP0451161A1

EP0451161A1 - Fire-retardant wooden joist ceiling

Info

Publication number: EP0451161A1
Application number: EP19900900016
Authority: EP
Inventors: Ingo Ritsch
Original assignee: Individual
Current assignee: Individual
Priority date: 1989-01-02
Filing date: 1990-01-02
Publication date: 1991-10-16
Also published as: WO1990007616A1

Abstract

Afin de rendre ignifuge un plafond en poutres de bois constitué de corps moulés (4) en un matériau ignifuge qui reposent sur les poutres de bois (1), les faces latérales verticales (11) des corps moulés protègent les faces verticales (2) des poutres de bois (1) contre une combustion latérale au moins sur leur hauteur statique requise (a). Chaque poutre de bois (1) est ainsi entourée au moins de trois côtés par les corps moulés (4), qui la protègent ainsi du feu.In order to make a wood beam ceiling made up of molded bodies (4) made of fireproof material which rest on the wood beams (1) flame retardant, the vertical lateral faces (11) of the molded bodies protect the vertical faces (2) from wooden beams (1) against lateral combustion at least over their required static height (a). Each wooden beam (1) is thus surrounded at least on three sides by the molded bodies (4), which thus protect it from fire.

Description

Fire-retardant wooden ball ceiling

The invention relates to a ceiling made of wooden beams and moldings arranged between them and made of at least fire-retardant material.

Such a blanket can be found, for example, in DE-PS 86 024. There, cross beams are fastened between the wooden beams, which serve as a support for several shaped blocks laid parallel to the wooden beams, which essentially represent I-beams, the height of which is less than that of the wooden beams, and are made of a porous fired material hen. The disturbing upper side web is broken away from each shaped stone to be applied to a vertical side of a wooden beam, while the lower web extends below the wooden beam approximately to the middle. The height of the upper and lower webs is offset to such an extent that the webs of molded blocks lined up next to one another can overlap to an adjustable extent, so that inaccuracies in the spacing between the wooden beams can compensate.

A hollow body ceiling is known from AT-PS 173 374, which is composed of hollow stones which are trapezoidal in cross section and which have a longitudinal groove on the larger base area. Carrier-forming hollow blocks with a longitudinal groove filled with reinforced concrete lie on the supports with the larger base area facing downwards, and the interstices are filled with hollow blocks whose larger base surface points upwards, so that they are inclined with their inclined surfaces Lateral surfaces lie in a snug fit on the oblique side surfaces of the carriers.

From EP-OS 218 375 a fire-retardant ceiling is known, between whose wooden beams support rails are attached to the mineral wool boards are applied as fire protection, so that the wooden beams are laterally covered over part of their height with refractory material.

A heat-insulating blanket is shown in AT-PS 367 135. There, beams which are not made of wood are encompassed laterally by approximately C-shaped insulating bodies, the interspaces being covered by insulating plates. The bearing surface of the insulating plate on the insulating bodies or the supporting surface of the insulating body for the insulating plate is chamfered, so that when the insulating plate is loaded, a tilting moment is exerted that the lower legs of the insulating body encompassing the carrier against one another presses to avoid a joint that breaks the thermal insulation.

Ordinary wooden beams made of untreated softwood, especially spruce, have a burning rate of 0.65 mm / min. This means that 58.5 mm of the wooden beam, ie about 6 cm, will burn in 90 minutes, this value being valid for each of the four sides. To meet the fire resistance class F 90 (fire resistance over 90 minutes) of the ÖN0RM B 3800, for example, since no safety surcharges have to be taken into account for the assignment to the fire resistance classes, the statically required dimensions of the wooden beam for each side by approx 6 cm to increase. This would increase both the height and the width of the wooden beam by approx. 12 cm each. Such wooden beams are too expensive for ceilings in the usual spans (up to about 5 m) and for normal loads (for example in living rooms), they are too heavy, and are therefore extremely uneconomical.

In contrast to the dimensioning of a wooden beam with regard to its resistance to wear, the static dimensioning a wooden beam to the required extent, a safety surcharge of around 70% is prescribed by the standard.

The invention has now set itself the task of making a ceiling of the type mentioned fire-retardant in the simplest possible manner, so that it preferably satisfies at least fire resistance class F 90 of ÖNORM B 3800, with ordinary wooden beams made from untreated item pine wood ( especially spruce ⁾ can be used.

This object is achieved in that each molded body rests on the top of at least one wooden beam and has at least one vertical side surface which shields a vertical side of the wooden beam against lateral burn-off at least above its statically required height.

By shielding the vertical sides of the wooden beams by means of the fire-retardant, preferably non-combustible moldings, the lateral burn-up is avoided and the ÖNORM B 3800 can be fulfilled without the wooden beam having to be widened beyond the statically required extent. Due to the static safety surcharge, the underside of the wooden beams can be accessible to the fire if the static safety surcharge is higher than the burn-off depth. For fire protection class F 90 this is the case, for example, from a total beam height of around 14 to 15 cm. Thus, the moldings lying on top and covering the side bring about the desired fire resistance of the ceiling, although conventional wooden beams are used.

For the fire-retardant shielding of the top of the wooden beams, a preferred embodiment provides that the molded body has an upper, of this tl ch has protruding support rib.

The amount of Auflageπ ^'ppe is dependent on the fire-retardant material for the manufacture of the moldings. If they are fired from clay, for example, so that the shaped bodies are formed by hollow bricks, or made from expanded clay, the shielding side surface of the shaped body extends over at least three quarters, preferably four fifths, of its height. The support rib has a height of 6 cm in particular when it is produced from the materials mentioned, which corresponds to the remaining quarter or fifth.

The upper support rib does not allow air to pass through a vertical gap between the wooden beam and the molded body, so that in a preferred embodiment it is provided that each molded body forms a filler body provided with two supports, with each wooden beam and the Shaped body en gap with a maximum width of 1 cm is provided. As has been shown, up to this gap width due to a lack of adequate air access, there is no lateral burning of the wooden beam, which means a significant advantage, since inaccuracies of the wooden beam and the fillings do not cause any disadvantages and, on the other hand, the laying of the with the filler can be used very easily.

In another embodiment it is provided that each molded body has a shielding side surface, which is pressed against the vertical side of the wooden beam at least above its statically required height.

In the event of a fire, pressing the molded body prevents it also a burning of the three covered sides of the wooden beam, which affects the load-bearing capacity, at least for the time corresponding to the fire resistance class. This embodiment has the advantage that approximately L-shaped shaped bodies can be placed on the wooden beams from both sides, which are braced against one another in the spaces between the beams.

The support rib is formed by the shorter leg and the longer leg shields the vertical side of the wooden beam.

The shaped bodies can be braced in any manner. For example, it would be conceivable to use variable-length clamping devices. A very simple solution for the pressing or tensioning of the molded body results from the fact that each molded body at its

Contact surface on the opposite side has a wedge surface, and interacts with an insert body made of non-combustible material and having a counter wedge and arranged between the shaped bodies and adjacent wooden beams.

Depending on the distance between the wooden beams and the width of the moldings, the insert bodies can have a triangular or trapezoidal cross-sectional shape and are inserted from above between the moldings placed on them.

In particular when using L-shaped shaped bodies, it can further be provided that each shaped body has a rib engaging under the wooden beam, and that each wooden beam is completely enclosed by two shaped bodies. This means that there is no need to oversize the height if this would only be necessary due to the lower erosion. Wooden beams are not always g of accurately quaderförmi, but may also warped geringfüg g, so that moldings with a continuous ^conditions' ppe to the vertical sides at least partially leave a freely large gap, which may optionally ermöglichen¬ a, a lateral burn-off the sufficient air access to the Side faces allowed. In these cases, in particular, the desired fire retardancy can nevertheless be achieved if an at least fire-retardant leveling compound is filled.

In order to make this possible, only support lugs spaced apart from one another are provided for the support of the moldings. These can be formed, for example, by breaking out parts of the support rib which has corresponding predetermined breaking points.

Each rib below the wooden beam also serves as the lower formwork for the filled leveling compound. If the moldings are pressed against the wooden beam, the load-bearing capacity of the holder is not an essential criterion in the choice of material and manufacture of the moldings, since their load remains relatively low due to the pressure on the vertical side of the wooden beam. The selection of the material can then be made primarily from the point of view of maximum fire retardancy.

The invention will now be described in more detail below with reference to the accompanying drawing, without being limited thereto.

1 shows a section through a first embodiment of a wooden beam ceiling according to the invention, FIG. 2 shows a section through a second embodiment, FIG. 3 shows a section through a third embodiment, Fig. 4 shows a section through a fourth embodiment and Fig. 5 shows a section through a fifth embodiment of a Ho Izba l kendecke.

A ceiling has wooden beams 1 as longitudinal beams, which rest on end supports at the usual center distances of, for example, 60 cm. Shaped bodies 4 made of non-combustible material, in particular made of cement-bonded expanded clay or fired clay, fill the spaces between the beams and are placed on the top sides 3 of the wooden beams 1. Vertical side surfaces 11 of the shaped bodies 4 cover the mutually facing distributions 2 of the wooden beams 1 at least over their statically required height a. In the embodiment according to FIG. 1, each molded body 4 represents a filler body for the spaces between the beams, and has two upper, laterally projecting supports 5 which rest on the upper side 3 of two wooden beams 1. A gap 14 with a maximum width of 1 cm can remain between the vertical side surfaces 11 of the shaped bodies 4 and the vertical sides 2 of the wooden beams 1, as a result of which the shaped bodies 4 can be laid quickly and easily. The part a corresponding to the statically required height a cannot burn, despite the gaps 14, since the air passage and thus the oxygen access to the vertical sides 2 are prevented due to the overlying supports 5. The desired fire resistance time results from the overdimensioning of the height of the wooden beam 1 above the statically required value a, which is necessary due to the static safety, so that a lower layer 10 of the wooden beam can be exposed and burn. A gap 13 can also remain between the planks 5, since the wooden beam 1 does not burn off on the upper side 3 due to lack of air passage and oxygen supply. Of course, the molded bodies 4 can also be made higher than the minimum height a to be covered and, if necessary, also be flush with the underside of the wooden beams 1. This further increases the fire resistance time.

In the embodiment of FIG. 2 is approximately L-shaped form-body 4 will be used of non-combustible material, the shorter leg π, the upper, laterally projecting Pad ^'ppe 5 forms. The moldings 4 are placed with their support π ^' ppt 5 symmetrically on the top 3 of the wooden beam 1, so that they shield the top 3 of the wooden beam 1 and its two verti 2 fire-retardant. The outside of the longer leg of each shaped body 4, which is directed towards the neighboring lobe, has a wedge surface 6, the wedge surfaces 6 of two shaped bodies 4 lying opposite one another converging downward. Trapezoidal insert bodies 7 made of non-combustible material with mating wedge surfaces are inserted into the interspace between the molded bodies 4 of adjacent wooden beams 1 and, due to the wedge effect, press the molded bodies 4 against the vertical sides 2 of the wooden beams 1. As a result, the oxygen supply to the vertical channels 2 is also prevented. The underside of each wooden beam 1 is exposed, so that the lower layer 10 can also burn off here. At least a part of the lower layer 10 of the wooden beams 1 could protrude downwards over the shaped bodies 4 according to FIG. 1.

Instead of the insert body 7, other fire-protected clamping means pressing the molded bodies 4 against the wooden beams could also be provided, and the remaining spaces could be filled with a non-combustible material.

3, each of the L-shaped Shaped body 4 additionally provided with a lower rib 8 which extends parallel to the support rib 5 and engages under the wooden beam 1. This is thus completely enveloped by two molded bodies 4. This version is particularly suitable for ceilings with a narrow span, where the static safety margin is less than the level required for a fire resistance class. As a result, an oversizing of the height of the wooden beams 1 is not necessary.

In the embodiment according to FIG. 4, support lugs 16 spaced apart from one another are provided instead of support ribs. The wooden beam 1 is drawn with an exaggerated curvature of the vertical sides 3, which would cause the maximum width of the gap 14 to be exceeded or would not allow the molded bodies 4 to rest completely. In this embodiment, the fire-retardant effect is achieved by a fire-retardant leveling compound 9 filled into the support lugs 16. If, as indicated by dashed lines, shaped bodies 4 similar to FIG. 3 are used, then a covering on the underside for the compensating mass 9 is provided by the ribs 8. In order to achieve a larger entry gap, parts of the molded body 4 can have a hollow cavity 12.

Fig. 5 shows an embodiment in which the moldings 4 lie like a saddle on the upper sides 3 of the wooden beams 1. The stockings are replaced in this embodiment by a bridge area 15. The shaped bodies 4 touch one another in the middle of each interstice between the bars or, as shown, can be formed in a graduated manner. The maximally 1 cm wide gaps 14 prevent the lateral erosion, so that even in this embodiment a lower area 10 of each wooden beam 1 can be exposed, the erosion thereof does not reach the statically required part of the wooden beam 1 within the desired fire resistance time.

The length of the molded body 4 and the insert body 7 can be chosen as desired. They can extend the entire length of the blanket, or several

Shaped body 4 and insert body 7 may be arranged one behind the other. In the latter case, it is expedient to assign the insert bodies 7 to the molded bodies 4 offset in length in each case.

A floor construction of any type is arranged on the shaped bodies 4, which is not shown in the figures. Edge beams of a ceiling field are also covered on the outside with shaped bodies 4, these being then braced against the wall according to FIGS. 2 to 4, so that the outer vertical face 2 of the edge beams is also shielded from fire.

Claims

Patent claims

1. ceiling with wooden beams and the interstices between the battens fill the molded bodies made of at least fire-retardant material, characterized in that each molded body (4) rests on the upper side (3) of at least one wooden beam (1) and has at least one vertical side surface (11) , d '^' e a vertical side (2) of the wooden beam (1), at least above its statically required height (a), protects against lateral erosion.

2. Blanket according to claim 1, characterized in that the

Shaped body (4) per shielding side surface (11) has an upper support rib projecting laterally therefrom.

3. Blanket according to claim 1 or 2, characterized in that the shaped body ⁽ 4) consist of fired clay or expanded clay, and the shielding side surface (11) of the shaped body extends over at least three quarters of the height of the shaped body.

4. Blanket according to one of claims 1 to 3, characterized in that each shaped body (4) forms a filler body provided with two support ribs (5), one between each wooden beam ⁽ 1 ⁾ and the shaped body (4) Gap with a maximum width of 1 cm is provided.

5. Blanket according to one of claims 1 to 3, characterized gekenn¬ characterized in that each molded body ⁽ 4) has a shielding Has side surface (11) which is pressed against the vertical side (2) of the wooden beam (1) at least above its statically required height (a).

6. Blanket according to claim 5, characterized in that each molded body (4) on its side opposite the shielding side surface has a wedge surface (6), and with a counter wedge surface and between the molded bodies (4) adjacent wooden beams (1) are arranged Insert body ⁽ 7) composed of at least fire-retardant material.

7. Blanket according to claim 6, characterized in that the insert body (7) has a trapezoidal cross-section.

8. Blanket according to one of claims 1 to 7, characterized in that each shaped body (4) one, the wooden beam

(1) has an engaging rib (8), and each wooden beam ⁽ 1) is enclosed by two molded bodies (4).

9. Blanket according to claim 1, 4 or 5, characterized in that the shaped body ⁽ 4 ^{) has} spaced-apart support lugs (16), between which an at least fire-retardant leveling compound ⁽ 9) is filled in column (10) when the width of which is greater than the maximum width causing burn-off protection.