EP1209314A2 - Wooden fireproof T90-door with glazing panels - Google Patents

Abstract

The wooden-framed glass door (1) has a wooden surround (3) and at least one door panel (2,2a,2b) formed by mostly door panel frames (4), in which is formed a fire protection nplate (5). The portion of the wooden material of the surround and of the door panel frame in relation to the plate material in a sectional plane parallel to the door wide side at the level of the fire protectionn plate amounts to preferably less than 40 per cent.

Description

The invention relates to a wooden frame glass door according to the preamble of the appended claim 1, as is known from DE 196 15 902 A1.

From DE 197 35 344 A1 is a fire door with fire protection strips in the frame and the door leaf known. About the door material or the properties of the fire protection border no statement has been made.

A glass frame door is also part of DE 199 37 835 A1 published in the priority interval a wooden door leaf known. The frame and the door leaf frame consist of one Fireproof hollow profile, in which a foam material is housed in the event of fire.

From the DE 199 35 199 A1 also published in the priority interval is a wooden frame glass door known in composite construction. There are Promatect strips inside the door provided for insulation. The known door is said to be a T90 wooden frame glass door act. The door leaf and frame are in laminate construction with Promatect strips built up, the folds of the known door are single or double folded.

A metal frame glass door is from DE 199 33 410 A1, also published in the priority interval known to improve the appearance of a large proportion of glass is visible and the frames are made as thin as possible. For this are the glass panes pulled outwards and the metal frame is embedded between the glass panes and enamelled.

From DE 29 619 448 U1 is a T90 wooden door with special insulation measures for the Known fire in the interior of the door leaf.

A solid wood door is known from DE 295 13 945 U1, which is also suitable for fire protection should be. The door leaf body is filled with a Promat plate for fire protection.

A fire protection wooden frame glass door is known from DE 295 09 394 U1. For education of the wooden frame are two wooden profiles on both sides by one that is considered necessary Steel web connected. The glass pane extends to the steel web. The wooden profiles are made of hardwood. There are strips of foam on the steel web in case of fire Material provided. The well-known door is simply folded.

DE 295 07 804 U1 describes a fire-retardant frame made of wood and / or wood-based materials known.

A wooden frame glass door is known from DE 298 10 027 U1, in which glass holding strips by a clip connection on the door leaf frame in a visually appealing way Wood material are attached.

DE 34 13 324 C2 relates to fire protection glazing, in which a fire protection pane at the edge should have similar temperatures as in the middle to failures due to temperature differences to avoid. For this purpose, channels are provided in the glass retaining strips, conduct the heat to the edges of the pane.

GB 298 19 673 U1 describes hardwood glazing beads for a T60 door.

And the aforementioned DE 196 15 902 A1 relates to a fire protection wooden frame glass door having the features of the preamble of claim 1 appended here, in which a the largest possible proportion of glass should be visible. This known construction is at best sufficient for a fire protection class according to T30.

The invention has for its object a wooden frame glass door in the preamble of claim 1 type in such a way that they as a T90 fire door unilateral fire exposure withstands at least 90 minutes and despite being simple Manufacturing has a high quality appearance.

To solve this problem, a door according to the invention has the features of the claim 1 suggested.

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

The invention thus creates a T90 wooden frame glass door with an essentially - almost exclusively and preferably without metal inserts - made of wood-based material Frame and at least one door leaf, which consists essentially of a whole or predominantly Door leaf frame made of wood-based material - preferably without metal inserts and an F90 fire screen held therein is formed. The thickness of the wood-based material - preferably solid wood, more preferably hardwood - formed frames - and door leaf frame is more than 90 mm, namely about 100 mm or more. The For this purpose, the door is folded several times at least on both sides parallel to the door pivot axis executed. There is at least one in each fold section of the multiple fold Fire protection strips made of foam material in the event of fire, around each fold section to seal in the event of fire. These amazingly simple measures make it possible, too a door that is simply constructed as a solid wood frame glass door and is therefore easy to manufacture designed as a T90 fire door. Surprisingly, a so constructed one is simple Solid wood door frame able to handle the particularly heavy F90 glass panes also during a burning of the wood-based material in the event of fire keep safe and tight for more than 90 minutes. Wood materials also have the in Fire extremely positive property of poor heat conduction, so that - in contrast to metal frame doors - for special cooling or insulation measures Prevention of heat penetration can be dispensed with. In the event of fire, they remain already burnt outer layers of wood on the wood material and act as a heat shield.

Through a thickness D of the frame and / or the door leaf frame measured perpendicular to the broad side of the door of at least 100 mm, preferably of about 110 mm, it is therefore possible on the one hand, despite the very slim appearance of the wooden frame from the broad side of the door or viewed side (top view of the closed door) - you can see very little Wood and a lot of pane material - to achieve the stability required for a T90 door and on the other hand, simply solid wood spars as technically particularly simple producible, but also optically high-quality without surface coating Wood-based bars to be used for the frame and the glass frame of the door leaf. The multiple rebate prevents tilting even with smaller door leaf pivot radii of door leaf and frame. According to the invention, the multiple fold is sealed in that that each fold of the multiple fold or each of the folds separated from each other by the fold Front areas of the door leaf or frame with their own fire protection band with foaming material in case of fire to seal in case of fire is provided. With "end faces" (including circumferential sides) here they are essentially vertical to the door broadsides, i.e. to the sides visible when the door is closed, running narrow sides of the door leaf or those in the closed state of the door referred to parallel reveal sides of the frame to these narrow door leaf sides.

The proportion of the wood-based materials is preferably the frame and the frame the pane material in each parallel to the broad side of the door at the level of the F90 fire protection pane guided cutting plane less than 40%, preferably less than 30%. In other words, the area proportion of the wood materials on the fire attack area is in one embodiment at most 40%, preferably at most 30%, with the remaining remainder of the fire attack area from the F90 fire screen is formed. Thus, a fire attack mainly affects the less sensitive Disc material. In addition to fire protection advantages but also achieve a very attractive visual appearance with these measures, which does not give the viewer the impression that he is dealing with someone special here do safe fire shutdown.

According to an advantageous embodiment of the invention, a T90 wooden frame glass door proposed with a frame essentially made of wood material and at least a door leaf that consists essentially of a whole or predominantly of wood-based material, in particular without metal reinforcement, formed door leaf frame and one therein held F90 fire screen is formed, the door leaf frame made of frame bars is formed, of which at least the vertically arranged frame bars and a frame bar to be arranged horizontally at the top one measured on the broad side of the door leaf Total width and one measured transversely to the door leaf broad side compared to this total width have greater overall thickness, the total width preferably being less than approx. 70% of the total thickness.

For sealing the door gap in the event of a fire for more than 90 minutes and a targeted one The use is to control or influence the sealing processes during the fire from different insulation layer formers with different properties prefers. A first layer-forming agent preferably foams and foams faster second insulation layer slower, but with greater volume or with larger Inflation pressure. This is in accordance with a particularly preferred embodiment of the invention a first fire protection edge in the front of the door leaf and a second fire protection edge provided in the end faces of the frame, the first and second Fire protection band with fire protection materials that foam up differently in the event of a fire - Insulators - are formed, the first of which is faster and / or foams at a lower heat and a second with a larger volume and / or foams with a larger foaming pressure or inflation pressure. Next is to discharge in the event of a fire, the door hinges that may be anchored in the wood-based materials have to hold particularly heavy door leaf due to the fire protection window, preferably that on the underside of the door leaf at least one fire protection band with an insulating layer is provided with a stronger foaming pressure or inflation pressure foams up as an insulating layer former used in the upper horizontal and vertical door columns. In the event of a fire, this foams at least one provided in the lower door gap Fire protection edging - a variety of such fire protection edging is preferred provided in the underside of the door leaf - particularly strong, supports the door leaf and relieves the door hinges.

The frame and / or the door leaf frame can be made entirely or predominantly of solid wood, in particular from oak, koto or Shorea spp., subg. Rubroshorea (trade name Dark Red Meranti).

• einer Zarge auf der Basis von Holzwerkstoffen, und
• wenigstens einem Türblatt,
  • das einen Rahmen auf der Basis von Holzwerkstoffen und
  • wenigstens eine darin eingesetzte Scheibe aus lichtdurchlässigem Material aufweist,

und ist dadurch als T90-Holzrahmen-Glastür ausgebildet, dass der Rahmen aus oder überwiegend aus einem massiven, langsam abbrennendem Holz, wie insbesondere Eiche, Koto oder Shorea spp., subg. Rubroshorea (Handelsname Dark Red Meranti) oder dergleichen, von mehr als 90 mm, vorzugsweise von 110 mm Dicke besteht, dass die Scheibe eine F90-Feuerschutzscheibe ist, dass in den Türspalten vorzugsweise aus unterschiedlich schnell und/oder stark aufschäumenden Dämmschichtbildner gebildete Brandschutzstreifen aus im Brandfall aufschäumenden Material vorgesehen sind, und dass der Flächenanteil von Zarge und Rahmen - ohne Glasleisten - auf die Türbreitseite gesehen höchstens 40 %, vorzugsweise höchstens 30 % beträgt, wobei der verbleibende Flächenanteil der Türbreitseite der Feuerschutzscheibe zukommt.A particularly preferred practical embodiment of the invention relates to a wooden frame glass door with:

• a frame based on wood-based materials, and
• at least one door leaf,
  • a frame based on wood materials and
  • has at least one pane of translucent material inserted therein,

and is designed as a T90 wooden frame glass door that the frame made of or predominantly from a solid, slowly burning wood, such as in particular oak, Koto or Shorea spp., subg. Rubroshorea (trade name Dark Red Meranti) or the like, of more than 90 mm, preferably of 110 mm thickness, is that the pane is an F90 fire protection pane, that in the door gaps preferably fire protection strips formed from differently fast and / or high-foaming insulating layer formers from the Foaming material is provided in the event of fire, and that the area of frame and frame - without glazing beads - seen on the broad side of the door is at most 40%, preferably at most 30%, with the remaining area proportion of the broad side of the door protecting the fire protection pane.

Fig. 1

eine Vorderansicht auf eine erste, zweiflügelige Ausführungsform einer T90-Glasrahmentür mit Holzrahmen;

Fig. 2

einen Vertikalschnitt entlang der Linie A1-A1 von Fig. 1;

Fig. 3

eine Schnittansicht eines von mehreren ersten, im Türblatt verwendeten Brandschutzeinleimern;

Fig. 4

einen Vertikalschnitt entlang der Linie A2-A2 von Fig. 1;

Fig. 5

einen Horizontalschnitt entlang der Linie B1-B1 von Fig. 1;

Fig. 6

eine Schnittansicht eines von mehreren zweiten, in der Zarge (Holzstock) verwendeten Brandschutzeinleimern; und

Fig. 7

eine Vorderansicht auf eine zweite, zweiflügelige Ausführungsform einer T90-Glasrahmentür mit Holzrahmen.

Two embodiments of the invention are explained in more detail below with reference to the accompanying drawings. It shows:

Fig. 1

a front view of a first, two-wing embodiment of a T90 glass frame door with a wooden frame;

Fig. 2

a vertical section along the line A1-A1 of Fig. 1;

Fig. 3

a sectional view of one of several first, used in the door leaf fire protection;

Fig. 4

a vertical section along the line A2-A2 of Fig. 1;

Fig. 5

a horizontal section along the line B1-B1 of Fig. 1;

Fig. 6

a sectional view of one of several second, in the frame (wooden stick) used fire protection strips; and

Fig. 7

a front view of a second, two-wing embodiment of a T90 glass frame door with a wooden frame.

The wooden frame glass doors 1 and 50 shown in the figures each have an adjacent one or two door leaves 2, 2a, 2b, 51 a wooden frame 3. The door leaves 2, 2a, 2b, 51 are basically mainly from a stable glass frame representing a door leaf frame 4 made of slowly burning wood materials, preferably solid oak, koto solid or dark red meranti solid, held F90 fire protection panels 5 formed. The frames 3 are made of the same material as the glass frames 4 of the door leaves 2, 2a, 2b and 51.

The two-leaf door shown in Fig. 1 as the first embodiment in front view 1 has the frame 3 and two door leaves 2, namely a active leaf 2a and a passive leaf 2b on. The door leaves 2 are each on three sides, namely on the upper horizontal and the two vertical front or circumferential sides, multiple folds.

The frame 3 consists of three frame bars to be anchored in the masonry reveal, one left vertical frame spar 30, a right vertical frame spar 31 and an upper one horizontal frame spar 32, formed. On the left vertical frame spar 30 is in the Representation in Fig. 1 of the active leaf 2a and on the right vertical frame member 31 of the Inactive leaf 2b, each pivotally held on four door hinges 33. The total width ZAMB - frame outer dimension - the frame 3 here is approx. 2550 mm, for example 2556 mm; The total height ZAMH - external frame dimension - here is approx. 2400 mm, for example 2403 mm. The one on the front broad side of the door - front or hinge side V - visible frame width ZHB of all frame rails 30, 31, 32 is less than approx. 50 mm, here 45 mm. The frame bars 30, 31, 32 are predominantly from the slowly burning Made of solid wood.

The glass frame 4 of the active leaf 2a is composed of two vertical frame bars 20 and 21, two horizontal frame spars 22 and 23 and an additional one, horizontal here in the middle arranged, rung 24 formed. All of these parts 20-24 are mostly from the slowly burning solid wood formed. The one visible on the front wide side V of the door Frame spar width THB is 20 and 21 less for the vertical frame spars than about 100 mm, for example about 70 mm. Also the V visible frame leg height THH is 22 and 23 for the horizontal frame legs also less than approx. 100 mm, for example approx. 70 mm. The visible height HS of the Rung 24 is less than about 50 mm, for example 40 mm. In the so educated Glass frame 4 of the active leaf, two F90 fire protection panes 5 are used here both more than about 1050 mm high, for example 1083.5 mm, and more than about 1100 mm Width, for example 1145 mm, have. The F90 fire screens 5 are each held by glazing beads 6, which are also made of slowly burning solid wood are formed, although other materials for the glass strips 6 are also conceivable. The visible width TFMG of the active leaf 2a (door rebate dimension) is slightly more than that Half of the frame rebate width ZFMB, which is minus the overall frame width ZAMB the visible width ZHB of the two vertical frame bars 30 and 31 results. The remaining area of the frame rebate width ZFMB is indicated by the visible width TFMS of the passive leaf 2b. Exemplary values are TFMG = approx. 1272 mm, TFMS = approx. 1180 mm, ZFMB = approx. 2466 mm.

The glass frame 4 of the passive leaf 2b is composed of two vertical frame bars 25 and 26 and two horizontal frame bars 27 and 28 are formed. The frame spars 25-28 exist mainly from the slowly burning solid wood. The top horizontal Frame spar 27 of the passive leaf 2b has one of the horizontal frame spars 22 and 23 the visible height THH corresponding to the active wing 2a; the hinge side also has vertical Frame spar 26 of the passive leaf 2b and the vertical frame spars 20 and 21 corresponding width THB corresponding to the active leaf 2a. The visible width TLB of the Vertical frame spar 25 facing the active leaf 2a is smaller than the visible width THB of the other vertical frame bars 20, 21, 26, for example less than approx. 50 mm, in particular approx. 44 mm. For this, the lower horizontal frame spar 28 of the Inactive leaf 2b higher than the other horizontal frame spars 22, 23, 27 and with one visible height TUH of less than approx. 250 mm, in particular approx. 200 mm. In the glass frame 4 of the passive leaf 2b constructed in this way there is a single F90 fire protection pane 5 with a height of more than approx. 1950 mm, for example a height of 2077 mm and more than approx. 950 mm wide, for example 1053 mm wide.

The area ratio of the wood materials of the frame 3 and the glass frame 4 on the visible door side V, provided that the glazing beads 6 are disregarded, is, as can easily be calculated from the aforementioned values, less than 40%: While the total area G of the in 1 door view surface shown on the door level (fire attack surface) G = ZAMB × CAGA ≈ 2550 mm ≉ 2400 mm = 6120000 mm 2 is the area on the F90 fire disks 5 G S ≥ 2 × 1050 mm × 1100 mm + 1950 mm × 950 mm = 4162500 mm 2 ,

The share of the fire attack area on the pane surface is therefore: G S G ≥ 4162500 mm 2 6120000 mm 2 ≈ 68%; ie the wood materials account for less than approx. 32% of the fire attack area. With the more precise example values given for the individual heights and widths, there is also an area proportion of the wood materials of less than 30%, namely about 27% for the double-leaf door 1 without taking the glazing bead 6 into account.

The following is based on the sectional views in FIGS. 2 to 6 on the inner Structure of door 1 received.

2 shows a vertical section through the passive leaf 2b. The upper frame spar 32 and the upper frame spar 27 are double-folded corresponding to each other. On each of the two folds 12 created by the double fold is staggered parallel to one another extending end face regions 13, 13a and 13b contains the upper frame spar 27 in a correspondingly shaped groove, one that is flush with the end region first fire protection band 8, which is shown below in FIG Fig. 3 will be explained in more detail. The upper frame member 32 has rebate seals 14 on the to the door wide sides V (front or hinge side) and R (rear or counter hinge side) parallel walls of the double fold 12. One has the wider one hinge-side first end region 13 of the horizontal frame spar 27 opposite hinge-side first end region 15 of the frame spar 32 in a corresponding manner formed groove a flush with this first end region second fire protection border 10, on the below based on the illustration in Fig. 6 is discussed in more detail. The remaining face regions 15a and 15b of the side rail 32, which is staggered parallel to that due to the double rebate 12 first end region 15 run, however, included in the present embodiment no fire protection band. On all facing the F90 fire screen Walls 16 of the glass frame 4 contains a first fire protection strip 7 in Fire to hold and seal the glass pane 5 in the wooden frame 4 foaming Material. On the underside U of the horizontal frame spar 28 and thus on the underside of the door leaf 2 are several parallel to one another parallel to the door broadside V or R arranged second fire protection strips 9 arranged. In the shown Embodiments are four second fire protection strips 9 next to each other at a distance to each other and to the door broad sides R and V extending grooves.

4 shows a vertical section through the active leaf 2a. Corresponding show Reference numerals each corresponding parts and on the above Explanation is hereby referred. As can be seen when comparing FIGS. 3 and 4 lower frame spar 23 of the active leaf 2a comparable to the lower height THH the lower frame spar 27 of the inactive leaf 2b. They also correspond Profiles of the upper frame spars 22 and 27. The glass frame 4 points to all of the Glass pane 5 facing walls 16 each have a first fire protection strip 7 on; accordingly, the rung 24 is provided at the top and bottom.

5 shows a horizontal section through the door 1. As from a comparison with Fig. 2 or 4, the side frame spars 30 and 31 correspond to the upper profile Zargenholm 32, and the side hinge side frame spars 20 and 26 the two Door leaves 2a and 2b correspond in profile to their upper frame members 22 and 27. Die the respective other door leaf 2b or 2a facing vertical frame bars 21 and 25 are also provided with a double fold 17. The are to the broad sides of the door V and R lying face regions 18 and 18b each thinner than the middle face region Executed 18a; and there are first fire protection strips 8 opposite each other. Next is in the vertical facing the other door leaf 2b, 2a Frame spars 21, 25 each have a cable duct 11. With through the cable duct 11 guided electrical connections 21, 25 can, for. B. electric door opener, Connect chip card systems or similar lock control systems. Otherwise is explicitly drawn to the exact drawing for further details of the construction Representation referenced.

3, 4 and 5, the frame 3 and the glass frame 4 have a uniform thickness D, which is thicker than usual in known doors. The thickness D is preferably more than about 100 mm and more preferably 110 mm. The ratio of the wood surface exposed to fire in the event of fire to the wood thickness is less than 15,000 mm for double-leaf door 1 (the wood attack surface H ₁ , i.e. the same sum of the frame attack surface and the door frame attack surface on hinge side V and counter hinge side R) is approximately H ₁ = 1.6 × 10 ⁶ mm ² ; the thickness D = 110 mm, this gives H ₁ : D≈14.5 × 10 ³ mm). The thickness D is greater than the visible widths THB and THH of the frame bars 20 to 23 and 25 to 26 and greater than the visible width ZHB of the frame bars 30 to 32.

The door 1 has a maximum weight of 250 kg per leaf, i. H. a total of 500 kg. you can assume that the door 1 weighs 85 kg / sqm. You have that with the choice of Wood materials have little impact. The main weight is due to the fire protection glass 5 certainly.

Because of the large thickness D, the door 1 is at least double-folded because the Door leaves 2 otherwise - with a simple rebate or blunt version - with normal door widths tilt when opening and closing due to insufficient swivel radii in the frame 3. The double fold 12, 17 is difficult to seal in the event of a fire. One has therefore, so far, multiple folds in the T90 wooden door area have had to be avoided the effect that you couldn’t make doors that thick and too complicated, more difficult to handle or expensive measures to stiffen the door leaves and had to resort to strengthening the wood materials used. With the described here Door 1, however, the double rebate 12, 17 is also sealed for T90 requirements, so that the door 1 to form the for carrying the heavy glass panes 5 also in In case of fire, sufficiently rigid glass frame 4 simply made of solid wood just thicker could be executed. The seal succeeds in predicting several fire protection strips 8 and / or 10 per double fold and / or with fire protection strips 7 and 9 with different dimensions and different responses in the event of fire.

In Fig. 3 is shown in profile in the side and top frame spars 20, 21, 22, 25, 26 and 27 on the front side facing away from the glass pane 5 to be encompassed several times in parallel and at a distance next to each other at the front side as continuously as possible , It is formed from a layer of a first insulating layer former 81, which is embedded between a lower layer 80 made of high-density fiber material (HDF) and a cover veneer 82 made of the same material as the slowly burning solid wood. Exemplary values for the width B of the first fire protection band 8 and the thicknesses D ₁ , D ₂ , D _{3 of} its three layers 80 - 81 are: B = approx. 15 mm (± 5 mm), D ₁ = approx. 2.5 mm (± 0.5 mm), D ₂ = approx. 2 mm (± 0.5 mm) and D ₃ = approx. 1.5 mm (± 0.5 mm).

FIG. 6 shows the second fire protection band 10 used in the side and top frame members 30, 31 and 32 on the wider hinge-side end regions 15 as continuously as possible in profile. It is formed from a layer of a second insulating layer former 101 embedded between a lower layer 100 of high-density fiber material (HDF) and a cover veneer 102 made of the same material as the slowly burning solid wood. Exemplary values for the width B _{10 of} the second fire protection glue 10 and the thicknesses D ₄ , D ₅ , D _{6 of} its layers 100, 101, 102 are: B ₁₀ = approx. 46 mm (± 5 mm), D ₄ = approx. 2.5 mm (± 0.5 mm), D ₅ = approx. 2 mm (± 0.5 mm) and D ₆ = approx.1.5 mm (± 0.5 mm).

As the first insulation layer former 81, a very quickly responding, i.e. at relatively less Exposure to heat already used material. It is suitable for this for example, one sold by BASF AG under the trade name PALUSOL Material; a glass fiber and water-containing sodium silicate that foams when exposed to heat. The second intumescent agent 101 also foams under the action of heat, but responds more slowly than the first insulation layer 81, but with a larger one Inflatable volume, so that even larger gaps are sealed. It is suitable for this a material sold by PROMATECT under the trade name "Promaseal" becomes, a slower than Palusol, but more effective foaming material.

To form the second fire protection strip 9 accommodated in the underside of the door leaf U an intumescent agent is provided which has a very high foaming pressure or inflation pressure foams. Specifically, there are several parallel strips from a third layer of insulation, that of Rolf Kuhn GmbH in Tutzing-Garatshausen under the trade name ROKU-Strip is distributed, housed, a material that is exposed to heat creates a very strong expansion pressure.

In the event of a fire, the first, fast insulation layer former 81 (Palusol) speaks - the in the exemplary embodiments shown in the first fire protection strips 8 in the door leaf 2 is accommodated - swells up quickly, swells and seals even with little heat the door column against fire and smoke. Then, with longer exposure to fire the second, slower but more swollen insulation layer 101 swells (Promaseal) - here in the second fire protection strips 10 - that fills every space and the respective door leaf 2 swells in the frame 3. In the meantime, the first worries Fire protection strips 7 made of foaming material in the event of fire between the glass pane 5 and the glass frame 4 for fixing and sealing the edge of the glass frame, if the glazing bead 6 fails in the fire (e.g. burns). The second fire protection strips 9 on the underside U press against the door leaf 2 and hold its weight, to relieve the door hinges in the event of a fire or to compensate for their failure.

Oak burns down relatively slowly. However, it is particularly important to seal the joints and the stability of the door, i.e. also of the glass frame 4. Hence the thickness of the wood-glass frame 4 and the relatively slow burning wood.

7 shows yet another embodiment of a T90 wooden frame glass door, which is a single-leaf door 50 with only one active leaf 51 as the only door leaf 2 acts. The door 50 is also folded several times on at least three end faces. Parts corresponding to door 1 are identified by the same reference numerals, and reference is made to the explanations above for their explanation. The inner one The structure of the door 50 shown here results essentially (the known arrangement of locks and bands) from the profiles of the spars extending near the wall 30, 31, 32, 20, 22 and 26 in FIGS. 4 and 5 and at correspondingly continuous design of the glass pane 5. However, in the lock-side frame spar 21 'of the door leaf 51, albeit from the profile of the frame spar 26 resembling, the cable duct 11 is provided. The total width ZAMB 'of door 50 is approx. 1370 mm, the height of the glass pane 5 of the door leaf 51 is more than approx. 2150 mm, for example approx. 2207 mm; the width of this glass sheet 5 is more than approx. 1100 mm, for example approx. 1132 mm; otherwise the wooden parts correspond in their Profile dimensions of the values explained in the first embodiment. Even at the door 50 are the frame bars 20, 21 ', 22 and 23 of the glass frame 4 more thick than wide.

The ratio of the wood attack surface to the wood thickness for the single-leaf door 50 is less than 8,000 mm (the wood attack surface H ₁ is approximately 7.8 × 10 ⁵ mm ² ; the thickness D = 110 mm, this gives H ₁ : D≈7.1 × 10 ³ mm), the proportion of the wood attack surface in the total attack surface (without taking the glazing beads 6 into account) for the door 50 is less than 30%, with the exemplary more precise values giving about 24%.

When dimensioning the T90 wooden frame glass door 50, the upper limit is in the ratio Wood material to glass on the fire attack surface of, for example, about 30% wood attack surface to spend against 70% glass. You can change the relationship also set a little higher (for example 40% wood material to 60% glass). these are then quite wide friezes.

The double rebate 12 is present in each of the doors 1, 50, but has fire protection rather disadvantages, since it is more difficult to seal. But if you don't have a double fold 12 provided the door would not open. The door 1, 50 is so thick that with narrow doors the swivel radius would cause the door leaf 2 and frame 3 to tilt. you would therefore have to make the doors very wide if you have butt-rebated door leaves 2, 2a, 2b, 51 would like to provide. The specially sealed double fold 12, 17 allows solve this problem.

The arrangement of several thinner first fire protection band 8 and second Fire protection strip 9 has a reason, among other things, that the fire protection provided insulation layer formers are attached all around on three sides have to. In the lock area, the first fire protection band 8 would be interrupted, which too Irregularities in sealing could result. This is why so many first fire protection strips are made 8 placed side by side. In addition, you should always only from the visible side look at wood.

The difference between the preferred materials Palusol as insulation layer formers, Promaseal and ROKU-Strip is as follows: Palusol is the quickest to respond, the first to act and initially seals; In contrast, Promaseal is slower, but can do more Fill in cavity and also presses more forcefully; Rokustrip has the most violence. One can here already speak of violence, the door leaves 2 are in the event of fire ROKU strip strips held. This pushes the door leaves 2 upwards and the ligaments are relieved.

There are still in the glass frame 4 on the side surface 16 facing the glass pane 5 the thin first fire protection strip 7. This fire protection strip 7 is the Glass pane 5 held in the door 1, 50 when burning. The glass strips 6 burn a certain time, so that the glass pane 5 by pressure in the door 1, 50 is held.

One aspect of increasing the service life is the special arrangement and the Dimensions of the fire protection strips and strips 8, 9 and 10. The one in the door frame or the Frame 3 inserted second fire protection strips 10 with the second insulation layer 101 is relatively wide (more than 40 mm, here 46 mm). There are also intermediate groove areas opposite to it the end face areas 15 of the door frame spars, where there is no first fire protection band 8 and is therefore initially the same even in the event of a fire Offer counter pressure area.

The door leaves 2, 2a, 2b, 51 are basically nothing more than solid wooden frames around the F90 fire protection screen 5. The thickness of approx. 110 mm has made it possible to achieve a very narrow view width of the wood-glass frame 4 with appropriate stability (less wood attack surface in case of fire, also optical advantages). The glass panes 5 can optionally be divided by additional rungs 24.

A particularly appealing appearance of the doors 1, 50 shown here is achieved that the sum of the wooden frame spar surfaces visible on the door leaf broad sides V and R respectively is the same, i.e. that when the door is closed, the sum of that on the hinge side V visible frame spar width ZHB and the door leaf frame spar width visible on hinge side V or height THB or THH substantially equal to the sum of the on the opposite hinge side R visible frame spar width and on the opposite hinge side R visible door leaf frame spar width or height. In particular, this sum is also equal to the total width visible when the door is closed due to the one facing the other Door leaf frame spars 21 and 25 formed at the door 1 middle wooden frame spars. In this way, the doors shown here can be visually perfectly integrated into one (not shown) fixed fire protection wood glazing with appropriate width integrate their wooden frame spars.

LIST OF REFERENCE NUMBERS

1

double leaf door;

2

Door leaf;

2a

Passive leaf (door leaf);

2 B

Active leaf (door leaf);

3

Frame, mainly made of wood (solid oak);

4

Door leaf frame, mainly made of wood (solid oak);

5

Glass pane (F90 fire protection pane);

6

Glazing bead (e.g. the same wood as the door leaf frame);

7

first fire protection strips in case of fire to hold and seal the glass pane material foaming in the wooden frame;

8th

first fire protection band in the side and upper area of the door leaf;

9

second fire protection strips in the lower area of the door leaf;

10

second fire protection border in the frame;

11

Cabel Canal;

12

double seaming;

13

Face area of a glass frame spar near the hinge side V;

13a

middle end area of a glass frame spar;

13b

Face region of a glass frame spar on the counter hinge side R;

14

Falzdichtungen;

15

Face area of a frame spar near the hinge side V;

15a

middle face area of a frame spar;

15b

Face region of a frame spar on the counter hinge side R;

16

the wall of the glass frame 4 facing the fire protection pane;

17

Double rebate in the middle joint of the double-leaf door 1;

18

hinge-side end areas of the door leaves in the area of the middle joint

18a

middle front areas of the door leaves in the area of the middle joint

18b

areas on the opposite hinge side in the middle joint

20

hinge-side vertical frame spar of the active leaf;

21

vertical frame spar of the active leaf 2a on the lock side;

21 '

vertical frame spar of the active leaf 51 on the lock side;

22

upper horizontal frame spar;

23

lower horizontal frame spar;

24

Rung;

25

vertical frame spar on the lock side

26

hinge-side vertical frame spar

27

upper horizontal frame spar

28

lower horizontal frame spar

30

left vertical frame spar;

31

right vertical frame spar;

32

upper horizontal frame spar;

33

Hinges;

50

single leaf door;

51

Active leaf (door leaf);

80

Layer of HDF;

81

first intumescent agent (Palusol);

82

Wood veneer, e.g. Oak when using solid oak for glass frames and Frame;

100

Layer of HDF;

101

second insulating layer former (Promaseal);

102

Wood veneer, cover veneer;

ZAMB

Total width of the door (frame outer dimension);

ZHB

Zargenholmbreite;

ZFMB

Zargenfalzbreite;

CAGA

Total height of the door (frame outer dimension);

THB

on the hinge side visible width of the vertical frame spars of the active leaf 2a and 51;

THH

visible height of the horizontal frame spars of the active wings 2a and 51;

TLB

on the hinge side visible width of the vertical frame spar on the lock side of the passive leaf 2b

TFMG

visible width of the active leaf 2a;

TFMS

visible width of the passive leaf;

TUH

visible height of the lower frame spar of the passive leaf

HS

visible height of the rung;

U

Bottom;

V

front door broadside (front or hinge side);

R

rear door broadside (rear or counter hinge side);

Claims (6)

Fire protection glass frame door (1, 50) with a frame (3) essentially made of wood-based material and at least one door leaf (2, 2a, 2b, 51), which essentially consists of a door leaf frame (4) made entirely or predominantly of wood-based material and one fire protection disc (5) held therein is formed,
characterized in that the fire protection screen is an F90 fire protection screen (5),
that the frame (3) and / or the door leaf frame (4) has a thickness (D), measured perpendicular to the broad side of the door (V, R), of at least 100 mm, preferably of about 110 mm, and at least on its two end faces running parallel to a door pivot axis each have a multiple fold (12, 17) and
that each fold of the multiple fold (12, 17) or each of the end face partial areas (13, 13a, 13b; 15, 15a, 15b) of the door leaf (2) and / or the frame (3) separated from each other by the fold has its own fire protection band ( 8, 10) is provided with foaming material in the event of fire for sealing in the event of a fire. Door according to claim 1,
characterized in that the proportion of the wooden materials of the frame (3) and the door leaf frame (4) compared to the pane material (5) in a cutting plane running parallel to the broad side of the door (V, R) at the level of the F90 fire protection pane (5) is less than 40% , is preferably less than 30%. Door according to one of the preceding claims,
characterized in that the door leaf frame (4) is formed from frame bars (20, 21, 21 ', 22, 23, 25, 26, 27, 28), of which at least the frame bars (20, 21, 21', 25) to be arranged vertically , 26) and a frame spar (22, 27) to be arranged horizontally at the top, a total width (THB, THH, TLB) measured on the door leaf broad side (R, V) and a width across the door leaf broad side (R, V) compared to this total width (THB, THH , TLB) have a greater total thickness (D), the total width (THB, THH, TLB) preferably being less than approximately 70% of the total thickness (D). Door according to one of the preceding claims,
marked by
a first fire protection band (8) in the end faces of the door leaf (2) and a second fire protection band (10) in the end sides of the frame (3), the first and second fire protection bands (8; 10) having different types of fire protection materials (81, 101) are formed, of which a first (81) foams faster and / or at lower heat and a second (101) foams with a larger volume and / or with a larger foaming pressure. Door according to one of the preceding claims,
characterized in that at least one fire protection strip (9) with a fire protection material is provided on the underside of the door leaf (U), which foams up with a stronger foaming pressure than the fire protection materials (81, 101) used in the upper horizontal and vertical door columns. Door according to one of the preceding claims,
characterized in that the frame (3) and / or the door leaf frame (4) without inner metal reinforcements are predominantly made of solid wood, in particular of oak, koto or dark red meranti.

Images