EP0505934B1 - Glazed fire door - Google Patents

Abstract

The invention relates to a glazed fire door (1), in particular for use inside a fireproof glazing for avoiding the passage of fire and smoke during a fire from one room into another, with at least one fireproof plate (2a, 2b) which contains a foaming agent as protective active ingredient and which is held by a pivotable door frame (7) which has a door profile (8) which is arranged on a perpendicular end surface of the fireproof plate and which, with the glazed door (1) closed, bears via seals (9) against a stationary frame profile (10). In order to produce a simply constructed glazed door (1), the structural parts of which require no additional fireproofing measures, such as for example insulation of the supporting construction, and to reduce the possible heat bridges to a minimum, it is proposed with the invention that the door profile (8) of the door frame (7) is designed as a flat profile which the adjacent abutting surface (13b) of the fireproof plate (2a) adjoins without insulation, forming a narrow gap (14), and that, in the event of fire, the gap (14) is sealed by the foaming agent of the fireproof plate (2b) in a fireproof and smokeproof manner and with simultaneous cooling of the adjoining part of the door profile (8). <IMAGE>

Description

The invention relates to a glass door for fire protection purposes, in particular for use within fire protection glazing to prevent the passage of fire and smoke in the event of a fire from one room to another, with at least one fire protection pane containing a foaming agent as a protective agent, which is held by a pivotable door frame. which in the area of the vertical end faces of the fire protection window consists of two interconnected hollow profiles, which have no fire protection measures on the outside, and between which the fire protection window is held in its edge area, a narrow joint being formed in the area of the butt surface of the fire protection window In the event of a fire, the foaming agent of the fire protection screen closes it in a fire-proof and smoke-tight manner, and the heat transfer between the interconnected cavities occurs as a result of the cooling effect of the escaping foaming agent profiles reduced.

Fire protection glazing is translucent components that are designed not only to prevent the spread of fire and smoke, but also to prevent the inadmissible transfer of heat in accordance with their fire resistance duration.

Fire protection glazing is divided into different fire resistance classes, the respective requirements of which are explained in DIN 4102.

A known fire protection glazing has fire protection panes which are constructed in multiple layers from glass panes with a fire protection layer arranged in between. In the event of a fire, the fire protection layer is activated. It absorbs heat radiation and forms a highly effective insulation layer. The originally transparent glazing creates a practically opaque fire protection wall.

Since in most cases fire protection glazing must have at least one door opening, glass doors have been developed which are matched to the fire protection glazing as a whole with regard to its fire protection properties.

A known glass door for fire protection purposes has a steel frame construction which surrounds the inserted fire protection pane on all sides and is hinged to a door frame. Here, the steel frame construction consists of an approximately 60mm wide steel hollow profile, on the inner edge of which the fire protection pane is attached via glass retaining strips. At the outer edge of the hollow steel profile, a further, but narrower designed hollow steel profile is fastened, which is provided with an angled portion which, when the glass door is closed, bears against an appropriately designed hollow steel profile of the door frame by means of an intermediate seal.

The disadvantage of this known glass door is that it is constructed in a very complex manner. Because both the hinge side and the lock side, the glass door has a total of four hollow steel profiles, taking into account the glass retaining strips designed as steel tubes.

A further disadvantage is that the cross sections of the hollow steel profiles form thermal bridges in the event of a fire, so that there are drawbacks in the fire protection properties in the frame area of such a glass door compared to the fire protection behavior of the other fire protection glazing. A glass door is therefore always the weakest component within the fire protection glazing system.

In order to remedy this problem, another known glass door for fire protection uses a two-part steel frame construction in which the space between the two steel frames is filled by a strip made of non-combustible or flame-retardant material. In this way, the heat transfer through the steel frame construction is significantly reduced. A disadvantage of this known glass door, however, is that in order to ensure the required mechanical stability, the frame halves located on both sides of the fire protection window and the strip must be welded or screwed together.

A fire door with the features summarized at the outset is known from DE-U 71 48 693. The door frame of this glass door is made up of two hollow profiles, one of which holds the fittings required for the glass door to function. In contrast, the other hollow profile is used to cover and thus protect the hollow profile receiving the fittings in the event of fire. For this purpose, the hollow profile serving as protection is provided with fire protection measures that seal this profile towards the door frame in the event of a fire. Additional protection of the profile receiving the fitting parts is achieved in that the two-dimensionally connected profiles have an additional heat-inhibiting layer in the area of their contact surfaces. It is also provided that the fire protection pane has a joint to the adjacent hollow profile in the area of its abutting surface, which joint is closed in the event of fire by a foaming agent emerging from the fire protection window. A disadvantage of this glass door is that additional insulation measures in the form of the heat-inhibiting layer between the flat adjacent hollow profiles are required to achieve adequate fire protection. In addition, this glass door is only suitable for protection against one-sided sources of fire, while in the event of a fire on the other side of the glass door, considerable safety problems can be expected due to the large number of thermal bridges.

Finally, from DE-A 27 56 939 a multilayer fire door is known, which consists of a core made of heat-insulating material, which is covered on both flat sides by heat-insulating plates. This fire protection door is provided in the area of the end faces with a circumferential U-shaped profile made of metal, the legs of which are located between the heat-insulating material and the heat-insulating plates. The legs are therefore covered on the outside by the heat-insulating plates. Furthermore, in the area of the end face of the door leaf formed in this way, a sheet metal profile that is angled several times in the form of a hat is fastened. This sheet profile is used to hold the door leaf together as a whole. The cross-sectional shape like a hat also ensures that strips arranged in the area of the frame swell when exposed to heat and form a firm connection with the sheet metal profile. In this way, the door gap formed between the door and the door frame is closed, and the door leaf is also secured against falling out.

Based on the prior art according to DE-U 71 48 693, the invention has for its object to provide a simply constructed glass door for fire protection purposes, which in the event of fire regardless of the side on which the source of the fire is located, the possible thermal bridges are reduced to a minimum, without additional fire protection measures, such as the insulation of the supporting structure, being required.

To solve the problem , it is proposed that the two hollow profiles are connected to each other exclusively via a door profile, which is designed as a flat profile, to which the butt surface of the fire shield adjoins without insulation, and on which an angled portion is formed, which with the glass door closed Covers the door gap between the door profile and an opposite frame profile to the outside.

The invention is based on the fact that even without additional insulation measures in the form of strips or strips made of non-combustible or flame-retardant material, flames and smoke do not penetrate the abutting surfaces of the fire shield in the event of a fire. So far it has been assumed that the abutting surfaces of the fire protection panes represent a weak point of fire protection glazing, since in the event of fire they represent the easiest way for the flames, smoke and heat to penetrate fire protection glazing or a glass door for fire protection purposes. Experiments have shown, however, that in cases where a residual joint remains on the butt surfaces of the fire protection window, the fire protection agent located between the individual glass layers emerges in the form of a foam from the end face of the fire protection window and seals the joint tightly in the form of foam.

This joint closure not only means that flames and smoke can no longer penetrate through the glass door, but also leads to local cooling of the flat profile opposite the joint surface, forming the joint. However, since the flat profile is the only possible thermal bridge in the glass door according to the invention, its cooling by the foam emerging from the fire protection window leads to a significant reduction in the heat transfer at the edge of the glass door for a certain period of time and thus to improved fire protection properties of the glass door. In this context, "flat profile" should not only be understood to mean a completely flat, ie flat profile, but a profile that, for example also as a hollow profile, is designed so narrow that in the event of fire the cooling effect through the escaping foam occurs safely.

The aforementioned advantages are achieved without additional insulation measures in the form of strips or strips of non-combustible or flame-retardant material inserted within the steel frame. External insulation of the profiles is also not necessary, since, in contrast to the prior art, no large-area hollow steel profiles are used, but flat profiles which offer the heat only a small area of attack and thus heat transfer.

The glass door, which can be single or double-leaf, undergoes a further development in that the frame profile is also designed as a flat profile, to which the butt surface of a further fire protection pane is adjacent, forming a corresponding joint. This has the advantage of a significant reduction in the effective thermal bridges not only in the area of the frame, but also the door frame of the glass door.

According to a further development of the glass door, the angling of the door profile is connected to the hinge of the glass door. In this way, the hinge is formed on that component which also requires a special adjustment in other respects, for example with regard to door seals and other fitting parts.

This allows the joint covers to be kept free of fittings, which means that they can be designed in a uniform manner, which in turn benefits the visual appearance of the glass door.

An embodiment of a glass door according to the invention for fire protection purposes is described below with reference to the drawing. The drawing shows in an abbreviated form a glass door as part of fire protection glazing.

The glass door 1 shown in the drawing is part of a fire protection glazing, of which two fire protection panes 2a are shown in the drawing. The flat sides of the fire protection panes 2a are provided in the area of their edge with hollow profiles 3, which form the outer frame of the respective fire protection panes 2a. In each of the gaps between the edges of the fire protection panes 2a and the inner surfaces of the hollow profiles 3 there are elastocellular strips 4, these gaps additionally being sealed with a sealing compound 5 made of silicone rubber in the direction of the center of the pane.

The glass door 1, which is pivotably mounted on the fire protection glazing via a hinge 6, also consists of a fire protection pane 2b, which is held at its edges in the manner already described at its edges by a door frame 7, which is composed of the hollow profiles 3 and a door profile 8 on the end face of the fire protection pane 2b composed. A door handle 8a for actuating a locking mechanism (not shown) is attached to each of the hollow profiles 3 opposite the hinge side.

The fire protection panes 2a, 2b consist of a special laminated glass, which consists of several glass panes with fire protection layers arranged between them. In the event of a fire, these fire protection layers are activated, whereby they absorb heat radiation and thus form an effective insulation layer that prevents the passage of fire and smoke. The activation of the fire protection layers in the event of fire leads to them foaming and becoming cloudy, so that practically an opaque fire protection wall is created.

To hold the glass door 1 within the fire protection glazing, the glass door 1 is provided on its vertical edges with the door profile 8, which is on the end faces the hollow profile 3 of the glass door 1 is attached and together with the corresponding two hollow profiles 3 forms the door frame 7 of the glass door. When the glass door 1 is closed, the door profiles 8 rest against likewise flat frame profiles 10 via seals 9, which are fastened to corresponding end faces of the hollow profiles 3 of the fire protection glazing. The door profiles 8 of the door frame 7 and the frame profiles 10 are designed as flat profiles; However, this does not rule out that both profiles have bends 11, 12, the bends 11 serving to seal the glass door 1 in the closed state, while the bend 12 establishes the connection between one of the door profiles 8 and the hinge 6 designed as a hinge 6 .

In the drawing it is shown that a joint 14 with a joint width f of at most 6 mm remains between the surfaces of the door profiles 8 or the frame profiles 10 facing the respective fire protection panes 2a, 2b and the adjacent abutting surfaces 13a or 13b of the fire protection panes 2a or 2b . In the exemplary embodiment, the joint width f of the joint 14 is less than 4 mm. For this purpose, the flat frame profiles 10 and door profiles 8 are slightly recessed in the area of the abutting surfaces 13a and 13b in the direction of the respective pane.

In the event of a fire, the fire protection layer located therein is foamed due to the heating of the fire protection panes 2a, 2b, the material of this foam escaping from the abutting surfaces 13a, 13b of the fire protection panes 2a, 2b and closing the joints 14, so that flames and smoke no longer pass through the joints 14 can get through. In addition, the foam emerging from the abutting surfaces 13a, 13b causes cooling of the adjacent frame profile 10 or door profile 8, so that the transfer of heat via the frame profiles 10 or door profiles 8 is made more difficult. Due to the described mode of operation of the fire protection panes 2a, 2b not only prevents the passage of flames and smoke through the joints 14, but additionally reduces the construction-related effect of the frame profiles 10 and door profiles 8 as thermal bridges to a minimum. This advantage of cooling the frame profiles 10 or door profiles 8 is achieved in that these profiles are made sufficiently flat so that the cooling effect of the foam emerging from the abutting surfaces 13a, 13b covers the entire cross-section of the frame profiles 10 and 10 that is considered as a potential thermal bridge Door profiles 8 detected. In the depression of the frame profile 10, a strip 15 made of foaming material in the event of fire is attached. As a result, the space between door profile 8 and frame profile 10 is closed in the event of a fire.

Since the optical structure of the glass door 1 in the glass part having the fire protection pane 2b and in the edge part covered with the hollow profiles 3 corresponds to the corresponding structure of the other areas of the fire protection glazing, the overall result is a uniform visual impression of the fire protection glazing. In particular, the glass door 1 gives the impression of lightness due to the narrow door profiles 8 and frame profiles 10 and thus clearly stands out from the known glass doors, which generally have voluminous frame structures.

Reference list

1

glass door

2a

Fire protection window

2 B

Fire protection window

3rd

Hollow profile

4th

Elastocell tape

5

caulk

6

hinge

7

Door frame

8th

Door profile

8a

Doorknob

9

poetry

10th

Frame profile

11

Angling

12th

Angling

13a

Butt surface

13b

Butt surface

14

Gap

15

Stripes

f

Joint width

Claims (4)

1. Glass door for fire protection purposes, in particular for use within a fire protection glazing unit to avoid, in the event of a fire, the passage of fire and smoke from one room into another, having at least one fire protection pane containing a foaming agent as an active protective material, which pane is held by a pivotable door frame, which in the region of the vertical end faces of the fire protection pane comprises two interconnected hollow profiles, which have no fire protective measures towards the outside, and between which the fire protection pane is held in the region of its edge, there being formed in the region of the abutting face of the fire protection pane a narrow gap, which, in the event of a fire, is sealed in a fireproof and smokeproof manner by means of the foaming agent of the fire protection pane, and the cooling effect of the emerging foaming agent reducing the heat transfer between the interconnected hollow profiles, characterized in that the two hollow profiles (3) are interconnected exclusively by means of a door profile (8), which is designed as a flat profile adjacent to which is the abutting face (13b) of the fire protection pane (2b), forming the gap (14) without insulation, and on which there is formed an angled-off portion (12) which, when the glass door is closed, covers from the outside the door gap between door profile (8) and an oppositely lying frame profile (10).
2. Glass door according to Claim 1, characterized in that the frame profile (10) is also designed as a flat profile adjacent to which is the abutting face (13a) of a further fire protection pane (2a), forming a narrow gap (14) without insulation, and in that, in the event of a fire, the gap (14) remains sealed in a fireproof and smokeproof manner by the foaming agent of the further fire protection pane (2a), and with simultaneous cooling of the adjacent part of the frame profile (10).
3. Glass door according to Claim 1 or Claim 2, characterized in that the gap width (f) is less than 6 mm, preferably less than 4 mm.
4. Glass door according to one of Claims 1 to 3, characterized in that the angled-off portion (12) of the door profile (8) is connected to the hinge (6) of the glass door.

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