RU2376436C1 - Fire door, fire door leaf (versions) - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and, particularly to fire-proof doors. Fire door consists of a door leaf and door frame. The door leaf includes wooden framework, main panel and outer lining. There is a thermo-setting material between the main panel and framework. The main panel is manufactured from wood-chip board. The outer lining contains two layers on each side of the main panel. Both layers are produced from wood-fiber plate. The said layers are interconnected and coupled with the main panel by means of adhesive material. Two parallel grooves are made in door frame perimetre at the side of door leaf ends. One groove is shifted to the front side of door, while the other one is shifted to frame ledge. Thermo-setting sealing is placed in the grooves.

EFFECT: invention allows for increasing fire resistance of door.

3 cl, 5 dwg

Description

The invention relates to the field of construction, namely to the design of fireproof doors.

A fireproof door is known, comprising a housing made of a perimeter frame structure and sheet steel panels on both sides, filled with a flame retardant filler (thermal insulator) with mineral fibers soluble in the physiological environment, in which the thermal insulator is divided into several layers with different flame retardant properties (Application No. 2004135416, IPC Е06В 5/16, 2006.05.10). This design has several disadvantages. Firstly, it has a large mass, since the body is made of metal, and secondly, this design is not technologically advanced, because the internal thermal insulator is made of separate heat-insulating plates, which must be connected at the ends in the form of a groove-tongue to form a panel, which is a time consuming process. In addition, the presence of joints in the thermal insulator reduces the fire resistance of the structure as a whole.

A door leaf is known that contains a metal frame, consisting of longitudinal and transverse bars welded together from a rectangular pipe filled with water, metal patch panels connected to the frame and heat-resistant filler placed between the panels (RU 2278232, IPC ЕВВ 5/16, 2006.06.20 ) The disadvantage of this design is the complexity due to the presence of the box (frame) filled with water, which, when the filler is melted, must interact with it, which, according to the authors, inhibits the temperature increase on the surface of the door leaf.

Known fire door block containing a door panel, a door frame and a fireproof screen made of fireproof plates and held in the upper position by a latch (RU 2299965, IPC EV 5/16, 2007.05.27). A disadvantage of the known solution is the presence of a screen, which is a mechanical structure, since mechanical elements reduce the reliability of the structure during fire.

Known multi-layer fire door, including layers of wood, intumescent composition and resin of alkali metal silicate (RU 2005137869, IPC SB 28/26, 2006.06.10). The presence in the structure of layers of dissimilar materials leads in serial production (in the manufacture of a structure in one technological process) to production instability, since individual dissimilar elements must be connected together using different technologies. This leads to complexity of assembly and lower product quality.

A fire door is known comprising a door leaf and a door frame with a thermosetting sealant, in which one row of the thermosetting sealant is located on the porch of the door frame, and the second row is on the front surface of the quarter of the box with an offset to the vestibule (CN 200610097450.2, IPC ЕВВ 5/16, 2007.04.18). According to the generally accepted scheme, an intumescent thermoactive sealant is placed on the front surface of a quarter of the box, however, displacement of the thermoactive sealant to the narthex, as shown in the patent, leads to the fact that when burning from the hinge side, the fire quickly burns out the seal-free zone. If the thermosetting sealant has a large coefficient of thermal expansion, then its placement on the mock part of the door frame with a certain percentage of burnout can lead to the opening of the door.

The closest analogue of the present invention is a fire door containing a fireproof door leaf comprising a wood panel impregnated with a flame retardant composition with external surfaces provided with a fireproof coating of foil layers and intumescent composition based on liquid glass, inorganic fillers and burnable additives (RU 2272116, IPC Е06В 5 / 16, 2006.03.20. A similar design is also described in the patent US 4282687, IPC ЕВВ 5/16, 1981.08.08). The disadvantage of this design is that the main panel is a furniture panel, that is, it is drawn from individual elements and therefore is not homogeneous, because, firstly, the tree itself contains defects in the form of knots and resin sinuses, and secondly , between the elements there are seams that are usually filled with fireproof glue. In case of fire, inclusions (knots, resin and glue) will be destroyed faster than the base material. To ensure uniformity of the main panel, it is necessary to remove wood defects and replace them with glues and corks from the main material, which is a laborious process. In addition, fire-resistant adhesives based on calcium or sodium silicates are extremely expensive, and the impregnation of wood with a fire-retardant composition (fire retardant) has a fixed shelf life (not more than 5 years), after which it must be repeated, which is impossible if there are external foil layers on the wooden panel or intumescent composition.

The present invention is directed to the creation of a fire-resistant and technologically advanced construction of a wooden door intended for installation in rooms with increased requirements for both fire resistance and the appearance of products, for example, in offices and hotels.

The problem is solved in a fire door containing a door leaf comprising a main panel and an outer cladding containing several layers, and a door frame, in which according to the invention the door leaf contains a frame made of wood and placed around the perimeter, a thermoactive is placed between the main panel and the frame material, and the main panel is made of particle board, and the outer lining on each side of the main panel contains two layers made of fiberboard, with of the connections between themselves and with the main panel by adhesive material, while in the door frame around the perimeter from the ends of the door leaf, two parallel grooves are formed, one of which is offset to the front side and the other - to the vestibule, which is placed in thermo seal.

In a second embodiment of the invention, the door leaf of the fire door includes a main panel, an outer cladding made of several layers, and a window containing glass and fasteners, according to the invention it comprises a frame made of wood and placed around the perimeter of the door leaf between the main panel and the frame thermoactive material is placed, while the main panel is made of chipboard, the outer lining on each side of the main panel contains two layers made of wood fiber that plate connected to each other and to the main panel by means of adhesive material, and the window fasteners contain glazing beads located along the glass perimeter on both sides, and metal rods installed at an angle of 40-50 degrees to the glass plane from its two sides in such a way that on the one hand they are adjacent to the faces of the glass, and on the other, passing into the body of the main panel, they form an angle between them in the projection, while a thermoactive sealant is placed between the glass, glazing beads and the main panel.

Improving the fire resistance of the structure is achieved, firstly, by performing the main panel of the door leaf from a solid chipboard made on the basis of a fire-resistant binder having a porous structure, since such a structure is destroyed evenly during combustion, and therefore it is deformed uniformly. Secondly, the presence of a frame made of wood and placed around the perimeter of the door leaf allows you to securely fasten the hinges, so when the chipboard is heated, the binder melts and the hinges, if they are attached to the chipboard, lose stability. Thirdly, when assembling the door leaf, a careful connection of the frame elements and the main panel is not required, since a material swellable during combustion (thermoactive sealant) is placed between them along the perimeter, which becomes loose during combustion and therefore damps warpage of various structural elements. Fourth, the presence of an outer lining on each side of the main panel containing two layers made of fiberboard connected to each other and to the main panel by means of adhesive material increases the thickness of the door leaf to 60 mm, which reduces the burning rate to 0.8 mm / min Fifthly, the placement of the thermosetting sealant in two parallel grooves on the front surface of the quarter of the door frame, one of which is offset to the front side of the door and the second to the narthex, reliably seals the door leaf when ignited on either side of the door, since the seal in both cases It is located in a closed circuit and is as close as possible to the outer surfaces of the door, while the lock bolt is also protected from direct exposure to the flame, as it is located between the rows of the seal.

In the door leaf containing the window, metal rods mounted at an angle of 40-50 degrees continue to hold the fire glass in its original position after the glazing bead framing the fire glass burns out.

Further, the essence of the present invention is explained with reference to the accompanying drawings, which show the following:

Figure 1 - fire door made according to the invention, a General view.

Figure 2 is the same, a section A - A of figure 1.

Figure 3 - door leaf, section.

Figure 4 is the same, section B - B of figure 1.

Figure 5 - door frame, section.

The fire door includes a door leaf 1 and a door frame 2. The door leaf 1 comprises a frame 3 made of wood and placed around the perimeter, the main panel 4 and the outer lining. Between the main panel 4 and the frame 3 is placed thermoactive material 5. The main panel 4 is made of wood chipboard (chipboard), and the outer lining on each side of the main panel 4 contains two layers 6, 7 made of fiberboard (MDF). Layers 6, 7 are connected with each other and with the main panel 4 by means of adhesive material 8. In the door frame 2 along the perimeter from the ends of the door leaf 1 there are two parallel grooves 9, one of which is offset to the front side of the door, and the second to the narthex. In the grooves 9 there is a thermoactive sealant 10. In the second embodiment, the door leaf includes a window containing glass 11 and fasteners in the form of glazing beads 12 and metal rods 13. The glazing beads 12 are located on the perimeter of the glass 11 on both sides. The metal rods 13 are installed at an angle of 40-50 degrees to the plane of the glass 11 from its two sides so that on the one hand they are adjacent to the faces of the glass 11, and on the other, passing into the body of the main panel 4, form a projection angle between themselves. Between the glass 11, glazing beads 13 and the main panel 4 is placed thermoactive sealant 14.

Fire tests of a fire door made according to the invention in accordance with GOST 30247.2-97 “Fire tests. Doors, gates ”showed that at the first stage in the combustion process the outer lining of the door leaf (wood fiber boards) burns to the main panel (particle board), and at the second stage, the combustion process goes into the pyrolysis process. The fire resistance of the tested doors was 60 minutes. At the same time, a thermoactive sealant (heat-expandable tape) located between the frame elements and the main panel does not allow the spread of flame in the joint area, and a thermoactive sealant located in the grooves of the door frame prevents the spread of fire when ignited on either side of the door.

From the above it follows that the fire door made according to the present invention according to any one of the options, not only has increased fire resistance, but it also has a simple structure and easy to assemble. In addition, the presence of fiberboard panels on the surface of the door leaf makes it possible to easily perform any kind of finish, for example with a laminate or natural veneer, which is problematic for doors with a metal surface.

Claims (3)

1. A fire door containing a door leaf comprising a main panel and an outer lining containing several layers, and a door frame, characterized in that the door leaf comprises a frame made of wood and placed around the perimeter, a thermoactive material is placed between the main panel and the frame, moreover, the main panel is made of chipboard, and the outer lining on each side of the main panel contains two layers made of fiberboard, interconnected and with the main panel by means of adhesive material, while in the door frame along the perimeter from the side of the ends of the door leaf two parallel grooves are made, one of which is offset to the front side, and the second to the narthex, in which the thermoactive sealant is placed. 2. The door leaf of the fire door, including the main panel and the outer lining, containing several layers, characterized in that it contains a frame made of wood and placed around the perimeter of the door leaf, thermoactive material is placed between the main panel and the frame, while the main panel is made particle board, and the outer lining on each side of the main panel contains two layers made of fiberboard, interconnected and with the main panel by adhesive nogo material. 3. The door leaf of the fire door, including the main panel, the outer cladding made of several layers, and a window containing glass and fasteners, characterized in that it contains a frame made of wood and placed around the perimeter of the door leaf between the main panel and thermally active material is placed in the frame, while the main panel is made of chipboard, the outer lining on each side of the main panel contains two layers made of fiberboard connected between on their own and with the main panel by means of adhesive material, and the window fasteners contain glazing beads located along the glass perimeter on both sides and metal rods installed at an angle of 40-50 ° to the glass plane on both sides in such a way that on one side they are adjacent to the faces of the glass, and on the other, passing into the body of the main panel, form an angle between themselves in the projection, while a thermoactive sealant is placed between the glass, glazing beads and the main panel.

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