RU110403U1 - FIRE DOOR DOOR CANVAS CONTAINING NANOPARTICLES (OPTIONS) - Google Patents

Abstract

 1. A door leaf containing a frame made of wood bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which a filler is placed, characterized in that the bars of the frame contain nanoparticles. ! 2. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which a filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, the wood sheets containing nanoparticles. ! 3. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which the filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, and wood the sheets contain nanoparticles of nanostructured magnesium hydroxide. ! 4. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which the filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, and wood the sheets contain nanoparticles of nanostructured calcium hydroxide.

Description

The proposed utility model relates to the field of construction, namely, door designs for industrial and residential buildings, designed for passive protection of structural openings from open flames.

A door leaf of a fire door is known, which includes a wooden frame, a main panel and an outer lining. The main panel is made of chipboard (patent No. 2376426, ЕВВ 5/16, published on December 20, 2009). The disadvantage of this door is that the fire resistance limit in a protected structure cannot be provided in sufficient quantities.

The objective of the proposed utility model is to increase the fire resistance of the door leaf of the fire door while maintaining environmental and consumer properties.

The problem is solved in that the door leaf contains a frame made of bars located around the perimeter, sheets of the outer cladding, between which an inner space is formed in which the filler is placed. The bars of the frame are made of wood, or of wood sheets interconnected by adhesive material. Wood sheets contain nanoparticles, for example, nanostructured magnesium or calcium hydroxide.

The use of wood sheets with nanoparticles for the fire door frame can significantly increase the fire resistance of the product.

The design of the door leaf of the fire door is illustrated by the drawings:

figure 1 - General view of the door leaf of the fire door.

Figure 2 is a section of a bar of the frame AA.

The door leaf of the fire door contains the frame 1 and the sheets of the outer lining 2, which can be used MDF boards, fiberboard. The sheets are coated (for example, veneer, laminated paper or paint). Between the sheets of cladding, an inner space is formed, filled with filler 3.

The bars of the frame 1 - wood, or made of wood sheets 4, for example, plywood. The wood sheets are interconnected by means of an adhesive material 5, for example, fire-resistant glue. Preferably, the sheet thickness is 2-4 mm. Frame bars (wood sheets) contain nanoparticles. The size of the nanoparticles is about 50 nm. As nanoparticles, for example, nanoparticles of nanostructured calcium or magnesium hydroxide can be used. Nanoparticles can also be selected from the group consisting of metals. Metals are selected from the following series: nickel, iron, aluminum, antimony, magnesium, calcium, or combinations thereof.

The wood beams of the frame, or the wood sheets are treated with a composition containing nanostructured calcium or magnesium hydroxide, or with the content of other nanoparticles with fire retardant properties. If the frame is made of wood sheets, these sheets after processing the composition are connected to each other by means of adhesive material. From the plates thus formed, bars are made for the frame of the door leaf.

As the filler 3 can be used chipboard, wood (wood beams) or mineral filler, including having fire retardant properties.

The proposed door leaf fire door operates as follows.

When a door is exposed to fire, the decorative coating of the sheets first burns, then the sheets 2 themselves. With further fire exposure on the door and an increase in the temperature on its surface, the leading role in limiting the thermal load begins to be played by the fact that the door leaf frame 2 is made of wood containing nanoparticles , or from wood sheets containing nanoparticles having flame retardant properties.

Depending on the type of nanoparticles, either the foaming of the fire-retardant components with the formation of a fire-retardant barrier - a porous fine-meshed foam coke characterized by high heat resistance and low heat conductivity, or due to the presence of nanoparticles, the wood becomes fire-resistant and the fire exposure to wood for a long time not happening. With the formation of penocox, the amount of heat supplied to the inner layers of the door leaf from the side of the flame source decreases sharply. The resulting foam coke seals all the gaps between the door frame and the door leaf, as well as directly in the door leaf between the frame and the filler, and, as possible deformations of the door leaf occur, the foam coke expands, filling in the increasing gaps and gaps. In the case where nanoparticles are used that impart fire-retardant properties to the wood without the formation of foam coke, sealing between the door leaf and the door frame is ensured by a sealant installed either directly on the door leaf or on the door frame. In both cases, high structural strength is ensured for at least 60 minutes of fire.

Thus, the proposed door leaf of the fire door allows to increase the fire resistance and strength of the door with a small weight and thickness of the product, increase the reliability of operation during a fire, expand options for possible door coatings while maintaining environmental and consumer performance of the product, which in turn allows you to use the door in any interior.

Claims (4)

1. A door leaf containing a frame made of wood bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which a filler is placed, characterized in that the bars of the frame contain nanoparticles. 2. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which the filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, and wood sheets contain nanoparticles. 3. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which the filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, and wood the sheets contain nanoparticles of nanostructured magnesium hydroxide. 4. A door leaf containing a frame made of bars located around the perimeter, sheets of the outer lining, between which an inner space is formed in which a filler is placed, characterized in that the bars of the frame are made of wood sheets interconnected by adhesive material, and wood the sheets contain nanoparticles of nanostructured calcium hydroxide.