KR100825487B1 - Indoor fire door including magnesium board - Google Patents

Abstract

An indoor fire door including a magnesium board is provided to have excellent water resistance, fire resistance and durability, to do no harm, to protect against insects and to have antibiosis by manufacturing inorganic magnesium as a main material, and to use and maintain easily and to reduce the manufacturing cost by keeping a door frame to have high strength without inserting a steel plate for reinforcement to the inside of an indoor fire door. An indoor fire door(40) including a magnesium board comprises a main frame forming the frame of a door frame(20), a magnesium board made of noncombustible magnesium oxide, a support frame coupled to the inside of the main frame, a finishing member(26) attached to the front and rear sides of the door frame and composed of a printing layer(26a) having various patterns, letters and figures and a coating layer(26b) protecting the printing layer from external environment, a reinforcement frame(41) made of timber or artificial timber and coupled along the outer surface of the main frame of the door frame to heighten the strength of the door frame, and a reinforcement plate(42) made of a metallic material such as aluminum and coupled to surround the outer surface of the reinforcement frame.

Description

Indoor Fire Door Including Magnesium Board

1 is a flowchart illustrating a method of manufacturing a magnesium board according to the present invention.

2 is a cross-sectional view for explaining a magnesium board formed by the magnesium board manufacturing method according to the present invention.

Figure 3 is a perspective view for explaining the main frame of the indoor fire door according to the present invention.

Figure 4 is a perspective view for explaining the support frame of the interior fire door according to the present invention.

Figure 5 is a side cross-sectional view for explaining the indoor fire door according to an embodiment of the present invention.

6 is a perspective view for explaining an indoor fire door according to another embodiment of the present invention.

Figure 7 is a side cross-sectional view for explaining the interior fire door according to another embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

10, 22: magnesium board 21: main frame

23: water soluble adhesive 24: support frame

24a: transverse support frame 24b: longitudinal support frame

25: fixed block 26a: printed layer

26b: coating layer 41: reinforcing frame

42: reinforcing plate 42b: coupling hole

The present invention relates to a magnesium board and a fire door for indoors including the same, and more particularly, as the main raw material of inorganic magnesium, as well as excellent water resistance, fire resistance and durability, non-toxic harmless, insect repellent and antibacterial magnesium board and the same It is related to the interior fire door including.

In general, indoor fire doors are used in houses and apartments to minimize the risk of human and property damage by preventing the spread of flames from the point of fire to each room.

In other words, by installing fire-proof doors using flame-retardant synthetic resin panels (or boards) and flame-retardant cores as door frame materials, the speed and time at which the cracks and deformations of the doors are caused by high-temperature flames and heat generated in a fire. In addition, it is possible to delay as much as possible, and also has a blocking effect such as high temperature flame and heat in case of fire, thus ensuring evacuation time from fire and minimizing flame movement.

However, the use of indoor fire doors using flame retardant synthetic resin panels and flame retardant core materials can temporarily block high temperature flames and heat, as described above. However, these indoor fire doors are also burned by high temperature flames and heat. It could not be avoided.

Therefore, there is a problem that human life may be caused by toxic substances or gases generated by the combustion of the synthetic resin panel and the flame retardant core material constituting the indoor fire door.

In addition, the indoor fire doors made of the material as described above has a problem that it is difficult to maintain a comfortable and clean indoor environment because it is not equipped with the insect repellent, antibacterial and the like necessary for installation in the interior of a house or apartment.

In addition, the conventional indoor fire door is inserted into the reinforcing steel plate, etc. to block the high temperature flame and heat, or to increase the strength of the door frame, according to this, the weight of itself increases excessively and There was a problem that maintenance (or repair), etc., as well as increase the production cost.

Thus, in the present invention, to solve the problems as described above, as the main raw material of inorganic magnesium, water resistance, fire resistance and durability, as well as non-toxic harmless, insect repellent and antibacterial magnesium boards and indoor fire doors including the same To provide.

In addition, it is possible to maintain the high strength of the door frame without inserting a reinforcing steel plate, etc. inside the indoor fire door to provide a magnesium board and an indoor fire door including the same that can be easily used and maintained while reducing the production cost do.

To this end, the magnesium board according to the present invention is characterized in that it comprises a non-combustible magnesium oxide to constitute a fire door for indoor use.

At this time, the magnesium board is preferably made of a mixture of magnesium oxide 90Kg to 110Kg, sawdust 20Kg to 30kg, coagulant 10Kg to 20kg, ocher 10kg to 20Kg, elvan 10Kg to 20kg, and water 50kg to 60Kg.

On the other hand, the indoor fire door according to the present invention is composed of a magnesium board comprising a non-combustible magnesium oxide, consisting of a main frame constituting the edge of the door frame, and the magnesium board, coupled to the inside of the main frame And a finishing member covering the front and rear surfaces of the support frame and the door frame.

At this time, the magnesium board is preferably made of a single layer of a magnesium board or a plurality of magnesium board is stacked.

In addition, the magnesium board is preferably made of a mixture of magnesium oxide 90Kg to 110Kg, sawdust 20Kg to 30kg, coagulant 10Kg to 20kg, ocher 10kg to 20Kg, elvan 10Kg to 20kg, and water 50kg to 60Kg.

In addition, it is preferable that a cloth of a flame retardant material is inserted and coupled between the plurality of laminated magnesium boards to increase the bonding force.

In addition, the support frame preferably includes a plurality of transverse support frames coupled between both side surfaces of the main frame facing each other, and a plurality of longitudinal support frames coupled between both side surfaces of the transverse support frames facing each other. .

In addition, the finishing member preferably includes a printing layer having various letters, symbols, or figures printed on the upper surface of the magnesium board, and a water-soluble coating layer for protecting the printing layer.

In addition, it is preferable to further include a fixing block formed along the edge of the door frame and inserted into at least one or more of predetermined spaces surrounded by the main frame, the transverse support frame and the longitudinal support frame.

In addition, it is preferable that the reinforcement frame made of natural or artificial wood is coupled along the outer surface of the main frame constituting the edge of the door frame.

In addition, the outer surface of the reinforcing frame is formed with a coupling groove, it is preferable that the reinforcing plate made of a metal material is formed along the outer surface of the reinforcing frame is formed on the inner side of the engaging projection engaging the coupling groove.

Hereinafter, with reference to the accompanying drawings to be described in detail with respect to the magnesium board and the indoor fire door including the same.

1 is a flowchart illustrating a method for manufacturing a magnesium board according to the present invention, Figure 2 is a cross-sectional view for explaining a magnesium board formed by the method of manufacturing a magnesium board according to the present invention.

As shown in FIGS. 1 and 2, magnesium board 10 of indoor fire door 30 having insect repellent and antibacterial property is not toxic and does not generate harmful toxins upon combustion as it contains inorganic magnesium as a main raw material. Is formed including a mixing step 11, a first extrusion step 12, a flame retardant attaching step 13, a second extrusion step 14, a drying step 15, a cutting step 16 and the like.

In more detail, the mixing process (11) is a mixer of the above each raw material in the ratio of magnesium oxide 90Kg to 110Kg, sawdust 20Kg to 30kg, coagulant 10Kg to 20kg, ocher 10kg to 20Kg, elvan 10Kg to 20kg, and water 50kg to 60Kg It is put in to mix well with each other.

In the first extrusion process 12, the mixed raw materials mixed in the mixing process 11 are introduced into a mold having a predetermined shape through a hopper or the like, and then pressurized using a roller. It is for forming one magnesium board 10a.

The flame retardant attaching process 13 includes a second magnesium board which will be described later in order to make the main frame (see 21 of FIG. 3) and the support frame (see 24 of FIG. 4) constituting the indoor fire door 30 have an appropriate thickness. When laminating 10c on the first magnesium board 10a, the bonding strength between the first magnesium board 10a and the second magnesium board 10c is increased to be sufficient to construct the door frame 20. In order to provide strength, after applying a water-soluble adhesive to the surface of the first magnesium board (10a), for example, a flame retardant (10b) such as a flame retardant fabric (fabric) is attached.

In the second extrusion process 14, the second magnesium board 10c is stacked on the upper side of the first magnesium board 10a to which the flame retardant 10b is attached to form a magnesium board 10 having an appropriate thickness. As described above, the first magnesium board 10a as a mixed material is put into the surface of the first magnesium board 10a to which the flame retardant 10b is attached through a hopper or the like, and then pressurized using a roller. The flame retardant 10b and the second magnesium board 10c may be integrally formed with one magnesium board 10.

In the above description, the magnesium board 10 having two layers in which the second magnesium board 10c is stacked on the first magnesium board 10a has been described as an example. Of course, it will be apparent to those skilled in the art that the magnesium board may be formed by thickening only one layer of the magnesium board without forming the stacked structure.

On the other hand, the drying process 15 is the first magnesium board (10a), flame retardant (10b), and the second magnesium board (10c) is integrally bonded as described above by drying for about 24 hours at about 70 ° C, The coagulant mixed in the first magnesium board (10a), as well as to coagulate the water-soluble adhesive applied to bond the flame retardant material (10b), such as a flame retardant cloth to maintain a more solid bond.

Then, the cutting step 16 is the main frame 21 constituting the door frame (see 20 of FIG. 4) of the indoor fire door (see 30 of FIG. 5) as will be described later to the magnesium board 10 formed of a suitable thickness And a cutting machine or the like so as to have a width suitable for the support frame 24.

Hereinafter, a fire door for indoor use according to the present invention formed using a magnesium board formed using the mixed raw materials as described above will be described in detail.

Figure 3 is a perspective view for explaining the main frame of the indoor fire door according to the present invention, Figure 4 is a perspective view for explaining a support frame of the indoor fire door according to the invention, Figure 5 is an embodiment of the present invention Side cross-sectional view for explaining the interior fire door according.

First, as shown in FIG. 3, the main frame 21 of the indoor fire door 30 according to the present invention is for constituting an edge of the door frame 20 of the indoor fire door 30, and constitutes a door. As an example, the first to third magnesium boards 22a to 22c each having a thickness of 8 mm may be stacked to form magnesium boards 22 having a thickness of 24 mm so as to have sufficient strength. Magnesium boards (22) having a combination of four to form a four corner door frame 20 edge shape.

At this time, a bonding piece or a bolt may be used to couple the magnesium boards 22 forming the edge of the door frame 20 to each other, but as the respective bonding sites are bonded by using the water-soluble adhesive 23. The magnesium board 22 formed by stacking the first to third magnesium boards 22a to 22c is prevented from being damaged by the fastening of the coupling piece or the bolt, and the appearance deteriorates as the coupling piece or the bolt protrudes outward. Of course, it would be desirable to prevent harmful gases, such as harmful to the human body, in the event of fire.

When the main frame 21 is formed, as shown in FIG. 4, the support frame 24 which consists of the horizontal axis | shaft support frame 24a and the longitudinal axis | shaft support frame 24b is installed inside the main frame 21, and the said The strength of the main frame 21 can be further increased. That is, a plurality of horizontal axis supporting frames 24a are inserted and coupled at predetermined intervals between the main frames 21 facing each other so as to support the main frame 21, and predetermined between the horizontal supporting frames 24a facing each other. A plurality of longitudinal support frames 24b are inserted and coupled at intervals to support the main frame 21 and the transverse support frame 24a.

However, the horizontal support frame 24a and the vertical support frame 24b are also bonded by the water-soluble adhesive 23 as the magnesium board 10 as described with reference to FIG. The thickness of the frame 24a and the longitudinal support frame 24b and the installation interval or the number of the transverse support frame 24a and the longitudinal support frame 24b may be appropriately adjusted.

Meanwhile, at least one or more of predetermined spaces formed along the edge of the door frame 20 and surrounded by the main frame 21, the horizontal axis supporting frame 24a, and the vertical axis supporting frame 24b are made of wood as an example. It is preferable that the fixed block 25 is inserted and coupled, such a fixed block 25 is provided with a hinge so that the indoor fire door 30 can be coupled to the door frame to be rotatable, or the handle and the locking device, etc. Is installed to enable the opening and closing of the indoor fire door (30).

As described above, when the support frame 24 and the fixing block 25 are coupled to the inside of the main frame 21 to form the door frame 20, the closing member 26 is formed on the front and rear surfaces of the door frame 20. By attaching to complete the interior fire door 30, the finishing member 26 is attached to the front and rear surfaces of the door frame 20, respectively, as shown in Figure 5, preferably of the magnesium board 10 The printed layer 26a printed with various patterns, letters, and figures including a wooden pattern on the upper surface and the surface of the printed layer 26a are applied to the printed layer 26a, where various contaminants are stained or scratched. And a coating layer 26b for protecting it from the external environment.

Hereinafter, an indoor fire door according to another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 6 is a perspective view for explaining an indoor fire door according to another embodiment of the present invention, Figure 7 is a side cross-sectional view for explaining an indoor fire door according to another embodiment of the present invention.

As shown in FIG. 6, the interior fire door 40 according to another embodiment of the present invention is coupled along the outer surface of the main frame 21 of the door frame 20 as described with reference to FIG. 4. Further comprising a frame 41 to further increase the strength of the door frame 20, as well as a hinge is installed on the reinforcement frame 41 so that the indoor fire door 40 can be coupled to the door frame to be rotatable Or, a handle and a locking device may be installed to enable the opening and closing of the indoor fire door 40. Therefore, it is possible to combine with the door frame without the fixing block 25 as described above.

To this end, the reinforcing frame 41 is preferably made of natural wood or artificial wood material to increase the strength of the door frame 20 to facilitate the installation of hinges, handles and locks.

Furthermore, in case of fire, natural wood or artificial wood has a risk of burnout when it comes into direct contact with a high-temperature flame, and is coupled to surround the outer surface of the reinforcing frame 41 made of natural wood or artificial wood, but may be made of metal such as aluminum. It will be preferable to further include a reinforcing plate 42 made of.

However, although a hinge-shaped coupling hole 42b may be formed in a portion of the reinforcing plate 42 so that a hinge or the like may be directly coupled to the reinforcing frame 41, the coupling hole 42b may not be formed. It will be apparent to those skilled in the art that a hinge or the like may be coupled to the reinforcing frame 41 by directly passing through the reinforcing plate made of metal.

On the other hand, in order to firmly and easily combine the reinforcing frame 41 and the reinforcing plate 42, the outer surface of the reinforcing frame 41 is formed with a coupling groove (41a) having a predetermined depth and width along its longitudinal direction, The inner side of the reinforcing plate 42 of the metal material, the engaging projection 42a is formed to engage the coupling groove 41a, so that the reinforcing plate 42 can be coupled to cover the surface of the reinforcing frame 41 This configuration will be more clearly understood by FIG. 7 showing the side cross section.

Further, as described above, the reinforcing frame 41 is coupled to the door frame 20 made of the magnesium board 22 to reinforce the door frame 20, and the reinforcing plate 42 is coupled to the outside of the reinforcing frame 41. After reinforcing the reinforcement frame 41, as described with reference to Figure 5, respectively attached to the front and rear surface, preferably printed on the upper surface of the magnesium board 10, including various patterns including a wooden pattern printed 26a) and a coating layer 26b coated on the surface of the print layer 26a to protect the print layer 26a from external environments such as staining or scratching of various contaminants on the print layer 26a. The indoor fire door 40 according to the embodiment is configured.

The magnesium board according to the present invention and the interior fire door including the same have been described above. Such a technical configuration of the present invention will be understood by those skilled in the art that the present invention can be implemented in other specific forms without changing the technical spirit or essential features of the present invention.

Therefore, the above-described embodiments are to be understood in all respects as illustrative and not restrictive, and the present invention is represented by the following claims rather than the foregoing detailed description, and the meanings and scope of the claims and the like. All changes or modifications derived from the equivalent concept will be construed as being included in the scope of the present invention.

According to the magnesium board of the present invention as described above and the indoor fire door including the same, by using the magnesium board made of inorganic magnesium as the main material to form an indoor fire door, excellent water resistance, fire resistance and durability as well as non-toxic harmful to the human body It is possible to provide indoor fire doors that are free of toxins and have insect repellent and antibacterial properties.

In addition, it is possible to maintain the high strength of the door without inserting a reinforcing iron plate, etc. in the interior of the interior fire door can be provided for the interior fire door for easy use and maintenance while reducing the production cost.

Claims (11)

delete delete delete The main frame constituting the border of the door frame, A plurality of transverse support frames coupled between both sides of the main frame facing each other, and a plurality of longitudinal support frames coupled between both sides of the transverse support frames facing each other and coupled to the inside of the main frame Support frame, A closing member covering front and rear surfaces of the door frame, A reinforcing frame made of natural or artificial wood, coupled along an outer surface of the main frame and having a coupling groove formed on the outer surface thereof; A reinforcing plate of metal material coupled to an outer surface of the reinforcing frame, and having a coupling protrusion formed therein to engage the coupling groove; Is formed along the border of the door frame and comprises a fixed block inserted into at least one or more of the predetermined space surrounded by the main frame, the transverse support frame and the longitudinal support frame, The main frame and the support frame is made of a plurality of laminated magnesium board containing a non-flammable magnesium oxide, The finishing member is an indoor fire door including a magnesium board, characterized in that it comprises a water-soluble coating layer for protecting the printed layer and a printed layer on the upper surface of the magnesium board printed various letters, symbols or figures. delete The method of claim 4, wherein The magnesium board is a fire door for indoor use, characterized in that the mixture of magnesium oxide 90Kg to 110Kg, sawdust 20Kg to 30kg, coagulant 10Kg to 20kg, ocher 10kg to 20Kg, elvan 10Kg to 20kg, and water 50kg to 60Kg. delete delete delete delete delete

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