KR101256627B1 - Wood fire door and manufacturing method thereof - Google Patents

Abstract

The present invention relates to a wood fire door and a method for manufacturing the wood fire door produced by using a non-combustible wood using a non-combustible composition made of an environmentally friendly material, or by producing a non-combustible wood door with a non-combustible composition, the tank impregnated tank Adding and sealing the inside of the impregnating tank, steaming and heat-treating the wood in the impregnating tank, completely evacuating the air inside the wood and the impregnating tank, and putting a non-combustible composition (non-flammable chemical) into the impregnating tank. Applying pressure to non-combustible wood, depressurizing and discharging the non-combustible composition from the impregnating tank to clean the surface of the wood inside the tank, drying and inspecting the wood, and Using to produce a wood fire door having a desired pattern or shape, the non-combustible composition is 30% by weight Monyum poly four-state (Ammonium polyphosphate), and with guanidine sulfamate (Guanidinesulfamate) of 5% by weight, is used that consists of ammonium hexa metaphor states (Ammonium hexametaphoshate) of 5% by weight, and 60% by weight of water. The present invention can provide a wood fire door that helps a lot in fire safety by producing a non-flammable treatment with a non-combustible composition.

Description

Wood fire door and manufacturing method

The present invention relates to a wood fire door and a method for manufacturing the same, and more particularly, using a non-combustible wood using a non-combustible composition made of environmentally friendly materials, or produced by producing a non-combustible wood door with the non-combustible composition A wood fire door and its manufacturing method.

Currently, most doors use glass or metal, which is more resistant to heat than wood, but for residential buildings, indoor doors (door and toilet doors) made of wood are used.

However, at present, most interior doors are coated with a flame retardant which improves aesthetics or considers human damage. However, such flame retardant coating is not at all helpful to the fire safety of residential buildings, rather, once ignited with organic materials, a lot of harmful toxic gases are generated, causing a lot of damage to life.

Therefore, the present invention has been made to solve the problems of the prior art as described above, produced by using a non-combustible wood using a non-combustible composition that is composed of environmentally friendly materials to prevent environmental pollution, or produced wood It is an object of the present invention to provide a wood fire door and a method of manufacturing the same by producing a non-flammable treatment of the door with the non-combustible composition.

In order to achieve the above object, the present invention comprises the steps of injecting and sealing wood in an impregnation tank, steaming the wood in the impregnation tank, heat-treating the inside of the wood and the air in the impregnation tank; Injecting a non-combustible composition (non-flammable agent) into the impregnation tank and applying pressure to the non-combustible wood, and after the pressure is released and the non-combustible composition is discharged from the impregnation tank to clean the surface of the wood inside the tank, Drying and inspecting the same, and manufacturing a wood fire door having a desired pattern or shape using non-flammable wood, wherein the non-combustible composition comprises 30% by weight of ammonium polyphosphate, 5 Wt% Guanidinesulfamate, 5 wt% Ammonium hexametaphoshate, and 60 wt% water Characterized in that the configuration.

In addition, the present invention comprises the steps of producing a wooden door having a desired pattern or shape using wood, the step of closing the wooden door in the impregnation tank and sealing, the step of heat-treating the wooden door in the impregnation tank by steam; To completely evacuate the air inside the wooden door and in the impregnation tank, inject a nonflammable composition (non-flammable agent) into the impregnation tank and pressurize to pressurize the wood door, to depressurize and impregnate the nonflammable composition Cleaning the surface of the wooden door in the tank after discharged from and drying the wooden door to produce a wood fire door, wherein the non-combustible composition comprises 30% by weight of ammonium polyphosphate and 5 weight Consisting of% guanidinesulfamate, 5% ammonium hexametaphoshate, and 60% water by weight And that is characterized.

In addition, the wooden fire door of the present invention is characterized in that it was produced by the method as described above.

The present invention is produced by using a non-combustible wood using a non-combustible composition that is made of an environmentally friendly material to prevent environmental pollution, or by producing a non-flammable treatment of the produced wood door with the non-combustible composition, a lot of help for fire safety The state can provide wooden fire doors.

In the following, with reference to the accompanying drawings a preferred embodiment of the wooden fire door and its manufacturing method according to the present invention will be described in detail.

First, the nonflammable composition used for this Example is demonstrated.

1 is a flowchart of a method for producing a nonflammable composition used in the present invention. First, according to the content shown in Table 1 and Table 1 below, ammonium polyphosphate (Ammonium polyphosphate) was weighed to 60 ℃ guanidinesulfamate (Guanidinesulfamate) was added to observe the reaction, and then heated to 100 ℃ do. After cooling to 20 ° C., ammonium hexametaphoshate was added, and a small amount of ammonium polyphosphate was added to dissolve the solids. Adjust to below ℃.

Chemical name CAS No  Content (% by weight) Reference ammonium
Poly Fourstate 68400-09-1 30 Polymeric Phosphate Ammonium hexametapostate 10361-65-6 5 Guanidine sulfamate 51528-20-2 5 water 7732-18-5 60 Sum 100

In the non-combustible composition of this embodiment, a water-soluble composite material composition may be obtained by adjusting the mixed aqueous solution containing the composite phosphoric acid calvameter 50 to neutrality of PH 6-8. At this time, it is preferable to treat the multi-phosphorus carba meta 50 with the nanoparticles, and then to mix with a high heat treatment at 2,500 ° C. to obtain a nonflammable material.

In addition, the non-combustible composition of this Example can also be made into the water-soluble complex containing the polyphosphate and ester compound to create a solid content with polyester.

The non-combustible composition of this embodiment has a great feature of producing without using any phenolic resin, arsenic, boron, VOC, halogen, and other substances harmful to the human body.

In addition, the non-combustible composition of this embodiment may be obtained by mixing the materials differently several times and through the temperature change and high temperature heat treatment.

The non-combustible composition of this embodiment serves to block oxygen during combustion, to prevent fly ash from coming out during combustion, and also to block carbonization temperature, not only to reduce harmful substances, but also to be colorless and odorless. When impregnated with a nonflammable composition, semi-permanent use is possible.

The non-combustible composition of this embodiment can prevent warping, expansion and contraction of wood to some extent when penetrated into woods, as well as reducing the preservation, insect repellent, and ant damage.

When the non-combustible composition of this embodiment is used for timbers, it is characterized by blocking oxygen, removing combustibles, blocking carbonization temperature, reducing harmful substances, colorless and odorless, and semi-permanent use.

In addition, the non-combustible composition of this embodiment can be characterized in that dioxin, fly ash, etc. are not detected during combustion, and non-halogen flame-retardant materials have been developed. In other words, flame retardants using halogen, boron, arsenic, etc., which are highly toxic, have been introduced so far, but eco-friendly flame retardants have not been developed yet, and thus the non-flammable composition of this embodiment can have great significance.

Next, the method for producing a wood fire door according to the present invention using the non-combustible composition configured as described above.

2 is a flow chart of a method of manufacturing a wood fire door according to an embodiment of the present invention. As shown in Fig. 2, the wood to be applied is completely pre-dried to have a content of 10% or less. The dried wood is then loaded into a nonflammable machine with a 20KG pressure impregnation tank. Then, the wood in the impregnation tank is heated by applying steam at 40 ° C. for about 30 minutes. That is, the application of steam causes the wood to absorb moisture and thereby expand the fiber.

In this state, the air inside the wood and in the impregnation tank is completely vacuumed. At this time, a vacuum process is performed for 30 minutes at 740 atmospheric pressure. Thereafter, the same heat treatment and vacuum process as above are performed once more. Through the heat treatment and vacuum process to allow the non-combustible composition penetrates smoothly into the wood, to produce a wood excellent in non-combustible treatment.

Then, a nonflammable composition (nonflammable chemical) configured as described above is introduced into the impregnation tank. After injecting these non-combustible chemicals, the non-combustible chemicals are injected into the inner core of the wood under the pressure of 8 ~ 20kg / cm ² (pressure control according to the type of wood). This pressurization process takes about 5 hours depending on the type of wood.

Then, the pressure is released and the nonflammable agent is discharged from the impregnation tank and the surface of the wood inside the tank is cleaned thoroughly. Then, it is differentially dried according to the type of wood. That is, it is dried to have a water content of 10 to 20% through two days of natural drying, three days of forced drying (drying room of 40 ~ 80 ℃), one day of natural drying. They are then sorted by size and use, inspected, packed and shipped.

Then, fireproof wood is used to produce a wooden fire door with the desired pattern or shape in the usual way.

In addition, the wood fire door of this embodiment may be produced by non-combusting the wood door made in a desired pattern or shape in a general manner through the non-flammable process as described above.

The fire protection doors of the wooden fire doors according to this embodiment were tested for the standardization performance test of international and domestic construction materials and the combustion test of KF K5660-1, which is a standard of semi-combustibility, and the gas hazard test of KF F2271. Fire safety inspection work "was confirmed by each and passed the pass standard. In other words, the pass test of the semi-combustible test passed the condition of "8M / J (200KW) using a calorimeter, and there should be no cracks or holes on the front and back." This condition was passed with a "mouse stop time of 9 minutes or more in space".

That is, the wood fire doors according to the present invention were tested in the relevant institutions under the following conditions, respectively, and passed the pass criteria such as fire safety, gas hazard, combustion test, and the like.

[Experimental Example 1]

Wooden fire door (impregnation amount m ³ / 550kg)

In the above description of the wood fire door and the manufacturing method of the present invention with the accompanying drawings, but this is illustrative of the best embodiment of the present invention by way of example and not by way of limitation.

In addition, it is obvious that any person skilled in the art can make various modifications and imitations within the scope of the appended claims without departing from the scope of the technical idea of the present invention.

1 is a flowchart of a method for producing a nonflammable composition used in the present invention,

2 is a flow chart of a method of manufacturing a wood fire door according to an embodiment of the present invention.

Claims (3)

Putting wood into the impregnation tank and sealing it; Heat-treating the wood in the impregnation tank by steam; Completely evacuating the interior of the wood and the air in the impregnation tank; Injecting a non-combustible composition (non-combustible medicine) into the impregnation tank and applying pressure to the non-combustible wood; Depressurizing and draining the non-combustible composition from the impregnation tank and washing the surface of the wood in the tank; Inspecting the wood after drying, and Manufacturing a wooden fire door having a desired pattern or shape using non-flammable wood; The non-combustible composition consists of 30% by weight of ammonium polyphosphate, 5% by weight of guanidinesulfamate, 5% by weight of ammonium hexametaphoshate, and 60% by weight of water. Method of producing a wooden fire door, characterized in that. Using wood to produce a wooden door having the desired pattern or shape, Putting the wooden door into the impregnation tank and sealing it; Steam-heating the wood door in the impregnation tank; Completely evacuating the air inside the wooden door and in the impregnation tank; Injecting a non-combustible composition (non-flammable agent) into the impregnation tank and applying pressure to non-combust the wood door; Depressurizing and draining the non-combustible composition from the impregnation tank and then cleaning the surface of the wooden door in the tank, and Drying the wood door to produce a wood fire door; The non-combustible composition consists of 30% by weight of ammonium polyphosphate, 5% by weight of guanidinesulfamate, 5% by weight of ammonium hexametaphoshate, and 60% by weight of water. Method of producing a wooden fire door, characterized in that. A wood fire door produced by the method according to claim 1.

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