KR102302628B1 - Fire-proof door having twisting preventing structure and heat insulation space - Google Patents

Abstract

The present invention relates to a fire door having a frame torsion preventing structure and an insulation space, which reliably blocks heat from being transmitted to the outside. The fire door of the present invention comprises an outer iron plate (110), an inner iron plate (120), and an intermediate iron plate (130) provided therebetween.

Description

FIRE-PROOF DOOR HAVING TWISTING PREVENTING STRUCTURE AND HEAT INSULATION SPACE}

The present invention relates to a fire door with improved insulation performance and a function of preventing the spread of fire, and more specifically, by making a double insulation space inside the fire door, the insulation performance is increased, the condensation prevention performance is increased, and a fire-resistant and heat-resistant material is filled inside, It relates to a fire door having a structure that prevents distortion of the edge of the door and at the same time prevents distortion of the edge.

In general, metal fire doors are used in apartments, offices, and multi-family buildings to prevent the spread of fire. If you look at the structure of the fire door, it is composed of a fire door and a door frame, and structures to block internal heat in the event of a fire are shown.

As an example of a technology related to a conventional fire door, there is Patent No. 10-1256627, and the method for manufacturing a wood fire door includes the steps of putting wood into an impregnation tank and sealing it, applying steam to heat-treating the wood in the impregnation tank, and After completely evacuating the air inside and in the impregnation tank, injecting a non-combustible composition (non-combustible treatment agent) into the impregnation tank and applying pressure to make the wood non-combustible, releasing the pressure and discharging the non-combustible composition from the impregnation tank The steps of washing the surface of the wood inside the tank, inspecting the wood after drying, and manufacturing a wood fire door having a desired pattern or shape using non-combustible wood are used.

Although the wooden fire door manufactured by the above manufacturing method was non-combustible, it is made of wood only, so it is difficult to fully demonstrate the fire protection performance. A technology that can reliably block heat between the indoor and outdoor sides is required.

The present invention consists of a double frame of an inner iron plate and an outer iron plate, and forms a space between the inner iron plate and the outer iron plate as an insulating space, but forms a double insulating space completely separated from each other to form an insulating structure between the iron plates, The inner surface of these steel plates is filled with a material having heat resistance and heat shielding performance to reliably block heat from being transmitted to the outside, and also to provide a structure that can prevent the warping of the edges of the fire door under high heat conditions. do.

The present invention consists of an outer iron plate 110, an inner iron plate 120, and an intermediate iron plate 130 provided therebetween, and each side portion of the outer iron plate 110, the inner iron plate 120, and the intermediate iron plate 130 are spaced apart from each other to form a door coupling part, and a first insulating space (S1) which is an insulating space between the external iron plate and the intermediate iron plate; and a second insulating space (S2), which is an insulating space between the intermediate iron plate and the inner iron plate, wherein the door coupling part is formed by bending 90 degrees at the side of the outer iron plate. The outer vertical portion 113 formed by bending 90 degrees at the end, the outer two horizontal portions 114 formed by bending 90 degrees at the lower end of the outer vertical portion; an inner horizontal portion 124 formed by bending at 90 degrees from the side portion of the inner iron plate; and an intermediate horizontal portion 134 formed by being bent at 90 degrees from the side portion of the intermediate iron plate, and the outer two horizontal portions 114 and the inner horizontal portion 124 and the intermediate horizontal portion and the outer two horizontal portions are parallel to each other. While forming, the inner horizontal portion is disposed at the outermost portion, the intermediate horizontal portion is disposed at the innermost portion, the outer second horizontal portion 114 is disposed in the middle, and the outer second horizontal portion 114 and the inner horizontal portion 124 are disposed in the center. ) and a space between the outer second horizontal part 114 and the intermediate horizontal part 134 are provided with ceramic pads 180, respectively, so that the first insulating space S1 and the second insulating space S2 are connected to each other. It provides a fire door characterized in that it is separated.

The present invention further includes an inner frame 140 for strength reinforcement for reinforcing the distortion of the door leaf. The inner frame is a frame provided between the outer iron plate 110 and the inner iron plate 120 and is coupled to the intermediate iron plate to reinforce the strength, and specifically, the intermediate horizontal portion 134 of the intermediate iron plate 130 . ), a first bent portion 144 that is bent at 180 degrees at one end of the intermediate portion to form a coupling space 145 between the intermediate portion 142 and the other end of the intermediate portion It consists of a second bent part 146 bent by 90 degrees. And, the end of the intermediate horizontal portion 134 is accommodated in the coupling space 145 and coupled to reinforce the strength, thereby preventing the distortion of the edge of the door leaf.

A ceramic pad 190 is provided between the second bent part and the intermediate iron plate, mineral wool is provided in the first insulating space S1, and a flame-retardant honeycomb structure is provided in the second insulating space S2. is provided

According to the present invention, a triple steel structure of an inner iron plate, an outer iron plate, and an intermediate iron plate is formed by the above configuration, and the inside of the fire door is isolated from each other by forming a double insulating space by means of these triple iron plates, thereby reducing heat between the inside and the outside of the fire door. The effect of preventing twisting is exhibited by reinforcing the strength of the rim, which may be relatively weak, while reliably blocking the effect.

In addition, the inside of the fire door is filled with a material having heat resistance and heat shielding performance to reliably block heat from being transmitted to the outside, and by arranging the inner frame inside the fire door, the effect of preventing the distortion of the edges in high heat conditions occurs. .

According to the present invention, even if a very large temperature difference occurs between the indoor and outdoor areas due to the occurrence of a fire due to the above effect, heat from one side is not transferred to the other side, thereby securing time for saving lives.

1 is a front cross-sectional view of a fire door according to the present invention;
2 is a side cross-sectional view of a fire door according to the present invention;
3 is a plan view of a fire door according to the present invention,
4 is a view of the door leaf coupling part which is the edge part of the fire door according to the present invention;
5 to 8 are views of individual components constituting the door leaf coupling part of the fire door according to the present invention;
9 to 10 are views of a fire door according to another embodiment of the present invention.

The objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments taken in conjunction with the accompanying drawings. In addition, the terms used are terms defined in consideration of functions in the present invention, which may vary according to the intention or custom of the user operator. Therefore, definitions of these terms should be made based on the content throughout this specification.

Fig. 1 is a front cross-sectional view of a fire door according to the present invention, Fig. 2 is a side cross-sectional view of a fire door according to the present invention, Fig. 3 is a planar cross-sectional view of the fire door according to the present invention, and Fig. 4 is a fire door according to the present invention 5 to 8 are views of the individual components constituting the door coupling part of the fire door according to the present invention, and FIGS. 9 to 10 are views of the fire door according to another embodiment of the present invention. am.

The fire door according to the present invention prevents heat from being transmitted to the other side even when high-temperature heat is generated due to a fire in either one of the indoor and outdoor areas, and prevents the smoke or toxic gas generated from the internal fire from being discharged to the outside. It relates to the structure of the fire door and door frame to prevent fire, and in the event of a fire, it blocks heat and smoke to delay the spread as much as possible so that people can evacuate quickly.

The fire door 100 of the present invention is mounted on the door frame 300, and has a structure in which the outer iron plate 110, the inner iron plate 120, and the intermediate iron plate 130 are made of separate iron plate materials and then bent and combined with each other, It is characterized by having a double insulating space in which two separate insulating spaces are formed between the intermediate iron plate and the outer iron plate and between the intermediate iron plate and the inner iron plate, and various steel plates ranging in thickness from 0.8T to 1.6T can be applied.

The outer iron plate 110, the inner iron plate 120, and the intermediate iron plate 130 are coupled to each other at their rims. For convenience, the combined portion is called a 'door coupler coupling part', and is spaced apart by a certain distance so that the metal does not come into contact with the metal. combined to maintain thermal insulation performance. The door frame 300 is also made of an iron plate (0.8T ~ 1.6T) material, and then is bent and coupled to each other.

Referring to FIGS. 1 to 3 , the fire door of the present invention is made of three layers of iron plates, including an external iron plate 110 , an internal iron plate 120 , and an intermediate iron plate 130 provided between them, and an external iron plate 110 . ) and the inner iron plate 120 and the intermediate iron plate 130, respectively, are spaced apart from each other and coupled to form a door coupling part.

Then, the first insulating space (S1), which is an insulating space between the external iron plate and the intermediate iron plate, and the second insulating space (S2), which is the insulating space between the intermediate iron plate and the internal iron plate, are formed to form two separate insulating spaces. As a result, thermal insulation performance and condensation performance are satisfied.

The door coupling portion is a portion in which the outer iron plate 110 , the inner iron plate 120 , and the intermediate iron plate 130 are coupled to each other in a spaced apart state from each other. Looking at the portion of the outer iron plate 110 constituting the door coupling portion, the outer first horizontal portion 112 formed by bending 90 degrees from the side portion of the outer iron plate, and the outer vertical portion formed by bending 90 degrees from the end of the outer horizontal portion ( 113), the outer two horizontal portions 114 formed by bending 90 degrees at the lower end of the outer vertical portion.

Looking at the portion of the inner iron plate 120 constituting the door coupling portion, the inner horizontal portion 124 is bent 90 degrees from the side of the inner iron plate, and the portion of the intermediate iron plate 130 forming the door coupling portion is the intermediate iron plate. It is an intermediate horizontal portion 134 formed by bending 90 degrees from the side portion of the .

The outer 2 horizontal part 114, the inner horizontal part 124, the middle horizontal part and the outer 2 horizontal part are parallel to each other, and the inner horizontal part is disposed at the outermost part and the middle horizontal part is disposed at the innermost part, and the The outer two horizontal portions 114 are disposed in the middle.

The first insulating space ( S1 ) and the second insulating space ( S2 ) are separate spaces separated by the intermediate iron plate 130 , so that conductive heat is blocked. And, these spaces are filled with materials for heat insulation and heat shielding, and mineral wool 170 is provided in the first insulation space S1, and a flame-retardant honeycomb structure 160 is provided in the second insulation space S2. provided

In addition, a ceramic pad 180 is provided in a space between the second outer horizontal portion 114 and the inner horizontal portion 124 and in a space between the outer second horizontal portion 114 and the intermediate horizontal portion 134 , respectively. Through this, the first insulating space (S1) and the second insulating space (S2) form a space separated from each other even at the edge of the fire door, so that the movement of internal air is completely blocked and becomes a separate space. this rises even higher

A middle portion 142 in contact with the intermediate horizontal portion 134 of the intermediate iron plate, a first bent portion 144 bent by 180 degrees at one end of the middle portion, and a second bent portion 146 bent by 90 degrees at the other end of the middle portion ) further includes an inner frame 140 made of, this is to prevent the fire door iron plate from being twisted at the edge. That is, when the fire door is placed in a high temperature state, the iron plate is distorted by heat. In order to prevent this, the inner frame 140 is provided on the edge of the fire door in the above structure to prevent this.

When the inner frame 140 of the present invention is specifically viewed with reference to FIGS. 4 and 8 , the inner frame is a frame provided between the outer iron plate 110 and the inner iron plate 120 and is combined with the intermediate iron plate to increase strength. It is a structure for reinforcing, and specifically, the intermediate portion 142 in contact with the intermediate horizontal portion 134 of the intermediate iron plate 130 is bent at 180 degrees at one end of the intermediate portion and is coupled between the intermediate portion 142 and the intermediate portion 142 . It consists of a first bent part 144 forming a space 145 and a second bent part 146 bent at 90 degrees at the other end of the middle part. And, the end of the intermediate horizontal portion 134 is accommodated in the coupling space 145 and coupled to reinforce the strength, thereby preventing the distortion of the edge of the door leaf. In order to form the coupling space 145 , the middle portion 142 and the first bent portion 144 are spaced apart by a predetermined width in the vertical direction, and are bent from each other at the distal end 143 .

Further, in the present invention, a ceramic pad 190 is disposed between the second bent part 146 of the inner frame 140 and the intermediate iron plate 130 to further block front and rear heat transfer, thereby further maximizing the insulation. . In addition, a flame-retardant gasket (G) is provided between the fire door and the door frame, but the flame-retardant gasket is provided in a double structure to further improve the thermal insulation performance.

Although the preferred embodiment of the present invention has been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

Claims (2)

It consists of an outer iron plate 110, an inner iron plate 120, an intermediate iron plate 130 provided between them, and an inner frame 140 coupled to the intermediate iron plate,
The outer iron plate 110, the inner iron plate 120, and the intermediate iron plate 130, respectively, the side portions are spaced apart from each other and coupled to form a door coupling portion,
A first insulating space (S1) which is an insulating space between the external iron plate and the intermediate iron plate; and a second insulating space (S2), which is an insulating space between the intermediate iron plate and the internal iron plate;
The door coupling portion, the outer first horizontal portion 112 formed by bending 90 degrees from the side portion of the outer iron plate, the outer vertical portion 113 formed by bending 90 degrees from the end of the outer horizontal portion, 90 degrees from the lower end of the outer vertical portion The outer two horizontal portions 114 formed by bending; an inner horizontal portion 124 formed by bending at 90 degrees from the side portion of the inner iron plate; and an intermediate horizontal portion 134 formed by bending 90 degrees from the side portion of the intermediate iron plate;
The outer 2 horizontal part 114, the inner horizontal part 124, the middle horizontal part and the outer 2 horizontal part are parallel to each other, the inner horizontal part is disposed in the outermost part and the middle horizontal part is disposed in the innermost part, and the The outer 2 horizontal part 114 is disposed in the middle,
A ceramic pad 180 is provided between the outer 2 horizontal part 114 and the inner horizontal part 124 and between the outer 2 horizontal part 114 and the middle horizontal part 134, respectively,
The inner frame 140,
an intermediate portion 142 in contact with the intermediate horizontal portion 134 of the intermediate iron plate 130;
A first bent portion 144 bent by 180 degrees at one end of the intermediate portion to form a coupling space 145 between the intermediate portion 142 and;
It consists of a second bent part 146 bent at 90 degrees at the other end of the middle part,
The end of the intermediate horizontal part 134 is accommodated in the coupling space 145 and coupled to prevent distortion of the edge of the door,
A ceramic pad 190 is provided between the second bent part and the intermediate iron plate,
Mineral wool is provided in the first insulating space (S1),
Fire door, characterized in that provided with a flame-retardant honeycomb structure in the second insulating space (S2). delete

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