KR102181203B1 - Fire door - Google Patents

Abstract

The present invention relates to a fire door which can secure thermal insulation performance by blocking heat conduction between panels of a door frame or a door portion of the fire door, and in the case of a fire, can fundamentally block rapid and large outflow of gas generated by combustion of an insulation material inside the door. The present invention separates an inner panel and an outer panel of the door in order to block heat conduction between the panels of the door portion of the fire door, interposes the insulation material therebetween, adopts a double packing method on the door frame side of the fire door, and applies a new double insulation structure having a door frame panel shape with heat shielding punching, thereby improving a thermal insulation function capable of effectively blocking heat transmitted along a contact path between the panels of the door frame and the door portion of the fire door made of a metal material. The present invention implements a new pin hinge structure which isolates the periphery of an upper pin hinge including a hole drilled for inserting a tool by closing, with a cover, the circumferential area of the upper pin hinge mounted on the door portion of the fire door, thereby preventing a large amount of combustible gas generated by burning the insulation material inside the door from rapidly leaking out of the door when the fire occurs. Therefore, the fire door can help early extinguishment of the fire, such as being able to fundamentally block secondary fire damage caused by explosion of the combustible gas, and minimize damage of the fire.

Description

Fire door

The present invention relates to a fire door, and more particularly, it is possible to secure thermal insulation performance by blocking heat conduction between panels of a fire door door or a door frame, and in the event of a fire, the rapid and large amount of gas generated as the insulation material inside the door is burned. It relates to a fire door that can fundamentally block outflow.

In general, fire doors allow human passage, but they are designed to prevent the penetration of flames in case of fire, and play an important role in preventing fire damage.

These fire doors are very important facilities for minimizing the spread of flames in case of fire and securing an evacuation route, and inspections are mandatory every certain period.

Usually, fire doors are structures such as entrance doors or emergency doors that are installed to block fires from spreading to the back side of houses, apartments, factories, offices, and prefabricated temporary buildings.

Such fire doors mostly include a door frame having a square shape installed through a wall, and a door that is fitted between the door frames and one side is coupled to the door frame by means of coupling means such as one or more hinges.

In addition, protruding handles are installed on the front and rear surfaces of the door, respectively, so that the user holds the handle and flips the door to open or close it.

In addition, either the front or the rear of the door has a locking protrusion along the edge to cover the space between the adjacent door frame when the door is closed. Accordingly, smoke or heat is blocked in the event of a fire. The door can only be flipped in one direction.

The door frame and the fire door including the door are made of a metal material that is resistant to heat so that deformation or loss by fire does not occur.

In addition, when the fire door is not in the event of a fire, an insulating material is embedded therein to perform an insulating function like a general window.

However, fire doors made of metal have a high thermal conductivity, so even if an insulating material is embedded therein, there is a limit to blocking heat transmitted through the contact path between panels.

In addition, the insulating materials are vulnerable to high temperatures, so they are easily destroyed and deformed in the event of a fire, and at this time, the fire door is deformed like the insulating materials, and flames and heat are introduced into it, which acts as a factor that reduces the heat shielding property of the fire door. .

In order to solve the heat conduction problem between the panels of the fire door door, a separate frame construction has to be performed, and the entire door and door frame must be completely replaced, and the construction is large, and there is a disadvantage in terms of constructability and cost.

Accordingly, there is a need for a fire door having a structure that can ensure excellent airtight performance in normal times, and is resistant to high temperatures and has excellent heat shielding properties, especially in case of fire.

On the other hand, in the case of installing the door of the fire door, the lower pin hinge at the lower side of the door is inserted into the lower hinge hole of the door frame, and then the upper pin hinge of the spring type at the upper side of the door is flipped down using a tool. If the door is fitted to the door frame in the state and the tool is removed at the same time, the upper pin hinge is inserted into the upper hinge hole of the door frame with a spring force, so that the installation of the door can be completed.

On the other hand, the inside of the door of the fire door is filled in a structure in which an insulating material such as honeycomb is attached by a urethane adhesive to minimize the propagation of flame.

However, in the event of a fire, the door in contact with the flame is heated and the insulating material filled therein is burned, and the combustible gas generated at this time is pierced to insert a gap in the door, for example, a tool for bending the upper pin hinge. There is a problem in that a large amount is rapidly ejected through the placed hole, and the combustible gas thus ejected causes an explosion by the flame, further amplifying the fire.

Korean Patent Publication No. 10-2017-0022344 Korean Patent Registration No. 10-1705626 Korean Patent Laid-Open No. 10-2013-0123530 Korea Registered Utility Model No. 20-0317333

Accordingly, the present invention has been devised in consideration of the above, and in order to block heat conduction between the panels of the fire door door, the inner panel and the outer panel of the door are spaced apart, and an insulation material is interposed therebetween, while a double By adopting a packing method and applying a new double insulation structure in the form of a door frame panel with heat shielding perforations, it is possible to effectively block the heat transmitted along the contact path between the fire door door made of metal and the panel of the door frame. Its purpose is to provide a fire door with a double insulation structure that can improve the insulation function.

In addition, another object of the present invention is to implement a new pin hinge structure that isolates the periphery of the upper pin hinge including a hole drilled for inserting a tool by closing the circumferential area of the upper pin hinge mounted on the door of the fire door with a cover. By doing so, it is possible to prevent a large amount of flammable gas from being rapidly leaked to the outside of the door when the insulation material inside the door is burned in the event of a fire, thereby fundamentally blocking secondary fire damage caused by the explosion of the flammable gas. It is to provide a fire door with a pin hinge type door that can help early extinguish the fire and minimize the damage from fire.

In order to achieve the above object, the fire door of the double insulation structure provided by the present invention has the following characteristics.

The fire door of the double insulation structure includes a door frame having a square shape installed on the wall of the structure, a door lock installed inside the door frame for opening and closing operation, and a door capable of opening and closing while rotating the door hinge to a support point. On the other hand, in particular, the door includes a door inner panel and a door outer panel for accommodating an inner insulation material, and the end panels of the door inner panel and the end panels of the door outer panel are spaced apart from the door rim and between the end panels. It is characterized by consisting of a structure in which a heat insulating member is interposed.

Here, the fire door of the double insulation structure is inserted and installed inside the door, and is supported by the first bent part on the end panel of the door outer panel, and at the same time, in the thickness direction of the front and rear of the door with the end panel of the door inner panel and the insulation member interposed therebetween. It may further include reinforcing bars disposed side by side.

In addition, the end panels of the inner panel of the door and the end panels of the outer panel of the door may be disposed in the horizontal direction of the door and the thickness direction of the front and rear doors while maintaining a gap therebetween.

In addition, a sub-insulation member may be inserted between the inner panel of the door and the second bent portion of the reinforcement.

In addition, in the door frame panel of the door frame, two packing mounting grooves are formed on the inner surface adjacent to the door rim, and at the same time, packings contacting the door inner panel side and the door outer panel side are mounted in each packing mounting groove. Can be.

At this time, a plurality of thermal perforations capable of blocking heat conduction may be formed at the bottom of the packing mounting groove in which the packing is mounted.

Meanwhile, in order to achieve the above object, a fire door provided with a pin hinge type door provided by the present invention has the following characteristics.

The fire door with the pin hinge type door has a square-shaped door frame installed on the structure wall, a door installed inside the door frame while having a door lock for opening and closing operation, and installed at the inner upper and lower ends of the door, respectively. An upper pin hinge and a lower pin hinge to be formed, and a cover installed in a structure that is fixed to an outer panel side of the door while surrounding the upper pin hinge inside the door. In particular, the cover is for tilting the upper pin hinge. It is characterized in that it is possible to isolate the space around the upper pin hinge that communicates with the outside from the space inside the door by means of a hole drilled to insert the tool.

Here, the cover includes a first vertical plate and a second vertical plate that are arranged at a 90° angle to be coupled while facing each other, and a horizontal bottom that is in contact with and coupled to the lower ends of the first and second vertical plates. It can be composed of plates.

In addition, the cover is positioned in a vertical direction at the inner corner of the outer panel of the door, and is in contact with the panel surface through each end of the first vertical plate, the second vertical plate, and the bottom plate, and a rectangular cross section along with the panel corner portion You can create a space of.

The double insulation fire door provided by the present invention has the following effects.

First, by disposing the inner and outer panels of the fire door door apart, and adopting a new type of double-insulated fire door with insulation interposed between the inner and outer panels, the contact path between the panels of the fire door door made of metal Accordingly, there is an effect of securing an excellent thermal insulation function, such as being able to effectively block the heat transmitted.

Second, by applying a double inner and outer packing to the door frame side of the fire door, and adopting a new type of double insulation fire door with a door frame panel having a heat shielding perforated structure, it follows the panel of the fire door door frame made of metal. There is an effect that can further improve the heat insulation function, such as being able to effectively block the transmitted heat.

Third, it is possible to implement a fire door insulation structure that can secure double insulation performance through simple self-structuring of the door and door frame of the fire door, so it is possible to manufacture and construct fire doors with excellent insulation performance without economic burden. have.

On the other hand, in the fire door provided with a pin hinge type door provided by the present invention, a cover is installed around the upper pin hinge mounted on the door of the fire door, so that in case of fire, combustible gas generated by burning the insulation material inside the door By making it possible to completely block the ejection through the hole drilled to insert the hinge retracting tool, secondary fire damage caused by the explosion of combustible gas can be fundamentally prevented, thus helping the early extinguishing of the fire and preventing the damage of the fire. There is an effect that can be minimized.

1 is a front view showing a fire door of a double insulation structure according to an embodiment of the present invention
2 is a cross-sectional view and an enlarged view taken along line AA of FIG. 1
3 is a cross-sectional view and an enlarged view taken along line BB of FIG. 1
4 is a perspective view showing a door and a door frame panel in the fire door of a double insulation structure according to an embodiment of the present invention
Figure 5 is a front view showing a fire door with a pin hinge type door according to another embodiment of the present invention
6 is a cross-sectional view and an enlarged view taken along line AA of FIG. 5
7 is a cross-sectional view and an enlarged view taken along line BB of FIG. 5
Figure 8 is a perspective view showing a fire door with a pin hinge type door according to another embodiment of the present invention

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 are a front view, a cross-sectional view and an enlarged view showing a fire door of a double insulation structure according to an embodiment of the present invention, and FIG. 4 is a door and a door in the fire door of a double insulation structure according to an embodiment of the present invention. It is a perspective view showing a frame panel.

As shown in FIGS. 1 to 4, the fire door has a double insulation structure capable of securing excellent thermal insulation performance by blocking heat conduction between the door-side panels as well as through the door frame panel.

To this end, the fire door has a square-shaped door frame 10 installed on the structure wall, a door lock 11 installed on the inside of the door frame 10 and for opening and closing operation, and a support point for the door hinge 12 It includes a door 13 that can be opened and closed while rotating.

The door frame 10 is a rectangular frame structure installed on a wall of a structure such as a building, and is formed in a form in which an insulation material 14b is filled inside the door frame panel 25 of a box-shaped cross-section. A step structure of one or two steps is formed along the periphery of the inner edge of the part, so that the door 13 can be positioned within the step structure at this time.

The door 13 is a rectangular plate structure installed in the door frame 10, and is formed in a form in which an insulating material 14a is filled inside the door inner panel 15 and the door outer panel 16.

The circumference of the edge of the door 13 is formed in a stepped structure created by the end panels 17a and 17b of the inner and outer panels 15 and 16 of the door, and accordingly, the door 13 inside the door frame 10 During installation of the door-side step structure and the step structure in the door frame 10 are matched, a close coupling structure between the door 13 and the door frame 10 can be secured.

Here, the heat insulating material (14a, 14b) and the heat insulating member 18 and the sub heat insulating member 21 to be described later can be applied a non-combustible heat insulating material such as mineral wool, glass wool, cerac wool, PIR, phenolic foam, basoform, etc. have.

In particular, since the end portions of the door inner panel 15 and the door outer panel 16 of the door 13 are spaced apart from each other, heat conduction between the panels is not performed.

To this end, the end panels 17a and 17b of the door inner panel 15 and the door outer panel 16, that is, the end panels 17a and 15b in the form of overlapping two layers of panels at the position of the door edge They are spaced apart from each other at a certain interval.

For example, the end panel 17a of the door inner panel 15 and the end panel 17b of the door outer panel 16 are positioned in the left and right width directions of the door and in the thickness direction before and after the door, respectively, and are positioned at 90° between each other. The gap 20 can be formed between the panel ends 17a and 17b forming such an arrangement relationship.

Here, the gap 20 formed between the panel ends 17a and 17b may be formed along the entire rim of the door 13.

Accordingly, direct heat conduction is not performed between the door inner panel 15 and the door outer panel 16 separated from each other by the gap 20.

At this time, the end of the panel end 17b of the door outer panel 15 extends more outward in the left and right width direction of the door and in the vertical direction of the door than the position at which the panel end 17a of the door inner panel 15 is located. As it is in contact with the packing (23b) on the side of the door frame to be described later, it is possible to fundamentally block the entry of the tool to the gap between the door 13 and the door frame 10.

In addition, between the end panel (17a) side of the door inner panel (15) and the end panel (17b) side of the door outer panel (16), as a means to reliably block heat conduction between the panels, insulation made of a rectangular strip-shaped plate The member 18 is interposed.

To this end, a rod-shaped plate-shaped reinforcing rod 19 having a first bent portion 19a and a second bent portion 19b having a shape bent by 90° at the end in the width direction is provided, and the reinforcing rod 19 It is installed in a structure that is arranged side by side at the end position of the inner edge of the door 13 and is supported by the end panel 17b of the door outer panel 16 by using the first bent portion 19a.

That is, since the first bent portion 19a of the reinforcing bar 19 is fitted and fixed between the overlapping portions of the end panels 17b of the door outer panel 16, the reinforcing bar 19 is the first bent portion 19a. ) To be supported on the door outer panel 16 side.

Of course, the reinforcing bar 19 and the heat insulating member 18 and the sub heat insulating member 21 to be described later may be installed along the entire rim of the door 13.

The reinforcing bars 19 installed in this way are arranged side by side in the thickness direction before and after the door at a certain distance from the end panels 17a of the door inner panel 15, and the ends of the reinforcing bars 19 and the door inner panel 15 at this time A heat insulating member 18 made of an elongated strip-shaped plate member is inserted side by side between the panels 17a.

In addition, between the second bent portion 19b of the reinforcing bar 19 positioned parallel to the inner side of the door inner panel 15, a sub-insulation member 21 made of an elongated strip-shaped plate member is provided as an insulating member ( 18) is installed at an angle of 90° and is inserted side by side.

Therefore, the end panel 17a of the door inner panel 15 and the end panel 17b of the door outer panel 16 are spaced apart from each other with the gap 20 interposed therebetween, and the inner edge of the door 13 Since the heat insulating member 18 and the sub heat insulating member 21 are installed via the reinforcement bars 19 installed adjacent to the site, heat conduction between the door inner panel 15 and the door outer panel 16, especially the inside and outside of the door The heat conduction between the panels at the end of the panel where the bonding between the panels 15 and 16 is formed is not performed, and as a result, excellent insulation performance of the fire door door can be secured.

Meanwhile, the present invention provides a structure capable of blocking heat conduction in the door frame side as well as the door-side heat conduction blocking structure.

To this end, a door frame 10 including a door frame panel 25 having a box-shaped cross-section filled with an insulating material 14b therein is provided, and the inner surface of the door frame 10, that is, the border of the door 13 On the inner surface of the door frame panel 25 adjacent to the portion, two packing mounting grooves 22a and 22b are formed at a distance from each other.

And, each of the packing mounting grooves (22a, 22b) are equipped with strip-shaped packings (23a, 23b) made of a material such as rubber, and each of the packings (23a, 23b) mounted in this way are each of the door outer panel ( It is possible to double-block the gap between the door 13 and the door frame 10 by contacting the panel end 17b of 16) and the panel end 17a of the inner panel 15 of the door.

That is, when the door 13 is closed, each of the packings 23a and 23b is pressed against the panel end 17b of the door outer panel 16 and the panel end 17a of the door inner panel 15 to form a close contact state. Accordingly, by completely blocking the gap formed between the door 13 and the door frame 10 twice, once from the outside of the door and once again from the inside of the door, penetration of smoke, gas, flame, etc. in case of fire It can be prevented, and it is possible to exhibit perfect airtight performance, such as preventing the loss of cooling and heating by blocking the entry of internal and external units even during normal times.

In particular, in the case of the door frame panel 25 of the door frame 10, a structure capable of effectively blocking heat conduction through a panel made of metal is included.

To this end, one side of the door frame panel 25, for example, at the bottom of the packing mounting grooves 22a and 22b on which the packings 23a and 23b are mounted, has a heat shielding perforation 24, and at this time, a heat shielding perforation A plurality of 24 can be provided at regular intervals along the longitudinal direction of the bottom of the groove.

In particular, the perforation 24 may be formed in at least one row, and when two or more rows of perforations 24 are applied, the perforations 24 in each row are arranged in a zigzag shape arranged to be staggered. In addition, it is possible to increase the heat conduction blocking effect, such as the heat conduction path on the panel being cut off, and to secure the rigidity of the panel, which may be weakened due to the formation of perforations.

Accordingly, in the event of a fire, heat transferred to the door frame panel 25 of the door frame 10 is transmitted along the panel and is cut off at the portion where the heat shielding perforations 24 are located, thereby blocking heat conduction. While passing through (24), the heat conduction is severely cut off, so that the heat conduction phenomenon through the door frame panel 25 can be significantly reduced, and excellent insulation performance can be secured.

As described above, in the present invention, by providing a new double-insulated fire door adopting a double packing structure and a heat shielding perforated panel structure, as well as adopting the structure of spaced between the inner and outer panels of the door and the insulating material insertion structure between the panels, Excellent insulation performance of the fire door can be secured, such as being able to effectively block heat transmitted along the contact path between the made fire door door and the panel of the door frame.

5 to 7 are a front view, a cross-sectional view and an enlarged view showing a fire door having a pin hinge type door according to another embodiment of the present invention, and FIG. 8 is a fire door having a pin hinge type door according to another embodiment of the present invention. It is a perspective view showing.

5 to 8, the fire door with the pin hinge type door separates the space around the upper pin hinge of the door and the space inside the door with a cover, and is a hole drilled to insert a tool for bending the upper pin hinge. It includes a structure that can prevent the flammable gas inside the door from being ejected to the outside when a fire occurs.

To this end, the fire door has a square-shaped door frame 100 installed on the structure wall, a door lock 110 installed on the inside of the door frame 100 and for opening and closing operation, and the upper pin hinge 130 and It includes a door 120 that can be opened and closed while rotating the lower pin hinge 140 to a support point.

The door frame 100 is a rectangular frame structure installed on a wall of a structure such as a building, and is formed in a form in which an insulating material 220b is filled inside a panel of a box-shaped cross section, along the inner edge of the front of the door frame. Since the first or second step structure is formed, the door 120 can be positioned within the step structure at this time.

In addition, a packing 240 made of rubber material is installed in the inner stepped structure of the door frame 100, and the packing 240 at this time is pressed against the door inner panel 210 when the door is closed and is in close contact with the door It plays a role in maintaining confidentiality between the inside and outside.

The door 120 is a rectangular plate structure installed in the door frame 100 and is formed in a form in which an insulation material 220a is filled inside the door inner panel 210 and the door outer panel 150.

A reinforcing panel 230 connected to the inner and outer panels 210 and 150 of the door is installed on the edge circumference of the door 120, and rigidity around the edge of the door can be secured by the reinforcing panel 230 installed in this way. .

Here, the insulation materials 220a and 220b may be non-combustible insulation materials such as honeycomb, mineral wool, glass wool, cerac wool, PIR, phenolic foam, and baso foam, and are bonded to the inside of the panel together with urethane adhesive. Can be charged with.

In addition, inside the door 120, an upper pin hinge 130 and a lower pin hinge 140 serving as a rotation axis when opening and closing the door are installed at one end position in the left and right width direction of the door, respectively, at the upper and lower ends.

The upper pin hinge 130 and the lower pin hinge 140 are installed in a structure that is fixed to the inner wall of the door outer panel 150 by welding while taking a vertical posture, and the upper pin hinge 130 and the lower Each of the pins 190a and 190b of the pin hinge 140 is fitted into each of the upper and lower pin holes 200a and 200b formed in the door frame 100, so that the entire door 120 is provided with the upper and lower pin hinges ( While being supported by the door frame 100 through 130 and 140, it can be rotated and opened.

In addition, the body portions of the upper pin hinge 130 and the lower pin hinge 140 are tightly bonded to the reinforcing panel 230 side by a fire protection sealant 250 applied to the junction with the reinforcing panel 230 Can be.

Here, in the case of the upper pin hinge 130, it can be made of a conventional pin hinge type in which the pin 190a is operated to a fastening position using a spring force.

When the upper pin hinge 130 is fastened, that is, when the pin 190a of the upper pin hinge 130 is inserted into the pin hole 200a of the door frame 10, it is formed in the door outer panel 150 A tool (not shown) such as a screwdriver is inserted through the hole 170, which is then tilted down the jaw portion of the lower pin of the upper pin hinge 130, and then, holding the position of the door 120, insert the tool ( When pulled out from 170, the pin 190a receiving the spring force rises upward and is inserted into the pin hole 200a of the door frame 100, so that the installation work on the upper pin hinge 130 side of the door 120 Will be able to complete.

In particular, the fire door with the pin hinge type door includes a cover 160 installed in a structure fixed to the door outer panel 150 while surrounding the upper pin hinge 130 inside the door 120. .

The cover 160 isolates the space 180 around the upper pin hinge and the inner space of the door 120 communicated with the outside by a hole 170 drilled to insert a tool for tilting the upper pin hinge 130 As a result, the combustible gas generated when the insulation material burns inside the door is prevented from flowing into the interior of the space 180 by the cover 160 serving as a barrier wall. It is possible to prevent it from ejecting to the outside.

Such a cover 160 may be formed in a form in which three plates are combined by welding or the like. For example, a first vertical plate 160a which is arranged side by side with one side facing each other while forming a 90° angle to be combined And a second vertical plate 160b, and a horizontal bottom plate 160c that is coupled while being in contact with each lower end of the first vertical plate 160a and the second vertical plate 160b.

In addition, the cover 160 is positioned in a vertical direction at an inner corner portion of the door outer panel 150, and each of the first vertical plate 160a, the second vertical plate 160b, and the bottom plate 160c It is installed in a structure in which a space portion 180 having a square cross section is formed together with a corner portion of the panel while contacting the panel surface using an end portion.

That is, each side end portion of the first vertical plate 160a and the second vertical plate 160b, and the two ends of the bottom plate 160c are in contact with the inner wall surface of the corner portion of the door outer panel 150 While being fixed by welding or the like, each upper end of the first vertical plate 160a and the second vertical plate 160b is in contact with the bottom surface (inner surface) of the reinforcing panel 230 and is fixed by welding or the like.

Accordingly, around the upper pin hinge where the cover 160 is installed, the first vertical plate 160a and the second vertical plate 160b, the bottom plate 160c, the door outer panel 150, and the reinforcing panel 230 As the box-shaped space unit 180 having a rectangular cross section surrounded by is formed, the space unit 180 at this time can be isolated from the interior space of the door.

In this way, by isolating the periphery of the upper pin hinge 130 installed inside the door using the cover 160, the upper pin hinge 130 can be manipulated through the hole 170 as before, By completely separating the surrounding space of the upper pin hinge 130 through the outside through 170, that is, the space 180 from the inside of the door, the external ejection of the combustible gas through the hole 170 can be completely blocked. It becomes possible, and thus, it is possible to prevent the risk of fire due to ejection of combustible gas.

As described above, in the present invention, by providing a structure in which the circumferential area of the upper pin hinge mounted on the door of the fire door is closed with a cover and is isolated from the interior space of the door, the inflammable gas generated by burning the insulation material inside the door when a fire occurs It can prevent secondary fire damage caused by the explosion of flammable gas, such as preventing a large amount of rapidly leaking out of the door.

10: door frame
11: door lock
12: door hinge
13: door
14a,14b: insulation
15: door inner panel
16: door outer panel
17a, 17b: end panels
18: insulation member
19: reinforcement
19a: first bend
19b: second bend
20: Gap
21: sub insulation member
22a, 22b: Groove for packing mounting
23a,23b: packing
24: heat shielding perforation
25: door frame panel
100: door frame
110: door lock
120: door
130: upper pin hinge
140: lower pin hinge
150: door outer panel
160: cover
160a: first vertical plate
160b: second vertical plate
160c: bottom plate
170: hall
180: space part
190a,190b: pin
200a,200b: pin hole
210: door inner panel
220a,220b: insulation
230: reinforcement panel
240: packing
250: fireproof sealant

Claims (9)

delete delete delete delete delete delete A door 120 installed inside the door frame 100 while having a square-shaped door frame 100 installed on the structure wall and a door lock 110 for opening/closing operation, and an inner side of the door 120 In the fire door including an upper pin hinge 130 and a lower pin hinge 140 installed at the upper and lower portions, respectively,
The door 120 further includes a cover 160 installed in a structure fixed to the door outer panel 150 side while surrounding the upper pin hinge 130, wherein the cover 160 includes an upper pin By separating the space 180 around the upper pin hinge that communicates with the outside by a hole 170 drilled in the door outer panel 150 to insert a tool for flipping the hinge 130, the interior of the door Inflammable gas generated when the insulation material is burned can be prevented from blowing out of the door,
The cover 160 includes a first vertical plate 160a and a second vertical plate 160b that are arranged at an angle of 90° while facing each other and coupled, and the first vertical plate 160a and the second vertical plate Consisting of a horizontal bottom plate (160c) that is coupled in contact with each bottom of (160b),
The cover 160 is positioned in a vertical direction at an inner corner portion of the door outer panel 150, and has each end portion of the first vertical plate 160a, the second vertical plate 160b, and the bottom plate 160c. Fire door, characterized in that to form a space portion 180 of a rectangular cross section together with the panel corner portion while in contact with the panel surface through. delete delete

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