KR101942861B1 - Fire door with heat deformation preventing member - Google Patents

Abstract

The present invention is provided to prevent flame and heat at a fire point from spreading to the opposite side by preventing thermal deformation distortion of the fire door due to high heat upon fire occurrence by organically installing a fire door including an inner reinforcement frame and an exterior plate member, and a pair of thermal deformation preventing members corresponding to a door frame. To this end, the fire door according to the present invention includes: an exterior plate member formed by press-punching and bending a plate-shape metal base material; a square frame-type reinforcement frame disposed inside the exterior plate member at regular intervals to improve structural rigidity; an anti-flame insulating material mounted inside the reinforcement frame to suppress the conduction and propagation of high-temperature heat and flame; and hinges provided on upper and lower ends of one side of the exterior plate member and fastened to a door frame shaft, wherein the thermal deformation preventing member for preventing thermal deformation distortion of the fire door is installed by using the exterior plate member, the reinforcement frame and the door frame, in which the thermal deformation preventing member is combined by using a fixing cap, a latching pin, and a fixing bolt, the fixing cap is organically connected and fastened to the exterior plate member and the reinforcement frame, and the latching pin is inserted and latched to the inside of the fixing cap, which is fastened to one side of the door frame on the horizontal line corresponding to the fixing cap and which is rotating with a predetermined trajectory, so that the deformation distortion of the fire door is physically prevented.

Description

[0001] Fire door with heat deformation preventing member [

More particularly, the present invention relates to a fire door, and more particularly, to a fire door, in which a fire door made of an inner reinforcing frame and an exterior plate and a pair of thermal deformation preventing members corresponding to a door frame are provided in an organic linkage so that heat distortion of the fire door due to high heat So as to prevent the flame and heat of the fire point from spreading to the opposite side.

The main fire door is a functional access means to prevent smoke, fire and heat from entering or spreading in the event of a fire. It is installed at the entrance of an apartment house or a building office, such as an apartment, An inner reinforcing frame disposed at a predetermined clearance in the exterior plate to improve structural rigidity and a heat insulating material for efficiently suppressing high temperature heat transferred to the fire door from being transmitted to the other side, , And a hinge is fastened to the upper and lower ends of one side so as to be pivotally opened and closed from the door frame.

The fire door of such a structure is opened and closed in association with the door frame, and the user is allowed to go in and out. In order to effectively prevent the diffusion transition of the flame and the heat at the initial stage of the fire, There is a structural problem that the outer sheet material, which is a thin metal substrate, is twisted, so that flames and high heat in the fire occurrence point leak out into a gap where the heat is spread. Therefore, as shown in the patent registration No. 10-1065400, when the internal heat is raised above a predetermined temperature in the event of a fire, the automatic safety pin installed in the fire door is automatically inserted into the door frame of the door frame or the opposite side of the door according to the operation of the heat sensing fuse, This prevents the fire door from physically suppressing the occurrence of warpage (preventing cracks from spreading) and preventing the flame and high temperature of the fire point from spreading to the opposite side.

However, in the above example, the distortion preventing alternative technique necessarily requires an automatic safety pin including a thermal sensing fuse and a spring, and a locking recessed portion. Thus, the structure is complicated and not easy to assemble, and the price of the entire fire door , Which causes a decrease in competitiveness. Further, it is necessary to additionally perform processes for installing these components (heat-sensitive fuses, automatic safety pins, springs and locking parts) on fire doors and door frames, resulting in poor productivity, A malfunction of the heat-sensitive fuse due to corrosion or foreign matter frequently occurs, thereby making it difficult to guarantee operational stability.

The present invention has been developed in order to solve the problems of the related art efficiently, and it is possible to physically prevent the heat distortion of the fire door by installing the heat deformation preventing member combined with the fixed cap and the latch pin, The fixing cap is inserted into the inserting hole formed in the process of press-molding and bending the outer panel of the fire door, and the fixing cap is easily fastened to the inner reinforcing frame through the fastening means and the corresponding fastening pin is fastened to the corresponding position of the door frame It is an object of the present invention to prevent deformation of a fire door due to mutual engagement and fixing action between the components (fixed cap and an engagement pin) so that the generated flame and heat are prevented from diffusing via a joint portion between the fire door and the door frame.

In addition, according to the present invention, the latching portion of the latching pin is formed in a diagonal bending form to minimize the coupling clearance between the latching portion and the insertion hole, thereby improving the thermal deformation efficiency, increasing the contact area between the fixed cap and the reinforcement frame, There is another purpose in providing sufficient fixing force to be needed.

According to an aspect of the present invention, there is provided a reinforcing frame for a vehicle, comprising: an outer plate member formed by press-punching and bending a plate-like metal base member; a reinforcing frame arranged in the outer plate member with a predetermined clearance therebetween to improve structural rigidity; A flame retardant insulating material disposed inside the reinforcing frame for preventing high temperature heat and flame from spreading and spreading, and a hinge portion formed at the upper and lower ends of one side of the exterior plate material and fastened to the door frame bearing portion, A heat deformation preventing member for preventing heat distortion of the fire door by using an external plate material, a reinforcing frame and a door frame, wherein the heat deformation preventing member is combined with a fixing cap, a locking pin and a fixing bolt, Wherein the engaging pins are coupled to the plate and the reinforcing frame in an organically connected manner, So that a distortion of the fire door is physically prevented by being inserted into the fixed cap which rotates while drawing a predetermined locus.

According to the present invention, since the thermal distortion of the fire door is prevented by using the anti-thermal deformation member combined with the fixed cap and the engagement pin, the generated flame, toxic gas, and heat are diffused through the gap between the fire door and the door frame In addition, since the fastening hole for installing the fixed cap is simultaneously formed in the external plate material press punching and bending step, it is possible to improve the workability by a simple process, It is possible to quickly and precisely fasten the heat distortion preventing member without the necessity.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a heat deformation preventing member according to a preferred embodiment of the present invention; FIG.
2 is an exploded perspective view of a heat deformation preventing member according to the present invention.
FIG. 3 is a cross-sectional view illustrating an installation and an operation state of the heat deformation preventing member according to the present invention, wherein (a) shows a state in which a fire door is opened, and (b)
FIG. 4 is a plan view exemplifying another embodiment of the present invention

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way The present invention should be construed in accordance with the principles and the meaning and concept consistent with the technical idea of the present invention.

It is also to be understood that the specific structure or functional description is illustrative only for the purpose of illustrating an embodiment consistent with the concept of the present invention and that the embodiments according to the concept of the present invention may be embodied in various forms, It should not be construed as being limited to examples.

1 is a view illustrating a heat deformation preventing member according to a preferred embodiment of the present invention, FIG. 2 is a schematic view illustrating a thermal deformation according to the present invention, and FIG. FIG. 3 is a cross-sectional view illustrating a heat deformation preventing member according to an embodiment of the present invention. Referring to FIG.

The heat deformation preventing member A of the illustrated embodiment is configured to be installed in association with the exterior plate 11 of the fire door, the reinforcing frame 12 and the door frame 26 for opening and closing the fire door. Shaped outer frame 11 formed by press-punching and bending a thin plate-like metal base material, and a frame of a '' 'right angle type arranged in a four-sided manner and being formed into a square frame shape through a fixing bracket or welding, A reinforcing frame 12 disposed inside the reinforcing frame to reinforce the structural rigidity of the entire fire door, and a reinforcing frame 12 disposed inside the reinforcing frame so as to inhibit conduction of high temperature heat to the other side, And a hinge portion 14 for realizing pivotal opening and closing in conjunction with the door frame 26 provided on the entrance slab.

The heat deformation preventing member A of the above example is formed by a combination of a pair of the fixed caps 20 and the engagement pins 30 so that the fixing cap 20 is fixed to the outer plate member 11 by press- And is fastened to the reinforcing frame 12 through the fixing bolt 40 in a state of being inserted into the hole 11a and the engaging pin 30 is fastened to one side of the door frame 26 on the same horizontal line corresponding to the fastening hole at a ratio of 1: And the thermal distortion of the fire door by the flame and the high temperature is prevented by the fitting action between the components (the fixed cap and the engagement pin).

The fixed cap 20 is a circular lid having one side opened and an insertion hole 21 formed therein. A bolt fastening hole 22 is formed at the center of the bottom of the fixed cap 20, and a flange portion 23 And a plurality of locking projections 24 are radially formed on the outer peripheral surface adjacent to the flange portion. Here, the shape of the fixed cap 20 may be various not only circular but also rectangular, elliptical, or the like, and is manufactured through press molding.

The locking pin 30 includes a screw portion 31 for locking the door frame 26 and a locking portion 32 for locking the insertion hole 21 of the fixed cap 20, The engaging portion 32 and the screw portion 31 may be separately manufactured and assembled and the engaging portion 32 may be formed in various shapes according to the shape and volume of the fixed cap inserting hole 21. [

According to another embodiment of the present invention, the latching portion 32 of the latching pin may be formed in a bent shape so as to minimize occurrence of clearance between the latching portion 32 and the insertion hole 21 inserted into the insertion hole, (10) It is possible to effectively suppress the thermal deformation that may occur from the gap between the latching portion and the insertion hole in the event of the occurrence of the thermal deformation warp, and by taking into account the locus of the fire door 10 which rotates with reference to the hinge portion The engaging portion is bent and formed in a direction in which the engaging portion can be smoothly inserted into the insertion hole.

A washer 50 for increasing the contact area between one side of the fixed cap 20 and one side of the reinforcing frame 12 is disposed between the fixed cap and the reinforcing frame. The curved outer surface of the fixed cap 20 is firmly pressed and pressed in the process of fastening the fixing bolt 40 so that the washer 50 is not eccentric to one side but is exactly in contact with the one surface of the reinforcing frame 12 in the normal direction, The tightening force between the fixed cap 20 and the reinforcing frame 12 is improved through the washer 50.

The following description is intended to examine in detail the operation and effect of the heat deformation preventing member combined with the fixing cap and the engaging pin.

1 to 2, a fastening hole 11a for installing the fixed cap 20 is simultaneously formed in the process of press-punching or bending molding the outer plate member 11 of the fire door, At least two or more of the above-described fastening holes 11a are formed at a predetermined constant interval. Then, when the operator pushes the fixed cap 20 lightly into each of the fastening holes with one touch, the fastening protrusions 24 and the flange 23 formed on the outer surface of the fixed cap can be fastened And the fixing bolt 40 is inserted into the bolt fastening hole 22 formed on the bottom side of the fixing cap and fastened to one surface of the reinforcing frame 12 facing the fixing bolt 40, And one side of the fixed cap 20 is tightly fixed to one surface of the reinforcing frame 12 in accordance with the fastening tightening force of the fixing bolt 40. [

In addition, the latching pins 30 for engaging with the fixed cap 20 in a pair are installed on the door frame 26 by matching the same number of the latching pins 30 on the same number of horizontal lines at a ratio of 1: 1, And the other latching part 32 protrudes outward and can be pulled into the insertion hole 21 of the fixed cap.

After the installation of the fixed cap 20 and the locking pin 30 is completed, the door 10 is pivotally opened and closed on the door frame 26 by using the hinge 14. In this case, the engaging portion 32 of the engaging pin is also naturally inserted into the inserting hole 21 of the fixed cap as shown in Fig. 5B so that the heat distortion of the fire door 10 can be prevented. For example, when the fire occurs, the external plate 11 is thermally deformed due to the high-temperature flame and the heat, so that the external plate 11 may be twisted due to the interlocking action between the fixing cap 20 and the latching pin 30. [ It is possible to improve the safety according to the use of the fire door because the fire and heat generated by the fire door are physically inhibited by preventing the fire from being spread rapidly through the joining gap between the fire door 10 and the door frame 26 will be.

4, the engaging portion 32 of the engaging pin can be formed in a bent shape, so that occurrence of clearance between the engaging portion 32 and the inserting hole 21 is minimized, It is possible to effectively suppress the thermal deformation that may occur from the gap formed in the fixing cap 20 and the washer 50 between the fixing cap 20 and the reinforcing frame 12, The tightening force between the fixed cap 20 and the reinforcing frame 12 is further improved to provide a sufficient fixing force for doubling the thermal deformation preventing efficiency.

Since the heat deformation preventing member of the present invention as described above is simple in structure and easy to install, it also physically and rigidly prevents warping deformation of the fire door, so that heat and flame of high temperature from the fire occurrence point It is possible to secure safety in use by preventing rapid diffusion.

10: fire door, 11: exterior plate,
12: reinforcement frame, 13: flame retardant insulating material,
14: hinge portion, 20: fixed cap,
21: insertion hole, 22: bolt fastening hole,
23: flange portion, 24:
30: engaging pin, 31: threaded portion,
32: fastening portion, 40: fastening bolt,
50: washer, A: heat deformation preventing member

Claims (4)

A reinforcement frame 12 of a square frame type for improving structural rigidity while being spaced apart at a certain clearance in the outer plate material and a reinforcing frame 12 for reinforcing the reinforcing frame 12, And a hinge portion 14 formed at the upper and lower ends of one side of the exterior sheet material and fastened to the bearing portion of the door frame 26. The flame- In addition,
The heat deformation preventing member A is provided for preventing thermal distortion of the fire door from being distorted by using the exterior plate member 11, the reinforcing frame 12 and the door frame 26, The cap 20 is combined with the engaging pin 30 and the fixing bolt 40. The fixed cap 20 is formed in a circular lid shape having one side opened and an insertion hole 21 formed therein, A plurality of locking projections 24 are formed radially on the outer circumferential surface adjacent to the flange portion and a plurality of locking pins 30 Is composed of a screw portion 31 for fastening to the door frame 26 and a fastening portion 32 for pulling into the insertion hole 21 of the fastening cap to engage with the fastening cap, And inserted into the fixed cap 20 which is fastened at one side and rotates with a predetermined trajectory In the rim it is equipped with a thermal deformation preventing member which ever physically preventing the warpage deformation of the door panel 10, door panel,
The fixing cap 20 is inserted into the fastening hole 11a which is formed at the same time as the press forming of the external plate 11 and then the fastening bolt 40 And a washer 50 for increasing the contact area between the fixed cap 20 and the reinforcing frame 12 is fixed to the fixed cap 20 and the reinforcing frame 12, And one side of the washer 50 is inclined so as to be pressed from one side of the fixing cap 40 by tightening of the fixing bolt 40 and fixed firmly to one surface of the reinforcing frame 12. [ A fire door with a preventive member.


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