KR100766199B1 - Device of preventing dew condensation of fire door - Google Patents

Abstract

A device for preventing dew condensation of a fire door is provided to prevent temperature from being transmitted along an iron metal between indoor and outdoor spaces by interposing an insulating member on a door frame and its contact portion. A device for preventing dew condensation of a fire door includes a fire door body, a door frame(2), and a hinge member(60). The hinge member(60) connects the fire door body to the door frame. The fire door body is divided into a front panel and rear panel(11), and a heat intercepting member(40) is interposed in the connection portion of the panels. A receiving recess(15) is formed along a frame on the side of the rear of the fire door body. The door frame is divided into two frame bodies(25,26), and heat intercepting members(40) are inserted into the connection portion of the frame bodies. A receiving portion(24) is formed on the door frame on a position corresponding to the receiving recess(15). Gaskets(30) are inserted into the receiving portions and receiving recesses.

Description

Device of Preventing Dew Condensation of Fire Door

1 is a cross-sectional view showing a conventional fire door configuration.

Figure 2 is a perspective view showing the overall shape of the fire door to which the present invention is applied.

3 is a cross-sectional view showing a fire door configuration to which the present invention is applied.

      * Description of the symbols for the main parts of the drawings *

1-Fire Door Body 2-Door Frame

10-Front Panel 11-Rear Panel

15-receiving groove 17-Hmmmm

25, 26-frame 30-gasket

40-thermal barrier member 50-bolt

The present invention relates to a device for preventing condensation of a fire door, and more particularly, by forming a heat transfer blocking means at all the contact portions of the fire door and the door frame frame to prevent condensation due to a difference in temperature between the interior and the outside, and to block noise transmission. will be.

Generally, fire doors made of steel plates are installed in the entrances of apartments, homes and offices to prevent the transmission of flames in the event of a fire.

The fire door is mounted to be opened and closed on the half frame door frame frame is installed on the wall, the door frame frame is also made of steel metal plate.

Conventionally, in general, a structure in which a fire door is installed in a building secures a door frame frame 2 having a size that surrounds its exterior while allowing the fire door body 1 to be opened and closed, and the door frame frame 2 and the fire door body 1. Between the hinges will be installed.

In addition, the packing member (3) (4) may be installed at one or two places at the contact portion between the door frame frame (2) and the fire door body (1) for noise prevention, insulation and cushioning during opening and closing.

That is, the seating portion 20a is bent so that both side ends of the fire door body 1 are seated, and the seating portion 20a has one or a plurality of first and second packing inserting portions 21 and 22 formed therein. The first and second packing members 3 and 4 are inserted to slightly protrude from the first and second packing inserting parts 21 and 22.

In addition, the fire door body (1) is formed of a metal plate material of a predetermined thickness and is formed with a front panel 10 forming a front side and spaced to the rear side of the front panel 10 to form a rear of the fire door body (1) and the rear The panel 11 and the side panel 12 mounted on the side surfaces of the front panel 10 and the rear panel 11 and supported to maintain a gap therebetween.

Both side ends of the rear panel 11 may be bent in contact with the first and second contact parts 13 and 14 to be closed in contact with the first and second packing members 3 and 4, respectively.

At this time, the first and second contact portions 13 and 14 are formed in a stepped shape with a height difference, and when the fire door body 1 is closed, the interior and the exterior are double sealed.

That is, when the fire door body 1 is closed, the pressure port 9 provided in the first contact portion 13 presses the first packing member 3 to be generated between the fire door body 1 and the door frame frame 2. The gap is primarily sealed, and the second contact portion 14 is in close contact with the second packing member 4, thereby closing the gap in a double manner.

Therefore, as described above, the gap between the fire door body 1 and the door frame frame 2 is sealed by the first and second packing members 3 and 4 to prevent gas from flowing into the room during a fire. The fire door body (1) is closed to prevent the noise generated by hitting the door frame frame (2) as well as to block the outside air and the internal air to achieve the effect of indoor insulation.

In the conventional fire door structure configured as described above, the door frame frame and the fire door body are bent as one, or two or more iron plates are bent and formed by connecting the joints by welding, so that the overall fire door is made of metal having high thermal conductivity.

In the case of a fire door body, it is common to fill a heat insulating material inside to insulate it, but the outside is made of all metal plates.

On the other hand, the hinge is installed between the door frame frame (2) and the fire door body (1) for opening and closing is also formed of a metal material to maintain sufficient strength, these ferrous metals are materials with a very high thermal conductivity as a whole.

Therefore, since the frame frame 2 and the fire door body 1 are generally installed in a state of being connected with metal materials as a whole, when the temperature difference between the indoor and outdoor areas is severe, such as winter, the low The temperature is transmitted to the inside of the frame exposed to the room.

The dew condensation is generated near the inner side of the frame by the transferred temperature, causing water droplets to form. As the water droplets flowed down, the walls or wallpaper painted with paint were contaminated, or molds were formed to contaminate the interior.

An object of the present invention is to provide a fire door that can prevent the dew condensation by preventing the temperature of the door frame frame and the contact portion including the fire door and the contact portion through the heat-insulating member to the inside and outside of the room to pass through each other.

Another object of the present invention is to provide a fire door that can improve the reliability of the product.

The object of the present invention, the fire door body (1) is molded in the hollow door shape;

A door frame frame (2) which surrounds the outer side of the fire door body (1) and is fixed to the building;

In the configuration consisting of a hinge member (60) for opening and closing the fire door body (1) to the door frame frame (2);

The fire door body 1 is divided into a front panel 10 and a rear panel 11 and interposed between the heat-blocking member 40 at its joint, and the receiving groove 15 is dug along the rear edge thereof. Bending and molding

The door frame frame 2 is divided into two molds 25 and 26 to insert the heat shield members 40 into the joints, respectively, and corresponds to the receiving groove 15 of the fire door body 1. To form the receiving portion 24 to the position,

This is achieved by fitting and fixing the gaskets 30 to the receiving portion 24 and the receiving groove 15, respectively.

Therefore, it is possible to prevent the dew condensation caused by the temperature difference because it is possible to maintain the interior and outdoor isolation between the thermal barrier member in the state that the fire door is constructed in the building.

In addition, in the state where the fire door body 1 is closed in the inside of the door frame frame 2, it is possible to more effectively seal the release of noise and heat from inside and outside.

Therefore, the reliability of the product can be maximized.

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

1 is a cross-sectional view showing a conventional fire door configuration, Figure 2 is a perspective view showing the overall shape of the fire door to which the present invention is applied.

3 is a cross-sectional view showing a fire door structure to which the present invention is applied, and a heat shield member 40 is installed at a joint portion of the fire door body 1 and the door frame frame 2, respectively.

The fire door body 1 has a hollow space inside and two front and rear panels 10 and 11 are joined to each other so as to have a door shape as a whole, and the receiving groove 15 is dug along the edge of the rear portion. Losing shape is bent.

As shown in FIG. 3, the receiving groove 15 is bent into a 'b' shape and a 'b' shape at the front and rear panels 10 and 11, respectively, and then a heat-blocking member 40 is formed at the joint. It will be posted.

The thermal barrier member 40 is installed by overlapping one or a plurality of relatively hard rubber pads, the gasket 30 by the bolt 50 for fixing the gasket 30 after inserting the gasket 30. And, the thermal barrier member 40 and the front, rear panels 10, 11 are each to maintain the binding state at the same time.

In addition, the heat shield member 40 and the front and rear panels 10 and 11 may be bonded to each other with an adhesive.

In addition, the interior space of the fire door body 1 is filled with the heat insulating material 17 including the honeycomb, and bolts and welding the gap blind 28 to aesthetically protect the gap generated at the boundary of the door frame frame (2). You may attach by.

The fire door body 1 having such a structure has a gasket 30 and a heat shielding member 40 interposed at the joints of the front and rear panels 10 and 11 divided into two, so that the construction of the fire door body 1 is performed outdoors and indoors. It is possible to block the heat transfer to each other along the front panel, the rear panel (10, 11) made of an iron plate.

On the other hand, the door frame frame 2 is fixed to the wall surface of the building in the construction state.

The door frame frame 2 is also bent and divided into two frame bodies 25 and 26, and the heat-blocking members 40 are respectively inserted in the joints.

Then, the bending is molded for the accommodating part 24 for accommodating the gasket 30 to a position corresponding to the accommodating groove 15 of the fire door body 1.

When the door frame frame 2 is fixedly installed on the wall of the building, the wall may be fitted into the space between the two frames 25 and 26, and the outer frame of the two frames 25 and 26 may be opened as shown in FIG. 3. After the opening is blocked by the blocking plate 29, the wall may be constructed in close contact with the outside.

In this case, since the heat can be transferred to the room and the room temperature difference through the blocking plate 29, the joint between any one of the two frames (25, 26) of the frame (25) 26 and the blocking plate (29) It is preferable to fit the thermal barrier member 40.

At this time, the other side (the upper side in Figure 3) is not interposed with the heat shield member 40 is joined to the heat shield member 40 and the frame 25 by welding.

In addition, the joint portion of the frame 26 with the heat shield member 40 is preferably bonded to the end portion of the end portion in silicon or the like for strength reinforcement.

According to the present invention configured as described above, the interior and exterior sides of the fire door body 1 and the door frame frame 2 are separated from the heat conduction side by two gaskets 30 and the thermal barrier members 40. do.

Therefore, condensation is prevented from being prevented by heat conduction due to a temperature difference in a cold winter season.

In addition, it is a very useful invention that can significantly reduce the sound insulation effect and heat loss.

Claims (2)

Fire door body (1) is formed into a hollow door shape; A door frame frame (2) which surrounds the outer side of the fire door body (1) and is fixed to the building; In the configuration consisting of a hinge member (60) for opening and closing the fire door body (1) to the door frame frame (2); The fire door body 1 is divided into a front panel 10 and a rear panel 11 and interposed between the heat-blocking member 40 at its joint, and the receiving groove 15 is dug along the rear edge thereof. Bending and molding The door frame frame 2 is divided into two molds 25 and 26 to insert the heat shield members 40 into the joints, respectively, and corresponds to the receiving groove 15 of the fire door body 1. To form the receiving portion 24 to the position, Condensation prevention device of the fire door, characterized in that the gasket (30) is fitted to each of the receiving portion (24) and the receiving groove (15). The side opening of the frame bodies 25 and 26 of the door frame frame 2 is blocked by a blocking plate 29, and any one of the two frame bodies 25 and 26 is formed. And condensation prevention device of the fire door, characterized in that the heat shield member 40 is further installed in the joint between the blocking plate (29).

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