KR20200012177A - Door Frame Having Improved Function For Anti-condensation - Google Patents

Abstract

The present invention relates to a frame for a doorframe for a fire door with an improved condensation prevention function, which resolves a problem in which condensation is generated at a frame of a doorframe in a space wherein the indoor and outdoor temperatures are significantly different such as an apartment house with access to a corridor. To this end, the frame for the doorframe for the fire door comprises: an edge mounting unit which is fixedly installed in a wall body to support a fire door, and on which an outer edge part of the fire door is mounted; and a main body mounting unit on which a main body of the fire door is mounted. Here, the edge mounting unit comprises: a vertical plate which is orthogonal to the fire door; and a horizontal plate which is in the same direction as a surface direction of the fire door, thereby basically having a flat surface configuration in an L shape. In addition, at a joint portion between the vertical plate and the horizontal plate, a thermal barrier hole is punched at intervals in a longitudinal direction of the frame.

Description

Door frame having improved function for anti-condensation

The present invention relates to a frame for a door frame, and more particularly, to a frame for a door frame with improved condensation prevention function to improve the problem of condensation on the frame of the door frame in a place where the temperature difference between the indoor and outdoor, such as a corridor apartment.

In general, a corridor apartment or similar multi-family house is a structure in which several generations are arranged along a single corridor. Therefore, the fire door, which is the entrance of each household, is exposed outside the building. Therefore, these fire doors have a great difference between the outside temperature and the inside temperature, especially in winter. Due to this temperature difference, condensation may form on the fire door or the door frame, and condensate may freeze, causing the door to not open properly. In the past, a fire door has been proposed to prevent condensation.

One of them is the Republic of Korea Registered Room No. 20-0340522 (hereinafter referred to as 'prior art 1'), which is made of a steel metal plate, the plate is bent so as to be stepped at one end to form a protrusion of a predetermined length. An end portion of the protrusion is bent to support one surface of the sealing member, and forms an insertion portion forming an insertion groove into which the sealing member can be inserted, and one end of the insertion portion is bent to form a side portion supporting the side of the fire door. In the end portion of the side portion is formed of a fixed portion that is bent to be installed on the wall surface, by inserting the first heat insulating hole at a predetermined interval in the insertion portion, by forming a second heat insulating hole in the inner portion at a predetermined interval, Prevents dew condensation due to temperature differences between indoors and outdoors during winter, and reduces cooling and heating efficiency caused by temperature differences between indoors and outdoors. And presenting a frame for doors and door frames to help avoid.

However, the first and second heat insulation holes formed in the door frame frame are formed to have a concentrated arrangement structure around the insertion groove in which the sealing member is installed, so that cold air flowing into the gap between the door frame and the door can be blocked, but based on the sealing member. As a result of the cooling again occurs inside the door frame, condensation may not be completely prevented.

In addition, the Republic of Korea Registered Room No. 20-0368316 (hereinafter referred to as `` Prior Art 2 '') in response to such a problem allows the hot air in the room to naturally enter the interior space of the fire door and frame, the hot air layer in the interior space of the fire door and frame It is proposed to prevent the formation of condensation in the fire door and the frame located in the room by preventing the cold air of the outdoor outdoor through the fire door and the frame to be formed in the winter has been proposed.

However, the prior art 1,2 is to prevent the rapid change of the temperature difference by forming the air layer having a medium temperature by introducing the indoor hot air into the interior space of the door frame. However, even if the temperature change is buffered, the condensation prevention effect by reducing the sudden change in temperature in the door frame having a limited thickness is not satisfactory. Therefore, in Korea, even if the outdoor temperature in the winter is extremely low, the structure of the door frame alone does not solve the condensation problem, so additional insulation measures were required.

Republic of Korea Registration Room No. 20-0340522 Republic of Korea Registration Room No. 20-0368316

An object of the present invention for the above problems is to provide a window frame for a fire door that can prevent condensation. More specifically, the purpose of the present invention is to provide a frame for a door frame that greatly enhances the dew condensation prevention function only by improving the structure of the door frame by further strengthening the condensation prevention function that has been conventionally proposed and providing a new method for condensation prevention. It is done.

The above object is, as fixed to the wall to support the fire door, the border seating portion is seated on the outer edge of the fire door; In the door frame frame for a fire door comprising; a main body mounting portion is seated on the main body of the fire door;

The border seat portion has a vertical configuration forming a right angle with respect to the fire door and a horizontal plate forming a direction in the same direction as the plane direction of the fire door; The boundary between the vertical plate and the horizontal plate is achieved by a frame for an improved condensation prevention function, characterized in that the heat shield is perforated at intervals along the longitudinal direction of the frame.

According to a feature of the present invention, a shielding bar bent in a U-shape is additionally provided at a boundary portion between the vertical plate and the horizontal plate;

The heat shield may be provided at an end portion of the heat shield.

According to another feature of the invention, the protruding extension direction of the heat shield may be the same direction as the surface direction of the fire door.

According to another feature of the present invention, the sealing member may be interposed in the gap between the pair of heat shield plates parallel to each other to constitute the heat shield.

According to the present invention, there is provided a door frame frame for a fire door which is provided with a heat shield at a portion adjacent to the outside instead of the inside of the fire door, that is, in contact with the atmosphere. According to this frame of the present invention, the heat transfer path is narrowed at a portion directly in contact with a low temperature environment, and as a result, a heat transfer frame through the door frame is reduced, thereby providing a door frame frame which can reduce condensation. The door frame frame of the present invention can be used in parallel with the prior art, thus further amplifying the effects of the prior art.

According to the prior art, a high temperature indoor air is introduced into the door frame frame to form an intermediate temperature layer between the outside and the inside. However, the present invention is to suppress the condensation phenomenon by blocking the heat transfer path to the portion adjacent to the outside air of the frame in contact with the outside air, so that the temperature of the outside air less affect the inside of the frame.

1 is a perspective view of a frame for a door frame with improved condensation prevention function according to an embodiment of the present invention.
2 is a cross-sectional view of a frame for a door frame with improved condensation prevention function according to an embodiment of the present invention.
Figure 3 is a cross-sectional view of the installation state of the frame for a door frame improved condensation prevention function according to an embodiment of the present invention.
Figure 4 is a cross-sectional view for explaining the action state of the frame for a door frame improved condensation prevention function according to an embodiment of the present invention.
5 is a cross-sectional view of the frame for a door frame improved condensation prevention function according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail the details of the present invention. First, a basic embodiment will be described with reference to FIGS. 1 to 3 simultaneously, and will be described with reference to other drawings where necessary.

The door frame 1 according to the present invention is fixed to the wall 200 to support the fire door (100). However, the present invention is not limited to the fire door 100 of the apartment. Although the term fire door 100 is used, it should be understood as a concept that includes all doors installed at the entrance.

The fire door 100 and its door frame 1 are generally structured so that they cannot be opened by force from outside and the flame does not penetrate. That is, the fire door 100 is composed of a fire door main body 101 and the edge portion 103 protruding outward from the four sides of the fire door main body 101. That is, the edge of a fire door is provided with the stepped 105, and each door frame frame 3 which comprises the door frame 1 is provided with the edge mounting part 5 corresponding to this stepped 105. As shown in FIG. And the main body seating part 7 in which the fire door main body 101 is mounted is provided in the inner direction of the edge seating part 5.

The above-mentioned condensation preventing means according to the prior arts 1 and 2 are provided in the main body seating portion 7. However, the main body seating portion 7 is closer to the indoor ID than to the outdoor OD. In other words, condensation prevention means are provided at the point where heat is transferred to the outside of the door frame along the door frame.

According to the present invention, the condensation preventing means is provided in the edge seating portion 5 which is much adjacent to the outdoor side, which is the core of the present invention. This will be described in detail below.

The edge seating portion 5 basically includes a vertical plate 9 that forms a right angle with respect to the fire door 100 and a horizontal plate 11 that forms the same direction as the plane direction of the fire door. Has a configuration.

At the boundary between the vertical plate 9 and the horizontal plate 11, heat shielding holes 13 and 두고 are perforated at intervals along the longitudinal direction of the door frame frame 3. The heat shield is in the form of an elongate rectangle or ellipse in the vertical direction, and its width, length or spacing can be adjusted according to circumstances.

The heat shield hole 13 is a hole for blocking heat and is a hole perforated in a plate to prevent heat transfer.

Furthermore, according to the present embodiment, a shielding bar 15 bent in a U-shape is additionally provided at the boundary portion between the vertical plate 9 and the horizontal plate 11. The heat shield 13 may be provided at the end of the heat shield 15, that is, the end 15a bent in a hemispherical shape.

And the protruding extension direction of the heat shield 15 may be the same direction as the surface direction of the fire door (100). This is for ease of bending work.

The heat shield 15 is composed of a pair of heat shield plates 17 and 19 spaced apart in parallel, and the gap G between these heat shield plates may be 2 to 5 mm. In some cases, the sealing member 21 may be interposed in the gap between the heat shield plates 17 and 19. The sealing member may be installed by injecting silicone and curing, or by inserting a packing. Sealing member 21 is made of a wire rod like packing may be installed in the entire section or a partial section of the heat shield (15). By the sealing member 21, the fire door 100 and the door frame 1 together with the packing member 23 have a double sealing structure.

According to the above configuration, as shown in FIG. 4, the heat H corresponding to the outdoor temperature passes through the outer plate 21 and the vertical plate 9 of the door frame frame and the outer heat shield plate 17 of the heat shield 15. Will be delivered almost literally. And this heat (H) is blocked by the heat shield hole 13 in the process of being transferred to the inner heat shielding plate 19 is only partially transferred into the door frame frame. The transferred heat H 'may be 1/2 to 1/3 of the initial inlet heat H depending on the size of the heat shield hole 13 and the like. The heat transfer is made through the plate of the frame of the door frame which is a heat transfer medium, the area of the plate is narrowed by the heat shielding hole 13 so that the amount of heat transfer is reduced.

In this way, the heat H of the outside air is reduced in the process of passing through the heat shield 15, and thus there is no rapid temperature change in the wall, so condensation is significantly reduced.

The portion provided with the heat shield hole 13 according to the present invention can be easily bent by reducing the area of the member.

According to another embodiment of the present invention, as shown in FIG. 5, the heat shield may have a direction perpendicular to the plane direction of the fire door.

The thickness and length of the heat shield 15 can be adjusted according to circumstances such as bending capacity, plate thickness, and the like. The U-shaped heat shield 15 contributes to increasing the rigidity of the structure, such as ribs, despite the heat shield 13. Therefore, there is no problem in the rigidity of the door frame frame even when the heat shield hole 13 is installed.

Reference numeral 23 in FIG. 3, which is not described, is a packing member installed in the main body seating portion 7 and has no direct relationship with the present invention. Specific details of the cross section shown below in FIG. 2 are merely exemplary, and this cross-sectional structure does not limit the scope of the present invention.

The configuration shown and described above is only a preferred embodiment based on the technical spirit of the present invention. Those skilled in the art will be able to implement various modifications based on common technical knowledge, but it should be noted that this may be included in the protection scope of the present invention.

1: door frame 3: door frame
5: border seat 7: body seat
9: vertical plate 11: horizontal plate
13: heat shield (遮 熱 孔) 15: heat shield
15a: end of the heat shield 17,19: heat shield
21: sealing member
100: fire door 101: fire door body
103: edge of the fire door 105: step
200: wall
G: spacing

Claims (3)

It is fixed to the wall to support the fire door, the border seating portion is mounted to the outer edge of the fire door; In the door frame frame for a fire door comprising; a main body mounting portion is seated on the main body of the fire door;
The edge seating portion has a vertical configuration that is perpendicular to the fire door and a horizontal plate that forms the same direction as the plane direction of the fire door; and basically has an L-shaped plane configuration;
Door frame for improved condensation prevention function, characterized in that the heat shield is perforated at intervals along the longitudinal direction of the frame at the boundary between the vertical plate and the horizontal plate. According to claim 1, wherein the partition plate is formed in the boundary portion of the vertical plate and the horizontal plate is bent in the U-shape additionally;
The heat shield is a frame for a door frame with improved dew condensation, characterized in that provided in the bent end (15a) of the heat shield The frame for a door frame with improved condensation prevention function according to claim 2, wherein a sealing member is interposed in a gap between the pair of heat shield plates parallel to each other to constitute the heat shield.

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