KR200266123Y1 - A bottom sash for preventing of dew phenomenon - Google Patents

Abstract

The present invention relates to a chassis of a window formed on the wall, and relates to a lower window frame chassis that prevents condensation from occurring in a room caused by an external temperature and an indoor temperature difference.

A characteristic of the lower window frame chassis to prevent condensation according to the present invention is that the upper side of the lower window frame chassis is formed in a predetermined shape to form a first azone insertion space in which a first inlet is formed in the lower portion, and in the middle of the lower window frame chassis. A second inlet opening is formed to form a second azone insertion space, and a cutting groove is formed in an upper portion of the first azone insertion space and a lower portion of the second azone insertion opening, and a lower portion of the lower window frame chassis supports the load of the window while A reinforcing rod is formed in the longitudinal direction to prevent the window frame chassis from being bent under the load of the window, and a screw groove is formed in the upper and middle centers to insert the first and second azone insertion spaces through the first and second insertion holes. Injecting the azone into the space, the cutting groove formed in the upper and lower portions of the end of the lower window frame chassis, the first azone insertion space and the second azone insertion space It shall be.

Description

A bottom sash for preventing of dew phenomenon

The present invention relates to a chassis of a window formed on the wall, and to a lower window frame chassis to prevent the condensation phenomenon to prevent the dew condensation in the room due to the difference between the outside temperature and the room temperature.

Conventionally, the window frame chassis is used to separate indoor and outdoor and prevent the wind from entering the room. However, when the temperature difference between indoor and outdoor occurs, dew condensation occurs on the indoor window frame. The problem of aesthetic problems was caused by the accumulation of water in the house, and a problem occurred in the house due to condensation.

In order to solve the above problems, the window frame is fixed to the interior by dividing the part fixed to the interior and the part fixed to the outdoor in half and install azon (Azon) without thermal conductivity at the connection part of the window frame divided in half Condensation is prevented from occurring in the room by preventing the temperature of the window frame from being delivered to the room.

However, the method of injecting Azon into the chassis of the indoor and outdoor parts as described above is that when Azon is injected from both chassis cut into the indoor and outdoor parts, the Azon is outside the Azon insertion space. In order to prevent the outflow to the inside of the separated both chassis fixed with a tape and then put the azone because it is difficult to fix the tape inside the chassis, the problem was not easy to work.

In addition, the lower window frame chassis must support the load of the window frame at the bottom, but in the conventional lower window frame chassis, the portion into which the Azon is introduced is formed in the center of the chassis and is separated into the indoor and outdoor parts. The lower window frame chassis is not able to overcome the load of the window because it cannot install a separate reinforcement in the center, and in order to form the window frame by using the lower window frame chassis, a screw groove for fixing the screw penetrating the side window frame chassis is fixed. Although it should be formed, it is difficult to form a screw groove for fixing the lower window frame chassis and the side window frame chassis because the position where the Azon is introduced is formed in the inner center of the lower window frame chassis.

The present invention has been made to solve the above problems, to provide a lower window frame chassis to prevent condensation can be easily added to the azone without fixing the chassis with a tape to prevent condensation.

The present invention provides a lower window frame chassis in which the lower window frame chassis is not bent or broken by the load of the window frame.

A characteristic of the lower window frame chassis to prevent the condensation phenomenon according to the present invention for achieving this object is to form a first azone insertion space in which the first inlet is formed in the lower portion of the upper side of the lower window frame chassis is formed in a predetermined shape In the middle, a second azone insertion space is formed in which a second inlet is formed, and a cutting groove is formed in an upper portion of the first azone insertion space and a lower portion of the second azone inlet, and a window is formed in the middle of the lower window frame chassis. A reinforcing bar is formed as a bell to prevent the lower window frame chassis from being bent under the load of the window while supporting the load of the first frame. A screw groove is formed in the upper and middle centers to insert the first azone through the first and second inlets. Insert the azone into the space and the second azone insertion space, and cut the cutting grooves formed at the ends of the lower window frame chassis and the upper and lower portions of the first and second azone insertion spaces. It is characterized in that it is made.

1 is a front view schematically showing an embodiment of a window to which the present invention is applied.

Figure 2 is a perspective view schematically showing a preferred embodiment of the lower window frame chassis to which the present invention is applied.

Figure 3 is a schematic cross-sectional view showing a preferred embodiment of the lower window frame chassis applied to the present invention.

Figure 4 is an enlarged cross-sectional view schematically showing a preferred embodiment of the cutting groove formed in the azone insertion space formed in the lower window frame chassis applied to the present invention.

5 is a cross-sectional view schematically showing a state in which an azone without thermal conductivity is fixed to a lower window frame chassis applied to the present invention.

Figure 6 is a schematic cross-sectional view showing a preferred embodiment of the lower window frame chassis to prevent condensation according to the present invention.

Figure 7 is a schematic cross-sectional view showing a preferred embodiment of the window frame to which the present invention is applied.

Hereinafter, preferred embodiments of the lower window frame chassis for preventing condensation according to the present invention will be described in detail with reference to the accompanying drawings.

First, one embodiment of the lower window frame chassis to prevent condensation according to the present invention is the lower window frame chassis 200 forming the window 100 as shown in Figure 1 is one side upper as shown in FIG. The first azone insertion space 210 is formed in one side, and a second azone insertion space 220 is formed in the middle of one side thereof.

In the lower portion of the first azone insertion space 210 formed on one side of the lower window frame chassis 200, a first inlet 211 for injecting the azone 300 into the first azone insertion space 210 is formed. In the upper portion of the second azone insertion space 220 formed in the middle of one side of the lower window frame chassis 200, a second inlet 221 for injecting the azone 300 into the second azone insertion space 220 is formed. do.

As shown in FIG. 4, upper and lower portions of the first azone insertion space 210 and the second azone insertion space 220 having the first and second inlets 211 and 221 are formed in the upper and lower portions thereof. A cutting groove 230 is formed to cut the lower window frame chassis 200 connecting the first azone insertion space 210 and the second azone insertion space 220.

An azone insertion space into which the azone 300 is introduced forms a reinforcement table 240 in the center of the lower window frame chassis 200 formed at one side of the lower window frame chassis 200.

The reinforcing rod 240 formed as a bell inside the lower window frame chassis 200 supports the load of the window frame 100 at the lower portion of the window frame 100 so that the lower window frame chassis 200 is bent or damaged. Prevent it.

A reinforcement table 240 in which the first azone insertion space 210 and the second azone insertion space 220 are formed at one side, and the lower window frame chassis 200 in which the reinforcement stand 240 is formed at the center thereof is formed in the center. On the opposite side of the screw groove 250 is formed.

According to the present invention having the above configuration, the first insertion hole 211 and the first azone insertion space 210 and the second azone insertion space 220 are formed at one side and the middle of the lower window frame chassis 200. The azone 300 is introduced into the first azone insertion space 210 and the second azone insertion space 220 as shown in FIG. 5 through the second inlet 221.

As described above, when the azone 300 is introduced into the first azone insertion space 210 and the second azone insertion space 220, the lower window frame chassis 200 is formed to form the window 100 as shown in FIG. 1. The cutting grooves 230 formed at the upper and lower portions of both side ends of the first and second azone insertion spaces 210 and the second azone insertion spaces 220, as shown in FIG. 6, lower window frame chassis 200. Separate into fixed parts indoors and outdoors.

Even if the cutting groove 230 of the first azone insertion space 210 and the second azone insertion space 220 is cut and divided into a part fixed to the interior and a part fixed to the outside, the first azone insertion space 210 and Since the azone 300 is formed in the second azone insertion space 220, even when the lower window frame chassis 200 is divided into an indoor part and an outdoor part, they are not separated from each other by the azone 300.

The lower window frame chassis 200 formed as described above is placed in the lower portion of the window frame 100 as shown in FIG. 6 so that the screws penetrating the side window frame chassis are reinforcement 240 of the lower window frame chassis 200. It is fixed to the screw groove 250 formed on one side to form a window frame 100, the reinforcing rod 240 is formed in the center of the lower window frame chassis 200 is fixed in the lower portion of the window frame 100 Since it is not bent or damaged by the load of the window frame 100.

In the above described the preferred embodiment for the lower window frame chassis to prevent condensation according to the present invention, the present invention is not limited to this, but the utility model registration claims and the detailed description of the invention and the scope of the accompanying drawings. It is possible to carry out various modifications, and this also belongs to the present invention.

The present invention does not need to seal the azone insertion space by attaching a tape because the lower window frame chassis is not separated into the indoor and outdoor parts, so the work process is convenient and the process time can be shortened. The effect is to be provided.

The present invention is to provide the effect of preventing the lower window frame chassis is bent or broken by the load of the window frame because it forms a reinforcing rod with the bell inside the lower window frame chassis.

The present invention forms an azone insertion space into which the azone is introduced, on one side of the lower window frame chassis, so that the screw grooves through which the screws penetrate the side window frame chassis are not removed to form the window frame have an effect of increasing the working effect. Will be provided.

Claims (1)

A first azone insertion space in which a first inlet is formed is formed in the lower portion of the lower side of the lower window frame chassis, which is formed in a predetermined shape, and in the middle, a second azone insertion space in which a second inlet is formed in the upper portion thereof, is formed. Cutting grooves are formed in the upper part of the insertion space and in the lower part of the second azone inlet, and in the middle of the lower window frame chassis, a reinforcing bar for supporting the load of the window and preventing the lower window frame chassis from bending under the load of the window It is formed, the screw groove is formed in the upper and middle center, and the azone is introduced into the first azone insertion space and the second azone insertion space through the first inlet and the second inlet, the end of the lower window frame chassis and the first azone Lower window frame chassis to prevent condensation, characterized in that the cutting groove formed in the upper and lower portions of the insertion space and the second azone insertion space.