KR20210104328A - Drainage structure of window frame with watertightness improved by stepped frame - Google Patents

Abstract

The present invention is to provide a drainage structure of a window frame with improved watertightness with a lower frame of a stepped structure. According to the present invention, in the drainage structure of a window frame, by forming a rail groove formed on the outdoor side in the lower frame of the window frame deeper than a rail groove formed on the indoor side thereof, the rainwater accumulated in the rail groove on the outdoor side is immediately discharged to prevent rainwater from flowing into the rail groove on the indoor side to improve watertightness. Moreover, the upper portion of the rail groove on the outdoor side may be covered with a cover plate to prevent mosquitoes, flies, dust, or foreign substances from flowing into the room through a drain hole formed on the outdoor side of the lower frame.

Description

Drainage structure of window frame with watertightness improved by stepped frame

The present invention relates to a drainage structure of a window frame, and more particularly, by forming a rail groove formed on the outdoor side of the lower frame of the window frame to be lower than the depth of the rail groove formed on the indoor side to prevent rainwater from flowing into the indoor rail groove. It relates to a drainage structure of a window frame with improved watertightness with a lower frame of a stepped structure to improve watertightness.

Even if the window is closed on the window frame installed on the outer wall of the building, rainwater collects in the rail groove formed in the lower frame of the window frame, and rainwater accumulated in the rail groove is not properly drained. Also, when water accumulates on the window sill, it is not only aesthetically bad, but also has a sanitary problem, such as becoming a habitat for microorganisms or insects. Therefore, in order to prevent this, a drainage hole is drilled in the outer lower frame of the window frame to drain the water.

Until now, many technologies have emerged to improve the drainage of the window frame as well as the insulation, airtightness and sound insulation performance. For example, Patent Registration No. 1649923, "Double watertight structure windows with excellent insulation and airtight performance and drainage performance," forms the outdoor and indoor rail grooves formed in the window frame to the same depth, Of course, it is a window device with improved insulation, airtightness and sound insulation performance by installing it on the bottom and side surfaces of the indoor rail groove. However, in the drainage structure for draining the stagnant water in the rail groove, although the drainage hole is formed up and down, it is the same as the drainage structure of a general window frame. Due to the attached installation, if a large amount of rainwater suddenly flows in during a typhoon or heavy rain, rainwater flowing into the indoor rail groove cannot be drained due to the mohea attached to the floor and sides, and a large amount of rainwater enters the room. Inevitably, there is a serious problem that the drainage hole for draining the rainwater accumulated in the indoor rail groove does not play any role or function and causes the inflow of wind and noise from the outside.

Rainwater that collects in the rail groove of the window frame first collects in the rail groove on the outdoor side. Rainwater does not flow into the side rail groove, and furthermore, rainwater does not flow into the room. However, not only the above patents but also the windows and door devices that have appeared so far have the same depth of rail grooves on the outdoor and indoor sides, and do not have a structure that separates and drains rainwater accumulated in the rail grooves on the outdoor and indoor sides. No matter how well the structure is equipped, there is a fatal problem that a large amount of rainwater is not drained and flows into the room when it is raining due to a typhoon or strong wind and rain.

The present invention has been devised to solve the above problems, and an object of the present invention is to form a rail groove formed on the outdoor side of the lower frame of a window frame deeper than the rail groove formed on the indoor side, so that rainwater accumulated in the outdoor rail groove is formed. The watertightness is improved by preventing rainwater from entering the indoor rail groove by immediately discharging it, and the upper part of the outdoor rail groove is covered with a cover plate to prevent mosquitoes, flies and dust from entering through the drain hole formed on the outdoor side of the lower frame. It is to provide a drainage structure of the window frame with improved watertightness with a lower frame of a stepped structure that can block foreign substances from entering the room.

The drainage structure of the window frame with improved watertightness with the lower frame of the stepped structure according to the present invention is integrally connected between the indoor side wall located on the indoor side, the outdoor side wall located on the outdoor side, and the indoor side wall and the outdoor side wall It is a drainage structure of a window frame including a lower frame that is formed and slides the window upward. a frame body having rails formed thereon, an outdoor rail support is formed on an upper surface of an outdoor floor surface, and an indoor side wall and an outdoor side wall are respectively formed on the indoor side and the outdoor side; The outdoor rail is formed on the upper surface of the plate-shaped plate, and the plate is placed on the top of the outdoor rail support formed on the bottom surface of the outdoor side of the frame body to form an outdoor rail groove formed between the outdoor rail supports. and a cover plate installed to close the cover plate, and configured to discharge rainwater accumulated on the outdoor floor surface through a drain hole formed in the outdoor side wall.

Preferably, in the indoor rail formed on the upper surface of the indoor floor surface, the outdoor surface of the rail located on the outdoor side and the indoor side surface of the outdoor side wall are formed with protrusions to face each other, so that the cover Both ends of the plate are mounted on the protruding jaws and are installed.

Preferably, the second embodiment of the frame body includes: a first body made of PVC and positioned in the middle between the indoor and outdoor sides, the outdoor floor surface being lower than the indoor floor surface; a second body made of aluminum to be coupled to an indoor side surface of the first body, and configured to have an indoor side wall on the indoor side; A third body made of aluminum and coupled to an outdoor side surface of the first body and configured with an outdoor side wall on the outdoor side; is coupled and integrally formed, and the indoor rail is the bottom of the second body It is installed on the upper surface of the surface, and the outdoor rail support is installed on the upper surface of the bottom surface of the third body, and the cover plate is configured to cover the upper part of the bottom surface of the third body and the upper part of the outdoor floor surface of the first body.

Preferably, an indoor rail is further formed on the upper surface of the indoor bottom surface of the first body, and an outdoor rail support is further formed on the upper surface of the outdoor floor surface of the first body or the lower surface of the cover plate.

Preferably, the third embodiment of the frame body includes: a first body made of PVC, positioned in the middle between the indoor and outdoor sides, and having an outdoor floor lower than the indoor floor; a second body made of aluminum to be coupled to an indoor side surface of the first body, and configured to have an indoor side wall on the indoor side; A third body made of aluminum and coupled to the outdoor side of the first body, and configured with an outdoor side wall on the outdoor side; is coupled and integrally formed, and the indoor rail is the interior of the first body It is installed on the upper surface of the side bottom surface, the outdoor rail support is installed on the upper surface of the outdoor floor surface of the first body, and the cover plate covers the upper part of the bottom surface of the third body and the upper part of the outdoor floor surface of the first body. is composed of

Preferably, the outdoor rail support is formed to protrude from the lower surface of the plate of the cover plate instead of being formed on the frame body.

In the drainage structure of the window frame according to the present invention, the depth of the rail groove formed on the outdoor side of the lower frame of the window frame is deeper than the depth of the rail groove formed on the indoor side in a stepwise manner. Therefore, since rainwater accumulated in the outdoor rail groove is immediately discharged, rainwater can ride over the indoor rail groove and cannot flow into the indoor side. It is possible to significantly improve the watertightness of the frame.

In addition, since the cover plate is covered on the upper part of the outdoor rail groove formed in the lower frame, the cover plate blocks pests, such as mosquitoes and flies, and dust or foreign substances that are introduced through the drain hole formed on the outdoor side of the lower frame. Therefore, it is possible to block them from entering the room.

1 is a cross-sectional view showing a window frame drainage structure according to the present invention.
Figure 2 is a view showing a first embodiment of the window frame lower frame according to the present invention.
3 is a view showing a second embodiment of the window frame lower frame according to the present invention.
4 is a view showing a third embodiment of the lower frame of the window frame according to the present invention.

The biggest technical feature of the window frame drainage structure according to the present invention is that the outdoor rail groove of the lower frame is formed deeper than the indoor rail groove and the cover plate is covered on the upper part of the outdoor rail groove to immediately discharge rainwater accumulated in the outdoor rail groove. By doing so, even if a typhoon or heavy rain pours, rainwater accumulated in the rail groove on the outdoor side does not flow into the indoor side.

In the present specification, the term 'outdoor rail' means a pair of rails on which a pair of windows slide while being positioned on the outdoor side in the case of a double window, and a rail on which a window positioned on the outdoor side slides in the case of a single window. In addition, in the case of a double-glazed window, the 'indoor rail' means a pair of rails on which a pair of windows slide while positioned indoors in the case of a double-glazed window, and a rail on which a window positioned on the indoor side slides in the case of a single window. Since the difference between single-pane windows and double-glazed windows differs only in the number of rails according to the difference in the number of windows, the window frame drainage structure of the present invention is equally applicable to single-pane windows as well as double-glazed windows.

Rainwater that collects in the rail groove of the lower frame of the window frame first collects in the rail groove located on the outdoor side and then flows into the rail groove located on the indoor side. Furthermore, if only rainwater accumulated in the rail groove on the indoor side is drained in a timely manner, rainwater will not flow into the room. Therefore, in the drainage structure of the window frame according to the present invention, the height of the floor surface of the outdoor rail groove is formed in a stepwise lower than the floor height of the indoor rail groove, and rainwater accumulated in the deep outdoor rail groove is rapidly drained. It is a drainage structure that can improve the watertightness of the window frame by preventing rainwater from flowing into the indoor rail groove formed higher than the side rail groove.

A window frame lower frame 10, which is a first embodiment of the window frame, will be described with reference to FIGS. 1 and 2 . In the first embodiment, reference numerals starting with '1' are used, and may be made of a single material, such as a metal material (aluminum, etc.) or a resin such as PVC. It can also be configured integrally. The window frame of the first embodiment is formed by integrally connecting the indoor side wall 111 located on the indoor side, the outdoor side wall 114 located on the outdoor side, and the indoor side wall 111 and the outdoor side wall 114 . and a lower frame 10 on which the window 40 slides, and the lower frame 10 includes a frame body 11 and a cover plate 12 .

The frame body 11 has an indoor floor having a height higher than that of the outdoor floor to form a staircase-like shape, and an indoor rail 112 is formed on the upper surface of the indoor floor, and the outdoor floor surface An outdoor side rail support 113 is formed on the upper surface of the , and an indoor side wall 111 and an outdoor side wall 114 are respectively formed on the indoor side and the outdoor side. An indoor rail groove 112a is formed around the indoor rail 112 , and an outdoor rail groove 113a is formed around the outdoor rail support 113 , and the indoor rail 112 and In the outdoor rail support 113 and the outdoor side wall 114, drainage holes 115 are formed at appropriate locations to drain rainwater accumulated in the rail groove. Although not shown, the outdoor rail support 113 supporting the cover plate 12 may be installed to protrude from the lower surface of the plate 121 of the cover plate without being formed on the upper surface of the bottom surface of the outdoor side, and the outdoor rail The pedestal 113 may not be installed. Here, the outdoor rail groove 113a refers to a space formed around the outdoor rail support 113 as well as a space formed between the outdoor floor surface and the plate 121 of the cover plate, and is the same herein.

For smooth drainage, it is preferable that the indoor floor surface and the outdoor floor surface have a slope that lowers the height toward the outdoor side. In addition, when the indoor floor surface and the outdoor floor surface are formed in a stepwise manner with different heights, the outdoor floor surface is formed to have a lower height directly from the outdoor side of the portion where the indoor rail is formed. Not only is the size (volume) formed large, but it is like a high wall (referring to the rail located on the outdoor side from the indoor side rail) is installed at the boundary between the indoor side rail groove and the outdoor side rail groove, so the amount of rainwater suddenly increases. However, rainwater can be drained without entering the indoor side.

The cover plate 12 has an outdoor rail 122 formed on the upper surface of the plate-shaped plate 121 , and the outdoor rail support plate 121 is formed on the outdoor bottom surface of the frame body 11 . The outdoor rail groove 113a formed between the outdoor rail supports 113 by being placed on the upper portion 113 is closed so as not to be exposed to the outside, thereby forming the same height as the indoor floor surface. Of course, the height of the upper surface of the plate 121 may be formed to be lower than the height of the indoor floor. Since rainwater may accumulate in the rail grooves formed between the outdoor rails 122 formed on the cover plate 12 , drainage holes may also be formed at appropriate locations on the plate 121 , and drainage holes may be formed in the plate 121 . In one case, by attaching a film or the like to the lower surface of the plate 121 in which the drain hole is formed, rainwater is drained only toward the outdoor rail groove 113a formed in the lower part of the cover plate 12, and wind or foreign matter is discharged through the drain hole. It is preferable to prevent the back from flowing into the upper part of the cover plate 12 .

Looking at the configuration for installing the cover plate 12 , in the indoor rail 112 formed on the upper surface of the indoor floor surface, the outdoor surface of the rail located on the outdoor side and the indoor side of the outdoor side wall 114 have each other. Protruding jaws (not designated by reference numerals) are formed to face each other, so that both ends of the plate 121 of the cover plate 12 are mounted on the projecting jaws to be coupled and installed, and stable installation and strength when the window is combined For this purpose, it is preferable to configure the outdoor rail 122 to be positioned directly above the outdoor rail support 113 . When the outdoor rail support 113 is installed to protrude from the lower surface of the plate 121 of the cover plate without being formed on the upper surface of the bottom surface of the outdoor side, both ends of the plate 121 of the cover plate 12 are placed on the protrusion. The outdoor rail support protruding from the lower surface of the plate 121 is installed while being supported on the outdoor floor surface. In addition, when the outdoor rail support is not formed, a protrusion is formed on the outdoor side of the rail located on the outdoor side of the indoor rail and the indoor side of the outdoor side wall 114 to face each other, , both ends of the plate 121 of the cover plate 12 are mounted on the protruding jaws to be installed. The height of the upper surface of the plate 121 of the cover plate may be the same as the height of the indoor floor or may be formed to be lower than the height of the indoor floor.

The second embodiment is a window assembled with aluminum and PVC, which will be briefly described with reference to FIG. 3 . In the second embodiment, reference numerals starting with '2' were used. In the second embodiment, the same cover plate as that of the first embodiment is used for the cover plate, and the outdoor rail support portion is the same, so a separate description of the same part will be omitted in order to avoid overlapping description.

In the frame body 21, a first body 211 made of PVC having a heat insulation function is positioned in the middle, and a second body 212 and a second body 212 and a second body 212 are located at the indoor and outdoor ends of the first body 211. The three main bodies 213 are formed by automatic mechanical coupling integrally with each other by a knurling method or the like.

The first body 211 is made of PVC and is positioned in the middle between the indoor and outdoor sides, and has a function of blocking the heat conducted between the second body 212 and the third body 213, , the outdoor floor surface is formed to be lower than the indoor floor surface. The second body 212 is made of aluminum to be coupled to the indoor side surface of the first body 211, and is configured to include an indoor side wall on the indoor side. The third body 213 is made of aluminum to be coupled to the outdoor side surface of the first body 211, and is configured to have an outdoor side wall on the outdoor side.

As shown in FIG. 3 , one indoor rail is installed on the upper surface of each bottom surface of the second body 212 and the first body 211 , and the outdoor rail supports are the third body 213 and the first body 211 . One may be installed on the upper surface of each bottom surface of the main body 211, and in this case, the cover plate is configured to cover the upper portion of the bottom surface of the third main body 213 and the upper portion of the outdoor floor surface of the first main body 211, , the plate of the cover plate should be installed and configured to have the same height or lower height as the bottom surface of the second body 212 . Since the portion for installing the outdoor rail support is the same as that of the first embodiment, the overlapping description will be omitted.

In addition, although not shown, the indoor rails are all installed on the upper surface of the second body 212 , the outdoor rail supports are all installed on the upper surface of the third body 213 , and the upper surface of the first body 211 is Without forming a rail, only a stepped floor surface or a floor surface having a height lower than the floor surface of the second body 212 may be used. This degree of change is considered to be a design change to the extent that a person skilled in the art can do without any technical difficulties.

The third embodiment is a window assembled with aluminum and PVC, which will be briefly described with reference to FIG. 4 . In the third embodiment, reference numerals starting with '3' were used. Since the cover plate in the third embodiment uses the same cover plate as in the first embodiment, a separate description of the cover plate is omitted.

The frame body 31 has a first body 311 made of PVC having a heat insulation function in the middle, and a second body 312 and a second body 312 at the indoor and outdoor ends of the first body 311. The three main bodies 313 are formed by automatic mechanical coupling integrally with each other by a knurling method or the like.

The first body 311 is made of PVC and is positioned in the middle between the indoor and outdoor sides, and functions to block the heat conducted between the second body 212 and the third body 213, and Both the side bottom surface and the outdoor bottom surface are formed in the first body 311, and the outdoor floor surface is formed lower than the indoor floor surface. The second body 312 is made of aluminum to be coupled to an indoor side surface of the first body 311, and is configured to include an indoor side wall on the indoor side. The third body 313 is made of aluminum to be coupled to an outdoor side surface of the first body 311, and is configured to have an outdoor side wall on the outdoor side.

In the third embodiment, both the indoor rail and the outdoor rail are installed on the first body 311, the indoor rail is installed on the upper surface of the indoor bottom surface of the first body 311, and the outdoor rail support is installed on the first body 311. 1 It is installed on the upper surface of the bottom surface of the outdoor side of the main body (311). The cover plate is configured to cover the top of the bottom surface of the third body 313 and the top of the bottom surface of the outdoor side of the first body 311 , and the plate of the cover plate has the same height as the bottom surface of the second body 312 . Or it should be installed and configured to have a lower height. Since the portion for installing the outdoor rail support is the same as that of the first embodiment, the overlapping description will be omitted.

The above description is illustrative of the present invention, and the embodiments published in the specification are for explanation rather than limiting the technical idea of the present invention, so those of ordinary skill in the art to which the present invention pertains. Various modifications and variations will be possible without departing from the technical idea of Therefore, the protection scope of the present invention is to be interpreted by the matters described in the claims, and technical matters within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: lower frame
11: frame body 111: interior side wall
112: indoor rail 112a: indoor rail groove
113: outdoor rail support 113a: outdoor rail groove
114: outdoor side wall 115, 215, 315: drain hole
12: cover plate 121: plate
122: outdoor rail
21: frame body 211: first body
212: second body 213: third body
31: frame body 311: first body
312: second body 313: third body

Claims (10)

A drainage structure of a window frame including an indoor side wall located on the indoor side, an outdoor side wall located on the outdoor side, and a lower frame formed by integrally connecting the indoor and outdoor side walls and sliding the window upwards. In
The lower frame is
The indoor floor surface is formed to be higher than the outdoor floor surface, the indoor rail is formed on the upper surface of the indoor floor surface, and the outdoor rail support is formed on the upper surface of the outdoor floor surface. a frame body having an indoor side wall and an outdoor side wall formed on the side, respectively;
The outdoor rail is formed on the upper surface of the plate-shaped plate, and the plate is placed on the top of the outdoor rail support formed on the bottom surface of the outdoor side of the frame body to form an outdoor rail groove formed between the outdoor rail supports. a cover plate installed to close;
The drainage structure of the window frame with improved watertightness with a lower frame of a stepped structure, characterized in that it is configured to discharge rainwater accumulated on the floor surface of the outdoor side through a drainage hole formed in the outdoor side wall.
According to claim 1,
In the indoor rail formed on the upper surface of the indoor bottom surface, protrusions are formed on the outdoor side of the rail located on the outdoor side and the indoor side of the outdoor side wall to face each other, The drainage structure of the window frame with improved watertightness with the lower frame of the stepped structure, characterized in that both ends are mounted on the protruding sill and installed.
According to claim 1, wherein the frame body,
a first body positioned in the middle between the indoor side and the outdoor side, wherein the outdoor floor surface is lower than the indoor floor surface;
a second body coupled to an indoor side surface of the first body and configured with an indoor side wall on the indoor side;
a third body coupled to an outdoor side surface of the first body and configured with an outdoor side wall on the outdoor side;
is combined to form an integral body, and
The indoor rail is installed on the upper surface of the bottom surface of the second body, and the outdoor rail support is installed on the upper surface of the bottom surface of the third body,
Wherein the cover plate is configured to cover the upper portion of the bottom surface of the third main body and the upper portion of the outdoor floor surface of the first main body.
4. The method of claim 3,
Watertightness with a stepped structure lower frame, characterized in that an indoor rail is further formed on the upper surface of the indoor bottom surface of the first body, and an outdoor rail support is further formed on the upper surface of the outdoor floor surface of the first body Improved drainage structure of window frames.
According to claim 1, wherein the frame body,
a first body positioned in the middle between the indoor side and the outdoor side, wherein the outdoor floor surface is lower than the indoor floor surface;
a second body coupled to an indoor side surface of the first body and configured with an indoor side wall on the indoor side;
a third body coupled to an outdoor side surface of the first body and configured with an outdoor side wall on the outdoor side;
are combined to form an integral body, and
The indoor rail is installed on the upper surface of the indoor floor of the first body, and the outdoor rail support is installed on the upper surface of the outdoor floor of the first body,
Wherein the cover plate is configured to cover the upper portion of the bottom surface of the third main body and the upper portion of the outdoor floor surface of the first main body.
According to any one of claims 1, 3, 5,
The outdoor rail support is not formed on the frame body, but is formed to protrude from the lower surface of the plate of the cover plate.
5. The method of claim 4,
The outdoor rail support is formed to protrude from the lower surface of the plate of the cover plate instead of being formed on the upper surface of the outdoor bottom surface of the first body.
According to claim 1,
On the indoor rail formed on the upper surface of the indoor floor surface instead of the outdoor rail support installed on the frame body, the outdoor surface of the rail located on the outdoor side and the indoor side surface of the outdoor side wall are projected to face each other This is formed, so that both ends of the plate of the cover plate are mounted on the protrusion and are coupled to the lower frame of the stepped structure, the drainage structure of the window frame with improved watertightness.
4. The method of claim 3,
Instead of the outdoor rail support installed in the second body, protrusions are formed on the outdoor side of the rail located on the outdoor side of the indoor rail and the indoor side of the outdoor side wall to face each other, so that the cover The drainage structure of the window frame with improved watertightness with the lower frame of the stepped structure, characterized in that both ends of the plate are mounted on the protruding sill and installed.
6. The method of claim 5,
Instead of the outdoor rail support installed in the first body, protrusions are formed on the outdoor side of the rail located on the outdoor side of the indoor rail and the indoor side of the outdoor side wall to face each other, so that the cover The drainage structure of the window frame with improved watertightness with the lower frame of the stepped structure, characterized in that both ends of the plate are mounted on the protruding sill and installed.

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