KR20140013556A - Outer wall for drain device - Google Patents

Abstract

The present invention is installed in order not to leave the water flow marks on the outer wall of the building, the back surface is a flat wall frame, the back surface is integrally coupled to the wall frame so as to be coupled in close contact with the wall flows flowing through the wall frame Drip frame to send rainwater to a point spaced apart from the outer wall, Backflow prevention frame that is integrally coupled to the dripframe frame and extends downward so that rainwater flowing through the dripframe frame is not scattered more than necessary, so as not to flow back by the wind, It relates to a rainwater drainage device for a building exterior wall, characterized in that formed integrally on the side of the wall frame and the drip tray frame comprises a dripping prevention plate to prevent rain falls to the side of the drip frame.

Description

Outer wall for drain device

The present invention relates to a storm drainage system, and more particularly, to a storm drainage system for building exterior walls that can prevent the formation of dirty marks, such as water flow marks on the outer wall of the building, roof railings and the like.

In general, windows are installed on the outer walls of residential buildings such as houses and commercial buildings such as shopping malls, and air ducts and air conditioners are also installed.

In such structures, when pollutants are accumulated and rainwater flows down, the structures are mixed with water, leaving traces of water flowing on the outer walls of the structures, thereby discoloring the exterior walls.

Especially, it is difficult to guide rainwater to one side in order to get rid of spilled marks due to the large area of the railings or windows on the roof, and it is difficult to do other prevention facilities. There was a problem that hurts the beauty.

In addition, the roof railing or the exterior wall of a building such as an apartment is periodically painted.If a dirty mark such as watermarks is formed on the roof railing or the exterior wall of the building, as described above, the paint is frequently painted to erase the trace. Since it has to be painted, it also contributed to the increase of administrative costs such as the increase in cost.

The present invention is to solve the problems as described above, when the rainwater flows down the place where the windows are formed on the roof of the roof or the outer wall of the building, or where the structure of the airkin outdoor unit or the ventilation fan is installed, contaminants such as green water It is intended to prevent the mixing of dirty water and leaving traces.

In order to achieve the above object of the present invention is installed so as not to leave the water flow marks on the outer wall of the building, the back surface is a flat wall frame so as to be in close contact with the wall, integrally coupled to the wall frame and horizontally A drip frame that extends the rainwater flowing through the wall frame to a point spaced apart from the outer wall, and integrally coupled to the dripframe and extended downward to prevent the rainwater flowing through the dripframe frame from scattering more than necessary. Provides an excellent drainage device for building exterior wall, characterized in that it is formed integrally with the side of the wall frame and the drip tray frame to prevent the rain fall prevention plate to prevent rain falls to the side of the drip frame. do.

In addition, it is installed so as not to leave the water flow marks on the outer wall of the building, the wall frame having a flat back surface coupled to the wall frame so as to be in close contact with the wall, the wall frame is extended to flow through the wall frame To the drip frame to send a point spaced apart from the outer wall, the backflow prevention frame is integrally coupled to the drip frame and extended downward so that the rainwater flowing through the drip frame does not scatter more than necessary, and does not flow back by the wind, the The main plate is provided so that the rainwater of the drip frame does not fall to the side while being bonded to the wall frame and the drip frame, and the one side of the inner surface is in close contact with the wall frame in the bonding process and the bottom is closely attached to the drip frame. Increase the adhesive strength and structural strength It provides a superior drainage system for the building outer wall, characterized in that formed, including drip prevention plate is formed Jikji plates.

In addition, a lower portion of the support plate is further formed on the drip tray frame is attached to the horizontal support plate is further formed to increase the adhesive strength and structural strength, the wall frame is a plurality of pins that can be fixed by pinning the outer wall of the building A hole is formed, and an elastic member having elasticity such as rubber is further formed on the upper rear surface of the wall frame so that the rainwater flowing through the outer wall does not leak between the wall frame and the wall when the rainwater flows into the wall frame.

As described above, according to the present invention, water flows on the outer wall of the building by installing the rooftop railing, under the window frame of the building, under the fan, under the air conditioner outdoor unit, and so that the polluted rainwater does not directly contact the exterior wall of the building. There is an effect that can be prevented from leaving dirty marks.

In addition, the rainwater drainage plate is provided with a rainwater drainage device separated from the one formed integrally, so that it can be selectively installed according to the state of the construction site, and a screw or concrete nail is installed on the outer wall to which the rainproof device cannot be bonded. By providing the convenience of the construction, by providing an elastic member on the back of the wall frame to prevent the rain water from seeping between the outer wall and the wall frame in advance.

1 is a perspective view of the rainwater drainage device according to the present invention installed on the outer wall of the building.
2 is a perspective view of the rainwater drainage device according to the present invention.
3 is a cross-sectional view of the rainwater drainage device according to the present invention installed on the outer wall of the building.
Figure 4 is a perspective view of the rainwater drainage device according to the present invention formed on the wall frame.
Figure 5 is a perspective view of the main portion of the rain fall prevention plate is separated in the rainwater drainage device according to the present invention.
Figure 6 is a perspective view of the main portion of the rain fall prevention plate is coupled to the rainwater drainage device according to the present invention.
Figure 7 is a perspective view of the main portion of the fall prevention plate formed with a vertical support plate is separated in the rainwater drainage device according to the present invention.
8 is a perspective view of an essential part of a state in which a fall prevention plate having a vertical support plate is coupled to the rainwater drainage device according to the present invention;
Figure 9 is a perspective view of the main portion of the rainwater preventing plate is formed in the vertical support plate and the horizontal support plate is separated in the rainwater drainage device according to the present invention.
Figure 10 is a perspective view of the main portion of the rainwater prevention plate combined with the vertical support plate and the horizontal support plate in the rainwater drainage device according to the present invention.

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

As shown in Figures 1 to 6, a plurality of windows are formed on the outer wall of the building, in order to form a window, an open space must be formed on the outer wall, and the step is formed when the space is formed. In contrast to the outer wall, the windows gather foreign matters, and if the rainwater flows repeatedly, the water flow marks remain on the outer wall under the window.

Therefore, the rainwater drainage device 100 is installed below the step. Rainwater drainage device is provided with a wall frame 110 having a flat back surface to be coupled to the wall. The length of the wall frame 110 is set in view of the width of the window, so that the rain water flowing down from the window frame 5 to 10cm longer than the width of the window does not escape the wall frame 110.

The width of the wall frame 110 is 3 ~ 5cm to have a significant adhesive strength when bonding to the outer wall. The width of the wall frame 110 may be selectively designed according to the needs of the user because the width of the wall frame 110 may be smaller or larger than this. The wall frame 110 has a thickness of about 1 to 3 mm and thus does not need to be thicker than necessary because structural strength is not greatly required.

The wall frame 110 may be bonded by applying an adhesive when bonding to the outer wall, to form a plurality of pin holes 112 in the wall frame 110, and put a pin (pin) such as screws or concrete nails therein It can also be attached to the outer wall.

In addition, on the back of the wall frame 110, when the wall frame is coupled to the building outer wall is formed elastic member 114, such as a rubber that maintains the watertight so that rain water does not penetrate between the outer wall and the wall frame 110. . The elastic member 114 may be formed by thinly processing a material such as rubber or soft silicone, or may be formed by adding a paper or synthetic resin film which is not decomposed to water.

The front end of the wall frame 110 is integrally combined with the wall frame and extends horizontally to form a drip frame 120 that sends the rainwater flowing through the wall frame to a point spaced a certain distance from the outer wall with a width of 3 ~ 5cm.

The drip tray frame 120 may be formed at right angles with the wall frame 110, but may form an obtuse angle at 90 to 110 ° to allow rainwater to flow down without remaining in the drip frame. If the rain water is left, the dust may easily stick due to the viscosity, and when the rain water falls from the wall frame, it may be splashed and scattered away.

The front end of the drip frame 120 is integrally coupled to the drip frame 120 and extends downward to form a backflow prevention frame 130 to prevent the rainwater flowing through the drip frame 120 to flow back. The backflow prevention frame 130 has a width of about 1 to 2 cm to prevent flow of the inside of the drip tray frame 120 due to the viscosity of the water when the rain falls past the drip frame 120.

The wall frame 110 and the drip tray frame 120 is formed integrally with the fall prevention plate 140 is formed so that rain water falling on the drip frame 120 does not fall to the side.

As shown in Figure 2, the fall prevention plate 140 is a fan-shaped behavior to prevent the rain water falling on the drip frame 120 flows on both sides because it can flow through the outer wall.

The fall prevention plate 140 may be integrally formed when the wall frame 110 and the drip tray frame 120 are formed, but as shown in FIG. 3, the fall prevention plate 140 may be separately formed and bonded at a construction site.

Since the size of the window or the state of the part where the storm drainage device 100 is installed may not be standardized, the storm drainage device can be manufactured for 3 ~ 5m or longer without falling down prevention plate and can be cut and used as needed in the construction site. It would be.

7 and 8, the detachable fall prevention plate 140 is bonded to the main plate 142 having a fan-shaped shape, which is designed so that the edges are closely matched to the sides of the wall frame and the drip frame. Although weakened, a vertical catching plate 144 is formed so that a part may be in close contact with the front surface of the wall frame 110 and also span the upper surface of the drip tray frame 120.

The vertical catching plate 144 is formed inward from the rear end of the main plate 142 by about 1 to 3 mm, which is considering the thickness of the wall frame 110 and the width of the main plate 142 at the rear of the vertical catching plate 144. The wall frame 110 is made to match the thickness so that it is smoothly matched without a part protruding outside the wall frame 110 when bonded.

As illustrated in FIGS. 9 and 10, the fall prevention plate 140 includes a horizontal locking plate 146 as well as a vertical locking plate 144. The horizontal catching plate 146 is for increasing the adhesive strength and structural stability, and is formed horizontally on the lower part of the main plate 142, and the drip tray frame so that an extra main plate 142 is left below the horizontal catching plate 146. The main plate 142 of the portion left when it is put on and bonded to the 120 to perform the same function as the backflow prevention of rainwater, that is, the backflow prevention frame 130.

Referring to the operational state of the storm water drainage device for the building exterior wall configured as described above are as follows.

Rainwater drainage device 100 is installed on the outer wall under the stepped window formed of the building at the construction site. Apply adhesive to the wall frame 110 of the rainwater drainage device to firmly adhere under the step. If the outer wall is not smooth, plastering or sanding before combining the rainwater drainage device 110, simply finished the flattening work and then firmly adhered to the outer wall.

In the case of the standardized window, the rainwater drainage device 140 formed integrally with the water fall prevention plate 140 on the side of the wall frame 110 and the drip tray frame 120 designed to fit the length is not standardized or has a length. If you want to install it on an unspecified place (outer wall where rain water flows down or may cause water flow marks), cut the rainwater drainage device without the drop plate 140 at the site and glue it to the outer wall to prevent falling water. Plate 140 is bonded to both sides by bonding.

When it is difficult to adhere the drip tray frame 120 to the outer wall can be coupled to the pin hole 112 by pins such as screws or concrete nails.

 As such, when the rainwater drainage device 100 is installed and rains, rainwater flows down the outer wall of the building and at the same time, pollutants in the window frame are mixed in the rainwater and flow down together.

Rainwater flowing through the step of the window frame falls down the wall frame 110 to the ground via the drip tray frame 120. In other words, the rainwater, which is polluted with contaminants, does not come into contact with the outer wall without falling down from the outer wall without flowing down the outer wall.

Rain water that flowed along the drip frame 120 may flow back through the bottom of the drip frame 120 when the wind blows, but may partially flow to the outer wall, but the back flow is prevented by the backflow prevention frame 130, and the drip frame 120 Rainwater may flow to both sides of the outer wall but the fall prevention plate 140 is blocked, so falling down to the side is also prevented.

Where the rainwater prevention device 100 is installed as described above, since rainwater in which pollutants are mixed is not directly contacted with the outer wall of the building, the rainwater falls down and is managed cleanly without making water flow marks on the outer wall of the building even after a long time.

100: storm drainage device 110: wall frame
120: drip frame 130: backflow prevention frame
140: Fall prevention plate

Claims (5)

In being installed so that water trace does not leave the outer wall of the building,
A wall frame 110 having a flat back surface so as to be in close contact with the wall surface;
A drip frame 120 that is integrally coupled to the wall frame and extends horizontally to send rainwater flowing through the wall frame to a point spaced apart from the outer wall by a predetermined distance;
A backflow prevention frame 130 which is integrally coupled to the drip tray frame and is extended downward to prevent the storm flow flowing through the drip frame without being scattered more than necessary;
A fall prevention plate 140 formed integrally with the side of the wall frame and the drip tray frame such that rainwater does not fall to the side of the drip frame;
Excellent drainage device for a building outer wall, characterized in that made.
In being installed so that water trace does not leave the outer wall of the building,
A wall frame 110 having a flat back surface so as to be in close contact with the wall surface;
A drip frame 120 that is integrally coupled to the wall frame and extends horizontally to send rainwater flowing through the wall frame to a point spaced apart from the outer wall by a predetermined distance;
A backflow prevention frame 130 which is integrally coupled to the drip tray frame and is extended downward to prevent the storm flow flowing through the drip frame without being scattered more than necessary;
The main frame 142 having a flat plate shape is provided on the wall frame and the drip tray frame so that the rainwater frame does not fall to the side while being adhered to the wall frame. A fall prevention plate formed in a vertical support plate 144 to be in close contact with each other to increase adhesion strength and structural strength;
Excellent drainage device for a building outer wall, characterized in that made.
3. The method of claim 2,
The lower portion of the main plate 142 is attached to the drip tray frame is attached to the drainage excellent drainage for building exterior wall characterized in that the horizontal support plate 146 is further formed to increase the adhesive strength and structural strength.
3. The method according to claim 1 or 2,
The wall frame is an excellent drainage device for building exterior wall, characterized in that a plurality of pin holes 112 that can be fixed by driving a pin on the outer wall of the building.
3. The method according to claim 1 or 2,
The rainwater drainage for building exterior walls further includes an elastic member 114 having elasticity, such as rubber, formed on the upper rear surface of the wall frame so that the rainwater flowing through the outer wall is not leaked between the wall frame and the wall when it flows into the wall frame. Device.

Images