KR20170019586A

KR20170019586A - Drainage structure of slim sliding window

Info

Publication number: KR20170019586A
Application number: KR1020150113576A
Authority: KR
Inventors: 김영삼
Original assignee: (주)엘지하우시스
Priority date: 2015-08-12
Filing date: 2015-08-12
Publication date: 2017-02-22
Also published as: KR102053478B1

Abstract

The present invention relates to a drainage structure of a slim sliding window, which can improve its water tightness, comprising: a window frame fixedly installed in an opening of a wall; a window which is provided on the window frame to be opened and closed and supports a windowpane; an upper frame extending horizontally on one side of the window; and a lower frame installed between the upper frame and the window frame, and a drainage passage for discharging inflow water introduced from the outside is formed between the upper frame and the lower frame.

Description

[0001] DRAINAGE STRUCTURE OF SLIM SLIDING WINDOW [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drainage structure of a slim sliding window, and more particularly, to a drainage structure of a slim sliding window for improving the watertightness by improving the drainage structure for increasing water level.

A window is a window or a door to be installed in an opening such as an entrance to block the inside of a building from the outside.

At this time, the window frame supporting the window or the door was generally made of wood or metal in the past, but recently it is also made of synthetic resin such as PVC.

Such windows may be classified into a hinged or sliding type or a fixed type according to the opening and closing method.

The window can be divided into a window, a double window, and a triple window according to the number of windows (or doors) installed on one window frame. The window can be divided into a single window window, a double window window and a triple window window according to the number of glass .

At this time, the double-layered glass window can improve the heat insulation and sound insulation performance by injecting an inert gas or forming a space layer between the two single-pane glass, and the triple glass window can be formed by injecting an inert gas between three single- As a result, the heat insulation and the sound insulation performance can be further improved.

In this window, the window is opened in such a manner that the handle provided on one side of the indoor side is gripped and slid in the closing direction, so that the roller mounted on the lower end of the window is rotated along the rail on the window frame frame, And is finally closed by touching the window frame frame and stopping.

On the other hand, as the window is slid in the opened direction by grasping the handle provided on one side of the indoor side in the closed state, the roller mounted on the lower end of the window is rotated along the rail on the window frame frame, It is gradually opened and separated.

1, a conventional slim sliding window 1 has a rectangular frame shape and is fixed to a wall (not shown) and includes a window frame 10 including a rail 12; And a window 20 having a roller assembly 24 for moving along the rail 12 and supporting the glass 22.

Here, the glass 22 of the window pane 20 is closely fixed to the gasket 30, and the window pane frame 10 and the window pane 20 are provided with the heat insulating materials 40.

The conventional slim sliding window 1 can increase the heat insulation and heat dissipation effect by providing the gasket 30 and the heat insulating material 40. However, as indicated by the leader line, There has been a problem of flowing backward to the room along the window frame frame 10.

In order to solve this problem, a drainage duct for transmitting the inflow water discharged from the window to the drain hole of the window frame is formed as disclosed in Korean Patent No. 10-1211867 (Dec. 13, 2012, Dec. 13) There is a problem that the inflow water often flows back into the room along the window frame frame.

For the above reasons, in the related art, attempts have been made to develop a slim sliding window that can stably block inflow water from entering the room, but so far, satisfactory results have not been obtained.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to improve the drainage structure for increasing the water level of the slim sliding window so that inflow water introduced from the outside is intrinsically blocked, The object of the present invention is to provide a drainage structure of a slim sliding window.

Another object of the present invention is to provide a drain structure of a slim sliding window in which drainage of inflow water can be smoothly performed through simple modification of a gasket in a drainage structure.

According to an aspect of the present invention, there is provided a drain structure of a slim sliding window including: a window frame frame fixedly installed at an opening of a wall; A windowpane that is openably and closably provided on the window frame frame and supports the glass; An upper frame extending horizontally on one side of the windowpane; And a lower frame installed between the upper frame and the window frame frame, and a drainage channel is formed between the upper frame and the lower frame for discharging inflow water from the outside.

The upper frame includes first and second gaskets for closely supporting the windowpane.

And the second gasket has an induction protrusion for guiding the inflow water to fall down to the lower frame.

The drainage passage has an insulation intermediate member connected to the upper frame and the lower frame.

The heat insulating medium member has at least one first drain hole facing each other.

The drainage passage has a second drain hole extending from one side of the lower frame to the outside.

The drainage structure of the slim sliding window according to the present invention is characterized in that a drainage passage is formed between the upper frame and the lower frame so that not only the storage space of the drainage can be raised but also the drainage of the influent water can be induced As a result, inflow of inflow water to the inside of the room can be blocked, and water tightness can be enhanced.

1 is a sectional view for explaining the structure of a conventional slim sliding window
2 is a sectional view for explaining a structure of a slim sliding window to which a drain structure of a slim sliding window according to the present invention is applied
3 is an exemplary view for explaining a drainage in a slim sliding window to which a drainage structure of a slim sliding window according to the present invention is applied

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

2, the slim sliding window 100 to which the drain structure of the slim sliding window according to the present invention is applied includes a window frame 110, a window 120, an upper frame 130, a lower frame 130, 150).

The window frame 110 is fixed to an opening of a wall surface (not shown in the drawing).

The window frame 110 may be formed of a metal such as aluminum or a synthetic resin such as PVC or the like and may be formed by assembling a plurality of profiles manufactured by an extrusion molding method into a rectangular shape.

Since the durability of the window frame 110 can be increased by increasing the installation width of the window frame 110, it is possible to enlarge the area and thickness of the glass 122 fixedly installed inside the window 120, The heat insulating material 112 can be installed, and the heat insulating material 114 can be further installed in the space above the heat insulating material 112, thereby improving the heat insulating performance.

Needless to say, the window frame 110 is formed with the rails 116 on the upper surface thereof.

The rail 116 is formed on the upper surface of the window frame 110 so that the window 120 is slid smoothly on the window frame 110 by the rail 116.

The window 120 is openably and closably provided on the window frame 110 and supports the glass 122.

The glass 122 according to the illustrated embodiment is a triple glass 122 that separates three pieces of single-piece glass 122 and then injects an inert gas into the space therebetween or forms a space layer.

At this time, the sealing member 123 may be installed on the lower end of the glass 122.

The airtightness and water tightness between the glass 122 and the window pane 120 can be enhanced by the sealing member 123 by providing the sealing member 123 at the lower end of the glass pane 122.

The window 120 may include a heat insulating material 124 having the same shape as the heat insulating material 114 installed in the window frame 110 in the inner space.

Since the window pane 120 includes the heat insulating material 124, the heat insulating property of the window pane 120 can be improved by the heat insulating material 124.

Needless to say, the window assembly 120 includes the roller assembly 125 at the lower end thereof.

The window assembly 120 is provided with the roller assembly 125 so that sliding of the window assembly 120 in the window frame 110 is smooth by the engagement of the rail 116 and the roller assembly 125.

The upper frame 130 is horizontally extended to one side of the window 120.

The upper frame 130 may be formed of the same material as the window frame 110 and the window 120.

The upper frame 130 is formed of the same material as the window frame 110 and the window 120 so that the upper frame 130, the window frame 110 and the window pane 120 have a sense of unity do.

Further, the upper frame 130 is preferably formed in the form of a cover of "┏".

Since the upper frame 130 is formed in the form of a lid of "┏", the top and the front opening of the lower frame 150 disposed below the upper frame 130 are blocked by its morphological characteristics, And deterioration of the aesthetics due to frontal opening is prevented.

The upper frame 130 may include first and second gaskets 160 and 170 formed of rubber or urethane.

Since the upper frame 130 includes the first and second gaskets 160 and 170 so that the gap between the upper frame 130 and the windowpane 120 is reduced by the first and second gaskets 160 and 170 It becomes tight.

The first gasket 160 is inserted in the upper end of the upper frame 130 along the longitudinal direction and is in close contact with the window 120. The second gasket 170 is attached to the first gasket 160, And is tightly fitted to the windowpane 120. The windowpane 120 is fixed to the windowpane 120 in a direction perpendicular to the longitudinal direction.

The first and second gaskets 160 and 170 are in close contact with the window 120 so that the inflow water can be prevented from flowing through the upper and lower portions between the upper frame 130 and the windowpane 120 have.

Here, the second gasket 170 may include an induction protrusion 172.

The second gasket 170 is provided with the guide protrusion 172 so that the inflow water flowing downward in contact with the first gasket 160 by induction of the guide protrusion 172 is guided toward the lower frame 150 side You can head.

At this time, the guide protrusion 172 is formed integrally with the second gasket 170 when the mold is formed, and is formed in a curved shape gradually gently downward, so that the flow is guided by the guide protrusion 172, The inflow water can be directed toward the lower frame 150 side.

The lower frame 150 is installed between the upper frame 130 and the window frame 110.

The lower frame 150 may be integrally formed on the upper surface of the window frame 110 and may be fastened to the lower side of the upper frame 130.

Meanwhile, a drainage passage is formed in the upper frame 130 and the lower frame 150 to block the inflow of the inflow water flowing downward through the first gasket 160 into the room.

Here, the position and the number of drainage passages formed in the drainage passage are not limited, and the process of discharging the external influent water for illustrative purposes is indicated by a dotted line in FIG.

The drainage passage includes an insulating medium member 140 connected to the upper frame 130 and the lower frame 150.

At this time, the heat insulating medium member 140 has an upper end coupled to the upper frame 130, a lower end inserted into the lower frame 150 through a hook, and an extension 142 formed on one side thereof, And is closely attached to the gasket (170).

At least one or more first drain holes 144 may be formed on the lower side of the heat insulating medium member 140.

The first drain hole 144 is formed in the heat insulating medium member 140 so that the inflow water inflow to the inside of the heat insulating mediator 140 and the outside of the inflow water flowing into the heat insulating mediator 140 Emissions are possible.

On the other hand, the drainage passage has at least one second drainage hole 152 communicating with the outside at one side thereof.

Since the drainage passage has the second drainage hole 152 on one side, the influent water inside the drainage passage can be smoothly discharged to the outside through the second drainage hole 152.

The draining operation in the slim sliding window 100 to which the drain structure of the slim sliding window according to the present invention is applied will be described in detail as follows.

As shown in FIG. 3, the inflow water such as rainwater is blocked by the first gasket 160 between the window 120 and the upper frame 130, and flows down to the lower part So that inflow of the inflow water into the space between the window pane 120 and the upper frame 130 is blocked.

The inflow water flowing into the lower portion of the first gasket 160 is blocked by the second gasket 170 on the lower side of the first gasket 160, So that inflow of the inflow water into the space between the windowpane 120 and the lower frame 150 is more stably intercepted.

The inflow water that is blocked by the second gasket 170 to flow down to the lower side is guided by the induction protrusion 172 provided in the second gasket 170, To the upper surface of the extended portion 142 extending from the lower surface of the base plate.

In this case, the heat insulating medium member 140 of the present invention has the first drain hole 144, and the inflow water, which is separated from the upper surface of the extension part 142, passes through the first drain hole 144, The flow of the inflow water between the upper frame 130 and the lower frame 150 is blocked because the fluid flows toward the front side of the frame 150.

The window frame 110 of the present invention includes the heat insulating material 114 and the inflow water flowing toward the lower frame 150 and the window frame 110 moves along the heat insulating material 114.

And the second drain hole 152 communicating with the outside is provided between the upper frame 130 and the lower frame 150 of the present invention. The influent water moved along the heat insulating material 114 flows into the lower frame 150, 2 drain hole 152, so that inflow of the inflow water into the space between the lower frame 150 and the window frame 110 is blocked.

As described above, the drainage structure of the slim sliding window according to the present invention is characterized in that the drainage passage is formed between the upper frame 130 and the lower frame 150, And it is possible to induce the discharge of the inflow water, so that inflow of the inflow water to the inside of the room can be cut off, thereby increasing water tightness.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the appended claims. Of the present invention.

100: slim sliding window 110: window frame frame
112, 114, 124: insulation material 116: rail
120: window 122: glass
130: upper frame 140: insulating medium member
142: extension part 144: first drainage hole
150: lower frame 152: second drain hole
160: first gasket 170: second gasket
172: guiding projection

Claims

A window frame frame fixedly installed in an opening of a wall;
A windowpane that is openably and closably provided on the window frame frame and supports the glass;
An upper frame extending horizontally on one side of the windowpane;
And a lower frame installed between the upper frame and the window frame,
Wherein a drainage channel is formed between the upper frame and the lower frame for discharging inflow water introduced from the outside.

The method according to claim 1,
Wherein the upper frame includes first and second gaskets for closely supporting the windowpane.

3. The method of claim 2,
And the second gasket has an induction projection for guiding the inflow water to fall on the lower frame on the lower side.

The method according to claim 1,
Wherein the drainage flow path includes an insulation intermediate member connected to the upper frame and the lower frame.

5. The method of claim 4,
Wherein the heat insulating medium member has at least one first drain hole facing each other.

The method according to claim 1,
Wherein the drainage passage has a second drain hole leading from one side of the lower frame to the outside.