KR200387114Y1 - System for draining water condensed on window and door using induction block - Google Patents

Abstract

The present invention relates to a system for discharging the internal condensation water of a window using a guide block, in a window in which a gasket is interposed between the window glass and the window, at least one condensation having a pipe or tube shape at a predetermined portion in the longitudinal direction of the gasket. It provides a window characterized in that the induction block for water drainage is installed.

Description

System for draining water condensed on window and door using induction block}

The present invention relates to a condensation water drainage structure of the windows, and more particularly to a window and the window using an induction block for condensation water drainage in the form of a pipe or tube.

1 is a cross-sectional view showing a condensation water drainage structure of a conventional window, the conventional condensation water drainage method of the conventional window glass fixing member (Glazing Bead, GB) that is a member to maintain the airtight while fixing and supporting the window glass 50 Condensation water formed in the indoor side through a plurality of drain holes (11, 12, 21, 22) formed in the window frame 10 and the window 20 by forming a drain hole in the (30) and / or gasket (40) Is discharged to the outside.

Such a non-passage drainage method causes freezing inside the windows due to cold air entering through the external drainage, which may seriously affect the drainage capacity as time passes to the internal drainage.

Therefore, the object of the present invention is to discharge the condensation water generated on the glass surface inside the window to the outside through the ejection-only injection, that is, to form a buffer zone by the discharge through the dedicated passage, which is not directly affected by the external cold air. Do not drain is to provide a smooth window.

In order to achieve the above object, the present invention, in the window and the gasket is interposed between the window pane and the window, at least one condensate drainage induction block having a pipe or tube in a predetermined portion in the longitudinal direction of the gasket (Induction Block) is provided to provide a window characterized in that installed.

Induction block for condensation water drainage according to the present invention is an intermediate member disposed in the lower portion of the window glass; An inflow member disposed on a side of the window glass and an upper portion of the intermediate member and connected to one end of the intermediate member; A discharge member disposed below the intermediate member and connected to the other end of the intermediate member; And an insertion member protruding from the lower surface of the intermediate member and inserted into the window frame.

Induction block for condensation water drainage of the present invention effectively blocks the external cold air to increase the insulation effect, such as polyvinyl chloride (PVC), polyethylene (PE), polypropylene (PP), polystyrene (PS) It is preferable that it consists of a heat insulating material.

In addition, the length of the induction block for condensation water drainage of the present invention is preferably 20 to 30 mm. If the length of the induction block is too short, it is difficult to smoothly drain. On the contrary, if the length is too long, the drainage space is increased, so that the possibility of cold air is increased and the manufacturing cost is increased.

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

Figure 2 is a cross-sectional view showing the condensation water drainage structure of the window according to the present invention, a gasket is interposed between the window glass 50 and the window 70, having a pipe or tube shape in a predetermined portion in the longitudinal direction of the gasket At least one condensation water induction block 80 is installed. That is, the induction block 80 is inserted at a predetermined interval in the middle of the gasket.

In the present invention, the length of the guide block 80 is suitable to 20 to 30 mm, the number and spacing of the guide block 80 depends on the size of the windows and the number of dew condensation, for example, approximately 100 from both ends of the windows It can be installed at a position of about mm, and can be additionally installed if the windows are large. If the number of the induction blocks 80 is too large, it is disadvantageous for the heat insulation effect, so about 2 to 3 are suitable. In addition, as the material of the induction block 80 by using a heat insulating material of a synthetic resin material such as PVC, PE, PP, PS, to effectively block the external cold air to increase the heat insulation effect.

Referring to the condensation water drainage process according to the present invention, the condensation water formed inside the room is introduced into the A portion of the inlet along the arrow path shown in FIG. 2 to the portion B of the induction block 80 in the form of a pipe or tube. After passing through the portion C, which is the space between the window frame 60 and the window 70, the outlet portion D is discharged.

At this time, the induction block 80 has a long tube shape bent twice of the insulating material, so that the heat buffer zone (B) so as not to freeze the inner inlet (A) by the temperature of the outside air (D). This can induce smooth drainage and minimize the direct inflow of cold air.

2 only illustrates a casement window, the condensation water drainage structure using the induction block 80 according to the present invention is also applicable to other windows, such as US windows.

3 is a detailed view of the induction block 80 for condensation water drainage according to the present invention, the induction block 80 has a kind of pipe or tube structure that is hollow inside and wide in the longitudinal direction.

In detail, the induction block 80 is bent from both sides to the upper and lower sides of the middle member 81 disposed below the window glass 50 to form the inflow member 83 and the discharge member 82, respectively.

The inflow member 83 is disposed on the side of the window 50 and the upper portion of the middle member 81 to the upper end of the window 70, the intermediate member is connected to the one end of the intermediate member 81 and introduced into the condensate water. It serves to transfer to (81). As shown in FIG. 3, in some cases, the side contacting the window glass 50 of the inflow member 83 may be opened, and the presence or absence of the opening and the opening portion may be changed.

The discharge member 82 is disposed to the lower end of the window 70 in the lower portion of the intermediate member 81, is connected to the other end of the intermediate member 81 between the window frame 60 and the window 70 It discharges to part C which is space.

The insertion member 84 protrudes from the lower surface of the intermediate member 81 and is inserted into a recess formed in the window 70 to serve to couple the guide block 80 to the window 70.

The intermediate member 81, the discharge member 82, the inflow member 83 and the insertion member 84 are integrally formed through injection molding.

The present invention improves the problems of the conventional non-pathway icing and cold air inflow, thereby minimizing the inflow of cold air to the inside, thereby preventing damage to the interior interior (floor material / wallpaper) through the smooth condensation water drainage and providing a comfortable indoor environment. It is effective to provide.

1 is a cross-sectional view showing a condensation water drainage structure of a conventional window and door.

2 is a cross-sectional view showing the condensation water drainage structure of the window according to the present invention.

3 is a perspective view showing the drainage structure of the induction block for condensation water drainage according to the present invention.

<Description of the symbols for the main parts of the drawings>

10, 60: window frame 11, 12: window frame drain

20, 70: window 21, 22: window drain

30: glass fixing member 40: gasket

50: pane 80: induction block for condensation water drainage

81: intermediate member 82: discharge member

83: inflow member 84: insertion member

Claims (4)

In the window and the gasket interposed between the window pane and the window pane, Windows or doors characterized in that one or more induction block for condensate drainage having a pipe or tube in a predetermined portion in the longitudinal direction of the gasket. According to claim 1, The condensation water drainage induction block is an intermediate member disposed on the lower portion of the window glass; An inflow member disposed on a side of the window glass and an upper portion of the intermediate member and connected to one end of the intermediate member; A discharge member disposed below the intermediate member and connected to the other end of the intermediate member; And an insertion member protruding from the lower surface of the intermediate member and inserted into the window pair. The window and door according to claim 1 or 2, wherein the induction block for condensation water drainage is made of a heat insulating material made of synthetic resin. The window and door according to claim 3, wherein the condensation water drainage induction block has a length of 20 to 30 mm.