KR101312013B1 - Window frame and the construction method which using this - Google Patents

Abstract

The present invention relates to a window frame and a construction method using the same, the first engaging surface formed to be drawn toward the outer wall surface of the building wall from the inner wall surface of the building wall, and the inner wall surface from the outer wall surface having a height difference from the first coupling surface It has a stepped structure comprising a second coupling surface formed to be drawn toward the side, and a third coupling surface connecting one end of the first coupling surface toward the outer wall surface and one side end of the second coupling surface toward the inner wall surface It is installed in the coupling portion, and provided with a support provided with a guide rail to move the window frame on the inside, and a mounting portion having a shape corresponding to the shape of the coupling portion is formed on the outside of the support to be coupled to the coupling portion of the wall The mounting portion connects a first mounting surface mounted on the first coupling surface, a second mounting surface mounted on the second coupling surface, and one end of the first mounting surface and one side of the second mounting surface. 3 mating surface And a third mounting surface mounted.
According to the window frame according to the present invention, since the first mounting surface mounted toward the indoor side has a structure formed higher than the second mounting surface installed to face the outdoor side, noise blocking, windproof and heat insulation transmitted from the outdoor side to the indoor side It has an effect of preventing rainwater or wind from entering the interior side between the firewood part of the window frame and the coupling portion of the building wall where the window frame is installed.

Description

Window frame and the construction method which using this}

The present invention relates to a window frame and a construction method using the same, and more specifically, to a plurality of soundproof, windproof, heat-insulating action against noise or wind, etc., having a waterproof structure that can prevent rainwater from entering the room side. It relates to a frame of a window and a construction method using the same.

In general, the window frame is to support the window so that the window is mounted and opened and closed by sliding movement, it is divided into a single window or a double window according to the number of windows.

The window frame is applied to the majority of buildings in terms of cost reduction such as the efficiency of opening and closing space and the convenience of construction. In recent years, the size of the window is getting larger in order to secure a wider view.

As an example of a conventional window frame, a mohair is provided in the range which does not interfere with a sliding operation in the partition provided so that the rail of a window frame and the window frame contact part or rail to which glass can be fitted may be distinguished.

However, the conventional windows and doors frame has a problem that the portion coupled to the coupling surface of the partition wall is flat when installed on the partition wall of the building, the wind or rain water flows into the room through the coupling surface and the window frame. Even when the window frame is installed after applying the mortar to the mating surface, there is a problem that the mortar is contracted during the curing process and a space is formed between the mating surface and the window frame to allow wind or rainwater to flow.

The present invention is to solve the above problems, the windows and windows having a height difference so as to prevent rainwater or wind from entering the interior side between the window frame and the coupling portion of the building wall in which the window frame is installed, and has a thermal insulation sound insulation function. The purpose is to provide a frame.

The window frame according to the present invention for achieving the above object has a first engaging surface formed to be drawn toward the outer wall surface of the building wall from the inner wall surface of the building wall, the outer wall having a height difference from the first coupling surface A third coupling connecting a second coupling surface formed to be drawn from the surface toward the inner wall surface, and one side end of the first coupling surface facing the outer wall surface and one side end of the second coupling surface facing the inner wall surface; It is installed on the coupling portion having a stepped structure including a surface, the support portion provided with a guide rail to move the window frame therein, and formed on the outside of the support portion to be coupled to the coupling portion of the wall A mounting portion having a shape corresponding to that of the coupling portion, the mounting portion having a first mounting surface mounted on the first coupling surface and a second mounting surface mounted on the second coupling surface; And a third mounting surface connected to one side end of the first mounting surface and one side end of the second mounting surface and mounted to the third coupling surface.

The first mounting surface is mounted toward the inner wall surface of the coupling part, and the second mounting surface is mounted toward the outer wall surface of the coupling part, and the first mounting surface is higher than the second mounting surface. Is formed.

The mounting portion has an upper mounting portion provided with a first upper mounting surface and a second upper mounting surface respectively installed on the inner wall surface and the outer wall surface on the upper portion of the coupling portion, and the inner wall surface and the outer wall surface on the lower portion of the coupling portion. And a lower mounting part provided with a first lower mounting surface and a second lower mounting surface, respectively, which are installed toward each other. It is formed at a position lower than the second lower mounting surface.

The mounting portion has a plurality of inlet grooves formed toward the support portion to form a receiving space for the mortar is accommodated between the coupling surface and the mounting portion when the mortar applied to the coupling portion is coupled to the coupling portion is formed The inlet groove is provided with ribs protruding from the inside of the inlet groove toward the engagement surface to partition the receiving space.

The window frame construction method according to the present invention forms a coupling part including a first coupling surface, a second coupling surface and a third coupling surface on the wall so that the window frame can be inserted into the wall, the first coupling surface and the A coupling part forming step of forming the coupling part with a second coupling surface stepped, an application step of applying mortar to the coupling part to fix the window frame to the coupling part, and a first mounting surface of the window frame And mounting the window frame to the engaging portion such that the second mounting surface and the third mounting surface are mounted to the first coupling surface, the second coupling surface and the third coupling surface.

According to the window frame according to the present invention, since the first mounting surface mounted toward the indoor side has a structure formed higher than the second mounting surface installed to face the outdoor side, noise blocking, windproof and heat insulation transmitted from the outdoor side to the indoor side It has an effect of preventing rainwater or wind from entering the interior side between the firewood part of the window frame and the coupling portion of the building wall where the window frame is installed.

1 is a perspective view showing a window frame according to a first embodiment of the present invention,
2 is an exploded perspective view showing the window frame shown in FIG.
3 is a cross-sectional view showing the window frame shown in FIG.
4 is a cross-sectional view showing a window frame according to a second embodiment of the present invention,
5 is a cross-sectional view showing a window frame according to a third embodiment of the present invention,
6 is a block diagram schematically showing a window frame construction method according to the present invention,
7A is a cross-sectional view illustrating the forming of the coupling part illustrated in FIG. 5;
FIG. 7B is a cross-sectional view illustrating an application step shown in FIG. 5;
7C is a cross-sectional view showing the mounting step shown in FIG. 5,

Hereinafter, with reference to the accompanying drawings, it will be described in detail a window frame according to a preferred embodiment of the present invention.

1 to 7c show a window frame 2 according to the invention. 1 and 7C, the window frame 2 has a support part 100 on which the window frame 40 is movably mounted therein, and a building wall 1 which is formed on the outside of the support part 100 to be described later. It includes a mounting portion having a shape corresponding to the shape of the coupling portion 30 to be coupled to the coupling portion 30 of the.

The inner wall surface 10 and the outer wall surface 20 of the building wall 1 described below refer to a wall located on the indoor side and the outdoor side of the building.

The window frame 2 according to the present invention is installed at a coupling part 30 formed in a stepped shape in which part of the window frame 2 is formed to be open so as to install a window on the building wall 1 and includes at least two coupling surfaces.

Before describing the window frame 2 according to the present invention, the coupling portion 30 of the building wall 1 in which the window frame 2 is installed will be described.

The coupling part 30 includes a first coupling surface, a second coupling surface, and a third coupling surface.

The first coupling surface described below includes a first upper coupling surface 34a and a first lower coupling surface 35a to be described later, and the second coupling surface is a second upper coupling surface 34b and a second to be described later. A lower coupling surface 35b is included, and the third coupling surface includes a third upper coupling surface 34c and a third lower coupling surface 35c to be described later.

The first coupling surface is formed in a direction from the inner wall surface 10 of the building wall 1 toward the outer wall surface 20 and is formed on a plane orthogonal to the plane formed by the wall 1. The second coupling surface is formed in a direction from the outer wall surface 20 of the building wall 1 toward the inner wall surface 10 but is formed at different heights so as to have a height difference from the first coupling surface. The third coupling surface is a plane connecting one side end in the extending direction of the first coupling surface and one side end in the extending direction of the second coupling surface, as shown in the plane of the first coupling surface and the second coupling surface. It is formed on an orthogonal plane.

In this embodiment, the third coupling surface is shown on a plane parallel to the building wall 1, that is, a structure formed in a direction orthogonal to the plane formed by the first coupling surface and the second coupling surface, the building wall (1) It may also be formed on a plane inclined at an oblique angle to.

In this case, the contact area between the third lower mounting surface 223 and the third coupling surface of the mounting unit, which will be described later, becomes wider, thereby improving the installation stability of the window frame 2.

As shown, the coupling part 30 of the building wall 1 is divided into an upper coupling part 34, a lower coupling part 35, and a side coupling part 36.

The upper coupling part 34 is formed at an upper portion of the coupling part 30 and includes a first upper coupling surface 34a, a second upper coupling surface 34b, and a third upper coupling surface 34c. The lower coupling part 35 is formed below the coupling part 30 and includes a first lower coupling surface 35a, a second lower coupling surface 35b, and a third lower coupling surface 35c. The side coupling part 36 is formed between the upper coupling part 34 and the lower coupling part 35.

The upper coupling portion 34 and the lower coupling portion 35 divide the coupling portion 30 up and down for convenience of description, and the first upper coupling surface 34a and the first lower coupling surface 35a are the first coupling surface. The second upper coupling face 34b and the second lower coupling face 35b are included in the second coupling face, and the third upper coupling face 34c and the third lower coupling face 35c are also included in the third coupling face. It is included in the mating surface.

The first upper engaging surface 34a and the second upper engaging surface 34b are stepped by the third upper engaging surface 34c, and the first lower engaging surface 35a and the second lower engaging surface 35b are formed. In addition, it is formed stepped by the third lower coupling surface (35c).

The third upper coupling surface 34c extends downwardly from the first upper coupling surface 34a so that the second upper coupling surface 34b is formed at a position lower than the first upper coupling surface 34a, and the third lower coupling surface 34c is provided. The surface 35c extends downward from the first lower engaging surface 35a and is formed at a position higher than the second lower engaging surface 35b.

The support part includes a base 110, a guide rail 120, and a side wall 130.

The base 110 is a basic frame forming the window frame 2 and is formed in a rectangular shape with an empty inside. The base 110 connects both the ceiling part 111 disposed in the direction of the upper coupling part 34 and the bottom part 112 and the ceiling part 111 and the bottom part 112 disposed in the direction of the lower coupling part 35. It includes a vertical portion 113 to.

The guide rail 120 extends from the upper surface of the bottom portion 112 so that the roller 41 provided on the lower portion of the window frame 40 can slide in the longitudinal direction of the bottom portion 112. 41) is formed in a convex shape so as to be in close contact.

The side wall 130 extends upward from the bottom 112 at both ends in the width direction of the bottom 112, and the window when the roller 41 of the window frame 40 is separated from the guide rail 120. The window frame 40 is prevented from being separated from the frame 2.

The base 110 is formed to be inclined downward toward the outer wall surface 20 to allow natural drainage, and although not shown in the drawing, the side wall 130 and the guide rail 120 formed at one side in the direction of the outer wall surface 20 are formed. ) Is formed with a plurality of drain holes penetrating the left and right.

The mounting part includes an upper mounting part 210 and a lower mounting part 220, and the upper mounting part 210 includes a first upper mounting surface 211, a second upper mounting surface 212, and a third upper mounting surface 213 and And an upper extension part 214, and the lower mounting part 220 includes a first lower mounting surface 221, a second lower mounting surface 222, a third lower mounting surface 223, and a lower extension part 224. Include.

The upper extension part 214 extends upwardly from the ceiling part 111 by a first length and is spaced apart by a predetermined interval, and the first extension part 215 extends upwardly from the ceiling part 111 by a second length and is separated by a predetermined distance. It includes a second upper extension 216 spaced apart.

The first upper extension 215 and the second upper extension 216 have different lengths, and the length of the second upper extension 216 has a length longer than that of the first upper extension 215. .

The first upper mounting surface 211 is formed in a flat plate shape and is attached to the first upper coupling surface 34a of the building wall 1.

The second upper mounting surface 212 is formed in a flat plate shape by connecting the ends of the second upper extension portions 216, and is mounted on the second upper coupling surface 34b of the building wall 1.

The third upper mounting surface 213 connects the first upper mounting surface 211 and the second upper mounting surface 212 formed stepwise to form a flat plate shape and the third upper coupling surface of the building wall 1. It is attached to 34c.

The upper mounting portion 210 has a step shape that is lowered toward the outer wall surface 20 side from the inner wall surface 10 side.

The lower extension part 220 includes a first lower extension part 225 extending downward from the bottom part 112 by a first length, and a second lower extension part extending downward from the bottom part 112 by a second length. 226.

The first lower extension 225 and the second lower extension 226 have different lengths, and the length of the first lower extension 225 has a length longer than that of the second lower extension 226. .

The first lower mounting surface 221 is formed in a flat plate shape and is mounted on the first lower coupling surface 35a of the building wall 1.

The second lower mounting surface 222 is formed in a flat plate shape and is mounted on the second lower coupling surface 35b of the building wall 1.

The third lower mounting surface 223 connects the first lower mounting surface 221 and the second lower mounting surface 222 to be stepped to form a flat plate shape, and the third lower coupling surface of the building wall 1. It is attached to 35c.

The lower mounting portion 220 has a step shape that is lowered toward the outer wall surface 20 side from the inner wall surface 10 side to correspond to the upper mounting portion 210.

The mounting portion is to connect the upper mounting portion 210 and the lower mounting portion 220, as shown in Figure 2 side mounting portion (not shown) of the flat structure corresponding to the shape of the side coupling portion 36 of the coupling portion 30 ) May be combined, or the side mounting portion having a stepped structure corresponding to the upper mounting portion 210 may be combined. In this case, the side coupling portion 36 of the coupling portion 30 is formed in a shape corresponding to the shape of the side mounting portion.

In the mounting portion, when coupled to the coupling portion 30, an inlet groove 230 drawn toward the support portion is formed to receive a portion of the mortar 50 applied between the coupling portion 30 and the mounting portion.

Inlet groove 230 is provided with a rib 231 protruding from the inside toward the coupling portion 30 to partition the space in which the mortar 50 is accommodated. The rib 231 is hardened in the mortar 50 introduced into the inlet groove 230 by the weight of the window frame 2, and when the external force acts on the mounting portion, the rib 231 is supported by the mortar 50 so that the mounting portion is the coupling portion 30. It is prevented from being separated from, that is, pushed toward the outer wall surface 20 side.

As described above, according to the window frame 2 according to the present invention having a step shape lowering from the inner wall surface 10 side to the outer wall surface 20 side, the rainwater or the window frame 40 flowing through the outer wall surface 20. Rainwater flowing along the surface may flow through the space between the second upper mounting surface 212 and the second upper coupling surface 34b and the space between the second lower mounting surface 222 and the second lower coupling surface 35b. Although the first upper mounting surface 211 and the first lower mounting surface 221 are formed higher than the second upper mounting surface 212 and the second lower mounting surface 222, respectively, the rainwater is interspaced. Through it can be blocked to flow into the inner wall surface 10 side.

Meanwhile, referring to FIG. 4 as another embodiment of the mounting portion according to the present invention, the lower mounting portion 220 has a shape corresponding to that of the upper mounting portion 210 but increases from the inner wall surface 10 side toward the outer wall surface 20 side. The first lower mounting surface 221 may be formed at a lower position than the second lower mounting surface 222. In this case, the coupling portion 30 of the building wall 1 has a structure in which the second lower coupling surface 35b is higher than the first lower coupling surface 35a.

As shown in FIG. 4, in the case of the structure in which the size of the opening decreases from the inner wall surface 10 side to the outer wall surface 20 side as shown in FIG. In addition, the window frame 2 is easy to work simply by inserting the engaging portion 30.

On the other hand, the lower mounting portion 220 is lowered toward the inner wall surface 10 side from the outer wall surface 20 side structure is easy to inflow rainwater, but the window between the lower coupling portion 35 and the lower mounting portion 220 Although the mortar 50 is applied to fix the frame 2 to the engaging portion 30 and the mortar 50 is contracted during curing, the load between the lower coupling portion and the lower mounting portion 220 is applied by the load of the window frame 2. Since the space is sealed, substantially no rainwater flows in.

In addition, the lower coupling portion and the lower mounting portion may be formed to have a flat structure as shown in FIG.

Hereinafter, a construction method using a window frame according to the present invention will be described with reference to FIGS. 6 to 7C. 6 to 7C, the window frame construction method according to the present invention includes a coupling part forming step S1, an application step S2, and a mounting step S3.

Coupling part forming step (S1) has a shape corresponding to the shape of the window frame 2 so that the upper mounting portion 210 and the lower mounting portion 220 of the window frame 2 can be installed on the inner wall surface 10 side Forming the upper coupling portion 34 and the lower coupling portion 35 of the building wall (1) having a step structure lowering toward the outer wall surface 20 side, the foundation ground for forming the building wall (1) Go through reinforcement, reinforcement, formwork installation, mortar and curing.

Application step (S2) is a step of applying a mortar (50) to the surface of the lower coupling portion 35 to secure the window frame 2 according to the present invention to the coupling portion 30 formed stepped through curing. Positive mortar 50 is applied to the lower coupling portion 35. This step can be omitted if the building wall 1 is not a concrete structure.

Mounting step (S3) is a step of inserting the window frame 2 into the engaging portion 30, the upper mounting portion 210 and the lower mounting portion 220 of the window frame 2 is coupled to the upper coupling portion 30 Mounted in close contact with the portion 34 and the lower coupling portion 35, respectively.

After the mounting step (S4) it may include a step of sealing between the coupling portion 30 and the window frame 2 by injecting epoxy resin, urethane foam, etc. between the coupling portion 30 and the window frame (2). .

 Window frame according to the present invention as described above and the construction method using the same has been described with reference to one embodiment shown in the drawings, but this is only an example, those skilled in the art will be various It will be understood that other variations and equivalent embodiments are possible.

Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

1: building wall 2: window frame
10: inner wall surface 20: outer wall surface
30: coupling part 40: window frame
100: support 110: base
120: guide rail 200: mounting portion
210: upper mounting portion 220: lower mounting portion
230: recessed groove 231: rib
S1: binding formation step
S2: application step
S3: Mounting Step

Claims (5)

A first joining surface comprising a first upper joining surface and a first lower joining surface respectively formed at a predetermined depth from an inner wall surface of a building wall toward an outer wall surface of the building wall; and the first upper joining surface and the first upper joining surface; A second engaging surface comprising a second upper engaging surface and a second lower engaging surface each having a predetermined depth drawn from the outer wall surface at a position lower than each of the lower engaging surfaces toward the inner wall surface, and the first upper engaging surface And a third upper coupling surface for connecting the ends of the second upper coupling surface, and a third lower coupling surface for coupling the ends of the first lower coupling surface and the second lower coupling surface, respectively. In being installed in part,
A support part provided with a guide rail to which the window frame is movably mounted therein;
It is provided with a mounting portion formed in a shape corresponding to the shape of the coupling portion on the outside of the support portion to be coupled to the coupling portion of the wall,
The mounting part is formed on the support part, and the first upper mounting surface and the second upper mounting surface and the third upper coupling surface and the second upper coupling surface and the third upper coupling surface are respectively installed in close contact with each other. An upper mounting portion including an upper mounting surface, and a first lower mounting surface and a lower portion formed under the support portion and installed in close contact with the first lower coupling surface, the second lower coupling surface, and the third lower coupling surface, respectively. 2 having a lower mounting portion including a lower mounting surface and a third lower mounting surface,
The mounting portion has a plurality of inlet grooves that are directed toward the support portion to form a receiving space for the mortar is accommodated between the coupling surface and the mounting portion mortar applied to the coupling portion when coupled to the coupling portion, And a rib projecting from the inner side of the retracting groove toward the engagement surface to partition the accommodation space. delete delete delete delete

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