KR100573515B1 - Reinforce structure for window frame of building - Google Patents

Abstract

The present invention relates to a window frame structure of a building, and in particular, when the window frame installed in the opening of the building is installed on the bearing wall to prevent deformation of the window frame and the bearing member is buried in the wall so as to be in close contact with the window frame. The present invention relates to a reinforcement structure of an installed window frame.

The present invention provides an architectural window frame structure in which an opening is formed in an outer wall and a window frame and a window are provided in the opening.

A window frame 210 in which the protruding jaws 214 are formed at both sides of the frame 212 in the width direction in close contact with the opening so that the outer wall body 202 is positioned inside the protruding jaws 214;

The window frame 210 is a plurality of welds are installed in the center formed with the projection jaw 214 of the rectangular frame 212,

An insertion hole 220 formed in a cylindrical shape;

While inserted into the insertion hole 220 welded to the frame 212 of the window frame 210,

A horizontal plate 232 having a plurality of slit holes 233 formed in a rectangular panel,

It consists of a bearing member 230 that is welded to the vertical bar 234 through the horizontal plate 232, the joint portion is welded integrally manufactured.

Building, window frame, bearing

Description

Building window frame reinforcement structure {REINFORCE STRUCTURE FOR WINDOW FRAME OF BUILDING}

1 is a view showing a conventional building window frame structure.

Figure 2 is an exploded perspective view showing a window frame and a bearing member of the present invention.

Figure 3 is a perspective view of the window frame and the bearing member of the present invention.

Figure 4 is a cross-sectional view of the bearing member installed on the upper portion of the window frame of the present invention.

Figure 5 is a cross-sectional view showing a state in which the window frame and the bearing member of the present invention is fixed to the wall.

Figure 6 is a view showing a state in which the bearing member is installed on the upper, lower, left, right of the window frame of the present invention.

<Description of Symbols for Main Parts of Drawings>

200: building 202: outer wall

210: window frame 220: shovel hole

230: bearing member 232: horizontal plate

234: vertical rod

The present invention relates to a window frame structure of a building, and in particular, when the window frame installed in the opening of the building is installed on the bearing wall to prevent deformation of the window frame and the bearing member is buried in the wall so as to be in close contact with the window frame. The present invention relates to a reinforcement structure of an installed window frame.

In general, the building is equipped with a window system for ventilation and mining.

Most window systems have window frames installed in the openings of the building walls, and windows are installed to provide ventilation and light.

The window system has a structure in which the window frame 40 is fixed to the edge surface of the wall opening of the building 30 and the window 50 is installed inside the window frame 40.

However, as shown in FIG. 1, when a predetermined time elapses, a crack occurs around a wall on which most window frames 40 are installed.

That is, a crack is generated in a portion where the cement mortar layer is formed around the wall in which the window frame 40 is installed, such that water leakage occurs in a surface in which the concrete wall and the window frame are in close contact with each other.

In particular, the crack on the bearing wall constructed by pouring concrete of the building 30 immediately leads to the deformation of the window frame 40, and the deformation of the window frame 40 in opening and closing the window 50. It causes discomfort.

In view of the above, the present invention installs a load-bearing member for the upper, lower, left, and right sides of which the window frame of the building is installed so as to have a rigid structure after concrete pouring, as well as a cylindrical shovel on the outer circumference of the window frame. It is an object of the present invention to provide a reinforcement structure for building window frames configured to prevent deformation of the window frame by welding and installing the port to be combined with the vertical rod of the bearing member.

That is, the window frame is provided so that the protrusion jaw is formed on both sides of the frame width direction in close contact with the opening so that the outer wall body is located inside the protrusion jaw;

The window frame is installed a plurality of welded in the center of the protrusion jaw of the rectangular frame,

An insertion hole made in a cylindrical shape;

While inserted into the insertion hole welded to the frame of the window frame,

A horizontal plate formed of a rectangular panel with a plurality of slit holes,

There is provided a load-bearing member which is integrally manufactured by welding a vertical rod penetrating a horizontal plate and having a seam passing therethrough.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated with reference to an accompanying drawing.

Figure 2 is an exploded perspective view showing a window frame and a bearing member of the present invention, Figure 3 is a perspective view showing a window frame and a bearing member of the present invention, Figure 4 is a cross-sectional view of the bearing member is installed on the window frame of the present invention, Figure 5 is a cross-sectional view showing a state in which the window frame and the bearing member of the present invention is fixed to the wall, Figure 6 is a view showing a state in which the bearing member is installed on the upper, lower, left, right of the window frame of the present invention.

The building 200 has a window frame 210 installed in an opening formed in the outer wall body 202, and a load bearing member 230 having a vertical bar 234 welded vertically to the horizontal plate 232 in the window frame 210. ) Is positioned on the top, bottom, left and right.

That is, the load-bearing member 230 is positioned to be in close contact with the outer circumference of the window frame 210 installed in a rectangular shape so that the outer wall body 202 is embedded together in the formwork when concrete is poured.

The window frame 210 is provided with a projection jaw 214 on the outer side of the frame 212 in the outer circumferential width direction in which the window is inserted into the inside, while the window frame 210 is a projection jaw 214 is installed The outer wall body 202 is located inside.

That is, the window frame 210 has a protrusion jaw 214 is integrally formed on both sides of the rectangular frame 212 as shown in FIG. 2, and a plurality of insertion holes 220 are formed at the center of the window jaw 214. Is welded and installed.

The insertion hole 220 is provided in a plurality of cylindrical shape along the length in the center of the width direction of the frame 212.

That is, the insertion hole 220 is a cylindrical shape, the vertical rod 234 of the bearing member 230 embedded in the outer wall body 202 is inserted and supported, the insertion hole 220 is a frame of the window frame 210 Welded to 212.

The bearing member 230 is manufactured by welding a joint by a vertical rod 234 through a horizontal plate 232 made of a rectangular panel, and a plurality of slit holes 233 are formed in the horizontal plate 232. .

That is, the horizontal plate 232 is filled with concrete through the slit hole 233, the rubber material 237 of the same shape as the insertion hole 220 is in close contact with the vertical rod 234 The rubber material 237 is installed to be exposed to the outside of the formwork.

When the load bearing member 230 is located inside the formwork, the rubber member 237 is inserted into the vertical rod 234 at the end of the vertical rod 234 to prevent the concrete water from being discharged to the outside.

In addition, the load-bearing member 230 is located on the upper, lower, left, right of the window frame 210 as shown in Figure 6 will be natural to be installed to minimize the deformation of the window frame 210.

EXAMPLE

First, the reinforcing bar is installed and the formwork is installed inside and outside the outer wall body 202 is constructed, the load-bearing member 230 is fixed to the binding straps such as iron wire inside the formwork.

That is, concrete is poured into the inner and outer molds, where the bearing member 230 is fixed to the reinforcing bar by a binding strap (not shown in the drawing).

Next, the vertical bar 234 of the bearing member 230 is in close contact with the window frame 210 in a position suitable for the position protruding to the outside of the opening of the outer wall body 202.

That is, the vertical bar 234 of the load bearing member 230 protrudes to the outside of the opening, so that each insertion hole 220 is welded to the frame 212 of the window frame 210, and the insertion hole 220 is welded. Inserted into the vertical rod 234 is installed so that the window frame 210 maintains a rectangular shape.

In detail, FIGS. 2 to 5 illustrate a state in which the bearing member 230 is installed only on the upper portion of the window frame 210, which is a state in which the window frame 210 and the bearing member 230 are coupled to each other. In order to explain, in fact, as shown in Figure 6 the upper, lower, left, right bearing members 230 of the window frame 210 is installed and embedded together when the concrete is placed, the outer wall body 202 is constructed.

As described above, the load-bearing member 230 is made of the same metal material as the reinforcing bars in the formwork, and the window frame 210 and the insertion hole 220 are also made of the same material as welded to each other.

In addition, the vertical bar 234 of the load-bearing member 230 may use a deformed reinforcing bar that is arranged in the formwork.

In addition, the window frame 210 is generally installed in the lower portion of the lower horizontal frame, but when the load-bearing member 230 of the present application is installed, it is not necessary to use the tensile beam, which is the window frame 210 Although installed in a structure that supports the, the vertical rod 234 of the bearing member 230 and the insertion hole 220 welded to the outer periphery of the frame 212 of the window frame 210 is in close contact with each other to provide a support force, such as a pull-in beam. Because it can be generated.

In particular, when the crack occurs as shown in FIG. 1, when the cement mortar-treated plaster mortar layer is formed on the concrete outer wall, it may occur when precise curing is not achieved. As the crack on the outer wall, the plaster mortar layer is cracked.

In detail, the thickness of the outer wall suitable for the building is calculated during the initial design of the outer wall, and the reinforcing bar thickness and the reinforcement structure are designed accordingly. However, when the load bearing member 230 of the present application is inserted, the concrete and the reinforcing member and the bearing member 230 are installed. Precise attachment with concrete will minimize the cracks in the concrete wall.

The effects of the above-described configuration of the present invention will be described below.

The building window frame reinforcement structure of the present invention, by installing a load-bearing member around the reinforcing bar is installed in the upper, lower, left, right, where the window frame is installed, so as to have a rigid structure after concrete pouring, of course, the outer periphery of the window frame By installing the cylindrical insertion hole to be combined with the vertical rod of the bearing member, it is possible to obtain the effect of preventing the deformation of the window frame.

Thereby, the effect which can prevent the crack phenomenon which may generate | occur | produce in the outer wall which is a bearing wall can be obtained.

Claims (2)

In the building window frame reinforcement structure that the opening is formed in the outer wall body, the window frame and the window is installed in the opening, the steel is installed to be connected to the outside of the window frame to reinforce the outside of the window frame, Protruding jaws 214 are formed on both sides of the frame 212 in the width direction of the window frame 210 so as to be in close contact with the opening, and the outer wall body 202 is disposed inside the protruding jaws 214. The window frame 210 is installed by welding a plurality of insertion holes 220 made of a cylindrical shape in the center of the protrusion jaw 214 of the rectangular frame 212,  The vertical rod 232 constituting the load bearing member 230 is inserted into the insertion hole 220 welded to the frame 212 of the window frame 210, and the vertical rod 232 is a rectangular panel, and a plurality of slits are formed. The joint is welded through the horizontal plate 232 where the hole 233 is formed, and is integrally manufactured. The bearing member 230 has a rubber material 237 is in close contact with the lower portion of the vertical rod 234, the rubber material 237 is installed to expose the outside of the formwork reinforcement structure. delete

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