KR102551806B1 - Window Bracket - Google Patents

Abstract

The present invention relates to a window bracket comprising an upper plate portion and a side plate portion coupled to the lower portion of a window and the inner surface of a wall, respectively, and more particularly, the facing surface of the non-slip washer fixing the fastening means at the upper plate portion and the lower portion of the upper plate portion It is about a window bracket with excellent insulation performance while firmly fixing to a window frame by forming a rough surface to prevent slip.
The present invention is made of synthetic resin to support a window installed in an opening of a wall, coupled to the lower part of the window to support the window, a long first fastening hole is formed in the thickness direction of the window, and the first fastening hole on the bottom is formed. An upper plate on which a first rough surface, which is a rough surface, is formed on both sides of one fastening hole, in which a plurality of fine protrusions in the shape of a quadrangular truncated cone are continuously arranged to connect to each other in two directions; a side plate provided under the upper plate and fixed to the inner surface of the wall and having anchor bolt holes; And by being in close contact with the bottom surface of the first fastening hole of the upper plate to fix the fastening means fastened to the first fastening hole, the fine groove formed in a shape corresponding to the fine protrusion on the entire surface of the upper surface and engaging the fine protrusion is in two directions. A non-slip washer having a second rough surface, which is a rough surface continuously arranged to be in contact with each other; consists of

Description

Window Bracket {Window Bracket}

The present invention relates to a window bracket comprising an upper plate portion and a side plate portion coupled to the lower portion of a window and the inner surface of a wall, respectively, and more particularly, the facing surface of the non-slip washer fixing the fastening means at the upper plate portion and the lower portion of the upper plate portion It is about a window bracket with excellent insulation performance while firmly fixing to a window frame by forming a rough surface to prevent slip.

As expansion of balconies in multi-unit dwellings has become commonplace and demand for energy saving has increased, the thickness and weight of windows tend to increase.

However, in general, the thickness of the window is made thicker than the thickness of the balcony wall. Therefore, in order to install a window in the opening of the balcony wall, a separate window bracket is installed on the wall to support the window.

Since these window brackets must support heavy windows, they are manufactured to have sufficient rigidity. In addition, since the balcony window has a large area, it must be constructed with a structure that can sufficiently resist wind load. In particular, recently, as the thickness of the insulation installed inside the balcony wall becomes thicker, the windows move inward, and accordingly, the protruding length of the windows increases, so that the load burden of the window brackets supporting them gradually increases.

Conventional window brackets disclosed in Patent No. 10-0899787 are configured such that the vertical part is fixed to the wall and the horizontal part supports the lower part of the window by bending the steel plate in a T shape or L shape, and the horizontal part is attached to a fastening means such as a rivet to the window frame fixed by

However, the fastening hole formed in the horizontal portion to fasten the fastening means is formed as a long hole along the longitudinal direction of the horizontal portion to absorb window construction errors. Accordingly, there is a problem in that slip occurs between the junction between the window frame and the window bracket when a wind load or the like is applied.

On the other hand, since the balcony windows directly face the outside air, insulation performance is very important. However, even if the windows and doors themselves have excellent insulation performance, since the window brackets for fixing the windows and doors are usually made of steel plates, the window brackets become a thermal bridge, resulting in increased energy consumption and the occurrence of condensation.

In order to solve the above problems, an object of the present invention is to provide a window bracket that has excellent insulation performance and can block thermal bridge through the bracket.

An object of the present invention is to provide a window bracket that can be firmly fixed to a window frame and without slip.

The present invention according to a preferred embodiment is made of synthetic resin to support a window installed in an opening of a wall, is coupled to the lower part of the window to support the window, and a first fastening hole is formed in the thickness direction of the window, An upper plate having a first rough surface, which is a rough surface, in which a plurality of fine protrusions having a quadrangular truncated shape are continuously disposed on both sides of the first fastening hole on the bottom surface to connect to each other in two directions; a side plate provided under the upper plate and fixed to the inner surface of the wall and having anchor bolt holes; And by being in close contact with the bottom surface of the first fastening hole of the upper plate to fix the fastening means fastened to the first fastening hole, the fine groove formed in a shape corresponding to the fine protrusion on the entire surface of the upper surface and engaging the fine protrusion is in two directions. A non-slip washer having a second rough surface, which is a rough surface continuously arranged to be in contact with each other; It provides a window bracket, characterized in that consisting of.

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The present invention according to another preferred embodiment provides a window bracket characterized in that a plurality of rows of air pocket grooves are formed on the upper surface of the upper plate portion.

The present invention according to another preferred embodiment provides a window bracket, characterized in that a reinforcing rib is integrally formed between the upper plate and the side plate on the indoor side.

The present invention according to another preferred embodiment provides a window bracket, characterized in that the inside of the reinforcing rib is reinforced with a fiber reinforcing material.

The present invention according to another preferred embodiment is provided with a wedge plate having anchor bolt holes vertically long on the outer side of the side plate, a third rough surface is formed on the outer surface of the side plate, and one side of the wedge plate has the above It provides a window bracket characterized in that the fourth rough surface is formed in close contact with the third rough surface.

According to the present invention, there are the following effects.

First, the surface facing the non-slip washer for fixing the fastening means fastened to the first fastening hole by being in close contact with the bottom surface of the first fastening hole formed long in the thickness direction of the upper plate part and the upper plate part supporting the window at the bottom is rough. surface), it is possible to provide a window bracket that can be firmly fixed to the window frame by preventing slip due to frictional force between rough surfaces.

Second, by configuring the window bracket with a synthetic resin, it is possible to provide a window bracket with improved insulation performance and anti-condensation effect by minimizing heat conduction through the bracket.

1 is a bottom perspective view showing an embodiment of the window bracket of the present invention.
Figure 2 is a bottom perspective view showing another embodiment of the window bracket of the present invention.
Figure 3 is a perspective view showing a non-slip washer.
Figure 4 is a cross-sectional view showing a window fixing state by the window bracket of the present invention.
5 is a bottom perspective view showing a coupling relationship between a first rough surface and a second rough surface;
6 is a perspective view showing a coupling relationship between a first rough surface and a second rough surface;
Figure 7 is a perspective view showing an upper plate portion in which air pocket grooves are formed.
8 is a perspective view showing a side plate portion in which an air pocket groove is formed.
9 is a perspective view showing a wedge plate;
Figure 10 is a cross-sectional view showing a window fixing state according to the present invention when the wedge plate is provided.

Hereinafter, the present invention will be described in detail according to the accompanying drawings and preferred embodiments.

1 is a bottom perspective view showing an embodiment of the window bracket of the present invention, and FIG. 2 is a bottom perspective view showing another embodiment of the window bracket of the present invention. And Figure 3 is a perspective view showing a non-slip washer, Figure 4 is a cross-sectional view showing a window fixing state by the window bracket of the present invention.

1 to 4, etc., the window bracket of the present invention is made of synthetic resin to support the window 3 installed in the opening of the wall 1, and is coupled to the lower part of the window 3 to ), a long first fastening hole 211 is formed in the thickness direction of the window 3, and a plurality of fine protrusions P having a quadrangular truncated pyramid shape on both sides of the first fastening hole 211 on the bottom surface an upper plate portion 21 having a first rough surface 212, which is a rough surface continuously disposed so as to be connected to each other in two directions; A side plate 22 provided under the upper plate 21 and fixed to the inner surface of the wall 1 and having anchor bolt holes 221 formed therein; And by fixing the fastening means 23 fastened to the first fastening hole 211 by being in close contact with the bottom surface of the first fastening hole 211 of the upper plate 21, corresponding to the fine protrusions P on the entire upper surface. a non-slip washer 24 having second rough surfaces 242 formed in a shape such that the fine protrusions P are engaged with each other in two directions; It is characterized by consisting of.

An object of the present invention is to provide a window bracket that can be firmly fixed to a window frame and without slip while having excellent insulation performance.

The window bracket of the present invention is for supporting the window 3 installed in the opening of the wall 1, and includes a top plate 21, a side plate 22 and a non-slip washer 24.

The window bracket 2 is integrally provided with the side plate 22 in the vertical direction at the bottom of the upper plate 21 formed in the horizontal direction, and as a whole forms a T-shape as shown in FIG. 1 or an L-shape as shown in FIG. 2 .

The upper plate portion 21 supports the window 3 by being coupled to the bottom, that is, the bottom surface of the window 3.

The upper plate portion 21 is formed with a first fastening hole 211 through which a fastening means 23 for fixing the window 3 located on the upper portion passes.

The first fastening hole 211 is formed as a long hole having a length along the thickness direction of the window 3, that is, the length direction of the upper plate 21, in order to absorb construction errors between the wall 1 and the window 3. .

The side plate 22 is provided below the upper plate 21 and can be integrally formed with the upper plate 21 .

The side plate part 22 can be fixed to the inner surface of the wall 1 by means of anchor bolts 27 or the like.

To this end, an anchor bolt hole 221 through which an anchor bolt 27 passes is formed in the side plate portion 22 .

The non-slip washer 24 is provided on the lower part of the upper plate part 21 and is installed in close contact with the lower surface of the first fastening hole 211 of the upper plate part 21 .

The non-slip washer 24 is for fixing the fastening means 23 fastened to the first fastening hole 211 for fixing the window 3.

A second fastening hole 241 through which the fastening means 23 passes may be formed in the non-slip washer 24 .

The fastening means 23 can be composed of pieces, rivets, bolts, and the like.

In order to prevent the window 3 from being displaced due to mutual slip between the non-slip washer 24 and the upper plate 21 due to external force acting on the window 3, the lower surface of the upper plate 21 and its close contact The upper surface of the non-slip washer 24 is roughened, that is, roughened.

That is, the first rough surface 212 is formed on the bottom surface of the upper plate portion 21 and the second rough surface 242 is formed on the upper surface of the non-slip washer 24 .

The first and second rough surfaces 212 and 242 are in close contact with each other to prevent the slipping of the non-slip washer 24 and the top plate 21 due to the frictional force between the first and second rough surfaces 212 and 242 .

Since the window bracket 2 is made of synthetic resin, it is possible to prevent condensation by minimizing heat conduction through the window bracket 2.

The synthetic resin may be an engineering plastic having excellent mechanical strength, durability, and chemical resistance.

5 is a bottom perspective view showing a coupling relationship between a first rough surface and a second rough surface, and FIG. 6 is a perspective view showing a coupling relationship between a first rough surface and a second rough surface.

As shown in FIGS. 5 and 6, the first rough surface 212 is continuously arranged so that a plurality of fine protrusions P in the shape of a quadrangular pyramid are connected to each other in two directions on both sides of the first fastening hole 211, The second rough surface 242 is formed in a shape corresponding to the fine protrusions P on the entire upper surface, and the fine protrusions P are continuously arranged so that the fine grooves G are connected to each other in two directions.

There is usually a predetermined gap between the window 3 and the opening where the window 3 is installed. Accordingly, slip between the non-slip washer 24 for fixing the window 3 and the top plate 21 may occur in the width direction of the window 3 as well as in the thickness direction of the window 3 .

However, if the first rough surface 212 or the second rough surface 242 is formed by cutting a groove linearly, slipping can be prevented only in one direction.

Therefore, in order to prevent slip in two directions, the first rough surface 212 arranges a plurality of independent fine protrusions P in a plurality of rows (FIG. 5), and the second rough surface 242 has a plurality of fine grooves G in two directions. It can be placed as (Fig. 6). Accordingly, once the micro-protrusions P are inserted into the micro-grooves G and the non-slip washer 24 is fixed in position, it is possible to prevent the anti-slip washer 24 from slipping in any direction.

When the width of the non-slip washer 24 is greater than the width of the first rough surface 212 around the first fastening hole 211, the first rough surface 212 around the first fastening hole 211 has fine protrusions ( P), and the second rough surface 242 of the non-slip washer 24 is preferably formed with a fine groove (G).

7 is a perspective view showing a top plate portion having air pocket grooves, and FIG. 8 is a perspective view showing a side plate portion having air pocket grooves.

As shown in FIG. 7 , a plurality of rows of air pocket grooves 213 may be formed on the upper surface of the upper plate portion 21 .

When the window bracket 2 is configured in a T shape, the upper plate part 21 extends to the top of the wall 1 and is provided close to the outside air, so that heat exchange can be performed through the upper plate part 21 .

Therefore, by forming a plurality of rows of air pocket grooves 213 at a predetermined depth in the upper plate portion 21, the cross-sectional area can be reduced to minimize the amount of heat flow transferred.

The air pocket groove 213 may be configured in a honeycomb shape to increase insulation performance and prevent dew condensation while maintaining the rigidity of the upper plate portion 21 .

On the other hand, as shown in Figure 8, the air pocket groove 222 can be formed in the portion where the side plate portion 22 is in close contact with the wall (1).

Heat exchange through the side plate portion 22 can be reduced by forming the air pocket groove 222 .

Since the window bracket 2 is made of synthetic resin, air pocket grooves 213 and 222 can be easily formed during manufacture.

In addition, by forming the air pocket grooves 213 and 222, it is possible to reduce the amount of materials used in manufacturing the window bracket 2.

As shown in FIG. 7 and the like, a reinforcing rib 25 may be integrally formed between the indoor top plate portion 21 and the side plate portion 22 .

The window 3 is thicker than the thickness of the wall 1 and may protrude into the room by a certain length.

Therefore, a reinforcing rib 25 may be provided between the upper plate portion 21 and the side plate portion 22 so as to stably support the weight of the window 3.

The reinforcing ribs 25 may be formed in one row in the center or in two rows on both sides.

The reinforcing rib 25 may be integrally formed with the upper plate part 21 and the side plate part 22 .

The inside of the reinforcing rib 25 may be reinforced with a fiber reinforcing material.

In order to replace existing steel window brackets with synthetic resin, the mechanical strength of synthetic resin must be improved.

However, since the load of the window 3 is mainly supported by the reinforcing rib 25, when the entire window bracket 2 is reinforced, the unit price and weight of the product increase.

Therefore, only the reinforcing ribs 25 that mainly support the load can be reinforced with the fiber reinforcing material.

The fiber reinforcement may be formed of glass fiber, mineral fiber or carbon fiber.

At this time, the mechanical strength of the reinforcing rib 25 may be improved by adjusting the orientation of the reinforcing fibers so that the mass fraction of the reinforcing fibers is 40% or more.

When the window brackets 2 are manufactured, the orientation of the reinforcing fibers in the reinforcing ribs 25 of the window brackets 2 can be optimized by adjusting the position of the molten plastic injection port (gate) of the injection plant.

Accordingly, it is possible to manufacture the economical and structurally optimized window bracket 2, and it is possible to reduce the weight by minimizing the weight of the member.

9 is a perspective view showing a wedge plate, and FIG. 10 is a cross-sectional view showing a window and door fixing state according to the present invention when the wedge plate is provided.

8 to 10, the outer side of the side plate 22 is provided with a wedge plate 26 having anchor bolt holes 221 vertically long, and the outer surface of the side plate 22 A third rough surface 223 may be formed, and a fourth rough surface 262 in close contact with the third rough surface 223 may be formed on one side of the wedge plate 26 .

When an error occurs in the verticality of the frame of the wall (1), a horizontal error occurs in the upper plate (21) even if the side plate (22) of the window bracket (2) is tightly fixed to the surface of the wall (1), and the window (3) It can be difficult to install in the exact location.

Therefore, in order to correct this, the wedge plate 26 may be inserted between the side plate 22 and the wall 1 to adjust the horizontality of the upper plate 21.

It is possible to adjust the insertion depth of the wedge plate 26 whose cross section is tapered so that the width becomes narrower toward the top according to the degree of inclination error of the frame of the wall (1).

The wedge plate 26 can be inserted into the top or bottom of the side plate portion 22 .

To prevent the wedge plate 26 from interfering with the anchor bolts 27, a through hole 261, which is a vertically long hole, may be formed in the wedge plate 26.

Since the wedge plate 26 is formed to have a tapered cross section, the wedge plate 26 may fall off due to horizontal force when the anchor bolt 27 is tightened.

Therefore, by forming the outer surface of the side plate portion 22 and the corresponding surface of the wedge plate 26 as the third rough surface 223 and the fourth rough surface 262, respectively, the wedge plate 26 is configured to prevent separation can do.

On the other hand, the third rough surface 223 and the fourth rough surface 262 are configured to prevent slip in both directions by forming fine protrusions and fine grooves in two directions, as in the upper plate 21 and the anti-slip washer 24, respectively. may be

1: wall 2: window bracket
21: top plate 211: first fastening hole
212: first rough surface 213: air pocket home
22: side plate 221: anchor bolt hole
222: Air pocket home 223: Article 3
23: fastening means 24: non-slip washer
241: second fastening hole 242: second rough surface
25: reinforcing rib 26: wedge plate
261: through hole 262: fourth rough surface
27: anchor bolt 3: window
G: fine grooves P: fine protrusions

Claims (6)

It is made of synthetic resin to support the window 3 installed in the opening of the wall 1,
It is coupled to the lower part of the window 3 to support the window 3, and the first fastening hole 211, which is a long hole in the thickness direction of the window 3, is formed, and both sides of the first fastening hole 211 on the bottom surface An upper plate portion 21 having a first rough surface 212, which is a rough surface, in which a plurality of fine protrusions P in the shape of a quadrangular truncated pyramid are continuously disposed to be connected to each other in two directions;
A side plate 22 provided under the upper plate 21 and fixed to the inner surface of the wall 1 and having anchor bolt holes 221 formed therein; and
By fixing the fastening means 23 fastened to the first fastening hole 211 by being in close contact with the bottom surface of the first fastening hole 211 of the upper plate 21, corresponding to the fine protrusions P on the entire upper surface a non-slip washer 24 formed in the shape of a second rough surface 242, which is a rough surface, continuously disposed so that the fine grooves G, on which the fine protrusions P are caught, are connected to each other in two directions; A window bracket, characterized in that consisting of.
delete In paragraph 1,
A window bracket, characterized in that a plurality of rows of air pocket grooves 213 are formed on the upper surface of the upper plate portion 21.
In paragraph 1,
A window bracket, characterized in that a reinforcing rib 25 is integrally formed between the upper plate part 21 and the side plate part 22 on the indoor side.
In paragraph 4,
Window bracket, characterized in that the inside of the reinforcing rib (25) is reinforced with a fiber reinforcing material.
In paragraph 1,
On the outer side of the side plate portion 22, a wedge plate 26 having anchor bolt holes 221, which are vertically long holes, is provided, and a third rough surface 223 is formed on the outer surface of the side plate portion 22, A window bracket, characterized in that a fourth rough surface 262 in close contact with the third rough surface 223 is formed on one side of the wedge plate 26.

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