KR102394368B1 - Anti-vibration securing fixture for window frame, window frame having the same, and method of installing window frame - Google Patents

Abstract

Disclosed are an anti-vibration window frame fixture for preventing vibration of a window frame, a window frame having the same, and a method for installing a window frame. According to an aspect of the present invention, the anti-vibration window frame fixture, which is to prevent the vibration on a window frame protruding from a wall in one direction and forming a drop, comprises: a window-side flange unit extended long along the protruding part of the window frame, and configured to be attached to an edge of a side surface of the window frame heading toward the wall; and a wall-side flange unit folded on one side of the window-side flange unit and configured to come in contact with a finish surface placed at a certain distance from the surface of the wall. The wall-side flange unit can have penetrating holes formed at regular intervals. As the wall-side flange unit is engaged with the finish material, the window frame, the window frame fixture, and the finish material can be integrated. According to an embodiment of the present invention, the vibration of a window frame can be prevented, and the fatigue destruction of members and the deviation of wallpaper can be delayed.

Description

Anti-vibration window frame fixture, window frame and window frame installation method having the same

The present invention relates to a window frame fixture, and more particularly, to an anti-vibration window frame fixture for preventing vibration of a window frame, a window frame having the same, and a window frame installation method.

In a building such as a residential building, a separate finishing material is sometimes installed on the wall so that the surface of the wall in an indoor or outdoor space can give a high aesthetic feeling. In this case, the wall is constructed of concrete or the like to bear a load, and the finishing material is installed inside or outside the wall to provide a flatter and more beautiful appearance.

The window frame installed on the wall with the finishing material is also installed protruding from the wall in one direction, which means that the window frame installed on the exterior wall has a large thickness including multiple windows to provide high airtightness and sound insulation performance. This is partly for the reason, and also because the outer surface of the finishing material is located at a predetermined distance from the surface of the wall, so that the surface of the window frame after construction of the window frame does not form an excessive step from the surface of the finishing material.

An exemplary installation structure of a window frame installed on a wall provided with a finishing material is shown in FIGS. 1 and 2 . 1 and 2, the outermost wall (1) is located, the finishing material (3) may be installed at a predetermined distance from the wall (1) on the indoor side. A heat insulating material (not shown), etc. may be further disposed between the wall 1 and the finishing material 3 . The window frame (2) is coupled to the wall (1) and protrudes in the direction toward the finishing material (3) to form a step with respect to the wall (1).

The window frame (2) is coupled to the wall (1) by a bracket (50). The bracket (50) is a first plate in which a metal member is generally bent in a “L” shape to be coupled to the wall (1). (51) and a second plate (52) coupled to the window frame (2). As such, since the inner part of the window frame 2 is installed to protrude inward from the wall 1 bearing structural stress, when the window 4 that is not in line with the wall 1 is closed, the The impact may apply a relatively large bending moment proportional to the vertical distance to the first plate 51 .

In addition, since the bracket 50 has a “L” shape and is formed of a metal material, the impact applied to a location away from the wall 1 causes the bent second plate 52 portion to elastically deform and restore. caused by vibration. As a result, when the innermost window 4 of the window frame 2 is closed, the impact generated when the window 4 is closed causes a remarkable vibration phenomenon. When such a shaking phenomenon continues for a long period of time, fatigue destruction of the bracket 50 and the like and the detachment of wallpaper attached to the outer surface of the finishing material 3 may be accelerated. Some occupants show a sense of reluctance to the above shaking phenomenon and are demanding repairs from the contractor.

Accordingly, the present invention has been derived to solve the above-described problems, and an object of the present invention is to provide an anti-vibration window frame fixture, an anti-vibration window frame, and a window frame installation method that can prevent vibration of the window frame.

Other objects of the present invention will become clearer through the examples described below.

One aspect of the present invention provides a window frame fixture for preventing vibration of the window frame protruding from the wall in one direction to form a step. Anti-vibration window frame fixture according to the present invention, the window side flange portion extending along the protruding portion of the window frame configured to be adhered to the edge of the side surface of the window frame facing the wall; and a wall-side flange portion bent from one side of the window-side flange portion and configured to contact a finished surface located at a predetermined distance from the surface of the wall, wherein the wall-side flange portion may have through-holes formed at predetermined intervals. . As the wall side flange portion is coupled to the finishing material, the window frame frame, the window frame fixture, and the finishing material may be integrated.

The anti-vibration window frame fixture according to the present invention may have one or more of the following embodiments. For example, a double-sided tape may be attached to the surface of the window side flange portion facing the window frame.

The wall-side flange portion may be formed in a rounded or chamfered shape with an outer edge facing the finished surface of the end portion.

A bent portion between the window-side flange portion and the wall-side flange portion may have an inclined cross-section.

The wall-side flange portion may have a thickness that increases from an end thereof toward the window-side flange portion.

The window side flange portion and the wall side flange portion may be integrally formed by a molding process using a PVC material or a metal material.

The window side flange portion may have a width of 30 mm or less.

Another aspect of the present invention provides an anti-vibration window frame installed in an opening of a wall provided with a finishing material. Anti-vibration window frame according to the present invention, the window frame frame protruding in one direction from the wall to form a step; and a sash fixture that extends along the protruding portion of the sash frame and is adhered to the edge of the side surface of the sash frame facing the wall, wherein the sash fixture is adhered to the edge of the lateral surface of the sash frame It may include a window-side flange portion and a wall-side flange portion bent from one side of the window-side flange portion to be adhered to the finished surface of the finishing material, and the wall-side flange portion may have through-holes formed at predetermined intervals.

In the anti-vibration window frame as described above, an insertion groove into which the window side flange portion of the window frame fixture is inserted may be formed on the side surface of the window frame frame.

Another aspect of the present invention provides a method of installing a window frame in an opening of a wall using the above-described vibration damping window frame fixture. The method for installing a window frame according to the present invention includes the steps of: coupling the window frame to the opening of the wall so as to protrude from the wall in one direction to form a step; arranging the window frame fixture so that the wall-side flange portion is in contact with the finished surface; adhering the window side flange to the edge of the side surface of the window frame; The method may include applying a sealant to the wall-side flange portion while the wall-side flange portion is overlapped with the finished surface.

According to the problem solving means of the present invention as described above, various effects including the following items can be expected. However, the present invention is not established only when all of the following effects are exhibited.

According to one embodiment of the present invention, there is provided an anti-vibration window frame fixture, an anti-vibration window frame, and a window frame installation method that can prevent the vibration of the window frame and delay the fatigue breakdown of the member and the separation of the wallpaper.

1 is a conceptual diagram illustrating an installation structure of a window frame to which an anti-vibration window frame fixture according to an embodiment of the present invention can be applied.
FIG. 2 is a plan view illustrating an installation structure of the window frame shown in FIG. 1 .
3 is a conceptual diagram illustrating an anti-vibration window frame according to the first embodiment of the present invention.
FIG. 4 is a plan view showing the installation structure of the anti-vibration window frame shown in FIG. 3 .
5 is a perspective view showing an example of an anti-vibration window frame fixture applicable to the anti-vibration window frame according to the first embodiment of the present invention.
6 is a perspective view showing another example of an anti-vibration window frame fixture applicable to the anti-vibration window frame according to the first embodiment of the present invention.
7 is a conceptual diagram illustrating an anti-vibration window frame according to a second embodiment of the present invention.
8 is a plan view showing the installation structure of the anti-vibration window frame shown in FIG.
9 is a perspective view showing an example of an anti-vibration window frame fixture applicable to the anti-vibration window frame according to the first and second embodiments of the present invention.
10 is a perspective view showing another example of an anti-vibration window frame fixture applicable to the anti-vibration window frame according to the first and second embodiments of the present invention.
11 is a perspective view showing another example of an anti-vibration window frame fixture applicable to an anti-vibration window frame according to a second embodiment of the present invention.
12 is a flowchart illustrating a window frame installation method according to an embodiment of the present invention.

Since the present invention can apply various transformations and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to specific embodiments, and should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the present invention, if it is determined that a detailed description of a related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In the present application, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described in the specification exists, but one or more other features It should be understood that this does not preclude the existence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Terms such as first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components, regardless of reference numerals, are given the same reference numbers and overlapped therewith. A description will be omitted.

3 is a conceptual diagram illustrating an anti-vibration window frame 10 according to an embodiment of the present invention, and FIG. 4 is a plan view illustrating an installation structure of the anti-vibration window frame 10 shown in FIG. 3 . For a clear understanding of the invention, the sealant 180 is omitted in FIG. 3 . The anti-vibration window frame 10 according to an embodiment of the present invention may include a window frame frame 2 , a window 4 , a bracket 50 and a window frame fixture 100 .

First, the anti-vibration window frame 10 according to an embodiment of the present invention may be a window frame installed in an opening formed at a design position of the wall 1 provided with the finishing material 3 . The wall 1 is a part that mainly bears a load, and may be a wall of a concrete structure, a masonry structure, or a steel structure structure.

The finishing material 3 may be installed on the inside or outside of the wall 1 to provide a flatter and more beautiful appearance. When installed on the indoor side compared to the wall 1, the finishing material 3 may be, for example, a gypsum board, but other materials such as wood, stone, and tiles may be used. The finishing material 3 may be an outdoor finishing material installed on the outdoor side compared to the wall 1, and in this case, various materials such as wood, stone, metal, ceramic, etc. may be used. In the present specification, for convenience of explanation, embodiments of the present invention will be described on the assumption that the finishing material 3 is a gypsum board disposed indoors, but the present invention is not limited thereto.

Since the purpose of use of the finishing material 3 is not to bear a load, but to replace the appearance of the wall 1 that can be relatively rough, the finishing material 3 itself cannot bear a large force, and the wall 1 ), it is common to have a relatively small thickness compared to However, between the wall (1) and the finishing material (3), in general, various types of insulating materials (5) are also disposed. In this specification, the surface opposite to the surface facing the wall 1 in the finishing material 3 will be referred to as a "finishing surface". When the finishing material 3 is an outdoor finishing material, the finishing surface will face the outside, and when the finishing material 3 is an indoor finishing material, the finishing surface will face the indoor. The finishing surface may be located at a predetermined distance from the surface of the wall 1 as much as it corresponds to the thickness of the finishing material 3 itself and the distance between the wall 1 and the finishing material 3 .

The window frame frame 2 of the anti-vibration window frame 10 is coupled to the wall 1 by a bracket 50, and may be installed in the opening of the wall 1 to protrude from the wall 1 in one direction to form a step. . Here, the one-way direction corresponds to the direction from the wall (1) toward the finishing material (3). The window frame 2 may be coupled to the wall 1 so as to protrude a predetermined distance from the wall 1 but protrude within about 50 mm with respect to the finished surface of the finishing material 3 .

The window frame (2) forms a rectangular frame, guides the movement of the window (4) mounted inside the rectangular space, and is designed to block the indoor and outdoor areas when the window (4) is closed. The bracket 50 has a part 51 coupled to the wall 1 and a part 52 coupled to the sash frame 2 to apply the load of the sash frame 2 and the impact applied to the sash frame 2 to the wall ( 1) can be forwarded.

Anti-vibration window frame fixture 100 according to an embodiment of the present invention is mounted on the edge of the side surface of the window frame (2) can serve to prevent the vibration of the window frame (10). In this specification, the side surface of the window frame 2 refers to a surface in a direction intersecting the direction in which the window frame 2 protrudes, and in FIG. 3 , the second plate 52 of the bracket 50 is coupled. This is the surface. The upper and lower surfaces of the protruding portion of the window frame 2 can also be viewed as side surfaces. The sash fixture 100 may be mounted over the entire longitudinal direction of the side surface of the sash frame 2 , may be mounted only on a portion in the longitudinal direction, and may be mounted in plurality at predetermined intervals.

5 is a perspective view illustrating an anti-vibration window frame fixture 100 according to the first embodiment of the present invention. Referring to FIG. 5 , the window frame fixture 100 may include a window side flange unit 120 , a wall side flange unit 130 , a through hole 140 , and a double-sided tape 150 .

The window side flange 120 may extend long along the protruding portion of the window frame 2 and may be configured to contact the edge of the side surface of the window frame 2 . That is, the window frame 2 may protrude beyond the finished surface of the finishing material 3 to, for example, within about 50 mm, and the window side flange 120 contacts the window frame 2 in an area within a width of about 50 mm in this way. can do. In a preferred embodiment, the window side flange 120 may have a length corresponding to the length of the side surface of the window frame 2 and a width less than or equal to the thickness of the finishing material 3 .

The wall-side flange portion 130 may be bent from one side of the window-side flange portion 120 and configured to contact the finished surface of the finishing material 3 . The wall-side flange portion 130 may extend over the entire longitudinal direction of the side surface of the window frame 2 , similarly to the window-side flange portion 120 . The width of the wall-side flange portion 130 may be set in a range capable of maintaining sufficient strength even after the through-hole 140 of an appropriate size is formed as described later, and in a preferred embodiment, it is set to a value between 5 mm and 15 mm can be

5, the wall-side flange portion 130 may be formed in a shape in which the outer edge 131 of the end is rounded or chamfered. Here, to be formed in a rounded or chamfered shape means not only the case in which rounding or chamfering is actually performed after the wall side flange 130 is formed in an angular shape, but also a shape as if rounding or chamfering was applied from the beginning. It includes cases formed by . The anti-vibration window frame fixture 100 according to an embodiment of the present invention can be integrally molded by a molding process in which the window side flange 120 and the wall side flange 130 are made of a metal material or a synthetic resin material such as PVC. .

The through hole 140 and the double-sided tape 150 may be used to adhere the wall side flange 130 and the window side flange 120 to the finishing material 3 and the window frame 2, respectively. First, the double-sided tape 150 may be attached to the surface facing the window frame (2) from the window side flange (120). The operator can first place the window frame fixture 100 so that the wall side flange 130 comes into contact with the finished surface in a state where the double-sided tape 150 is attached to the window side flange unit 120, and then the window side flange unit 120. can be attached to the window frame (2).

Here, the window frame fixture 100 may be arranged so that the edge of the finishing material 3 is located inside the bent portion of the window side flange 120 and the wall side flange 130 as in FIGS. 3 and 4, but in FIG. 7 and 8, the bent portion of the window side flange portion 120 and the wall side flange portion 130 may be disposed to face the outside of the finishing material (3). When the edge of the finishing material 3 is disposed to be located inside the bent portion of the window side flange 120 and the wall side flange 130, the window side flange 120 is between the window frame frame 2 and the finishing material 3 can be located In this case, the side surface of the sash frame 2 may be formed with an insertion groove 6 into which the window side flange portion 120 of the sash fixture 100 can be inserted and fixed.

The size of the double-sided tape 150 attached to the window side flange unit 120 may vary depending on its adhesive strength, but having a width of 70% or more of the window side flange unit 120 may be advantageous for uniform and firm adhesion. . Of course, in some embodiments, the surface of the window side flange unit 120 may be adhered to the window frame frame 2 by an adhesive or the like instead of the double-sided tape 150, and the adhesive (not shown) may be applied to the surface of the window side flange unit 120 or It can be applied to the insertion groove (6).

The through-holes 140 may be formed at predetermined intervals in the wall-side flange portion 130 , and then may be used to adhere the window frame fixture 100 to the finishing material 3 . For example, in a state where the window side flange unit 120 is adhered to the window frame 2 by double-sided tape 150 and/or an adhesive, as described above, the operator operates the wall side flange unit superimposed on the finished surface of the finishing material 3 . A sealant 180 may be applied over 130 . As the sealant 180 , various types of adhesives including adhesive bonds may be used, and in a preferred embodiment, a polymer resin such as silicone caulk may be used. As shown in FIG. 4 , the sealant 180 may be provided in a sufficient amount to contact all of the window frame 2 , the wall side flange 130 , and the finishing material 3 .

6 is a perspective view showing another example of the anti-vibration window frame fixture 100 applicable to the anti-vibration window frame according to the first embodiment of the present invention. Referring to FIG. 6 , a groove 134 may be formed in the wall side flange portion 130 of the window frame fixture 100 . The groove 134 communicates with the through hole 140 formed in the wall-side flange part 130 and may extend along the longitudinal direction of the wall-side flange part 130 .

When the sealant 180 is applied to the wall-side flange portion 130 for mounting the window frame fixture 100 , the sealant 180 flows into the groove 134 through the through-hole 140 and forms the wall-side flange portion in a wider area. (130, 135) can be adhered to the finished surface of the finishing material (3). When the sealant 180 is made of silicone caulk, the amount of the sealant 180 flowing into the groove 134 may be relatively small, but, nevertheless, the adhesive strength may be slightly increased. When the sealant 180 is applied in a liquid state, such as a bond, and then cured to a solid state, the sealant 180 may flow into all or a part of the groove 134 according to the spacing of the through-holes 140 . Of course, a separate liquid bond or the like may be filled in the groove 134 before the process of applying the sealant 180 over the through hole 140 .

Referring again to FIGS. 3 and 4 , a structure in which the window frame fixture 100 prevents vibration of the window frame 10 will be described. The window frame (2) protrudes in one direction to form a step and is coupled to the wall (1), and the impact applied to the protruding part of the window frame (2) produces a large bending moment proportional to the vertical distance to the wall (1). may be applied, which may cause vibration in the bracket 50 . The sash fixture 100 is adhered to the edge (region within about 50 mm) of the sash frame 2, and the sash fixture 100 and the sealant 180 such as silicone bonding it to the finishing material 3 prevent such vibration. plays a role in absorption.

That is, the shock itself applied to the sash frame 2 is completely transmitted to the wall 1 by the bracket 50, but after the shock is applied, the vibration due to the elasticity of the bracket 50 is absorbed by the sash fixture 100. Vibration of the window frame 10 can be prevented.

As the anti-vibration sash fixture 100 is coupled to the window sill frame 120 and the wall side flange 130 to the surface of the finishing material 3, the window sash frame 2, the sash fixture 100 ) and the finishing material 3 provide the effect of being integrated, but the anti-vibration window frame fixture 100 absorbs vibrations rather than the shock itself applied to the window frame, and a large stress is not transmitted to the finishing material 3 .

The window frame fixture 100 is first arranged so that the window side flange unit 120 is in contact with the window frame frame 2, and then the wall side flange unit 130 is coupled to the finishing material 3, the window side flange unit 120 and the finishing material ( 3) There may be a fine gap between them. Vibration and vibration of the bracket 50 is caused by the gap between the window flange part 120 and the finishing material 3, and the relative movement of the window flange part 120 with respect to the wall flange part 130 and the sealant 180 are mediated. It is absorbed by the relative movement of the wall-side flange portion 130 with respect to the finishing material 3 .

7 is a conceptual diagram illustrating an anti-vibration window frame 20 according to a second embodiment of the present invention, and FIG. 8 is a plan view illustrating an installation structure of the anti-vibration window frame 20 shown in FIG. 7 . For a clear understanding of the invention, the sealant 180 is omitted in FIG. 7 . The anti-vibration window frame 20 according to the second embodiment of the present invention may include a window frame frame 2 , a window 4 , a bracket 50 , and a window frame fixture 100 . The second embodiment of the present invention is generally similar to the first embodiment described above, except that the installation direction of the window frame fixture 100 is different.

In the first embodiment of the present invention described above, the window side flange portion 120 of the sash fixture 100 is located between the sash frame 2 and the finishing material 3, whereas in the second embodiment of the present invention, FIGS. 7 and As shown in FIG. 8 , the window side flange 120 may be disposed in a direction away from the finishing material 3 . According to the second embodiment, it is possible to add the window frame fastener 100 according to an embodiment of the present invention to an already installed window frame, and it is possible to prevent vibration of the existing window frame in a relatively simple manner. The window frame fixture 100 shown in FIG. 5 may be equally applied to the window frame 20 according to the second embodiment of the present invention.

That is, the operator can arrange the window frame fixture 100 so that the wall side flange 130 is in contact with the finished surface in a state where the double-sided tape 150 is attached to the window side flange unit 120 , and then the window side flange unit 120 . ) can be attached to the window frame (2). Although not shown, an insertion groove 6 for inserting and fixing the window side flange portion 120 of the window frame fixture 100 may be formed on the side surface of the window frame 2 in this embodiment as well. In some embodiments, the surface of the window side flange unit 120 may be adhered to the window frame frame 2 by an adhesive instead of the double-sided tape 150, and the adhesive (not shown) may be applied to the surface of the window side flange unit 120 or the insertion groove. (6) can be applied.

In a state in which the window flange unit 120 is adhered to the window frame 2 by double-sided tape 150 and/or adhesive, etc., the operator sealant ( 180) can be applied. As the sealant 180 , various types of adhesives including adhesive bonds may be used, and in a preferred embodiment, silicone caulk may be used. The sealant 180 may be applied in an amount to cover only the wall-side flange portion 130 as shown in FIG. 8 , or may be applied to cover both the window-side flange portion 120 and the wall-side flange portion 130 .

The shock itself applied to the sash frame 2 is completely transmitted to the wall 1 by the bracket 50, but after the shock is applied, the vibration due to the elasticity of the bracket 50 is absorbed by the sash fixture 100 and the window frame ( 20), vibration can be prevented. The anti-vibration window frame fixture 100 does not absorb the shock itself, but rather absorbs the vibration, and a large stress is not transmitted to the finishing material 3 . The vibration and vibration of the bracket 50 is the relative movement of the window side flange unit 120 with respect to the wall side flange unit 130 and the relative movement of the wall side flange unit 130 with respect to the finishing material 3 via the sealant 180 . can be absorbed by

With respect to the first and second embodiments of the present invention, the inventors have found that having the window side flange portion 120 having a width between 5 mm and 30 mm is effective in preventing vibration of the window frame frame 2 . If the width of the window side flange portion 120 is less than 5 mm, it may be difficult for the sash fixture 100 to secure a sufficient adhesive area to the sash frame 2 and it may be difficult to absorb the vibration of the sash frame 2 . Conversely, if the width of the window side flange unit 120 exceeds 30 mm, the installation of the window frame fixture 100 may become inconvenient, and the window side flange unit 120 itself may vibrate with respect to the wall side flange unit 130 . The window side flange 120 may have a length corresponding to the length of the side surface of the window frame 2 or less, and may have a thickness of about 1 to 4 mm.

The wall-side flange portion 130 may be set in a range capable of maintaining sufficient strength even after the through-hole 140 of an appropriate size is formed, and in a preferred embodiment may be set to a value between 5 mm and 15 mm. The size of the through hole 140 may be determined in consideration of the weight of the entire window frame fixture 100 , the area of the wall side flange 130 , the spacing between the through holes 140 , the adhesive force of the sealant 180 , etc. In an example, it may be implemented as a hole of a circular or polygonal shape having a diameter of 2 to 5 mm. The spacing of the through holes 140 may be determined in consideration of the weight of the entire window frame fixture 100 , the area of the wall side flange 130 , the size of the through hole 140 , the adhesive force of the sealant 180 , and the like. When silicone caulk is used as the sealant 180 , sufficient adhesive strength may be secured when the distance between the through holes 140 is maintained within about 65 mm.

In the case of the first embodiment, when the sealant 180 is applied over the wall side flange 130 while the window side flange 120 is attached to the window frame 2, the sealant 180 enters the through hole 140. In addition to permeation, it can contact both the window frame 2 and the finishing material 3 , and the window frame fixture 100 located in the middle can be fixed relatively stably. In the case of the second embodiment, when the sealant 180 is applied over the wall-side flange 130 while the window-side flange 120 is adhered to the window frame 2, the sealant 180 forms the wall-side flange portion 130. The sash fixture 100 can be adhered to the finishing material 3 by penetrating into the space beyond the end and the through hole 140 and the space around it. To this end, in the second embodiment, it may be advantageous to reduce the spacing of the through-holes 140 compared to the first embodiment. Since the window frame fixture 100 has a “L” shape, in the second embodiment, the sealant 180 may permeate relatively little into the bent portion between the wall side flange 130 and the window side flange 120 .

When the window frame fixture 100 shown in FIG. 5 is applied according to the second embodiment of the present invention, the outer edge 131 formed in a rounded or chamfered shape at the end of the wall side flange 130 is a finishing material 3 ), with rounded or chamfered edges facing the finish 3 itself rather than the outside of the finish 3 can also provide an advantage. That is, the wall-side flange portion 130 can move relatively with respect to the finished surface of the finishing material 3 via the sealant 180, and the outer edge 131 from the end of the wall-side flange portion 130 toward the finished surface. As it is formed in a rounded or chamfered shape and does not meet the finishing material 3 at an acute angle, damage to the finishing material 3 is prevented even when the wall side flange 130 vibrates.

9 is a perspective view showing an example of an anti-vibration window frame fixture 100 applicable to the anti-vibration window frames 10 and 20 according to the first and second embodiments of the present invention.

9, the end of the window side flange portion 120 of the window frame fixture 100 may meet the window frame frame 2 at an acute angle smaller than 90 degrees, and the end of the wall side flange part 130 is smaller than 90 degrees. It can meet the finishing material (3) at an acute angle.

In the case of the window frame fixture 100 extending along the entire length of the window frame 2 in the window frame 20 according to the second embodiment, the end of the window side flange unit 120 meets the window frame frame 2 at an acute angle. Accordingly, the window frame fixture 100 can have an appearance that is relatively naturally integrated with the window frame frame 2 .

On the other hand, the end 132 of the wall-side flange portion 130 may have an appearance that is naturally integrated without forming a striking step with respect to the finishing material 3 while meeting at an acute angle with the finishing material 3 similarly, which is the finishing material (3) It is especially effective when wallpaper (not shown) is added to the finished surface of That is, the operator installs the window frame 2 in the opening of the wall 1, attaches the window side flange 120 to the window frame 2, and attaches the wall side flange 130 to the finishing material 3, and then the finishing material While adhering the wallpaper (not shown) to (3), the wall-side flange 130 may be covered with the wallpaper. In a general case, the operator will attach the wallpaper so that a part of the side surface of the window side flange 120 and the window frame 2 is also covered with the wallpaper. Since the end 132 of the wall-side flange portion 130 maintains an acute angle with respect to the finishing material 3 on the rear surface of the wallpaper, the wallpaper can naturally run around the window frame 10 .

The anti-vibration window frame fixture 100 according to an embodiment of the present invention has a wall side plan for the finishing material 3 through the relative movement of the window side flange unit 120 with respect to the wall side flange unit 130 and the sealant 180 as a medium. As to prevent vibration of the window frame 2 by the relative movement of the branch 130 , it may be necessary to adjust the elasticity of the window side flange 120 with respect to the wall side flange 130 as necessary.

One way to limit the movable range of the window side flange unit 120 with respect to the wall side flange unit 130 is to reduce the width (length in the cross-sectional view) of the window side flange unit 120, as described above, the window side flange unit If the width of 120 is excessively small, it may be difficult to attach the window frame fixture 100 to the window frame frame 2 .

Therefore, instead of reducing the width of the outer side of the window side flange unit 120 (that is, the side facing the window frame frame 2), it is possible to reduce the width of the inner side (i.e., the bent inner side) of the window side flange unit 120, One of the methods is to make the end of the window side flange 120 form an acute angle as described above. Due to this, the width of the outside of the window side flange 120 is maintained, but the inside width is decreased, so that the moving range of the window side flange unit 120 can be reduced.

In addition, the bent portion 160 between the window side flange portion 120 and the wall side flange portion 130 may have an inclined cross section. In the bent part 160 itself, the window side flange part 120 cannot be easily rotated. As the bent part 160 has an inclined cross section and the range of the bent part 160 increases, the inner side of the window side flange part 120 may be reduced in width.

The angle of the end of the window side flange unit 120 described above, the outer and inner widths of the window side flange unit 120 , the thickness of the bending unit 160 , etc. may be determined in consideration of the material of the window frame fixture 100 .

When the window frame fixture 100 of FIG. 9 is applied to the window frame 10 according to the first embodiment of the present invention, the end portion of the window side flange 120 and the inclination of the bent portion 160 are taken into consideration and the finishing material 3 The end of the can also be machined.

10 is a perspective view showing another example of the anti-vibration window frame fixture 100 applicable to the anti-vibration window frames 10 and 20 according to the first and second embodiments of the present invention.

As described above, it may be necessary to adjust the elasticity of the window side flange unit 120 with respect to the wall side flange unit 130 as needed. As another method of doing so, a reinforcement unit 170 may be provided between the window side flange unit 120 and the wall side flange unit 130 . The reinforcing unit 170 may greatly limit the movement range of the window side flange unit 120 , and in this case, vibration absorption may be mainly achieved by an adhesive curing agent between the wall side flange unit 130 and the finishing material 3 . If necessary, a groove may be machined at the end of the finishing material 3 in consideration of the position of the reinforcing part 170 .

11 is a perspective view showing another example of the anti-vibration window frame fixture 100 applicable to the anti-vibration window frame 20 according to the second embodiment of the present invention.

In the anti-vibration window frame fixture 100 shown in FIG. 11 , the wall-side flange 130 has a thickness that increases from its end toward the window-side flange 120 .

As described above, in the anti-vibration window frame fixture 100 according to an embodiment of the present invention, the relative movement of the window side flange unit 120 with respect to the wall side flange unit 130 and the sealant 180 are used as a medium (3) Vibration of the window frame (2) is prevented by the relative movement of the wall side flange portion (130) to the. It may be advantageous in terms of vibration prevention that the window frame fixture 100 is disposed on the edge of the window frame frame 2 as much as possible. may be desirable.

Therefore, when the window frame (2) protrudes a lot from the finished surface and protrudes more than 30 mm, the width of the window side flange unit 120 is not made larger than 30 mm, and the window side flange unit using the wall side flange unit 135 having an increased thickness. The width (to be precise, the inner width) of the branch 120 may be maintained within 30 mm.

On the other hand, when the wall-side flange portions 130 and 135 have a sufficient thickness, a groove 137 may be formed on the outer surface of the wall-side flange portions 130 and 135 as shown in FIG. 11 . The groove 137 communicates with the through-hole 140 formed in the wall-side flange portions 130 and 135 and may extend along the longitudinal direction of the wall-side flange portions 130 and 135 .

When the sealant 180 is applied to the wall side flanges 130 and 135 in order to mount the window frame fixture 100 , the sealant 180 is introduced into the groove 137 through the through hole 140 to the wall side in a wider area. The flange portions 130 and 135 may be adhered to the finished surface of the finishing material 3 .

12 is a flowchart illustrating a window frame installation method according to an embodiment of the present invention. According to the window frame installation method according to an embodiment of the present invention, first, the window frame frame 2 may be coupled to the opening of the wall 1 (S910). The wall 1 is provided with a finishing material 3 , and various insulating materials 5 and the like may be interposed between the wall 1 and the finishing material 3 . The window frame 2 may be coupled to the opening of the wall 1 by a bracket 50 . Unnecessary gaps around the bracket 50 may be filled with urethane foam (not shown) or the like. Here, the window frame 2 may be coupled to form a step by protruding in the direction in which the finishing material 3 is disposed, and preferably may be coupled to protrude within 50 mm from the finished surface of the finishing material 3 .

In a state in which the sash frame 2 is coupled to the wall 1, the sash fixture 100 may be disposed. The window side flange 120 faces the window frame 2 and the wall side flange 130 is a finishing material ( 3) may be arranged to contact the surface (S920). The sash fixture 100 may have the same length as the side surface of the sash frame 2 , or may be disposed only on a part of the side surface of the sash frame 2 with a shorter length. The window frame fixture 100 may be disposed so that the edge of the finishing material 3 is located inside the bent portion of the window side flange 120 and the wall side flange 130 as in FIGS. 3 and 4, and FIGS. 7 and As shown in FIG. 8 , the bent portions of the window side flange 120 and the wall side flange 130 may be disposed to face the outside of the finishing material 3 .

In a state in which the window frame fixture 100 is placed in the correct position, the window side flange 120 may be adhered to the edge of the side surface of the window frame 2 (S930). If the double-sided tape 150 is not provided on the window side flange unit 120 in advance, the step of attaching the double-sided tape 150 to the outer surface of the window side flange unit 120 or applying an adhesive may be preceded.

In a state where the window side flange unit 120 is adhered to the side surface of the window frame 2 and the wall side flange unit 130 is in contact with the finished surface, the sealant 180 may be applied to the wall side flange unit 130 ( S940). In the case of the first embodiment of the present invention, the sealant 180 may be applied to contact all of the window frame 2 , the wall side flange 130 , and the finishing material 3 . In the case of the second embodiment of the present invention, the sealant 180 penetrates into the space under the end of the wall-side flange 130 and the space around the through-hole 140 to adhere the wall-side flange 130 to the finishing material 3 . can do.

In the above, the window frame fixture 100 has been described focusing on the case where it is installed on the side of the window frame 2, but as described above, the upper and lower surfaces of the protruding part of the window frame 2 can also be viewed as side surfaces, The sash fixture 100 may be applied to the upper surface and/or the lower surface of the protruding portion of the sash frame 2 .

As used herein, the term "worker" may be a person performing a task, but may also be an automated device or system that performs the window frame installation method according to an embodiment of the present invention according to a readable command.

According to an embodiment of the present invention, even if the window frames 10 and 20 are installed to protrude from the wall 1 due to space constraints or aesthetic needs, the It is possible to prevent the applied impact from causing vibration in the coupling member such as the bracket 50 coupling the window frame (2).

Specifically, the actual shock applied to the sash frame 2 causes the bracket 50 to transmit to the wall 1, but the vibration of the coupling member such as the bracket 50 caused by the impact causes the sash fixture 100 to Vibration can be suppressed by supporting at the edge of the window frame (2). The window frame fixture 100 has a structure in which the window side flange 120 and the wall side flange 130 form a “L” shape, and the wall side flange unit 130 is coupled to the finishing material 3 by the sealant 180 . As a result, the vibration and vibration of the bracket 50 is caused by the relative movement of the window side flange unit 120 with respect to the wall side flange unit 130 and the wall side flange unit 130 with respect to the finishing material 3 via the sealant 180 as a medium. It can be absorbed by relative movement.

Since vibration of the window frames 10 and 20 is prevented, it is possible to reduce the possibility that fatigue failure occurs in members such as the bracket 50 or the wallpaper attached to the outer surface of the finishing material 3 is separated, and as a result, the window frame 10 , 20) and the durability of the finishing material (3) can be increased.

Although the above has been described with reference to one embodiment of the present invention, those of ordinary skill in the art may change the present invention in various ways within the scope not departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that modifications and variations are possible.

1: wall 2: window frame
3: Finishing material 50: Bracket
10, 20: Anti-vibration window frame 100: Anti-vibration window frame fixture
120: window side flange portion 130: wall side flange portion
140: through hole 150: double-sided tape

Claims (9)

As a window frame fixture for preventing vibration of a window frame frame that protrudes in one direction from a wall and forms a step,
a window side flange portion extending along the protruding portion of the window frame and configured to be adhered to an edge of a side surface of the window frame facing the wall;
a double-sided tape for adhering the window side flange to the edge of the side surface of the window frame;
a wall-side flange portion bent from one side of the window-side flange portion and configured to contact the surface of the finishing material located at a predetermined distance from the surface of the wall; and
and a sealant for adhering the wall-side flange portion to the surface of the finishing material,
The sealant contains silicone (silicone caulk),
Three or more through-holes are formed in the wall-side flange portion at equal intervals within 65 mm, and grooves communicating with the through-holes are formed to extend along the longitudinal direction of the wall-side flange portion, and the sealant is formed on the surface of the finishing material. It is applied over the wall-side flange portion overlapping with the window frame frame, the wall-side flange portion and the finishing material, and is cured after flowing into the through-hole and the groove to adhere the wall-side flange portion to the surface of the finishing material. ,
The window-side flange portion has a width of between 5 mm and 30 mm, the wall-side flange portion has a width of between 5 mm and 15 mm, and the through hole has a diameter of 2-5 mm,
As the wall-side flange portion is coupled to the finishing material, the anti-vibration window frame fastener, characterized in that the window frame frame, the window frame fastener and the finishing material are integrated.
delete The method of claim 1,
Anti-vibration window frame fixture, characterized in that the bent portion between the window side flange portion and the wall side flange portion has an inclined cross section.
The method of claim 1,
The anti-vibration window frame fixture, characterized in that the wall-side flange portion has a thickness that increases from its end toward the window-side flange portion.
The method of claim 1,
The anti-vibration window frame fixture, characterized in that the window side flange portion and the wall side flange portion are integrally molded by a molding process using a PVC material or a metal material.
delete As an anti-vibration window frame installed in an opening of a wall provided with a finishing material,
a window frame frame protruding in one direction from the wall to form a step; and
a sash fixture extending along the protruding portion of the sash frame and coupled to the edge of the side surface of the sash frame facing the wall,
The window frame fixture is
a window side flange coupled to the edge of the side surface of the window frame;
a double-sided tape for adhering the window side flange to the edge of the side surface of the window frame;
a wall-side flange portion bent from one side of the window-side flange portion and configured to be adhered to the finished surface of the finishing material; and
and a sealant for adhering the wall-side flange portion to the surface of the finishing material,
The sealant contains silicone (silicone caulk),
Three or more through-holes are formed in the wall-side flange portion at equal intervals within 65 mm, and grooves communicating with the through-holes are formed to extend along the longitudinal direction of the wall-side flange portion, and the sealant is formed on the surface of the finishing material. It is applied over the wall-side flange portion overlapping with the window frame frame, the wall-side flange portion and the finishing material, and is cured after flowing into the through-hole and the groove to adhere the wall-side flange portion to the surface of the finishing material. ,
The window-side flange portion has a width of between 5mm to 30mm, the wall-side flange portion has a width of between 5mm and 15mm, and the through-hole has a diameter of 2 to 5mm.
8. The method of claim 7,
Anti-vibration window frame, characterized in that the insertion groove into which the window side flange part of the window frame fixture is inserted is formed on the side surface of the window frame frame.
A method of installing a window frame in an opening of a wall using the anti-vibration window frame fixture according to claim 1,
coupling the window frame to the opening of the wall to protrude from the wall in one direction to form a step;
attaching the double-sided tape to the surface facing the window frame from the window side flange;
arranging the window frame fixture so that the wall-side flange portion is in contact with the finished surface;
attaching the double-sided tape to the window frame and adhering the window side flange to the edge of the side surface of the window frame; and
and applying the sealant to the wall-side flange portion so that the sealant is in contact with all of the window frame frame, the wall-side flange portion and the finishing material while the wall-side flange portion is overlapped with the finished surface.

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