KR20230135758A - Earthquake Resisting Window Frame Installed with Nonwellding Method - Google Patents

Abstract

The present invention relates to a non-welding installation window for earthquake resistance that can prevent bond failure due to damage to welds during vibration by avoiding the welding method in the inter-frame bonding structure. The present invention relates to a horizontal frame and a vertical frame coupled to the end of the horizontal frame. It includes a directional frame, and an intermediate member that is inserted and fixed to an end of the horizontal frame and bolted to a glass joint surface of the vertical frame to couple the horizontal frame and the vertical frame. Therefore, the intermediate member is easily inserted and fixed to the end of the horizontal frame, and can be easily fixed by the mating surface of the vertical frame and bolts, so the welding process is omitted, improving workability.

Description

Earthquake Resisting Window Frame Installed with Nonwelding Method}

The present invention relates to windows and doors, and in particular to earthquake-resistant, non-welded installed windows that can prevent bond failure due to damage to welds during vibration by avoiding the welding method in the inter-frame bonding structure.

In general, windows refer to various windows or doors installed in openings such as windows or doorways to block the inside of a building from the outside. They are installed for indoor ventilation, and are installed through the windows into the building. You can also check the outside from the inside.

These windows are divided into a window that opens and closes the opening by sliding or hinged, and a window frame on which the window is installed. The frame that makes up the window, which is composed of a window and a window frame, is manufactured to form a square window or window frame using a plurality of unit profiles that are cut at 45° angles at both ends. Depending on the window material, it is divided into metal windows and synthetic resin windows. Windows made of metal have a beautiful appearance, but are expensive and have poor insulation performance, so windows made of synthetic resin are mainly used. As an example, Republic of Korea Patent Publication No. 10-0653445 discloses inserting and installing metal reinforcing materials such as steel or aluminum inside the frame of a window made of synthetic resin. However, although this structure can improve the reinforcing force and wind pressure resistance of windows made of synthetic resin to some extent, it is difficult to expect earthquake-resistant performance, and also the metal reinforcing material causes heat to be lost to the outside due to heat conduction phenomenon. This caused a decrease in insulation performance.

Meanwhile, building openings are reported to be vulnerable to earthquakes, as stress concentration is greater than in other parts, so when an earthquake occurs, tensile cracks in masonry walls are likely to start from the openings. In particular, building openings where windows are installed due to frequent earthquakes recently. The need for earthquake-resistant design is expanding.

As an example of an earthquake-resistant design of such a building opening, Republic of Korea Patent Publication No. 10-1165320 first provides a space between the upper slab 21 and the lower slab 22 and both vertical columns 23, as shown in FIGS. 1A to 1C. By installing a square-shaped steel frame (30) in the building opening (S), constructing a reinforced concrete wall (40) on the inner lower part of the steel frame (30), and then installing windows (10), the earthquake resistance of the building opening is reduced. It is proposed to enhance performance.

However, in the earthquake-resistant design structure as described above, the window 10 itself does not have earthquake-resistant performance, but the earthquake-resistant performance is reinforced by the steel frame 30 and the reinforced concrete wall 40, etc., and the steel frame 30 is Since it is manufactured by welding or fastening the expensive H-beam upper member 31, vertical member 32, lower member 33, and brace member 34 with fastening bolts, material costs increase and windows 10 are installed. The construction is complicated, such as installing the reinforcing bar assembly (41) at the bottom of the space and pouring concrete to construct the reinforced concrete wall (40), so the construction period is long, the construction cost is high, and the insulation performance depends on the use of the steel frame (30), etc. and there were disadvantageous problems in securing airtightness performance, and as a disclosure to solve this problem, a window including a window frame composed of a combination of a composite material profile containing reinforcing fiber and synthetic resin of Patent Publication No. 10-2020-0140518 is disclosed, This launch also cannot avoid the problems of structural complexity and still increasing costs.

Registered Patent No. 10-1165320 (announced on July 18, 2012) Public Patent No. 10-2020-0140518 (published on December 16, 2020)

The purpose of the present invention is to provide an earthquake-resistant non-welded installation window with improved earthquake resistance performance by inserting and fixing an intermediate member into a horizontal frame and connecting the intermediate member and the vertical frame with bolts. Other purposes of the present invention can all be achieved by the detailed description of the present invention described with reference to the attached drawings.

In order to achieve this purpose, the earthquake-resistant non-welded installation window of the present invention includes a horizontal frame, a vertical frame coupled to an end of the horizontal frame, and inserted and fixed to an end of the horizontal frame, and the vertical frame is inserted into and fixed to the end of the horizontal frame. It includes an intermediate member that is bolted to the glass joint surface of the directional frame so that the horizontal frame and the vertical frame are coupled.

In addition, in the present invention, the horizontal frame includes an upper frame coupled to an upper end of the vertical frame, and a lower frame coupled to a lower end of the vertical frame, and each of the upper frame and the lower frame is, It consists of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal extension portion extending vertically facing each other from the upper edge of the side portion,

The intermediate member inserted into the upper frame and the lower frame includes a U-shaped facing portion corresponding to the cross-sectional shape of the upper frame and the lower frame, a support portion extending vertically from both edges of the facing portion, and the glass combination. A first bolt fixing portion extending vertically from the facing portion along the inner surface of the groove and configured to be bolted to the glass engaging groove portion, and extending vertically from the upper edge of the support portion along the inner surface of the horizontal extension portion to It includes a second bolt fixing portion configured to be bolted to the horizontal extension portion.

In addition, in the present invention, the horizontal frame further includes a first intermediate frame installed between the upper frame and the lower frame, and the first intermediate frame includes a first groove forming portion in which a first glass engaging groove is formed, and It consists of an upper frame composed of a side part extending vertically from both edges of the first groove forming part and a second groove forming part in which a second glass engaging groove is formed to connect both end edges of the side part,

The intermediate member inserted into the first intermediate frame includes an H-shaped facing portion corresponding to the cross-sectional shape of the first intermediate frame, a support portion extending vertically from both edges of the facing portion, and a portion of the first glass coupling groove. A third bolt fixing part extending vertically from the facing portion along the inner surface and configured to be bolted to the first glass coupling groove portion, and along the inner surface outside the second glass coupling groove of the second groove forming part. It includes a fourth bolt fixing portion that extends vertically from the upper edge of the support portion and is configured to be bolted to an outer portion of the second glass coupling groove.

In addition, in the present invention, the horizontal frame further includes a second intermediate frame consisting of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal connecting portion connecting both ends of the side portion. Contains,

The intermediate member inserted into the second intermediate frame includes a U-shaped facing portion corresponding to the cross-sectional shape of the second intermediate frame, a support portion extending vertically from both edges of the facing portion, and an inner surface of the glass coupling groove. It may include a fifth bolt fixing part extending vertically from the facing portion along the inner surface of the outer side of the second glass coupling groove and a sixth bolt fixing part extending vertically from the upper edge of the support part. .

Additionally, in the present invention, the horizontal frame may include an upper frame coupled to an upper end of the vertical frame, and a lower frame coupled to a lower end of the vertical frame, each of the upper frame and the lower frame , It may be composed of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal extension portion extending vertically facing each other at the upper edge of the side portion, and the upper frame and the lower frame. The intermediate member inserted into may include a U-shaped facing portion corresponding to the cross-sectional shape of the upper frame and the lower frame, and a support portion extending vertically from both edges of the facing portion, and the intermediate member may include The glass coupling groove and the inner surface of the horizontal extension may be joined by welding.

According to the earthquake-resistant non-welded installation window of the present invention, the intermediate member is easily inserted and fixed to the end of the horizontal frame, and can be easily fixed by the joining surface of the vertical frame and bolts, thereby eliminating the welding process. Because it is omitted, workability is improved, and there is no risk of damage to the welded product even when vibrations such as an earthquake are transmitted, making it possible to function as an earthquake-resistant window.

1 is an overall configuration diagram of an earthquake-resistant non-welded installation window according to an embodiment of the present invention;
Figure 2 is a perspective view of a configuration in which the upper frame 110 is coupled to the top of the vertical frame 200 according to the embodiment of Figure 1;
Figure 3 is a perspective view of a configuration in which the first intermediate frame 130 is coupled to the vertical frame 200 according to the embodiment of Figure 1;
Figure 4 is a perspective view of a configuration in which the lower frame 120 is coupled to the lower end of the vertical frame 200 according to the embodiment of Figure 1;
Figure 5 is a perspective view of a configuration in which horizontal frames are coupled to both sides of a vertical frame 200' in the inner space of a window according to the embodiment of Figure 1;
Figure 6 is a perspective view showing the combined structure of a vertical frame and a horizontal frame in an earthquake-resistant non-welded installation window according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings. Terms or words used in this specification and patent claims should not be construed as limited to their usual or dictionary meanings, but should be construed with meanings and concepts consistent with the technical details of the present invention.

Figure 1 is an overall configuration diagram of an earthquake-resistant non-welded installation window according to an embodiment of the present invention. Referring to Figure 1, the earthquake-resistant non-welded installation window of the present invention includes a horizontal frame 100, a vertical frame 200, and an intermediate member 300.

The horizontal frame 100 is a frame for supporting the upper and lower surfaces of the square glass, the number and cross-sectional shape of which are determined depending on the arrangement of the installed glass, and a glass coupling groove is formed to accommodate the square glass.

The vertical frame 200 is coupled to the end of the horizontal frame 100, and is a frame for supporting both sides of the square glass. Together with the horizontal frame 100, it surrounds and supports the edges of the square glass, A glass bonding surface is formed on one or both sides.

The intermediate member 300 is inserted and fixed to an end of the horizontal frame 100, and is bolted to the glass joint surface of the vertical frame 200 to form the horizontal frame 100 and the vertical frame 200. ) are combined. Therefore, since the horizontal frame 100 and the vertical frame 200 are assembled only by bolting rather than using a welding method, the assembly process is simplified and installation costs are reduced, and after assembly, the space between the horizontal frame and the vertical frame is reduced. Since no welding area is formed and the parts are joined by bolts, earthquake resistance performance can be improved.

Figures 2 to 5 are perspective views showing the specific configuration of parts A, B, C, and D of Figure 1, where the left (a) shows the assembled state (bolts not fastened) and the right (b) shows the state before assembly. . 2 and 4, in one embodiment of the present invention, the horizontal frame 100 includes an upper frame 110 coupled to the upper end of the vertical frame 200, and the vertical frame 100. It includes a lower frame 120 coupled to the lower end of (200), and each of the upper frame 110 and the lower frame 120 includes groove forming portions 112 and 122 in which glass coupling grooves 111 and 121 are formed, and It consists of side parts (115, 125) extending vertically from both edges of the groove forming parts (112, 122) and horizontal extension parts (117, 127) extending vertically facing each other from the upper edges of the side parts.

In addition, the intermediate members 310 and 320 inserted into the upper frame 110 and the lower frame 120 have a U-shape corresponding to the cross-sectional shape of the upper frame 110 and the lower frame 120. The facing portion (311, 321), the support portion (313, 323) extending vertically from both edges of the facing portion (311, 321), and the facing portion (313, 323) along the inner surface of the glass coupling groove (111, 121). The first bolt fixing portions 315, 325 extend vertically from 311, 321 and are configured to be bolted to the glass coupling groove portion, and the support portion 313 along the inner surface of the horizontal extension portions 117, 127. It includes second bolt fixing parts (317, 327) extending vertically from the upper edge of 323) and configured to be bolted to the horizontal extension parts (117, 127).

In addition, as shown in FIG. 3, in the present invention, the horizontal frame 100 further includes a first intermediate frame 130 installed between the upper frame 110 and the lower frame 120, The first intermediate frame 130 includes a first groove forming portion 132 in which a first glass coupling groove 131 is formed, a side portion 135 extending vertically from both edges of the first groove forming portion 132, and It is composed of a second groove forming portion 137 that connects both ends of the side portion 135 and has a second glass coupling groove 136 formed therein. Therefore, square glass can be installed on the upper and lower sides of the first intermediate frame 130 by the first glass coupling groove 131 and the second glass coupling groove 136.

The intermediate member 330 inserted into the first intermediate frame 130 includes an H-shaped facing portion 331 corresponding to the cross-sectional shape of the first intermediate frame 130, and the facing portion 331. A support portion 333 extending vertically from both edges, a support portion 333 extending vertically from the facing portion 331 along the inner surface of the first glass coupling groove 131 and configured to be bolted to the first glass coupling groove portion. 3 The bolt fixing portion 335 and the second glass coupling groove extend vertically from the upper edge of the support portion 333 along the inner surface of the second groove forming portion 132 to form the second glass coupling groove. It includes a fourth bolt fixing portion 337 configured to be bolted to the outer portion of the groove 136.

In addition, as shown in FIG. 5, in the present invention, the horizontal frame 100 has a groove forming portion 142 in which a glass coupling groove 141 is formed and a groove forming portion 142 extending vertically from both edges of the groove forming portion 142. It further includes a second intermediate frame 140 consisting of a side portion 145 and a horizontal connection portion 147 connecting both ends of the side portion 145. Since the glass coupling groove 141 is formed on the upper surface of the second intermediate frame 140, unlike the first intermediate frame 130, square glass can be installed only on the upper side.

The intermediate member 340 inserted into the second intermediate frame 140 includes a U-shaped facing portion 341 corresponding to the cross-sectional shape of the second intermediate frame 140, and the facing portion 341. A support portion 343 extending vertically from both edges, a fifth bolt fixing portion 345 extending vertically from the facing portion 341 along the inner surface of the glass coupling groove 141, and the second glass coupling. It may include a sixth bolt fixing part 347 extending vertically from the upper edge of the support part 343 along the inner surface outside the groove 141.

Unlike the vertical frame 200 in the embodiment of Figures 2 to 4 in which one side is open, the vertical frame 200' in the embodiment of Figure 5 is a horizontal frame in the left and right directions in the inner space of the window. Because it has a combined structure, it has a cross-sectional shape with both sides closed.

2 to 5, the intermediate member corresponding to the vertical frame is first fastened with bolts, and then the horizontal frame is extrapolated to cover the intermediate member, and then the horizontal frame is extrapolated to cover the intermediate member. The window is completed by bolting between the frame and the intermediate member, and the completed window is installed on the wall.

Figure 6 is a perspective view showing the combined structure of a vertical frame and a horizontal frame in an earthquake-resistant non-welded installation window according to another embodiment of the present invention. Referring to FIG. 6, in an embodiment of the present invention, the horizontal frame 100 includes an upper frame 110 coupled to the upper end of the vertical frame 200 and a lower frame coupled to the lower end of the vertical frame. It includes a frame 120, wherein each of the upper frame 110 and the lower frame 120 has groove forming portions 112 and 122 in which glass coupling grooves 111 and 121 are formed, and is vertical at both edges of the groove forming portion. It may be composed of side parts 115, 125 extending to and horizontal extension parts 117, 127 extending vertically facing each other at the upper edge of the side part, and an intermediate member inserted into the upper frame and the lower frame ( 350 includes a U-shaped facing portion 351, 361 corresponding to the cross-sectional shape of the upper frame and the lower frame, and a support portion 353 extending vertically from both edges of the facing portion 351, 361. , 363).

And, in this embodiment, the intermediate member 350 is coupled to the inner surfaces of the glass coupling grooves 111 and 121 and the horizontal extension portions 117 and 127 by welding.

In this embodiment, the welded portion M is formed between the horizontal frame and the intermediate member inserted in close contact with the inside thereof, so there is a low possibility of damage or separation due to vibration, and the intermediate member and the vertical frame are connected by bolting. Therefore, it is possible to demonstrate robust earthquake resistance performance.

In addition, in this embodiment, the end of the horizontal frame is sealed by welding the intermediate member to the horizontal frame in advance, so a long bolt extending to the other end of the horizontal frame must be used to fasten to the vertical frame. .

The work sequence according to this embodiment is that first, all intermediate members whose specifications match the ends of the horizontal frame are joined by welding, and then the horizontal frame to which the intermediate members are joined is aligned to the joint surface of the vertical frame. The windows are completed by bolting them using long bolts, and the completed windows are installed on the wall of the building.

Although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and can be used within the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the patent claims. Various modifications can be made by those with knowledge. In addition, matters that can be easily inferred from the attached drawings should be viewed as included in the content of the present invention even if not described in the detailed description, and various modifications should not be understood individually from the technical idea or perspective of the present invention. It won't work.

100: horizontal frame
200: vertical frame
300: intermediate member

Claims (5)

landscape frame;
a vertical frame coupled to an end of the horizontal frame; and
an intermediate member that is inserted and fixed to an end of the horizontal frame and is bolted to a glass joint surface of the vertical frame to couple the horizontal frame and the vertical frame;
Earthquake-resistant non-welded installation windows including.
According to paragraph 1,
The horizontal frame includes an upper frame coupled to an upper end of the vertical frame, and a lower frame coupled to a lower end of the vertical frame,
Each of the upper frame and the lower frame is composed of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal extension portion extending vertically facing each other from the upper edge of the side portion,
The intermediate member inserted into the upper frame and the lower frame,
A U-shaped facing portion corresponding to the cross-sectional shape of the upper frame and the lower frame;
Support portions extending vertically from both edges of the facing portion;
a first bolt fixing portion extending vertically from the facing portion along the inner surface of the glass coupling groove and configured to be bolted to the glass coupling groove portion; and
a second bolt fixing portion extending vertically from the upper edge of the support portion along the inner surface of the horizontal extension portion and configured to be bolted to the horizontal extension portion;
A non-welded installation window for earthquake resistance, characterized in that it includes.
According to paragraph 2,
The horizontal frame further includes a first intermediate frame installed between the upper frame and the lower frame,
The first intermediate frame includes a first groove forming portion in which the first glass engaging groove is formed, a side portion extending vertically from both edges of the first groove forming portion, and a second glass engaging groove formed to connect both end edges of the side portion. It consists of an upper frame composed of two groove forming parts,
The intermediate member inserted into the first intermediate frame is,
an H-shaped facing portion corresponding to the cross-sectional shape of the first intermediate frame;
Support portions extending vertically from both edges of the facing portion;
a third bolt fixing portion extending vertically from the facing portion along the inner surface of the first glass coupling groove and configured to be bolted to the first glass coupling groove portion; and
a fourth bolt fixing portion extending vertically from the upper edge of the support portion along an inner surface of the outer side of the second glass coupling groove of the second groove forming portion and configured to be bolted to an outer portion of the second glass coupling groove;
A non-welded installation window for earthquake resistance, characterized in that it includes.
According to paragraph 3,
The horizontal frame further includes a second intermediate frame consisting of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal connecting portion connecting both ends of the side portion,
The intermediate member inserted into the second intermediate frame is,
a U-shaped facing portion corresponding to the cross-sectional shape of the second intermediate frame;
Support portions extending vertically from both edges of the facing portion;
a fifth bolt fixing portion extending vertically from the facing portion along the inner surface of the glass coupling groove; and
a sixth bolt fixing portion extending vertically from the upper edge of the support portion along the inner surface of the outer side of the second glass coupling groove;
A non-welded installation window for earthquake resistance, characterized in that it includes.
According to paragraph 1,
The horizontal frame includes an upper frame coupled to an upper end of the vertical frame, and a lower frame coupled to a lower end of the vertical frame,
Each of the upper frame and the lower frame is composed of a groove forming portion in which a glass joining groove is formed, a side portion extending vertically from both edges of the groove forming portion, and a horizontal extension portion extending vertically facing each other from the upper edge of the side portion,
The intermediate member inserted into the upper frame and the lower frame,
A U-shaped facing portion corresponding to the cross-sectional shape of the upper frame and the lower frame; and
Support portions extending vertically from both edges of the facing portion;
Including,
The intermediate member is an earthquake-resistant non-welded installation window, characterized in that the intermediate member is joined to the glass coupling groove and the inner surface of the horizontal extension portion by welding.