KR200497787Y1 - Frame that supports glass windows in the horizontal direction - Google Patents

Abstract

In the present invention, a plurality of insulating structural members are interposed between the horizontal bar supporting a plurality of glass windows and the glass window, so that heat transmitted from the window does not directly contact the horizontal bar, and the plurality of insulating structural members are arranged to be spaced apart from each other without contacting the window. It relates to a horizontal support frame for a glass window that can reduce the heat transfer rate by preventing heat conduction between insulating structural members.
The present invention relates to a glass window horizontal support frame supporting a plurality of glass windows, with a first glass window disposed on one side and the other side of the center of the connection area where the plurality of glass windows are connected at regular intervals. 2 A horizontal bar supporting the end area of the glass window, a first insulating structural member disposed between the first glass window and one side of the horizontal bar and supporting the bottom and side surfaces of the first glass window, and the second glass window and the horizontal bar. It is disposed between the other sides of the bar, supports the lower surface and side surface of the second glass window, and includes a second insulating structural member spaced apart from the first insulating structural member, wherein the horizontal bar includes a frame body and a center of the upper surface of the frame body. A protruding frame that protrudes from the area to the center of the connection area and has a first insulating member insertion portion formed therein, and a first insulating structural member insertion groove formed in one area of the protruding frame and into which the first insulating structural member is inserted. and a second insulation structural member insertion groove formed on the other side of the protruding frame and into which the second insulation structural member is inserted.

Description

Frame that supports glass windows in the horizontal direction}

The present invention relates to a horizontal support frame for a glass window. More specifically, a plurality of insulating structural members are interposed between a horizontal bar supporting a plurality of glass windows and the glass window, so that heat transmitted from the window does not directly contact the horizontal bar, It relates to a horizontal support frame for a glass window that can reduce the heat transfer rate by preventing heat conduction between the insulating structural members by arranging a plurality of insulating structural members to be spaced apart from each other without contact.

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.

In general, windows with a single piece of glass have poor thermal and soundproofing performance, so double-glazed glass such as fair glass is mostly used in windows constructed at the entrances of government offices, schools, hospitals, and shopping malls that require a certain degree of thermal insulation or soundproofing. do.

The window frame used to fix and install the double glass is usually made into a rectangular frame when constructing doors, windows, interior partitions, etc., and the double glass is installed in the inner area of the rectangular body or the double glass is installed or accessed. A door is installed for.

At this time, when the horizontal bar supporting the window is in direct contact with the window, heat is transferred directly from the window to the frame, resulting in poor insulation.

To solve this problem, an insulating structural material for insulation is placed between the window and the horizontal bar. This prevents heat from the window and outside air from being transferred directly to the horizontal bar, but it is difficult to lower the heat transfer rate with a single insulating structural material. Not only is there a limitation, but even if a plurality of insulating structural members are disposed, there is a problem in that heat conduction occurs between the insulating structural members due to contact between the plurality of insulating structural members, resulting in reduced insulating efficiency.

Republic of Korea Patent Publication No. 10-1183990 (Title of invention: Window frame with excellent airtightness and insulation effect, Announcement date: September 12, 2012)

In order to solve the above-described problem, the present invention has a plurality of insulation structural members interposed between the horizontal bar supporting the plurality of glass windows and the glass window, so that the heat transmitted from the window does not directly contact the horizontal bar, and the plurality of insulation structural members The purpose is to provide a horizontal support frame for a glass window that can reduce the heat transfer rate by preventing heat conduction between insulating structural members by being spaced apart from each other without contact.

In order to solve the above-described problem, the present invention is a horizontal support frame for a glass window that supports a plurality of glass windows, with one side and the other side of the center based on the center of the connection area where the plurality of glass windows are connected at regular intervals. a horizontal bar supporting the end regions of the first glass window and the second glass window, and a first insulating structural member disposed between one side of the first glass window and the horizontal bar to support the lower surface and side surfaces of the first glass window, and , disposed between the second glass window and the other side of the horizontal bar, supporting the lower surface and side surface of the second glass window, and comprising a second insulation structural member spaced apart from the first insulation structural member, wherein the horizontal bar is a frame body and a protruding frame that protrudes from the central area of the upper surface of the frame body to the center of the connection area and has a first insulating member insertion portion formed therein, and is formed in one area of the protruding frame, and the first insulating structural member is A horizontal support frame for a glass window is provided, comprising an insertion groove for a first insulating structural member into which the first insulating structural member is inserted, and a second insulating structural member insertion groove formed on the other side of the protruding frame and into which the second insulating structural member is inserted.

Here, the first insulating structural member includes a first lower surface support portion inserted into the first insulating structural material insertion groove, and a vertically protruding portion from an end of the first lower support portion, which is disposed spaced apart from the side of the first glass window. It includes a first side support portion, and the first side support portion may be in contact with one side of the protruding frame.

In addition, the second insulation structural member includes a second lower surface support portion inserted into the second insulation structural material insertion groove, and a vertically protruding portion from an end of the second lower surface support portion, which is disposed spaced apart from the side of the second glass window. It includes a second side support portion, and the second side support portion may be in contact with the other side surface of the protruding frame.

Additionally, a first insulating member is inserted into the first insulating member insertion portion, and the first insulating member may be an azone.

In addition, they are respectively disposed in an area between the first lower surface support part and the lower surface of the first glass window and in an area between the second lower surface support part and the lower surface of the second glass window, and are respectively disposed between the first lower surface support part and the lower surface of the first glass window and the second lower surface support part. 2 It may further include a plurality of second insulation members that couple the lower surface support portion to the lower surface of the second glass window.

In addition, it is disposed in an area between the first side support and the side of the first glass window and in an area between the second side support and the side of the second glass window, respectively, and is disposed between the first side support and the side of the first glass window and the second side. It may further include a plurality of third insulating members that couple the two side supports and the sides of the second glass window.

The horizontal window support frame according to the present invention has the following effects.

First, there is an advantage in that a plurality of insulating structural members are interposed between the horizontal bar supporting the plurality of glass windows and the glass window, thereby reducing the heat transfer rate by preventing heat transferred from the glass window from directly contacting the horizontal bar.

Second, there is an advantage in that a plurality of insulating structural members are arranged to be spaced apart from each other without contact, thereby preventing heat conduction between the insulating structural members and reducing the heat transfer rate.

Figure 1 is a diagram schematically showing the overall configuration of a horizontal window support frame according to the present invention.
Figure 2 is a diagram specifically showing the horizontal bar of the horizontal window support frame according to the present invention.
Figure 3 is a diagram specifically showing the first and second insulation structural members and finishing frames of the horizontal support frame for a glass window according to the present invention.
Figure 4 is a diagram illustrating the coupling relationship between the first and second glass windows, the horizontal bar, the first and second insulation structural members, and the second and third insulation members of the horizontal window support frame according to the present invention.
Figure 5 is a diagram schematically showing a curtain wall to which a horizontal support frame for a glass window according to the present invention is coupled.

Hereinafter, preferred embodiments of the present invention, in which the above-described problem to be solved can be concretely realized, will be described with reference to the attached drawings. In describing the present embodiments, the same names and the same symbols are used for the same components, and additional description accordingly is omitted below.

With reference to Figures 1 to 5, the horizontal support frame for a glass window according to the present invention will be described as follows.

First, the glass window supported by the horizontal window support frame according to the present invention is composed of double-glazed windows, and the plurality of glass windows are preferably arranged at regular intervals. As shown in FIG. 5, the plurality of glass windows are arranged at regular intervals. They are arranged at intervals, and a horizontal window support frame (F) according to the present invention is disposed between the glass windows (W) to support the end area of the window.

Figure 1 is a diagram schematically showing the overall configuration of the horizontal support frame for a glass window according to the present invention, and is a diagram showing a cross section A-A' in Figure 5, and as shown in Figure 1, the horizontal support frame for a glass window according to the present invention. A horizontal bar 100, a first insulating structural member 200, a second insulating structural member 300, a finishing frame 400, a first insulating member 500, a second insulating member 600, a third insulating member ( 700) and sealant (800).

The plurality of glass windows includes a first glass window (W1) and a second glass window (W2) disposed on one side and the other side of the center of the connection area where the plurality of glass windows are connected at regular intervals. .

The horizontal bar 100 supports the end regions of the first glass window W1 and the second glass window W2 disposed on one side and the other side of the center, and specifically, the horizontal bar 100 is connected to the frame body 110. , includes a protruding frame 120, a first insulation structural member insertion groove 130, and a second insulation structural member insertion groove 140.

Figure 2 is a diagram specifically showing the horizontal bar 100 of the horizontal support frame for a glass window according to the present invention, and the specific configuration of the horizontal bar 100 will be described with reference to Figure 2 as follows.

The frame body 110 is formed in an overall rectangular shape, and its upper surface supports the first glass window W1 and the second glass window W2.

The protruding frame 120 is formed to protrude from the central area of the upper surface of the frame body 110 toward the center (C') of the connection area (C), and forms the first insulation structural member 200 and the second insulation structural member. It plays a role in supporting the side of (300). At this time, the center of the protruding frame 120 and the center are the same.

A first insulation member insertion portion 121 is formed inside the protruding frame 120, and a first insulation member 500 is inserted into the first insulation member insertion portion 121, wherein the first insulation member 500 is inserted into the first insulation member insertion portion 121. The member 500 is preferably azone.

By inserting the azone into the first insulation member insertion portion 121, heat transfer of outside air to the protruding frame 120 through the glass window is blocked from being heat conducted to the frame body 110, and at the same time, the glass window is blocked. It can withstand and support the load.

In addition, an insulating structural member fixing part 122 is formed on at least one of the upper one side and the other side of the protruding frame 120 to fix the first insulating structural member 200 or the second insulating structural member 300, which will be described later, A detailed explanation of this will be provided later.

The first insulating structural member insertion groove 130 is formed in one area of the protruding frame 120 on the upper surface of the frame body 110, and is formed in a groove shape so that the first insulating structural member 200 can be inserted. .

The second insulating structural member insertion groove 140 is formed in the other area of the protruding frame 120 on the upper surface of the frame body 110, and is formed in a groove shape so that the second insulating structural member 300 can be inserted. .

The first insulating structural member 200 is disposed between the first glass window W1 and one side of the horizontal bar 100, and at least a portion of the area is inserted into the first insulating structural member insertion groove 130. 1 Support the bottom and sides of the glass window (W1).

Figure 3 is a diagram specifically showing the first and second insulating structural members 300 and the finishing frame 400 of the horizontal support frame for a glass window according to the present invention. With reference to Figure 3, the first insulating structural member 200 The explanation is as follows.

The first insulating structural member 200 includes a first lower surface support part 210 and a first side support part 220.

The first lower surface support portion 210 is inserted into the first insulation structural member insertion groove 130. At this time, it is preferable that the first lower surface support portion 210 and the frame body 110 have the same height.

The first side support portion 220 protrudes in the vertical direction from an end of the first lower surface support portion 210 in the direction of the protruding frame 120, and is arranged to be spaced apart from the side of the first glass window W1. It contacts one side of the protruding frame 120.

Here, a first frame insertion portion 221 is formed at an end of the first side support portion 220 to be stepped so that it can be inserted into the finishing frame 400.

In addition, the first insulating structural member 200 may further include a first outside air blocking portion 222 protruding from the central area of the first side support 220 toward the center, and blocking the first outside air. The part 222 increases the insulation effect by blocking external air that may enter from the connection area toward the horizontal bar 100.

The second insulating structural member 300 is disposed between the second glass window W2 and the other side of the horizontal bar 100, and at least a portion of the area is inserted into the second insulating structural member insertion groove 140. 2 Support the bottom and sides of the glass window (W2).

As shown in FIG. 3, the second insulating structural member 300 includes a second bottom support portion 310 and a second side support portion 320.

The second lower surface support portion 310 is inserted into the second insulation structural member insertion groove 140. At this time, it is preferable that the second lower surface support portion 310 and the frame body 110 have the same height.

The second side support part 320 protrudes in the vertical direction from an end of the second lower surface support part 310 in the direction of the protruding frame 120, and is arranged to be spaced apart from the side of the second glass window W2. It contacts one side of the protruding frame 120.

Here, a second frame insertion portion 321 is formed at an end of the second side support portion 320 to be stepped so that it can be inserted into the finishing frame 400.

In addition, the second insulating structural member 300 may further include a second outside air blocking portion 322 protruding from the central area of the second side support portion 320 toward the center, and blocking the second outside air. The portion 322 increases the insulation effect by blocking external air that may enter from the connection area toward the horizontal bar 100.

The first insulating structural member 200 and the second insulating structural member 300 are disposed between the first glass window W1, the second glass row, and the horizontal bar 100, so that the first glass window W1 And the heat transfer rate can be reduced by preventing the heat transferred from the second glass window W2 from directly contacting the horizontal bar 100.

In addition, a fine gap exists between the first outside air blocking portion 222 and the second outside air blocking portion 322 formed in the first heat insulating structural member 200 and the second heat insulating structural member 300, and accordingly, the 1 The heat insulating structural member 200 and the second insulating structural member 300 are arranged to be spaced apart from each other without contact, thereby preventing heat conduction between the first insulating structural member 200 and the second insulating structural member 300 to reduce the heat transfer rate. It becomes possible.

The finishing frame 400 is made of an insulating material, and a first insertion groove 410 and a second insertion groove 420 are formed, and each of the first insertion groove 410 and the second insertion groove 420 is formed. By combining the first frame insertion part 221 and the second frame insertion part 321, the outside air is prevented from directly contacting the first insulating structural member 200 and the second insulating structural member 300.

Figure 4 shows the first and second glass windows (W2), the horizontal bar 100, the first and second insulation structural members 300, and the second and third insulation members 700 of the horizontal window support frame according to the present invention. This diagram is shown to explain the coupling relationship.

As shown in FIG. 4, the second heat insulating member 600 is composed of a plurality, and the area between the first lower surface support part 210 and the lower surface of the first glass window W1 and the second lower surface support part 310 ) and the lower surface of the second glass window (W2), respectively, are disposed in the area between the first lower surface support part 210 and the lower surface of the first glass window (W1) and the second lower surface support part 310 and the second glass window ( W2) Combine the lower surfaces.

At this time, the second insulation member 600 is composed of a thick tape such as Norton tape, between the first glass window W1 and the first lower support part 210 and between the second glass window W2 and the At the same time as preventing outside air from entering between the second lower surface supports 310, the first glass window W1, the first lower surface support part 210, the second glass window W2, and the second lower surface supports 310 By preventing direct contact, the heat transfer rate between the first glass window W1 and the first insulating structural member 200 and the second glass window W2 and the second insulating structural member 300 is reduced.

In addition, the second insulation member 600 serves to fix the first glass window W1 and the second glass window W2 until the sealant 8000 hardens.

The third insulating member 700 is composed of a plurality of pieces, and includes an area between the first side support 220 and the side of the first glass window W1, and the second side support 320 and the second glass window W2. ) are disposed in the area between the sides, respectively, to couple the first side support portion 220 and the side surface of the first glass window (W1) and the second side support portion 320 and the side surface of the second glass window (W2).

The third insulating member 700 is a backup member and serves as an insulating material as it is made of a sponge with insulating properties, and is connected to the first side support 220, the side of the first glass window W1, and the second Prevents outside air from entering between the side support portion 320 and the side of the second window W2.

The sealant 800 is applied between the first glass window W1 and the first lower surface support part 210, between the second glass window W2 and the second lower surface support part 310, and between the first side support part 220. and the area between the side surfaces of the first glass window (W1) and between the second side support portion 320 and the side surfaces of the second glass window (W2), thereby performing a finishing role and preventing the entry of outside air and rainwater.

At this time, the sealant 8000 serves to fix the first window W1 and the second window W2 and maintain wind pressure, so it is preferably a structural sealant.

As explained above, the present invention is not limited to the specific preferred embodiments described above, and various modifications may be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. is possible and such modifications fall within the scope of the present invention.

100: horizontal bar
110: frame body
120: protruding frame
121: First insulation member insertion portion
122: Insulating structural material fixing part
130: First insulation structural member insertion groove
140: Second insulation structural member insertion groove
200: First insulation structural material
210: first lower support portion
220: first side support
221: First frame insertion portion
222: First external air blocking unit
300: Second insulation structural material
310: second lower support portion
320: second side support
321: second frame insertion portion
322: Second external air blocking unit
400: Finishing frame
410: First insertion groove
420: Second insertion groove
500: First insulation member
600: Second insulation member
700: Third insulation member
800: Sealant
W1: first window
W2: Second window

Claims (6)

In the glass window horizontal support frame supporting a plurality of glass windows,
A horizontal bar supporting end areas of the first and second glass windows disposed on one side and the other side of the center, based on the center of the connection area where the plurality of glass windows are connected at regular intervals;
a first insulating structural member disposed between the first glass window and one side of the horizontal bar and supporting a lower surface and a side surface of the first glass window; and
It is disposed between the second glass window and the other side of the horizontal bar, supports a lower surface and a side surface of the second glass window, and includes a second insulation structural member spaced apart from the first insulation structural member,
The horizontal bar is,
frame body;
a protruding frame that protrudes from the central area of the upper surface of the frame body to the center of the connection area and has a first insulating member insertion portion formed therein;
a first insulating structural member insertion groove formed in one area of the protruding frame, into which the first insulating structural member is inserted; and
It is formed in the other area of the protruding frame and includes a second insulation structural member insertion groove into which the second insulation structural member is inserted,
The first insulation structural material is,
A first lower surface support portion inserted into the first insulation structural member insertion groove;
a first side support portion that protrudes in a vertical direction from an end of the first lower support portion, is disposed to be spaced apart from a side surface of the first glass window, and is in contact with one side of the protruding frame; and
It includes a first external air blocking portion protruding from the central area of the first side support toward the center,
The second insulating structural material is,
a second lower surface support portion inserted into the second insulation structural member insertion groove;
a second side support portion that protrudes in a vertical direction from an end of the second lower support portion, is disposed to be spaced apart from a side surface of the second glass window, and is in contact with the other side surface of the protruding frame; and
It includes; a second external air blocking portion protruding from the central area of the second side support toward the center,
A horizontal support frame for a glass window, characterized in that a fine gap is formed between the first outside air blocking portion and the second outside air blocking portion so that the first and second insulating structural members do not contact each other and are spaced apart from each other. delete delete According to paragraph 1,
A first insulation member is inserted into the first insulation member insertion portion,
A horizontal support frame for a glass window, characterized in that the first insulation member is azone. According to paragraph 1,
They are respectively disposed in an area between the first lower surface support part and the lower surface of the first glass window and in an area between the second lower surface support part and the lower surface of the second glass window, wherein the first lower surface support part, the lower surface of the first glass window, and the second lower surface are provided. A horizontal support frame for a glass window, characterized in that it further comprises a plurality of second insulation members that couple the support portion to the lower surface of the second glass window. According to paragraph 1,
It is disposed in an area between the first side support and the side of the first glass window and in an area between the second side support and the side of the second glass window, respectively, and is disposed between the first side support and the first side of the glass window and the second side. A horizontal support frame for a glass window, characterized in that it further comprises a plurality of third insulating members that couple the support portion to the side of the second glass window.

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