KR101898222B1 - Insulation frame assembly for corner and door frame - Google Patents

Abstract

An insulation frame assembly applied to a corner or an end portion of a window frame includes a first quarter frame, a second quarter frame having one surface facing the first quarter frame, and a half frame having mutually different surfaces facing the first quarter frame and the second quarter frame, respectively. A first glass receiving part is formed in a region where the first quarter frame meets an outer surface of the half frame, and a second glass receiving part is formed in a region where the first quarter frame meets an outer surface of the second quarter frame, and a finishing part is formed in a region where the second quarter frame meets the outer surface of the half frame. A first insulating member is interposed between a first separate space, which is interposed between the first quarter frame and the half frame, and the first glass receiving part. A second insulating member is interposed between a second separate space, which is formed between the first quarter frame and the second quarter frame, and the second glass receiving part. A third insulating member is interposed between the finishing part and the first separate space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an insulating frame assembly for a corner and a door frame,

The present invention relates to a heat insulating frame assembly specialized in corner and door frames in forming a window insulating frame.

In forming the wall structure using tempered glass, a window frame is used, and a window frame can fix a single or double glass. If one glass is used, insulation and soundproofing performance deteriorates compared to the case of using a double glass. Therefore, a double glass such as a pair glass is mostly used in a window installed in an entrance such as a government office, a school, a hospital, .

However, even if a double glass is used, the conventional window frames directly contact outdoor and indoor air, so that it directly transmits outdoor temperature. Since a conventional window frame uses a stainless steel frame cover for an aluminum core, It can cause condensation due to temperature difference between inside and outside due to high temperature, and it can be a cause of heat loss.

As disclosed in Korean Patent No. 10-1767089 for solving this problem, many patents relating to window frames having a heat insulating structure are disclosed. However, these heat insulating frames are limited to a structure in which glass or the like is arranged in a line, and there is no heat insulating frame specialized for a corner or a door frame.

The present invention provides an insulation frame assembly that is specialized for corners and door frames.

The present invention provides an insulation frame assembly that can accommodate various corner and frame structures in a minimal configuration.

According to an exemplary embodiment of the present invention, an insulating frame assembly applied to a corner or an end of a window frame includes a first quarter frame, a first quarter frame, And a half frame which faces the other side of the first quarter frame and the second quarter frame at the same time, wherein a first glass accommodating portion is formed in a region where the outer surface of the first quarter frame meets the outer surface of the half frame, A second glass receiving part is formed in an area where the outer surface of the quarter frame and the outer surface of the second quarter frame meet, a finishing part is formed in a region where the outer surface of the second quarter frame meets the outer surface of the half frame, A first insulating member is disposed between the space and the first glass receiving portion, and a second spacing space between the first and second quarter frames and a second spacing space between the first and second glass receiving portions A second heat insulating member is disposed, the third insulating member between the closing part and a first space is arranged spaced apart.

The heat insulating members bind the half frame and the quarter frames, and may be formed of a heat insulating material to prevent heat transfer between the frames. The frames may be provided with a first spacing space and a second spacing space therebetween so as not to directly contact other frames and transmit heat, and the spacing space may be filled with air to block heat transfer between the frames.

In this embodiment, the half frame, the first quarter frame and the second quarter frame are assembled together to form a single column-shaped heat insulating frame assembly. The heat insulating frame assembly is formed into various columns such as a cylinder, an ellipse column, And the outer surface of the column may also be connected continuously or discontinuously as a whole.

When the heat insulating frame assembly is disposed at the corner, the glass can be bonded to the first glass receiving portion and the second glass receiving portion. In this case, the outer surface of the heat insulating frame assembly, which is not bonded to the glass, may be decorated with a frame cover, the outer surface of the half frame and the outer surface of the second quarter frame being covered with the outer surface of the first quarter frame, Can be covered. This makes it possible to thermally isolate the inside and outside of the window system which is perpendicular or at various angles.

The heat insulating frame assembly according to the present embodiment may be disposed at the end of the window system such as a door frame in addition to the corner. In the case where the door is arranged vertically to the glass, the finishing portion faces the door, the glass is coupled to the second glass accommodating portion, the outer surface of the first quarter frame and the half frame is covered by the third frame cover, The finishing cover formed between the second quarter frames may be covered with a finishing cover made of an insulating material and the outer surface of the second quarter frame may cover the fourth frame cover. In this specification, the case where the door and the glass are vertically arranged is not limited to exactly 90 degrees, and the case where the door and the glass are formed at different angles other than 90 degrees according to the angle formed by the inner surface of the quarter frame.

In another case, when the doors are arranged in parallel, the finishing portion faces the door, the glass is coupled to the first glass receiving portion, the outer surface of the half frame is covered by the fifth frame cover, And the sixth frame cover can cover the outer surfaces of the second quarter frame and the first quarter frame.

The finishing portion includes a first heat insulating member binding portion protruding from the half frame through the first spacing space and providing a first insertion groove and a second heat insulating member binding portion projecting from the second quarter frame and providing a second insertion groove And engaging grooves are formed on outer surfaces of the first and second heat insulating member binding portions so as to be engageable with the inner surface of the covering cover.

In this embodiment, at least one insulating member may be provided between the half frame and the first quarter frame, between the first quarter frame and the second quarter frame, and between the second quarter frame and the half frame. In addition, a thermal insulating member may be further provided, and as an example, a fourth thermal insulating member may be further disposed between the first spaced space and the second spaced space.

The heat insulating frame assembly of the present invention is specialized in corners and door frames, and can be used in various positions and applications such as corners as well as door frames as a single material.

In addition, a half frame and two quarter frames can be used, but two glass receiving portions and one finishing portion can be used to form a combination of various heat insulating structures.

1 is a view for explaining an installation example of a heat insulating frame assembly according to an embodiment of the present invention.
2 is a view for explaining a sectional structure of a heat insulating frame assembly according to an embodiment of the present invention.
FIG. 3 is a view for explaining an assembling structure of the heat insulating frame assembly of FIG. 2. FIG.
FIG. 4 is a view for explaining a state where the glass is coupled to the heat insulating frame assembly of FIG. 2. FIG.
FIG. 5 is a view for explaining whether a door frame is formed by using an insulating frame assembly according to an embodiment of the present invention. FIG.
6 is a view for explaining a finishing portion and a finishing cover in an insulating frame assembly according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments. For reference, the same numbers in this description refer to substantially the same elements, and the contents described in the other drawings under the above-mentioned rules can be explained by quoting, and the contents which are judged to be obvious to the person skilled in the art or repeated can be omitted.

FIG. 1 is a view for explaining an installation example of a heat insulating frame assembly according to an embodiment of the present invention, FIG. 2 is a view for explaining a sectional structure of a heat insulating frame assembly according to an embodiment of the present invention, Is a view for explaining an assembling structure of the heat insulating frame assembly of FIG.

Referring to FIG. 1, the heat insulating frame assemblies A to D according to the present embodiment can be applied to corners or ends of a window system, and can be arranged in various shapes and structures according to the design of a window system. Among these, the heat insulating frame assemblies A, C, and D disposed at the corners can accommodate single or double glass in two glass receiving portions, and the heat insulating frame assembly B, which functions as a door frame, Glass can be accommodated only in the glass receiving part.

In addition, the heat insulating frame (E) arranged in a straight line provides a glass receiving portion on a surface facing each other, and the heat insulating frame (F) including only one glass receiving portion can also be used as a door frame. However, the heat insulating frame (E) arranged on a straight line or the heat insulating frame (F) including only one glass receiving portion can not be used for corners or the like.

Although the insulation frame assembly 100 of Fig. 2 refers to the insulation frame assembly C located at the lower right end of Fig. 1 which can be used for the corners, the other insulation frame assemblies A, The heat insulating frame assembly 100 of FIG.

2, the heat insulating frame assembly 100 includes a first quarter frame 120, a first quarter frame 130 facing the first quarter frame 120 and a first quarter frame 120, A first glass receiving portion 142 is provided at a region where the outer surface of the first frame 120 and the outer surface of the half frame 110 meet, A second glass receiving part 144 is formed in a region where the first quarter frame 120 and the outer surface of the second quarter frame 130 meet and the second glass receiving part 144 is formed in a region where the second quarter frame 130 and the half frame 110 A finishing portion 146 may be formed in an area where the outer surface meets.

A first spacing space 162 is formed between the first quarter frame 120 and the half frame 110 and a second spacing space 164 between the first and second quarter frames 120 and 130. [ So that the frames are connected by a heat insulating member without being in direct contact, or are separated by an air layer.

The first heat insulating member 151 is disposed between the first spacing space 162 and the first glass receiving portion 142 and the second heat insulating member 151 is disposed between the second spacing space 164 and the second glass receiving portion 144. [ A member 152 may be disposed and a third insulating member 153 may be disposed between the finishing portion 146 and the first spacing space 162. [ The fourth insulating member 153 may be disposed between the first spacing space 162 and the second spacing space 164 to form a first quaternary frame 120 and the second quarter frame 130 are interconnected.

The first to fourth heat insulating members 151 to 153 bond the half frame 110 and the quarter frames 120 and 130 to each other and may be formed of a heat insulating material to prevent heat transfer between the frames. In the present embodiment, the heat insulating members are disposed at both ends of the first spacing space 162 and the second spacing space 164, but in some cases, the heat insulating members may be disposed at one of the center portion and the spacing space.

Further, the heat insulating members include triangular-shaped insertion protrusions at both ends, and an insertion groove having a narrow entrance and a wide internal space is formed in the binding portion bounded by the heat insulating member. Therefore, the insertion protrusions can be inserted into the insertion grooves to couple adjacent frames to each other. However, in addition to this, the heat insulating member and the coupling portion can use various shapes and schemes. For example, it is one of the cases where a liquid azon is filled and then an insulating material is formed by curing it.

The first and second quaternary frames 120 and 130 are connected to each other by the second heat insulating member 152 and the fourth heat insulating member 153 and then the heat insulating member binding unit is pressed upward and downward, It is possible to firmly fix the heat insulating members to each other. Thereafter, the first and second quaternary frames 120 and 130 are connected to the half frame 110 by using the first and second heat insulating members 151 and 153, So that the heat insulating members can be firmly fixed.

Although the heat insulating frame assembly 100 is formed in a rectangular column shape by the half frame 110, the first quarter frame 120 and the second quarter frame 130, the half frame is formed into a semicircular shape, The heat insulating frame assembly may be formed in a fan shape having a central angle to form a columnar heat insulating frame assembly as a whole. In addition, elliptical columns, pentagonal pillars and various other columnar shapes are possible.

Receiving grooves may be formed at the corners of the half frame 110 and the first quarter frame 120 corresponding to the first glass receiving portions 142. These receiving grooves are adjacently joined to each other to form the first glass receiving portion 142 ) Can be formed. Similarly, the second glass receiving part 144 may be formed at the corners of the first and second quarter frames 120 and 130.

The finishing portion 146 may be provided with a structure capable of mounting the finishing cover 180. The finishing portion 146 may be covered with a frame cover or the like made of a stainless steel material, So that it can be fixed.

The heat insulating frame assembly 100 may be disposed at a corner, and the first glass receiving portion 142 and the second glass receiving portion 144 may be opened to the outside so that the glass can be joined. In this case, the outer surface of the heat insulating frame assembly 100, which is not bonded to the glass, may be decorated with a frame cover, wherein the first frame cover 171 starts from the first glass receiving portion 142, And the other end thereof is partially inserted into the second glass receiving portion 144. The second glass receiving portion 144 is provided with a second glass receiving portion 144, The second frame cover 172 may be inserted into the first glass receiving portion 142 from the second glass receiving portion 144 to cover the outer surface of the first quarter frame 120. The heat insulating frame assembly 100 used in the corner can thermally isolate the inside and outside of the window system which is perpendicular or at various angles using the above-described coupling structure.

FIG. 4 is a view for explaining a state where the glass is coupled to the heat insulating frame assembly of FIG. 2. FIG.

4, the ends of the double glass are inserted into the first glass receiving part 142 and the second glass receiving part 144 in the heat insulating frame assembly 100 of FIG. 2, May be fixed to the insulating frame assembly 100. As a result, the inside and outside of the window system can be thermally separated from each other by the insulating frame assembly 100 as well as the double glass.

FIG. 5 is a view for explaining whether a door frame is formed by using an insulating frame assembly according to an embodiment of the present invention. FIG.

5 (a) and 5 (b) illustrate the case where the door and the glass are arranged vertically in the window system, and FIGS. 5 (c) and 5 .

Referring to FIG. 5A, the glass is joined to the second glass receiving portion 144 in the heat insulating frame assembly 100, and the finishing portion 146 faces the door. A finish cover 180 is connected to the finishing portion 146. A third frame cover 173 covers the outer surfaces of the first quarter frame 120 and the half frame 110 and the second quarter frame 130 Is covered by the fourth frame cover 174. As a result, both the inside and outside of the door frame can be thermally separated from the inside and outside of the door frame.

However, as shown in FIG. 5 (b), when the glass is coupled to the first glass receiving portion 142 and the finishing portion 146 faces outwardly, it is difficult to achieve the heat insulation. Specifically, in this case, although a finishing cover can be used for the finishing portion, there is no benefit, and the entire heat insulating frame assembly can be connected by a single frame cover. However, in this case, the half frame 110 and the frame cover may not insulate against the door. This is because heat is transferred to the inside and outside of the door by the half frame 110 and the frame cover.

If the door and the glass are side by side, there can be completely different results.

For example, referring to FIG. 5 (c), the glass is coupled to the first glass receiving portion 142 in the heat insulating frame assembly 100, and the closing portion 146 located on the opposite side faces the door. A finishing cover 180 is connected to the finishing portion 146. A fifth frame cover 175 covers an outer surface of the half frame 110 and a first quarter frame 120 and a second quarter frame 130 Is covered with the sixth frame cover 176. [ As a result, both the inside and outside of the door frame can be thermally separated from the inside and outside of the door frame.

However, as shown in FIG. 5 (d), if the glass is coupled to the second glass receiving portion 144 and the finishing portion 146 faces outwardly, it is difficult to achieve the heat insulation. Specifically, in this case, a finishing cover can be used for the finishing portion, but there is no benefit, and the entire heat insulating frame assembly can be connected with a single frame cover. However, even in this case, the half frame 110 and the frame cover may not insulate against the door.

6 is a view for explaining a finishing portion and a finishing cover in an insulating frame assembly according to an embodiment of the present invention. For reference, the finishing cover 180 can be used for thermally separating the frame cover around a door or the like when the heat insulating frame assembly 100 is used at an end portion of a window system.

6, the finishing portion 146 includes a first heat insulating member binding portion 115 projecting from the half frame 110 with a first spacing space 162 therebetween and providing a first insertion groove, And a second insulating member binding portion 135 protruding from the quarter frame 130 and providing a second insertion groove are formed respectively and the outer surface of the outer surface of the first insulating member binding portion 115 and the outer surface of the second heat insulating member binding portion 135 The engaging grooves 116 and 136 that can be engaged with the inner surface of the finishing cover 180 can be formed. Herein, the inner surface of the covering cover 180 can be understood as including not only the inner surface of the cover but also the inner surface of the end.

Although the present invention has been described with reference to the preferred embodiments thereof, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the following claims. It can be understood that

100: Positioning device 110: Half frame
120: first quarter frame 130: second quarter frame
142: first glass receiving part 144: second glass receiving part

Claims (6)

delete delete An insulation frame assembly adapted to a corner or an end of a window frame,
A first quarter frame; A second quarter frame facing one side of the first quarter frame; And a half frame facing one side of the first quarter frame and the other side of the second quarter frame at the same time,
Wherein a first glass receiving portion is formed in a region where the first quarter frame and an outer surface of the half frame meet and a second glass receiving portion is formed in a region where the first quarter frame and the outer surface of the second quarter frame meet, A finishing portion is formed in a region where the outer surface of the half frame and the outer surface of the half frame meet,
A first heat insulating member is disposed between a first spacing space between the first quarter frame and the half frame and between the first glass receiving portion,
A second heat insulating member is disposed between the first glass frame and the first glass frame and between the first glass frame and the second glass frame,
A third heat insulating member is disposed between the finishing portion and the first spacing space,
Wherein the heat insulating frame assembly is disposed at an end thereof and the glass and the door are vertically disposed, the finishing portion faces the door, the glass is coupled to the second glass receiving portion, and the outer surface of the first quarter frame and the half frame And a fourth frame cover covering an outer surface of the second quarter frame. The fourth frame cover may include a second frame cover covering the second frame, a second frame cover covering the second frame, Lt; / RTI > An insulation frame assembly adapted to a corner or an end of a window frame,
A first quarter frame; A second quarter frame facing one side of the first quarter frame; And a half frame facing one side of the first quarter frame and the other side of the second quarter frame at the same time,
Wherein a first glass receiving portion is formed in a region where the first quarter frame and an outer surface of the half frame meet and a second glass receiving portion is formed in a region where the first quarter frame and the outer surface of the second quarter frame meet, A finishing portion is formed in a region where the outer surface of the half frame and the outer surface of the half frame meet,
A first heat insulating member is disposed between a first spacing space between the first quarter frame and the half frame and between the first glass receiving portion,
A second heat insulating member is disposed between the first glass frame and the first glass frame and between the first glass frame and the second glass frame,
A third heat insulating member is disposed between the finishing portion and the first spacing space,
The fifth frame cover which covers the outer surface of the half frame, and the second frame cover which covers the outer surface of the half frame, A finishing cover of an insulating material covering the finishing portion formed between the half frame and the second quarter frame, and a sixth frame cover covering the outer surfaces of the second quarter frame and the first quarter frame. Lt; / RTI > The method according to claim 3 or 4,
A first insulating member binding portion protruding from the half frame with the first spacing space therebetween to provide a first insertion groove and a second insulating member binding portion protruding from the second quarter frame and providing a second insertion groove, An insulating member binding portion is formed,
Wherein an engaging groove capable of engaging with the inner surface of the closing cover is formed on an outer surface of the first heat insulating member binding portion and the second heat insulating member binding portion. The method according to claim 3 or 4,
Wherein a fourth heat insulating member is further disposed between the first spacing space and the second spacing space.

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