KR102449318B1 - Detachable double window - Google Patents

Abstract

One aspect of the present invention relates to a double-glazed window constructed in a building having a built-in insulating material (5) between the outer / inner wall (1) (2) and the outer / inner wall (1) (2) constructed at a predetermined interval, the Window frames 10 fixed to the openings of the outer / inner wall (1) (2), respectively; a plurality of windows 20 overlappingly mounted so as to be able to slide open and close for each window frame 10; The window frames 10 are coupled to each other at each opposing corner, and the window frames 10 are spaced apart by the width of the insulating material 5 and spaced parallel to each other to block heat transfer between the window frames 10 It is characterized in that it comprises a;
Therefore, the present invention not only has compatibility that can be installed regardless of the thickness of the wall, but also comprises a heat-insulating connecting member that is coupled only to the corner between the window frames, so that the window frames are connected as a single body, thereby improving the convenience and completeness of construction. Of course, there is an effect of securing excellent thermal insulation performance by providing an insulating space that blocks heat transfer between the window frames.

Description

Detachable double window

The present invention relates to a separate double-glazed window and a method for constructing the same, and more particularly, by dividing the window frame for installing the double-glazed window on the wall of a building, it can be installed regardless of the thickness of the wall, as well as the corner between the window frames By constructing an insulating connecting member that is combined only in parts, it is possible to improve the convenience and completeness of construction by connecting the window frames as a single body, as well as to secure excellent thermal insulation performance by providing an insulating space that blocks heat transfer between the window frames. It relates to a separate double-glazed window and a construction method.

Usually, most buildings such as houses/apartments/villas/buildings have windows installed on the outside, and these windows not only decorate the exterior of the building more beautifully and serve as a passageway for sunlight and wind to enter and exit, but also block the heat and cold. However, in modern times, in addition to this purpose, it is adding a pleasant environment to residents with fire/waterproof/soundproof functions.

Most windows have a structure in which a window frame is fixedly installed in an opening of a wall formed in a rectangular shape in a building, and a sliding or casement window is installed to overlap the window frame. That is, the windows have a structure that opens and closes to ventilate indoor air while preventing rainwater from flowing into the room during winter heating or rain.

In recent years, double-glazed windows with double sliding doors are being widely constructed in order to improve soundproofing and thermal insulation properties. These double-glazed windows have a structure in which an insulating material made of polyamide or polyurethane is combined to block heat transfer between frames constituting the window frame.

On the other hand, in recent years, in order to improve the insulation properties of the building itself, the number of cases in which the insulation material is embedded in the inside of the wall is increasing. That is, the wall of the building is constructed so that the inner wall of the indoor side and the outer wall of the outdoor side are spaced apart from each other by a predetermined distance, and a heat insulating material is embedded between the outer/inner wall.

Such an insulated building can be constructed with various thicknesses of insulation materials or walls to be built according to the purpose or designer. Therefore, there is a problem in that it is impossible to construct a wall with a different thickness than the existing one-piece double-glazed windows, so there is no choice but to create a new one.

Korean Patent Publication No. 10-1952325 (Title of Invention: Assembly-type Miseogi Chang with improved insulation piece assembly structure)

The present invention has been proposed to solve the above problems, and by dividing the window frame to be installed as a double window on the wall of a building, it has compatibility that can be installed regardless of the thickness of the wall, as well as the corner between the window frames By constructing an insulating connecting member that is combined only in parts, it is possible to improve the convenience and completeness of construction by connecting the window frames as a single body, as well as to secure excellent thermal insulation performance by providing an insulating space that blocks heat transfer between the window frames. The purpose is to provide a separate double-glazed window and construction method.

A first embodiment of the present invention relates to a double-glazed window installed in a building in which an insulating material is embedded between an external/internal wall constructed at a predetermined interval and an external/internal wall, comprising: a window frame fixedly installed in an opening of the external/internal wall; a plurality of windows overlappingly mounted so as to be able to slide open and close for each of the window frames; A plurality of insulating connection members coupled to each other at every corner of the window frames facing the window frames and providing an insulating space for blocking heat transfer between the window frames by maintaining the intervals parallel to each other while the window frames are spaced apart by the width of the insulating material It is characterized in that it includes;

A second embodiment of the present invention relates to a double-glazed window constructed in a building in which an external/internal wall constructed at a predetermined interval and a passage through which air circulates from geothermal heat or air conditioner is provided between the external/internal wall, and the opening of the external/internal wall window frames fixed to each; a plurality of windows overlappingly mounted so as to be able to slide open and close for each of the window frames; A plurality of insulating connection members coupled to each other at every corner of the window frames facing the window frames and providing an insulating space for blocking heat transfer between the window frames by maintaining the intervals parallel to each other while the window frames are spaced apart by the width of the insulating material It is characterized in that it includes;

At this time, the window frame according to the present invention, a hollow outer frame disposed on the outdoor side of the outer wall and the indoor side of the inner wall, respectively, are coupled to each other in vertical and horizontal directions to surround the window to form a rectangular frame; a hollow inner frame disposed on the indoor side of the outer wall and the outdoor side of the inner wall and coupled to each other in vertical and horizontal directions to surround the window to form a rectangular frame; an insulating frame interposed between the outer frame and the inner frame and blocking heat transfer between the outer frame and the inner frame; It is characterized in that it is composed of; a connecting bracket that is vertically and horizontally inserted into each corner of the outer frame and the inner frame and coupled to a rectangular frame.

In addition, the outer frame and the inner frame according to the present invention, each vertically protruding from the center of the upper surface in contact with the window rail for inducing airtightness by engaging with the sliding movement of the window; A plurality of coupling protrusions each horizontally protruding to provide a slot at a predetermined interval on the side surfaces of the outer frame and the inner frame facing each other are formed, and the outer frames are respectively protruded vertically on one side of the upper surface to mount the insect screen A secondary rail that closes the gap between the window and the window; is formed, the inner frames, the lower connecting piece protruding horizontally at the lower side of the side to induce the coupling of the insulating connection member upward; An upper connecting piece protruding horizontally from the upper side of the side to induce the coupling of the insulating connecting member to the lower side; characterized in that it is formed.

In addition, in the lower connection piece according to the present invention, a pair of connecting rails protruding vertically upward at a predetermined interval on the upper surface is formed, and the upper connecting piece is bent in multiple stages in a direction and width facing the connecting rails. It is characterized in that it is formed; a bending rail to provide a fitting slot on the upper side.

In addition, the insulation frame according to the present invention, the insulation plate coupled to the lower side of the outer frame and the inner frame; A heat insulating bar of a ⅗-shaped cross-section is coupled to the upper side of the side of the outer frame and the inner frame; a heat insulating space is provided to block heat transfer between the heat insulating plate and the heat insulating bar, and the heat insulating plate and the heat insulating bar protrude from both sides and insulating protrusions that are slide-fitted between the coupling protrusions; are formed, respectively, and the insulating rods are respectively slide-fitted to both sides of the vertically protruding portion to block the gap with the window; characterized in that it is configured .

In addition, the window frame according to the present invention is inserted and mounted between the inner frames, and seals the heat insulating material and the heat insulating space and blocks heat transfer; characterized in that it further comprises.

In addition, the window frame according to the present invention, the insulating space provided between the inner frames is filled to fill all of the insulating material and the insulating material and integrally cured to block heat transfer; It characterized in that it further comprises; a heat insulation finish cover fitted between the inner frames, and covering the insulation sealing material to block sunlight.

In addition, the detachable double-glazed window according to the present invention is fitted between the window frames fixedly installed in the openings of the outer/inner wall, respectively, and covers the passage to block the inflow of foreign substances and a perforated cover having a hole for air to flow; It is characterized in that it further comprises.

In addition, the heat insulating connection member according to the present invention is formed in an L-shaped cross-sectional shape that is vertically and horizontally inserted between the lower connection piece and the upper connection piece, and is linear on both sides of the outer / inner surface so as to be slide-coupled within the lower connection piece and the upper connection piece. of the rail groove; characterized in that it is formed.

In addition, the insulating connection member according to the present invention, a circular avoiding groove cut to reduce the coupling error with the inner frame at the inner corner where the vertical and horizontal branching starts; is formed, both ends protruding vertically and horizontally A sloped surface is formed so that the portion is gradually inserted into and coupled to the upper/lower connection piece, and a plurality of heat insulating holes are formed to communicate with each other at each of the sloped surfaces at both ends to block heat transfer.

Another aspect of the present invention relates to a method of constructing a double-glazed window in a building having a built-in insulating material between the external/internal wall and the external/internal wall constructed at a predetermined interval, and has a size corresponding to the opening of the external/internal wall, a window frame preparation step of preparing a window frame installed on the outer wall and a window frame installed on the inner wall, respectively; a window frame connecting step of coupling the insulating connecting members to each corner of the prepared window frames in parallel to each other in a state spaced apart by the width of the insulating material; a window frame shielding step of fixing and installing the window frame coupled as a single body to an outer/inner wall, and coupling a masking member to the window frame to create a blocking wall; a sealing filling step of filling the space provided between the window frames with an insulating sealing material and removing the masking member coupled to the window frame; and a sealing closing step of covering and concealing the filled insulating sealing material by coupling the insulating closing cover to the position of the window frame from which the masking member is removed.

The double-glazed window according to the first and second embodiments of the present invention has compatibility that can be installed regardless of the thickness of the wall by dividing the window frame to be installed as a double window on the wall of the building, as well as between the window frames. By constructing an insulating connecting member that is combined only at the corners, the window frames are connected as a single body to enhance the convenience and completeness of construction, and as an insulating space to block heat transfer is provided between the window frames, it is possible to secure excellent thermal insulation performance. have.

In addition, the double-glazed window according to the first embodiment of the present invention interlocks with the insulation material previously constructed between the walls of the building by inserting an insulation board into the insulation space provided between the window frames or filling the insulation sealing material. It can improve the insulation and durability of the window frame, and by constructing an insulation finishing cover that covers the insulation board or insulation sealing material embedded and filled between the window frames and embedding it, it not only improves the aesthetics but also free radicals as light is blocked by the insulation material or insulation sealing material. It has the effect of preventing aging and sustaining the insulation performance.

In addition, the double-glazed window according to the second embodiment of the present invention can be applied to a specific building in which a passage through which air is circulated from the geothermal heat or air conditioner between the walls of the building is provided, as well as being coupled between the window frames. As the perforated cover covers the passage and blocks the inflow of foreign substances, it is possible to construct without impairing the function of the building.

In addition, the double-glazed window construction method of the present invention comprises a masking member that is temporarily coupled between the window frames, thereby blocking the inflow of foreign substances into the window frame during the filling of the insulating sealing material, thereby omitting a separate repair work to remove it. There is an effect that can be done.

In addition to the above-described effects, the specific effects of the present invention will be described together while describing specific details for carrying out the invention below.

1 is a cross-sectional view of a double-glazed window according to a first embodiment of the present invention by cutting the side thereof.
Figure 2 is a cross-sectional view showing the whole by cutting the side of the double-glazed window according to the second embodiment of the present invention.
3 and 4 are exploded views showing the window frame according to the present invention separated.
5 is a perspective view showing the assembled state of the window frame according to the present invention.
6 is an enlarged perspective view of the insulating connection member according to the present invention.
7 is a configuration diagram schematically showing the coupling state of the window frame and the insulating connection member according to the present invention.
8 to 10 are block diagrams showing modified examples of window frames according to the first and second embodiments of the present invention.
11 is a block diagram schematically illustrating a construction method of a double-glazed window according to the present invention.
12 to 14 are diagrams showing enlarged construction processes of double-glazed windows according to the present invention.
15 is an enlarged perspective view of the masking member according to the present invention.

Hereinafter, various embodiments of the present document will be described with reference to the accompanying drawings. However, it is not intended to limit the technology described in this document to specific embodiments, and it should be understood that various modifications, equivalents, and/or alternatives of the embodiments of this document are included. In connection with the description of the drawings, like reference numerals may be used for like components.

In addition, expressions such as "first," "second," used in this document may modify various elements regardless of order and/or importance, and to distinguish one element from another element. It is used only and does not limit the corresponding components. For example, 'first part' and 'second part' may represent different parts regardless of order or importance. For example, without departing from the scope of the rights described in this document, the first component may be named as the second component, and similarly, the second component may also be renamed as the first component.

In addition, terms used in this document are used only to describe specific embodiments, and may not be intended to limit the scope of other embodiments. The singular expression may include the plural expression unless the context clearly dictates otherwise. Terms used herein, including technical or scientific terms, may have the same meanings as commonly understood by one of ordinary skill in the art described in this document. Among the terms used in this document, terms defined in a general dictionary may be interpreted with the same or similar meaning to the meaning in the context of the related art, and unless explicitly defined in this document, ideal or excessively formal meanings is not interpreted as In some cases, even terms defined in this document cannot be construed to exclude embodiments of the present document.

The first embodiment of the present invention is a double construction in a building having a built-in insulating material (5) between the outer / inner wall (1) (2) and the outer / inner wall (1) (2) built at a predetermined interval as shown in FIG. As for the windows and doors, it is a separate type double-glazed window having the window frame 10, the window 20, and the insulating connection member 30 as the main components.

First, the window frame 10 according to the present invention is a frame that is fixedly installed in the openings of the outer/inner walls 1 and 2, respectively, as shown in FIG.

This window frame 10 is composed of an outer frame 11, an inner frame 12, an insulating frame 13, and a connection bracket 14 as shown in FIGS. 1 and 4 .

Here, the outer frame 11 to the connecting bracket 14 are all extruded into a bar shape, and the ends cut at an angle are engaged with each other and are coupled to each other in the vertical and horizontal directions to form a rectangular window frame 10 .

Therefore, in order to help the understanding of the description, hereinafter, among the components constituting the window frame 10 , the lower end which is horizontally disposed on the outer/inner walls 1 and 2 will be described.

And with reference to FIG. 1 , the outdoor side refers to the left side, and the indoor side refers to the right side.

The outer frame 11 is extruded in a hollow hollow shape, and is disposed on the outdoor side of the outer wall 1 and the indoor side of the inner wall 2 , respectively.

This outer frame 11 is formed in a rectangular cross-sectional shape, and is fixedly installed to be exposed indoors and outdoors.

The inner frame 12 is extruded in a hollow hollow shape, and is disposed on the indoor side of the outer wall 1 and the outdoor side of the inner wall 2 , respectively.

The inner frame 12 is formed in a rectangular cross-sectional shape and is fixedly installed in a state of being concealed from indoors and outdoors.

Here, the outer frames 11 and the inner frames 12 have the window rails 11a and 12a vertically protruding at the same height to the center of the upper surface as shown in FIG. 3 .

These window rails (11a, 12a) guide the sliding opening and closing movement of the window (20), while also inducing airtightness by engagement with the window (20).

And the outer frame 11 and the inner frame 12 has a plurality of coupling projections (11b, 12b) on the side facing each other to protrude obliquely.

That is, a slot having a triangular cross-sectional shape is provided between the coupling protrusions 11b and 12b so that the heat insulating frame 14 is slide-coupled.

In addition, auxiliary rails 11c vertically protrude from the upper left and right sides of the outer frame 11 .

That is, an insect screen is mounted on the auxiliary rail 11c of the outer frame 11 installed on the outer wall 1, and the window 20 and the auxiliary rail 11c of the outer frame 11 installed on the inner wall 2 close the gap in

In addition, the inner frame 12 is horizontally protruded at the lower end of the side facing each other, the lower connection piece (12c) is formed to induce the coupling of the heat insulating connection member 30 upward.

And an upper connection piece (12d) which horizontally protrudes from the upper end of the lower connection piece (12c) and induces the coupling of the heat insulating connection member (30) downward is formed.

Here, on the upper surface of the lower connecting piece 12c, a pair of connecting rails 12c-1 vertically protruding upward at a predetermined interval are formed.

In addition, the upper connecting piece (12d) is bent downward in multiple stages in accordance with the width of the connecting rails (12c-1) in a direction opposite to the connecting rails (12c-1) to provide a fitting slot on the upper side bending rail (12d-1) is formed

The connection rail 12c-1 and the bending rail 12d-1 engage with the rail groove 31 of the heat insulation connection member 30 to be described later to induce slide coupling.

At this time, the upper side of the bending rail (12d-1) is provided with a fitting slot opened upward due to the downward bending.

Here, on the side of the fitting slot, the locking jaw protrudes horizontally so that the insulating finish cover 17 and the masking member 19 are fitted to each other.

The insulating frame 13 is extruded from polyamide, and is interposed between the outer frame 11 and the inner frame 12 to block heat transfer.

The heat insulating frame 13 is divided and knitted into a heat insulating plate 13a coupled to the lower side of the side of the outer frame 11 and the inner frame 12, and a heat insulating rod 13b having an ⅗ cross-sectional shape coupled to the upper end.

Therefore, between the heat insulating plate (13a) and the heat insulating rod (13b), the heat insulating space (S) to block the heat transfer is automatically implemented.

Here, at both ends of the heat insulating plate 13a and the heat insulating bar 13b, the insulating protrusions 13c having a triangular cross-sectional shape that engage and slide-fit with the coupling protrusions 11b and 12b extend and protrude.

And a portion of the insulating bar 13b that protrudes vertically upward is interposed between the windows 20 that are mounted to overlap each other.

Slots are provided on both sides of the protruding portion of the insulating rod 13b, and a gasket 13d for blocking a gap with the window 20 is slide-fitted to the slot.

Here, the protruding portion of the heat insulating rod 13b is formed in a hollow interior to provide a heat insulating space (S).

Therefore, even if heat is transmitted from one window 20 through the gasket 13d, the transmission to the other window 20 may be blocked by the heat insulating space S.

The connection bracket 14 is vertically and horizontally inserted and interposed at the edge where the outer frame 11 and the inner frame 12 are engaged, as shown in FIG. 4 .

This connection bracket 14 is formed in a L-shaped cross-section, and combines the outer frame 11 and the inner frame 12 with a rectangular frame.

And the window 20 according to the present invention is mounted to be able to slide open and close for each window frame 10 as shown in FIG.

The window 20 is largely composed of a window frame 21 , a corner member 22 , a window wheel 23 , and a pair of glass windows 24 .

The window frame 21 is extruded like the outer frame 11 and the inner frame 12 of the window frame 10, and is coupled to each other in the vertical and horizontal directions to be assembled into a rectangular frame.

The corner member 22 is extruded into a V-shaped cross-sectional shape, and is inserted and mounted on the outer edge of the window frame 21 .

These corner members 22 cover both sides of the window rails 11a and 12a to block gaps and block heat transfer to the inside.

The window wheel 23 is inserted and mounted in the lower concave portion of the window frame 21 and performs a rolling motion so as to slide along the window rails 11a and 12a.

The glass window 24 is mounted in multiple layers at a predetermined interval inside the window frame 21 , and is finished with silicone.

Here, it is preferable to inject a transparent inert gas between the glass windows 24 to secure a view while blocking heat transfer.

Finally, the insulating connection member 30 according to the present invention is coupled to each of the opposite corners of the window frames 10 separated from each other as shown in FIG. 1 and assembled as a single body.

As shown in FIGS. 4 and 5 , the insulating connection member 30 maintains the window frames 10 in parallel with each other while being spaced apart by the width of the insulating material 5 .

That is, the existing double-glazed windows have an integrated structure in which an intermediate frame is coupled to be spaced apart between the window frames.

Therefore, it cannot be applied to a wall having various widths depending on the insulator 5, and there is a problem in that windows and doors must be newly manufactured in order to apply this.

On the other hand, according to the present invention, the space between the window frames 10 can be arbitrarily changed through the insulating connection member 30 having various widths according to the thickness of the wall and the size of the insulating area, so it can be installed regardless of the width of the wall. can be That is, the present invention is capable of responding to various wall conditions by providing the insulating connection member 30 of various standards.

Above all, although it is relatively small, it is possible to reduce the overall construction cost by requiring only four quantities per window.

And, due to the insulating connection member 30, the insulating space (S) is automatically realized between the window frames (10) except for the corners.

Therefore, it is possible to improve the thermal insulation performance by blocking the heat transfer between the indoor and outdoor, and it makes it possible to extend the built-in insulator 5 to the window frame 10 .

As shown in FIG. 4 , the insulating connection member 30 is formed in an L-shaped cross-sectional shape with a width corresponding to the width of the insulator 5 or the passage 6 of the second embodiment to be described later.

The insulating connection member 30 is vertically and horizontally inserted and mounted at every corner of the window frame 10 .

Here, the heat insulation connecting member 30 is formed with a linear rail groove 31 on both sides of the outer/inner surface so as to be slide-coupled between the upper/lower connecting pieces 12c and 12d as shown in FIG. 6 .

That is, the rail groove 31 is engaged with the connecting rail 12c-1 and the bending rail 12d-1 protruding between the upper/lower connecting pieces 12c and 12d, respectively.

At this time, the heat insulating connection member 30 is formed by cutting a circular avoiding groove 32 at the inner edge where the vertical and horizontal branching begins.

This avoidance groove 32 reduces the coupling error with the inner frame 12 so as to be coupled to the correct position.

For example, when the avoiding groove 32 is not formed, interference with the inner frame 12 occurs at the inner edge of the insulating connection member 30 as shown in FIG. 7A , so that the inner frame 12 is spaced apart from each other. Occurs.

On the other hand, when the avoiding groove 32 is formed, interference with the inner frame 12 is prevented as shown in FIG. 7B , so that the inner frames 12 are closely coupled to each other.

In addition, the insulating connection member 30 has a sloped surface 33 inclined at a predetermined angle so that both ends protruding vertically and horizontally are gradually inserted and coupled in the upper/lower connection pieces 12c and 12d as shown in FIG. 6 . .

That is, when both ends are formed to be flat, the upper/lower portions are simultaneously engaged with the connecting rails 12c-1 and the bending rails 12d-1 during insertion into the upper/lower connecting pieces 12c and 12d. If not aligned with the connecting pieces 12c and 12d, a strong interference is induced, and assembly is difficult.

On the other hand, when the both ends are formed to be inclined, the upper/lower connecting piece 12c only with a simple insertion act as the bending rail 12d-1 and the connecting rail 12c-1 after the line bite, that is, the bite occurs sequentially. ) (12d), it is automatically aligned in the same line, so quick and simple assembly is possible.

In addition, the heat insulating connection member 30 is perforated to communicate with each other for each of the inclined surfaces 33 at both ends, a plurality of heat insulating holes 34 to block heat transfer are formed.

These insulating holes 34 not only block heat transfer between the window frames 10, but also reduce the cost of raw materials and improve strength by relieving stress concentration.

On the other hand, the window frame 10 according to the present invention may further include an insulating board 15 inserted and mounted between the inner frames 12 as shown in FIG.

The heat insulating board 15 is formed of a heat insulating resin material or heat insulating wood, and seals the heat insulating material 5 and the heat insulating space (S) from the outside and blocks heat transfer.

That is, the insulating plate 15 prevents the accumulation of moisture or other foreign substances by sealing the open insulating space S due to the insulating connecting member 30 while increasing the bondability between the window frames 10 .

The insulating plate 15 may be formed in a cross-sectional shape covering the insulating space (S) on the lower side, but may be formed in a cross-sectional shape filling all of the insulating space (S).

The insulating sealing material 15 is a liquid insulating material such as mortar or silicone-based putty, caulking, and sealant, and is cured integrally with the built-in insulating material 5 .

As the insulating sealing material 15 is completely filled in the insulating space (S), it is realized that the insulating material (5) is extended between the window frames (10).

Therefore, by expressing the effect of merging the building and the double-glazed windows into a single unit, it is possible to increase the compatibility between the building and the double-glazed windows, thereby increasing the overall construction completion of the building.

At this time, the window frame 10 according to the present invention may further include a thermal insulation finish cover 17 fitted between the inner frames 12 as shown in FIG. 9 .

The insulating finish cover 17 is a plate material extruded to have a length corresponding to the width of the insulating material 5, and hook-shaped fitting pieces 17a bent vertically downward are formed at both ends.

That is, the fitting piece 17a of the insulating finish cover 17 is coupled to the fitting slot provided at the upper end of the bending rail 12d-1 to cover the filled and cured heat insulating sealing material 16 .

Accordingly, the insulating sealing material 16 having a color and texture different from that of the window frame 10 is concealed by the insulating finish cover 17, thereby providing an aesthetic feeling in which the window frames 10 are integrated with each other.

Above all, as the insulating finish cover 17 covers the insulating sealing material 16, contamination by foreign substances or free radical reaction due to light is suppressed, thereby increasing the lifespan.

Here, the insulating finish cover 17 is not shown in a separate drawing, but may be applied to the insulating plate material 15 like the insulating sealing material 16 .

The second embodiment of the present invention is a passage through which air is circulated from the geothermal or air conditioner between the outer/inner wall (1) (2) and the outer/inner wall (1) (2) constructed at a predetermined interval as shown in FIG. 2 (6) It relates to a double-glazed window to be constructed in a building in which is provided, and is a separate double-glazed window having a window frame 10, a window 20, and an insulating connection member 30 as main components.

Since the window frame 10 to the insulating connection member 30 of the second embodiment have the same structure as the first embodiment described above, a separate description thereof will be omitted.

However, the window frame 10 of the second embodiment does not include the insulating plate material 15 or the insulating sealing material 16 .

That is, the second embodiment of the present invention can be installed irrespective of the width of the passage 6 as the distance between the window frames 10 can be arbitrarily changed through the heat insulating connection member 30 .

Above all, as the window frames 10 are spaced apart from each other by the width of the passage 6 and are spaced parallel to each other, it is possible to match the heating and cooling function of the building due to air circulation.

At this time, the window frame 10 of the second embodiment may further include a perforated cover 18 fitted between the inner frames 12 .

The perforated cover 18 has a width corresponding to the width of the passage 6 as shown in FIG. 10, and a plurality of holes are perforated to allow air to flow.

At both ends of the perforated cover 18, hook-shaped fitting pieces 18a bent vertically downward are formed.

That is, the fitting piece 18a of the perforated cover 18 is coupled to the fitting slot provided at the upper end of the bending rail 12d-1 to cover the passage 6 to be concealed.

Accordingly, the window frames 10 have a sense of unity due to the perforated cover 18, thereby improving the aesthetics.

Above all, as the perforated cover 18 covers the empty passage 6 through which the air flows, it blocks the inflow of foreign substances and continues the smooth flow of air.

Another aspect of the present invention relates to a method of constructing a double-glazed window of the first embodiment shown in FIG. This is a double-glazed window construction method in which the filling step (S40) and the sealing finishing step (S50) are sequentially performed.

That is, the double-glazed window of the first embodiment is to be constructed in a building in which the insulating material 5 is built-in between the outer / inner wall (1) (2) and the outer / inner wall (1) (2) constructed at a predetermined interval, the following I will explain each step sequentially, without dividing them.

First, a window frame 10 installed on the outer wall 1 and a window frame 10 installed on the inner wall 2 having a size corresponding to the opening of the outer/inner wall 1 and 2 are prepared, respectively.

That is, the outer frame 11 to the connecting bracket 14 constituting the window frame 10 are cut diagonally at the ends to match the horizontal and vertical lengths of the openings as shown in FIG. 3 .

And by coupling the insulating connection member 30 to each edge of the prepared window frames 10, they are coupled in parallel to each other in a state spaced apart by the width of the insulating material (5).

That is, as shown in FIG. 4 , the outer frame 11 to the connection bracket 14 and the insulating connection member 30 are combined to form a rectangular frame as shown in FIG. 5 .

Next, the window frame 10 combined as a single body is fixedly installed on the outer/inner wall 1 and 2 as shown in FIG. 12, and a masking member 19 with a fitting slot provided at the upper end of the bending rail 12d-1 as shown in FIG. 13. combine to create a barrier.

Next, as shown in FIG. 14 , the insulating sealing material 16 is filled into the space provided between the window frames 10 , and when the filling of the insulating sealing material 16 is completed, the coupled masking member 19 is removed.

Finally, the insulating closing cover 17 is coupled to the fitting slot from which the masking member 19 is removed to cover the filled insulating sealing material 16 .

That is, as the heat insulating sealing material 16 is pressed while the insulating finish cover 17 is coupled, the space is completely filled, and the surface of the insulating sealing material 16 is automatically formed to be flat.

At this time, the masking member 19 is a bar extruded into a C-shaped cross-sectional shape as shown in FIG. 15 , and a hook-shaped fitting piece 19a extending vertically is formed at the lower end thereof.

When the fitting piece 19a of the masking member 19 is coupled to the fitting slot provided at the upper end of the bending rail 12d-1 of the bending rail 12c-2, the inner frame 12 has a blocking wall such as a formwork. is created

That is, the masking member 19 blocks the inflow of the insulating sealing material 16 into the window frame 10 and the fitting slot while the insulating sealing material 16 is filled.

In this way, as the inflow into the window frame 10 is blocked in the process of filling the liquid insulating sealing material 16 by the masking member 19, a separate repair work to remove it can be omitted, thereby providing a quick and simple operation.

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and it is common in the technical field to which the present invention pertains without departing from the gist of the present invention as claimed in the claims. Of course, various modifications may be made by those having the knowledge of

S: Insulated space
1: outer wall
2: inner wall
5: Insulation
6: aisle
10: window frame
11: Outer frame
11a, 12a: window rails
11b, 12b: coupling protrusion
11c: auxiliary rail
12: inner frame
12c: lower connection piece
12c-1: connecting rail
12d: upper connection piece
12d-1: bending rail
13: insulation frame
13a: insulation plate
13b: insulating rod
13c: insulation protrusion
13d: gasket
14: connection bracket
15: insulation board
16: insulation sealing material
17: insulation finish cover
17a, 18a, 19a: fitting piece
18: perforated cover
19: masking member
20: window
21: window frame
22: corner member
23: window wheel
24: glass window
30: insulation connection member
31: rail groove
32: avoidance home
33: gradient surface
34: insulation hole
S10: Window frame preparation stage
S20: Window frame connection step
S30: Window frame shielding stage
S40: sealing filling step
S50: sealing finishing step

Claims (12)

In the double-glazed window constructed in a building with a built-in insulating material (5) between the outer / inner wall (1) (2) and the outer / inner wall (1) (2) constructed at a predetermined interval,
Window frames 10 fixed to the openings of the outer / inner wall (1) (2), respectively;
a plurality of windows 20 overlappingly mounted so as to be able to slide open and close for each window frame 10;
The window frames 10 are coupled to each other at every corner of the window frames 10 facing each other, and the window frames 10 are spaced apart from each other by the width of the insulating material 5 and spaced apart from each other in parallel to maintain a distance between the window frames 10 . A plurality of heat-insulating connection members 30 to provide a heat-insulating space (S) to block heat transfer to;
is made, including
The window frame 10 is
A hollow outer frame 11 disposed on the outdoor side of the outer wall 1 and the indoor side of the inner wall 2, respectively, and coupled to each other in vertical and horizontal directions to surround the window 20 to form a rectangular frame ;
a hollow inner frame 12 disposed on the indoor side of the outer wall 1 and the outdoor side of the inner wall 2 and coupled to each other in vertical and horizontal directions to surround the window 20 to form a rectangular frame;
an insulating frame 13 interposed between the outer frame 11 and the inner frame 12 and blocking heat transfer between the outer frame 11 and the inner frame 12;
a connection bracket 14 that is vertically and horizontally inserted at each corner of the outer frame 11 and the inner frame 12 to couple the outer frame 11 and the inner frame 12 into a rectangular frame;
It is characterized by consisting of
The window frame 10 is
an insulation board 15 inserted between the inner frames 12 and sealing the insulation 5 and the insulation space S and blocking heat transfer;
Separable double-glazed window, characterized in that it further comprises.
In a double-glazed window constructed in a building provided with a passage 6 through which air circulates from the geothermal heat or air conditioner between the outer / inner wall (1) (2) and the outer / inner wall (1) (2) constructed at a predetermined interval,
Window frames 10 fixed to the openings of the outer / inner wall (1) (2), respectively;
a plurality of windows 20 overlappingly mounted so as to be able to slide open and close for each window frame 10;
The window frames 10 are coupled to each other at every corner of the window frames 10 facing each other, and the window frames 10 are spaced apart from each other by the width of the insulating material 5 and spaced apart from each other in parallel to maintain a distance between the window frames 10 . A plurality of heat-insulating connection members 30 to provide a heat-insulating space (S) to block heat transfer to;
is made, including
The window frame 10 is
A hollow outer frame 11 disposed on the outdoor side of the outer wall 1 and the indoor side of the inner wall 2, respectively, and coupled to each other in vertical and horizontal directions to surround the window 20 to form a rectangular frame ;
a hollow inner frame 12 disposed on the indoor side of the outer wall 1 and the outdoor side of the inner wall 2 and coupled to each other in vertical and horizontal directions to surround the window 20 to form a rectangular frame;
an insulating frame 13 interposed between the outer frame 11 and the inner frame 12 and blocking heat transfer between the outer frame 11 and the inner frame 12;
a connection bracket 14 that is vertically and horizontally inserted at each corner of the outer frame 11 and the inner frame 12 to couple the outer frame 11 and the inner frame 12 into a rectangular frame;
It is characterized by consisting of
The window frame 10 is
an insulation board 15 inserted between the inner frames 12 and sealing the insulation 5 and the insulation space S and blocking heat transfer;
Separable double-glazed window, characterized in that it further comprises.
delete 3. The method of claim 1 or 2,
The outer frames 11 and the inner frames 12 are,
Window rails (11a) (12a) each vertically protruding from the center of the upper surface in contact with the window (20) to induce airtightness by sliding movement and engagement of the window (20);
A plurality of coupling protrusions (11b) and (12b) each horizontally protruding at a predetermined distance from the sides of the outer frame 11 and the inner frame 12 facing each other to form a slot; are formed,
The outer frames 11 are,
Auxiliary rails (11c) that protrude vertically on one side of the upper surface to close the gap between the installation of the insect screen and the window 20; is formed,
The inner frame 12 is,
a lower connecting piece (12c) protruding horizontally from the lower side of the side to induce the coupling of the insulating connecting member (30) upward;
Separable double-glazed windows, characterized in that the upper connecting piece (12d) that horizontally protrudes on the upper side of the side to induce the coupling of the insulating connecting member (30) to the lower side;
5. The method of claim 4,
The lower connection piece (12c) is,
A pair of connecting rails (12c-1) vertically protruding upward at a predetermined interval on the upper surface; is formed,
The upper connection piece (12d) is,
Separable type characterized in that the connecting rails (12c-1) are bent in multiple stages to the same width as the connecting rails (12c-1) in a direction opposite to the bending rail (12d-1) to provide a fitting slot on the upper side; double glazing.
5. The method of claim 4,
The thermal insulation frame 13,
Insulation plate (13a) coupled to the lower side of the outer frame (11) and the inner frame (12);
The outer frame 11 and the inner frame 12 are divided and knitted;
An insulating space (S) for blocking heat transfer is provided between the insulating plate (13a) and the insulating rod (13b),
The heat insulating plate (13a) and the heat insulating rod (13b),
Insulation protrusions (13c) that protrude from both sides and are slide-fitted between the coupling protrusions (11b) and (12b); are formed, respectively,
The insulating rod (13b) is,
A separate double-glazed window comprising: a gasket (13d) that is slide-fitted to both sides of the vertically protruding portion to block the gap with the window (20).
delete 3. The method of claim 1 or 2,
The window frame 10 is
a thermal insulation sealing material 16 which is filled to fill all of the insulation space S provided between the inner frames 12 and is cured integrally with the insulation material 5 to block heat transfer;
an insulating finish cover 17 fitted between the inner frames 12 and covering the insulating sealing material 16 to block sunlight;
Separable double-glazed window, characterized in that it further comprises.
3. The method of claim 2,
The detachable double-glazed window,
A perforated cover that is fitted between the window frames 10 that are fixedly installed in the openings of the outer/inner walls 1 and 2, respectively, covers the passage 6 to block the inflow of foreign substances and has a hole for air to flow through ( 18);
Separable double-glazed window, characterized in that it further comprises.
5. The method of claim 4,
The insulating connection member 30,
It is formed in a L-shaped cross-sectional shape that is vertically and horizontally inserted between the lower connection piece (12c) and the upper connection piece (12d),
Separable double-glazed windows, characterized in that; linear rail grooves 31 are formed on both sides of the outer and inner surfaces so as to be slide-coupled within the lower connecting piece 12c and the upper connecting piece 12d.
11. The method of claim 10,
The insulating connection member 30,
A circular avoiding groove (32) cut to reduce the coupling error with the inner frame (12) at the inner corner where the vertical and horizontal branching starts; is formed,
The inclined surface 33 is formed so that both ends protruding vertically and horizontally are gradually inserted and coupled in the upper/lower connecting pieces 12c and 12d;
Separated double-glazed windows, characterized in that each of the inclined surfaces (33) at both ends are perforated to communicate with each other, and a plurality of heat-insulating holes (34) for blocking heat transfer are formed.
delete

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